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|
/* $Id$ */
#include <sys/types.h>
#include <sys/ioctl.h>
#include <sys/time.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include <stdio.h>
#include <math.h>
#include <stdarg.h>
#include "gpsd_config.h"
#include "gpsd.h"
extern struct gps_type_t zodiac_binary;
#if defined(NMEA_ENABLE) || defined(SIRF_ENABLE) || defined(EVERMORE_ENABLE) || defined(ITALK_ENABLE)
ssize_t pass_rtcm(struct gps_device_t *session, char *buf, size_t rtcmbytes)
/* most GPSes take their RTCM corrections straight up */
{
return write(session->gpsdata.gps_fd, buf, rtcmbytes);
}
#endif
#ifdef NMEA_ENABLE
/**************************************************************************
*
* Generic driver -- straight NMEA 0183
*
**************************************************************************/
gps_mask_t nmea_parse_input(struct gps_device_t *session)
{
if (session->packet_type == SIRF_PACKET) {
gpsd_report(LOG_WARN, "SiRF packet seen when NMEA expected.\n");
#ifdef SIRF_ENABLE
(void)gpsd_switch_driver(session, "SiRF binary");
return sirf_parse(session, session->outbuffer, session->outbuflen);
#else
return 0;
#endif /* SIRF_ENABLE */
} else if (session->packet_type == EVERMORE_PACKET) {
gpsd_report(LOG_WARN, "EverMore packet seen when NMEA expected.\n");
#ifdef EVERMORE_ENABLE
(void)gpsd_switch_driver(session, "EverMore binary");
return evermore_parse(session, session->outbuffer, session->outbuflen);
#else
return 0;
#endif /* EVERMORE_ENABLE */
} else if (session->packet_type == GARMIN_PACKET) {
gpsd_report(LOG_WARN, "Garmin packet seen when NMEA expected.\n");
#ifdef GARMIN_ENABLE
/* we might never see a trigger, have this as a backstop */
(void)gpsd_switch_driver(session, "Garmin Serial binary");
return garmin_ser_parse(session);
#else
return 0;
#endif /* GARMIN_ENABLE */
} else if (session->packet_type == NMEA_PACKET) {
gps_mask_t st = 0;
gpsd_report(LOG_IO, "<= GPS: %s", session->outbuffer);
if ((st=nmea_parse((char *)session->outbuffer, session))==0) {
#ifdef NON_NMEA_ENABLE
struct gps_type_t **dp;
/* maybe this is a trigger string for a driver we know about? */
for (dp = gpsd_drivers; *dp; dp++) {
char *trigger = (*dp)->trigger;
if (trigger!=NULL && strncmp((char *)session->outbuffer, trigger, strlen(trigger))==0 && isatty(session->gpsdata.gps_fd)!=0) {
gpsd_report(LOG_PROG, "found %s.\n", trigger);
(void)gpsd_switch_driver(session, (*dp)->typename);
return 1;
}
}
#endif /* NON_NMEA_ENABLE */
gpsd_report(LOG_WARN, "unknown sentence: \"%s\"\n", session->outbuffer);
}
#ifdef NMEADISC
if (session->gpsdata.ldisc == 0) {
uid_t old;
int ldisc = NMEADISC;
#ifdef TIOCSTSTAMP
struct tstamps tstamps;
#ifdef PPS_ON_CTS
tstamps.ts_set |= TIOCM_CTS;
#else /*!PPS_ON_CTS */
tstamps.ts_set |= TIOCM_CAR;
#endif /* PPS_ON_CTS */
tstamps.ts_clr = 0;
old = geteuid();
if (seteuid(0) == -1)
gpsd_report(LOG_WARN, "can't seteuid(0) - %s", strerror(errno));
else
gpsd_report(LOG_WARN, "seteuid(0) to enable timestamping");
if (ioctl(session->gpsdata.gps_fd, TIOCSTSTAMP, &tstamps) < 0)
gpsd_report(LOG_WARN, "can't set kernel timestamping: %s\n",
strerror(errno));
else
gpsd_report(LOG_WARN, "activated kernel timestamping\n");
#endif /* TIOCSTSTAMP */
if (ioctl(session->gpsdata.gps_fd, TIOCSETD, &ldisc) == -1)
gpsd_report(LOG_WARN, "can't set nmea discipline: %s\n",
strerror(errno));
else
gpsd_report(LOG_WARN, "activated nmea discipline\n");
/* this is a flag that shows if we've tried the setup */
