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QUESTION 51
Which output will the EEM applet in the exhibit produce?
Case Study Title (Case Study):
A. The output of show version will be executed every 5 hours.
B. The output of show log will be executed every 5 hours.
C. The output of show log will be executed every Friday.
D. The output of show log will be executed every 5 minutes.
Correct Answer: D Section: (none)Explanation
Explanation/Reference:
QUESTION 52
Why is the interface in the up/down state?
A. There is no physical layer connection.
B. A span session has been configured with g5/2 as the destination.
C. There were too many input drops on the interface.
D. A span session has been configured with g5/2 as the source
Correct Answer: B Section: (none) Explanation
Explanation/Reference:
SPAN Destination Port Up/Down When ports are spanned for monitoring, the port state shows as UP/DOWN. When you configure a SPAN session to monitor the port, the destination interface shows the state down (monitoring), by design. The interface shows the port in this state in order to make it evident that the port is currently not usable as a production port. The port as up/down monitoring is normal.
Reference http://www.cisco.com/en/US/products/hw/switches/ps708/ products_tech_note09186a008015c612.shtml#topic8-8
QUESTION 53
You are investigating a performance problem between two hosts. You have enabled NetFlow.
What is most likely the cause of this issue?
A. A firewall is stripping the TCP MSS option.
B. A firewall is stripping the IP MSS option.
C. An IPS is stripping the TCP MSS option.
D. There is a VPN link causing low MTU.
Correct Answer: A Section: (none) Explanation
Explanation/Reference:
E. You must configure the MTU on the links on the router.
QUESTION 54
Multicast is being deployed in the network, and only ip pim sparse-dense mode has been configured on all interfaces in the network to support a new video streaming application. No other multicast configuration was applied anywhere in the network. Since enabling multicast, the network monitoring tools show periodic spikes in link utilization throughout the network, even in areas where the video application is not being used. What could be a possible cause?
A. PIM sparse mode is being used.
B. PIM dense mode is being used.
C. The BGP multicast address family has not been configured.
D. IGMP version 3 is being used.
Correct Answer: B Section: (none) Explanation
Explanation/Reference:
E. IP PIM neighbor filters have not been applied.
QUESTION 55
Which two attributes need to match for two switches to become members of the same MST region? (Choose two.)
A. the table of 4096 elements that map the respective VLAN to STP instance number
B. VTP version
C. configuration revision number
D. native VLAN ID
Correct Answer: AC Section: (none)Explanation
Explanation/Reference:
QUESTION 56
An administrator of a peer-to-peer server application reports that the maximum bandwidth that his application receives is 90 Mb/s. You have an 8-port, 100-Mb/s EtherChannel bundle on the switching infrastructure between the two servers, resulting in a bidirectional throughput of more than what is recorded. Which two solutions would allow for more bandwidth for the application? (Choose two.)
A. change the EtherChannel default hashing algorithm from XOR to use source port Layer 4 port load balancing to better load balance the traffic
B. change the EtherChannel default hashing algorithm from XOR to use destination Layer 4 port load balancing to better load balance the traffic
C. have the application recoded to use multiple connections instead of a single connection so EtherChannel can better load balance the traffic
D. upgrade the EtherChannel bundle to a single gigabit link because EtherChannel is not well suited for single-connection traffic
Correct Answer: CD Section: (none)Explanation
Explanation/Reference:
D. upgrade the CPU and memory of the compute devices so they can better process traffic
QUESTION 57
Which two are natively included by the IEEE 802.1w standard? (Choose two.)
A. instances can control a selection of VLANs
B. load balancing
C. fast transition to forwarding state
D. backbone, uplink, and portfast (or equivalent)
Correct Answer: CD Section: (none)Explanation
Explanation/Reference:
E. root, loop, and BPDU guard (or equivalent)
QUESTION 58
Which three statements are true about policing? (Choose three.)
