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LibrePilot/flight/modules/GPS/UBX.c

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/**
******************************************************************************
* @addtogroup OpenPilotModules OpenPilot Modules
* @{
* @addtogroup GPSModule GPS Module
* @brief Process GPS information (UBX binary format)
* @{
*
* @file UBX.c
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* @author The LibrePilot Project, http://www.librepilot.org Copyright (C) 2015-2016.
* The OpenPilot Team, http://www.openpilot.org Copyright (C) 2012.
* @brief GPS module, handles GPS and UBX stream
* @see The GNU Public License (GPL) Version 3
*
*****************************************************************************/
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "openpilot.h"
#include "pios.h"
#include "pios_math.h"
#include <pios_helpers.h>
#include <pios_delay.h>
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#if defined(PIOS_INCLUDE_GPS_UBX_PARSER)
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#include "inc/UBX.h"
#include "inc/GPS.h"
#include <string.h>
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#if !defined(PIOS_GPS_MINIMAL)
#include <auxmagsupport.h>
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static bool useMag = false;
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#endif /* !defined(PIOS_GPS_MINIMAL) */
// this is set and used by this low level ubx code
// it is also reset by the ubx configuration code (UBX6 vs. UBX7) in ubx_autoconfig.c
GPSPositionSensorSensorTypeOptions ubxSensorType = GPSPOSITIONSENSOR_SENSORTYPE_UNKNOWN;
static bool usePvt = false;
static uint32_t lastPvtTime = 0;
// parse table item
typedef struct {
uint8_t msgClass;
uint8_t msgID;
void (*handler)(struct UBXPacket *, GPSPositionSensorData *GpsPosition);
} ubx_message_handler;
// parsing functions, roughly ordered by reception rate (higher rate messages on top)
static void parse_ubx_nav_posllh(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_nav_velned(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_nav_sol(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_nav_dop(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
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#if !defined(PIOS_GPS_MINIMAL)
static void parse_ubx_nav_pvt(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_nav_timeutc(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_nav_svinfo(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_op_sys(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_op_mag(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_ack_ack(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_ack_nak(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
static void parse_ubx_mon_ver(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition);
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#endif /* !defined(PIOS_GPS_MINIMAL) */
const ubx_message_handler ubx_handler_table[] = {
{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_POSLLH, .handler = &parse_ubx_nav_posllh },
{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_VELNED, .handler = &parse_ubx_nav_velned },
{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_SOL, .handler = &parse_ubx_nav_sol },
{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_DOP, .handler = &parse_ubx_nav_dop },
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#if !defined(PIOS_GPS_MINIMAL)
{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_PVT, .handler = &parse_ubx_nav_pvt },
{ .msgClass = UBX_CLASS_OP_CUST, .msgID = UBX_ID_OP_MAG, .handler = &parse_ubx_op_mag },
{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_SVINFO, .handler = &parse_ubx_nav_svinfo },
