forked from Minki/linux
a3a255e744
x86_64's cpu_khz is unsigned int and there is no reason why x86 needs to use unsigned long. So make cpu_khz unsigned int on x86 as well. Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
196 lines
5.4 KiB
C
196 lines
5.4 KiB
C
/*
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* This code largely moved from arch/i386/kernel/time.c.
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* See comments there for proper credits.
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*/
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#include <linux/spinlock.h>
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#include <linux/init.h>
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#include <linux/timex.h>
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#include <linux/errno.h>
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#include <linux/string.h>
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#include <linux/jiffies.h>
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#include <asm/timer.h>
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#include <asm/io.h>
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#include <asm/processor.h>
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#include "io_ports.h"
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#include "mach_timer.h"
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#include <asm/hpet.h>
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static unsigned long hpet_usec_quotient; /* convert hpet clks to usec */
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static unsigned long tsc_hpet_quotient; /* convert tsc to hpet clks */
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static unsigned long hpet_last; /* hpet counter value at last tick*/
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static unsigned long last_tsc_low; /* lsb 32 bits of Time Stamp Counter */
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static unsigned long last_tsc_high; /* msb 32 bits of Time Stamp Counter */
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static unsigned long long monotonic_base;
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static seqlock_t monotonic_lock = SEQLOCK_UNLOCKED;
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/* convert from cycles(64bits) => nanoseconds (64bits)
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* basic equation:
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* ns = cycles / (freq / ns_per_sec)
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* ns = cycles * (ns_per_sec / freq)
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* ns = cycles * (10^9 / (cpu_mhz * 10^6))
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* ns = cycles * (10^3 / cpu_mhz)
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*
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* Then we use scaling math (suggested by george@mvista.com) to get:
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* ns = cycles * (10^3 * SC / cpu_mhz) / SC
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* ns = cycles * cyc2ns_scale / SC
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*
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* And since SC is a constant power of two, we can convert the div
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* into a shift.
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* -johnstul@us.ibm.com "math is hard, lets go shopping!"
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*/
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static unsigned long cyc2ns_scale;
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#define CYC2NS_SCALE_FACTOR 10 /* 2^10, carefully chosen */
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static inline void set_cyc2ns_scale(unsigned long cpu_mhz)
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{
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cyc2ns_scale = (1000 << CYC2NS_SCALE_FACTOR)/cpu_mhz;
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}
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static inline unsigned long long cycles_2_ns(unsigned long long cyc)
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{
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return (cyc * cyc2ns_scale) >> CYC2NS_SCALE_FACTOR;
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}
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static unsigned long long monotonic_clock_hpet(void)
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{
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unsigned long long last_offset, this_offset, base;
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unsigned seq;
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/* atomically read monotonic base & last_offset */
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do {
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seq = read_seqbegin(&monotonic_lock);
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last_offset = ((unsigned long long)last_tsc_high<<32)|last_tsc_low;
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base = monotonic_base;
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} while (read_seqretry(&monotonic_lock, seq));
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/* Read the Time Stamp Counter */
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rdtscll(this_offset);
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/* return the value in ns */
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return base + cycles_2_ns(this_offset - last_offset);
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}
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static unsigned long get_offset_hpet(void)
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{
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register unsigned long eax, edx;
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eax = hpet_readl(HPET_COUNTER);
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eax -= hpet_last; /* hpet delta */
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eax = min(hpet_tick, eax);
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/*
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* Time offset = (hpet delta) * ( usecs per HPET clock )
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* = (hpet delta) * ( usecs per tick / HPET clocks per tick)
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* = (hpet delta) * ( hpet_usec_quotient ) / (2^32)
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*
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* Where,
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* hpet_usec_quotient = (2^32 * usecs per tick)/HPET clocks per tick
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*
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* Using a mull instead of a divl saves some cycles in critical path.
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*/
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ASM_MUL64_REG(eax, edx, hpet_usec_quotient, eax);
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/* our adjusted time offset in microseconds */
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return edx;
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}
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static void mark_offset_hpet(void)
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{
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unsigned long long this_offset, last_offset;
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unsigned long offset;
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write_seqlock(&monotonic_lock);
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last_offset = ((unsigned long long)last_tsc_high<<32)|last_tsc_low;
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rdtsc(last_tsc_low, last_tsc_high);
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if (hpet_use_timer)
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offset = hpet_readl(HPET_T0_CMP) - hpet_tick;
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else
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offset = hpet_readl(HPET_COUNTER);
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if (unlikely(((offset - hpet_last) >= (2*hpet_tick)) && (hpet_last != 0))) {
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int lost_ticks = ((offset - hpet_last) / hpet_tick) - 1;
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jiffies_64 += lost_ticks;
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}
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hpet_last = offset;
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/* update the monotonic base value */
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this_offset = ((unsigned long long)last_tsc_high<<32)|last_tsc_low;
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monotonic_base += cycles_2_ns(this_offset - last_offset);
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write_sequnlock(&monotonic_lock);
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}
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static void delay_hpet(unsigned long loops)
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{
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unsigned long hpet_start, hpet_end;
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unsigned long eax;
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/* loops is the number of cpu cycles. Convert it to hpet clocks */
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ASM_MUL64_REG(eax, loops, tsc_hpet_quotient, loops);
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hpet_start = hpet_readl(HPET_COUNTER);
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do {
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rep_nop();
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hpet_end = hpet_readl(HPET_COUNTER);
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} while ((hpet_end - hpet_start) < (loops));
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}
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static int __init init_hpet(char* override)
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{
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unsigned long result, remain;
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/* check clock override */
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if (override[0] && strncmp(override,"hpet",4))
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return -ENODEV;
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if (!is_hpet_enabled())
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return -ENODEV;
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printk("Using HPET for gettimeofday\n");
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if (cpu_has_tsc) {
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unsigned long tsc_quotient = calibrate_tsc_hpet(&tsc_hpet_quotient);
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if (tsc_quotient) {
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/* report CPU clock rate in Hz.
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* The formula is (10^6 * 2^32) / (2^32 * 1 / (clocks/us)) =
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* clock/second. Our precision is about 100 ppm.
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*/
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{ unsigned long eax=0, edx=1000;
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ASM_DIV64_REG(cpu_khz, edx, tsc_quotient,
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eax, edx);
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printk("Detected %u.%03u MHz processor.\n",
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cpu_khz / 1000, cpu_khz % 1000);
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}
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set_cyc2ns_scale(cpu_khz/1000);
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}
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}
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/*
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* Math to calculate hpet to usec multiplier
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* Look for the comments at get_offset_hpet()
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*/
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ASM_DIV64_REG(result, remain, hpet_tick, 0, KERNEL_TICK_USEC);
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if (remain > (hpet_tick >> 1))
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result++; /* rounding the result */
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hpet_usec_quotient = result;
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return 0;
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}
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/************************************************************/
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/* tsc timer_opts struct */
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static struct timer_opts timer_hpet = {
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.name = "hpet",
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.mark_offset = mark_offset_hpet,
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.get_offset = get_offset_hpet,
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.monotonic_clock = monotonic_clock_hpet,
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.delay = delay_hpet,
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.read_timer = read_timer_tsc,
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};
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struct init_timer_opts __initdata timer_hpet_init = {
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.init = init_hpet,
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.opts = &timer_hpet,
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};
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