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/* Project: OSLib
* Description: The OS Construction Kit
* Date: 1.6.2000
* Idea by: Luca Abeni & Gerardo Lamastra
*
* OSLib is an SO project aimed at developing a common, easy-to-use
* low-level infrastructure for developing OS kernels and Embedded
* Applications; it partially derives from the HARTIK project but it
* currently is independently developed.
*
* OSLib is distributed under GPL License, and some of its code has
* been derived from the Linux kernel source; also some important
* ideas come from studying the DJGPP go32 extender.
*
* We acknowledge the Linux Community, Free Software Foundation,
* D.J. Delorie and all the other developers who believe in the
* freedom of software and ideas.
*
* For legalese, check out the included GPL license.
*/
/* PIC management code & data */
#include <ll/i386/hw-instr.h>
FILE(IRQ);
#define ICW1_M 0x020 /* Master PIC (8259) register settings */
#define ICW2_M 0x021
#define ICW3_M 0x021
#define ICW4_M 0x021
#define OCW1_M 0x021
#define OCW2_M 0x020
#define OCW3_M 0x020
#define ICW1_S 0x0A0 /* Slave PIC register setting */
#define ICW2_S 0x0A1
#define ICW3_S 0x0A1
#define ICW4_S 0x0A1
#define OCW1_S 0x0A1
#define OCW2_S 0x0A0
#define OCW3_S 0x0A0
#define PIC1_BASE 0x040 /* Interrupt base for each PIC in HARTIK 3.0 */
#define PIC2_BASE 0x070
#define EOI 0x020 /* End Of Interrupt code for PIC! */
#define bit_on(v,b) ((v) |= (1 << (b)))
#define bit_off(v,b) ((v) &= ~(1 << (b)))
/* PIC interrupt mask */
BYTE ll_PIC_master_mask = 0xFE;
BYTE ll_PIC_slave_mask = 0xFE;
void PIC_init(void)
{
outp(ICW1_M, 0x11);
outp(ICW2_M, PIC1_BASE);
outp(ICW3_M, 0x04);
outp(ICW4_M, 0x01);
outp(OCW1_M, 0xFF);
outp(ICW1_S, 0x11);
outp(ICW2_S, PIC2_BASE);
outp(ICW3_S, 0x02);
outp(ICW4_S, 0x01);
outp(OCW1_S, 0xFF);
}
void PIC_end(void)
{
outp(ICW1_M, 0x11);
outp(ICW2_M, 0x08);
outp(ICW3_M, 0x04);
outp(ICW4_M, 0x01);
outp(OCW1_M, 0xFF);
outp(ICW1_S, 0x11);
outp(ICW2_S, 0x70);
outp(ICW3_S, 0x02);
outp(ICW4_S, 0x01);
outp(OCW1_S, 0xFF);
}
void irq_mask(WORD irqno)
{
/* Cannot mask timer interrupt! */
if (irqno == 0)
return;
/* Interrupt is on master PIC */
if (irqno < 8) {
bit_on(ll_PIC_master_mask, irqno);
outp(0x21, ll_PIC_master_mask);
} else if (irqno < 16) {
/* Interrupt on slave PIC */
bit_on(ll_PIC_slave_mask, irqno - 8);
outp(0xA1, ll_PIC_slave_mask);
/* If the slave PIC is completely off */
/* Then turn off cascading line (Irq #2) */
if (ll_PIC_slave_mask == 0xFF && !(ll_PIC_master_mask & 0x04)) {
bit_on(ll_PIC_master_mask, 2);
outp(0x21, ll_PIC_master_mask);
}
}
}
void irq_unmask(WORD irqno)
{
/* It is a nonsense to unmask the timer interrupt */
if (irqno == 0)
return;
/* Interrupt is on master PIC */
if (irqno < 8) {
bit_off(ll_PIC_master_mask, irqno);
outp(0x21, ll_PIC_master_mask);
} else if (irqno < 16) {
/* Interrupt on slave PIC */
bit_off(ll_PIC_slave_mask, irqno - 8);
outp(0xA1, ll_PIC_slave_mask);
/* If the cascading irq line was off */
/* Then activate it also! */
if (ll_PIC_master_mask & 0x04) {
bit_off(ll_PIC_master_mask, 2);
outp(0x21, ll_PIC_master_mask);
}
}
}