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← WAN Technologies practice sets

350-401 WAN Technologies • Complete Question Bank

350-401 WAN Technologies — All Questions With Answers

Complete 350-401 WAN Technologies question bank — all 0 questions with answers and detailed explanations.

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Certifications/350-401/Practice Test/WAN Technologies/All Questions
Question 1hardmultiple choice
Study the full EIGRP explanation →

A network engineer is configuring a DMVPN Phase 3 deployment with EIGRP as the routing protocol. The hub router has multiple spoke routers behind a single physical interface. The engineer notices that spoke-to-spoke traffic is being forwarded through the hub instead of directly. The spoke routers have the correct NHRP and mGRE configuration. What is the most likely cause of this issue?

Question 2mediummultiple choice
Open the full BGP breakdown →

An enterprise is replacing its legacy Frame Relay WAN with MPLS L3VPN. The new MPLS provider assigns a single VRF to the customer. The customer's CE routers are running BGP with the provider's PE routers. The engineer notices that the CE routers can ping the PE loopback addresses but cannot reach remote CE loopbacks. The BGP sessions are established and routes are received. What is the most likely cause?

Question 3mediummultiple choice
Study the full ACL explanation →

A network engineer is troubleshooting a site-to-site IPsec VPN tunnel between two Cisco routers. The tunnel is established and IKEv2 Phase 1 is up, but no traffic passes. The engineer checks the crypto map and sees that the ACL is configured to permit traffic between the two LAN subnets. However, 'show crypto ipsec sa' shows that the number of packets encapsulated and decapsulated is zero. What is the most likely cause?

Question 4hardmultiple choice
Read the full VPN explanation →

An engineer is configuring a FlexVPN hub-and-spoke topology using IKEv2. The hub router is configured with a dynamic crypto map and a local pool for assigning IP addresses to spokes. The spokes are configured with a static crypto map and a tunnel interface with an IP address from the pool. The tunnel comes up, but the spoke cannot ping the hub's tunnel interface. The hub can ping the spoke's tunnel interface. What is the most likely cause?

Question 5mediummultiple choice
Open the full BGP breakdown →

A company is using a dual-homed MPLS L3VPN connection with two different ISPs. The CE router is running eBGP with both PE routers. The engineer wants to ensure that inbound traffic from the Internet to the company's web servers uses both links, but outbound traffic from the company should prefer ISP A. The company advertises the same /24 prefix to both ISPs. What BGP configuration should the engineer apply on the CE router?

Question 6hardmultiple choice
Read the full MPLS explanation →

An engineer is deploying a new SD-WAN solution using Cisco vManage. The WAN edge routers are connected to two different transport networks: MPLS and Internet. The engineer wants to ensure that voice traffic is always sent over the MPLS link when available, and only fails over to the Internet link if the MPLS link goes down. The engineer has configured a policy to set the preferred color for voice traffic to 'mpls'. However, during a test, voice traffic is still using the Internet link even though the MPLS link is up. What is the most likely cause?

Question 7easymultiple choice
Review the full routing breakdown →

A network engineer is configuring a PPPoE client on a Cisco router for a DSL connection. The engineer configures the dialer interface with the correct PPPoE profile and authentication credentials. The PPPoE session establishes, but the router cannot ping the ISP's gateway IP address. The engineer checks the routing table and sees that a default route is present via the dialer interface. What is the most likely cause?

Question 8easymultiple choice
Read the full VPN explanation →

An engineer is troubleshooting a site-to-site VPN that uses IPsec with IKEv1. The tunnel is established, but traffic is intermittently dropped. The engineer checks the 'show crypto ipsec sa' output and sees that the number of packets that failed anti-replay check is increasing. What is the most likely cause of this issue?

Question 9mediummultiple choice
Review the full routing breakdown →

A company is implementing a WAN optimization solution using Cisco WAAS. The engineer configures WAAS devices at the data center and remote branch. The WAAS devices are configured to use inline mode. However, the engineer notices that optimized traffic is not being intercepted. The WAAS devices are directly connected to the WAN router and the LAN switch. What is the most likely cause?

Question 10mediummultiple choice
Open the full BGP breakdown →

A network engineer runs the following command on Router R1:

R1# show ip route 10.1.1.0

Routing entry for 10.1.1.0/24 Known via "bgp 65001", distance 200, metric 0 Tag 65002, type external Last update from 192.168.1.2 00:00:15 ago Routing Descriptor Blocks:

* 192.168.1.2, from 192.168.1.2, 00:00:15 ago

Route metric is 0, traffic share count is 1 AS Hops 1 Route tag 65002 MPLS label: 18

Based on this output, what can be concluded?

