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/**
* MPX OS
* CSI350 Operating Systems
* Fall 2013
* Averill Morash, Ben Burwell
* COM.C
*/
#include <dos.h>
#include <stdio.h>
#include <string.h>
#include "mpx.h";
void interrupt (*vect0c)();
int com_opened;
int com_open(int * flag, int rate) {
unsigned char imr;
unsigned char mcr;
unsigned char ier;
unsigned char lcr;
disable();
if (com_opened == NULL || com_opened == 0) {
com_opened = 1;
} else {
return -2;
}
// modify the interrupt vector table
vect0c = getvect(0x0c);
setvect(0x0c, &com_int);
// set baud rate
// first we need to set bit 7 of LCR
// to be 1 so that we can set the baud
// rate divisor.
lcr = inportb(LCR);
lcr = lcr | 0x80;
outportb(LCR, lcr);
// Now we can access the divisor.
// Clock rate is 1.8432 MHz. We want
// 1200 bps/baud.
// 1843200 / (1200 * 16) = 96 = 0x0060
// So the MSB is 0x00 and the LSB is 0x60
if (rate != 1200) {
return -3;
}
outport(BRDR_MSB, 0x00);
outportb(BRDR_LSB, 0x60);
// Now set the LCR
lcr = inportb(LCR);
// b7, b3, b2 = 0
lcr = lcr & 0x73;
// b0, b1 = 1
lcr = lcr | 0x03;
outportb(LCR, lcr);
// set IMR to allow COM interrupts
// set b4 = 0
imr = inportb(IMR);
imr = imr & 0xef;
outportb(IMR, imr);
// set MCR to enable interrupts from
// the UART
// on MCR, b3 = 1
mcr = inportb(MCR);
mcr = mcr | 0x08;
outportb(MCR, mcr);
// use IER to indicate which serial
// interrupts are enabled
// b0 = 1, b1 = 0
ier = inportb(IER);
ier = ier | 0x01;
ier = ier & 0xfd;
outportb(IER, ier);
// set up the DCB
com.event_flag = flag;
dcb_init(&com);
// enable interrupts
enable();
return 0;
}
void com_close() {
disable();
setvect(0x0c, vect0c);
enable();
}
void interrupt com_int() {
int iir;
int *lst_stk;
int ret = 0; //0 indicates not finished, 1 indicated finshed
lst_stk = _BP;
// check IIR to see what caused the interrupt
iir = inportb(IIR);
// only look at bits 1, 2
iir = iir & 0x06; // 0000-0110
if (iir == 0x02) { // 0000-0010
ret = com_write_int();
} else if (iir == 0x04) { // 0000-0100
ret = com_read_int();
} else {
// something is wrong
return;
}
if (ret == 1) {
IO_complete(COM, lst_stk);
}
// write end of interrupt to 8259
outportb(0x20, 0x20);
return;
}
int com_read(char far * buffer, int far * length) {
char dq;
int i;
if (&com == NULL) {
// com not yet open
return -1;
}
// check for invalid length
if (*length < 1) {
return -3;
}
// check if DCB is free
if (com.current_op != NO_OP) {
// previous IO not yet complete
// TODO: we should block this process
return -2;
}
com.buffer = buffer;
com.length = length;
com.current_op = READ_OP;
com.count = 0;
strcpy(buffer, "");
i = 0;
while (com.ring_count > 0 && strlen(buffer) < *length) {
dq = dcb_dequeue(&com);
//strcat(buffer, &dq);
buffer[i] = dq;
i++;
}
buffer[i] = '\0';
com.count = i;
return 0;
}
int com_write(char far * buffer, int far * length) {
int ier;
// check that com has been initialized
if (&com == NULL) {
return -1;
}
// check that com is not busy
if (com.current_op != NO_OP) {
return -2;
}
// check that the length is valid
if (*length < 1) {
return -3;
}
// initialize DCB
com.buffer = buffer;
com.length = length;
com.current_op = WRITE_OP;
com.count = 0;
// enable THR interrupts
ier = inportb(IER);
// bit 1 should be 1
ier = ier | 0x02;
outportb(IER, ier);
return 0;
}
int com_read_int() {
char rbr;
rbr = inportb(RBR);
if (com.current_op == READ_OP && com.count < *(com.length)) {
if (rbr == 0x0d || com.count == (*(com.length) - 1)) {
com.buffer[com.count] = '\0';
com.count++;
*com.length = com.count;
com.current_op = NO_OP;
*(com.event_flag) = 1;
return 1;
} else {
com.buffer[com.count] = rbr;
com.count++;
}
} else {
dcb_enqueue(&com, rbr);
}
return 0;
}
int com_write_int() {
int ier;
// if there are more characters to write
if (*(com.length) > com.count) {
// write a character
outportb(THR, com.buffer[com.count]);
com.count++;
return 0;
} else {
// no chars to write
// disable THR interrupts
ier = inportb(IER);
ier = ier & 0xfd;
outportb(IER, ier);
// set event flag
com.current_op = NO_OP;
*(com.event_flag) = 1;
return 1;
}
}
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