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path: root/kernel/time/ntp.c
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/*
 * NTP state machine interfaces and logic.
 *
 * This code was mainly moved from kernel/timer.c and kernel/time.c
 * Please see those files for relevant copyright info and historical
 * changelogs.
 */
#include <linux/capability.h>
#include <linux/clocksource.h>
#include <linux/workqueue.h>
#include <linux/hrtimer.h>
#include <linux/jiffies.h>
#include <linux/math64.h>
#include <linux/timex.h>
#include <linux/time.h>
#include <linux/mm.h>
#include <linux/module.h>
#include <linux/rtc.h>

#include "ntp_internal.h"

/*
 * NTP timekeeping variables:
 *
 * Note: All of the NTP state is protected by the timekeeping locks.
 */


/* USER_HZ period (usecs): */
unsigned long			tick_usec = TICK_USEC;

/* SHIFTED_HZ period (nsecs): */
unsigned long			tick_nsec;

static u64			tick_length;
static u64			tick_length_base;

#define SECS_PER_DAY		86400
#define MAX_TICKADJ		500LL		/* usecs */
#define MAX_TICKADJ_SCALED \
	(((MAX_TICKADJ * NSEC_PER_USEC) << NTP_SCALE_SHIFT) / NTP_INTERVAL_FREQ)

/*
 * phase-lock loop variables
 */

/*
 * clock synchronization status
 *
 * (TIME_ERROR prevents overwriting the CMOS clock)
 */
static int			time_state = TIME_OK;

/* clock status bits:							*/
static int			time_status = STA_UNSYNC;

/* time adjustment (nsecs):						*/
static s64			time_offset;

/* pll time constant:							*/
static long			time_constant = 2;

/* maximum error (usecs):						*/
static long			time_maxerror = NTP_PHASE_LIMIT;

/* estimated error (usecs):						*/
static long			time_esterror = NTP_PHASE_LIMIT;

/* frequency offset (scaled nsecs/secs):				*/
static s64			time_freq;

/* time at last adjustment (secs):					*/
static long			time_reftime;

static long			time_adjust;

/* constant (boot-param configurable) NTP tick adjustment (upscaled)	*/
static s64			ntp_tick_adj;

/* second value of the next pending leapsecond, or TIME64_MAX if no leap */
static time64_t			ntp_next_leap_sec = TIME64_MAX;

#ifdef CONFIG_NTP_PPS

/*
 * The following variables are used when a pulse-per-second (PPS) signal
 * is available. They establish the engineering parameters of the clock
 * discipline loop when controlled by the PPS signal.
 */
#define PPS_VALID	10	/* PPS signal watchdog max (s) */
#define PPS_POPCORN	4	/* popcorn spike threshold (shift) */
#define PPS_INTMIN	2	/* min freq interval (s) (shift) */
#define PPS_INTMAX	8	/* max freq interval (s) (shift) */
#define PPS_INTCOUNT	4	/* number of consecutive good intervals to
				   increase pps_shift or consecutive bad
				   intervals to decrease it */
#define PPS_MAXWANDER	100000	/* max PPS freq wander (ns/s) */

static int pps_valid;		/* signal watchdog counter */
static long pps_tf[3];		/* phase median filter */
static long pps_jitter;		/* current jitter (ns) */
static struct timespec pps_fbase; /* beginning of the last freq interval */
static int pps_shift;		/* current interval duration (s) (shift) */
static int pps_intcnt;		/* interval counter */
static s64 pps_freq;		/* frequency offset (scaled ns/s) */
static long pps_stabil;		/* current stability (scaled ns/s) */

/*
 * PPS signal quality monitors
 */
static long pps_calcnt;		/* calibration intervals */
static long pps_jitcnt;		/* jitter limit exceeded */
static long pps_stbcnt;		/* stability limit exceeded */
static long pps_errcnt;		/* calibration errors */


/* PPS kernel consumer compensates the whole phase error immediately.
 * Otherwise, reduce the offset by a fixed factor times the time constant.
 */
static inline s64 ntp_offset_chunk(s64 offset)
{
	if (time_status & STA_PPSTIME && time_status & STA_PPSSIGNAL)
		return offset;
	else
		return shift_right(offset, SHIFT_PLL + time_constant);
}

static inline void pps_reset_freq_interval(void)
{
	/* the PPS calibration interval may end
	   surprisingly early */
	pps_shift = PPS_INTMIN;
	pps_intcnt = 0;
}

