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3 OSPF
HH010.com is a small IT corporation that is attempting to implement the
network shown in the exhibit. Currently the implementation is partially
completed. OSPF has been configured on routers Chicago and NewYork. The
SO/O interface on Chicago and the SO/1 interface on NewYork are in Area 0.
The loopbackO interface on NewYork is in Area 1. However, they cannot ping
from the serial interface of the Seattle router to the loopback interface of the
NewYork router. You have been asked to complete the implementation to allow
this ping.
HH010.com’s corporate implementation guidelines require:
• The OSPF process ID for all routers must be 10.
• The routing protocol for each interface must be enabled under the routing
process.
• The routing protocol must be enabled for each interface using the most
specific wildcard mask possible.
• The serial link between Seattle and Chicago must be in OSPF area 21.
• OSPF area 21 must not receive any inter-area or external routes.(except the
default route)
Network Information
Seattle
S0/0 192.168.16.5/30 – Link between Seattle and Chicago
Secret Password: cisco
Chicago
S0/0 192.168.54.9/30 – Link between Chicago and NewYork
S0/1 192.168.16.6/30 – Link between Seattle and Chicago Secre
Password: cisco
NewYork
S0/1 192.168.54.10/30 – Link between Chicago and NewYork
Loopback0 172.16.189.189
Secret Password: cisco
HH010.com is a small IT corporation that is attempting to implement the
network shown in the exhibit. Currently the implementation is partially
completed. OSPF has been configured on routers Chicago and NewYork. The
SO/O interface on Chicago and the SO/1 interface on NewYork are in Area 0.
The loopbackO interface on NewYork is in Area 1. However, they cannot ping
from the serial interface of the Seattle router to the loopback interface of the
NewYork router. You have been asked to complete the implementation to allow
this ping.
HH010.com’s corporate implementation guidelines require:
• The OSPF process ID for all routers must be 10.
• The routing protocol for each interface must be enabled under the routing
process.
• The routing protocol must be enabled for each interface using the most
specific wildcard mask possible.
• The serial link between Seattle and Chicago must be in OSPF area 21.
• OSPF area 21 must not receive any inter-area or external routes.(except the
default route)
Network Information
Seattle
S0/0 192.168.16.5/30 – Link between Seattle and Chicago
Secret Password: cisco
Chicago
S0/0 192.168.54.9/30 – Link between Chicago and NewYork
S0/1 192.168.16.6/30 – Link between Seattle and Chicago Secre
Password: cisco
NewYork
S0/1 192.168.54.10/30 – Link between Chicago and NewYork
Loopback0 172.16.189.189
Secret Password: cisco
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Explanation/Reference:
Seattle Configuration:
Seattle>enable
Password:cisco
Seattle#conf t
Seattle(config)#router ospf 10
Seattle(config-router)#network 192.168.16.4 0.0.0.3 area 21
One of the tasks states that area 21 should not receive any external or
inter-area routes (except the default route).
Seattle(config-router)#area 21 stub
Seattle(config-router)#end
Seattle#copy run start
Chicago Configuration:
Chicago>enable
Password: cisco
Chicago#conf t
Chicago(config)#router ospf 10
Chicago(config-router)#network 192.168.16.4 0.0.0.3 area 21
Again, area 21 should not receive any external or inter-area routes (except the
default route).
In order to accomplish this, we must stop LSA Type 5 if we don’t want to send
external routes. And if we don’t want to send inter-area routes, we have to stop
LSA Type 3 and Type 4. Therefore we want to configure area 21 as a totally
stubby area.
Chicago(config-router)#area 21 stub no-summary
Chicago(config-router)#end
Chicago#copy run start
Seattle Configuration:
Seattle>enable
Password:cisco
Seattle#conf t
Seattle(config)#router ospf 10
Seattle(config-router)#network 192.168.16.4 0.0.0.3 area 21
One of the tasks states that area 21 should not receive any external or
inter-area routes (except the default route).
Seattle(config-router)#area 21 stub
Seattle(config-router)#end
Seattle#copy run start
Chicago Configuration:
Chicago>enable
Password: cisco
Chicago#conf t
Chicago(config)#router ospf 10
Chicago(config-router)#network 192.168.16.4 0.0.0.3 area 21
Again, area 21 should not receive any external or inter-area routes (except the
default route).
