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|
/* Feature configuration switches end here */
/* $Id$ */
/* Some internal capabilities depend on which drivers we're compiling. */
#ifdef EARTHMATE_ENABLE
#define ZODIAC_ENABLE
#endif
#if defined(ZODIAC_ENABLE) || defined(SIRF_ENABLE) || defined(GARMIN_ENABLE) || defined(TSIP_ENABLE) || defined(EVERMORE_ENABLE) || defined(ITRAX_ENABLE) || defined(UBX_ENABLE) || defined(SUPERSTAR2_ENABLE) || defined(ONCORE_ENABLE)
#define BINARY_ENABLE
#endif
#if defined(TRIPMATE_ENABLE) || defined(BINARY_ENABLE)
#define NON_NMEA_ENABLE
#endif
/* First, declarations for the packet layer... */
/* XXX Some receivers (TN-200, GSW 2.3.2) emit oversized sentences (>82) */
#define NMEA_MAX 86 /* max length of NMEA sentence */
#define NMEA_BIG_BUF (2*NMEA_MAX+1) /* longer than longest NMEA sentence */
/* a few bits of ISGPS magic */
enum isgpsstat_t {
ISGPS_NO_SYNC, ISGPS_SYNC, ISGPS_SKIP, ISGPS_MESSAGE,
};
#define ISGPS_ERRLEVEL_BASE 5
#define RTCM_MAX (RTCM2_WORDS_MAX * sizeof(isgps30bits_t))
/*
* The packet buffers need to be as long than the longest packet we
* expect to see in any protocol, because we have to be able to hold
* an entire packet for checksumming...
* First we thought it had to be big enough for a SiRF Measured Tracker
* Data packet (188 bytes). Then it had to be big enough for a UBX SVINFO
* packet (206 bytes). Now it turns out that a couple of ITALK messages are
* over 512 bytes. I know we like verbose output, but this is ridiculous.
*/
#define MAX_PACKET_LENGTH 516 /* 7 + 506 + 3 */
struct gps_packet_t {
/* packet-getter internals */
int type;
#define BAD_PACKET -1
#define COMMENT_PACKET 0
#define NMEA_PACKET 1
#define SIRF_PACKET 2
#define ZODIAC_PACKET 3
#define TSIP_PACKET 4
#define EVERMORE_PACKET 5
#define ITALK_PACKET 6
#define GARMIN_PACKET 7
#define NAVCOM_PACKET 8
#define RTCM2_PACKET 9
#define RTCM3_PACKET 10
#define UBX_PACKET 11
#define GARMINTXT_PACKET 12
#define SUPERSTAR2_PACKET 13
#define AIVDM_PACKET 14
#define ONCORE_PACKET 15
#define TEXTUAL_PACKET_TYPE(n) ((n)==NMEA_PACKET||(n)==GARMINTXT_PACKET||(n)==COMMENT_PACKET||(n)==AIVDM_PACKET)
unsigned int state;
size_t length;
unsigned char inbuffer[MAX_PACKET_LENGTH*2+1];
size_t inbuflen;
unsigned /*@observer@*/char *inbufptr;
/* outbuffer needs to be able to hold 4 GPGSV records at once */
unsigned char outbuffer[MAX_PACKET_LENGTH*2+1];
size_t outbuflen;
unsigned long char_counter; /* count characters processed */
unsigned long retry_counter; /* count sniff retries */
unsigned counter; /* packets since last driver switch */
/*
* This is not conditionalized on RTCM104_ENABLE because we need to
* be able to build gpsdecode even when RTCM support is not
* configured in the daemon.
*/
struct {
/* ISGPS200 decoding */
bool locked;
int curr_offset;
isgps30bits_t curr_word;
isgps30bits_t buf[RTCM2_WORDS_MAX];
unsigned int bufindex;
} isgps;
};
extern void packet_reset(struct gps_packet_t *);
extern void packet_pushback(struct gps_packet_t *);
extern void packet_parse(struct gps_packet_t *);
extern ssize_t packet_get(int, struct gps_packet_t *);
extern int packet_sniff(struct gps_packet_t *);
#define packet_buffered_input(lexer) ((lexer)->inbuffer + (lexer)->inbuflen - (lexer)->inbufptr)
extern void isgps_init(/*@out@*/struct gps_packet_t *);
enum isgpsstat_t isgps_decode(struct gps_packet_t *,
bool (*preamble_match)(isgps30bits_t *),
bool (*length_check)(struct gps_packet_t *),
size_t,
unsigned int);
extern unsigned int isgps_parity(isgps30bits_t);
extern void isgps_output_magnavox(isgps30bits_t *, unsigned int, FILE *);
extern enum isgpsstat_t rtcm2_decode(struct gps_packet_t *, unsigned int);
extern void rtcm2_dump(struct rtcm2_t *, /*@out@*/char[], size_t);
extern int rtcm2_undump(/*@out@*/struct rtcm2_t *, char *);
extern void rtcm2_unpack(/*@out@*/struct rtcm2_t *, char *);
extern bool rtcm2_repack(struct rtcm2_t *, isgps30bits_t *);
extern void rtcm2_output_magnavox(isgps30bits_t *, FILE *);
extern void rtcm3_unpack(/*@out@*/struct rtcm3_t *, char *);
extern void rtcm3_dump(struct rtcm3_t *rtcm, FILE *);
extern size_t oncore_payload_cksum_length(unsigned char id1,unsigned char id2);
/* Next, declarations for the core library... */
/* factors for converting among confidence interval units */
#define CEP50_SIGMA 1.18
#define DRMS_SIGMA 1.414
#define CEP95_SIGMA 2.45
/* this is where we choose the confidence level to use in reports */
#define GPSD_CONFIDENCE CEP95_SIGMA
#define NTPSHMSEGS 4 /* number of NTP SHM segments */
struct gps_context_t {
int valid; /* member validity flags */
bool readonly; /* if true, never write to device */
#define LEAP_SECOND_VALID 0x01 /* we have or don't need correction */
/* DGPSIP status */
bool sentdgps; /* have we sent a DGPS report? */
enum { netgnss_none, netgnss_dgpsip, netgnss_ntrip, netgnss_remotegpsd } netgnss_service; /* type of GNSS service */
int fixcnt; /* count of good fixes seen */
int dsock; /* socket to DGPSIP server/Ntrip caster */
void *netgnss_privdata; /* DGNSS service specific data */
ssize_t rtcmbytes; /* byte count of last RTCM104 report */
char rtcmbuf[RTCM_MAX]; /* last RTCM104 report */
double rtcmtime; /* timestamp of last RTCM104 report */
/* timekeeping */
int leap_seconds; /* Unix seconds to UTC */
int century; /* for NMEA-only devices without ZDA */
#ifdef NTPSHM_ENABLE
bool enable_ntpshm;
/*@reldef@*/struct shmTime *shmTime[NTPSHMSEGS];
bool shmTimeInuse[NTPSHMSEGS];
# ifdef PPS_ENABLE
bool shmTimePPS;
# endif /* PPS_ENABLE */
#endif /* NTPSHM_ENABLE */
};
struct aivdm_context_t {
/* hold context for decoding AIDVM packet sequences */
int part, await; /* for tracking AIDVM parts in a multipart sequence */
unsigned char *field[NMEA_MAX];
unsigned char fieldcopy[NMEA_MAX+1];
unsigned char bits[2048];
size_t bitlen;
struct ais_t decoded;
};
struct gps_device_t;
#if defined (HAVE_SYS_TERMIOS_H)
#include <sys/termios.h>
#else
#if defined (HAVE_TERMIOS_H)
#include <termios.h>
#endif
#endif
#define MODE_NMEA 0
#define MODE_BINARY 1
typedef enum {UNKNOWN, GPS, RTCM2, RTCM3, AIS} gnss_type;
struct gps_type_t {
/* GPS method table, describes how to talk to a particular GPS type */
/*@observer@*/char *type_name;
int packet_type;
gnss_type device_class;
/*@observer@*//*@null@*/char *trigger;
int channels;
/*@null@*/bool (*probe_detect)(struct gps_device_t *session);
/*@null@*/void (*probe_wakeup)(struct gps_device_t *session);
/*@null@*/void (*probe_subtype)(struct gps_device_t *session, unsigned int seq);
/*@null@*/ssize_t (*get_packet)(struct gps_device_t *session);
/*@null@*/gps_mask_t (*parse_packet)(struct gps_device_t *session);
/*@null@*/ssize_t (*rtcm_writer)(struct gps_device_t *session, char *rtcmbuf, size_t rtcmbytes);
#ifdef ALLOW_CONTROLSEND
/*@null@*/ssize_t (*control_send)(struct gps_device_t *session, char *buf, size_t buflen);
#endif /* ALLOW_CONTROLSEND */
#ifdef ALLOW_RECONFIGURE
/*@null@*/void (*configurator)(struct gps_device_t *session, unsigned int seq);
/*@null@*/bool (*speed_switcher)(struct gps_device_t *session,
speed_t speed, char parity, int stopbits);
/*@null@*/void (*mode_switcher)(struct gps_device_t *session, int mode);
/*@null@*/bool (*rate_switcher)(struct gps_device_t *session, double rate);
double min_cycle;
/*@null@*/void (*revert)(struct gps_device_t *session);
#endif /* ALLOW_RECONFIGURE */
/*@null@*/void (*wrapup)(struct gps_device_t *session);
};
struct gps_device_t {
/* session object, encapsulates all global state */
struct gps_data_t gpsdata;
/*@relnull@*/const struct gps_type_t *device_type;
struct gps_context_t *context;
#ifdef ALLOW_RECONFIGURE
bool enable_reconfigure; /* OK to hack GPS settings? */
#endif /* ALLOW_RECONFIGURE */
double rtcmtime; /* timestamp of last RTCM104 correction to GPS */
struct termios ttyset, ttyset_old;
unsigned int baudindex;
int saved_baud;
struct gps_packet_t packet;
char subtype[64]; /* firmware version or subtype ID */
double poll_times[FD_SETSIZE]; /* last daemon poll time */
double releasetime;
#ifdef NTPSHM_ENABLE
int shmindex;
double last_fixtime; /* so updates happen once */
# ifdef PPS_ENABLE
int shmTimeP;
# endif /* PPS_ENABLE */
#endif /* NTPSHM_ENABLE */
double mag_var; /* Magnetic variation in degrees */
bool back_to_nmea; /* back to NMEA on revert? */
char msgbuf[MAX_PACKET_LENGTH*2+1]; /* command message buffer for sends */
size_t msgbuflen;
/*
* The rest of this structure is driver-specific private storage.
* Because the Garmin driver uses a long buffer, you can have
* up to 4096+12 bytes of private storage in your own union member
* without making this structure larger or changing the API at all.
*/
union {
#ifdef NMEA_ENABLE
struct {
int part, await; /* for tracking GSV parts */
struct tm date;
double subseconds;
char *field[NMEA_MAX];
unsigned char fieldcopy[NMEA_MAX+1];
#ifdef GPSCLOCK_ENABLE
bool ignore_trailing_edge;
#endif /* GPSCLOCK_ENABLE */
} nmea;
#endif /* NMEA_ENABLE */
#ifdef AIVDM_ENABLE
struct aivdm_context_t aivdm;
#endif /* AIVDM_ENABLE */
#ifdef BINARY_ENABLE
#ifdef SIRF_ENABLE
struct {
unsigned int driverstate; /* for private use */
#define SIRF_LT_231 0x01 /* SiRF at firmware rev < 231 */
#define SIRF_EQ_231 0x02 /* SiRF at firmware rev == 231 */
#define SIRF_GE_232 0x04 /* SiRF at firmware rev >= 232 */
#define UBLOX 0x08 /* uBlox firmware with packet 0x62 */
unsigned long satcounter;
unsigned int time_seen;
#define TIME_SEEN_GPS_1 0x01 /* Seen GPS time variant 1? */
#define TIME_SEEN_GPS_2 0x02 /* Seen GPS time variant 2? */
#define TIME_SEEN_UTC_1 0x04 /* Seen UTC time variant 1? */
#define TIME_SEEN_UTC_2 0x08 /* Seen UTC time variant 2? */
#ifdef ALLOW_RECONFIGURE
/* fields from Navigation Parameters message */
bool nav_parameters_seen; /* have we seen one? */
unsigned char altitude_hold_mode;
unsigned char altitude_hold_source;
int16_t altitude_source_input;
unsigned char degraded_mode;
unsigned char degraded_timeout;
unsigned char dr_timeout;
unsigned char track_smooth_mode;
#endif /* ALLOW_RECONFIGURE */
} sirf;
#endif /* SIRF_ENABLE */
#ifdef SUPERSTAR2_ENABLE
struct {
unsigned short gps_week;
time_t last_iono;
} superstar2;
#endif /* SUPERSTAR2_ENABLE */
#ifdef TSIP_ENABLE
struct {
int16_t gps_week; /* Current GPS week number */
bool superpkt; /* Super Packet mode requested */
time_t last_41; /* Timestamps for packet requests */
time_t last_48;
time_t last_5c;
time_t last_6d;
time_t last_46;
unsigned int parity, stopbits; /* saved RS232 link parameters */
} tsip;
#endif /* TSIP_ENABLE */
#ifdef GARMIN_ENABLE /* private housekeeping stuff for the Garmin driver */
struct {
unsigned char Buffer[4096+12]; /* Garmin packet buffer */
size_t BufferLen; /* current GarminBuffer Length */
} garmin;
#endif /* GARMIN_ENABLE */
#ifdef ZODIAC_ENABLE /* private housekeeping stuff for the Zodiac driver */
struct {
unsigned short sn; /* packet sequence number */
/*
* Zodiac chipset channel status from PRWIZCH. Keep it so
* raw-mode translation of Zodiac binary protocol can send
* it up to the client.
*/
#define ZODIAC_CHANNELS 12
unsigned int Zs[ZODIAC_CHANNELS]; /* satellite PRNs */
unsigned int Zv[ZODIAC_CHANNELS]; /* signal values (0-7) */
} zodiac;
#endif /* ZODIAC_ENABLE */
#ifdef UBX_ENABLE
struct {
unsigned int gps_week;
} ubx;
#endif /* UBX_ENABLE */
#ifdef NAVCOM_ENABLE
struct {
u_int8_t physical_port;
bool warned;
} navcom;
#endif /* NAVCOM_ENABLE */
#ifdef ONCORE_ENABLE
struct {
#define ONCORE_VISIBLE_CH 12
int visible;
int PRN[ONCORE_VISIBLE_CH]; /* PRNs of satellite */
int elevation[ONCORE_VISIBLE_CH]; /* elevation of satellite */
int azimuth[ONCORE_VISIBLE_CH]; /* azimuth */
} oncore;
#endif /* ONCORE_ENABLE */
/*
* This is not conditionalized on RTCM104_ENABLE because we need to
* be able to build gpsdecode even when RTCM support is not
* configured in the daemon. It doesn't take up extra space.
*/
struct {
/* ISGPS200 decoding */
bool locked;
int curr_offset;
isgps30bits_t curr_word;
isgps30bits_t buf[RTCM2_WORDS_MAX];
unsigned int bufindex;
} isgps;
#endif /* BINARY_ENABLE */
} driver;
};
/* logging levels */
#define LOG_ERROR 0 /* errors, display always */
#define LOG_SHOUT 0 /* not an error but we should always see it */
#define LOG_WARN 1 /* not errors but may indicate a problem */
#define LOG_INF 2 /* key informative messages */
#define LOG_PROG 3 /* progress messages */
#define LOG_IO 4 /* IO to and from devices */
#define LOG_RAW 5 /* raw low-level I/O */
#define IS_HIGHEST_BIT(v,m) (v & ~((m<<1)-1))==0
/*
* This hackery is intended to support SBCs that are resource-limited
* and only need to support one or a few devices each. It avoids the
* space overhead of allocating thousands of unused device structures.
* This array fills from the bottom, so as an extreme case you could
* reduce LIMITED_MAX_DEVICES to 1.
*/
#ifdef LIMITED_MAX_DEVICES
#define MAXDEVICES LIMITED_MAX_DEVICES
#else
/* we used to make this FD_SETSIZE, but that cost 14MB of wasted core! */
#define MAXDEVICES 4
#endif
#ifdef LIMITED_MAX_CLIENTS
#define MAXSUBSCRIBERS LIMITED_MAX_CLIENTS
#else
/* subscriber structure is small enough that there's no need to limit this */
#define MAXSUBSCRIBERS FD_SETSIZE
#endif
#define sub_index(s) (int)(s - subscribers)
#define allocated_channel(chp) ((chp)->gpsdata.gps_device[0] != '\0')
#define free_channel(chp) (chp)->gpsdata.gps_device[0] = '\0'
#define initialized_channel(chp) ((chp)->context != NULL)
/* here are the available GPS drivers */
extern const struct gps_type_t **gpsd_drivers;
/* gpsd library internal prototypes */
extern gps_mask_t nmea_parse_input(struct gps_device_t *);
extern gps_mask_t nmea_parse(char *, struct gps_device_t *);
extern ssize_t nmea_write(struct gps_device_t *session, char *buf, size_t len);
extern ssize_t nmea_send(struct gps_device_t *session, const char *, ... );
extern void nmea_add_checksum(char *);
ssize_t generic_get(struct gps_device_t *);
ssize_t pass_rtcm(struct gps_device_t *, char *, size_t);
extern gps_mask_t sirf_parse(struct gps_device_t *, unsigned char *, size_t);
extern gps_mask_t evermore_parse(struct gps_device_t *, unsigned char *, size_t);
extern gps_mask_t navcom_parse(struct gps_device_t *, unsigned char *, size_t);
extern gps_mask_t garmin_ser_parse(struct gps_device_t *);
extern gps_mask_t garmintxt_parse(struct gps_device_t *);
extern gps_mask_t aivdm_parse(struct gps_device_t *);
extern bool netgnss_uri_check(char *);
extern int netgnss_uri_open(struct gps_context_t *, char *);
extern int netgnss_poll(struct gps_context_t *);
extern void netgnss_report(struct gps_device_t *);
extern void netgnss_autoconnect(struct gps_context_t *, double, double);
extern void rtcm_relay(struct gps_device_t *);
extern void rtcm2_output_mag(isgps30bits_t *, FILE *);
extern int dgpsip_open(struct gps_context_t *, const char *);
extern void dgpsip_report(struct gps_device_t *);
extern void dgpsip_autoconnect(struct gps_context_t *,
double, double, const char *);
extern int ntrip_open(struct gps_context_t *, char *);
extern void ntrip_report(struct gps_device_t *);
extern int remotegpsd_open(struct gps_context_t *, char *);
extern void remotegpsd_report(struct gps_device_t *);
extern void gpsd_tty_init(struct gps_device_t *);
extern int gpsd_open(struct gps_device_t *);
extern bool gpsd_set_raw(struct gps_device_t *);
extern ssize_t gpsd_write(struct gps_device_t *, void const *, size_t);
extern bool gpsd_next_hunt_setting(struct gps_device_t *);
extern int gpsd_switch_driver(struct gps_device_t *, char *);
extern void gpsd_set_speed(struct gps_device_t *, speed_t, unsigned char, unsigned int);
extern speed_t gpsd_get_speed(struct termios *);
extern void gpsd_assert_sync(struct gps_device_t *);
extern void gpsd_close(struct gps_device_t *);
extern void gpsd_zero_satellites(/*@out@*/struct gps_data_t *sp)/*@modifies sp@*/;
extern void gpsd_interpret_subframe(struct gps_device_t *, unsigned int[]);
extern int gpsd_hexdump_level;
extern /*@ observer @*/ char *gpsd_hexdump(/*@null@*/const void *, size_t);
extern /*@ observer @*/ char *gpsd_hexdump_wrapper(/*@null@*/const void *, size_t, int);
extern int gpsd_hexpack(/*@in@*/char *, /*@out@*/char *, size_t);
extern int hex2bin(char *);
extern ssize_t hex_escapes(/*@out@*/char *cooked, const char *raw);
extern void ntpd_link_activate(struct gps_device_t *session);
extern char /*@observer@*/ *gpsd_id(/*@in@*/struct gps_device_t *);
extern const char /*@observer@*/ *gpsd_type(/*@in@*/const struct gps_type_t *);