/**
 * pps_clear - Clears the PPS state variables
 */
static inline void pps_clear(void)
{
	pps_reset_freq_interval();
	pps_tf[0] = 0;
	pps_tf[1] = 0;
	pps_tf[2] = 0;
	pps_fbase.tv_sec = pps_fbase.tv_nsec = 0;
	pps_freq = 0;
}

/* Decrease pps_valid to indicate that another second has passed since
 * the last PPS signal. When it reaches 0, indicate that PPS signal is
 * missing.
 */
static inline void pps_dec_valid(void)
{
	if (pps_valid > 0)
		pps_valid--;
	else {
		time_status &= ~(STA_PPSSIGNAL | STA_PPSJITTER |
				 STA_PPSWANDER | STA_PPSERROR);
		pps_clear();
	}
}

static inline void pps_set_freq(s64 freq)
{
	pps_freq = freq;
}

static inline int is_error_status(int status)
{
	return (status & (STA_UNSYNC|STA_CLOCKERR))
		/* PPS signal lost when either PPS time or
		 * PPS frequency synchronization requested
		 */
		|| ((status & (STA_PPSFREQ|STA_PPSTIME))
			&& !(status & STA_PPSSIGNAL))
		/* PPS jitter exceeded when
		 * PPS time synchronization requested */
		|| ((status & (STA_PPSTIME|STA_PPSJITTER))
			== (STA_PPSTIME|STA_PPSJITTER))
		/* PPS wander exceeded or calibration error when
		 * PPS frequency synchronization requested
		 */
		|| ((status & STA_PPSFREQ)
			&& (status & (STA_PPSWANDER|STA_PPSERROR)));
}

static inline void pps_fill_timex(struct timex *txc)
{
	txc->ppsfreq	   = shift_right((pps_freq >> PPM_SCALE_INV_SHIFT) *
					 PPM_SCALE_INV, NTP_SCALE_SHIFT);
	txc->jitter	   = pps_jitter;
	if (!(time_status & STA_NANO))
		txc->jitter /= NSEC_PER_USEC;
	txc->shift	   = pps_shift;
	txc->stabil	   = pps_stabil;
	txc->jitcnt	   = pps_jitcnt;
	txc->calcnt	   = pps_calcnt;
	txc->errcnt	   = pps_errcnt;
	txc->stbcnt	   = pps_stbcnt;
}

#else /* !CONFIG_NTP_PPS */

static inline s64 ntp_offset_chunk(s64 offset)
{
	return shift_right(offset, SHIFT_PLL + time_constant);
}

static inline void pps_reset_freq_interval(void) {}
static inline void pps_clear(void) {}
static inline void pps_dec_valid(void) {}
static inline void pps_set_freq(s64 freq) {}

static inline int is_error_status(int status)
{
	return status & (STA_UNSYNC|STA_CLOCKERR);
}

static inline void pps_fill_timex(struct timex *txc)
{
	/* PPS is not implemented, so these are zero */
	txc->ppsfreq	   = 0;
	txc->jitter	   = 0;
	txc->shift	   = 0;
	txc->stabil	   = 0;
	txc->jitcnt	   = 0;
	txc->calcnt	   = 0;
	txc->errcnt	   = 0;
	txc->stbcnt	   = 0;
}

#endif /* CONFIG_NTP_PPS */


/**
 * ntp_synced - Returns 1 if the NTP status is not UNSYNC
 *
 */
static inline int ntp_synced(void)
{
	return !(time_status & STA_UNSYNC);
}


/*
 * NTP methods:
 */

/*
 * Update (tick_length, tick_length_base, tick_nsec), based
 * on (tick_usec, ntp_tick_adj, time_freq):
 */
static void ntp_update_frequency(void)
{
	u64 second_length;
	u64 new_base;

	second_length		 = (u64)(tick_usec * NSEC_PER_USEC * USER_HZ)
						<< NTP_SCALE_SHIFT;

	second_length		+= ntp_tick_adj;
	second_length		+= time_freq;

	tick_nsec		 = div_u64(second_length, HZ) >> NTP_SCALE_SHIFT;
	new_base		 = div_u64(second_length, NTP_INTERVAL_FREQ);