{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_TIMEUTC, .handler = &parse_ubx_nav_timeutc },
{ .msgClass = UBX_CLASS_OP_CUST, .msgID = UBX_ID_OP_SYS, .handler = &parse_ubx_op_sys },
{ .msgClass = UBX_CLASS_ACK, .msgID = UBX_ID_ACK_ACK, .handler = &parse_ubx_ack_ack },
{ .msgClass = UBX_CLASS_ACK, .msgID = UBX_ID_ACK_NAK, .handler = &parse_ubx_ack_nak },
{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_VER, .handler = &parse_ubx_mon_ver },
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#endif /* !defined(PIOS_GPS_MINIMAL) */
};
#define UBX_HANDLER_TABLE_SIZE NELEMENTS(ubx_handler_table)
// detected hw version
int32_t ubxHwVersion = -1;
// Last received Ack/Nak
struct UBX_ACK_ACK ubxLastAck;
struct UBX_ACK_NAK ubxLastNak;
// If a PVT sentence is received in the last UBX_PVT_TIMEOUT (ms) timeframe it disables VELNED/POSLLH/SOL/TIMEUTC
#define UBX_PVT_TIMEOUT (1000)
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// parse incoming character stream for messages in UBX binary format
int parse_ubx_stream(uint8_t *rx, uint16_t len, char *gps_rx_buffer, GPSPositionSensorData *GpsData, struct GPS_RX_STATS *gpsRxStats)
{
enum proto_states {
START,
UBX_SY2,
UBX_CLASS,
UBX_ID,
UBX_LEN1,
UBX_LEN2,
UBX_PAYLOAD,
UBX_CHK1,
UBX_CHK2,
FINISHED
};
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enum restart_states {
RESTART_WITH_ERROR,
RESTART_NO_ERROR
};
static uint16_t rx_count = 0;
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static enum proto_states proto_state = START;
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struct UBXPacket *ubx = (struct UBXPacket *)gps_rx_buffer;
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int ret = PARSER_INCOMPLETE; // message not (yet) complete
uint16_t i = 0;
uint16_t restart_index = 0;
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enum restart_states restart_state;
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uint8_t c;
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// switch continue is the normal condition and comes back to here for another byte
// switch break is the error state that branches to the end and restarts the scan at the byte after the first sync byte
while (i < len) {
c = rx[i++];
switch (proto_state) {
case START: // detect protocol
if (c == UBX_SYNC1) { // first UBX sync char found
proto_state = UBX_SY2;
// restart here, at byte after SYNC1, if we fail to parse
restart_index = i;
}
continue;
case UBX_SY2:
if (c == UBX_SYNC2) { // second UBX sync char found
proto_state = UBX_CLASS;
} else {
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restart_state = RESTART_NO_ERROR;
break;
}
continue;
case UBX_CLASS:
ubx->header.class = c;
proto_state = UBX_ID;
continue;
case UBX_ID:
ubx->header.id = c;
proto_state = UBX_LEN1;
continue;
case UBX_LEN1:
ubx->header.len = c;
proto_state = UBX_LEN2;
continue;
case UBX_LEN2:
ubx->header.len += (c << 8);
if (ubx->header.len > sizeof(UBXPayload)) {
gpsRxStats->gpsRxOverflow++;
#if defined(PIOS_GPS_MINIMAL)
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restart_state = RESTART_NO_ERROR;
#else
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restart_state = RESTART_WITH_ERROR;
#endif
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break;
} else {
if (ubx->header.len == 0) {
proto_state = UBX_CHK1;
} else {
proto_state = UBX_PAYLOAD;
rx_count = 0;
}
}
continue;
case UBX_PAYLOAD:
if (rx_count < ubx->header.len) {
ubx->payload.payload[rx_count] = c;
if (++rx_count == ubx->header.len) {
proto_state = UBX_CHK1;
}
}
continue;
case UBX_CHK1:
ubx->header.ck_a = c;
proto_state = UBX_CHK2;
continue;
case UBX_CHK2:
ubx->header.ck_b = c;
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// OP GPSV9 sends data with bad checksums this appears to happen because it drops data
