1999-12-09 13:01:21 +00:00
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/*
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* ntp_unixtime.h - contains constants and macros for converting between
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* NTP time stamps (l_fp) and Unix times (struct timeval)
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*/
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#include "ntp_types.h"
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2004-07-20 15:01:56 +00:00
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#ifdef SIM
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#include "ntpsim.h"
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#endif
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#ifdef SIM
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# define GETTIMEOFDAY(a, b) (node_gettime(&ntp_node, a))
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# define SETTIMEOFDAY(a, b) (node_settime(&ntp_node, a))
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# define ADJTIMEOFDAY(a, b) (node_adjtime(&ntp_node, a, b))
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#else
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# define ADJTIMEOFDAY(a, b) (adjtime(a, b))
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1999-12-09 13:01:21 +00:00
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/* gettimeofday() takes two args in BSD and only one in SYSV */
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# if defined(HAVE_SYS_TIMERS_H) && defined(HAVE_GETCLOCK)
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# include <sys/timers.h>
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int getclock (int clock_type, struct timespec *tp);
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/* Don't #define GETTIMEOFDAY because we shouldn't be using it in this case. */
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# define SETTIMEOFDAY(a, b) (settimeofday(a, b))
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# else /* not (HAVE_SYS_TIMERS_H && HAVE_GETCLOCK) */
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# ifdef SYSV_TIMEOFDAY
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# define GETTIMEOFDAY(a, b) (gettimeofday(a))
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# define SETTIMEOFDAY(a, b) (settimeofday(a))
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# else /* ! SYSV_TIMEOFDAY */
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#if defined SYS_CYGWIN32
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# define GETTIMEOFDAY(a, b) (gettimeofday(a, b))
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# define SETTIMEOFDAY(a, b) (settimeofday_NT(a))
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#else
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# define GETTIMEOFDAY(a, b) (gettimeofday(a, b))
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# define SETTIMEOFDAY(a, b) (settimeofday(a, b))
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#endif
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# endif /* SYSV_TIMEOFDAY */
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# endif /* not (HAVE_SYS_TIMERS_H && HAVE_GETCLOCK) */
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2004-07-20 15:01:56 +00:00
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#endif /* SIM */
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1999-12-09 13:01:21 +00:00
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/*
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* Time of day conversion constant. Ntp's time scale starts in 1900,
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* Unix in 1970.
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*/
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#define JAN_1970 0x83aa7e80 /* 2208988800 1970 - 1900 in seconds */
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/*
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* These constants are used to round the time stamps computed from
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* a struct timeval to the microsecond (more or less). This keeps
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* things neat.
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*/
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#define TS_MASK 0xfffff000 /* mask to usec, for time stamps */
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#define TS_ROUNDBIT 0x00000800 /* round at this bit */
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/*
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* Convert usec to a time stamp fraction. If you use this the program
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* must include the following declarations:
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*/
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extern u_long ustotslo[];
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extern u_long ustotsmid[];
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extern u_long ustotshi[];
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#define TVUTOTSF(tvu, tsf) \
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(tsf) = ustotslo[(tvu) & 0xff] \
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+ ustotsmid[((tvu) >> 8) & 0xff] \
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+ ustotshi[((tvu) >> 16) & 0xf]
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/*
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* Convert a struct timeval to a time stamp.
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*/
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#define TVTOTS(tv, ts) \
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do { \
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(ts)->l_ui = (u_long)(tv)->tv_sec; \
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TVUTOTSF((tv)->tv_usec, (ts)->l_uf); \
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} while(0)
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#define sTVTOTS(tv, ts) \
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do { \
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int isneg = 0; \
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long usec; \
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(ts)->l_ui = (tv)->tv_sec; \
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usec = (tv)->tv_usec; \
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if (((tv)->tv_sec < 0) || ((tv)->tv_usec < 0)) { \
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usec = -usec; \
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(ts)->l_ui = -(ts)->l_ui; \
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isneg = 1; \
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} \
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TVUTOTSF(usec, (ts)->l_uf); \
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if (isneg) { \
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L_NEG((ts)); \
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} \
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} while(0)
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/*
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* TV_SHIFT is used to turn the table result into a usec value. To round,
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* add in TV_ROUNDBIT before shifting
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*/
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#define TV_SHIFT 3
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#define TV_ROUNDBIT 0x4
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/*
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* Convert a time stamp fraction to microseconds. The time stamp
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* fraction is assumed to be unsigned. To use this in a program, declare:
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*/
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extern long tstouslo[];
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extern long tstousmid[];
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extern long tstoushi[];
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#define TSFTOTVU(tsf, tvu) \
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(tvu) = (tstoushi[((tsf) >> 24) & 0xff] \
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+ tstousmid[((tsf) >> 16) & 0xff] \
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+ tstouslo[((tsf) >> 9) & 0x7f] \
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+ TV_ROUNDBIT) >> TV_SHIFT
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/*
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* Convert a time stamp to a struct timeval. The time stamp
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* has to be positive.
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*/
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#define TSTOTV(ts, tv) \
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do { \
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(tv)->tv_sec = (ts)->l_ui; \
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TSFTOTVU((ts)->l_uf, (tv)->tv_usec); \
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if ((tv)->tv_usec == 1000000) { \
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(tv)->tv_sec++; \
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(tv)->tv_usec = 0; \
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} \
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} while (0)
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/*
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* Convert milliseconds to a time stamp fraction. This shouldn't be
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* here, but it is convenient since the guys who use the definition will
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* often be including this file anyway.
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*/
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extern u_long msutotsflo[];
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extern u_long msutotsfhi[];
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#define MSUTOTSF(msu, tsf) \
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(tsf) = msutotsfhi[((msu) >> 5) & 0x1f] + msutotsflo[(msu) & 0x1f]
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extern char * tvtoa P((const struct timeval *));
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extern char * utvtoa P((const struct timeval *));
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