	/*
	 * Don't wait for the next second_overflow, apply
	 * the change to the tick length immediately:
	 */
	tick_length		+= new_base - tick_length_base;
	tick_length_base	 = new_base;
}

static inline s64 ntp_update_offset_fll(s64 offset64, long secs)
{
	time_status &= ~STA_MODE;

	if (secs < MINSEC)
		return 0;

	if (!(time_status & STA_FLL) && (secs <= MAXSEC))
		return 0;

	time_status |= STA_MODE;

	return div64_long(offset64 << (NTP_SCALE_SHIFT - SHIFT_FLL), secs);
}

static void ntp_update_offset(long offset)
{
	s64 freq_adj;
	s64 offset64;
	long secs;

	if (!(time_status & STA_PLL))
		return;

	if (!(time_status & STA_NANO))
		offset *= NSEC_PER_USEC;

	/*
	 * Scale the phase adjustment and
	 * clamp to the operating range.
	 */
	offset = min(offset, MAXPHASE);
	offset = max(offset, -MAXPHASE);

	/*
	 * Select how the frequency is to be controlled
	 * and in which mode (PLL or FLL).
	 */
	secs = get_seconds() - time_reftime;
	if (unlikely(time_status & STA_FREQHOLD))
		secs = 0;

	time_reftime = get_seconds();

	offset64    = offset;
	freq_adj    = ntp_update_offset_fll(offset64, secs);

	/*
	 * Clamp update interval to reduce PLL gain with low
	 * sampling rate (e.g. intermittent network connection)
	 * to avoid instability.
	 */
	if (unlikely(secs > 1 << (SHIFT_PLL + 1 + time_constant)))
		secs = 1 << (SHIFT_PLL + 1 + time_constant);

	freq_adj    += (offset64 * secs) <<
			(NTP_SCALE_SHIFT - 2 * (SHIFT_PLL + 2 + time_constant));

	freq_adj    = min(freq_adj + time_freq, MAXFREQ_SCALED);

	time_freq   = max(freq_adj, -MAXFREQ_SCALED);

	time_offset = div_s64(offset64 << NTP_SCALE_SHIFT, NTP_INTERVAL_FREQ);
}

/**
 * ntp_clear - Clears the NTP state variables
 */
void ntp_clear(void)
{
	time_adjust	= 0;		/* stop active adjtime() */
	time_status	|= STA_UNSYNC;
	time_maxerror	= NTP_PHASE_LIMIT;
	time_esterror	= NTP_PHASE_LIMIT;

	ntp_update_frequency();

	tick_length	= tick_length_base;
	time_offset	= 0;

	ntp_next_leap_sec = TIME64_MAX;
	/* Clear PPS state variables */
	pps_clear();
}


u64 ntp_tick_length(void)
{
	return tick_length;
}

/**
 * ntp_get_next_leap - Returns the next leapsecond in CLOCK_REALTIME ktime_t
 *
 * Provides the time of the next leapsecond against CLOCK_REALTIME in
 * a ktime_t format. Returns KTIME_MAX if no leapsecond is pending.
 */
ktime_t ntp_get_next_leap(void)
{
	ktime_t ret;

	if ((time_state == TIME_INS) && (time_status & STA_INS))
		return ktime_set(ntp_next_leap_sec, 0);
	ret.tv64 = KTIME_MAX;
	return ret;
}

/*
 * this routine handles the overflow of the microsecond field
 *
 * The tricky bits of code to handle the accurate clock support
 * were provided by Dave Mills (Mills@UDEL.EDU) of NTP fame.
 * They were originally developed for SUN and DEC kernels.
 * All the kudos should go to Dave for this stuff.
 *
 * Also handles leap second processing, and returns leap offset
 */
int second_overflow(unsigned long secs)
{
	s64 delta;
	int leap = 0;

