CCNA ICND2 Study Guide. Lammle Todd

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used with Ethernet frames and contains 3 bits. See Chapter 8 for more information.

      6. C. When traffic exceeds the allocated rate, the policer can take one of two actions. It can either drop traffic or re-mark it to another class of service. The new class usually has a higher drop probability. See Chapter 8 for more information.

      7. C, D, F. The SDN architecture slightly differs from the architecture of traditional networks. It comprises three stacked layers: data, control and application See Chapter 8 for more information.

      8. C. NBAR is a layer 4 to layer 7 deep-packet inspection classifier. See Chapter 8 for more information.

      9. B, D. Each stack of switches has a single IP address and is managed as a single object. This single IP management applies to activities such as fault detection, VLAN creation and modification, security, and QoS controls. Each stack has only one configuration file, which is distributed to each member in the stack. When you add a new switch to the stack, the master switch automatically configures the unit with the currently running IOS image and the configuration of the stack. You do not have to do anything to bring up the switch before it is ready to operate. See Chapter 8 for more information.

      10. B. There is no IPv6 default gateway, which will be the link-local address of the router interface, sent to the host as a router advertisement. Until this host receives the router address, the host will communicate with IPv6 only on the local subnet. See Chapter 6 for more information.

      11. D. The command show ipv6 neighbors provides the ARP cache on a router. See Chapter 6 for more information.

      12. A. The state is STALE when the interface has not communicated within the neighbor reachable time frame. The next time the neighbor communicates, the state will be REACH. See Chapter 6 for more information.

      13. C. There are two successor routes, so by default, EIGRP was load-balancing out s0/0 and s0/1. When s0/1 goes down, EIGRP will just keep forwarding traffic out the second link, s0/0. S0/1 will be removed from the routing table. See Chapter 3 for more information.

      14. F. There isn't a lot to go on with the output, but the only commands that provide the FD and AD are show ip eigrp topology and show ipv6 eigrp topology. The addresses in the output are link-local IPv6 addresses, so our answer is the latter. See Chapter 3 for more information.

      15. A, B, C, D. Cisco has documented steps, according to the objectives, that you must go through when troubleshooting an adjacency. See Chapter 3 for more information.

      16. B, D, E. In order for two OSPF routers to create an adjacency, the hello and dead timers must match, and they must both be configured into the same area as well as be in the same subnet. See Chapter 6 for more information.

      17. A. The process starts by sending out Hello packets. Every listening router will then add the originating router to the neighbor database. The responding routers will reply with all of their Hello information so that the originating router can add them to its own neighbor table. At this point, we will have reached the 2WAY state – only certain routers will advance beyond this. See Chapter 5 for more information.

      18. C. Referred to as summary link advertisements (SLAs), Type 3 LSAs are generated by area border routers. These ABRs send Type 3 LSAs toward the area external to the one where they were generated. See Chapter 5 for more information.

      19. B. AH checks the entire packet, but it doesn't offer any encryption services. See Chapter 7 for more information.

      20. B. GRE is a generic tunnel protocol that has no built-in security. The rest of the options are correct for GRE tunnels. See Chapter 7 for more information.

      21. B. Platform as a Service (PaaS) provides the operating system and the network by delivering a computing platform and solution stack. See Chapter 8 for more information.

      Chapter 1

      Enhanced Switched Technologies

      THE FOLLOWING ICND2 EXAM TOPICS ARE COVERED IN THIS CHAPTER:

      

1.0 LAN Switching Technologies

      

1.1 Configure, verify, and troubleshoot VLANs (normal/extended range) spanning multiple switches

      

1.1.a Access ports (data and voice)

      

1.1.b Default VLAN

      

1.2 Configure, verify, and troubleshoot interswitch connectivity

      

1.2.a Add and remove VLANs on a trunk

      

1.2.b DTP and VTP (v1&v2)

      

1.3 Configure, verify, and troubleshoot STP protocols

      

1.3.a STP mode (PVST+ and RPVST+)

      

1.3.b STP root bridge selection

      

1.4 Configure, verify, and troubleshoot STP-related optional features

      

1.4.a PortFast

      

1.4.b BPDU guard

      

1.5 Configure, verify, and troubleshoot (Layer 2/Layer 3) EtherChannel

      

1.5.a Static

      

1.5.b PAGP

      

1.5.c LACP

      

1.7 Describe common access layer threat mitigation techniques

      

1.7.c Nondefault native VLAN

      

2.0 Routing Technologies

      

2.1 Configure, verify, and troubleshoot Inter-VLAN routing

      

2.1.a Router on a stick

      2.1.b SVI

      

Long ago, a company called Digital Equipment Corporation (DEC) created the original version of Spanning Tree Protocol (STP). The IEEE later created its own version of STP called 802.1d. Cisco has moved toward another industry standard in its newer switches called 802.1w. We'll explore both the old and new versions of STP in this chapter, but first, I'll define some important STP basics.

      Routing protocols like RIP, EIGRP, and OSPF have processes for preventing loops from occurring at the Network layer,

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