In order to accomplish this, we must stop LSA Type 5 if we don’t want to send
external routes. And if we don’t want to send inter-area routes, we have to stop
LSA Type 3 and Type 4. Therefore we want to configure area 21 as a totally
stubby area.
Chicago(config-router)#area 21 stub no-summary
Chicago(config-router)#end
Chicago#copy run start
The other interface on the Chicago router is already configured correctly in this
scenario, as well as the New York router so there is nothing that needs to be
done
on that router.
4 EIGRP
By increasing the first distant office,JS Industries has expanded their business
with the addition of their first remote office. The remote office router (R3) was
previously configured and all corporate subnets were reachable from R3. JS
Industries is interested in using route summarization along with the EIGRP
Stub Routing feature to increase network stability while reducing the memory
usage and bandwidth utilization to R3. Another network professional was
tasked with implementing this solution. However, in the process of configuring
EIGRP stub routing connectivity with the remote network devices off of R3 has
been lost. Currently EIGRP is configured on all routers R2, R3, and R4 in the
network. Your task is to identify and resolve the cause of connectivity failure
with the remote office router R3. Once the issue has been resolved you should
complete the task by configuring route summarization only to the remote office
router R3. You have corrected the fault when pings from R2 to the R3 LAN
interface are successful, and the R3 IP routing table only contains 2 10.0.0.0
subnets.
scenario, as well as the New York router so there is nothing that needs to be
done
on that router.
4 EIGRP
By increasing the first distant office,JS Industries has expanded their business
with the addition of their first remote office. The remote office router (R3) was
previously configured and all corporate subnets were reachable from R3. JS
Industries is interested in using route summarization along with the EIGRP
Stub Routing feature to increase network stability while reducing the memory
usage and bandwidth utilization to R3. Another network professional was
tasked with implementing this solution. However, in the process of configuring
EIGRP stub routing connectivity with the remote network devices off of R3 has
been lost. Currently EIGRP is configured on all routers R2, R3, and R4 in the
network. Your task is to identify and resolve the cause of connectivity failure
with the remote office router R3. Once the issue has been resolved you should
complete the task by configuring route summarization only to the remote office
router R3. You have corrected the fault when pings from R2 to the R3 LAN
interface are successful, and the R3 IP routing table only contains 2 10.0.0.0
subnets.
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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
other. Use the
show running-config command on router R3
![2016NEW 300-101 EXAM] Cisco.CCNP Exam PART2 VCE DUMPS FOR FREE DOWNLOAD WITH 100%PASS ENSURE](http://www.hotitexam.com/wp-content/uploads/2016/08/image-299.png "2016NEW 300-101 EXAM] Cisco.CCNP Exam PART2 VCE DUMPS FOR FREE DOWNLOAD WITH 100%PASS ENSURE")
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>enable
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
R3#copy run start
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 10.0.0.0
network. Use the
show ip route command on R3 to view its routing table
R3#show ip route
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>enable
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
R3#copy run start
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 10.0.0.0
network. Use the
show ip route command on R3 to view its routing table
R3#show ip route
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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 10.2.3.0/24, 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 summary other subnets into one subnet. In the output if we don’t see
the summary line (like 10.0.0.0/8 is a summary…) then we should use the
command ip summary-address eigrp 123 10.2.0.0 255.255.0.0 so that all the
ping can work well.
In conclusion, we will use the ip summary-address eigrp 123 10.2.0.0
255.255.0.0 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 10.2.0.0 255.255.0.0
R4(config-router)#end
R4#copy run start
Now we jump back to R3 and use the show ip route command to verify the
effect, the output is shown below:
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 10.2.3.0/24, 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 summary other subnets into one subnet. In the output if we don’t see
the summary line (like 10.0.0.0/8 is a summary…) then we should use the
command ip summary-address eigrp 123 10.2.0.0 255.255.0.0 so that all the
ping can work well.
In conclusion, we will use the ip summary-address eigrp 123 10.2.0.0
255.255.0.0 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 10.2.0.0 255.255.0.0
R4(config-router)#end
R4#copy run start
Now we jump back to R3 and use the show ip route command to verify the
effect, the output is shown below:
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(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)
But in your real exam, if you see the line “10.0.0.0/8 is a summary,….Null0″
then you need to summary using the network 10.0.0.0/8 with the command “ip
summary-address eigrp 123 10.0.0.0 255.0.0.0″ . This configuration is less
optimize than the first but it summaries into 2 subnets as the question requires
(maybe you will not see this case, don’t worry!).