	/*
	 * Leap second processing. If in leap-insert state at the end of the
	 * day, the system clock is set back one second; if in leap-delete
	 * state, the system clock is set ahead one second.
	 */
	switch (time_state) {
	case TIME_OK:
		if (time_status & STA_INS) {
			time_state = TIME_INS;
			ntp_next_leap_sec = secs + SECS_PER_DAY -
						(secs % SECS_PER_DAY);
		} else if (time_status & STA_DEL) {
			time_state = TIME_DEL;
			ntp_next_leap_sec = secs + SECS_PER_DAY -
						 ((secs+1) % SECS_PER_DAY);
		}
		break;
	case TIME_INS:
		if (!(time_status & STA_INS)) {
			ntp_next_leap_sec = TIME64_MAX;
			time_state = TIME_OK;
		} else if (secs % SECS_PER_DAY == 0) {
			leap = -1;
			time_state = TIME_OOP;
			printk(KERN_NOTICE
				"Clock: inserting leap second 23:59:60 UTC\n");
		}
		break;
	case TIME_DEL:
		if (!(time_status & STA_DEL)) {
			ntp_next_leap_sec = TIME64_MAX;
			time_state = TIME_OK;
		} else if ((secs + 1) % SECS_PER_DAY == 0) {
			leap = 1;
			ntp_next_leap_sec = TIME64_MAX;
			time_state = TIME_WAIT;
			printk(KERN_NOTICE
				"Clock: deleting leap second 23:59:59 UTC\n");
		}
		break;
	case TIME_OOP:
		ntp_next_leap_sec = TIME64_MAX;
		time_state = TIME_WAIT;
		break;
	case TIME_WAIT:
		if (!(time_status & (STA_INS | STA_DEL)))
			time_state = TIME_OK;
		break;
	}


	/* Bump the maxerror field */
	time_maxerror += MAXFREQ / NSEC_PER_USEC;
	if (time_maxerror > NTP_PHASE_LIMIT) {
		time_maxerror = NTP_PHASE_LIMIT;
		time_status |= STA_UNSYNC;
	}

	/* Compute the phase adjustment for the next second */
	tick_length	 = tick_length_base;

	delta		 = ntp_offset_chunk(time_offset);
	time_offset	-= delta;
	tick_length	+= delta;

	/* Check PPS signal */
	pps_dec_valid();

	if (!time_adjust)
		goto out;

	if (time_adjust > MAX_TICKADJ) {
		time_adjust -= MAX_TICKADJ;
		tick_length += MAX_TICKADJ_SCALED;
		goto out;
	}

	if (time_adjust < -MAX_TICKADJ) {
		time_adjust += MAX_TICKADJ;
		tick_length -= MAX_TICKADJ_SCALED;
		goto out;
	}

	tick_length += (s64)(time_adjust * NSEC_PER_USEC / NTP_INTERVAL_FREQ)
							 << NTP_SCALE_SHIFT;
	time_adjust = 0;

out:
	return leap;
}

#ifdef CONFIG_GENERIC_CMOS_UPDATE
int __weak update_persistent_clock64(struct timespec64 now64)
{
	struct timespec now;

	now = timespec64_to_timespec(now64);
	return update_persistent_clock(now);
}
#endif

#if defined(CONFIG_GENERIC_CMOS_UPDATE) || defined(CONFIG_RTC_SYSTOHC)
static void sync_cmos_clock(struct work_struct *work);

static DECLARE_DELAYED_WORK(sync_cmos_work, sync_cmos_clock);

static void sync_cmos_clock(struct work_struct *work)
{
	struct timespec64 now;
	struct timespec next;
	int fail = 1;

	/*
	 * If we have an externally synchronized Linux clock, then update
	 * CMOS clock accordingly every ~11 minutes. Set_rtc_mmss() has to be
	 * called as close as possible to 500 ms before the new second starts.
	 * This code is run on a timer.  If the clock is set, that timer
	 * may not expire at the correct time.  Thus, we adjust...
	 * We want the clock to be within a couple of ticks from the target.
	 */
	if (!ntp_synced()) {
		/*
		 * Not synced, exit, do not restart a timer (if one is
		 * running, let it run out).
		 */
		return;
	}

	getnstimeofday64(&now);
	if (abs(now.tv_nsec - (NSEC_PER_SEC / 2)) <= tick_nsec * 5) {
		struct timespec64 adjust = now;

		fail = -ENODEV;
		if (persistent_clock_is_local)
			adjust.tv_sec -= (sys_tz.tz_minuteswest * 60);
#ifdef CONFIG_GENERIC_CMOS_UPDATE
		fail = update_persistent_clock64(adjust);
#endif

#ifdef CONFIG_RTC_SYSTOHC
		if (fail == -ENODEV)
			fail = rtc_set_ntp_time(adjust);
#endif
	}

	next.tv_nsec = (NSEC_PER_SEC / 2) - now.tv_nsec - (TICK_NSEC / 2);
	if (next.tv_nsec <= 0)
		next.tv_nsec += NSEC_PER_SEC;

	if (!fail || fail == -ENODEV)
		next.tv_sec = 659;
	else
		next.tv_sec = 0;

	if (next.tv_nsec >= NSEC_PER_SEC) {
		next.tv_sec++;
		next.tv_nsec -= NSEC_PER_SEC;
	}
	queue_delayed_work(system_power_efficient_wq,
			   &sync_cmos_work, timespec_to_jiffies(&next));
}

void ntp_notify_cmos_timer(void)
{
	queue_delayed_work(system_power_efficient_wq, &sync_cmos_work, 0);
}

#else
void ntp_notify_cmos_timer(void) { }
#endif


/*
 * Propagate a new txc->status value into the NTP state:
 */
static inline void process_adj_status(struct timex *txc, struct timespec64 *ts)
{
	if ((time_status & STA_PLL) && !(txc->status & STA_PLL)) {
		time_state = TIME_OK;
		time_status = STA_UNSYNC;
		ntp_next_leap_sec = TIME64_MAX;
		/* restart PPS frequency calibration */
		pps_reset_freq_interval();
	}

	/*
	 * If we turn on PLL adjustments then reset the
	 * reference time to current time.
	 */
	if (!(time_status & STA_PLL) && (txc->status & STA_PLL))
		time_reftime = get_seconds();

	/* only set allowed bits */
	time_status &= STA_RONLY;
	time_status |= txc->status & ~STA_RONLY;
}


static inline void process_adjtimex_modes(struct timex *txc,
						struct timespec64 *ts,
						s32 *time_tai)
{
	if (txc->modes & ADJ_STATUS)
		process_adj_status(txc, ts);

	if (txc->modes & ADJ_NANO)
		time_status |= STA_NANO;

	if (txc->modes & ADJ_MICRO)
		time_status &= ~STA_NANO;

	if (txc->modes & ADJ_FREQUENCY) {
		time_freq = txc->freq * PPM_SCALE;
		time_freq = min(time_freq, MAXFREQ_SCALED);
		time_freq = max(time_freq, -MAXFREQ_SCALED);
		/* update pps_freq */
		pps_set_freq(time_freq);
	}

	if (txc->modes & ADJ_MAXERROR)
		time_maxerror = txc->maxerror;

	if (txc->modes & ADJ_ESTERROR)
		time_esterror = txc->esterror;

	if (txc->modes & ADJ_TIMECONST) {
		time_constant = txc->constant;
		if (!(time_status & STA_NANO))
			time_constant += 4;
		time_constant = min(time_constant, (long)MAXTC);
		time_constant = max(time_constant, 0l);
	}

	if (txc->modes & ADJ_TAI && txc->constant > 0)
		*time_tai = txc->constant;

	if (txc->modes & ADJ_OFFSET)
		ntp_update_offset(txc->offset);

	if (txc->modes & ADJ_TICK)
		tick_usec = txc->tick;

	if (txc->modes & (ADJ_TICK|ADJ_FREQUENCY|ADJ_OFFSET))
		ntp_update_frequency();
}