session->gpsdata.ldisc = NMEADISC;
if (old){
gpsd_report(LOG_WARN, "giving up euid 0");
(void)seteuid(old);
}
gpsd_report(LOG_WARN, "running with effective user ID %d\n", geteuid());
}
#endif /*NMEADISC */
#ifdef NTPSHM_ENABLE
/* this magic number is derived from observation */
if (session->context->enable_ntpshm &&
(st & TIME_SET) != 0 &&
(session->gpsdata.fix.time!=session->last_fixtime)) {
/* this magic number is derived from observation */
/* GPS-18/USB -> 0.100 */
/* GPS-18/LVC at 19200 -> 0.125 */
/* GPS-18/LVC at 4800 -> 0.525*/
/* Rob Jensen reports 0.675 */
(void)ntpshm_put(session, session->gpsdata.fix.time + 0.400);
session->last_fixtime = session->gpsdata.fix.time;
}
#endif /* NTPSHM_ENABLE */
return st;
} else
return 0;
}
static void nmea_probe_subtype(struct gps_device_t *session, unsigned int seq)
{
/*
* The reason for splitting these probes up by packet sequence
* number, interleaving them with the first few packet receives,
* is because many generic-NMEA devices get confused if you send
* too much at them in one go.
*
* A fast response to an early probe will change drivers so the
* later ones won't be sent at all. Thus, for best overall
* performance, order these to probe for the most popular types
* soonest.
*
* Note: don't make the trigger strings identical to the probe,
* because some NMEA devices (notably SiRFs) will just echo
* unknown strings right back at you. A useful dodge is to append
* a comma to the trigger, because that won't be in the response
* unless there is actual following data.
*/
switch (seq) {
#ifdef SIRF_ENABLE
case 0:
/*
* We used to try to probe for SiRF by issuing "$PSRF105,1"
* and expecting "$Ack Input105.". But it turns out this
* only works for SiRF-IIs; SiRF-I and SiRF-III don't respond.
* Thus the only reliable probe is to try to flip the SiRF into
* binary mode, cluing in the library to revert it on close.
*/
(void)nmea_send(session->gpsdata.gps_fd,
"$PSRF100,0,%d,%d,%d,0",
session->gpsdata.baudrate,
9-session->gpsdata.stopbits,
session->gpsdata.stopbits);
session->back_to_nmea = true;
break;
#endif /* SIRF_ENABLE */
#ifdef NMEA_ENABLE
case 1:
/* probe for Garmin serial GPS -- expect $PGRMC followed by data*/
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMCE");
break;
case 2:
/* probe for the FV-18 -- expect $PFEC,GPint followed by data */
(void)nmea_send(session->gpsdata.gps_fd, "$PFEC,GPint");
break;
#endif /* NMEA_ENABLE */
#ifdef EVERMORE_ENABLE
case 3:
/* Enable checksum and GGA(1s), GLL(0s), GSA(1s), GSV(5s), RMC(1s), VTG(0s), PEMT101(0s) */
/* EverMore will reply with: \x10\x02\x04\x38\x8E\xC6\x10\x03 */
(void)gpsd_write(session,
"\x10\x02\x12\x8E\x7F\x01\x01\x00\x01\x01\x01\x00\x01\x00\x00\x00\x00\x00\x00\x13\x10\x03", 22);
break;
#endif /* EVERMORE_ENABLE */
#ifdef ITRAX_ENABLE
case 4:
/* probe for iTrax, looking for "$PFST,OK" */
(void)nmea_send(session->gpsdata.gps_fd, "$PFST");
break;
#endif /* ITRAX_ENABLE */
default:
break;
}
}
static struct gps_type_t nmea = {
.typename = "Generic NMEA", /* full name of type */
.trigger = NULL, /* it's the default */
.channels = 12, /* consumer-grade GPS */
.probe_wakeup = NULL, /* no wakeup to be done before hunt */
.probe_detect = NULL, /* no probe */
.probe_subtype = nmea_probe_subtype, /* probe for special types */
#ifdef ALLOW_RECONFIGURE
.configurator = NULL, /* enable what we need */
#endif /* ALLOW_RECONFIGURE */
.get_packet = packet_get, /* use generic packet getter */
