2022 Realistic 300-410 100% Pass Guaranteed Download Exam Q&A [Q125-Q142]

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2022 Realistic 300-410 100% Pass Guaranteed Download  Exam Q&A

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Having this certification opens new job opportunities as well as senior promotions in current positions you're working at. The following are only a few of the options that will be available for you as a Cisco CCNP Enterprise holder:

  • Information technology (IT) director
  • Information technology (IT) manager
  • Network security engineer

Passing 300-410 exam also contributes to thickening your wallet! Mote, that according to PayScale, the approximate average annual salary for a CCNP Enterprise certified professional in the industry is a whopping $96k. Getting into details, senior network engineers earn an average of $101k per annum, while the average annual pay of network architects is even higher and reaches the mark of $122k as stated on the same source. If these figures cannot convince you of just how worth being CCNP Enterprise certified is, nothing else could.

 

NEW QUESTION 125
Refer to the exhibit.


The network administrator configured the network to connect two disjointed networks and ail the connectivity is up except the virtual link which causes area 250 to be unreachable. Which two configurations resolve this issue? (Choose two.)

  • A. R2
    router ospf 1
    router-id 10.23.23.2
  • B. R2
    router ospf 1
    no area 234 virtual-ink 10.34.34.4
    area 234 virtual-link 0.0.0.44
  • C. R2
    router ospf 1
    no area area 234 virtual-link 10.34.34.4
    area 0 virtual-link 0.0.0.44
  • D. R4
    router ospf 1
    no area 234 virtual-link 10.23.23.2
    area 234 virtual-link 0.0.0.22
  • E. R4
    router ospf 1
    no area area 234 virtual-link 10.23.23.2
    area 0 virtual-link 0.0.0.22

Answer: B,D

 

NEW QUESTION 126
Drag and drop the DHCP messages from the left onto the correct uses on the right.

Answer:

Explanation:

Explanation:

Reference:
https://www.cisco.com/c/en/us/support/docs/ip/dynamic-address-allocation-resolution/27470-100.html DHCPINFORM: If a client has obtained a network address through some other means or has a manually configured IP address, a client workstation may use a DHCPINFORM request message to obtain other local configuration parameters, such as the domain name and Domain Name Servers (DNSs). DHCP servers receiving a DHCPINFORM message construct a DHCPACK message with any local configuration parameters appropriate for the client without allocating a new IP address. This DHCPACK will be sent unicast to the client.
DHCPNAK: If the selected server is unable to satisfy the DHCPREQUEST message, the DHCP server will respond with a DHCPNAK message. When the client receives a DHCPNAK message, or does not receive a response to a DHCPREQUEST message, the client restarts the configuration process by going into the Requesting state. The client will retransmit the DHCPREQUEST at least four times within 60 seconds before restarting the Initializing state.
DHCPACK: After the DHCP server receives the DHCPREQUEST, it acknowledges the request with a DHCPACK message, thus completing the initialization process.
DHCPDECLINE: The client receives the DHCPACK and will optionally perform a final check on the parameters. The client performs this procedure by sending Address Resolution Protocol (ARP) requests for the IP address provided in the DHCPACK. If the client detects that the address is already in use by receiving a reply to the ARP request, the client will send a DHCPDECLINE message to the server and restart the configuration process by going into the Requesting state.
https://www.cisco.com/c/en/us/support/docs/ip/dynamic-address-allocation-resolution/27470-100.html

 

NEW QUESTION 127
Refer to the exhibit.


A network administrator sets up an OSPF routing protocol for a DMVPN network on the hub router. Which configuration required to establish a DMVPN tunnel with multiple spokes?

  • A. ip ospf network point-to-point on the hub router
  • B. ip ospf network point-to-point on both spoke routers
  • C. ip ospf network point-to-multipoint on One spoke router
  • D. ip ospf network point-to-multipoint on both spoke routers

Answer: D

 

NEW QUESTION 128
Refer to the exhibit. An engineer must establish multipoint GRE tunnels between hub router R6 and branch routers R1, R2, and R3. Which configuration accomplishes this task on R1?
A)

B)

C)

D)

  • A. Option A
  • B. Option C
  • C. Option B
  • D. Option D

Answer: D

 

NEW QUESTION 129
Refer to the exhibit.

While troubleshooting an EIGRP neighbor adjacency problem, the network engineer notices that the interface connected to the neighboring router is not participating in the EIGRP process. Which action resolves the issues?

  • A. Configure the network command under EIGRP address family ipv4
  • B. Configure the network command to network 172.16.0.1 0.0.0.0
  • C. Configure the network command under EIGRP address family vrf CLIENT1
  • D. Configure EIGRP metrics on interface FastEthernet0/3

Answer: C

 

NEW QUESTION 130
Refer to the exhibit.

Which interface configuration must be configured on the spoke A router to enable a dynamic DMVPN tunnel with the spoke B router?

