ref: 37e4ce0ea75ae0e9a71d773d7fc7f16fd3d64fe7
dir: /sys/src/9/alphapc/clock.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "axp.h" #include "ureg.h" void clockinit(void) { } uvlong cycletimer(void) { ulong pcc; vlong delta; pcc = rpcc(nil) & 0xFFFFFFFF; if(m->cpuhz == 0){ /* * pcclast is needed to detect wraparound of * the cycle timer which is only 32-bits. * m->cpuhz is set from the info passed from * the firmware. * This could be in clockinit if can * guarantee no wraparound between then and now. * * All the clock stuff needs work. */ m->cpuhz = hwrpb->cfreq; m->pcclast = pcc; } delta = pcc - m->pcclast; if(delta < 0) delta += 0x100000000LL; m->pcclast = pcc; m->fastclock += delta; return MACHP(0)->fastclock; } uvlong fastticks(uvlong* hz) { uvlong ticks; int x; x = splhi(); ticks = cycletimer(); splx(x); if(hz) *hz = m->cpuhz; return ticks; } ulong µs(void) { return fastticks2us(cycletimer()); } /* * performance measurement ticks. must be low overhead. * doesn't have to count over a second. */ ulong perfticks(void) { return rpcc(nil); } void timerset(Tval) { } void microdelay(int us) { uvlong eot; eot = fastticks(nil) + (m->cpuhz/1000000)*us; while(fastticks(nil) < eot) ; } void delay(int millisecs) { microdelay(millisecs*1000); } void clock(Ureg *ureg) { static int count; cycletimer(); /* HZ == 100, timer == 1024Hz. error < 1ms */ count += 100; if (count < 1024) return; count -= 1024; timerintr(ureg, 0); }