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LibrePilot/flight/OpenPilot/Modules/GPS/GPS.c
sambas 22698313fc OP-25: preliminary GPS module, needs some cleaning. I'll start testing when I get HW ready.
git-svn-id: svn://svn.openpilot.org/OpenPilot/trunk@351 ebee16cc-31ac-478f-84a7-5cbb03baadba
2010-03-20 15:45:15 +00:00

491 lines
14 KiB
C

/**
******************************************************************************
*
* @file GPS.c
* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010.
* @brief GPS module, handles GPS and NMEA 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 "gpsinfo.h"
#include "buffer.h"
// constants/macros/typdefs
#define NMEA_BUFFERSIZE 110
// Message Codes
#define NMEA_NODATA 0 // No data. Packet not available, bad, or not decoded
#define NMEA_GPGGA 1 // Global Positioning System Fix Data
#define NMEA_GPVTG 2 // Course over ground and ground speed
#define NMEA_GPGLL 3 // Geographic position - latitude/longitude
#define NMEA_GPGSV 4 // GPS satellites in view
#define NMEA_GPGSA 5 // GPS DOP and active satellites
#define NMEA_GPRMC 6 // Recommended minimum specific GPS data
#define NMEA_UNKNOWN 0xFF// Packet received but not known
// Debugging
//#define GPSDEBUG
#ifdef GPSDEBUG
#define NMEA_DEBUG_PKT ///< define to enable debug of all NMEA messages
#define NMEA_DEBUG_GGA ///< define to enable debug of GGA messages
#define NMEA_DEBUG_VTG ///< define to enable debug of VTG messages
#endif
// functions
void nmeaInit(void);
uint8_t* nmeaGetPacketBuffer(void);
uint8_t nmeaProcess(cBuffer* rxBuffer);
void nmeaProcessGPGGA(uint8_t* packet);
void nmeaProcessGPVTG(uint8_t* packet);
// Private functions
static void gpsTask(void* parameters);
static void periodicEventHandler(UAVObjEvent* ev);
static void registerObject(UAVObjHandle obj);
static void updateObject(UAVObjHandle obj);
static int32_t addObject(UAVObjHandle obj);
static int32_t setUpdatePeriod(UAVObjHandle obj, int32_t updatePeriodMs);
cBuffer gpsRxBuffer;
static char gpsRxData[512];
// Global variables
GpsInfoType GpsInfo;
uint8_t NmeaPacket[NMEA_BUFFERSIZE];
// Private constants
#define MAX_QUEUE_SIZE 20
#define STACK_SIZE 100
#define TASK_PRIORITY (tskIDLE_PRIORITY + 4)
#define REQ_TIMEOUT_MS 500
#define MAX_RETRIES 3
// Private types
// Private variables
static COMPortTypeDef gpsPort;
static xQueueHandle queue;
static xTaskHandle gpsTaskHandle;
/**
* Initialise the gps module
* \return -1 if initialisation failed
* \return 0 on success
*/
int32_t GpsInitialize(void)
{
// Create object queue
queue = xQueueCreate(MAX_QUEUE_SIZE, sizeof(UAVObjEvent));
// TODO: Get gps settings object
gpsPort = COM_USART2;
// Init input buffer size 512
bufferInit(&gpsRxBuffer, (unsigned char *)gpsRxData, 512);
// Process all registered objects and connect queue for updates
UAVObjIterate(&registerObject);
// Start gps task
xTaskCreate(gpsTask, (signed char*)"GPS", STACK_SIZE, NULL, TASK_PRIORITY, &gpsTaskHandle);
return 0;
}
/**
* Register a new object, adds object to local list and connects the queue depending on the object's
* telemetry settings.