// this has been proven by running it without autoconfig and testing:
// data coming from OPV9 "GPS+MCU" port the checksum errors happen roughly every 5 to 30 seconds
// same data coming from OPV9 "GPS Only" port the checksums are always good
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// this also occasionally causes parse_ubx_message() to issue alarms because not all the messages were received
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// see OP GPSV9 comment in parse_ubx_message() for further information
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if (checksum_ubx_message(ubx)) {
gpsRxStats->gpsRxReceived++;
proto_state = START;
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// overwrite PARSER_INCOMPLETE with PARSER_COMPLETE
// but don't overwrite PARSER_ERROR with PARSER_COMPLETE
// pass PARSER_ERROR to caller if it happens even once
// only pass PARSER_COMPLETE back to caller if we parsed a full set of GPS data
// that allows the caller to know if we are parsing GPS data
// or just other packets for some reason (mis-configuration)
if (parse_ubx_message(ubx, GpsData) == GPSPOSITIONSENSOR_OBJID
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&& ret == PARSER_INCOMPLETE) {
ret = PARSER_COMPLETE;
}
} else {
gpsRxStats->gpsRxChkSumError++;
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restart_state = RESTART_WITH_ERROR;
break;
}
continue;
default:
continue;
}
// this simple restart doesn't work across calls
// but it does work within a single call
// and it does the expected thing across calls
// if restarting due to error detected in 2nd call to this function (on split packet)
// then we just restart at index 0, which is mid-packet, not the second byte
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if (restart_state == RESTART_WITH_ERROR) {
ret = PARSER_ERROR; // inform caller that we found at least one error (along with 0 or more good packets)
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}
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rx += restart_index; // restart parsing just past the most recent SYNC1
len -= restart_index;
i = 0;
proto_state = START;
}
return ret;
}
// Keep track of various GPS messages needed to make up a single UAVO update
// time-of-week timestamp is used to correlate matching messages
#define POSLLH_RECEIVED (1 << 0)
#define STATUS_RECEIVED (1 << 1)
#define DOP_RECEIVED (1 << 2)
#define VELNED_RECEIVED (1 << 3)
#define SOL_RECEIVED (1 << 4)
#define ALL_RECEIVED (SOL_RECEIVED | VELNED_RECEIVED | DOP_RECEIVED | POSLLH_RECEIVED)
#define NONE_RECEIVED 0
static struct msgtracker {
uint32_t currentTOW; // TOW of the message set currently in progress
uint8_t msg_received; // keep track of received message types
} msgtracker;
// Check if a message belongs to the current data set and register it as 'received'
bool check_msgtracker(uint32_t tow, uint8_t msg_flag)
{
if (tow > msgtracker.currentTOW ? true // start of a new message set
: (msgtracker.currentTOW - tow > 6 * 24 * 3600 * 1000)) { // 6 days, TOW wrap around occured
msgtracker.currentTOW = tow;
msgtracker.msg_received = NONE_RECEIVED;
} else if (tow < msgtracker.currentTOW) { // message outdated (don't process)
return false;
}
msgtracker.msg_received |= msg_flag; // register reception of this msg type
return true;
}
bool checksum_ubx_message(struct UBXPacket *ubx)
{
int i;
uint8_t ck_a, ck_b;
ck_a = ubx->header.class;
ck_b = ck_a;
ck_a += ubx->header.id;
ck_b += ck_a;
ck_a += ubx->header.len & 0xff;
ck_b += ck_a;
ck_a += ubx->header.len >> 8;
ck_b += ck_a;
for (i = 0; i < ubx->header.len; i++) {
ck_a += ubx->payload.payload[i];
ck_b += ck_a;
}
if (ubx->header.ck_a == ck_a &&
ubx->header.ck_b == ck_b) {
return true;
