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ntp: rename TICK_LENGTH_SHIFT to NTP_SCALE_SHIFT
As TICK_LENGTH_SHIFT is used for more than just the tick length, the name isn't quite approriate anymore, so this renames it to NTP_SCALE_SHIFT. Signed-off-by: Roman Zippel <zippel@linux-m68k.org> Cc: john stultz <johnstul@us.ibm.com> Cc: Thomas Gleixner <tglx@linutronix.de> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
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@ -149,7 +149,7 @@ EXPORT_SYMBOL(tb_ticks_per_sec); /* for cputime_t conversions */
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u64 tb_to_xs;
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unsigned tb_to_us;
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#define TICKLEN_SCALE TICK_LENGTH_SHIFT
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#define TICKLEN_SCALE NTP_SCALE_SHIFT
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u64 last_tick_len; /* units are ns / 2^TICKLEN_SCALE */
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u64 ticklen_to_xs; /* 0.64 fraction */
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@ -81,14 +81,14 @@
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* offset and maximum frequency tolerance.
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*/
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#define SHIFT_USEC 16 /* frequency offset scale (shift) */
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#define PPM_SCALE (NSEC_PER_USEC << (TICK_LENGTH_SHIFT - SHIFT_USEC))
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#define PPM_SCALE (NSEC_PER_USEC << (NTP_SCALE_SHIFT - SHIFT_USEC))
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#define PPM_SCALE_INV_SHIFT 20
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#define PPM_SCALE_INV ((1ll << (PPM_SCALE_INV_SHIFT + TICK_LENGTH_SHIFT)) / \
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#define PPM_SCALE_INV ((1ll << (PPM_SCALE_INV_SHIFT + NTP_SCALE_SHIFT)) / \
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PPM_SCALE + 1)
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#define MAXPHASE 500000000l /* max phase error (ns) */
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#define MAXFREQ 500000 /* max frequency error (ns/s) */
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#define MAXFREQ_SCALED ((s64)MAXFREQ << TICK_LENGTH_SHIFT)
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#define MAXFREQ_SCALED ((s64)MAXFREQ << NTP_SCALE_SHIFT)
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#define MINSEC 256 /* min interval between updates (s) */
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#define MAXSEC 2048 /* max interval between updates (s) */
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#define NTP_PHASE_LIMIT ((MAXPHASE / NSEC_PER_USEC) << 5) /* beyond max. dispersion */
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@ -230,7 +230,7 @@ static inline int ntp_synced(void)
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__x < 0 ? -(-__x >> __s) : __x >> __s; \
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})
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#define TICK_LENGTH_SHIFT 32
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#define NTP_SCALE_SHIFT 32
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#ifdef CONFIG_NO_HZ
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#define NTP_INTERVAL_FREQ (2)
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@ -27,7 +27,7 @@ static u64 tick_length, tick_length_base;
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#define MAX_TICKADJ 500 /* microsecs */
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#define MAX_TICKADJ_SCALED (((u64)(MAX_TICKADJ * NSEC_PER_USEC) << \
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TICK_LENGTH_SHIFT) / NTP_INTERVAL_FREQ)
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NTP_SCALE_SHIFT) / NTP_INTERVAL_FREQ)
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/*
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* phase-lock loop variables
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@ -48,13 +48,13 @@ static long ntp_tick_adj;
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static void ntp_update_frequency(void)
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{
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u64 second_length = (u64)(tick_usec * NSEC_PER_USEC * USER_HZ)
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<< TICK_LENGTH_SHIFT;
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second_length += (s64)ntp_tick_adj << TICK_LENGTH_SHIFT;
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<< NTP_SCALE_SHIFT;
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second_length += (s64)ntp_tick_adj << NTP_SCALE_SHIFT;
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second_length += time_freq;
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tick_length_base = second_length;
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tick_nsec = div_u64(second_length, HZ) >> TICK_LENGTH_SHIFT;
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tick_nsec = div_u64(second_length, HZ) >> NTP_SCALE_SHIFT;
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tick_length_base = div_u64(tick_length_base, NTP_INTERVAL_FREQ);
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}
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@ -86,10 +86,10 @@ static void ntp_update_offset(long offset)
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time_reftime = xtime.tv_sec;
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freq_adj = (s64)offset * mtemp;
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freq_adj <<= TICK_LENGTH_SHIFT - 2 * (SHIFT_PLL + 2 + time_constant);
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freq_adj <<= NTP_SCALE_SHIFT - 2 * (SHIFT_PLL + 2 + time_constant);
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time_status &= ~STA_MODE;
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if (mtemp >= MINSEC && (time_status & STA_FLL || mtemp > MAXSEC)) {
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freq_adj += div_s64((s64)offset << (TICK_LENGTH_SHIFT - SHIFT_FLL),
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freq_adj += div_s64((s64)offset << (NTP_SCALE_SHIFT - SHIFT_FLL),
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mtemp);
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time_status |= STA_MODE;
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}