Question 11mediummultiple choice
Read the full MPLS explanation →

A network engineer executes the following command on Router R2:

R2# show mpls ldp neighbor

Peer LDP Ident: 192.168.1.1:0; Local LDP Ident 192.168.1.2:0 TCP connection: 192.168.1.1.646 - 192.168.1.2.54321 State: Oper; Msgs sent/rcvd: 1234/1234; Downstream Up time: 2d04h LDP discovery sources: GigabitEthernet0/0, Src IP addr: 192.168.1.1 holdtime: 15000 ms, hello interval: 5000 ms Addresses bound to peer LDP Ident:

192.168.1.1        10.0.0.1

Based on this output, what is true about the LDP session?

Question 12mediummultiple choice
Open the full BGP breakdown →

A network engineer issues the following command on Router R3:

R3# show ip bgp summary

BGP router identifier 10.0.0.3, local AS number 65003 BGP table version is 12345, main routing table version 12345

Neighbor        V           AS MsgRcvd MsgSent   TblVer  InQ OutQ Up/Down  State/PfxRcd
192.168.1.1     4        65001   12345   12345    12345    0    0 1w2d        150
192.168.1.2     4        65002   12345   12345    12345    0    0 2w0d        200

Based on this output, what can be concluded?

Question 13mediummultiple choice
Study the full multicast explanation →

A network engineer runs the following command on Router R4:

R4# show interfaces tunnel 0

Tunnel0 is up, line protocol is up Hardware is Tunnel Internet address is 10.0.0.4/30 MTU 17916 bytes, BW 100 Kbit/sec, DLY 50000 usec, reliability 255/255, txload 1/255, rxload 1/255

Encapsulation TUNNEL, loopback not set

Keepalive not set Tunnel source 192.168.1.4, destination 192.168.2.4 Tunnel protocol/transport GRE/IP Key disabled, sequencing disabled Checksumming of packets disabled Last input never, output never, output hang never Last clearing of "show interface" counters never Input queue: 0/75/0/0 (size/max/drops/flushes); Total output drops: 0 Queueing strategy: fifo Output queue: 0/0 (size/max) 5 minute input rate 0 bits/sec, 0 packets/sec 5 minute output rate 0 bits/sec, 0 packets/sec 0 packets input, 0 bytes, 0 no buffer Received 0 broadcasts (0 IP multicasts) 0 runts, 0 giants, 0 throttles 0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort 0 packets output, 0 bytes, 0 underruns 0 output errors, 0 collisions, 0 interface resets 0 unknown protocol drops 0 output buffer failures, 0 output buffers swapped out

Based on this output, what is true about this tunnel?

Question 14hardmultiple choice
Review the full OSPF breakdown →

A network engineer executes the following command on Router R5:

R5# show ip ospf neighbor

Neighbor ID     Pri   State           Dead Time   Address         Interface
10.0.0.6         1   FULL/DR         00:00:35    192.168.1.6    GigabitEthernet0/0
10.0.0.7         1   FULL/BDR        00:00:32    192.168.1.7    GigabitEthernet0/0
10.0.0.8         1   2WAY/DROTHER    00:00:38    192.168.1.8    GigabitEthernet0/0

Based on this output, what can be concluded about the OSPF network?

Question 15hardmultiple choice
Read the full NAT/PAT explanation →

A network engineer issues the following command on Router R6:

R6# show ip nat translations

Pro Inside global Inside local Outside local Outside global --- 192.168.1.100 10.0.0.10 --- --- --- 192.168.1.101 10.0.0.11 --- --- udp 192.168.1.100:1234 10.0.0.10:1234 203.0.113.5:53 203.0.113.5:53 tcp 192.168.1.101:80 10.0.0.11:80 198.51.100.2:443 198.51.100.2:443

Based on this output, what is true about the NAT translations?

Question 16mediummultiple choice
Study the full IPv6 explanation →

A network engineer runs the following command on Router R7:

R7# show vrf brief

Name Default RD Protocols Interfaces Mgmt-intf <not set> ipv4,ipv6 GigabitEthernet0/0 CUSTOMER-A 65001:100 ipv4 GigabitEthernet0/1.10 CUSTOMER-B 65001:200 ipv4 GigabitEthernet0/1.20

Based on this output, what can be concluded?