A. Out-of-profile packets are queued.
B. It causes TCP retransmits.
C. It does not respond to BECN and foresight messages.
D. It uses a single- and two-bucket mechanism for metering.
Correct Answer: BCD Section: (none) Explanation
Explanation/Reference:
C. Marking and remarking are not supported.
QUESTION 59
Which command can be used to filter a RIPv6 route from getting installed in the routing table?
A. ipv6 router rip ccie distribute-list..
B. ipv6 router rip ccie offset-list..
C. interface e0/0 ipv6 rip ccie distribute-list..
D. interface e0/0 ipv6 rip ccie advertise..
Correct Answer: A Section: (none) Explanation
Explanation/Reference:
Filtering IPv6 RIP Routing Updates Route filtering using distribute lists provides control over the routes RIP receives and advertises. This control may be exercised globally or per interface. Filtering is controlled by IPv6 distribute lists. Input distribute lists control route reception, and input filtering is applied to advertisements received from neighbors. Only those routes that pass input filtering will be inserted in the RIP local routing table and become candidates for insertion into the IPv6 routing table. Output distribute lists control route advertisement; Output filtering is applied to route advertisements sent to neighbors. Only those routes passing output filtering will be advertised. Global distribute lists (which are distribute lists that do not apply to a specified interface) apply to all interfaces. If a distribute list specifies an interface, then that distribute list applies only to that interface. An interface distribute list always takes precedence. For example, for a route received at an interface, with the interface filter set to deny, and the global filter set to permit, the route is blocked, the interface filter is passed, the global filter is blocked, and the route is passed. IPv6 prefix lists are used to specify certain prefixes or a range of prefixes that must be matched before a permit or deny statement can be applied. Two operand keywords can be used to designate a range of prefix lengths to be matched. A prefix length of less than, or equal to, a value is configured with the le keyword. A prefix length greater than, or equal to, a value is specified using the ge keyword. The ge and le keywords can be used to specify the range of the prefix length to be matched in more detail than the usual ipv6-prefix/prefix-length argument. For a candidate prefix to match against a prefix list entry three conditions can exist: The candidate prefix must match the specified prefix list and prefix length entry. The value of the optional le keyword specifies the range of allowed prefix lengths from the prefixlength argument up to, and including, the value of the le keyword. The value of the optional ge keyword specifies the range of allowed prefix lengths from the value of the ge keyword up to, and including, 128. Note
The first condition must match before the other conditions take effect.
An exact match is assumed when the ge or le keywords are not specified. If only one keyword
operand is specified then the condition for that keyword is applied, and the other condition is not
applied. The prefix-length value must be less than the ge value. The ge value must be less than,
or equal to, the le value. The le value must be less than or equal to 128.
SUMMARY STEPS
1.
enable
2.
configure terminal
3.
ipv6 prefix list prefix-list-name [seq seq-number] {deny ipv6-prefix/prefix-length | descriptiontext} [ge gevalue] [le le-value]
4.
ipv6 prefix list prefix-list-name [seq seq-number] {permit ipv6-prefix/prefix-length | description text} [ge gevalue] [le le-value]
5.
Repeat Steps 3 and 4 as many times as necessary to build the prefix list.
6.
ipv6 router rip name
7.
distribute-list prefix-list prefix-list-name {in | out} [interface-type interface-number] Reference http://www.cisco.com/en/US/docs/ios/ipv6/configuration/guide/ip6-rip.html
QUESTION 60
Which three are needed to run VRF lite for IPv6 on a router? (Choose three.)