} else {
return false;
}
}
static void parse_ubx_nav_posllh(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition)
{
if (usePvt) {
return;
}
struct UBX_NAV_POSLLH *posllh = &ubx->payload.nav_posllh;
if (check_msgtracker(posllh->iTOW, POSLLH_RECEIVED)) {
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if (GpsPosition->Status != GPSPOSITIONSENSOR_STATUS_NOFIX) {
GpsPosition->Altitude = (float)posllh->hMSL * 0.001f;
GpsPosition->GeoidSeparation = (float)(posllh->height - posllh->hMSL) * 0.001f;
GpsPosition->Latitude = posllh->lat;
GpsPosition->Longitude = posllh->lon;
}
}
}
static void parse_ubx_nav_sol(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition)
{
if (usePvt) {
return;
}
struct UBX_NAV_SOL *sol = &ubx->payload.nav_sol;
if (check_msgtracker(sol->iTOW, SOL_RECEIVED)) {
GpsPosition->Satellites = sol->numSV;
if (sol->flags & STATUS_FLAGS_GPSFIX_OK) {
switch (sol->gpsFix) {
case STATUS_GPSFIX_2DFIX:
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GpsPosition->Status = GPSPOSITIONSENSOR_STATUS_FIX2D;
break;
case STATUS_GPSFIX_3DFIX:
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GpsPosition->Status = GPSPOSITIONSENSOR_STATUS_FIX3D;
break;
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default: GpsPosition->Status = GPSPOSITIONSENSOR_STATUS_NOFIX;
}
} else { // fix is not valid so we make sure to treat is as NOFIX
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GpsPosition->Status = GPSPOSITIONSENSOR_STATUS_NOFIX;
}
}
}
static void parse_ubx_nav_dop(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition)
{
struct UBX_NAV_DOP *dop = &ubx->payload.nav_dop;
if (check_msgtracker(dop->iTOW, DOP_RECEIVED)) {
GpsPosition->HDOP = (float)dop->hDOP * 0.01f;
GpsPosition->VDOP = (float)dop->vDOP * 0.01f;
GpsPosition->PDOP = (float)dop->pDOP * 0.01f;
}
}
static void parse_ubx_nav_velned(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition)
{
if (usePvt) {
return;
}
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GPSVelocitySensorData GpsVelocity;
struct UBX_NAV_VELNED *velned = &ubx->payload.nav_velned;
if (check_msgtracker(velned->iTOW, VELNED_RECEIVED)) {
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if (GpsPosition->Status != GPSPOSITIONSENSOR_STATUS_NOFIX) {
GpsVelocity.North = (float)velned->velN / 100.0f;
GpsVelocity.East = (float)velned->velE / 100.0f;
GpsVelocity.Down = (float)velned->velD / 100.0f;
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GPSVelocitySensorSet(&GpsVelocity);
GpsPosition->Groundspeed = (float)velned->gSpeed * 0.01f;
GpsPosition->Heading = (float)velned->heading * 1.0e-5f;
}
}
}
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#if !defined(PIOS_GPS_MINIMAL)
static void parse_ubx_nav_pvt(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition)
{
lastPvtTime = PIOS_DELAY_GetuS();
GPSVelocitySensorData GpsVelocity;
struct UBX_NAV_PVT *pvt = &ubx->payload.nav_pvt;
check_msgtracker(pvt->iTOW, (ALL_RECEIVED));
GpsVelocity.North = (float)pvt->velN * 0.001f;
GpsVelocity.East = (float)pvt->velE * 0.001f;
GpsVelocity.Down = (float)pvt->velD * 0.001f;
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GPSVelocitySensorSet(&GpsVelocity);
GpsPosition->Groundspeed = (float)pvt->gSpeed * 0.001f;
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GpsPosition->Heading = (float)pvt->heading * 1.0e-5f;
GpsPosition->Altitude = (float)pvt->hMSL * 0.001f;
GpsPosition->GeoidSeparation = (float)(pvt->height - pvt->hMSL) * 0.001f;
GpsPosition->Latitude = pvt->lat;
GpsPosition->Longitude = pvt->lon;
GpsPosition->Satellites = pvt->numSV;
GpsPosition->PDOP = pvt->pDOP * 0.01f;
if (pvt->flags & PVT_FLAGS_GNSSFIX_OK) {
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GpsPosition->Status = pvt->fixType == PVT_FIX_TYPE_3D ?
