All,
This patch removes the second_overflow() logic integrating it into the
ntp_advance() function. This provides a single interface to advance the
internal NTP state machine.
Any comments or feedback would be greatly appreciated.
thanks
-john
linux-2.6.13-rc3_timeofday-ntp-part8_B4.patch
============================================
diff --git a/include/linux/ntp.h b/include/linux/ntp.h
--- a/include/linux/ntp.h
+++ b/include/linux/ntp.h
@@ -10,9 +10,8 @@
#include <linux/timex.h>
/* NTP state machine interfaces */
-int ntp_advance(void);
+int ntp_advance(unsigned long interval_nsec);
int ntp_adjtimex(struct timex*);
-void second_overflow(void);
int ntp_leapsecond(struct timespec now);
void ntp_clear(void);
int ntp_synced(void);
diff --git a/kernel/ntp.c b/kernel/ntp.c
--- a/kernel/ntp.c
+++ b/kernel/ntp.c
@@ -30,6 +30,11 @@
* http://www.eecis.udel.edu/~mills/database/rfc/rfc1589.txt
* http://www.eecis.udel.edu/~mills/database/reports/kern/kernb.pdf
*
+* The tricky bits of code to handle the accurate clock support
+* were provided by Dave Mills ([email protected]) of NTP fame.
+* They were originally developed for SUN and DEC kernels.
+* All the kudos should go to Dave for this stuff.
+*
* NOTE: To simplify the code, we do not implement any of
* the PPS code, as the code that uses it never was merged.
* [email protected]
@@ -68,10 +73,69 @@ static long time_next_adjust;
/* Required to safely shift negative values */
#define shiftR(x,s) (x < 0) ? (-((-x) >> (s))) : ((x) >> (s))
-int ntp_advance(void)
+int ntp_advance(unsigned long interval_nsec)
{
+ static unsigned long interval_sum = 0;
long time_adjust_step, delta_nsec;
+
+ /* Some components of the NTP state machine are advanced
+ * in full second increments (this is a hold-over from
+ * the old second_overflow() code)
+ *
+ * XXX - I'd prefer to smoothly apply this math at each
+ * call to ntp_advance() rather then each second.
+ */
+ interval_sum += interval_nsec;
+ while (interval_sum > NSEC_PER_SEC) {
+ long next_adj;
+ interval_sum -= NSEC_PER_SEC;
+
+ /* Bump the maxerror field */
+ time_maxerror += time_tolerance >> SHIFT_USEC;
+ if ( time_maxerror > NTP_PHASE_LIMIT ) {
+ time_maxerror = NTP_PHASE_LIMIT;
+ time_status |= STA_UNSYNC;
+ }
+
+ /*
+ * Compute the phase adjustment for the next second. In
+ * PLL mode, the offset is reduced by a fixed factor
+ * times the time constant. In FLL mode the offset is
+ * used directly. In either mode, the maximum phase
+ * adjustment for each second is clamped so as to spread
+ * the adjustment over not more than the number of
+ * seconds between updates.
+ */
+ next_adj = time_offset;
+ if (!(time_status & STA_FLL))
+ next_adj = shiftR(next_adj, SHIFT_KG + time_constant);
+ next_adj = min(next_adj, (MAXPHASE / MINSEC) << SHIFT_UPDATE);
+ next_adj = max(next_adj, -(MAXPHASE / MINSEC) << SHIFT_UPDATE);
+ time_offset -= next_adj;
+
+ time_adj = next_adj << (SHIFT_SCALE - SHIFT_HZ - SHIFT_UPDATE);
+
+ time_adj += shiftR(time_freq, (SHIFT_USEC + SHIFT_HZ - SHIFT_SCALE));
+
+#if HZ == 100
+ /* Compensate for (HZ==100) != (1 << SHIFT_HZ).
+ * Add 25% and 3.125% to get 128.125;
+ * => only 0.125% error (p. 14)
+ */
+ time_adj += shiftR(time_adj,2) + shiftR(time_adj,5);
+#endif
+#if HZ == 1000
+ /* Compensate for (HZ==1000) != (1 << SHIFT_HZ).
