/* * calyearstart - determine the NTP time at midnight of January 1 in * the year of the given date. */ #include #include #include "ntp_types.h" #include "ntp_calendar.h" #include "ntp_stdlib.h" #include "ntp_assert.h" /* * Juergen Perlinger, 2010-05-02 * * Redone in terms of the calendar functions. It's rather simple: * - expand the NTP time stamp * - split into days and seconds since midnight, dropping the partial day * - get full number of days before year start in NTP epoch * - convert to seconds, truncated to 32 bits. */ u_int32 calyearstart(u_int32 ntptime, const time_t *pivot) { u_int32 ndays; /* elapsed days since NTP starts */ vint64 vlong; ntpcal_split split; vlong = ntpcal_ntp_to_ntp(ntptime, pivot); split = ntpcal_daysplit(&vlong); ndays = ntpcal_rd_to_ystart(split.hi + DAY_NTP_STARTS) - DAY_NTP_STARTS; return (u_int32)(ndays * SECSPERDAY); } /* * calmonthstart - get NTP time at midnight of the first day of the * current month. */ u_int32 calmonthstart(u_int32 ntptime, const time_t *pivot) { u_int32 ndays; /* elapsed days since NTP starts */ vint64 vlong; ntpcal_split split; vlong = ntpcal_ntp_to_ntp(ntptime, pivot); split = ntpcal_daysplit(&vlong); ndays = ntpcal_rd_to_mstart(split.hi + DAY_NTP_STARTS) - DAY_NTP_STARTS; return (u_int32)(ndays * SECSPERDAY); } /* * calweekstart - get NTP time at midnight of the last monday on or * before the current date. */ u_int32 calweekstart(u_int32 ntptime, const time_t *pivot) { u_int32 ndays; /* elapsed days since NTP starts */ vint64 vlong; ntpcal_split split; vlong = ntpcal_ntp_to_ntp(ntptime, pivot); split = ntpcal_daysplit(&vlong); ndays = ntpcal_weekday_le(split.hi + DAY_NTP_STARTS, CAL_MONDAY) - DAY_NTP_STARTS; return (u_int32)(ndays * SECSPERDAY); } /* * caldaystart - get NTP time at midnight of the current day. */ u_int32 caldaystart(u_int32 ntptime, const time_t *pivot) { vint64 vlong; ntpcal_split split; vlong = ntpcal_ntp_to_ntp(ntptime, pivot); split = ntpcal_daysplit(&vlong); return ntptime - split.lo; }