gnuboy-for-dfi/sys/thinlib/lib/tl_int.c

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/*
** thinlib (c) 2001 Matthew Conte (matt@conte.com)
**
**
** tl_int.c
**
** thinlib interrupt handling. Thanks to Shawn Hargreaves
** and the Allegro project for providing adequate interrupt
** documentation.
**
** $Id: $
*/
#include <dos.h>
#include <go32.h>
#include <dpmi.h>
#include "thinlib.h"
#include "tl_types.h"
#include "tl_log.h"
#include "tl_djgpp.h"
#include "tl_int.h"
#define PIC1_PORT 0x21
#define PIC2_PORT 0xA1
/* Interrupt stuff */
typedef struct intr_s
{
_go32_dpmi_seginfo old_interrupt;
_go32_dpmi_seginfo new_interrupt;
uint8 irq_vector;
inthandler_t handler;
} intr_t;
#define MAX_INTR 8
static bool pic_modified = false;
static uint8 pic1_mask, pic2_mask;
static uint8 pic1_orig, pic2_orig;
static intr_t intr[MAX_INTR];
static bool thin_int_locked = false;
#define MAKE_INT_HANDLER(num) \
static void _int_handler_##num##(void) \
{ \
/* chain if necessary */ \
if (intr[(num)].handler()) \
{ \
void (*func)() = (void *) intr[(num)].old_interrupt.pm_offset; \
func(); \
} \
} \
THIN_LOCKED_STATIC_FUNC(_int_handler_##num##);
MAKE_INT_HANDLER(0)
MAKE_INT_HANDLER(1)
MAKE_INT_HANDLER(2)
MAKE_INT_HANDLER(3)
MAKE_INT_HANDLER(4)
MAKE_INT_HANDLER(5)
MAKE_INT_HANDLER(6)
MAKE_INT_HANDLER(7)
int thin_int_install(int chan, inthandler_t handler)
{
int i;
if (chan < 0)// || chan >= MAX_INTR)
return -1;
if (NULL == handler)
return -1;
if (false == thin_int_locked)
{
int i;
for (i = 0; i < MAX_INTR; i++)
{
intr[i].handler = NULL;
intr[i].irq_vector = 0;
}
THIN_LOCK_VAR(intr);
THIN_LOCK_FUNC(_int_handler_0);
THIN_LOCK_FUNC(_int_handler_1);
THIN_LOCK_FUNC(_int_handler_2);
THIN_LOCK_FUNC(_int_handler_3);
THIN_LOCK_FUNC(_int_handler_4);
THIN_LOCK_FUNC(_int_handler_5);
THIN_LOCK_FUNC(_int_handler_6);
THIN_LOCK_FUNC(_int_handler_7);
thin_int_locked = true;
}
/* find a free slot */
for (i = 0; i < MAX_INTR; i++)
{
if (NULL == intr[i].handler)
{
intr_t *pintr = &intr[i];
pintr->new_interrupt.pm_selector = _go32_my_cs();
switch (i)
{
case 0: pintr->new_interrupt.pm_offset = (int) _int_handler_0; break;
case 1: pintr->new_interrupt.pm_offset = (int) _int_handler_1; break;
case 2: pintr->new_interrupt.pm_offset = (int) _int_handler_2; break;
case 3: pintr->new_interrupt.pm_offset = (int) _int_handler_3; break;
case 4: pintr->new_interrupt.pm_offset = (int) _int_handler_4; break;
case 5: pintr->new_interrupt.pm_offset = (int) _int_handler_5; break;
case 6: pintr->new_interrupt.pm_offset = (int) _int_handler_6; break;
case 7: pintr->new_interrupt.pm_offset = (int) _int_handler_7; break;
default: return -1;
}
pintr->new_interrupt.pm_offset = (int) handler;
pintr->handler = handler;
pintr->irq_vector = chan;
_go32_dpmi_get_protected_mode_interrupt_vector(pintr->irq_vector, &pintr->old_interrupt);
_go32_dpmi_allocate_iret_wrapper(&pintr->new_interrupt);
_go32_dpmi_set_protected_mode_interrupt_vector(pintr->irq_vector, &pintr->new_interrupt);
return 0;
}
}
return -1; /* none free */
}
void thin_int_remove(int chan)
{
int i;
for (i = 0; i < MAX_INTR; i++)
{
intr_t *pintr = &intr[i];
if (pintr->irq_vector == chan && pintr->handler != NULL)
{
_go32_dpmi_set_protected_mode_interrupt_vector(pintr->irq_vector, &pintr->old_interrupt);
_go32_dpmi_free_iret_wrapper(&pintr->new_interrupt);
pintr->handler = NULL;
pintr->irq_vector = 0;
break;
}
}
}
/* helper routines for the irq masking */
static void _irq_exit(void)
{
if (pic_modified)
{
pic_modified = false;
outportb(0x21, pic1_orig);
outportb(0xA1, pic2_orig);
thin_remove_exit(_irq_exit);
}
}
static void _irq_init(void)
{
if (false == pic_modified)
{
pic_modified = true;
/* read initial PIC values */
pic1_orig = inportb(0x21);
pic2_orig = inportb(0xA1);
pic1_mask = 0;
pic2_mask = 0;
thin_add_exit(_irq_exit);
}
}
/* restore original mask for interrupt */
void thin_irq_restore(int irq)
{
if (pic_modified)
{
uint8 pic;
if (irq > 7)
{
pic = inportb(0xA1) & ~(1 << (irq - 8));
outportb(0xA1, pic | (pic2_orig & (1 << (irq - 8))));
pic2_mask &= ~(1 << (irq - 8));
if (pic2_mask)
return;
irq = 2; /* restore cascade if no high IRQs remain */
}
pic = inportb(0x21) & ~(1 << irq);
outportb(0x21, pic | (pic1_orig & (1 << irq)));
pic1_mask &= ~(1 << irq);
}
}
/* unmask an interrupt */
void thin_irq_enable(int irq)
{
uint8 pic;
_irq_init();
pic = inportb(0x21);
if (irq > 7)
{
/* unmask cascade (IRQ2) interrupt */
//outportb(0x21, pic & 0xFB);
outportb(0x21, pic & ~(1 << 2));
pic = inportb(0xA1);
outportb(0xA1, pic & ~(1 << (irq - 8)));
pic2_mask |= 1 << (irq - 8);
}
else
{
outportb(0x21, pic & ~(1 << irq));
pic1_mask |= 1 << irq;
}
}
/* mask an interrupt */
void thin_irq_disable(int irq)
{
uint8 pic;
_irq_init();
if (irq > 7)
{
/* PIC 2 */
pic = inportb(0xA1);
outportb(0xA1, pic & (1 << (irq - 8)));
pic2_mask |= 1 << (irq - 8);
}
else
{
/* PIC 1 */
pic = inportb(0x21);
outportb(0x21, pic & (1 << irq));
pic1_mask |= 1 << irq;
}
}
/*
** $Log: $
*/