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1. Which of the following statements describes part of the process of how a switchdecides to forward a frame destined for a known unicast MAC address?a. It compares the unicast destination address to the bridging, or MAC address,table.b. It compares the unicast source address to the bridging, or MAC address, table.c. It forwards the frame out all interfaces in the same VLAN except for the incominginterface.d. It compares the destination IP address to the destination MAC address.e. It compares the frame’s incoming interface to the source MAC entry in the MAC address table.
a. It compares the unicast destination address to the bridging, or MAC address,
2. Which of the following statements describes part of the process of how a LANswitch decides to forward a frame destined for a broadcast MAC address?a. It compares the unicast destination address to the bridging, or MAC address,table.b. It compares the unicast source address to the bridging, or MAC address, table.c. It forwards the frame out all interfaces in the same VLAN except for the incominginterface.d. It compares the destination IP address to the destination MAC address.e. It compares the frame’s incoming interface to the source MAC entry in the MAC address table.
c. It forwards the frame out all interfaces in the same VLAN except for the incoming
3. Which of the following statements best describes what a switch does with a framedestined for an unknown unicast address?a. It forwards out all interfaces in the same VLAN except for the incoming interface.b. It forwards the frame out the one interface identified by the matching entry inthe MAC address table.c. It compares the destination IP address to the destination MAC address.d. It compares the frame’s incoming interface to the source MAC entry in the MAC address table.
a. It forwards out all interfaces in the same VLAN except for the incoming interface.
4. Which of the following comparisons does a switch make when deciding whether anew MAC address should be added to its MAC address table?a. It compares the unicast destination address to the bridging, or MAC address,table.b. It compares the unicast source address to the bridging, or MAC address, table.c. It compares the VLAN ID to the bridging, or MAC address, table.d. It compares the destination IP address’s ARP cache entry to the bridging, or MAC address, table.
b. It compares the unicast source address to the bridging, or MAC address, table.
5. A Cisco Catalyst switch has 24 10/100 ports, numbered 0/1 through 0/24. Ten PCsconnect to the ten lowest numbered port, with those PCs working and sending dataover the network. The other ports are not connected to any device. Which of the followinganswers lists facts displayed by the show interfaces status command?a. Port Ethernet 0/1 is in a connected state.b. Port Fast Ethernet 0/11 is in a connected state.c. Port Fast Ethernet 0/5 is in a connected state. d. Port Ethernet 0/15 is in a notconnected state
c. Port Fast Ethernet 0/5 is in a connected state.
6. Consider the following output from a Cisco Catalyst switch:SW1# show mac address-table dynamicMac Address Table-------------------------------------------Vlan Mac Address Type Ports---- ----------- -------- -----1 02AA.AAAA.AAAA DYNAMIC Gi0/11 02BB.BBBB.BBBB DYNAMIC Gi0/21 02CC.CCCC.CCCC DYNAMIC Gi0/3Total Mac Addresses for this criterion: 3Which of the following answers are true about this switch?a. The output proves that port Gi0/2 connects directly to a device that uses address02BB.BBBB.BBBB.b. The switch has learned three MAC addresses since the switch powered on.c. The three listed MAC addresses were learned based on the destination MACaddress of frames forwarded by the switch.d. 02CC.CCCC.CCCC was learned from the source MAC address of a frame that entered port Gi0/3.
d. 02CC.CCCC.CCCC was learned from the source MAC address of a frame that
LAN switches receive Ethernet frames and then make a switching decision: either forwardthe frame out some other ports or ignore the frame. To accomplish this primary mission, switches perform three actions:
1. Deciding when to forward a frame or when to filter (not forward) a frame, based onthe destination MAC address2. Preparing to forward frames by learning MAC addresses by examining the sourceMAC address of each frame received by the switch3. Preparing to forward only one copy of the frame to the destination by creatinga (Layer 2) loop-free environment with other switches by using Spanning Tree Protocol (STP)
Switches build the address table by listening to incoming frames and examining the sourceMAC address in the frame. If a frame enters the switch and the source MAC address is notin the MAC address table, the switch creates an entry in the table. That table entry lists the interface from which the frame arrived. Switch learning logic is that simple.
