shithub: purgatorio

ref: 60ecd07e6d3f5786c8723dc9172c35d580fdadc8
dir: /os/port/tod.c/

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#include	"u.h"
#include	"../port/lib.h"
#include	"mem.h"
#include	"dat.h"
#include	"fns.h"
#include	"../port/error.h"

/* compute nanosecond epoch time from the fastest ticking clock
 * on the system.  converting the time to nanoseconds requires
 * the following formula
 *
 *	t = (((1000000000<<31)/f)*ticks)>>31
 *
 *  where
 *
 *	'f'		is the clock frequency
 *	'ticks'		are clock ticks
 *
 *  to avoid too much calculation in todget(), we calculate
 *
 *	mult = (1000000000<<32)/f
 *
 *  each time f is set.  f is normally set by a user level
 *  program writing to /dev/fastclock.  mul64fract will then
 *  take that fractional multiplier and a 64 bit integer and
 *  return the resulting integer product.
 *
 *  We assume that the cpu's of a multiprocessor are synchronized.
 *  This assumption needs to be questioned with each new architecture.
 */

/* frequency of the tod clock */
#define TODFREQ	1000000000ULL

struct {
	int		init;		// true if initialized
	ulong	cnt;
	Lock;
	uvlong	multiplier;	// t = off + (multiplier*ticks)>>31
	uvlong	divider;	// ticks = (divider*(ticks-off))>>31
	vlong	hz;		// frequency of fast clock
	vlong	last;		// last reading of fast clock
	vlong	off;		// offset from epoch to last
	vlong	lasttime;	// last return value from todget
	vlong	delta;		// add 'delta' each slow clock tick from sstart to send
	ulong	sstart;		// ...
	ulong	send;		// ...
} tod;

void
todinit(void)
{
	if(tod.init)
		return;
	ilock(&tod);
	tod.last = fastticks((uvlong*)&tod.hz);
	iunlock(&tod);
	todsetfreq(tod.hz);
	tod.init = 1;
	addclock0link(todfix, 100);
}

/*
 *  calculate multiplier
 */
void
todsetfreq(vlong f)
{
	ilock(&tod);
	tod.hz = f;

	/* calculate multiplier for time conversion */
	tod.multiplier = mk64fract(TODFREQ, f);
	tod.divider = mk64fract(f, TODFREQ);

	iunlock(&tod);
}

/*
 *  Set the time of day struct
 */
void
todset(vlong t, vlong delta, int n)
{
	if(!tod.init)
		todinit();

	ilock(&tod);
	if(t >= 0){
		tod.off = t;
		tod.last = fastticks(nil);
		tod.lasttime = 0;
		tod.delta = 0;
		tod.sstart = tod.send;
	} else {
		if(n <= 0)
			n = 1;
		n *= HZ;
		if(delta < 0 && n > -delta)
			n = -delta;
		if(delta > 0 && n > delta)
			n = delta;
		delta = delta/n;
		tod.sstart = MACHP(0)->ticks;
		tod.send = tod.sstart + n;
		tod.delta = delta;
	}
	iunlock(&tod);
}

/*
 *  get time of day
 */
vlong
todget(vlong *ticksp)
{
	uvlong x;
	vlong ticks, diff;
	ulong t;

	if(!tod.init)
		todinit();

	// we don't want time to pass twixt the measuring of fastticks
	// and grabbing tod.last.  Also none of the vlongs are atomic so
	// we have to look at them inside the lock.
	ilock(&tod);
	tod.cnt++;
	ticks = fastticks(nil);

	// add in correction
	if(tod.sstart != tod.send){
		t = MACHP(0)->ticks;
		if(t >= tod.send)
			t = tod.send;
		tod.off = tod.off + tod.delta*(t - tod.sstart);
		tod.sstart = t;
	}

	// convert to epoch
	diff = ticks - tod.last;
	if(diff < 0)
		diff = 0;
	mul64fract(&x, diff, tod.multiplier);
	x += tod.off;

	// time can't go backwards
	if(x < tod.lasttime)
		x = tod.lasttime;
	else
		tod.lasttime = x;

	iunlock(&tod);

	if(ticksp != nil)
		*ticksp = ticks;

	return x;
}

/*
 *  convert time of day to ticks
 */
uvlong
tod2fastticks(vlong ns)
{
	uvlong x;

	ilock(&tod);
	mul64fract(&x, ns-tod.off, tod.divider);
	x += tod.last;
	iunlock(&tod);
	return x;
}

/*
 *  called regularly to avoid calculation overflows
 */
void
todfix(void)
{
	vlong ticks, diff;
	uvlong x;

	ticks = fastticks(nil);

	diff = ticks - tod.last;
	if(diff > tod.hz){
		ilock(&tod);
	
		// convert to epoch
		mul64fract(&x, diff, tod.multiplier);
if(x > 30000000000ULL) print("todfix %llud\n", x);
		x += tod.off;
	
		// protect against overflows
		tod.last = ticks;
		tod.off = x;
	
		iunlock(&tod);
	}
}

long
tseconds(void)
{
	vlong x;
	int i;

	x = todget(nil);
	x = x/TODFREQ;
	i = x;
	return i;
}

//  convert milliseconds to fast ticks
//
uvlong
ms2fastticks(ulong ms)
{
	if(!tod.init)
		todinit();
	return (tod.hz*ms)/1000ULL;
}

/*
 *  convert nanoseconds to fast ticks
 */
uvlong
ns2fastticks(uvlong ns)
{
	uvlong res;

	if(!tod.init)
		todinit();
	mul64fract(&res, ns, tod.divider);
	return res;
}

/*
 *  convert fast ticks to ns
 */
uvlong
fastticks2ns(uvlong ticks)
{
	uvlong res;

	if(!tod.init)
		todinit();
	mul64fract(&res, ticks, tod.multiplier);
	return res;
}

/*
 * Make a 64 bit fixed point number that has a decimal point
 * to the left of the low order 32 bits.  This is used with
 * mul64fract for converting twixt nanoseconds and fastticks.
 *
 *	multiplier = (to<<32)/from
 */
uvlong
mk64fract(uvlong to, uvlong from)
{
/*
	int shift;

	if(to == 0ULL)
		return 0ULL;

	shift = 0;
	while(shift < 32 && to < (1ULL<<(32+24))){
		to <<= 8;
		shift += 8;
	}
	while(shift < 32 && to < (1ULL<<(32+31))){
		to <<= 1;
		shift += 1;
	}

	return (to/from)<<(32-shift);
*/
	return (to<<32)/from;
}