Question 17hardmultiple choice
Review the full routing breakdown →

A network engineer issues the following command on Router R8:

R8# show policy-map interface gigabitethernet 0/1

GigabitEthernet0/1

Service-policy output: SHAPE-1M Class-map: class-default (match-any) 0 packets, 0 bytes 5 minute offered rate 0 bps, drop rate 0 bps Match: any queue limit 64 packets (queue depth 0) (congestion occurrences) shape (average) cir 1000000, bc 10000, be 10000 target shape rate 1000000

Based on this output, what is true about the traffic shaping policy?

Question 18mediummultiple choice
Study the full multicast explanation →

A network engineer runs the following command on Router R9:

R9# show ip pim neighbor

PIM Neighbor Table

Neighbor Address     Interface          Uptime    Expires    Mode
192.168.1.10         GigabitEthernet0/0 1w2d      00:01:30   Dense
192.168.1.11         GigabitEthernet0/0 2w0d      00:01:25   Sparse
192.168.1.12         GigabitEthernet0/1 3d04h     00:01:28   Sparse

Based on this output, what can be concluded?

Question 19mediummultiple choice
Review the full OSPF breakdown →
interface GigabitEthernet0/0
 ip address 192.168.1.1 255.255.255.0
 ip ospf network point-to-point
 ip ospf hello-interval 10

!

router ospf 1
 network 192.168.1.0 0.0.0.255 area 0

What is the effect of this configuration?

Question 20mediummultiple choice
Read the full VPN explanation →
interface Tunnel0
 ip address 10.0.0.1 255.255.255.252

tunnel source GigabitEthernet0/0 tunnel destination 203.0.113.2 tunnel mode ipsec ipv4 !

crypto isakmp policy 10

authentication pre-share encryption aes 256 hash sha group 14 lifetime 86400 !

crypto isakmp key cisco123 address 203.0.113.2

!

crypto ipsec transform-set TSET esp-aes 256 esp-sha-hmac

mode tunnel !

crypto map CMAP 10 ipsec-isakmp

set peer 203.0.113.2 set transform-set TSET match address 100 !

interface GigabitEthernet0/0
 crypto map CMAP

!

access-list 100 permit ip 10.0.0.0 0.0.0.3 10.0.0.4 0.0.0.3

What is the effect of this configuration?

Question 21mediummultiple choice
Review the full OSPF breakdown →
interface GigabitEthernet0/0
 ip address 192.168.1.1 255.255.255.0
 ip ospf network broadcast
 ip ospf priority 0

!

router ospf 1
 network 192.168.1.0 0.0.0.255 area 0

What is the effect of setting the OSPF priority to 0 on this interface?

Question 22mediummultiple choice
Read the full NAT/PAT explanation →
interface GigabitEthernet0/0
 ip address 10.0.0.1 255.255.255.0
 ip nat outside

!

interface GigabitEthernet0/1
 ip address 192.168.1.1 255.255.255.0
 ip nat inside

!

access-list 1 permit 192.168.1.0 0.0.0.255

!

ip nat inside source list 1 interface GigabitEthernet0/0 overload

What is the effect of this configuration?

Question 23mediummultiple choice
Review the full OSPF breakdown →
interface GigabitEthernet0/0
 ip address 10.0.0.1 255.255.255.252
 ip ospf network point-to-multipoint
 ip ospf hello-interval 30

!

router ospf 1
 network 10.0.0.0 0.0.0.3 area 0

What is the effect of this configuration?

Question 24mediummultiple choice
Review the full OSPF breakdown →
interface GigabitEthernet0/0
 ip address 192.168.1.1 255.255.255.0
 ip ospf network non-broadcast
 ip ospf priority 1

!

router ospf 1
 network 192.168.1.0 0.0.0.255 area 0
 neighbor 192.168.1.2

What is the effect of this configuration?

Question 25easymultiple choice
Review the full OSPF breakdown →

What is the default OSPF hello interval on an Ethernet broadcast network?

Question 26mediummultiple choice
Open the full BGP breakdown →

Which BGP attribute is used as the first tie-breaker when multiple paths are available and the weight is equal?

Question 27easymultiple choice
Study the full EIGRP explanation →

What is the maximum hop count for EIGRP?

Question 28mediumdrag order
Read the full WAN Technologies explanation →

Drag and drop the steps of PPPoE session establishment into the correct order, from first to last.