/**
 * ntp_validate_timex - Ensures the timex is ok for use in do_adjtimex
 */
int ntp_validate_timex(struct timex *txc)
{
	if (txc->modes & ADJ_ADJTIME) {
		/* singleshot must not be used with any other mode bits */
		if (!(txc->modes & ADJ_OFFSET_SINGLESHOT))
			return -EINVAL;
		if (!(txc->modes & ADJ_OFFSET_READONLY) &&
		    !capable(CAP_SYS_TIME))
			return -EPERM;
	} else {
		/* In order to modify anything, you gotta be super-user! */
		 if (txc->modes && !capable(CAP_SYS_TIME))
			return -EPERM;
		/*
		 * if the quartz is off by more than 10% then
		 * something is VERY wrong!
		 */
		if (txc->modes & ADJ_TICK &&
		    (txc->tick <  900000/USER_HZ ||
		     txc->tick > 1100000/USER_HZ))
			return -EINVAL;
	}

	if ((txc->modes & ADJ_SETOFFSET) && (!capable(CAP_SYS_TIME)))
		return -EPERM;

	/*
	 * Check for potential multiplication overflows that can
	 * only happen on 64-bit systems:
	 */
	if ((txc->modes & ADJ_FREQUENCY) && (BITS_PER_LONG == 64)) {
		if (LLONG_MIN / PPM_SCALE > txc->freq)
			return -EINVAL;
		if (LLONG_MAX / PPM_SCALE < txc->freq)
			return -EINVAL;
	}

	return 0;
}


/*
 * adjtimex mainly allows reading (and writing, if superuser) of
 * kernel time-keeping variables. used by xntpd.
 */
int __do_adjtimex(struct timex *txc, struct timespec64 *ts, s32 *time_tai)
{
	int result;

	if (txc->modes & ADJ_ADJTIME) {
		long save_adjust = time_adjust;

		if (!(txc->modes & ADJ_OFFSET_READONLY)) {
			/* adjtime() is independent from ntp_adjtime() */
			time_adjust = txc->offset;
			ntp_update_frequency();
		}
		txc->offset = save_adjust;
	} else {

		/* If there are input parameters, then process them: */
		if (txc->modes)
			process_adjtimex_modes(txc, ts, time_tai);

		txc->offset = shift_right(time_offset * NTP_INTERVAL_FREQ,
				  NTP_SCALE_SHIFT);
		if (!(time_status & STA_NANO))
			txc->offset /= NSEC_PER_USEC;
	}

	result = time_state;	/* mostly `TIME_OK' */
	/* check for errors */
	if (is_error_status(time_status))
		result = TIME_ERROR;

	txc->freq	   = shift_right((time_freq >> PPM_SCALE_INV_SHIFT) *
					 PPM_SCALE_INV, NTP_SCALE_SHIFT);
	txc->maxerror	   = time_maxerror;
	txc->esterror	   = time_esterror;
	txc->status	   = time_status;
	txc->constant	   = time_constant;
	txc->precision	   = 1;
	txc->tolerance	   = MAXFREQ_SCALED / PPM_SCALE;
	txc->tick	   = tick_usec;
	txc->tai	   = *time_tai;

	/* fill PPS status fields */
	pps_fill_timex(txc);

	txc->time.tv_sec = (time_t)ts->tv_sec;
	txc->time.tv_usec = ts->tv_nsec;
	if (!(time_status & STA_NANO))
		txc->time.tv_usec /= NSEC_PER_USEC;

	/* Handle leapsec adjustments */
	if (unlikely(ts->tv_sec >= ntp_next_leap_sec)) {
		if ((time_state == TIME_INS) && (time_status & STA_INS)) {
			result = TIME_OOP;
			txc->tai++;
			txc->time.tv_sec--;
		}
		if ((time_state == TIME_DEL) && (time_status & STA_DEL)) {
			result = TIME_WAIT;
			txc->tai--;
			txc->time.tv_sec++;
		}
		if ((time_state == TIME_OOP) &&
					(ts->tv_sec == ntp_next_leap_sec)) {
			result = TIME_WAIT;
		}
	}

	return result;
}

#ifdef	CONFIG_NTP_PPS

/* actually struct pps_normtime is good old struct timespec, but it is
 * semantically different (and it is the reason why it was invented):
 * pps_normtime.nsec has a range of ( -NSEC_PER_SEC / 2, NSEC_PER_SEC / 2 ]
 * while timespec.tv_nsec has a range of [0, NSEC_PER_SEC) */
struct pps_normtime {
	__kernel_time_t	sec;	/* seconds */
	long		nsec;	/* nanoseconds */
};