LAN Switching SummarySwitches use Layer 2 logic, examining the Ethernet data-link header to choose how to processframes. In particular, switches make decisions to forward and filter frames, learn MAC addresses, and use STP to avoid loops, as follows:
Step 1. Switches forward frames based on the destination MAC address:A. If the destination MAC address is a broadcast, multicast, or unknown destinationunicast (a unicast not listed in the MAC table), the switch floods theframe.B. If the destination MAC address is a known unicast address (a unicastaddress found in the MAC table):i. If the outgoing interface listed in the MAC address table is differentfrom the interface in which the frame was received, the switch forwardsthe frame out the outgoing interface.ii. If the outgoing interface is the same as the interface in which theframe was received, the switch filters the frame, meaning that theswitch simply ignores the frame and does not forward it.Step 2. Switches use the following logic to learn MAC address table entries:A. For each received frame, examine the source MAC address and note theinterface from which the frame was received.B. If it is not already in the table, add the MAC address and interface it waslearned on.Step 3. Switches use STP to prevent loops by causing some interfaces to block, meaning that they do not send or receive frames.
Verifying and Analyzing Ethernet Switching:Cisco Catalyst switches come ready to get busy switching frames because of settings like these:
■ The interfaces are enabled by default, ready to start working once a cable is connected.■ All interfaces are assigned to VLAN 1.■ 10/100 and 10/100/1000 interfaces use autonegotiation by default.■ The MAC learning, forwarding, flooding logic all works by default. ■ STP is enabled by default.
To see a switches MAC address table
use the show mac address-table command. Withno additional parameters, this command lists all known MAC addresses in the MAC table,including some overhead static MAC addresses that you can ignore. To see all the dynamically learned MAC addresses only, instead use the show mac address-table dynamic command.
Cisco Catalyst switches name
fastest specification supported
The show interfaces command has a large number of options. One particular option, the
Shows all MAC table entries of all types
Shows all dynamically learned MAC table entries
show mac address-table
Shows all dynamically learned MAC table entries in that
show mac address-table
Shows the dynamically learned MAC table entries with that
show mac address-table
Shows all dynamically learned MAC table entries
show mac address-table
Shows the number of entries in the MAC table, and the
show mac address-table count
Shows the global and per-VLAN aging timeout for inactive
show mac address-table
Empties the MAC table of all dynamic entries
clear mac address-table
Lists one line per interface on the switch, with basic status
To accomplish this primary mission,
1. Deciding when to forward a frame or when to filter (not forward) a frame, based onthe destination MAC address2. Preparing to forward frames by learning MAC addresses by examining the sourceMAC address of each frame received by the switch3. Preparing to forward only one copy of the frame to the destination by creatinga (Layer 2) loop-free environment with other switches by using Spanning Tree Protocol (STP)
switches make decisions to forward and filter frames, learn MAC
Step 1. Switches forward frames based on the destination MAC address:A. If the destination MAC address is a broadcast, multicast, or unknown destinationunicast (a unicast not listed in the MAC table), the switch floods theframe.B. If the destination MAC address is a known unicast address (a unicastaddress found in the MAC table):i. If the outgoing interface listed in the MAC address table is differentfrom the interface in which the frame was received, the switch forwardsthe frame out the outgoing interface.ii. If the outgoing interface is the same as the interface in which theframe was received, the switch filters the frame, meaning that theswitch simply ignores the frame and does not forward it.Step 2. Switches use the following logic to learn MAC address table entries:A. For each received frame, examine the source MAC address and note theinterface from which the frame was received.B. If it is not already in the table, add the MAC address and interface it waslearned on.Step 3. Switches use STP to prevent loops by causing some interfaces to block, meaningthat they do not send or receive frames.
Cisco Catalyst switches come ready to get busy switching frames because of settings like
■ The interfaces are enabled by default, ready to start working once a cable is connected.■ All interfaces are assigned to VLAN 1.■ 10/100 and 10/100/1000 interfaces use autonegotiation by default.■ The MAC learning, forwarding, flooding logic all works by default. ■ STP is enabled by default. |