Question 29mediumdrag order
Read the full VPN explanation →

Drag and drop the steps of IPsec IKEv2 tunnel establishment into the correct order, from first to last.

Question 30harddrag order
Read the full VPN explanation →

Drag and drop the steps of DMVPN phase 2 spoke-to-spoke tunnel establishment into the correct order, from first to last.

Question 31mediumdrag order
Read the full VPN explanation →

Drag and drop the steps of DMVPN Phase 1 spoke-to-hub tunnel setup into the correct order, from first to last.

Question 32mediumdrag order
Read the full VPN explanation →

Drag and drop the steps of DMVPN Phase 3 spoke-to-spoke shortcut creation into the correct order, from first to last.

Question 33mediumdrag order
Read the full WAN Technologies explanation →

Drag and drop the steps of Metro Ethernet E-Line service provisioning into the correct order, from first to last.

Question 34mediumdrag order
Read the full WAN Technologies explanation →

Drag and drop the steps of 4G/LTE WAN failover with IP SLA tracking into the correct order, from first to last.

Question 35mediumdrag order
Read the full VPN explanation →

Drag and drop the steps of FlexVPN IKEv2 spoke registration to hub into the correct order, from first to last.

Question 36mediumdrag order
Read the full VPN explanation →

Drag and drop the steps of DMVPN Phase 1 spoke-to-hub tunnel setup into the correct order, from first to last.

Question 37mediumdrag order
Read the full VPN explanation →

Drag and drop the steps of DMVPN Phase 3 spoke-to-spoke shortcut creation into the correct order, from first to last.

Question 38mediumdrag order
Read the full WAN Technologies explanation →

Drag and drop the steps of Metro Ethernet E-Line service provisioning into the correct order, from first to last.

Question 39mediumdrag order
Read the full WAN Technologies explanation →

Drag and drop the steps of 4G/LTE WAN failover with IP SLA tracking into the correct order, from first to last.

Question 40mediumdrag order
Read the full VPN explanation →

Drag and drop the steps of FlexVPN IKEv2 spoke registration to hub into the correct order, from first to last.

Question 41mediummatching
Read the full WAN Technologies explanation →

Drag and drop each WAN technology on the left to its matching OSI layer on the right.

Question 42hardmatching
Read the full VPN explanation →

Drag and drop each DMVPN phase on the left to its matching spoke-to-spoke capability on the right.

Question 43easymatching
Read the full WAN Technologies explanation →

Drag and drop each leased line technology on the left to its matching speed on the right.

Question 44mediummatching
Read the full WAN Technologies explanation →

Drag and drop each WAN encapsulation on the left to its matching use case on the right.

Question 45easymatching
Read the full WAN Technologies explanation →

Drag and drop each broadband type on the left to its matching technology on the right.

Question 46mediummatching
Read the full WAN Technologies explanation →

Drag and drop each WAN technology on the left to its matching layer on the right.

Question 47hardmatching
Read the full VPN explanation →

Drag and drop each DMVPN phase on the left to its matching spoke-to-spoke capability on the right.

Question 48easymatching
Read the full WAN Technologies explanation →

Drag and drop each leased line technology on the left to its matching speed on the right.

Question 49mediummatching
Read the full WAN Technologies explanation →

Drag and drop each WAN encapsulation on the left to its matching use case on the right.

Question 50easymatching
Read the full WAN Technologies explanation →

Drag and drop each broadband type on the left to its matching technology on the right.

Question 51mediummulti select
Read the full MPLS explanation →

Which two statements about MPLS Layer 3 VPNs are true? (Choose two.)

Question 52hardmulti select
Read the full VPN explanation →

Which three statements about DMVPN phase 2 are true? (Choose three.)

Question 53easymulti select
Read the full VPN explanation →

Which two statements about IPsec VPNs are true? (Choose two.)

Question 54mediummulti select
Study the full SD-WAN breakdown →

Which three statements about SD-WAN (Cisco Catalyst SD-WAN) are true? (Choose three.)

Question 55mediummulti select
Read the full MPLS explanation →

Which two statements about MPLS Layer 3 VPNs are true? (Choose two.)

Question 56hardmulti select
Read the full VPN explanation →

Which three statements about IPsec VPNs are true? (Choose three.)

Question 57mediummulti select
Study the full SD-WAN breakdown →

Which two statements about SD-WAN architecture are true? (Choose two.)

Question 58hardmulti select
Read the full VPN explanation →

Which three statements about DMVPN Phase 3 are true? (Choose three.)

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