211 lines
5.3 KiB
C
211 lines
5.3 KiB
C
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/*
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* This program simulates a first-order, type-II phase-lock loop using
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* actual code segments from modified kernel distributions for SunOS,
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* Ultrix and OSF/1 kernels. These segments do not use any licensed code.
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*/
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#include <stdio.h>
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#include <ctype.h>
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#include <math.h>
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#include <sys/time.h>
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#include "timex.h"
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/*
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* Phase-lock loop definitions
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*/
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#define HZ 100 /* timer interrupt frequency (Hz) */
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#define MAXPHASE 512000 /* max phase error (us) */
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#define MAXFREQ 200 /* max frequency error (ppm) */
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#define TAU 2 /* time constant (shift 0 - 6) */
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#define POLL 16 /* interval between updates (s) */
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#define MAXSEC 1200 /* max interval between updates (s) */
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/*
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* Function declarations
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*/
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void hardupdate();
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void hardclock();
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void second_overflow();
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/*
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* Kernel variables
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*/
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int tick; /* timer interrupt period (us) */
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int fixtick; /* amortization constant (ppm) */
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struct timeval timex; /* ripoff of kernel time variable */
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/*
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* Phase-lock loop variables
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*/
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int time_status = TIME_BAD; /* clock synchronization status */
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long time_offset = 0; /* time adjustment (us) */
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long time_constant = 0; /* pll time constant */
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long time_tolerance = MAXFREQ; /* frequency tolerance (ppm) */
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long time_precision = 1000000 / HZ; /* clock precision (us) */
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long time_maxerror = MAXPHASE; /* maximum error (us) */
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long time_esterror = MAXPHASE; /* estimated error (us) */
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long time_phase = 0; /* phase offset (scaled us) */
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long time_freq = 0; /* frequency offset (scaled ppm) */
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long time_adj = 0; /* tick adjust (scaled 1 / HZ) */
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long time_reftime = 0; /* time at last adjustment (s) */
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/*
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* Simulation variables
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*/
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double timey = 0; /* simulation time (us) */
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long timez = 0; /* current error (us) */
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long poll_interval = 0; /* poll counter */
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/*
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* Simulation test program
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*/
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void main()
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{
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tick = 1000000 / HZ;
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fixtick = 1000000 % HZ;
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timex.tv_sec = 0;
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timex.tv_usec = MAXPHASE;
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time_freq = 0;
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time_constant = TAU;
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printf("tick %d us, fixtick %d us\n", tick, fixtick);
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printf(" time offset freq _offset _freq _adj\n");
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/*
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* Grind the loop until ^C
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*/
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while (1) {
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timey += (double)(1000000) / HZ;
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if (timey >= 1000000)
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timey -= 1000000;
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hardclock();
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if (timex.tv_usec >= 1000000) {
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timex.tv_usec -= 1000000;
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timex.tv_sec++;
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second_overflow();
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poll_interval++;
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if (!(poll_interval % POLL)) {
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timez = (long)timey - timex.tv_usec;
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if (timez > 500000)
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timez -= 1000000;
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if (timez < -500000)
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timez += 1000000;
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hardupdate(timez);
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printf("%10li%10li%10.2f %08lx %08lx %08lx\n",
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timex.tv_sec, timez,
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(double)time_freq / (1 << SHIFT_KF),
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time_offset, time_freq, time_adj);
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}
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}
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}
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}
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/*
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* This routine simulates the ntp_adjtime() call
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*
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* For default SHIFT_UPDATE = 12, offset is limited to +-512 ms, the
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* maximum interval between updates is 4096 s and the maximum frequency
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* offset is +-31.25 ms/s.
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*/
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void hardupdate(offset)
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long offset;
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{
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long ltemp, mtemp;
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time_offset = offset << SHIFT_UPDATE;
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mtemp = timex.tv_sec - time_reftime;
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time_reftime = timex.tv_sec;
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if (mtemp > MAXSEC)
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mtemp = 0;
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/* ugly multiply should be replaced */
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if (offset < 0)
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time_freq -= (-offset * mtemp) >>
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(time_constant + time_constant);
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else
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time_freq += (offset * mtemp) >>
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(time_constant + time_constant);
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ltemp = time_tolerance << SHIFT_KF;
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if (time_freq > ltemp)
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time_freq = ltemp;
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else if (time_freq < -ltemp)
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time_freq = -ltemp;
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if (time_status == TIME_BAD)
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time_status = TIME_OK;
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}
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/*
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* This routine simulates the timer interrupt
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*/
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void hardclock()
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{
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int ltemp, time_update;
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time_update = tick; /* computed by adjtime() */
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time_phase += time_adj;
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if (time_phase < -FINEUSEC) {
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ltemp = -time_phase >> SHIFT_SCALE;
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time_phase += ltemp << SHIFT_SCALE;
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time_update -= ltemp;
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}
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else if (time_phase > FINEUSEC) {
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ltemp = time_phase >> SHIFT_SCALE;
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time_phase -= ltemp << SHIFT_SCALE;
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time_update += ltemp;
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}
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timex.tv_usec += time_update;
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}
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/*
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* This routine simulates the overflow of the microsecond field
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*
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* With SHIFT_SCALE = 23, the maximum frequency adjustment is +-256 us
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* per tick, or 25.6 ms/s at a clock frequency of 100 Hz. The time
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* contribution is shifted right a minimum of two bits, while the frequency
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* contribution is a right shift. Thus, overflow is prevented if the
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* frequency contribution is limited to half the maximum or 15.625 ms/s.
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*/
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void second_overflow()
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{
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int ltemp;
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time_maxerror += time_tolerance;
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if (time_offset < 0) {
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ltemp = -time_offset >>
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(SHIFT_KG + time_constant);
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time_offset += ltemp;
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time_adj = -(ltemp <<
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(SHIFT_SCALE - SHIFT_HZ - SHIFT_UPDATE));
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} else {
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ltemp = time_offset >>
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(SHIFT_KG + time_constant);
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time_offset -= ltemp;
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time_adj = ltemp <<
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(SHIFT_SCALE - SHIFT_HZ - SHIFT_UPDATE);
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}
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if (time_freq < 0)
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time_adj -= -time_freq >> (SHIFT_KF + SHIFT_HZ - SHIFT_SCALE);
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else
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time_adj += time_freq >> (SHIFT_KF + SHIFT_HZ - SHIFT_SCALE);
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time_adj += fixtick << (SHIFT_SCALE - SHIFT_HZ);
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/* ugly divide should be replaced */
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if (timex.tv_sec % 86400 == 0) {
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switch (time_status) {
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case TIME_INS:
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timex.tv_sec--; /* !! */
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time_status = TIME_OOP;
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break;
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case TIME_DEL:
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timex.tv_sec++;
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time_status = TIME_OK;
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break;
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case TIME_OOP:
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time_status = TIME_OK;
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break;
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}
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}
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}
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