A. VRF definition for IPv6
B. MP BGP for IPv6
C. VRF-enabled routing protocol
D. VRF-enabled interface
Correct Answer: ACD Section: (none)Explanation
Explanation/Reference:
C. LDP
Explanation:
The word VRF stands for Virtual Routing and Forwarding, this feature is used to create multiple instances of the routing table on the same routing device. VRFs are usually used in conjunction with MPLS VPN to separate the traffic of multiple MPLS VPN customers. VRF Lite feature is part of Cisco*s network virtualization portfolio. VRF Lite means VRF without the need to run MPLS in the network. VRF Lite allows the network administrator to create multiple routing instances on the same routing device within the enterprise. VRF Lite can be useful when you need to isolate traffic between two networks sharing the same routing platform or if you have multiple networks with overlapping addresses sharing the same physical network. Multiple instances of routing protocols can be used for different VRFs on the same device to exchange routes dynamically with a direct connected device VRF Lite Configuration: R2 is connected via Ethernet to R5. Two VRFs (VRF-LITE-A & B) are configured to demonstrate L3 traffic isolation. I am using static routes for this example but dynamic routing protocols can be used. R2 Configuration: ip vrf VRF-LITE-A rd 100:1 ! ip vrf VRF-LITE-B rd 100:2 !– Assign interfaces to VRF interface FastEthernet0/1.25 encapsulation dot1Q 25 ip vrf forwarding VRF-LITE-A ip address 25.25.25.2 255.255.255.0 ! interface FastEthernet0/1.52 encapsulation dot1Q 52 ip vrf forwarding VRF-LITE-B ip address 52.52.52.2 255.255.255.0 interface Loopback20 ip vrf forwarding VRF-LITE-A ip address 20.20.20.20 255.255.255.255 ! interface Loopback22 ip vrf forwarding VRF-LITE-B ip address 22.22.22.22 255.255.255.255 ip route vrf VRF-LITE-A 50.50.50.50 255.255.255.255 25.25.25.5 ip route vrf VRF-LITE-B 55.55.55.55 255.255.255.255 52.52.52.5 R5 Configuration: ip vrf VRF-LITE-A rd 100:1 ! ip vrf VRF-LITE-B rd 100:2 interface Loopback50 ip vrf forwarding VRF-LITE-A ip address 50.50.50.50 255.255.255.255 ! interface Loopback55 ip vrf forwarding VRF-LITE-B ip address 55.55.55.55 255.255.255.255 ! interface FastEthernet0/1.25 encapsulation dot1Q 25 ip vrf forwarding VRF-LITE-A ip address 25.25.25.5 255.255.255.0 ! interface FastEthernet0/1.52 encapsulation dot1Q 52 ip vrf forwarding VRF-LITE-B ip address 52.52.52.5 255.255.255.0 ip route vrf VRF-LITE-A 20.20.20.20 255.255.255.255 25.25.25.2 ip route vrf VRF-LITE-B 22.22.22.22 255.255.255.255 52.52.52.2 Operation Verification: The following tests were taken from R2 only, the same can be done on R5 for verification. R2#sh ip route vrf VRF-LITE-A Routing Table: VRF-LITE-A !– output omitted———-Gateway of last resort is not set 50.0.0.0/32 is subnetted, 1 subnets S 50.50.50.50 [1/0] via 25.25.25.5 20.0.0.0/32 is subnetted, 1 subnets C 20.20.20.20 is directly connected, Loopback20 25.0.0.0/24 is subnetted, 1 subnets C 25.25.25.0 is directly connected, FastEthernet0/1.25 R2#sh ip route vrf VRF-LITE-B Routing Table: VRF-LITE-B !–output omitted———-Gateway of last resort is not set 55.0.0.0/32 is subnetted, 1 subnets S 55.55.55.55 [1/0] via 52.52.52.5 52.0.0.0/24 is subnetted, 1 subnets C 52.52.52.0 is directly connected, FastEthernet0/1.52 22.0.0.0/32 is subnetted, 1 subnets C 22.22.22.22 is directly connected, Loopback22 R2#ping 50.50.50.50 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 50.50.50.50, timeout is 2 seconds: Success rate is 0 percent (0/5) R2#ping vrf VRF-LITE-A 50.50.50.50 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 50.50.50.50, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 32/143/396 ms
R2#ping 55.55.55.55
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echos to 55.55.55.55, timeout is 2 seconds:
Success rate is 0 percent (0/5)
R2#ping vrf VRF-LITE-B 55.55.55.55
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echos to 55.55.55.55, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 20/133/340 ms
Reference
http://www.networkers-online.com/blog/2009/02/vrf-lite/
QUESTION 61
Which information will the Cisco IOS command show ip ospf rib display?
