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Q361. Which two application protocols require application layer gateway support when using NAT on a Cisco router? (Choose two.)
A. SIP
B. HTTP
C. FTP
D. SMTP
E. POP3
Answer: A,C
Q362. Which technology facilitates dynamic tunnel establishment in DMVPN?
A. CEF
B. mGRE
C. a dynamic routing protocol
D. NHRP
Answer: D
Q363. Refer to the exhibit.
Which statement is true?
A. There is no issue with forwarding IPv6 traffic from this router.
B. IPv6 traffic can be forwarded from this router, but only on Ethernet1/0.
C. IPv6 unicast routing is not enabled on this router.
D. Some IPv6 traffic will be blackholed from this router.
Answer: D
Explanation:
Here we see that the IPV6 default route shows two different paths to take, one via Ethernet 1/0 and one via Ethernet 0/0. However, only Eth 1/0 shows a next hop IPV6 address (the link local IPV6 address). There is no link local next hop addressed known on Eth 0/0. Therefore, traffic to all destinations will be load balanced over the two paths, but only half of the IPv6 traffic will be sent to the correct upstream router.
Q364. Which three options are three of the default EIGRP administrative distances? (Choose three.)
A. Internal, 90
B. External, 170
C. Summary, 5
D. Outside Local, 100
E. Inside Local, 180
F. Inside Global, 1
Answer: A,B,C
Explanation:
The following table lists the default administrative distances for various routing protocols used on Cisco routers.
Routing Protocol
Administrative distance
Directly connected interface
0
Static route out an interface
1
Static route to next-hop address
1
DMNR - Dynamic Mobile Network Routing
3
EIGRP summary route
5
External BGP
20
Internal EIGRP
90
IGRP
100
OSPF
110
IS-IS
115
Routing Information Protocol (RIP)
120
Exterior Gateway Protocol (EGP)
140
On Demand Routing (ODR)
160
External EIGRP
170
Internal BGP
200
Floating Static Route (ex. DHCP-learned)
254
Unknown
255
Reference: http://en.wikipedia.org/wiki/Administrative_distance
Q365. What is the destination address of an IGMPv2 general membership query?
A. 224.0.0.1
B. 224.0.1.1
C. 224.0.0.2
D. the multicast group address
Answer: A
Q366. When EIGRP is used as the IPv4 PE-CE protocol, which two requirements must be configured before the BGP IPv4 address family can be configured? (Choose two.)
A. the route distinguisher
B. the virtual routing and forwarding instance
C. the loopback interface
D. the router ID
Answer: A,B
Explanation:
A VRF must be created, and a route distinguisher and route target must be configured in order for the PE routers in the BGP network to carry EIGRP routes to the EIGRP CE site. The VRF must also be associated with an interface in order for the PE router to send routing updates to the CE router. Prerequisites Before this feature can be configured, MPLS and CEF must be configured in the BGP network, and multiprotocol BGP and EIGRP must be configured on all PE routers that provide VPN services to CE routers.
Reference:
http://www.cisco.com/c/en/us/td/docs/ios/12_0s/feature/guide/seipecec.html#wp1083316
Q367. Which two options are required parts of an EEM policy? (Choose two.)
A. event register keyword
B. body
C. environment must defines
D. namespace import
E. entry status
F. exit status
Answer: A,B
Explanation:
EEM policies require two parts: the event register keyword and the body. The remaining
parts of the policy are optional: environment must defines, namespace import, entry status,
and exit status (Figure 5).
Figure 5. EEM Policy Parts
Reference: http://www.cisco.com/c/en/us/products/collateral/ios-nx-os-software/ios-
embedded-event-manager-eem/config_guide_eem_configuration_for_cisco_integrated_services_router_platforms.htm
Q368. Refer to the exhibit.
You must complete the configuration on R1 so that a maximum of three links can be used and fragmentation is supported.
Which additional configuration accomplishes this task?
A. interface Multilink19
ip address 192.168.1.1 255.255.255.0
ppp multilink
ppp multilink group 19
ppp multilink links minimum 1
ppp multilink links maximum 3
ppp multilink interleave
B. interface Multilink19
ip address 192.168.1.1 255.255.255.0
ppp multilink
ppp multilink group 19
ppp multilink links maximum 3
ppp multilink fragment delay 20
C. interface Multilink19
ip address 192.168.1.1 255.255.255.0
ppp multilink
ppp multilink group 19
ppp multilink links maximum 3
ppp multilink fragment delay 20
ppp multilink interleave
D. interface Multilink19
ip address 192.168.1.1 255.255.255.252
ppp multilink
ppp multilink group 19
ppp multilink links maximum 3
ppp multilink interleave
Answer: A
Explanation:
The “ppp multilink interleave” command is needed to enable link fragmentation and Interleaving (LFI). The Cisco IOS Link Fragmentation and Interleaving (LFI) feature uses Multilink PPP (MLP). MLP provides a method of splitting, recombining, and sequencing datagrams across multiple logical data links. MLP allows packets to be fragmented and the fragments to be sent at the same time over multiple point-to-point links to the same remote address.
ppp multilink links maximum
To limit the maximum number of links that Multilink PPP (MLP) can dial for dynamic allocation, use the ppp multilink links maximum command in interface configuration mode.
Reference: http://www.cisco.com/c/en/us/td/docs/ios/12_2/qos/configuration/guide/fqos_c/qcflfi.html
Q369. DRAG DROP
Drag and drop the NetFlow Export feature on the left to the NetFlow version that first supported it on the right.
Answer:
Q370. DRAG DROP
Drag and drop the MPLS term on the left to the function it performs on the right.
Answer: