NetBSD/usr.sbin/xntp/include/ntp_refclock.h
1998-03-06 18:17:13 +00:00

239 lines
7.0 KiB
C

/* $NetBSD: ntp_refclock.h,v 1.3 1998/03/06 18:17:17 christos Exp $ */
/*
* ntp_refclock.h - definitions for reference clock support
*/
#include "ntp_types.h"
#if defined(HAVE_BSD_TTYS)
#include <sgtty.h>
#endif /* HAVE_BSD_TTYS */
#if defined(HAVE_SYSV_TTYS)
#include <termio.h>
#endif /* HAVE_SYSV_TTYS */
#if defined(HAVE_TERMIOS)
#include <termios.h>
#endif
#if defined(HAVE_SYS_MODEM_H)
#include <sys/modem.h>
#endif
#if defined(STREAM)
#include <stropts.h>
#if defined(CLK)
#include <sys/clkdefs.h>
#endif /* CLK */
#endif /* STREAM */
#if !defined(SYSV_TTYS) && !defined(STREAM) & !defined(BSD_TTYS)
#define BSD_TTYS
#endif /* SYSV_TTYS STREAM BSD_TTYS */
/*
* Macros to determine the clock type and unit numbers from a
* 127.127.t.u address
*/
#define REFCLOCKTYPE(srcadr) ((SRCADR(srcadr) >> 8) & 0xff)
#define REFCLOCKUNIT(srcadr) (SRCADR(srcadr) & 0xff)
/*
* List of reference clock names and descriptions. These must agree with
* lib/clocktypes.c and xntpd/refclock_conf.c.
*/
struct clktype {
int code; /* driver "major" number */
const char *clocktype; /* long description */
const char *abbrev; /* short description */
};
/*
* Configuration flag values
*/
#define CLK_HAVETIME1 0x1
#define CLK_HAVETIME2 0x2
#define CLK_HAVEVAL1 0x4
#define CLK_HAVEVAL2 0x8
#define CLK_FLAG1 0x1
#define CLK_FLAG2 0x2
#define CLK_FLAG3 0x4
#define CLK_FLAG4 0x8
#define CLK_HAVEFLAG1 0x10
#define CLK_HAVEFLAG2 0x20
#define CLK_HAVEFLAG3 0x40
#define CLK_HAVEFLAG4 0x80
/*
* Constant for disabling event reporting in
* refclock_receive. ORed in leap
* parameter
*/
#define REFCLOCK_OWN_STATES 0x80
/*
* Structure for returning clock status
*/
struct refclockstat {
u_char type; /* clock type */
u_char flags; /* clock flags */
u_char haveflags; /* bit array of valid flags */
u_short lencode; /* length of last timecode (may be longer than a char!) */
char *p_lastcode; /* last timecode received */
u_int32 polls; /* transmit polls */
u_int32 noresponse; /* no response to poll */
u_int32 badformat; /* bad format timecode received */
u_int32 baddata; /* invalid data timecode received */
u_int32 timereset; /* driver resets */
char *clockdesc; /* ASCII description */
l_fp fudgetime1; /* configure fudge time1 */
l_fp fudgetime2; /* configure fudge time2 */
int32 fudgeval1; /* configure fudge value1 */
int32 fudgeval2; /* configure fudge value2 */
u_char currentstatus; /* clock status */
u_char lastevent; /* last exception event */
u_char unused; /* spare */
struct ctl_var *kv_list; /* additional variables */
};
/*
* Reference clock I/O structure. Used to provide an interface between
* the reference clock drivers and the I/O module.