/* normalize the timestamp so that nsec is in the
   ( -NSEC_PER_SEC / 2, NSEC_PER_SEC / 2 ] interval */
static inline struct pps_normtime pps_normalize_ts(struct timespec ts)
{
	struct pps_normtime norm = {
		.sec = ts.tv_sec,
		.nsec = ts.tv_nsec
	};

	if (norm.nsec > (NSEC_PER_SEC >> 1)) {
		norm.nsec -= NSEC_PER_SEC;
		norm.sec++;
	}

	return norm;
}

/* get current phase correction and jitter */
static inline long pps_phase_filter_get(long *jitter)
{
	*jitter = pps_tf[0] - pps_tf[1];
	if (*jitter < 0)
		*jitter = -*jitter;

	/* TODO: test various filters */
	return pps_tf[0];
}

/* add the sample to the phase filter */
static inline void pps_phase_filter_add(long err)
{
	pps_tf[2] = pps_tf[1];
	pps_tf[1] = pps_tf[0];
	pps_tf[0] = err;
}

/* decrease frequency calibration interval length.
 * It is halved after four consecutive unstable intervals.
 */
static inline void pps_dec_freq_interval(void)
{
	if (--pps_intcnt <= -PPS_INTCOUNT) {
		pps_intcnt = -PPS_INTCOUNT;
		if (pps_shift > PPS_INTMIN) {
			pps_shift--;
			pps_intcnt = 0;
		}
	}
}

/* increase frequency calibration interval length.
 * It is doubled after four consecutive stable intervals.
 */
static inline void pps_inc_freq_interval(void)
{
	if (++pps_intcnt >= PPS_INTCOUNT) {
		pps_intcnt = PPS_INTCOUNT;
		if (pps_shift < PPS_INTMAX) {
			pps_shift++;
			pps_intcnt = 0;
		}
	}
}

/* update clock frequency based on MONOTONIC_RAW clock PPS signal
 * timestamps
 *
 * At the end of the calibration interval the difference between the
 * first and last MONOTONIC_RAW clock timestamps divided by the length
 * of the interval becomes the frequency update. If the interval was
 * too long, the data are discarded.
 * Returns the difference between old and new frequency values.
 */
static long hardpps_update_freq(struct pps_normtime freq_norm)
{
	long delta, delta_mod;
	s64 ftemp;

	/* check if the frequency interval was too long */
	if (freq_norm.sec > (2 << pps_shift)) {
		time_status |= STA_PPSERROR;
		pps_errcnt++;
		pps_dec_freq_interval();
		printk_deferred(KERN_ERR
			"hardpps: PPSERROR: interval too long - %ld s\n",
			freq_norm.sec);
		return 0;
	}

	/* here the raw frequency offset and wander (stability) is
	 * calculated. If the wander is less than the wander threshold
	 * the interval is increased; otherwise it is decreased.
	 */
	ftemp = div_s64(((s64)(-freq_norm.nsec)) << NTP_SCALE_SHIFT,
			freq_norm.sec);
	delta = shift_right(ftemp - pps_freq, NTP_SCALE_SHIFT);
	pps_freq = ftemp;
	if (delta > PPS_MAXWANDER || delta < -PPS_MAXWANDER) {
		printk_deferred(KERN_WARNING
				"hardpps: PPSWANDER: change=%ld\n", delta);
		time_status |= STA_PPSWANDER;
		pps_stbcnt++;
		pps_dec_freq_interval();
	} else {	/* good sample */
		pps_inc_freq_interval();
	}

	/* the stability metric is calculated as the average of recent
	 * frequency changes, but is used only for performance
	 * monitoring
	 */
	delta_mod = delta;
	if (delta_mod < 0)
		delta_mod = -delta_mod;
	pps_stabil += (div_s64(((s64)delta_mod) <<
				(NTP_SCALE_SHIFT - SHIFT_USEC),
				NSEC_PER_USEC) - pps_stabil) >> PPS_INTMIN;