extern void gpsd_position_fix_dump(struct gps_device_t *, /*@out@*/char[], size_t);
extern void gpsd_error_model(struct gps_device_t *, struct gps_fix_t *, struct gps_fix_t *);
extern void gpsd_clear_data(struct gps_device_t *);
extern int netlib_connectsock(const char *, const char *, const char *);
extern char /*@observer@*/ *sock2ip(int);
extern void ntpshm_init(struct gps_context_t *, bool);
extern int ntpshm_alloc(struct gps_context_t *);
extern bool ntpshm_free(struct gps_context_t *, int);
extern int ntpshm_put(struct gps_device_t *, double);
extern int ntpshm_pps(struct gps_device_t *,struct timeval *);
extern void ecef_to_wgs84fix(/*@out@*/struct gps_data_t *,
double, double, double,
double, double, double);
extern gps_mask_t dop(struct gps_data_t *);
/* srecord.c */
extern void hexdump(size_t, unsigned char *, unsigned char *);
extern unsigned char sr_sum(unsigned int, unsigned int, unsigned char *);
extern int bin2srec(unsigned int, unsigned int, unsigned int, unsigned char *, unsigned char *);
extern int srec_hdr(unsigned int, unsigned char *, unsigned char *);
extern int srec_fin(unsigned int, unsigned char *);
extern unsigned char hc(unsigned char);
/* exported bits for the GPS flasher */
bool sirf_write(int fd, unsigned char *msg);
/* application interface */
extern void gpsd_init(struct gps_device_t *,
struct gps_context_t *,
/*@null@*/char *);
extern int gpsd_activate(struct gps_device_t *, bool);
extern void gpsd_deactivate(struct gps_device_t *);
extern gps_mask_t gpsd_poll(struct gps_device_t *);
extern void gpsd_wrap(struct gps_device_t *);
/* exceptional driver methods */
#ifdef UBX_ENABLE
extern gps_mask_t ubx_parse(struct gps_device_t *, unsigned char *, size_t);
extern bool ubx_write(struct gps_device_t *, unsigned int, unsigned int,
/*@null@*/unsigned char *, unsigned short);
extern void ubx_catch_model(struct gps_device_t *,
unsigned char *, size_t);
#endif /* UBX_ENABLE */
#ifdef AIVDM_ENABLE
extern bool aivdm_decode(char *, size_t, struct aivdm_context_t *);
extern void aivdm_dump(struct ais_t *, bool, bool, char *, size_t);
#endif /* AIVDM_ENABLE */
#ifdef MKT3301_ENABLE
extern gps_mask_t processMKT3301(int c UNUSED, char *field[], struct gps_device_t *session);
#endif /* MKT3301_ENABLE */
/* caller should supply this */
# if __GNUC__ >= 3 || (__GNUC__ == 2 && __GNUC_MINOR__ >= 7)
__attribute__((__format__(__printf__, 2, 3))) void gpsd_report(int, const char *, ...);
# else /* not a new enough GCC, use the unprotected prototype */
void gpsd_report(int, const char *, ...);
#endif
#ifdef S_SPLINT_S
extern bool finite(double);
extern struct protoent *getprotobyname(const char *);
extern /*@observer@*/char *strptime(const char *,const char *tp,/*@out@*/struct tm *)/*@modifies tp@*/;
extern struct tm *gmtime_r(const time_t *,/*@out@*/struct tm *tp)/*@modifies tp@*/;
extern struct tm *localtime_r(const time_t *,/*@out@*/struct tm *tp)/*@modifies tp@*/;
extern float roundf(float x);
#endif /* S_SPLINT_S */
/* some OSes don't have round(). fake it if need be */
#ifndef HAVE_ROUND
#define round(x) ((double)rint(x))
#define roundf(x) ((float)rintf((double)x))
#endif /* !HAVE_ROUND */
/* OpenBSD and FreeBSD and Cygwin don't seem to have NAN, NetBSD does, others? */
/* XXX test for this in configure? */
#if defined(__OpenBSD__) || defined(__FreeBSD__) || defined(__CYGWIN__)
#ifndef NAN
#define NAN (0.0/0.0)
#endif /* !NAN */
#endif /* list of Operating Systems */
/* Cygwin, in addition to NAN, doesn't have cfmakeraw */
#if defined(__CYGWIN__)
void cfmakeraw(struct termios *);
#endif /* defined(__CYGWIN__) */
#endif /* _GPSD_H_ */
// Local variables:
// mode: c
// end:
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