GPSPOSITIONSENSOR_STATUS_FIX3D : GPSPOSITIONSENSOR_STATUS_FIX2D;
} else {
GpsPosition->Status = GPSPOSITIONSENSOR_STATUS_NOFIX;
}
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if (pvt->valid & PVT_VALID_VALIDTIME) {
// Time is valid, set GpsTime
GPSTimeData GpsTime;
GpsTime.Year = pvt->year;
GpsTime.Month = pvt->month;
GpsTime.Day = pvt->day;
GpsTime.Hour = pvt->hour;
GpsTime.Minute = pvt->min;
GpsTime.Second = pvt->sec;
GPSTimeSet(&GpsTime);
}
}
static void parse_ubx_nav_timeutc(struct UBXPacket *ubx, __attribute__((unused)) GPSPositionSensorData *GpsPosition)
{
if (usePvt) {
return;
}
struct UBX_NAV_TIMEUTC *timeutc = &ubx->payload.nav_timeutc;
// Test if time is valid
if ((timeutc->valid & TIMEUTC_VALIDTOW) && (timeutc->valid & TIMEUTC_VALIDWKN)) {
// Time is valid, set GpsTime
GPSTimeData GpsTime;
GpsTime.Year = timeutc->year;
GpsTime.Month = timeutc->month;
GpsTime.Day = timeutc->day;
GpsTime.Hour = timeutc->hour;
GpsTime.Minute = timeutc->min;
GpsTime.Second = timeutc->sec;
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GpsTime.Millisecond = (int16_t)(timeutc->nano / 1000000);
GPSTimeSet(&GpsTime);
} else {
// Time is not valid, nothing to do
return;
}
}
static void parse_ubx_nav_svinfo(struct UBXPacket *ubx, __attribute__((unused)) GPSPositionSensorData *GpsPosition)
{
uint8_t chan;
GPSSatellitesData svdata;
struct UBX_NAV_SVINFO *svinfo = &ubx->payload.nav_svinfo;
svdata.SatsInView = 0;
// First, use slots for SVs actually being received
for (chan = 0; chan < svinfo->numCh; chan++) {
if (svdata.SatsInView < GPSSATELLITES_PRN_NUMELEM && svinfo->sv[chan].cno > 0) {
svdata.Azimuth[svdata.SatsInView] = svinfo->sv[chan].azim;
svdata.Elevation[svdata.SatsInView] = svinfo->sv[chan].elev;
svdata.PRN[svdata.SatsInView] = svinfo->sv[chan].svid;
svdata.SNR[svdata.SatsInView] = svinfo->sv[chan].cno;
svdata.SatsInView++;
}
}
// Now try to add the rest
for (chan = 0; chan < svinfo->numCh; chan++) {
if (svdata.SatsInView < GPSSATELLITES_PRN_NUMELEM && 0 == svinfo->sv[chan].cno) {
svdata.Azimuth[svdata.SatsInView] = svinfo->sv[chan].azim;
svdata.Elevation[svdata.SatsInView] = svinfo->sv[chan].elev;
svdata.PRN[svdata.SatsInView] = svinfo->sv[chan].svid;
svdata.SNR[svdata.SatsInView] = svinfo->sv[chan].cno;
svdata.SatsInView++;
}
}
// fill remaining slots (if any)
for (chan = svdata.SatsInView; chan < GPSSATELLITES_PRN_NUMELEM; chan++) {
svdata.Azimuth[chan] = 0;
svdata.Elevation[chan] = 0;
svdata.PRN[chan] = 0;
svdata.SNR[chan] = 0;
}
GPSSatellitesSet(&svdata);
}
static void parse_ubx_ack_ack(struct UBXPacket *ubx, __attribute__((unused)) GPSPositionSensorData *GpsPosition)
{
struct UBX_ACK_ACK *ack_ack = &ubx->payload.ack_ack;
ubxLastAck = *ack_ack;
}
static void parse_ubx_ack_nak(struct UBXPacket *ubx, __attribute__((unused)) GPSPositionSensorData *GpsPosition)
{
struct UBX_ACK_NAK *ack_nak = &ubx->payload.ack_nak;
ubxLastNak = *ack_nak;
}
static void parse_ubx_mon_ver(struct UBXPacket *ubx, __attribute__((unused)) GPSPositionSensorData *GpsPosition)
{
struct UBX_MON_VER *mon_ver = &ubx->payload.mon_ver;
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ubxHwVersion = atoi(mon_ver->hwVersion);
ubxSensorType = (ubxHwVersion >= UBX_HW_VERSION_8) ? GPSPOSITIONSENSOR_SENSORTYPE_UBX8 :
((ubxHwVersion >= UBX_HW_VERSION_7) ? GPSPOSITIONSENSOR_SENSORTYPE_UBX7 : GPSPOSITIONSENSOR_SENSORTYPE_UBX);
// send sensor type right now because on UBX NEMA we don't get a full set of messages
// and we want to be able to see sensor type even on UBX NEMA GPS's
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GPSPositionSensorSensorTypeSet((uint8_t *)&ubxSensorType);