.parse_packet = nmea_parse_input, /* how to interpret a packet */
.rtcm_writer = pass_rtcm, /* write RTCM data straight */
.speed_switcher = NULL, /* no speed switcher */
.mode_switcher = NULL, /* no mode switcher */
.rate_switcher = NULL, /* no sample-rate switcher */
.cycle_chars = -1, /* not relevant, no rate switch */
#ifdef ALLOW_RECONFIGURE
.revert = NULL, /* no setting-reversion method */
#endif /* ALLOW_RECONFIGURE */
.wrapup = NULL, /* no wrapup */
.cycle = 1, /* updates every second */
};
#ifdef GARMIN_ENABLE
/**************************************************************************
*
* Garmin NMEA
*
**************************************************************************/
#ifdef ALLOW_RECONFIGURE
static void garmin_nmea_configurator(struct gps_device_t *session, unsigned int seq)
{
#if defined(NMEA_ENABLE)
/*
* Receivers like the Garmin GPS-10 don't handle having a lot of
*/
switch (seq) {
case 0:
/* reset some config, AutoFix, WGS84, PPS */
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMC,A,,100,,,,,,A,,1,2,4,30");
break;
case 1:
/* once a sec, no averaging, NMEA 2.3, WAAS */
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMC1,1,1,1,,,,2,W,N");
break;
case 2:
/* get some more config info */
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMC1E");
break;
case 3:
/* turn off all output except GGA */
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMO,,2");
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMO,GPGGA,1");
break;
case 4:
/* enable GPGGA, GPGSA, GPGSV, GPRMC on Garmin serial GPS */
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMO,GPGSA,1");
break;
case 5:
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMO,GPGSV,1");
break;
case 6:
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMO,GPRMC,1");
break;
case 7:
(void)nmea_send(session->gpsdata.gps_fd, "$PGRMO,PGRME,1");
break;
}
}
#endif /* NMEA_ENABLE */
#endif /* ALLOW_RECONFIGURE */
static struct gps_type_t garmin = {
.typename = "Garmin Serial", /* full name of type */
.trigger = "$PGRMC,", /* Garmin private */
.channels = 12, /* not used by this driver */
.probe_wakeup = NULL, /* no wakeup to be done before hunt */
.probe_detect = NULL, /* no probe */
.probe_subtype = NULL, /* no further querying */
#ifdef ALLOW_RECONFIGURE
.configurator = garmin_nmea_configurator,/* enable what we need */
#endif /*ALLOW_RECONFIGURE */
.get_packet = packet_get, /* use generic packet getter */
.parse_packet = nmea_parse_input, /* how to interpret a packet */
.rtcm_writer = NULL, /* some do, some don't, skip for now */
.speed_switcher = NULL, /* no speed switcher */
.mode_switcher = NULL, /* no mode switcher */
.rate_switcher = NULL, /* no sample-rate switcher */
.cycle_chars = -1, /* not relevant, no rate switch */
#ifdef ALLOW_RECONFIGURE
.revert = NULL, /* no setting-reversion method */
#endif /*ALLOW_RECONFIGURE */
.wrapup = NULL, /* no wrapup */
.cycle = 1, /* updates every second */
};
#endif /* GARMIN_ENABLE */
#ifdef FV18_ENABLE
/**************************************************************************
*
* FV18 -- uses 2 stop bits, needs to be told to send GSAs
*
**************************************************************************/
#ifdef ALLOW_RECONFIGURE
static void fv18_configure(struct gps_device_t *session, unsigned int seq)
{
/*
* Tell an FV18 to send GSAs so we'll know if 3D is accurate.
* Suppress GLL and VTG. Enable ZDA so dates will be accurate for replay.
