How does a MAC work?
The MAC sub-layer has two primary jobs to do:
1.Receiving and transmitting data. When receiving data, it parses frame to detect error; when transmitting data, it performs frame assembly.
2.Performing Media access control. It prepares the initiation jobs for a frame transmission and makes recovery from transmission failure.
Frame transmission
As Ethernet adopted Carrier Sense Multiple Access with Collision Detect (CSMA/CD), it detects if there is any carrier signal from another network device running over the physical medium when a frame is ready for transmission. This is referred to as sensing carrier, also “Listen”. If there is signal on the medium, the MAC defers the traffic to avoid a transmission collision and waits for a random period of time, called backoff time, then sends the traffic again.
After the frame is assembled, when transmitting the frame, the preamble (PRE) bytes are inserted and sent first, then the next, Start of frame Delimiter (SFD), DA, SA and through the data field and FCS field in turn. The followings summarize what a MAC does before transmitting a frame.
1.MAC will assemble the frame. First, the preamble and
2.Listen if there is any traffic running over the medium. If yes, wait.
3.If the medium is quiet, and no longer senses any carrier, the MAC waits for a period of time, i.e.
4.During the transmission, MAC keeps monitoring the status of the medium. If no collision happens until the end of the frame, it transmits successfully. If there is a collision happened, the MAC will send the patterned jamming bit to guarantee the collision event propagated to all involved network devices, then wait for a random period of time, i.e. backoff time. When backoff time expires, the MAC goes back to the beginning state and attempts to transmit again. After a collision happens, MAC increases the transmission attempts. If the count of the transmission attempt reaches 16 times, the frame in MAC’s queue will be discarded.
29