保存命令“copy running-config startup-config” 可能会报错,不会因此扣分。不
用去管它,直接next 做下一题。
5 IPV6 OSPF
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 be seen in the routing table
of R1.
exam might be different so you might use different ones to solve this question)
But in your real exam, if you see the line “10.0.0.0/8 is a summary,….Null0″
then you need to summary using the network 10.0.0.0/8 with the command “ip
summary-address eigrp 123 10.0.0.0 255.0.0.0″ . This configuration is less
optimize than the first but it summaries into 2 subnets as the question requires
(maybe you will not see this case, don’t worry!).
保存命令“copy running-config startup-config” 可能会报错,不会因此扣分。不
用去管它,直接next 做下一题。
5 IPV6 OSPF
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 be seen in the routing table
of R1.
![2016NEW 300-101 EXAM] Cisco.CCNP Exam PART2 VCE DUMPS FOR FREE DOWNLOAD WITH 100%PASS ENSURE](http://www.hotitexam.com/wp-content/uploads/2016/08/image-302.png "2016NEW 300-101 EXAM] Cisco.CCNP Exam PART2 VCE DUMPS FOR FREE DOWNLOAD WITH 100%PASS ENSURE")
Answer and Explanation:
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:
<output omitted>
!
Ipv6 router ospf 1
Router-id 2.2.2.2
Log-adjacency-changes
!
<output omitted>
The output of the “show running-config” command of R3:
<output omitted>
!
Ipv6 router ospf 1
Router-id 3.3.3.3
Log-adjacency-changes
Area 54 virtual-link 4.4.4.4
!
<output omitted>
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:
<output omitted>
!
Ipv6 router ospf 1
Router-id 2.2.2.2
Log-adjacency-changes
!
<output omitted>
The output of the “show running-config” command of R3:
<output omitted>
!
Ipv6 router ospf 1
Router-id 3.3.3.3
Log-adjacency-changes
Area 54 virtual-link 4.4.4.4
!
<output omitted>
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 virtual-linkcommand.
+ 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 3.3.3.3
R2(config-rtr)#end
R2#copy run start
(Notice that we have to use neighbor router-id 3.3.3.3, not R2′s router-id
2.2.2.2)
+ 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
4.4.4.4″):
R3>enable
R3#configure terminal
R3(config)#ipv6 router ospf 1
R3(config-rtr)#no area 54 virtual-link 4.4.4.4
R3(config-rtr)#area 11 virtual-link 2.2.2.2
R3(config-rtr)#end
R3#copy run start
We should check the configuration on R4:
R4>enable
R4#show running-config
You will see a wrongly configured virtual-link command. To get full mark we
have to disable this command:
R4#configure terminal
R4(config)#ipv6 router ospf 1
R4(config-rtr)#no area 54 virtual-link 3.3.3.3
R4(config-rtr)#end
R4#copy run start
After finishing the configuration don’t forget to ping between R1 and R4 to
make sure they work well!
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 virtual-linkcommand.
+ 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 3.3.3.3
R2(config-rtr)#end
R2#copy run start
(Notice that we have to use neighbor router-id 3.3.3.3, not R2′s router-id
2.2.2.2)
+ 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
4.4.4.4″):
R3>enable
R3#configure terminal
R3(config)#ipv6 router ospf 1
R3(config-rtr)#no area 54 virtual-link 4.4.4.4
R3(config-rtr)#area 11 virtual-link 2.2.2.2
R3(config-rtr)#end
R3#copy run start
We should check the configuration on R4:
R4>enable
R4#show running-config
You will see a wrongly configured virtual-link command. To get full mark we
have to disable this command:
R4#configure terminal
R4(config)#ipv6 router ospf 1
R4(config-rtr)#no area 54 virtual-link 3.3.3.3
R4(config-rtr)#end
R4#copy run start
After finishing the configuration don’t forget to ping between R1 and R4 to
make sure they work well!