*/
if (seq == 0)
(void)nmea_send(session->gpsdata.gps_fd,
"$PFEC,GPint,GSA01,DTM00,ZDA01,RMC01,GLL00,VTG00,GSV05");
}
#endif /* ALLOW_RECONFIGURE */
static struct gps_type_t fv18 = {
.typename = "San Jose Navigation FV18", /* full name of type */
.trigger = "$PFEC,GPint,", /* FV18s should echo the probe */
.channels = 12, /* not used by this driver */
.probe_wakeup = NULL, /* no wakeup to be done before hunt */
.probe_detect = NULL, /* mo probe */
.probe_subtype = NULL, /* to be sent unconditionally */
#ifdef ALLOW_RECONFIGURE
.configurator = fv18_configure, /* change its sentence set */
#endif /* ALLOW_RECONFIGURE */
.get_packet = packet_get, /* how to get a packet */
.parse_packet = nmea_parse_input, /* how to interpret a packet */
.rtcm_writer = pass_rtcm, /* write RTCM data straight */
.speed_switcher = NULL, /* no speed switcher */
.mode_switcher = NULL, /* no mode switcher */
.rate_switcher = NULL, /* no sample-rate switcher */
.cycle_chars = -1, /* not relevant, no rate switch */
#ifdef ALLOW_RECONFIGURE
.revert = NULL, /* no setting-reversion method */
#endif /* ALLOW_RECONFIGURE */
.wrapup = NULL, /* no wrapup */
.cycle = 1, /* updates every second */
};
#endif /* FV18_ENABLE */
#ifdef TRIPMATE_ENABLE
/**************************************************************************
*
* TripMate -- extended NMEA, gets faster fix when primed with lat/long/time
*
**************************************************************************/
/*
* Some technical FAQs on the TripMate:
* http://vancouver-webpages.com/pub/peter/tripmate.faq
* http://www.asahi-net.or.jp/~KN6Y-GTU/tripmate/trmfaqe.html
* The TripMate was discontinued sometime before November 1998
* and was replaced by the Zodiac EarthMate.
*/
static void tripmate_probe_subtype(struct gps_device_t *session, unsigned int seq)
{
/* TripMate requires this response to the ASTRAL it sends at boot time */
if (seq == 0)
(void)nmea_send(session->gpsdata.gps_fd, "$IIGPQ,ASTRAL");
}
#ifdef ALLOW_RECONFIGURE
static void tripmate_configurator(struct gps_device_t *session, unsigned int seq)
{
/* stop it sending PRWIZCH */
if (seq == 0)
(void)nmea_send(session->gpsdata.gps_fd, "$PRWIILOG,ZCH,V,,");
}
#endif /* ALLOW_RECONFIGURE */
static struct gps_type_t tripmate = {
.typename = "Delorme TripMate", /* full name of type */
.trigger ="ASTRAL", /* tells us to switch */
.channels = 12, /* consumer-grade GPS */
.probe_wakeup = NULL, /* no wakeup before hunt */
.probe_detect = NULL, /* no probe */
.probe_subtype = tripmate_probe_subtype, /* send unconditionally */
#ifdef ALLOW_RECONFIGURE
.configurator = tripmate_configurator, /* send unconditionally */
#endif /* ALLOW_RECONFIGURE */
.get_packet = packet_get, /* how to get a packet */
.parse_packet = nmea_parse_input, /* how to interpret a packet */
.rtcm_writer = pass_rtcm, /* send RTCM data straight */
.speed_switcher= NULL, /* no speed switcher */
.mode_switcher = NULL, /* no mode switcher */
.rate_switcher = NULL, /* no sample-rate switcher */
.cycle_chars = -1, /* no rate switch */
#ifdef ALLOW_RECONFIGURE
.revert = NULL, /* no setting-reversion method */
#endif /* ALLOW_RECONFIGURE */
.wrapup = NULL, /* no wrapup */
.cycle = 1, /* updates every second */
};
#endif /* TRIPMATE_ENABLE */
#ifdef EARTHMATE_ENABLE
/**************************************************************************
*
* Zodiac EarthMate textual mode
*
* Note: This is the pre-2003 version using Zodiac binary protocol.
* It has been replaced with a design that uses a SiRF chipset.
*
**************************************************************************/
static struct gps_type_t earthmate;
/*
* There is a good HOWTO at <http://www.hamhud.net/ka9mva/earthmate.htm>.
