1/*- 2 *********************************************************************** 3 * * 4 * Copyright (c) David L. Mills 1993-2001 * 5 * * 6 * Permission to use, copy, modify, and distribute this software and * 7 * its documentation for any purpose and without fee is hereby * 8 * granted, provided that the above copyright notice appears in all * 9 * copies and that both the copyright notice and this permission * 10 * notice appear in supporting documentation, and that the name * 11 * University of Delaware not be used in advertising or publicity * 12 * pertaining to distribution of the software without specific, * 13 * written prior permission. The University of Delaware makes no * 14 * representations about the suitability this software for any * 15 * purpose. It is provided "as is" without express or implied * 16 * warranty. * 17 * * 18 **********************************************************************/ 19 20/* 21 * Modification history timex.h 22 * 23 * 16 Aug 00 David L. Mills 24 * API Version 4. Added MOD_TAI and tai member of ntptimeval 25 * structure. 26 * 27 * 17 Nov 98 David L. Mills 28 * Revised for nanosecond kernel and user interface. 29 * 30 * 26 Sep 94 David L. Mills 31 * Added defines for hybrid phase/frequency-lock loop. 32 * 33 * 19 Mar 94 David L. Mills 34 * Moved defines from kernel routines to header file and added new 35 * defines for PPS phase-lock loop. 36 * 37 * 20 Feb 94 David L. Mills 38 * Revised status codes and structures for external clock and PPS 39 * signal discipline. 40 * 41 * 28 Nov 93 David L. Mills 42 * Adjusted parameters to improve stability and increase poll 43 * interval. 44 * 45 * 17 Sep 93 David L. Mills 46 * Created file 47 * 48 * $FreeBSD$ 49 */ 50/* 51 * This header file defines the Network Time Protocol (NTP) interfaces 52 * for user and daemon application programs. These are implemented using 53 * defined syscalls and data structures and require specific kernel 54 * support. 55 * 56 * The original precision time kernels developed from 1993 have an 57 * ultimate resolution of one microsecond; however, the most recent 58 * kernels have an ultimate resolution of one nanosecond. In these 59 * kernels, a ntp_adjtime() syscalls can be used to determine which 60 * resolution is in use and to select either one at any time. The 61 * resolution selected affects the scaling of certain fields in the 62 * ntp_gettime() and ntp_adjtime() syscalls, as described below. 63 * 64 * NAME 65 * ntp_gettime - NTP user application interface 66 * 67 * SYNOPSIS 68 * #include <sys/timex.h> 69 * 70 * int ntp_gettime(struct ntptimeval *ntv); 71 * 72 * DESCRIPTION 73 * The time returned by ntp_gettime() is in a timespec structure, 74 * but may be in either microsecond (seconds and microseconds) or 75 * nanosecond (seconds and nanoseconds) format. The particular 76 * format in use is determined by the STA_NANO bit of the status 77 * word returned by the ntp_adjtime() syscall. 78 * 79 * NAME 80 * ntp_adjtime - NTP daemon application interface 81 * 82 * SYNOPSIS 83 * #include <sys/timex.h> 84 * #include <sys/syscall.h> 85 * 86 * int syscall(SYS_ntp_adjtime, tptr); 87 * int SYS_ntp_adjtime; 88 * struct timex *tptr; 89 * 90 * DESCRIPTION 91 * Certain fields of the timex structure are interpreted in either 92 * microseconds or nanoseconds according to the state of the 93 * STA_NANO bit in the status word. See the description below for 94 * further information. 95 */ 96#ifndef _SYS_TIMEX_H_ 97#define _SYS_TIMEX_H_ 1 98#define NTP_API 4 /* NTP API version */ 99 100#ifndef MSDOS /* Microsoft specific */ 101#include <sys/syscall.h> 102#endif /* MSDOS */ 103 104/* 105 * The following defines establish the performance envelope of the 106 * kernel discipline loop. Phase or frequency errors greater than 107 * NAXPHASE or MAXFREQ are clamped to these maxima. For update intervals 108 * less than MINSEC, the loop always operates in PLL mode; while, for 109 * update intervals greater than MAXSEC, the loop always operates in FLL 110 * mode. Between these two limits the operating mode is selected by the 111 * STA_FLL bit in the status word. 112 */ 113#define MAXPHASE 500000000L /* max phase error (ns) */ 114#define MAXFREQ 500000L /* max freq error (ns/s) */ 115#define MINSEC 256 /* min FLL update interval (s) */ 116#define MAXSEC 2048 /* max PLL update interval (s) */ 117#define NANOSECOND 1000000000L /* nanoseconds in one second */ 118#define SCALE_PPM (65536 / 1000) /* crude ns/s to scaled PPM */ 119#define MAXTC 10 /* max time constant */ 120 121/* 122 * The following defines and structures define the user interface for 123 * the ntp_gettime() and ntp_adjtime() syscalls. 