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driver_proto.c
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driver_proto.c
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/*
* A prototype driver. Doesn't run, doesn't even compile.
*
* For new driver authors: replace "_PROTO_" and "_proto_" with the name of
* your new driver. That will give you a skeleton with all the required
* functions defined.
*
* Once that is done, you will likely have to define a large number of
* flags and masks. From there, you will be able to start extracting
* useful quantities. There are roughed-in decoders for the navigation
* solution, satellite status and gps-utc offset. These are the 3 key
* messages that gpsd needs. Some protocols transmit error estimates
* separately from the navigation solution; if developing a driver for
* such a protocol you will need to add a decoder function for that
* message. Be extra careful when using sizeof(<type>) to extract part
* of packets (ie. don't do it). This idiom creates portability problems
* between 32 and 64 bit systems.
*
* For anyone hacking this driver skeleton: "_PROTO_" and "_proto_" are now
* reserved tokens. We suggest that they only ever be used as prefixes,
* but if they are used infix, they must be used in a way that allows a
* driver author to find-and-replace to create a unique namespace for
* driver functions.
*
* If using vi, ":%s/_PROTO_/MYDRIVER/g" and ":%s/_proto_/mydriver/g"
* should produce a source file that comes very close to being useful.
* You will also need to add hooks for your new driver to:
* SConstruct
* drivers.c
* gpsd.h-tail
* libgpsd_core.c
* packet.c
* packet_states.h
*
* This file is Copyright (c) 2010 by the GPSD project
* BSD terms apply: see the file COPYING in the distribution root for details.
*/
#include <stdio.h>
#include <stdbool.h>
#include <string.h>
#if defined(_PROTO__ENABLE) && defined(BINARY_ENABLE)
#include "bits.h"
static gps_mask_t _proto__parse_input(struct gps_device_t *);
static gps_mask_t _proto__dispatch(struct gps_device_t *, unsigned char *, size_t );
static gps_mask_t _proto__msg_navsol(struct gps_device_t *, unsigned char *, size_t );
static gps_mask_t _proto__msg_utctime(struct gps_device_t *, unsigned char *, size_t );
static gps_mask_t _proto__msg_svinfo(struct gps_device_t *, unsigned char *, size_t );
static gps_mask_t _proto__msg_raw(struct gps_device_t *, unsigned char *, size_t );
/*
* These methods may be called elsewhere in gpsd
*/
static ssize_t _proto__control_send(struct gps_device_t *, char *, size_t);
static bool _proto__probe_detect(struct gps_device_t *);
static void _proto__event_hook(struct gps_device_t *, event_t);
static bool _proto__set_speed(struct gps_device_t *, speed_t, char, int);
static void _proto__set_mode(struct gps_device_t *, int);
/*
* Decode the navigation solution message
*/
static gps_mask_t
_proto__msg_navsol(struct gps_device_t *session, unsigned char *buf, size_t data_len)
{
gps_mask_t mask;
int flags;
double Px, Py, Pz, Vx, Vy, Vz;
if (data_len != _PROTO__NAVSOL_MSG_LEN)
return 0;
gpsd_report(&session->context->errout, LOG_DATA,
"_proto_ NAVSOL - navigation data\n");
/* if this protocol has a way to test message validity, use it */
flags = GET_FLAGS();
if ((flags & _PROTO__SOLUTION_VALID) == 0)
return 0;
mask = ONLINE_SET;
/* extract ECEF navigation solution here */
/* or extract the local tangential plane (ENU) solution */
[Px, Py, Pz, Vx, Vy, Vz] = GET_ECEF_FIX();
ecef_to_wgs84fix(&session->newdata, &session->gpsdata.separation,
Px, Py, Pz, Vx, Vy, Vz);
mask |= LATLON_SET | ALTITUDE_SET | SPEED_SET | TRACK_SET | CLIMB_SET ;
session->newdata.epx = GET_LONGITUDE_ERROR();
session->newdata.epy = GET_LATITUDE_ERROR();
session->newdata.eps = GET_SPEED_ERROR();
session->gpsdata.satellites_used = GET_SATELLITES_USED();
/*
* Do *not* clear DOPs in a navigation solution message;
* instead, opportunistically pick up whatever it gives
* us and replace whatever values we computed from the
* visibility matrix for he last skyview. The reason to trust
* the chip returns over what we compute is that some
* chips have internal deweighting albums to throw out sats
* that increase DOP.
*/
session->gpsdata.dop.hdop = GET_HDOP();
session->gpsdata.dop.vdop = GET_VDOP();
/* other DOP if available */
mask |= DOP_SET;
session->newdata.mode = GET_FIX_MODE();
session->gpsdata.status = GET_FIX_STATUS();
/*
* Mix in CLEAR_IS to clue the daemon in about when to clear fix
* information. Mix in REPORT_IS when the sentence is reliably
* the last in a reporting cycle.