*/
static void earthmate_close(struct gps_device_t *session)
{
/*@i@*/session->device_type = &earthmate;
}
static void earthmate_probe_subtype(struct gps_device_t *session, unsigned int seq)
{
if (seq == 0) {
(void)write(session->gpsdata.gps_fd, "EARTHA\r\n", 8);
(void)usleep(10000);
/*@i@*/session->device_type = &zodiac_binary;
zodiac_binary.wrapup = earthmate_close;
if (zodiac_binary.probe_subtype) zodiac_binary.probe_subtype(session, seq);
}
}
/*@ -redef @*/
static struct gps_type_t earthmate = {
.typename = "Delorme EarthMate (pre-2003, Zodiac chipset)",
.trigger = "EARTHA", /* Earthmate trigger string */
.channels = 12, /* not used by NMEA parser */
.probe_wakeup = NULL, /* no wakeup to be done before hunt */
.probe_detect = NULL, /* no probe */
.probe_subtype = earthmate_probe_subtype, /* switch us to Zodiac mode */
#ifdef ALLOW_RECONFIGURE
.configurator = NULL, /* no configuration here */
#endif /* ALLOW_RECONFIGURE */
.get_packet = packet_get, /* how to get a packet */
.parse_packet = nmea_parse_input, /* how to interpret a packet */
.rtcm_writer = NULL, /* don't send RTCM data */
.speed_switcher= NULL, /* no speed switcher */
.mode_switcher = NULL, /* no mode switcher */
.rate_switcher = NULL, /* no sample-rate switcher */
.cycle_chars = -1, /* no rate switch */
#ifdef ALLOW_RECONFIGURE
.revert = NULL, /* no setting-reversion method */
#endif /* ALLOW_RECONFIGURE */
.wrapup = NULL, /* no wrapup code */
.cycle = 1, /* updates every second */
};
/*@ -redef @*/
#endif /* EARTHMATE_ENABLE */
#ifdef ITRAX_ENABLE
/**************************************************************************
*
* The NMEA mode of the iTrax chipset, as used in the FastTrax and others.
*
* As described by v1.31 of the NMEA Protocol Specification for the
* iTrax02 Evaluation Kit, 2003-06-12.
* v1.18 of the manual, 2002-19-6, describes effectively
* the same protocol, but without ZDA.
*
**************************************************************************/
/*
* Enable GGA=0x2000, RMC=0x8000, GSA=0x0002, GSV=0x0001, ZDA=0x0004.
* Disable GLL=0x1000, VTG=0x4000, FOM=0x0020, PPS=0x0010.
* This is 82+75+67+(3*60)+34 = 438 characters
*
* 1200 => at most 1 fix per 4 seconds
* 2400 => at most 1 fix per 2 seconds
* 4800 => at most 1 fix per 1 seconds
* 9600 => at most 2 fixes per second
* 19200 => at most 4 fixes per second
* 57600 => at most 13 fixes per second
* 115200 => at most 26 fixes per second
*
* We'd use FOM, but they don't specify a confidence interval.
*/
#define ITRAX_MODESTRING "$PFST,NMEA,A007,%d\r\n"
static int literal_send(int fd, const char *fmt, ... )
/* ship a raw command to the GPS */
{
int status;
char buf[BUFSIZ];
va_list ap;
va_start(ap, fmt) ;
(void)vsnprintf(buf, sizeof(buf), fmt, ap);
va_end(ap);
status = (int)write(fd, buf, strlen(buf));
if (status == (int)strlen(buf)) {
gpsd_report(LOG_IO, "=> GPS: %s\n", buf);
return status;
} else {
gpsd_report(LOG_WARN, "=> GPS: %s FAILED\n", buf);
return -1;
}
}
static void itrax_probe_subtype(struct gps_device_t *session, unsigned int seq)
/* start it reporting */
{
if (seq == 0) {
/* initialize GPS clock with current system time */
struct tm when;
double integral, fractional;
time_t intfixtime;
char buf[31], frac[6];
fractional = modf(timestamp(), &integral);
intfixtime = (time_t)integral;
(void)gmtime_r(&intfixtime, &when);
/* FIXME: so what if my local clock is wrong? */
(void)strftime(buf, sizeof(buf), "$PFST,INITAID,%H%M%S.XX,%d%m%y\r\n", &when);
(void)snprintf(frac, sizeof(frac), "%.2f", fractional);
buf[21] = frac[2]; buf[22] = frac[3];
(void)literal_send(session->gpsdata.gps_fd, buf);
/* maybe this should be considered a reconfiguration? */
(void)literal_send(session->gpsdata.gps_fd, "$PFST,START\r\n");
}
}
#ifdef ALLOW_RECONFIGURE
