ref: ccf72da47d29772af51b0b348d2845fbbbd8a881
dir: /sys/src/9/bcm/clock.c/
/* * bcm2835 timers * System timers run at 1MHz (timers 1 and 2 are used by GPU) * ARM timer usually runs at 250MHz (may be slower in low power modes) * Cycle counter runs at 700MHz (unless overclocked) * All are free-running up-counters * * Use system timer 3 (64 bits) for hzclock interrupts and fastticks * Use ARM timer (32 bits) for perfticks * Use ARM timer to force immediate interrupt * Use cycle counter for cycles() */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" enum { SYSTIMERS = VIRTIO+0x3000, ARMTIMER = VIRTIO+0xB400, SystimerFreq = 1*Mhz, MaxPeriod = SystimerFreq / HZ, MinPeriod = SystimerFreq / (100*HZ), }; typedef struct Systimers Systimers; typedef struct Armtimer Armtimer; struct Systimers { u32int cs; u32int clo; u32int chi; u32int c0; u32int c1; u32int c2; u32int c3; }; struct Armtimer { u32int load; u32int val; u32int ctl; u32int irqack; u32int irq; u32int maskedirq; u32int reload; u32int predivider; u32int count; }; enum { CntPrescaleShift= 16, /* freq is sys_clk/(prescale+1) */ CntPrescaleMask = 0xFF, CntEnable = 1<<9, TmrDbgHalt = 1<<8, TmrEnable = 1<<7, TmrIntEnable = 1<<5, TmrPrescale1 = 0x00<<2, TmrPrescale16 = 0x01<<2, TmrPrescale256 = 0x02<<2, CntWidth16 = 0<<1, CntWidth32 = 1<<1, }; static void clockintr(Ureg *ureg, void *) { Systimers *tn; tn = (Systimers*)SYSTIMERS; /* dismiss interrupt */ tn->cs = 1<<3; timerintr(ureg, 0); } void clockshutdown(void) { Armtimer *tm; tm = (Armtimer*)ARMTIMER; tm->ctl = 0; } void clockinit(void) { Systimers *tn; Armtimer *tm; u32int t0, t1, tstart, tend; tn = (Systimers*)SYSTIMERS; tm = (Armtimer*)ARMTIMER; tm->load = 0; tm->ctl = TmrPrescale1|CntEnable|CntWidth32; coherence(); tstart = tn->clo; do{ t0 = lcycles(); }while(tn->clo == tstart); tend = tstart + 10000; do{ t1 = lcycles(); }while(tn->clo != tend); t1 -= t0; m->cpuhz = 100 * t1; m->cpumhz = (m->cpuhz + Mhz/2 - 1) / Mhz; m->cyclefreq = m->cpuhz; tn->c3 = tn->clo - 1; intrenable(IRQtimer3, clockintr, nil, 0, "clock"); } void timerset(uvlong next) { Systimers *tn; vlong now, period; tn = (Systimers*)SYSTIMERS; now = fastticks(nil); period = next - fastticks(nil); if(period < MinPeriod) next = now + MinPeriod; else if(period > MaxPeriod) next = now + MaxPeriod; tn->c3 = (ulong)next; } uvlong fastticks(uvlong *hz) { Systimers *tn; ulong lo, hi; tn = (Systimers*)SYSTIMERS; if(hz) *hz = SystimerFreq; do{ hi = tn->chi; lo = tn->clo; }while(tn->chi != hi); m->fastclock = (uvlong)hi<<32 | lo; return m->fastclock; } ulong perfticks(void) { Armtimer *tm; tm = (Armtimer*)ARMTIMER; return tm->count; } void armtimerset(int n) { Armtimer *tm; tm = (Armtimer*)ARMTIMER; if(n > 0){ tm->ctl |= TmrEnable|TmrIntEnable; tm->load = n; }else{ tm->load = 0; tm->ctl &= ~(TmrEnable|TmrIntEnable); tm->irq = 1; } coherence(); } ulong µs(void) { if(SystimerFreq != 1*Mhz) return fastticks2us(fastticks(nil)); return fastticks(nil); } void microdelay(int n) { Systimers *tn; u32int now, diff; tn = (Systimers*)SYSTIMERS; diff = n + 1; now = tn->clo; while(tn->clo - now < diff) ; } void delay(int n) { while(--n >= 0) microdelay(1000); }