*/
mask |= MODE_SET | STATUS_SET | REPORT_IS;
/*
* At the end of each packet-cracking function, report at LOG_DATA level
* the fields it potentially set and the transfer mask. Doing this
* makes it relatively easy to track down data-management problems.
*/
gpsd_report(&session->context->errout, LOG_DATA,
"NAVSOL: time=%.2f, lat=%.2f lon=%.2f alt=%.2f mode=%d status=%d\n",
session->newdata.time,
session->newdata.latitude,
session->newdata.longitude,
session->newdata.altitude,
session->newdata.mode,
session->gpsdata.status);
return mask;
}
/**
* GPS Leap Seconds
*/
static gps_mask_t
_proto__msg_utctime(struct gps_device_t *session, unsigned char *buf, size_t data_len)
{
double t;
if (data_len != UTCTIME_MSG_LEN)
return 0;
gpsd_report(&session->context->errout, LOG_DATA,
"_proto_ UTCTIME - navigation data\n");
/* if this protocol has a way to test message validity, use it */
flags = GET_FLAGS();
if ((flags & _PROTO__TIME_VALID) == 0)
return 0;
tow = GET_MS_TIMEOFWEEK();
gps_week = GET_WEEKNUMBER();
session->context->leap_seconds = GET_GPS_LEAPSECONDS();
session->newdata.time = gpsd_gpstime_resolve(session, gps_week, tow / 1000.0);
return TIME_SET | PPSTIME_IS | ONLINE_SET;
}
/**
* GPS Satellite Info
*/
static gps_mask_t
_proto__msg_svinfo(struct gps_device_t *session, unsigned char *buf, size_t data_len)
{
unsigned char i, st, nchan, nsv;
unsigned int tow;
if (data_len != SVINFO_MSG_LEN )
return 0;
gpsd_report(&session->context->errout, LOG_DATA,
"_proto_ SVINFO - navigation data\n");
/* if this protocol has a way to test message validity, use it */
flags = GET_FLAGS();
if ((flags & _PROTO__SVINFO_VALID) == 0)
return 0;
/*
* some protocols have a variable length message listing only visible
* satellites, even if there are less than the number of channels. others
* have a fixed length message and send empty records for idle channels
* that are not tracking or searching. whatever the case, nchan should
* be set to the number of satellites which might be visible.
*/
nchan = GET_NUMBER_OF_CHANNELS();
if ((nchan < 1) || (nchan > MAXCHANNELS)) {
gpsd_report(&session->context->errout, LOG_INF,
"too many channels reported\n");
return 0;
}
gpsd_zero_satellites(&session->gpsdata);
nsv = 0; /* number of actually used satellites */
for (i = st = 0; i < nchan; i++) {
/* get info for one channel/satellite */
int off = GET_CHANNEL_STATUS(i);
session->gpsdata.PRN[i] = PRN_THIS_CHANNEL_IS_TRACKING(i);
session->gpsdata.ss[i] = (float)SIGNAL_STRENGTH_FOR_CHANNEL(i);
session->gpsdata.elevation[i] = SV_ELEVATION_FOR_CHANNEL(i);
session->gpsdata.azimuth[i] = SV_AZIMUTH_FOR_CHANNEL(i);
if (CHANNEL_USED_IN_SOLUTION(i))
session->gpsdata.used[nsv++] = session->gpsdata.PRN[i];
if(session->gpsdata.PRN[i])
st++;
}
/* if the satellite-info setence gives you UTC time, use it */
session->gpsdata.skyview_time = NaN;
session->gpsdata.satellites_used = nsv;
session->gpsdata.satellites_visible = st;
gpsd_report(&session->context->errout, LOG_DATA,
"SVINFO: visible=%d used=%d mask={SATELLITE|USED}\n",
session->gpsdata.satellites_visible,
session->gpsdata.satellites_used);
return SATELLITE_SET | USED_IS;
}
/**
* Raw measurements
*/
static gps_mask_t
_proto__msg_raw(struct gps_device_t *session, unsigned char *buf, size_t data_len)
{
unsigned char i, st, nchan, nsv;
unsigned int tow;
if (data_len != RAW_MSG_LEN )
return 0;
gpsd_report(&session->context->errout, LOG_DATA,
"_proto_ RAW - raw measurements\n");
/* if this protocol has a way to test message validity, use it */
flags = GET_FLAGS();
if ((flags & _PROTO__SVINFO_VALID) == 0)
return 0;
/*
* not all chipsets emit the same information. some of these observables
* can be easily converted into others. these are suggestions for the
* quantities you may wish to try extract. chipset documentation may say
* something like "this message contains information required to generate
* a RINEX file." assign NAN for unavailable data.