	/* if enabled, the system clock frequency is updated */
	if ((time_status & STA_PPSFREQ) != 0 &&
	    (time_status & STA_FREQHOLD) == 0) {
		time_freq = pps_freq;
		ntp_update_frequency();
	}

	return delta;
}

/* correct REALTIME clock phase error against PPS signal */
static void hardpps_update_phase(long error)
{
	long correction = -error;
	long jitter;

	/* add the sample to the median filter */
	pps_phase_filter_add(correction);
	correction = pps_phase_filter_get(&jitter);

	/* Nominal jitter is due to PPS signal noise. If it exceeds the
	 * threshold, the sample is discarded; otherwise, if so enabled,
	 * the time offset is updated.
	 */
	if (jitter > (pps_jitter << PPS_POPCORN)) {
		printk_deferred(KERN_WARNING
				"hardpps: PPSJITTER: jitter=%ld, limit=%ld\n",
				jitter, (pps_jitter << PPS_POPCORN));
		time_status |= STA_PPSJITTER;
		pps_jitcnt++;
	} else if (time_status & STA_PPSTIME) {
		/* correct the time using the phase offset */
		time_offset = div_s64(((s64)correction) << NTP_SCALE_SHIFT,
				NTP_INTERVAL_FREQ);
		/* cancel running adjtime() */
		time_adjust = 0;
	}
	/* update jitter */
	pps_jitter += (jitter - pps_jitter) >> PPS_INTMIN;
}

/*
 * __hardpps() - discipline CPU clock oscillator to external PPS signal
 *
 * This routine is called at each PPS signal arrival in order to
 * discipline the CPU clock oscillator to the PPS signal. It takes two
 * parameters: REALTIME and MONOTONIC_RAW clock timestamps. The former
 * is used to correct clock phase error and the latter is used to
 * correct the frequency.
 *
 * This code is based on David Mills's reference nanokernel
 * implementation. It was mostly rewritten but keeps the same idea.
 */
void __hardpps(const struct timespec *phase_ts, const struct timespec *raw_ts)
{
	struct pps_normtime pts_norm, freq_norm;

	pts_norm = pps_normalize_ts(*phase_ts);

	/* clear the error bits, they will be set again if needed */
	time_status &= ~(STA_PPSJITTER | STA_PPSWANDER | STA_PPSERROR);

	/* indicate signal presence */
	time_status |= STA_PPSSIGNAL;
	pps_valid = PPS_VALID;

	/* when called for the first time,
	 * just start the frequency interval */
	if (unlikely(pps_fbase.tv_sec == 0)) {
		pps_fbase = *raw_ts;
		return;
	}

	/* ok, now we have a base for frequency calculation */
	freq_norm = pps_normalize_ts(timespec_sub(*raw_ts, pps_fbase));

	/* check that the signal is in the range
	 * [1s - MAXFREQ us, 1s + MAXFREQ us], otherwise reject it */
	if ((freq_norm.sec == 0) ||
			(freq_norm.nsec > MAXFREQ * freq_norm.sec) ||
			(freq_norm.nsec < -MAXFREQ * freq_norm.sec)) {
		time_status |= STA_PPSJITTER;
		/* restart the frequency calibration interval */
		pps_fbase = *raw_ts;
		printk_deferred(KERN_ERR "hardpps: PPSJITTER: bad pulse\n");
		return;
	}

	/* signal is ok */

	/* check if the current frequency interval is finished */
	if (freq_norm.sec >= (1 << pps_shift)) {
		pps_calcnt++;
		/* restart the frequency calibration interval */
		pps_fbase = *raw_ts;
		hardpps_update_freq(freq_norm);
	}

	hardpps_update_phase(pts_norm.nsec);

}
#endif	/* CONFIG_NTP_PPS */

static int __init ntp_tick_adj_setup(char *str)
{
	int rc = kstrtol(str, 0, (long *)&ntp_tick_adj);

	if (rc)
		return rc;
	ntp_tick_adj <<= NTP_SCALE_SHIFT;

	return 1;
}

__setup("ntp_tick_adj=", ntp_tick_adj_setup);

void __init ntp_init(void)
{
	ntp_clear();
}