User manual

The second initializing step is to set the Line Control Register at Base Address +3. This register

defines word length, stop bits, parity, and the DLAB.

Bits 0 and 1 control word length and allow word lengths from 5 to 8 bits. Bit settings are extracted

by subtracting 5 from the desired word length.

Bit 2 determines the number of stop bits. There can be either one or two stop bits. If Bit 2 is set to

0, there will be one stop bit. If Bit 2 is set to 1, there will be two.

Bits 3 through 6 control parity and break enable. They are not commonly used for

communications and should be set to zeroes.

Bit 7 is the DLAB discussed earlier. It must be set to zero after the divisor is loaded or else there

will be no communications.

The C command to set the UART for an 8-bit word, no parity, and one stop bit is:

outportb(BASEADDR +3, 0x03)

The final initialization step is to flush the receiver buffers. You do this with two reads from the receiver

buffer at base address +0. When done, the UART is ready to use.

Reception

Reception can be handled in two ways: polling or interrupt-driven. When polling, reception is

accomplished by constantly reading the Line Status Register at Base Address +5. Bit 0 of this register

is set high whenever data are ready to be read from the chip. A simple polling loop must continuously

check this bit and read in data as it becomes available. The following code fragment implements a

polling loop and uses a value of 13, (ASCII Carriage Return) as an end-of-transmission marker:

{

while (!(inportb(BASEADDR +5) & 1)); /*Wait until data ready*/

data[i++]= inportb(BASEADDR);

}

while (data[i]!=13); /*Reads the line until null character rec'd*/

Interrupt-driven communications should be used whenever possible and is required for high data

rates. Writing an interrupt-driven receiver is not much more complex than writing a polled receiver but

care should be taken when installing or removing your interrupt handler to avoid writing the wrong

interrupt, disabling the wrong interrupt, or turning interrupts off for too long a period.

The handler would first read the Interrupt Identification Register at Base Address +2. If the interrupt is

for Received Data Available, the handler then reads the data. If no interrupt is pending, control exits

the routine. A sample handler, written in C, is as follows:

readback = inportb(BASEADDR +2);

if (readback & 4) /*Readback will be set to 4 if data are

available*/

data[i++]=inportb(BASEADDR);

outportb(0x20,0x20); /*Write EOI to 8259 Interrupt Controller*/

return;

Manual PCI-ICM-422(485)/2(4)