ref: b0377e84cf31c48afed765c433abe7eebb4135a5
dir: /sys/src/9/mt7688/irq.c/
/*
* Interrupt Handling for the MT7688
*/
#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "ureg.h"
#include "io.h"
#include "../port/error.h"
/* map the irq number to the interrupt controller */
static const int irq2inc[32] = {
/* cpu based interrupts */
[IRQsw1] = -1,
[IRQsw2] = -1,
[IRQlow] = -1,
[IRQhigh] = -1,
[IRQpci] = -1,
[IRQethr] = -1,
[IRQwifi] = -1,
[IRQtimer] = -1,
/* irqs on the SoC interrupt controller */
[IRQsys] = INC_SYSCTL,
[IRQtimer0] = INC_TIMER0,
[IRQwdog] = INC_WDOG,
[IRQillacc] = INC_ILLACC,
[IRQpcm] = INC_PCM,
[IRQuartf] = INC_UARTF,
[IRQgpio] = INC_GPIO,
[IRQdma] = INC_DMA,
[IRQnand] = INC_NAND,
[IRQperf] = INC_PERF,
[IRQi2s] = INC_I2S,
[IRQspi] = INC_SPI,
[IRQuartl] = INC_UARTL,
[IRQcrypto] = INC_CRYPTO,
// [IRQsdhc] = INC_SDHC,
// [IRQr2p] = INC_R2P,
[IRQethsw] = INC_ETHSW,
[IRQusbh] = INC_USBH,
[IRQusbd] = INC_USBD,
};
static const int inc2irq[32] = {
[INC_SYSCTL] = IRQsys,
[INC_TIMER0] = IRQtimer0,
[INC_WDOG] = IRQwdog,
[INC_ILLACC] = IRQillacc,
[INC_PCM] = IRQpcm,
[INC_UARTF] = IRQuartf,
[INC_GPIO] = IRQgpio,
[INC_DMA] = IRQdma,
[INC_NAND] = IRQnand,
[INC_PERF] = IRQperf,
[INC_I2S] = IRQi2s,
[INC_SPI] = IRQspi,
[INC_UARTL] = IRQuartl,
[INC_CRYPTO] = IRQcrypto,
// [INC_SDHC] = IRQsdhc,
// [INC_R2P] = IRQr2p,
[INC_ETHSW] = IRQethsw,
[INC_USBH] = IRQusbh,
[INC_USBD] = IRQusbd,
};
typedef struct Handler Handler;
struct Handler {
Handler *next;
void (*f)(Ureg*, void *);
void *arg;
int irq;
};
static Lock intrlock;
static Handler handlers[IRQmax+1];
void incintr(Ureg*, void*);
static u32int
incread(int offset)
{
return *IO(u32int, (IRQBASE + offset));
}
static void
incwrite(int offset, u32int val)
{
*IO(u32int, (IRQBASE + offset)) = val;
}
/*
* called by main(), clears all the irq's
* sets SoC interrupt controller to relay
* IRQs through CPU interrupts 2 and 3
*/
void
intrinit(void)
{
incwrite(IRQ_MASK_CLR, 0xFFFFFFFF);
intrenable(IRQlow, incintr, (void *)0, 0, "inclow");
// intrenable(IRQhigh, incintr, (void *)1, 1, "inchigh");
}
/* called by drivers to setup irq's */
void
intrenable(int irq, void (*f)(Ureg*, void *), void *arg, int priority, char *name)
{
Handler *hp;
u32int r;
if(irq > IRQmax || irq < 0)
panic("intrenable: %s gave bad irq number of %d", name, irq);
/* debugging */
if(irq == 0 || irq == 1)
iprint("software irq enabled?");
hp = &handlers[irq];
ilock(&intrlock);
if(hp->f != nil) {
for(; hp->next != nil; hp = hp->next)
;
if((hp->next = xalloc(sizeof *hp)) == nil)
panic("intrenable: out of memory");
hp = hp->next;
hp->next = nil;
}
hp->f = f;
hp->arg = arg;
hp->irq = irq;
iunlock(&intrlock);
if(irq > IRQtimer) {
r = incread(FIQ_SEL);
r |= (priority << irq2inc[irq]);
incwrite(FIQ_SEL, r);
incwrite(IRQ_MASK_SET, (1 << irq2inc[irq]));
} else {
intron(INTR0 << irq);
}
}
void
intrdisable(int irq, void (*)(Ureg*, void *), void*, int, char *name)
{
if(irq > IRQmax || irq < 0)
panic("intrdisable: %s gave bad irq number of %d", name, irq);
if(irq > IRQtimer) {
incwrite(IRQ_MASK_CLR, (1 << irq2inc[irq]));
} else {
introff(INTR0 << irq);
}
}
/* called by trap to handle requests, returns true if a clock interrupt */
int
intr(Ureg* ur)
{
ulong cause, mask;
int clockintr;
Handler *hh, *hp;
m->intr++;
clockintr = 0;
/*
* ignore interrupts that we have disabled, even if their cause bits
* are set.
*/
cause = ur->cause & ur->status & INTMASK;
cause &= ~(INTR1|INTR0); /* ignore sw interrupts */
if (cause == 0)
iprint("spurious interrupt\n");
if(cause & INTR7){
clock(ur);
cause &= ~INTR7;
clockintr = 1;
}
// iprint("INTR %luX\n", cause);
hh = &handlers[2];
for(mask = INTR2; cause != 0 && mask < INTR7; mask <<= 1){
if(cause & mask){
for(hp = hh; hp != nil; hp = hp->next){
if(hp->f != nil){
hp->f(ur, hp->arg);
cause &= ~mask;
}
}
}
hh++;
}
if(cause != 0)
iprint("unhandled interrupts %lux\n", cause);
/* preemptive scheduling */
if(up != nil && !clockintr)
preempted();
/* if it was a clockintr, sched will be called at end of trap() */
return clockintr;
}
/* off to handle requests for the SoC interrupt controller */
/*
* the interrupts controller on the mt7688 SoC can be mapped to
* either CPU interrupt 2 or 3. So when those are tripped,
* this code then checks the secondary interrupt controller
* to see which IRQ it has. The controller defines CPU INTR2
* as "low priority" IRQ, and INTR3 as "high priority" FIQ.
*/
void
incintr(Ureg *ureg, void *arg)
{
u32int p;
u32int reg;
u32int pending;
u32int mask;
Handler *hh, *hp;
p = (uintptr)arg;
reg = (p == 0) ? IRQ_STAT : FIQ_STAT;
pending = incread(reg);
hh = &handlers[8];
for(mask = 1 ; pending != 0 && mask < 0x80000000; mask <<= 1) {
if(pending & mask) {
for(hp = hh; hp != nil; hp = hp->next) {
if(hp->f != nil) {
hp->f(ureg, hp->arg);
pending &= ~mask;
}
}
}
hh++;
}
if(pending != 0){
iprint("unhandled inc interrupts %uX\n", pending);
delay(2000);
}
}
void
intrclear(int irq)
{
incwrite(IRQ_EOI, 1 << irq2inc[irq]);
}
void
intrshutdown(void)
{
introff(INTMASK);
incwrite(IRQ_MASK_CLR, 0xFFFF);
coherence();
}
/*
* left over debugging stuff
*/
ulong
incraw(void)
{
return incread(INT_PURE);
}
ulong
incmask(void)
{
return incread(IRQ_MASK);
}
ulong
incstat(void)
{
return incread(IRQ_STAT);
}
ulong
incsel(void)
{
return incread(IRQ_SEL0);
}