Current Path : /usr/src/contrib/ntp/ntpdate/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/contrib/ntp/ntpdate/ntpdate.h |
/* * ntpdate.h - declarations for the ntpdate and ntptimeset programs */ #include "ntp_malloc.h" extern void loadservers P((char *cfgpath)); /* * The server structure is a much simplified version of the * peer structure, for ntpdate's use. Since we always send * in client mode and expect to receive in server mode, this * leaves only a very limited number of things we need to * remember about the server. */ struct server { struct server *next_server; /* next server in build list */ struct sockaddr_storage srcadr; /* address of remote host */ u_char version; /* version to use */ u_char leap; /* leap indicator */ u_char stratum; /* stratum of remote server */ s_char precision; /* server's clock precision */ u_char trust; /* trustability of the filtered data */ u_fp rootdelay; /* distance from primary clock */ u_fp rootdispersion; /* peer clock dispersion */ u_int32 refid; /* peer reference ID */ l_fp reftime; /* time of peer's last update */ u_long event_time; /* time for next timeout */ u_long last_xmit; /* time of last transmit */ u_short xmtcnt; /* number of packets transmitted */ u_short rcvcnt; /* number of packets received */ u_char reach; /* reachability, NTP_WINDOW bits */ u_short filter_nextpt; /* index into filter shift register */ s_fp filter_delay[NTP_SHIFT]; /* delay part of shift register */ l_fp filter_offset[NTP_SHIFT]; /* offset part of shift register */ s_fp filter_soffset[NTP_SHIFT]; /* offset in s_fp format, for disp */ u_fp filter_error[NTP_SHIFT]; /* error part of shift register */ l_fp org; /* peer's originate time stamp */ l_fp xmt; /* transmit time stamp */ u_fp delay; /* filter estimated delay */ u_fp dispersion; /* filter estimated dispersion */ l_fp offset; /* filter estimated clock offset */ s_fp soffset; /* fp version of above */ }; /* * ntpdate runs everything on a simple, short timeout. It sends a * packet and sets the timeout (by default, to a small value suitable * for a LAN). If it receives a response it sends another request. * If it times out it shifts zeroes into the filter and sends another * request. * * The timer routine is run often (once every 1/5 second currently) * so that time outs are done with reasonable precision. */ #define TIMER_HZ (5) /* 5 per second */ /* * ntpdate will make a long adjustment using adjtime() if the times * are close, or step the time if the times are farther apart. The * following defines what is "close". */ #define NTPDATE_THRESHOLD (FP_SECOND >> 1) /* 1/2 second */ #define NTP_MAXAGE 86400 /* one day in seconds */ /* * When doing adjustments, ntpdate actually overadjusts (currently * by 50%, though this may change). While this will make it take longer * to reach a steady state condition, it will typically result in * the clock keeping more accurate time, on average. The amount of * overshoot is limited. */ #ifdef NOTNOW #define ADJ_OVERSHOOT 1/2 /* this is hard coded */ #endif /* NOTNOW */ #define ADJ_MAXOVERSHOOT 0x10000000 /* 50 ms as a ts fraction */ /* * Since ntpdate isn't aware of some of the things that normally get * put in an NTP packet, we fix some values. */ #define NTPDATE_PRECISION (-6) /* use this precision */ #define NTPDATE_DISTANCE FP_SECOND /* distance is 1 sec */ #define NTPDATE_DISP FP_SECOND /* so is the dispersion */ #define NTPDATE_REFID (0) /* reference ID to use */ #define PEER_MAXDISP (64*FP_SECOND) /* maximum dispersion (fp 64) */ /* * Some defaults */ #define DEFTIMEOUT 5 /* 5 timer increments */ #define DEFSAMPLES 4 /* get 4 samples per server */ #define DEFPRECISION (-5) /* the precision we claim */ #define DEFMAXPERIOD 60 /* maximum time to wait */ #define DEFMINSERVERS 3 /* minimum responding servers */ #define DEFMINVALID 1 /* mimimum servers with valid time */ /* * Define the max number of sockets we can open */ #define MAX_AF 2