*/
nchan = GET_NUMBER_OF_CHANNELS();
if ((nchan < 1) || (nchan > MAXCHANNELS)) {
gpsd_report(&session->context->errout, LOG_INF,
"too many channels reported\n");
return 0;
}
for (i = 0; i < n; i++){
session->gpsdata.PRN[i] = GET_PRN();
session->gpsdata.ss[i] = GET_SIGNAL()
session->gpsdata.raw.satstat[i] = GET_FLAGS();
session->gpsdata.raw.pseudorange[i] = GET_PSEUDORANGE();
session->gpsdata.raw.doppler[i] = GET_DOPPLER();
session->gpsdata.raw.carrierphase[i] = GET_CARRIER_PHASE();
session->gpsdata.raw.mtime[i] = GET_MEASUREMENT_TIME();
session->gpsdata.raw.codephase[i] = GET_CODE_PHASE();
session->gpsdata.raw.deltarange[i] = GET_DELTA_RANGE();
}
return RAW_IS;
}
/**
* Parse the data from the device
*/
/*@ +charint @*/
gps_mask_t _proto__dispatch(struct gps_device_t *session, unsigned char *buf, size_t len)
{
size_t i;
int type, used, visible, retmask = 0;
if (len == 0)
return 0;
/*
* Set this if the driver reliably signals end of cycle.
* The core library zeroes it just before it calls each driver's
* packet analyzer.
*/
session->cycle_end_reliable = true;
if (msgid == MY_START_OF_CYCLE)
retmask |= CLEAR_IS;
else if (msgid == MY_END_OF_CYCLE)
retmask |= REPORT_IS;
type = GET_MESSAGE_TYPE();
/* we may need to dump the raw packet */
gpsd_report(&session->context->errout, LOG_RAW,
"raw _proto_ packet type 0x%02x\n", type);
switch (type)
{
/* Deliver message to specific decoder based on message type */
default:
gpsd_report(&session->context->errout, LOG_WARN,
"unknown packet id %d length %d\n", type, len);
return 0;
}
}
/*@ -charint @*/
/**********************************************************
*
* Externally called routines below here
*
**********************************************************/
static bool _proto__probe_detect(struct gps_device_t *session)
{
/*
* This method is used to elicit a positively identifying
* response from a candidate device. Some drivers may use
* this to test for the presence of a certain kernel module.
*/
int test, satisfied;
/* Your testing code here */
test=satisfied=0;
if (test==satisfied)
return true;
return false;
}
#ifdef CONTROLSEND_ENABLE
/**
* Write data to the device, doing any required padding or checksumming
*/
/*@ +charint -usedef -compdef @*/
static ssize_t _proto__control_send(struct gps_device_t *session,
char *msg, size_t msglen)
{
bool ok;
/* CONSTRUCT THE MESSAGE */
/*
* This copy to a public assembly buffer
* enables gpsmon to snoop the control message
* after it has been sent.
*/
session->msgbuflen = msglen;
(void)memcpy(session->msgbuf, msg, msglen);
/* we may need to dump the message */
return gpsd_write(session, session->msgbuf, session->msgbuflen);
gpsd_report(&session->context->errout, LOG_PROG,
"writing _proto_ control type %02x\n");
return gpsd_write(session, session->msgbuf, session->msgbuflen);
}
/*@ -charint +usedef +compdef @*/
#endif /* CONTROLSEND_ENABLE */
#ifdef RECONFIGURE_ENABLE
static void _proto__event_hook(struct gps_device_t *session, event_t event)
{
if (session->context->readonly)
return;
if (event == event_wakeup) {
/*
* Code to make the device ready to communicate. Only needed if the
* device is in some kind of sleeping state, and only shipped to
* RS232C, so that gpsd won't send strings to unidentified USB devices
* that might not be GPSes at all.
*/
}
if (event == event_identified) {
/*
* Fires when the first full packet is recognized from a
* previously unidentified device. The session.lexer counter
* is zeroed. If your device has a default cycle time other
* than 1 second, set session->device->gpsdata.cycle here. If
* possible, get the software version and store it in
* session->subtype.
*/
}
if (event == event_configure) {
/*
* Change sentence mix and set reporting modes as needed.
* Called immediately after event_identified fires, then just
* after every packet received thereafter, but you probably
* only want to take actions on the first few packets after
* the session.lexer counter has been zeroed,
*
* Remember that session->lexer.counter is available when you
* write this hook; you can use this fact to interleave configuration
* sends with the first few packet reads, which is useful for
* devices with small receive buffers.
