#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "io.h"
/*
* 8259 interrupt controllers
*/
enum
{
Int0ctl= 0x20, /* control port (ICW1, OCW2, OCW3) */
Int0aux= 0x21, /* everything else (ICW2, ICW3, ICW4, OCW1) */
Int1ctl= 0xA0, /* control port */
Int1aux= 0xA1, /* everything else (ICW2, ICW3, ICW4, OCW1) */
Icw1= 0x10, /* select bit in ctl register */
Ocw2= 0x00,
Ocw3= 0x08,
EOI= 0x20, /* non-specific end of interrupt */
Elcr1= 0x4D0, /* Edge/Level Triggered Register */
Elcr2= 0x4D1,
};
static Lock i8259lock;
static int i8259mask = 0xFFFF; /* disabled interrupts */
int i8259elcr; /* mask of level-triggered interrupts */
void
i8259init(void)
{
int x;
ioalloc(Int0ctl, 2, 0, "i8259.0");
ioalloc(Int1ctl, 2, 0, "i8259.1");
ilock(&i8259lock);
/*
* Set up the first 8259 interrupt processor.
* Make 8259 interrupts start at CPU vector VectorPIC.
* Set the 8259 as master with edge triggered
* input with fully nested interrupts.
*/
outb(Int0ctl, (1<<4)|(0<<3)|(1<<0)); /* ICW1 - master, edge triggered,
ICW4 will be sent */
outb(Int0aux, VectorPIC); /* ICW2 - interrupt vector offset */
outb(Int0aux, 0x04); /* ICW3 - have slave on level 2 */
outb(Int0aux, 0x01); /* ICW4 - 8086 mode, not buffered */
/*
* Set up the second 8259 interrupt processor.
* Make 8259 interrupts start at CPU vector VectorPIC+8.
* Set the 8259 as slave with edge triggered
* input with fully nested interrupts.
*/
outb(Int1ctl, (1<<4)|(0<<3)|(1<<0)); /* ICW1 - master, edge triggered,
ICW4 will be sent */
outb(Int1aux, VectorPIC+8); /* ICW2 - interrupt vector offset */
outb(Int1aux, 0x02); /* ICW3 - I am a slave on level 2 */
outb(Int1aux, 0x01); /* ICW4 - 8086 mode, not buffered */
outb(Int1aux, (i8259mask>>8) & 0xFF);
/*
* pass #2 8259 interrupts to #1
*/
i8259mask &= ~0x04;
outb(Int0aux, i8259mask & 0xFF);
/*
* Set Ocw3 to return the ISR when ctl read.
* After initialisation status read is set to IRR.
* Read IRR first to possibly deassert an outstanding
* interrupt.
*/
inb(Int0ctl);
outb(Int0ctl, Ocw3|0x03);
inb(Int1ctl);
outb(Int1ctl, Ocw3|0x03);
/*
* Check for Edge/Level register.
* This check may not work for all chipsets.
* First try a non-intrusive test - the bits for
* IRQs 13, 8, 2, 1 and 0 must be edge (0). If
* that's OK try a R/W test.
*/
x = (inb(Elcr2)<<8)|inb(Elcr1);
if(!(x & 0x2107)){
outb(Elcr1, 0);
if(inb(Elcr1) == 0){
outb(Elcr1, 0x20);
if(inb(Elcr1) == 0x20)
i8259elcr = x;
outb(Elcr1, x & 0xFF);
print("ELCR: %4.4uX\n", i8259elcr);
}
}
iunlock(&i8259lock);
}
int
i8259isr(int vno)
{
int irq, isr;
if(vno < VectorPIC || vno > VectorPIC+MaxIrqPIC)
return 0;
irq = vno-VectorPIC;
/*
* tell the 8259 that we're done with the
* highest level interrupt (interrupts are still
* off at this point)
*/
ilock(&i8259lock);
isr = inb(Int0ctl);
outb(Int0ctl, EOI);
if(irq >= 8){
isr |= inb(Int1ctl)<<8;
outb(Int1ctl, EOI);
}
iunlock(&i8259lock);
return isr & (1<<irq);
}
int
i8259enable(Vctl* v)
{
int irq, irqbit;
/*
* Given an IRQ, enable the corresponding interrupt in the i8259
* and return the vector to be used. The i8259 is set to use a fixed
* range of vectors starting at VectorPIC.
*/
irq = v->irq;
if(irq < 0 || irq > MaxIrqPIC){
print("i8259enable: irq %d out of range\n", irq);
return -1;
}
irqbit = 1<<irq;
ilock(&i8259lock);
if(!(i8259mask & irqbit) && !(i8259elcr & irqbit)){
print("i8259enable: irq %d shared but not level\n", irq);
iunlock(&i8259lock);
return -1;
}
i8259mask &= ~irqbit;
if(irq < 8)
outb(Int0aux, i8259mask & 0xFF);
else
outb(Int1aux, (i8259mask>>8) & 0xFF);
if(i8259elcr & irqbit)
v->eoi = i8259isr;
else
v->isr = i8259isr;
iunlock(&i8259lock);
return VectorPIC+irq;
}
int
i8259vecno(int irq)
{
return VectorPIC+irq;
}
int
i8259disable(int irq)
{
int irqbit;
/*
* Given an IRQ, disable the corresponding interrupt
* in the 8259.
*/
if(irq < 0 || irq > MaxIrqPIC){
print("i8259disable: irq %d out of range\n", irq);
return -1;
}
irqbit = 1<<irq;
ilock(&i8259lock);
if(!(i8259mask & irqbit)){
i8259mask |= irqbit;
if(irq < 8)
outb(Int0aux, i8259mask & 0xFF);
else
outb(Int1aux, (i8259mask>>8) & 0xFF);
}
iunlock(&i8259lock);
return 0;
}
void
i8259on(void)
{
outb(Int0aux, i8259mask&0xFF);
outb(Int1aux, (i8259mask>>8)&0xFF);
}
void
i8259off(void)
{
outb(Int0aux, 0xFF);
outb(Int1aux, 0xFF);
}
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