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@ -97,7 +97,7 @@ static void ntp_update_offset(long offset)
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freq_adj = min(freq_adj, MAXFREQ_SCALED);
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time_freq = max(freq_adj, -MAXFREQ_SCALED);
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time_offset = div_s64((s64)offset << TICK_LENGTH_SHIFT, NTP_INTERVAL_FREQ);
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time_offset = div_s64((s64)offset << NTP_SCALE_SHIFT, NTP_INTERVAL_FREQ);
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}
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/**
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@ -197,7 +197,7 @@ void second_overflow(void)
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tick_length -= MAX_TICKADJ_SCALED;
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} else {
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tick_length += (s64)(time_adjust * NSEC_PER_USEC /
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NTP_INTERVAL_FREQ) << TICK_LENGTH_SHIFT;
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NTP_INTERVAL_FREQ) << NTP_SCALE_SHIFT;
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time_adjust = 0;
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}
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}
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@ -369,13 +369,13 @@ int do_adjtimex(struct timex *txc)
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txc->offset = save_adjust;
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else {
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txc->offset = shift_right(time_offset * NTP_INTERVAL_FREQ,
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TICK_LENGTH_SHIFT);
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NTP_SCALE_SHIFT);
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if (!(time_status & STA_NANO))
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txc->offset /= NSEC_PER_USEC;
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}
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txc->freq = shift_right((s32)(time_freq >> PPM_SCALE_INV_SHIFT) *
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(s64)PPM_SCALE_INV,
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TICK_LENGTH_SHIFT);
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NTP_SCALE_SHIFT);
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txc->maxerror = time_maxerror;
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txc->esterror = time_esterror;
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txc->status = time_status;
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@ -371,7 +371,7 @@ static __always_inline int clocksource_bigadjust(s64 error, s64 *interval,
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* here. This is tuned so that an error of about 1 msec is adjusted
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* within about 1 sec (or 2^20 nsec in 2^SHIFT_HZ ticks).
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*/
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error2 = clock->error >> (TICK_LENGTH_SHIFT + 22 - 2 * SHIFT_HZ);
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error2 = clock->error >> (NTP_SCALE_SHIFT + 22 - 2 * SHIFT_HZ);
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error2 = abs(error2);
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for (look_ahead = 0; error2 > 0; look_ahead++)
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error2 >>= 2;
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@ -381,7 +381,7 @@ static __always_inline int clocksource_bigadjust(s64 error, s64 *interval,
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* remove the single look ahead already included in the error.
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*/
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tick_error = current_tick_length() >>
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(TICK_LENGTH_SHIFT - clock->shift + 1);
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(NTP_SCALE_SHIFT - clock->shift + 1);
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tick_error -= clock->xtime_interval >> 1;
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error = ((error - tick_error) >> look_ahead) + tick_error;
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@ -412,7 +412,7 @@ static void clocksource_adjust(s64 offset)
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s64 error, interval = clock->cycle_interval;
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int adj;
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error = clock->error >> (TICK_LENGTH_SHIFT - clock->shift - 1);
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error = clock->error >> (NTP_SCALE_SHIFT - clock->shift - 1);
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if (error > interval) {
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error >>= 2;
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if (likely(error <= interval))
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@ -434,7 +434,7 @@ static void clocksource_adjust(s64 offset)
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clock->xtime_interval += interval;
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clock->xtime_nsec -= offset;
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clock->error -= (interval - offset) <<
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(TICK_LENGTH_SHIFT - clock->shift);
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(NTP_SCALE_SHIFT - clock->shift);
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}
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/**
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@ -474,7 +474,7 @@ void update_wall_time(void)
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/* accumulate error between NTP and clock interval */
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clock->error += current_tick_length();
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clock->error -= clock->xtime_interval << (TICK_LENGTH_SHIFT - clock->shift);
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clock->error -= clock->xtime_interval << (NTP_SCALE_SHIFT - clock->shift);
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}
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/* correct the clock when NTP error is too big */
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