*/
} else if (event == event_driver_switch) {
/*
* Fires when the driver on a device is changed *after* it
* has been identified.
*/
} else if (event == event_deactivate) {
/*
* Fires when the device is deactivated. Usr this to revert
* whatever was done at event_identify and event_configure
* time.
*/
} else if (event == event_reactivate) {
/*
* Fires when a device is reactivated after having been closed.
* Use this hook for re-establishing device settings that
* it doesn't hold through closes.
*/
}
}
/*
* This is the entry point to the driver. When the packet sniffer recognizes
* a packet for this driver, it calls this method which passes the packet to
* the binary processor or the nmea processor, depending on the session type.
*/
static gps_mask_t _proto__parse_input(struct gps_device_t *session)
{
if (session->lexer.type == _PROTO__PACKET) {
return _proto__dispatch(session, session->lexer.outbuffer, session->lexer.outbuflen);
#ifdef NMEA_ENABLE
} else if (session->lexer.type == NMEA_PACKET) {
return nmea_parse((char *)session->lexer.outbuffer, session);
#endif /* NMEA_ENABLE */
} else
return 0;
}
static bool _proto__set_speed(struct gps_device_t *session,
speed_t speed, char parity, int stopbits)
{
/*
* Set port operating mode, speed, parity, stopbits etc. here.
* Note: parity is passed as 'N'/'E'/'O', but you should program
* defensively and allow 0/1/2 as well.
*/
}
/*
* Switch between NMEA and binary mode, if supported
*/
static void _proto__set_mode(struct gps_device_t *session, int mode)
{
if (mode == MODE_NMEA) {
/* send a mode switch control string */
} else {
/* send a mode switch control string */
session->back_to_nmea = false;
}
}
#endif /* RECONFIGURE_ENABLE */
#ifdef TIMEHINT_ENABLE
static double _proto_time_offset(struct gps_device_t *session)
{
/*
* If NTP notification is enabled, the GPS will occasionally NTP
* its notion of the time. This will lag behind actual time by
* some amount which has to be determined by observation vs. (say
* WWVB radio broadcasts) and, furthermore, may differ by baud
* rate. This method is for computing the NTP fudge factor. If
* it's absent, an offset of 0.0 will be assumed, effectively
* falling back on what's in ntp.conf. When it returns NAN,
* nothing will be sent to NTP.
*/
return MAGIC_CONSTANT;
}
#endif /* TIMEHINT_ENABLE */
static void _proto__wrapup(struct gps_device_t *session)
{
}
/* The methods in this code take parameters and have */
/* return values that conform to the requirements AT */
/* THE TIME THE CODE WAS WRITTEN. */
/* */
/* These values may well have changed by the time */
/* you read this and methods could have been added */
/* or deleted. Unused methods can be set to NULL. */
/* */
/* The latest version can be found by inspecting */
/* the contents of struct gps_type_t in gpsd.h. */
/* */
/* This always contains the correct definitions that */
/* any driver must use to compile. */
/* This is everything we export */
/* *INDENT-OFF* */
const struct gps_type_t driver__proto__binary = {
/* Full name of type */
.type_name = "_proto",
/* Associated lexer packet type */
.packet_type = _PROTO__PACKET,
/* Driver tyoe flags */
.flags = DRIVER_NOFLAGS,
/* Response string that identifies device (not active) */
.trigger = NULL,
/* Number of satellite channels supported by the device */
.channels = 12,
/* Startup-time device detector */
.probe_detect = _proto__probe_detect,
/* Packet getter (using default routine) */
.get_packet = generic_get,
/* Parse message packets */
.parse_packet = _proto__parse_input,
/* RTCM handler (using default routine) */
.rtcm_writer = pass_rtcm,
/* non-perturbing initial query (e.g. for version) */
.init_query = NULL,
/* fire on various lifetime events */
.event_hook = _proto__event_hook,
#ifdef RECONFIGURE_ENABLE
/* Speed (baudrate) switch */
.speed_switcher = _proto__set_speed,
/* Switch to NMEA mode */
.mode_switcher = _proto__set_mode,
/* Message delivery rate switcher (not active) */
.rate_switcher = NULL,
/* Minimum cycle time of the device */
.min_cycle = 1,
#endif /* RECONFIGURE_ENABLE */
#ifdef CONTROLSEND_ENABLE
/* Control string sender - should provide checksum and headers/trailer */
.control_send = _proto__control_send,
#endif /* CONTROLSEND_ENABLE */
#ifdef TIMEHINT_ENABLE
.time_offset = _proto_time_offset,
#endif /* TIMEHINT_ENABLE */
/* *INDENT-ON* */
};
#endif /* defined(_PROTO__ENABLE) && defined(BINARY_ENABLE) */