Accton Technology ES4626 Switch User Manual


 
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PC1
MAC00-01-11-11-11-11
PC4
MAC00-01-44-44-44-44
PC3
MAC00-01-33-33-33-33
PC2
MAC00-01-22-22-22-22
1/5 1/12
Fig 4-1 MAC Table dynamic learning
The topology of the figure above: 4 PCs connected to ES4626/ES4650, where PC1
and PC2 belongs to a same physical segment (same collision domain), the physical
segment connects to port 1/5 of ES4626/ES4650; PC3 and PC4 belongs to the same
physical segment that connects to port 1/12 of ES4626/ES4650.
The initial MAC table contains no address mapping entries. Take the communication
of PC1 and PC3 as an example, the MAC address learning process likes the following:
1. When PC1 is sending a message to PC3, the switch receives the source MAC
address 00-01-11-11-11-11 for this message, the mapping entry of 00-01-11-11-11-11
and port 1/5 is added to the switch MAC table.
2. At the same time, the switch learns the message is destined to 00-01-33-33-33-33, as
the MAC table contains only a mapping entry of MAC address 00-01-11-11-11-11 and
port 1/5, and no port mapping for 00-01-33-33-33-33 present, the switch broadcast
this message to all the ports in the switch (assuming all ports belong to the default
VLAN0.
3. PC3 and PC4 on port 1/12 receive the message sent by PC1, but PC4 will not reply,
as the destination MAC address is 00-01-33-33-33-33, only PC3 will reply to PC1.
When port 1/12 receives the message sent by PC3, a mapping entry for MAC address
00-01-33-33-33-33 and port 1/12 is added to the MAC table.
4. Now the MAC table has two dynamic entries, MAC address 00-01-11-11-11-11 - port
1/5 and 00-01-33-33-33-33 – port 1/12.
5. After the communication between PC1 and PC3, the switch does not receive any
message sent from PC1 and PC3. And the MAC address mapping entries in the MAC
table are deleted after 300 seconds. The 300 seconds here is the default aging time