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NEW QUESTION: 1
hostname Switch1 interface Vlan10 ip address 172.16.10.32 255.255.255.0 no ip redirects standby 1 ip 172.16.10.110 standby 1 timers msec 200 msec 700 standby 1 preempt
hostname Switch2 interface Vlan10 ip address 172.16.10.33 255.255.255.0 no ip redirects standby 1 ip 172.16.10.110 standby 1 timers msec 200 msec 750 standby 1 priority 110 standby 1 preempt
hostname Switch3 interface Vlan10 ip address 172.16.10.34 255.255.255.0 no ip redirects standby 1 ip 172.16.10.110 standby 1 timers msec 200 msec 750 standby 1 priority 150 standby 1 preempt
Refer to the above. Three switches are configured for HSRP.
Switch1 remains in the HSRP listen state. What is the most likely cause of this status?
A. IP addressing is incorrect.
B. Standby timers are incorrect.
C. Priority commands are incorrect.
D. This is normal operation.
E. The standby group number does not match the VLAN number.
Answer: D
Explanation:
This is expected behavior. When HSRP is configured on an interface, the router progresses through a series of states before becoming active. This forces a router to listen for others in a group and see where it fits into the pecking order. Devices participating in HSRP must progress their interfaces through the following state sequence:
1.Disabled
2.Init
3.Listen
4.Speak
5.Standby
6.Active
Only the standby (the one with the second-highest priority) router monitors the hello message from the active router. By default, hellos are sent every 3 seconds. If hellos are missed for the duration of the holdtime timer (default 10 seconds, or three times the hello timer), the active router is presumed to be down. The standby router is then clear to assume the active role. At that point, if other routers are sitting in the Listen state, the next-highest priority router is allowed to become the new standby router.
Reference:
CCNP BCMSN Official Exam Certification Guide, Fourth Edition, Chapter 13: Router, Supervisor, and Power Redundancy, p. 318
NEW QUESTION: 2
Which of the following is the local loop required to connect to the frame relay providers point-of-presence?
A. Virtual path
B. Logical channel
C. Virtual circuit
D. Access circuit
Answer: D
NEW QUESTION: 3
顧客の内部セキュリティチームは、企業ネットワーク内からのAmazon S3アクセスを許可するリクエストを受け取ります。すべての外部トラフィックは、企業のファイアウォールを介して明示的にホワイトリストに登録する必要があります。
セキュリティチームはどのようにしてこのアクセスを許可できますか?
A. AWSフォーラムの発表からIPプレフィックスのリストを取得し、ファイアウォールルールでそれらのプレフィックスを使用します。
B. ip-ranges.jsonからIPプレフィックスのリストを取得し、それらのプレフィックスをファイアウォールルールで使用します。
C. Direct Connectを介してデータセンターをVPCに接続します。データセンターからS3プライベートエンドポイントにトラフィックを転送するルートを作成します。
D. Amazon S3エンドポイントでDNSルックアップを実行してIPプレフィックスのリストを取得し、ファイアウォールルールでそれらのプレフィックスを使用します。
Answer: B
Explanation:
ip-ranges.json contains the latest list of IP addresses used by AWS. AWS no longer posts IP prefixes in Forum announcements. DNS lookups would not provide an exhaustive list of possible IP prefixes. D would require transitive routing, which is not possible.
NEW QUESTION: 4
Observe the diagram.
RTC is the hub router and RTA and RTB are the spokes. There are no virtual circuits between the spoke locations. What is needed to successfully route traffic to the 11.11.11.0/24 network from RTA?
A. Nothing is required. This is the default behavior on this topology.
B. The neighbor 10.10.10.1 next-hop-self command on RTB.
C. The neighbor 10.10.10.1 next-hop-self command on RTC.
D. The neighbor 10.10.10.1 next-hop-self command on RTA.
Answer: C
Explanation:
The following example illustrates the issue: BGP Next Hop (NBMA)
If the common media as you see in the shaded area above is a frame relay or any NBMA cloud then the exact behavior will occur as if we were connected via Ethernet. RTC will advertise
180.20.0.0 to RTA with a next hop of 170.10.20.3. The problem is that RTA does not have a direct PVC to RTD, and cannot reach the next hop. In this case routing will fail. In order to remedy this situation a command called next-hop-self is created. The next-hop-self Command Because of certain situations with the next hop as we saw in the previous example, a command called next-hop-self is created. The syntax is: neighbor {ip-address|peer-group-name} next-hop-self The next-hop-self command allows us to force BGP to use a specified IP address as the next hop rather than letting the protocol choose the next hop. In the previous example, the following configuration solves our problem: RTC# router bgp 300 neighbor 170.10.20.1 remote-as 100 neighbor 170.10.20.1 next-hop-self RTC advertises 180.20.0.0 with a next hop = 170.10.20.2
Reference: http://www.cisco.com/warp/public/459/bgp-toc.html#bgpnexthop