  • A. Option C
  • B. Option A
  • C. Option B
  • D. Option D

Answer: B

 

NEW QUESTION 131
The implementations group has been using the test bed to do a 'proof-of-concept' that requires both Client 1 and Client 2 to access the WEB Server at 209.65.200.241. After several changes to the network addressing, routing scheme, DHCP services, NTP services, and FHRP services, a trouble ticket has been opened indicating that Client 1 cannot ping the 209.65.200.241 address.
Use the supported commands to Isolated the cause of this fault and answer the following questions.
On which device is the fault condition located?

  • A. R1
  • B. R3
  • C. ASW1
  • D. DSW1
  • E. R4
  • F. DSW2
  • G. R2
  • H. ASW2

Answer: C

Explanation:
Since the Clients are getting an APIPA we know that DHCP is not working. However, upon closer examination of the ASW1 configuration we can see that the problem is not with DHCP, but the fact that the trunks on the port channels are only allowing VLANs 1-9, when the clients belong to VLAN 10. VLAN 10 is not traversing the trunk on ASW1, so the problem is with the trunk configuration on ASW1.

 

NEW QUESTION 132
An engineer configured the wrong default gateway for the Cisco DNA center enterprise interface during the install.
Which command must the engineer run to correct the configuration?

  • A. Sudo maglev install config update
  • B. Sudo magiev-config update
  • C. Sudi update config install
  • D. Sudo maglev reinstall

Answer: B

 

NEW QUESTION 133
Drag and drop the MPLS terms from the left onto the correct definitions on the right.

Answer:

Explanation:

 

NEW QUESTION 134
Refer to the exhibit.

An engineer wanted to set a tag of 30 to route 10 1.80.65/32 but it failed How is the issue fixed?

  • A. Modify route-map ospf-to-eigrp permit 10 and match prefix-list ccnp2.
  • B. Modify prefix-list ccnp3 to add 10.1.64.0/20 ge 32
  • C. Modify route-map ospf-to-eigrp permit 30 and match prefix-list ccnp2.
  • D. Modify prefix-list ccnp3 to add 10.1.64.0/20 le 24

Answer: A

 

NEW QUESTION 135
Drag and drop the MPLS terms from the left onto the correct definitions on the right.

Answer:

Explanation:

 

NEW QUESTION 136
Refer to the exhibit.

Which action resolves the adjacency issue?

  • A. Match the authentication keys.
  • B. Configure the same autonomous system numbers.
  • C. Configure the same EIGRP process IDs.
  • D. Match the hello interval timers.

Answer: B

 

NEW QUESTION 137
Refer to the exhibit.

Why is user authentication being rejected?

  • A. The TACACS+ server is down, and the user is not in the local database.
  • B. The TACACS+ server expects "user", but the NT client sends "domain/user".
  • C. The TACACS+ server is down, and the user is in the local database.
  • D. The TACACS+ server refuses the user because the user is set up for CHAP.

Answer: A

 

NEW QUESTION 138
Refer to Exhibit.

A network administrator enables DHCP snooping on the Cisco Catalyst 3750-X switch and configures the uplink port (Port-channel2) as a trusted port. Clients are not receiving an IP address, but when DHCP snooping is disabled, clients start receiving IP addresses. Which global command resolves the issue?

  • A. ip dhcp snooping trust
  • B. ip dhcp relay information trust portchannel2
  • C. ip dhcp snooping
  • D. No ip dhcp snooping information option

Answer: D

 

NEW QUESTION 139
Drag and drop the MPLS VPN device types from me left onto the definitions on the right.

Answer:

Explanation:

 

NEW QUESTION 140
Drag and drop the packet types from the left onto the correct descriptions on the right.

Answer:

Explanation:

Explanation

Unlike legacy network technologies such as ISDN, Frame Relay, and ATM that defined separate data and control channels, IP carries all packets within a single pipe. Thus, IP network devices such as routers and switches must be able to distinguish between data plane, control plane, and management plane packets to treat each packet appropriately.From an IP traffic plane perspective, packets may be divided into four distinct, logical groups:1. Data plane packets - End-station, user-generated packets that are always forwarded by network devices to other end-station devices. From the perspective of the network device, data plane packets always have a transit destination IP address and can be handled by normal, destination IP address-based forwarding processes.2. Control plane packets - Network device generated or received packets that are used for the creation and operation of the network itself. From the perspective of the network device, control plane packets always have a receive destination IP address and are handled by the CPU in the network device route processor. Examples include protocols such as ARP, BGP, OSPF, and other protocols that glue the network together.3. Management plane packets - Network device generated or received packets, or management station generated or received packets that are used to manage the network. From the perspective of the network device, management plane packets always have a receive destination IP address and are handled by the CPU in the network device route processor. Examples include protocols such as Telnet, Secure Shell (SSH), TFTP, SNMP, FTP, NTP, and other protocols used to manage the device and/or network.4. Services plane packets - A special case of data plane packets, services plane packets are also user-generated packets that are also forwarded by network devices to other end-station devices, but that require high-touch handling by the network device (above and beyond normal, destination IP address-based forwarding) to forward the packet. Examples of high-touch handling include such functions as GRE encapsulation, QoS, MPLS VPNs, and SSL/IPsec encryption/decryption, etc. From the perspective of the network device, services plane packets may have a transit destination IP address, or may have a receive destination IP address (for example, in the case of a VPN tunnel endpoint).