static void itrax_configurator(struct gps_device_t *session, int seq)
/* set synchronous mode */
{
if (seq == 0) {
(void)literal_send(session->gpsdata.gps_fd, "$PFST,SYNCMODE,1\r\n");
(void)literal_send(session->gpsdata.gps_fd,
ITRAX_MODESTRING, session->gpsdata.baudrate);
}
}
#endif /* ALLOW_RECONFIGURE */
static bool itrax_speed(struct gps_device_t *session, speed_t speed)
/* change the baud rate */
{
#ifdef ALLOW_RECONFIGURE
return literal_send(session->gpsdata.gps_fd, ITRAX_MODESTRING, speed) >= 0;
#else
return false;
#endif /* ALLOW_RECONFIGURE */
}
static bool itrax_rate(struct gps_device_t *session, double rate)
/* change the sample rate of the GPS */
{
#ifdef ALLOW_RECONFIGURE
return literal_send(session->gpsdata.gps_fd, "$PSFT,FIXRATE,%d\r\n", rate) >= 0;
#else
return false;
#endif /* ALLOW_RECONFIGURE */
}
static void itrax_wrap(struct gps_device_t *session)
/* stop navigation, this cuts the power drain */
{
#ifdef ALLOW_RECONFIGURE
(void)literal_send(session->gpsdata.gps_fd, "$PFST,SYNCMODE,0\r\n");
#endif /* ALLOW_RECONFIGURE */
(void)literal_send(session->gpsdata.gps_fd, "$PFST,STOP\r\n");
}
/*@ -redef @*/
static struct gps_type_t itrax = {
.typename = "iTrax", /* full name of type */
.trigger = "$PFST,OK", /* tells us to switch to Itrax */
.channels = 12, /* consumer-grade GPS */
.probe_wakeup = NULL, /* no wakeup to be done before hunt */
.probe_detect = NULL, /* no probe */
.probe_subtype = itrax_probe_subtype, /* initialize */
#ifdef ALLOW_RECONFIGURE
.configurator = itrax_configurator,/* set synchronous mode */
#endif /* ALLOW_RECONFIGURE */
.get_packet = packet_get, /* how to get a packet */
.parse_packet = nmea_parse_input, /* how to interpret a packet */
.rtcm_writer = NULL, /* iTrax doesn't support DGPS/WAAS/EGNOS */
.speed_switcher= itrax_speed, /* no speed switcher */
.mode_switcher = NULL, /* no mode switcher */
.rate_switcher = itrax_rate, /* there's a sample-rate switcher */
.cycle_chars = 438, /* not relevant, no rate switch */
#ifdef ALLOW_RECONFIGURE
.revert = NULL, /* no setting-reversion method */
#endif /* ALLOW_RECONFIGURE */
.wrapup = itrax_wrap, /* sleep the receiver */
.cycle = 1, /* updates every second */
};
/*@ -redef @*/
#endif /* ITRAX_ENABLE */
#endif /* NMEA_ENABLE */
#ifdef TNT_ENABLE
/**************************************************************************
* True North Technologies - Revolution 2X Digital compass
*
* More info: http://www.tntc.com/
*
* This is a digital compass which uses magnetometers to measure the
* strength of the earth's magnetic field. Based on these measurements
* it provides a compass heading using NMEA formatted output strings.
* This is useful to supplement the heading provided by another GPS
* unit. A GPS heading is unreliable at slow speed or no speed.
*
**************************************************************************/
enum {
#include "packet_states.h"
};
static void tnt_add_checksum(char *sentence)
{
unsigned char sum = '\0';
char c, *p = sentence;
if (*p == '@') {
p++;
} else {
gpsd_report(LOG_ERROR, "Bad TNT sentence: '%s'\n", sentence);
}
while ( ((c = *p) != '*') && (c != '\0')) {
sum ^= c;
p++;
}
*p++ = '*';
/*@i@*/snprintf(p, 4, "%02X\r\n", sum);
}
static int tnt_send(int fd, const char *fmt, ... )
{
int status;
char buf[BUFSIZ];
va_list ap;
va_start(ap, fmt) ;
(void)vsnprintf(buf, sizeof(buf)-5, fmt, ap);
va_end(ap);
strlcat(buf, "*", BUFSIZ);
tnt_add_checksum(buf);
status = (int)write(fd, buf, strlen(buf));
tcdrain(fd);
if (status == (int)strlen(buf)) {
gpsd_report(LOG_IO, "=> GPS: %s\n", buf);
return status;
} else {
gpsd_report(LOG_WARN, "=> GPS: %s FAILED\n", buf);
return -1;
}
}
#define TNT_SNIFF_RETRIES 100
/*
* The True North compass won't start talking
* unless you ask it to. So to identify it we
* need to query for it's ID string.