A. only the local OSPF routes
B. only the OSPF routes installed in the routing table
C. only the remotely learned OSPF routes
D. all the OSPF routes from the OSPF database that are eligible to be put in the routing table
Correct Answer: D Section: (none)Explanation
Explanation/Reference:
Show ip ospf rib To display information for the OSPF local Routing Information Base (RIB) or locally redistributed routes, use the show ip ospf rib command in privileged EXEC mode. Show ip ospf process-id rib [redistribution] [network-prefix] [network-mask] [detail] Reference http://www.cisco.com/en/US/docs/ios/iproute_ospf/command/reference/iro_osp3.html
QUESTION 62
What will happen?
A. EIGRP keeps on retransmitting the reliable EIGRP packets forever.
B. EIGRP will retransmit the reliable EIGRP packets up to 16 times and then delete the related prefixes.
C. EIGRP will retransmit the reliable EIGRP packets up to 16 times and then reset the EIGRP neighbor
11.1.3.2.
D. The EIGRP neighbor 11.1.3.2 goes down when the hold time reaches 0, which is 12 seconds from now.
Correct Answer: C Section: (none)
Explanation
Explanation/Reference:
QUESTION 63
What is the Cisco IOS command to turn on explicit null forwarding by LDP?
A. ldp explicit-null
B. mpls forwarding explicit-null
C. mpls ldp advertise-labels explicit null
D. mpls ldp explicit-null
Correct Answer: D Section: (none)Explanation
Explanation/Reference:
When you issue the mpls ldp explicit-null command, Explicit Null is advertised in place of Implicit Null for directly connected prefixes. SUMMARY STEPS
1.
enable
2.
configure terminal
3.
mpls ip
4.
mpls label protocol {ldp | tdp | both}
5.
interface type number
6.
mpls ip
7.
exit
8.
mpls ldp explicit-null [for prefix-acl | to peer-acl | for prefix-acl to peer-acl]
9.
exit
10.
show mpls forwarding-table [network {mask | length} | labels label [- label] | interface interface |
next-hop address | lsp-tunnel [tunnel-id]] [vrf vpn-name] [detail]
Reference
http://www.cisco.com/en/US/docs/ios/12_4t/12_4t2/ftldp41.html
QUESTION 64
Which statement is correct about this configuration?
A. This is not a legal configuration.
B. The RD is a type 0 RD.
C. The RD is a type 1 RD.
D. The RD is a type 2 RD.
Correct Answer: C Section: (none)
Explanation
Explanation/Reference:
E. This is a special RD that is used only for management VRFs.
Explanation:
The route distinguisher (RD) is an 8-octet value consisting of 2 major fields, the Type Field (2
octets) and Value
Field (6 octets). The type field determines how the value field should be interpreted. The three
Type values, as defined in the internet draft, are:
Type 0:
Type Field (2 octets)
Administrator subfield (2 octets)
Assigned number subfield (4 octets)
The administrator field must contain an AS number (using private AS numbers is discouraged).
The Assigned field contains a number assigned by the service provider.
Type 1:
Type Field (2 octets)
Administrator subfield (4 octets)
Assigned number subfield (2 octets)
The administrator field must contain an IP address (using private IP address space is
discouraged). The
Assigned field contains a number assigned by the service provider.
Type 2:
Type Field (2 octets)
Administrator subfield (4 octets)
Assigned number subfield (2 octets)
The administrator field must contain a 4-octet AS number (using private AS numbers is
discouraged). The
Assigned field contains a number assigned by the service provider.
Reference
http://en.wikipedia.org/wiki/Route_distinguisher
QUESTION 65
What will happen if the link between RTA and RTE fails?
Case Study Title (Case Study):
A. Area 1 will be split into two between RTB-RTF-RTE and RTG-RTA, so these separate areas will not be able to communicate with each other.
B. Area 1 will be split into two between RTB-RTF-RTE and RTG-RTA, and to avoid communication issues a virtual link between RTA and RTB needs to be configured.