Now all the configuration was done. It is weird that we can’t ping the IPv6
loopback interface of R4 (with the ping or ping ipv6 command) but we can
check by using the command show ipv6 route on R1
The copying running-config startup-config command will not work but don’t
worry, just skip it.
Notice: If you issue the command “show running-config” on R1, you will see
these two lines: passive-interface default no passive-interface fa0/0 (fa0/0
is the interface connecting with R2)
These two lines make all the interfaces of R1 become passive interfaces
except interface fa0/0. They are correctly configured so don’t try to disable
them.
6、Route map
You are a network engineer with ROUTE.com, a small IT company.
ROUTE.com 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.
loopback interface of R4 (with the ping or ping ipv6 command) but we can
check by using the command show ipv6 route on R1
The copying running-config startup-config command will not work but don’t
worry, just skip it.
Notice: If you issue the command “show running-config” on R1, you will see
these two lines: passive-interface default no passive-interface fa0/0 (fa0/0
is the interface connecting with R2)
These two lines make all the interfaces of R1 become passive interfaces
except interface fa0/0. They are correctly configured so don’t try to disable
them.
6、Route map
You are a network engineer with ROUTE.com, a small IT company.
ROUTE.com 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.
![2016NEW 300-101 EXAM] Cisco.CCNP Exam PART2 VCE DUMPS FOR FREE DOWNLOAD WITH 100%PASS ENSURE](http://www.hotitexam.com/wp-content/uploads/2016/08/image-303.png "2016NEW 300-101 EXAM] Cisco.CCNP Exam PART2 VCE DUMPS FOR FREE DOWNLOAD WITH 100%PASS ENSURE")
Explanation/Reference:
R1>enable
R1#configure terminal
R1(config)#access-list 101 permit tcp any any eq www
R1(config)#route-map pbr permit 10
R1(config-route-map)#match ip address 101
R1>enable
R1#configure terminal
R1(config)#access-list 101 permit tcp any any eq www
R1(config)#route-map pbr permit 10
R1(config-route-map)#match ip address 101
R1(config-route-map)#set ip next-hop 10.1.100.2
R1(config-route-map)#exit
R1(config)#route-map pbr permit 20
R1(config-route-map)#exit
R1(config)#int fa0/1
R1(config-if)#ip policy route-map pbr
R1(config-if)#end
R1#copy run start
7、EIGRP OSPF Redistribution
You are a network engineer with ROUTE.com, 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 172.16.1.100. 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。
R1(config-route-map)#exit
R1(config)#route-map pbr permit 20
R1(config-route-map)#exit
R1(config)#int fa0/1
R1(config-if)#ip policy route-map pbr
R1(config-if)#end
R1#copy run start
7、EIGRP OSPF Redistribution
You are a network engineer with ROUTE.com, 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 172.16.1.100. 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。
![2016NEW 300-101 EXAM] Cisco.CCNP Exam PART2 VCE DUMPS FOR FREE DOWNLOAD WITH 100%PASS ENSURE](http://www.hotitexam.com/wp-content/uploads/2016/08/image-304.png "2016NEW 300-101 EXAM] Cisco.CCNP Exam PART2 VCE DUMPS FOR FREE DOWNLOAD WITH 100%PASS ENSURE")
Explanation/Reference:
R2>enable
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 eigrp 100
R2(config-router)#redistribute ospf 1 metric 1544 2000 255 1 1500
如果R2 和R3 之间的链路为FastEthernet,必须做以下配置使得R1 到R4 的
路径为R1 -> R2 -> R3 -> R4
R2(config-router)# distance eigrp 90 105
R2(config-router)# end
R2#copy run start
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 eigrp 100
R3(config-router)#redistribute ospf 1 metric 10000 100 255 1 1500
R3(config-router)# end
R3#copy run start
R2>enable
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 eigrp 100
R2(config-router)#redistribute ospf 1 metric 1544 2000 255 1 1500
如果R2 和R3 之间的链路为FastEthernet,必须做以下配置使得R1 到R4 的
路径为R1 -> R2 -> R3 -> R4
R2(config-router)# distance eigrp 90 105
R2(config-router)# end
R2#copy run start
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 eigrp 100
R3(config-router)#redistribute ospf 1 metric 10000 100 255 1 1500
R3(config-router)# end
R3#copy run start
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