*/
struct refclockio {
struct refclockio *next; /* link to next structure */
void (*clock_recv)P((struct recvbuf *)); /* completion routine */
caddr_t srcclock; /* pointer to clock structure */
int datalen; /* lenth of data */
int fd; /* file descriptor */
u_long recvcount; /* count of receive completions */
};
/*
* Structure for returning debugging info
*/
#define NCLKBUGVALUES 16
#define NCLKBUGTIMES 32
struct refclockbug {
u_char nvalues; /* values following */
u_char ntimes; /* times following */
u_short svalues; /* values format sign array */
u_int32 stimes; /* times format sign array */
u_int32 values[NCLKBUGVALUES]; /* real values */
l_fp times[NCLKBUGTIMES]; /* real times */
};
/*
* Structure interface between the reference clock support
* ntp_refclock.c and the driver utility routines
*/
#define MAXSTAGE 64 /* max stages in shift register */
#define BMAX 128 /* max timecode length */
#define GMT 0 /* I hope nobody sees this */
#define MAXDIAL 60 /* max length of modem dial strings */
/*
* Line discipline flags. These require line discipline or streams
* modules to be installed/loaded in the kernel. If specified, but not
* installed, the code runs as if unspecified.
*/
#define LDISC_STD 0x0 /* standard */
#define LDISC_CLK 0x1 /* tty_clk \n intercept */
#define LDISC_CLKPPS 0x2 /* tty_clk \377 intercept */
#define LDISC_ACTS 0x4 /* tty_clk #* intercept */
#define LDISC_CHU 0x8 /* tty_chu */
#define LDISC_PPS 0x10 /* ppsclock */
struct refclockproc {
struct refclockio io; /* I/O handler structure */
caddr_t unitptr; /* pointer to unit structure */
u_long lasttime; /* last clock update time */
u_char leap; /* leap/synchronization code */
u_char currentstatus; /* clock status */
u_char lastevent; /* last exception event */
u_char type; /* clock type */
char *clockdesc; /* clock description */
char a_lastcode[BMAX]; /* last timecode received */
u_short lencode; /* length of last timecode (allow for more than 256 chars !) */
int year; /* year of eternity */
int day; /* day of year */
int hour; /* hour of day */
int minute; /* minute of hour */
int second; /* second of minute */
int msec; /* millisecond of second */
long usec; /* microsecond of second (alt) */
u_int nstages; /* median filter stages */
u_long yearstart; /* beginning of year */
u_long coderecv; /* sample counter */
l_fp lastref; /* last reference timestamp */
l_fp lastrec; /* last local timestamp */
l_fp offset; /* median offset */
u_fp dispersion; /* sample dispersion */
l_fp filter[MAXSTAGE]; /* median filter */
/*
* Configuration data
*/
l_fp fudgetime1; /* fudge time1 */
l_fp fudgetime2; /* fudge time2 */
u_int32 refid; /* reference identifier */
u_long sloppyclockflag; /* fudge flags */
/*
* Status tallies
*/
u_long timestarted; /* time we started this */
u_long polls; /* polls sent */
u_long noreply; /* no replies to polls */
u_long badformat; /* bad format reply */
u_long baddata; /* bad data reply */
};
/*
* Structure interface between the reference clock support
* ntp_refclock.c and particular clock drivers. This must agree with the
* structure defined in the driver.
*/
#define noentry 0 /* flag for null routine */
#define NOFLAGS 0 /* flag for null flags */
struct refclock {
int (*clock_start) P((int, struct peer *));
void (*clock_shutdown) P((int, struct peer *));
void (*clock_poll) P((int, struct peer *));
void (*clock_control) P((int, struct refclockstat *,
struct refclockstat *));
void (*clock_init) P((void));
void (*clock_buginfo) P((int, struct refclockbug *));
u_long clock_flags;
};
/*
* Function prototypes
*/
extern int io_addclock_simple P((struct refclockio *));
extern int io_addclock P((struct refclockio *));
extern void io_closeclock P((struct refclockio *));
#ifdef REFCLOCK
extern void refclock_buginfo P((struct sockaddr_in *,
struct refclockbug *));
extern void refclock_control P((struct sockaddr_in *,
struct refclockstat *,
struct refclockstat *));
extern int refclock_open P((char *, int, int));
extern void refclock_transmit P((struct peer *));
extern int refclock_ioctl P((int, int));
extern int refclock_process P((struct refclockproc *, int, int));
extern int refclock_sample P((l_fp *, struct refclockproc *, int, int));
extern void refclock_report P((struct peer *, u_int));
extern int refclock_gtlin P((struct recvbuf *, char *, int,
l_fp *));
#endif /* REFCLOCK */