/**
* @ingroup timer
*
* Initialize the clock and sleep queue. This function is called at startup.
*/
void clkinit(void)
{
sleepq = queinit(); /* initialize sleep queue */
clkticks = 0;
#ifdef DETAIL
kprintf("Time base %dHz, Clock ticks at %dHz\r\n",
platform.clkfreq, CLKTICKS_PER_SEC);
#endif
/* TODO: Get rid of ugly x86 ifdef. */
#ifdef _XINU_PLATFORM_X86_
time_intr_freq = platform.clkfreq / CLKTICKS_PER_SEC;
outb(CLOCKCTL, 0x34);
/* LSB then MSB */
outb(CLOCKBASE, time_intr_freq);
outb(CLOCKBASE, time_intr_freq >> 8);
outb(CLOCKBASE, time_intr_freq >> 8); /* why??? */
set_evec(IRQBASE, (ulong)clockIRQ);
#else
/* register clock interrupt */
interruptVector[IRQ_TIMER] = clkhandler;
enable_irq(IRQ_TIMER);
clkupdate(platform.clkfreq / CLKTICKS_PER_SEC);
#endif
}
interrupt clkhandler(void)
{
/* Reset the timer to fire again */
clkupdate(platform.clkfreq / CLKTICKS_PER_SEC);
/* Another clock tick passes. */
clkticks++;
/* Update global second counter. */
if (clkticks >= CLKTICKS_PER_SEC)
{
clktime++;
clkticks = 0;
}
/* If sleepq is not empty, decrement first key. */
/* If key reaches zero, call wakeup. */
if (nonempty(sleepq) && (--firstkey(sleepq) <= 0))
{
wakeup(); // This no longer does a resched() call since we need to
// clear our interrupts before doing a resched()
}
#ifdef FLUKE_ARM
/* Acknowledge and clear the interrupt */
timer0->int_clr = 1;
irq_handled();
#endif
resched();
}
/**
* Initialize the clock. This function is called at startup.
*/
void clkinit(void)
{
#if PREEMPT
preempt = QUANTUM; /* initial time quantum */
#endif
clkticks = 0;
kprintf("Time base %dHz, Clock ticks at %dHz\r\n",
platform.clkfreq, CLKTICKS_PER_SEC);
/* register clock interrupt */
interruptVector[IRQ_TIMER] = clkhandler;
enable_irq(IRQ_TIMER);
clkupdate(platform.clkfreq / CLKTICKS_PER_SEC);
}
/*------------------------------------------------------------------------
* clkinit - initialize the clock and sleep queue at startup
*------------------------------------------------------------------------
*/
void clkinit(void)
{
sleepq = newqueue(); /* allocate a queue to hold the delta */
/* list of sleeping processes */
clkticks = 0; /* start counting one second */
/* Add clock interrupt handler to interrupt vector array */
interruptVector[IRQ_TIMER] = &clkhandler;
/* Enable clock interrupts */
enable_irq(IRQ_TIMER);
/* Start interval timer */
clkupdate(CLKCYCS_PER_TICK);
}
/**
* Initialize the clock and sleep queue. This function is called at startup.
*/
void clkinit(void)
{
sleepq = queinit(); /* initialize sleep queue */
clkticks = 0;
msclkticks = 0;
rescheduleMSLeft = RRQUANTUM;
#ifdef DETAIL
kprintf("Time base %dHz, Clock ticks at %dHz\r\n",
platform.clkfreq, CLKTICKS_PER_SEC);
#endif
/* register clock interrupt */
//timer_init();
register_irq(IRQ_TIMER, clkhandler);
enable_irq(IRQ_TIMER);
clkupdate(platform.clkfreq / CLKTICKS_PER_SEC);
}
interrupt clkhandler(void)
{
//DEBUG
//kprintf("Timer went off\n");
/* Reset the timer to fire again */
clkupdate(platform.clkfreq / CLKTICKS_PER_SEC);
/* Another clock tick passes. */
clkticks++;
msclkticks++;
/* Update global second counter. */
if (clkticks >= CLKTICKS_PER_SEC)
{
clktime++;
clkticks = 0;
}
/* Update global countdown for round robien reschedule */
if (msclkticks >= (CLKTICKS_PER_SEC/1000))
{
rescheduleMSLeft -= 1;
msclkticks = 0;
}
/* If sleepq is not empty, decrement first key. */
/* If key reaches zero, call wakeup. */
if (nonempty(sleepq) && (--firstkey(sleepq) <= 0))
{
wakeup(); // This no longer does a resched() call since we need to
// clear our interrupts before doing a resched()
}
/* Acknowledge and clear the interrupt */
timer0->int_clr = 1;
irq_handled();
resched();
}