+ * Add 1.5625% and 0.78125% to get 1023.4375;
+ * => only 0.05% error (p. 14)
+ */
+ time_adj += shiftR(time_adj,6) + shiftR(time_adj,7);
+#endif
+
+ }
+
+
if ( (time_adjust_step = time_adjust) != 0 ) {
/* We are doing an adjtime thing.
*
@@ -116,71 +180,6 @@ int ntp_advance(void)
return delta_nsec;
}
-
-/*
- * 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 ([email protected]) of NTP fame.
- * They were originally developed for SUN and DEC kernels.
- * All the kudos should go to Dave for this stuff.
- *
- */
-void second_overflow(void)
-{
- long ltemp;
-
- /* Bump the maxerror field */
- time_maxerror += time_tolerance >> SHIFT_USEC;
- if ( time_maxerror > NTP_PHASE_LIMIT ) {
- time_maxerror = NTP_PHASE_LIMIT;
- time_status |= STA_UNSYNC;
- }
-
- /*
- * Compute the phase adjustment for the next second. In
- * PLL mode, the offset is reduced by a fixed factor
- * times the time constant. In FLL mode the offset is
- * used directly. In either mode, the maximum phase
- * adjustment for each second is clamped so as to spread
- * the adjustment over not more than the number of
- * seconds between updates.
- */
- if (time_offset < 0) {
- ltemp = -time_offset;
- if (!(time_status & STA_FLL))
- ltemp >>= SHIFT_KG + time_constant;
- if (ltemp > (MAXPHASE / MINSEC) << SHIFT_UPDATE)
- ltemp = (MAXPHASE / MINSEC) << SHIFT_UPDATE;
- time_offset += ltemp;
- time_adj = -ltemp << (SHIFT_SCALE - SHIFT_HZ - SHIFT_UPDATE);
- } else {
- ltemp = time_offset;
- if (!(time_status & STA_FLL))
- ltemp >>= SHIFT_KG + time_constant;
- if (ltemp > (MAXPHASE / MINSEC) << SHIFT_UPDATE)
- ltemp = (MAXPHASE / MINSEC) << SHIFT_UPDATE;
- time_offset -= ltemp;
- time_adj = ltemp << (SHIFT_SCALE - SHIFT_HZ - SHIFT_UPDATE);
- }
-
- ltemp = time_freq;
- time_adj += shiftR(ltemp, (SHIFT_USEC + SHIFT_HZ - SHIFT_SCALE));
-
-#if HZ == 100
- /* Compensate for (HZ==100) != (1 << SHIFT_HZ).
- * Add 25% and 3.125% to get 128.125; => only 0.125% error (p. 14)
- */
- time_adj += shiftR(time_adj,2) + shiftR(time_adj,5);
-#endif
-#if HZ == 1000
- /* Compensate for (HZ==1000) != (1 << SHIFT_HZ).
- * Add 1.5625% and 0.78125% to get 1023.4375; => only 0.05% error (p. 14)
- */
- time_adj += shiftR(time_adj,6) + shiftR(time_adj,7);
-#endif
-}
-
/**
* ntp_hardupdate - Calculates the offset and freq values
* offset: current offset
diff --git a/kernel/timer.c b/kernel/timer.c
--- a/kernel/timer.c
+++ b/kernel/timer.c
@@ -604,7 +604,7 @@ static void update_wall_time_one_tick(vo
{
long delta_nsec;
- delta_nsec = tick_nsec + ntp_advance();
+ delta_nsec = tick_nsec + ntp_advance(tick_nsec);
xtime.tv_nsec += delta_nsec;
time_interpolator_update(delta_nsec);
@@ -627,7 +627,6 @@ static void update_wall_time(unsigned lo
int leapsecond;
xtime.tv_nsec -= 1000000000;
xtime.tv_sec++;
- second_overflow();
/* apply leapsecond if appropriate */
leapsecond = ntp_leapsecond(xtime);
-
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