ref: b7af62b250e5dff30320a181ca9d53ab5a7c276d
dir: /os/cerf405/clock.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include <isa.h> #include <interp.h> typedef struct Clock0link Clock0link; typedef struct Clock0link { void (*clock)(void); Clock0link* link; } Clock0link; static Clock0link *clock0link; static Lock clock0lock; ulong clkrelinq; void (*kproftick)(ulong); /* set by devkprof.c when active */ void (*archclocktick)(void); /* set by arch*.c when desired */ Timer* addclock0link(void (*clock)(void), int) { Clock0link *lp; if((lp = malloc(sizeof(Clock0link))) == 0){ print("addclock0link: too many links\n"); return nil; } ilock(&clock0lock); lp->clock = clock; lp->link = clock0link; clock0link = lp; iunlock(&clock0lock); return nil; } void delay(int l) { ulong i, j; j = m->delayloop; while(l-- > 0) for(i=0; i < j; i++) ; } void microdelay(int l) { ulong i; l *= m->delayloop; l /= 1000; if(l <= 0) l = 1; for(i = 0; i < l; i++) ; } enum { Timebase = 1, /* system clock cycles per time base cycle */ Wp17= 0<<30, /* watchdog period (2^x clocks) */ Wp21= 1<<30, Wp25= 2<<30, Wp29= 3<<30, Wrnone= 0<<28, /* no watchdog reset */ Wrcore= 1<<28, /* core reset */ Wrchip= 2<<28, /* chip reset */ Wrsys= 3<<28, /* system reset */ Wie= 1<<27, /* watchdog interrupt enable */ Pie= 1<<26, /* enable PIT interrupt */ Fit9= 0<<24, /* fit period (2^x clocks) */ Fit13= 1<<24, Fit17= 2<<24, Fit21= 3<<24, Fie= 1<<23, /* fit interrupt enable */ Are= 1<<22, /* auto reload enable */ /* dcr */ Boot= 0x0F1, Epctl= 0x0F3, Pllmr0= 0x0F0, Pllmr1= 0x0F4, Ucr= 0x0F5, }; void clockinit(void) { long x; m->delayloop = m->cpuhz/1000; /* initial estimate */ do { x = gettbl(); delay(10); x = gettbl() - x; } while(x < 0); /* * fix count */ m->delayloop = ((vlong)m->delayloop*(10*(vlong)m->clockgen/1000))/(x*Timebase); if((int)m->delayloop <= 0) m->delayloop = 20000; x = (m->clockgen/Timebase)/HZ; putpit(x); iprint("pit value=%.8lux [%lud]\n", x, x); puttsr(~0); puttcr(Pie|Are); iprint("boot=%.8lux epctl=%.8lux pllmr0=%.8lux pllmr1=%.8lux ucr=%.8lux\n", getdcr(Boot), getdcr(Epctl), getdcr(Pllmr0), getdcr(Pllmr1), getdcr(Ucr)); } void clockintr(Ureg *ur) { Clock0link *lp; /* PIT was set to reload automatically */ puttsr(~0); m->ticks++; if(up) up->pc = ur->pc; if(archclocktick != nil) archclocktick(); checkalarms(); if(m->machno == 0) { if(kproftick != nil) (*kproftick)(ur->pc); lock(&clock0lock); for(lp = clock0link; lp; lp = lp->link) lp->clock(); unlock(&clock0lock); } if(up && up->state == Running){ if(cflag && up->type == Interp && tready(nil)) ur->cr |= 1; /* set flag in condition register for ../../interp/comp-power.c:/^schedcheck */ if(anyready()) sched(); } } uvlong fastticks(uvlong *hz) { if(hz) *hz = HZ; return m->ticks; }