*/
static int tnt_packet_sniff(struct gps_device_t *session)
{
unsigned int n, count = 0;
gpsd_report(LOG_RAW, "tnt_packet_sniff begins\n");
for (n = 0; n < TNT_SNIFF_RETRIES; n++)
{
count = 0;
(void)tnt_send(session->gpsdata.gps_fd, "@X?");
if (ioctl(session->gpsdata.gps_fd, FIONREAD, &count) < 0)
return BAD_PACKET;
if (count == 0) {
//int delay = 10000000000.0 / session->gpsdata.baudrate;
//gpsd_report(LOG_RAW, "usleep(%d)\n", delay);
//usleep(delay);
gpsd_report(LOG_RAW, "sleep(1)\n");
(void)sleep(1);
} else if (packet_get(session) >= 0) {
if((session->packet_type == NMEA_PACKET)&&(session->packet_state == NMEA_RECOGNIZED))
{
gpsd_report(LOG_RAW, "tnt_packet_sniff returns %d\n",session->packet_type);
return session->packet_type;
}
}
}
gpsd_report(LOG_RAW, "tnt_packet_sniff found no packet\n");
return BAD_PACKET;
}
static void tnt_probe_subtype(struct gps_device_t *session, unsigned int seq UNUSED)
{
// Send codes to start the flow of data
//tnt_send(session->gpsdata.gps_fd, "@BA?"); // Query current rate
//tnt_send(session->gpsdata.gps_fd, "@BA=8"); // Start HTM packet at 1Hz
/*
* Sending this twice seems to make it more reliable!!
* I think it gets the input on the unit synced up.
*/
(void)tnt_send(session->gpsdata.gps_fd, "@BA=15"); // Start HTM packet at 1200 per minute
(void)tnt_send(session->gpsdata.gps_fd, "@BA=15"); // Start HTM packet at 1200 per minute
}
static bool tnt_probe(struct gps_device_t *session)
{
unsigned int *ip;
#ifdef FIXED_PORT_SPEED
/* just the one fixed port speed... */
static unsigned int rates[] = {FIXED_PORT_SPEED};
#else /* FIXED_PORT_SPEED not defined */
/* The supported baud rates */
static unsigned int rates[] = {38400, 19200, 2400, 4800, 9600 };
#endif /* FIXED_PORT_SPEED defined */
gpsd_report(LOG_PROG, "Probing TrueNorth Compass\n");
/*
* Only block until we get at least one character, whatever the
* third arg of read(2) says.
*/
/*@ ignore @*/
memset(session->ttyset.c_cc,0,sizeof(session->ttyset.c_cc));
session->ttyset.c_cc[VMIN] = 1;
/*@ end @*/
session->ttyset.c_cflag &= ~(PARENB | PARODD | CRTSCTS);
session->ttyset.c_cflag |= CREAD | CLOCAL;
session->ttyset.c_iflag = session->ttyset.c_oflag = session->ttyset.c_lflag = (tcflag_t) 0;
session->baudindex = 0;
for (ip = rates; ip < rates + sizeof(rates)/sizeof(rates[0]); ip++)
if (ip == rates || *ip != rates[0])
{
gpsd_report(LOG_PROG, "hunting at speed %d\n", *ip);
gpsd_set_speed(session, *ip, 'N',1);
if (tnt_packet_sniff(session) != BAD_PACKET)
return true;
}
return false;
}
struct gps_type_t trueNorth = {
.typename = "True North", /* full name of type */
.trigger = " TNT1500",
.channels = 0, /* not an actual GPS at all */
.probe_wakeup = NULL, /* this will become a real method */
.probe_detect = tnt_probe, /* probe by sending ID query */
.probe_subtype = tnt_probe_subtype,/* probe for True North Digital Compass */
#ifdef ALLOW_RECONFIGURE
.configurator = NULL, /* no setting changes */
#endif /* ALLOW_RECONFIGURE */
.get_packet = packet_get, /* how to get a packet */
.parse_packet = nmea_parse_input, /* how to interpret a packet */
.rtcm_writer = NULL, /* Don't send */
.speed_switcher = NULL, /* no speed switcher */