C. Area 1 will be split into two between RTB-RTF-RTE and RTG-RTA, and duplicate LSAs from Area 1 will flood OSPF Area 0.
D. Area 1 will be split into two between RTB-RTF-RTE and RTG-RTA, and OSPF will work just fine.
Correct Answer: D Section: (none) Explanation
Explanation/Reference:
As RTE will no longer have a direct connection to RTA Area 1 will be split into two groups. Routers RTA & RTG in one group and Routers RTB, RTE, & RTF in the other group. For router RTE to access RTA it will now need to traverse Area 0.
QUESTION 66
All iBGP routes should have the iBGP peer as the next hop address. Why is this not the case for BGP routes learned between R1 and R2?
Case Study Title (Case Study):
A. R2 is missing the next-hop-self option under the neighbor command for R1
B. ISP-A is missing the next-hop-self option under the neighbor command for R1
C. ISP-B is missing the next-hop-self option under the neighbor command for R1
D. R2, ISP-A, and ISP-B are missing the next-hop-self option under the neighbor command for R1
Correct Answer: A Section: (none) Explanation
Explanation/Reference:
QUESTION 67
What does “(192.168.1.1)” indicate in the output?
A. the BGP router ID of the eBGP peer
B. the advertising route reflector cluster-id
C. the router originating this prefix
D. the BGP router ID of the iBGP peer
Correct Answer: A Section: (none)Explanation
Explanation/Reference:
E. our local router ID
F. the BGP next hop for this route
QUESTION 68
By default, why will BGP choose a locally originated route over any iBGP or eBGP learned route?
A. The IGP metric to the next hop is always shorter.
B. Locally originated routes have a better AD than eBGP or iBGP routes.
C. All locally originated routes have a better origin code.
D. Locally originated routes have a weight of 32, 768.
Correct Answer: D Section: (none) Explanation
Explanation/Reference:
D. Locally originated routes have a higher metric.
QUESTION 69
How does an IPv6 router deal with a packet that is larger than the outgoing interface MTU?
A. It will fragment the packet at Layer 2.
B. It will fragment the packet at Layer 3.
C. It will drop the packet and send an ICMPv6 message “packet too big” back to the source.
D. It will drop the packet.
Correct Answer: C Section: (none) Explanation
Explanation/Reference:
A Packet Too Big MUST be sent by a router in response to a packet that it cannot forward because the packet is larger than the MTU of the outgoing link. The information in this message is used as part of the Path MTU Discovery process [PMTU]. Originating a Packet Too Big Message makes an exception to one of the rules as to when to originate an ICMPv6 error message. Unlike other messages, it is sent in response to a packet received with an IPv6 multicast destination address, or with a link-layer multicast or link-layer broadcast address. Reference http://tools.ietf.org/html/rfc4443#section-3.2
QUESTION 70
What does a unicast prefix-based IPv6 multicast address start with?
A. FF80
B. FF3
C. FF
D. FF7
Correct Answer: B Section: (none)Explanation
Explanation/Reference:
The unicast prefix-based IPv6 multicast address format supports Source-specific multicast
addresses, as defined by [SSM ARCH]. To accomplish this, a node MUST:
These settings create an SSM range of FF3x::/32 (where ‘x’ is any valid scope value). The source
address field in the IPv6 header identifies the owner of the multicast address. (RFC3306)
QUESTION 71
AS65000 has core network P1 – P6. The eBGP peers to another AS are through ASBR1-2 and ASBR3-4. All business and residential customer POPs are connected to the P1 – P2 core.
AS65000 has decided to enable MPLS LDP on all BGP routers, and disable BGP on the core network (P1
-P6). What is the drawback of this BGP core-free network?
Case Study Title (Case Study):
A. MPLS LDP is slower compared to BGP.
B. All IP addresses of nodes and links within AS65000 are exposed to any external AS.
C. The BGP configuration must be full-mesh between the ASBR and PE routers.
D. The core router will not be involved in the BGP path selection process.
Correct Answer: D Section: (none) Explanation
Explanation/Reference:
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