124 * 125 * Control mode codes (timex.modes) 126 */ 127#define MOD_OFFSET 0x0001 /* set time offset */ 128#define MOD_FREQUENCY 0x0002 /* set frequency offset */ 129#define MOD_MAXERROR 0x0004 /* set maximum time error */ 130#define MOD_ESTERROR 0x0008 /* set estimated time error */ 131#define MOD_STATUS 0x0010 /* set clock status bits */ 132#define MOD_TIMECONST 0x0020 /* set PLL time constant */ 133#define MOD_PPSMAX 0x0040 /* set PPS maximum averaging time */ 134#define MOD_TAI 0x0080 /* set TAI offset */ 135#define MOD_MICRO 0x1000 /* select microsecond resolution */ 136#define MOD_NANO 0x2000 /* select nanosecond resolution */ 137#define MOD_CLKB 0x4000 /* select clock B */ 138#define MOD_CLKA 0x8000 /* select clock A */ 139 140/* 141 * Status codes (timex.status) 142 */ 143#define STA_PLL 0x0001 /* enable PLL updates (rw) */ 144#define STA_PPSFREQ 0x0002 /* enable PPS freq discipline (rw) */ 145#define STA_PPSTIME 0x0004 /* enable PPS time discipline (rw) */ 146#define STA_FLL 0x0008 /* enable FLL mode (rw) */ 147#define STA_INS 0x0010 /* insert leap (rw) */ 148#define STA_DEL 0x0020 /* delete leap (rw) */ 149#define STA_UNSYNC 0x0040 /* clock unsynchronized (rw) */ 150#define STA_FREQHOLD 0x0080 /* hold frequency (rw) */ 151#define STA_PPSSIGNAL 0x0100 /* PPS signal present (ro) */ 152#define STA_PPSJITTER 0x0200 /* PPS signal jitter exceeded (ro) */ 153#define STA_PPSWANDER 0x0400 /* PPS signal wander exceeded (ro) */ 154#define STA_PPSERROR 0x0800 /* PPS signal calibration error (ro) */ 155#define STA_CLOCKERR 0x1000 /* clock hardware fault (ro) */ 156#define STA_NANO 0x2000 /* resolution (0 = us, 1 = ns) (ro) */ 157#define STA_MODE 0x4000 /* mode (0 = PLL, 1 = FLL) (ro) */ 158#define STA_CLK 0x8000 /* clock source (0 = A, 1 = B) (ro) */ 159 160#define STA_RONLY (STA_PPSSIGNAL | STA_PPSJITTER | STA_PPSWANDER | \ 161 STA_PPSERROR | STA_CLOCKERR | STA_NANO | STA_MODE | STA_CLK) 162 163/* 164 * Clock states (time_state) 165 */ 166#define TIME_OK 0 /* no leap second warning */ 167#define TIME_INS 1 /* insert leap second warning */ 168#define TIME_DEL 2 /* delete leap second warning */ 169#define TIME_OOP 3 /* leap second in progress */ 170#define TIME_WAIT 4 /* leap second has occured */ 171#define TIME_ERROR 5 /* error (see status word) */ 172 173/* 174 * NTP user interface (ntp_gettime()) - used to read kernel clock values 175 * 176 * Note: The time member is in microseconds if STA_NANO is zero and 177 * nanoseconds if not. 178 */ 179struct ntptimeval { 180 struct timespec time; /* current time (ns) (ro) */ 181 long maxerror; /* maximum error (us) (ro) */ 182 long esterror; /* estimated error (us) (ro) */ 183 long tai; /* TAI offset */ 184 int time_state; /* time status */ 185}; 186 187/* 188 * NTP daemon interface (ntp_adjtime()) - used to discipline CPU clock 189 * oscillator and determine status. 190 * 191 * Note: The offset, precision and jitter members are in microseconds if 192 * STA_NANO is zero and nanoseconds if not. 193 */ 194struct timex { 195 unsigned int modes; /* clock mode bits (wo) */ 196 long offset; /* time offset (ns/us) (rw) */ 197 long freq; /* frequency offset (scaled PPM) (rw) */ 198 long maxerror; /* maximum error (us) (rw) */ 199 long esterror; /* estimated error (us) (rw) */ 200 int status; /* clock status bits (rw) */ 201 long constant; /* poll interval (log2 s) (rw) */ 202 long precision; /* clock precision (ns/us) (ro) */ 203 long tolerance; /* clock frequency tolerance (scaled 204 * PPM) (ro) */ 205 /* 206 * The following read-only structure members are implemented 207 * only if the PPS signal discipline is configured in the 208 * kernel. They are included in all configurations to insure 209 * portability. 210 */ 211 long ppsfreq; /* PPS frequency (scaled PPM) (ro) */ 212 long jitter; /* PPS jitter (ns/us) (ro) */ 213 int shift; /* interval duration (s) (shift) (ro) */ 214 long stabil; /* PPS stability (scaled PPM) (ro) */ 215 long jitcnt; /* jitter limit exceeded (ro) */ 216 long calcnt; /* calibration intervals (ro) */ 217 long errcnt; /* calibration errors (ro) */ 218 long stbcnt; /* stability limit exceeded (ro) */ 219}; 220 221#ifdef __FreeBSD__ 222 223#ifdef _KERNEL 224void ntp_update_second(int64_t *adjustment, time_t *newsec); 225#else /* !_KERNEL */ 226#include <sys/cdefs.h> 227 228__BEGIN_DECLS 229int ntp_adjtime(struct timex *); 230int ntp_gettime(struct ntptimeval *); 231__END_DECLS 232#endif /* _KERNEL */ 233 234#endif /* __FreeBSD__ */ 235 236#endif /* !_SYS_TIMEX_H_ */ 237