 

NEW QUESTION 141
Refer to the exhibit.

A junior engineer configured SNMP to network devices. Malicious users have uploaded different configurations to the network devices using SNMP and TFTP servers.
Which configuration prevents changes from unauthorized NMS and TFTP servers?

  • A. access-list 20 permit 10.221.10.11
    access-list 20 deny any log
    !
    snmp-server group NETVIEW v3 priv read NETVIEW access 20
    snmp-server group NETADMIN v3 priv read NETVIEW write NETADMIN access 20 snmp-server community Cisc0wrus3r RO 20 snmp-server community Cisc0Us3r RW 20 snmp-server tftp-server-list 20
  • B. access-list 20 permit 10.221.10.11
  • C. access-list 20 permit 10.221.10.11
    access-list 20 deny any log
    !
    snmp-server group NETVIEW v3 priv read NETVIEW access 20
    snmp-server group NETADMIN v3 priv read NETVIEW write NETADMIN access 20 snmp-server community Cisc0Us3r RO 20 snmp-server community Cisc0wrus3r RW 20 snmp-server tftp-server-list 20
  • D. access-list 20 permit 10.221.10.11
    access-list 20 deny any log

Answer: C

 

NEW QUESTION 142
......


Cisco 300-410 Exam Topics:

SectionWeightObjectives
VPNTechnologies20%1.Describe MPLS operations (LSR, LDP, label switching, LSP)
2.Describe MPLS Layer 3 VPN
3.Configure and verify DMVPN (single hub)
  • GRE/mGRE
  • NHRP
  • IPsec
  • Dynamic neighbor
  • Spoke-to-spoke
Infrastructure Security20%1.Troubleshoot device security using IOS AAA (TACACS+, RADIUS, local database)
2.Troubleshoot router security features
  • IPv4 access control lists (standard, extended, time-based)
  • IPv6 traffic filter
  • Unicast reverse path forwarding (uRPF)

3.Troubleshoot control plane policing (CoPP) (Telnet, SSH, HTTP(S), SNMP, EIGRP, OSPF, BGP)
4.Describe IPv6 First Hop security features (RA guard, DHCP guard, binding table, ND inspection/snooping, source guard)

Layer 3 Technologies35%1.Troubleshoot administrative distance (all routing protocols)
2.Troubleshoot route map for any routing protocol (attributes, tagging, filtering)
3.Troubleshoot loop prevention mechanisms (filtering, tagging, split horizon, route poisoning)
4.Troubleshoot redistribution between any routing protocols or routing sources
5.Troubleshoot manual and auto-summarization with any routing protocol
6.Configure and verify policy-based routing
7.Configure and verify VRF-Lite
8.Describe Bidirectional Forwarding Detection
9.Troubleshoot EIGRP (classic and named mode)
  • Address families (IPv4, IPv6)
  • Neighbor relationship and authentication
  • Loop-free path selections (RD, FD, FC, successor, feasible successor, stuck in active)
  • Stubs
  • Load balancing (equal and unequal cost)
  • Metrics

10.Troubleshoot OSPF (v2/v3)
- Address families (IPv4, IPv6)
- Neighbor relationship and authentication
- Network types, area types, and router types

  • Point-to-point, multipoint, broadcast, nonbroadcast
  • (ii) Area type: backbone, normal, transit, stub, NSSA, totally stub
  • (iii) Internal router, backbone router, ABR, ASBR
  • (iv) Virtual link

- Path preference
11.Troubleshoot BGP (Internal and External)

  • Address families (IPv4, IPv6)
  • Neighbor relationship and authentication (next-hop, mulithop, 4-byte AS, private AS, route refresh, synchronization, operation, peer group, states and timers)
  • Path preference (attributes and best-path)
  • Route reflector (excluding multiple route reflectors, confederations, dynamic peer)
  • Policies (inbound/outbound filtering, path manipulation)
Infrastructure Services25%1.Troubleshoot device management
  • Console and VTY
  • Telnet, HTTP, HTTPS, SSH, SCP
  • (T)FTP

2.Troubleshoot SNMP (v2c, v3)
3. Troubleshoot network problems using logging (local, syslog, debugs, conditional debugs, timestamps)
4. Troubleshoot IPv4 and IPv6 DHCP (DHCP client, IOS DHCP server, DHCP relay, DHCP options)
5. Troubleshoot network performance issues using IP SLA (jitter, tracking objects, delay, connectivity)
6. Troubleshoot NetFlow (v5, v9, flexible NetFlow)
7. Troubleshoot network problems using Cisco DNA Center assurance (connectivity, monitoring, device health, network health)


 

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