shithub: riscv

ref: c3a430e6824a8f1f08f28a8df24b4b64266b06f9
dir: /sys/src/9/bcm64/clock.c/

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/*
 * bcm283[56] 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)
 *    All are free-running up-counters
 *
 * Use system timer 3 (64 bits) for hzclock interrupts and fastticks
 *   For smp on bcm2836, use local generic timer for interrupts on cpu1-3
 * Use ARM timer (32 bits) for perfticks
 * Use ARM timer to force immediate interrupt
 * Use performance cycle counter for lcycles()
 * Use generic timer virtual counter for cycles()
 */

#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "io.h"
#include "ureg.h"
#include "sysreg.h"

enum {
	SYSTIMERS	= VIRTIO+0x3000,
	ARMTIMER	= VIRTIO+0xB400,

	Localctl	= 0x00,
	Prescaler	= 0x08,
	GPUirqroute	= 0x0C,

	SystimerFreq	= 1*Mhz,
	MaxPeriod	= SystimerFreq / HZ,
	MinPeriod	= 10,
};

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,

	/* generic timer (cortex-a7) */
	Enable	= 1<<0,
	Imask	= 1<<1,
	Istatus = 1<<2,
};

static void
clockintr(Ureg *ureg, void *)
{
	Systimers *tn;

	if(m->machno != 0)
		panic("cpu%d: unexpected system timer interrupt", m->machno);
	tn = (Systimers*)SYSTIMERS;
	/* dismiss interrupt */
	tn->cs = 1<<3;
	timerintr(ureg, 0);
}

static void
localclockintr(Ureg *ureg, void *)
{
	if(m->machno == 0)
		panic("cpu0: Unexpected local generic timer interrupt");
	timerintr(ureg, 0);
}

void
clockshutdown(void)
{
	Armtimer *tm;

	tm = (Armtimer*)ARMTIMER;
	tm->ctl = 0;
}

void
clockinit(void)
{
	Systimers *tn;
	Armtimer *tm;
	ulong t0, t1, tstart, tend;

	syswr(PMCR_EL0, 1<<6 | 7);
	syswr(PMCNTENSET, 1<<31);
	syswr(PMUSERENR_EL0, 1<<2);
	syswr(CNTKCTL_EL1, 1<<1);

	syswr(CNTP_TVAL_EL0, ~0UL);
	if(m->machno == 0){
		syswr(CNTP_CTL_EL0, Imask);

		*(u32int*)(ARMLOCAL + GPUirqroute) = 0;

		/* input clock to OSC */
		*(u32int*)(ARMLOCAL + Localctl) = 0;

		/* divide by (2^31/Prescaler) */
		*(u32int*)(ARMLOCAL + Prescaler) = (((uvlong)SystimerFreq<<31)/soc.oscfreq)&~1UL;
	} else {
		syswr(CNTP_CTL_EL0, Enable);
		intrenable(IRQcntpns, localclockintr, nil, BUSUNKNOWN, "clock");
	}

	tn = (Systimers*)SYSTIMERS;
	tstart = tn->clo;
	do{
		t0 = lcycles();
	}while(tn->clo == tstart);
	tend = tstart + (SystimerFreq/100);
	do{
		t1 = lcycles();
	}while(tn->clo < tend);
	t1 -= t0;
	m->cpuhz = 100 * t1;
	m->cpumhz = (m->cpuhz + Mhz/2 - 1) / Mhz;

	/*
	 * Cyclefreq used to be the same as cpuhz as
	 * we where using the PMCCNTR_EL0 which counts
	 * per core cpu cycles. But is is kind of useless
	 * in userspace because each core has a differnet
	 * counter and it stops when the core is idle (WFI).
	 * So we change it to use the generic timer
	 * virtual counter register CNTVCT_EL0 instead
	 * running at the same frequency as system timer.
	 * (CNTFRQ_EL0 is WRONG on raspberry pi).
	 */
	m->cyclefreq = SystimerFreq;

	if(m->machno == 0){
		tn->cs = 1<<3;
		tn->c3 = tn->clo - 1;
		intrenable(IRQtimer3, clockintr, nil, BUSUNKNOWN, "clock");

		tm = (Armtimer*)ARMTIMER;
		tm->load = 0;
		tm->ctl = TmrPrescale1|CntEnable|CntWidth32;
	}
}

void
timerset(uvlong next)
{
	Systimers *tn;
	uvlong now;
	long period;

	now = fastticks(nil);
	period = next - now;
	if(period < MinPeriod)
		period = MinPeriod;
	else if(period > MaxPeriod)
		period = MaxPeriod;
	if(m->machno)
		syswr(CNTP_TVAL_EL0, period);
	else{
		tn = (Systimers*)SYSTIMERS;
		tn->c3 = tn->clo + period;
	}
}

uvlong
fastticks(uvlong *hz)
{
	Systimers *tn;
	ulong lo, hi;
	uvlong now;

	if(hz)
		*hz = SystimerFreq;
	tn = (Systimers*)SYSTIMERS;
	do{
		hi = tn->chi;
		lo = tn->clo;
	}while(tn->chi != hi);
	now = (uvlong)hi<<32 | lo;
	return now;
}

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;
	}
}

ulong
µs(void)
{
	if(SystimerFreq != 1*Mhz)
		return fastticks2us(fastticks(nil));
	return ((Systimers*)SYSTIMERS)->clo;
}

void
microdelay(int n)
{
	ulong now;

	now = µs();
	while(µs() - now < n);
}

void
delay(int n)
{
	while(--n >= 0)
		microdelay(1000);
}

void
synccycles(void)
{
	static Ref r1, r2;
	int s;

	s = splhi();
	r2.ref = 0;
	incref(&r1);
	while(r1.ref != conf.nmach)
		;
//	syswr(PMCR_EL0, 1<<6 | 7);
	incref(&r2);
	while(r2.ref != conf.nmach)
		;
	r1.ref = 0;
	splx(s);
}