freebsd-nq/contrib/ntp/libntp/clocktime.c
Cy Schubert 2b15cb3d09 MFV ntp 4.2.8p1 (r258945, r275970, r276091, r276092, r276093, r278284)
Thanks to roberto for providing pointers to wedge this into HEAD.

Approved by:	roberto
2015-03-30 13:30:15 +00:00

150 lines
4.5 KiB
C

/*
* clocktime - compute the NTP date from a day of year, hour, minute
* and second.
*/
#include <config.h>
#include "ntp_fp.h"
#include "ntp_unixtime.h"
#include "ntp_stdlib.h"
#include "ntp_calendar.h"
/*
* We check that the time be within CLOSETIME seconds of the receive
* time stamp. This is about 4 hours, which hopefully should be wide
* enough to collect most data, while close enough to keep things from
* getting confused.
*/
#define CLOSETIME (4u*60u*60u)
/*
* Since we try to match years, the result of a full search will not
* change when we are already less than a half year from the receive
* time stamp. Since the length of a year is variable we use a
* slightly narrower limit; this might require a full evaluation near
* the edge, but will make sure we always get the correct result.
*/
#define NEARTIME (182u * SECSPERDAY)
/*
* local calendar helpers
*/
static int32 ntp_to_year(u_int32);
static u_int32 year_to_ntp(int32);
/*
* Take a time spec given as day-of-year, hour, minute and second as
* well as a GMT offset in hours and convert it to a NTP time stamp in
* '*ts_ui'. The value will be in the range (rec_ui-0.5yrs) to
* (rec_ui+0.5yrs). A hint for the current start-of-year will be
* read from '*yearstart'.
*
* On return '*ts_ui' will always the best matching solution, and
* '*yearstart' will receive the associated start-of-year.
*
* The function will tell if the result in 'ts_ui' is in CLOSETIME
* (+/-4hrs) around the receive time by returning a non-zero value.
*
* Note: The function puts no constraints on the value ranges for the
* time specification, but evaluates the effective seconds in
* 32-bit arithmetic.
*/
int
clocktime(
int yday , /* day-of-year */
int hour , /* hour of day */
int minute , /* minute of hour */
int second , /* second of minute */
int tzoff , /* hours west of GMT */
u_int32 rec_ui , /* pivot value */
u_long *yearstart, /* cached start-of-year, should be fixed to u_int32 */
u_int32 *ts_ui ) /* effective time stamp */
{
u_int32 ystt[3]; /* year start */
u_int32 test[3]; /* result time stamp */
u_int32 diff[3]; /* abs difference to receive */
int32 y, tmp, idx, min;
/*
* Compute the offset into the year in seconds. Note that
* this could come out to be a negative number.
*/
tmp = ((int32)second +
SECSPERMIN * ((int32)minute +
MINSPERHR * ((int32)hour + (int32)tzoff +
HRSPERDAY * ((int32)yday - 1))));
/*
* Based on the cached year start, do a first attempt. Be
* happy and return if this gets us better than NEARTIME to
* the receive time stamp. Do this only if the cached year
* start is not zero, which will not happen after 1900 for the
* next few thousand years.
*/
if (*yearstart) {
/* -- get time stamp of potential solution */
test[0] = (u_int32)(*yearstart) + tmp;
/* -- calc absolute difference to receive time */
diff[0] = test[0] - rec_ui;
if (diff[0] >= 0x80000000u)
diff[0] = ~diff[0] + 1;
/* -- can't get closer if diff < NEARTIME */
if (diff[0] < NEARTIME) {
*ts_ui = test[0];
return diff[0] < CLOSETIME;
}
}
/*
* Now the dance begins. Based on the receive time stamp and
* the seconds offset in 'tmp', we make an educated guess
* about the year to start with. This takes us on the spot
* with a fuzz of +/-1 year.
*
* We calculate the effective timestamps for the three years
* around the guess and select the entry with the minimum
* absolute difference to the receive time stamp.
*/
y = ntp_to_year(rec_ui - tmp);
for (idx = 0; idx < 3; idx++) {
/* -- get year start of potential solution */
ystt[idx] = year_to_ntp(y + idx - 1);
/* -- get time stamp of potential solution */
test[idx] = ystt[idx] + tmp;
/* -- calc absolute difference to receive time */
diff[idx] = test[idx] - rec_ui;
if (diff[idx] >= 0x80000000u)
diff[idx] = ~diff[idx] + 1;
}
/* -*- assume current year fits best, then search best fit */
for (min = 1, idx = 0; idx < 3; idx++)
if (diff[idx] < diff[min])
min = idx;
/* -*- store results and update year start */
*ts_ui = test[min];
*yearstart = ystt[min];
/* -*- tell if we could get into CLOSETIME*/
return diff[min] < CLOSETIME;
}
static int32
ntp_to_year(
u_int32 ntp)
{
vint64 t;
ntpcal_split s;
t = ntpcal_ntp_to_ntp(ntp, NULL);
s = ntpcal_daysplit(&t);
s = ntpcal_split_eradays(s.hi + DAY_NTP_STARTS - 1, NULL);
return s.hi + 1;
}
static u_int32
year_to_ntp(
int32 year)
{
u_int32 days;
days = ntpcal_days_in_years(year-1) - DAY_NTP_STARTS + 1;
return days * SECSPERDAY;
}