}
static void parse_ubx_op_sys(struct UBXPacket *ubx, __attribute__((unused)) GPSPositionSensorData *GpsPosition)
{
struct UBX_OP_SYSINFO *sysinfo = &ubx->payload.op_sysinfo;
GPSExtendedStatusData data;
data.FlightTime = sysinfo->flightTime;
data.BoardType[0] = sysinfo->board_type;
data.BoardType[1] = sysinfo->board_revision;
memcpy(&data.FirmwareHash, &sysinfo->sha1sum, GPSEXTENDEDSTATUS_FIRMWAREHASH_NUMELEM);
memcpy(&data.FirmwareTag, &sysinfo->commit_tag_name, GPSEXTENDEDSTATUS_FIRMWARETAG_NUMELEM);
data.Options = sysinfo->options;
data.Status = GPSEXTENDEDSTATUS_STATUS_GPSV9;
GPSExtendedStatusSet(&data);
}
static void parse_ubx_op_mag(struct UBXPacket *ubx, __attribute__((unused)) GPSPositionSensorData *GpsPosition)
{
if (!useMag) {
return;
}
struct UBX_OP_MAG *mag = &ubx->payload.op_mag;
float mags[3] = { mag->x, mag->y, mag->z };
auxmagsupport_publish_samples(mags, AUXMAGSENSOR_STATUS_OK);
}
#endif /* if !defined(PIOS_GPS_MINIMAL) */
// UBX message parser
// returns UAVObjectID if a UAVObject structure is ready for further processing
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uint32_t parse_ubx_message(struct UBXPacket *ubx, GPSPositionSensorData *GpsPosition)
{
uint32_t id = 0;
static bool ubxInitialized = false;
if (!ubxInitialized) {
// initialize dop values. If no DOP sentence is received it is safer to initialize them to a high value rather than 0.
GpsPosition->HDOP = 99.99f;
GpsPosition->PDOP = 99.99f;
GpsPosition->VDOP = 99.99f;
ubxInitialized = true;
}
// is it using PVT?
usePvt = (lastPvtTime) && (PIOS_DELAY_GetuSSince(lastPvtTime) < UBX_PVT_TIMEOUT * 1000);
for (uint8_t i = 0; i < UBX_HANDLER_TABLE_SIZE; i++) {
const ubx_message_handler *handler = &ubx_handler_table[i];
if (handler->msgClass == ubx->header.class && handler->msgID == ubx->header.id) {
handler->handler(ubx, GpsPosition);
break;
}
}
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GpsPosition->SensorType = ubxSensorType;
if (msgtracker.msg_received == ALL_RECEIVED) {
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// leave BaudRate field alone!
GPSPositionSensorBaudRateGet(&GpsPosition->BaudRate);
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GPSPositionSensorSet(GpsPosition);
msgtracker.msg_received = NONE_RECEIVED;
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id = GPSPOSITIONSENSOR_OBJID;
} else {
uint8_t status;
GPSPositionSensorStatusGet(&status);
if (status == GPSPOSITIONSENSOR_STATUS_NOGPS) {
// Some ubx thing has been received so GPS is there
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//
// OP GPSV9 will sometimes cause this NOFIX
// because GPSV9 drops data which causes checksum errors which causes GPS.c to set the status to NOGPS
// see OP GPSV9 comment in parse_ubx_stream() for further information
status = GPSPOSITIONSENSOR_STATUS_NOFIX;
GPSPositionSensorStatusSet(&status);
}
}
return id;
}
#if !defined(PIOS_GPS_MINIMAL)
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void op_gpsv9_load_mag_settings()
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{
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if (auxmagsupport_get_type() == AUXMAGSETTINGS_TYPE_GPSV9) {
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useMag = true;
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} else {
useMag = false;
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}
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}
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#endif // !defined(PIOS_GPS_MINIMAL)
#endif // defined(PIOS_INCLUDE_GPS_UBX_PARSER)