.mode_switcher = NULL, /* no mode switcher */
.rate_switcher = NULL, /* no wrapup */
.cycle_chars = -1, /* not relevant, no rate switch */
#ifdef ALLOW_RECONFIGURE
.revert = NULL, /* no setting-reversion method */
#endif /* ALLOW_RECONFIGURE */
.wrapup = NULL, /* no wrapup */
.cycle = 20, /* updates per second */
};
#endif
#ifdef RTCM104_ENABLE
/**************************************************************************
*
* RTCM-104, used for broadcasting DGPS corrections and by DGPS radios
*
**************************************************************************/
static gps_mask_t rtcm104_analyze(struct gps_device_t *session)
{
gpsd_report(LOG_RAW, "RTCM packet type 0x%02x length %d words: %s\n",
session->gpsdata.rtcm.type,
session->gpsdata.rtcm.length+2,
gpsd_hexdump(session->driver.isgps.buf, (session->gpsdata.rtcm.length+2)*sizeof(isgps30bits_t)));
return RTCM_SET;
}
static struct gps_type_t rtcm104 = {
.typename = "RTCM104", /* full name of type */
.trigger = NULL, /* no recognition string */
.channels = 0, /* not used */
.probe_wakeup = NULL, /* no wakeup to be done before hunt */
.probe_detect = NULL, /* no probe */
.probe_subtype = NULL, /* no subtypes */
#ifdef ALLOW_RECONFIGURE
.configurator = NULL, /* no configurator */
#endif /* ALLOW_RECONFIGURE */
.get_packet = packet_get, /* how to get a packet */
.parse_packet = rtcm104_analyze, /* packet getter does the parsing */
.rtcm_writer = NULL, /* don't send RTCM data, */
.speed_switcher= NULL, /* no speed switcher */
.mode_switcher = NULL, /* no mode switcher */
.rate_switcher = NULL, /* no sample-rate switcher */
.cycle_chars = -1, /* not relevant, no rate switch */
#ifdef ALLOW_RECONFIGURE
.revert = NULL, /* no setting-reversion method */
#endif /* ALLOW_RECONFIGURE */
.wrapup = NULL, /* no wrapup code */
.cycle = 1, /* updates every second */
};
#endif /* RTCM104_ENABLE */
extern struct gps_type_t garmin_usb_binary, garmin_ser_binary;
extern struct gps_type_t sirf_binary, tsip_binary;
extern struct gps_type_t evermore_binary, italk_binary;
/*@ -nullassign @*/
/* the point of this rigamarole is to not have to export a table size */
static struct gps_type_t *gpsd_driver_array[] = {
#ifdef NMEA_ENABLE
&nmea,
#ifdef FV18_ENABLE
&fv18,
#endif /* FV18_ENABLE */
#ifdef GARMIN_ENABLE
&garmin,
#endif /* GARMIN_ENABLE */
#ifdef TRIPMATE_ENABLE
&tripmate,
#endif /* TRIPMATE_ENABLE */
#ifdef EARTHMATE_ENABLE
&earthmate,
#endif /* EARTHMATE_ENABLE */
#ifdef ITRAX_ENABLE
&itrax,
#endif /* ITRAX_ENABLE */
#endif /* NMEA_ENABLE */
#ifdef ZODIAC_ENABLE
&zodiac_binary,
#endif /* ZODIAC_ENABLE */
#ifdef GARMIN_ENABLE
&garmin_usb_binary,
&garmin_ser_binary,
#endif /* GARMIN_ENABLE */
#ifdef SIRF_ENABLE
&sirf_binary,
#endif /* SIRF_ENABLE */
#ifdef TSIP_ENABLE
&tsip_binary,
#endif /* TSIP_ENABLE */
#ifdef TNT_ENABLE
&trueNorth,
#endif /* TSIP_ENABLE */
#ifdef EVERMORE_ENABLE
&evermore_binary,
#endif /* EVERMORE_ENABLE */
#ifdef ITALK_ENABLE
&italk_binary,
#endif /* ITALK_ENABLE */
#ifdef RTCM104_ENABLE
&rtcm104,
#endif /* RTCM104_ENABLE */
NULL,
};
/*@ +nullassign @*/
struct gps_type_t **gpsd_drivers = &gpsd_driver_array[0];
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