ref: 1bfde841484fadb1c41f41a6279e7e070f61a31b
dir: /sys/src/9/bcm/irq.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "../port/error.h" #define INTREGS (VIRTIO+0xB200) enum { Fiqenable = 1<<7, Localtimerint = 0x40, Localmboxint = 0x50, Localintpending = 0x60, }; /* * interrupt control registers */ typedef struct Intregs Intregs; struct Intregs { u32int ARMpending; u32int GPUpending[2]; u32int FIQctl; u32int GPUenable[2]; u32int ARMenable; u32int GPUdisable[2]; u32int ARMdisable; }; typedef struct Vctl Vctl; struct Vctl { Vctl *next; int irq; u32int *reg; u32int mask; void (*f)(Ureg*, void*); void *a; }; static Lock vctllock; static Vctl *vctl[MAXMACH], *vfiq; void intrcpushutdown(void) { u32int *enable; if(soc.armlocal == 0) return; enable = (u32int*)(ARMLOCAL + Localtimerint) + m->machno; *enable = 0; if(m->machno){ enable = (u32int*)(ARMLOCAL + Localmboxint) + m->machno; *enable = 1; } } void intrsoff(void) { Intregs *ip; int disable; ip = (Intregs*)INTREGS; disable = ~0; ip->GPUdisable[0] = disable; ip->GPUdisable[1] = disable; ip->ARMdisable = disable; ip->FIQctl = 0; } /* * called by trap to handle irq interrupts. * returns true iff a clock interrupt, thus maybe reschedule. */ int irq(Ureg* ureg) { Vctl *v; int clockintr; m->intr++; clockintr = 0; for(v = vctl[m->machno]; v != nil; v = v->next) if((*v->reg & v->mask) != 0){ coherence(); v->f(ureg, v->a); coherence(); if(v->irq == IRQclock || v->irq == IRQcntps || v->irq == IRQcntpns) clockintr = 1; } return clockintr; } /* * called direct from lexception.s to handle fiq interrupt. */ void fiq(Ureg *ureg) { Vctl *v; m->intr++; v = vfiq; if(v == nil || m->machno) panic("cpu%d: unexpected item in bagging area", m->machno); coherence(); v->f(ureg, v->a); coherence(); } void intrenable(int irq, void (*f)(Ureg*, void*), void* a, int, char*) { Vctl *v; Intregs *ip; u32int *enable; int cpu; ip = (Intregs*)INTREGS; if((v = xalloc(sizeof(Vctl))) == nil) panic("irqenable: no mem"); cpu = 0; v->irq = irq; if(irq >= IRQlocal){ cpu = m->machno; v->reg = (u32int*)(ARMLOCAL + Localintpending) + cpu; if(irq >= IRQmbox0) enable = (u32int*)(ARMLOCAL + Localmboxint) + cpu; else enable = (u32int*)(ARMLOCAL + Localtimerint) + cpu; v->mask = 1 << (irq - IRQlocal); }else if(irq >= IRQbasic){ enable = &ip->ARMenable; v->reg = &ip->ARMpending; v->mask = 1 << (irq - IRQbasic); }else{ enable = &ip->GPUenable[irq/32]; v->reg = &ip->GPUpending[irq/32]; v->mask = 1 << (irq % 32); } v->f = f; v->a = a; lock(&vctllock); if(irq == IRQfiq){ assert((ip->FIQctl & Fiqenable) == 0); assert((*enable & v->mask) == 0); assert(cpu == 0); vfiq = v; ip->FIQctl = Fiqenable | irq; }else{ v->next = vctl[cpu]; vctl[cpu] = v; if(irq >= IRQmbox0){ if(irq <= IRQmbox3) *enable |= 1 << (irq - IRQmbox0); }else if(irq >= IRQlocal) *enable |= 1 << (irq - IRQlocal); else *enable = v->mask; } unlock(&vctllock); } void intrdisable(int, void (*)(Ureg*, void*), void*, int, char*) { }