* \param[in] obj Object to connect
*/
void registerObject(UAVObjHandle obj)
{
// Setup object for periodic updates
addObject(obj);
// Setup object for telemetry updates
updateObject(obj);
}
/**
* Update object's queue connections and timer, depending on object's settings
* \param[in] obj Object to updates
*/
void updateObject(UAVObjHandle obj)
{
UAVObjMetadata metadata;
int32_t eventMask;
// Get metadata
UAVObjGetMetadata(obj, &metadata);
// Setup object depending on update mode
if(metadata.telemetryUpdateMode == UPDATEMODE_PERIODIC)
{
// Set update period
setUpdatePeriod(obj, metadata.telemetryUpdatePeriod);
// Connect queue
eventMask = EV_UPDATED_MANUAL | EV_UPDATE_REQ;
if(UAVObjIsMetaobject(obj))
{
eventMask |= EV_UNPACKED; // we also need to act on remote updates (unpack events)
}
UAVObjConnectQueue(obj, queue, eventMask);
}
else if(metadata.telemetryUpdateMode == UPDATEMODE_ONCHANGE)
{
// Set update period
setUpdatePeriod(obj, 0);
// Connect queue
eventMask = EV_UPDATED | EV_UPDATED_MANUAL | EV_UPDATE_REQ;
if(UAVObjIsMetaobject(obj))
{
eventMask |= EV_UNPACKED; // we also need to act on remote updates (unpack events)
}
UAVObjConnectQueue(obj, queue, eventMask);
}
else if(metadata.telemetryUpdateMode == UPDATEMODE_MANUAL)
{
// Set update period
setUpdatePeriod(obj, 0);
// Connect queue
eventMask = EV_UPDATED_MANUAL | EV_UPDATE_REQ;
if(UAVObjIsMetaobject(obj))
{
eventMask |= EV_UNPACKED; // we also need to act on remote updates (unpack events)
}
UAVObjConnectQueue(obj, queue, eventMask);
}
else if(metadata.telemetryUpdateMode == UPDATEMODE_NEVER)
{
// Set update period
setUpdatePeriod(obj, 0);
// Disconnect queue
UAVObjDisconnectQueue(obj, queue);
}
}
/**
* gps task. Processes input buffer. It does not return.
*/
static void gpsTask(void* parameters)
{
int32_t gpsRxOverflow=0;
// Loop forever
while(1)
{
/* This blocks the task until there is something on the buffer */
while(PIOS_COM_ReceiveBufferUsed(gpsPort) > 0)
{
if( !bufferAddToEnd(&gpsRxBuffer, PIOS_COM_ReceiveBuffer(gpsPort)) )
{
// no space in buffer
// count overflow
gpsRxOverflow++;
break;
}
}
nmeaProcess(&gpsRxBuffer);
}
}
/**
* Event handler for periodic object updates (called by the event dispatcher)
*/
static void periodicEventHandler(UAVObjEvent* ev)
{
// Push event to the telemetry queue
xQueueSend(queue, ev, 0); // do not wait if queue is full
}
/**
* Setup object for periodic updates.
* \param[in] obj The object to update
* \return 0 Success
* \return -1 Failure
*/
static int32_t addObject(UAVObjHandle obj)
{
UAVObjEvent ev;
// Add object for periodic updates
ev.obj = obj;
ev.instId = UAVOBJ_ALL_INSTANCES;
ev.event = EV_UPDATED_MANUAL;
return EventPeriodicCreate(&ev, &periodicEventHandler, 0);
}
/**
* Set update period of object (it must be already setup for periodic updates)
* \param[in] obj The object to update
* \param[in] updatePeriodMs The update period in ms, if zero then periodic updates are disabled
* \return 0 Success
* \return -1 Failure
*/
static int32_t setUpdatePeriod(UAVObjHandle obj, int32_t updatePeriodMs)
{
UAVObjEvent ev;
// Add object for periodic updates
ev.obj = obj;
ev.instId = UAVOBJ_ALL_INSTANCES;
ev.event = EV_UPDATED_MANUAL;
return EventPeriodicUpdate(&ev, &periodicEventHandler, updatePeriodMs);
}
uint8_t* nmeaGetPacketBuffer(void)
{
return NmeaPacket;
}
/**
* Prosesses NMEA sentences
* \param[in] cBuffer for prosessed nmea sentences
* \return Message code for found packet
* \return 0xFF NO packet found
*/
uint8_t nmeaProcess(cBuffer* rxBuffer)
{
uint8_t foundpacket = NMEA_NODATA;
uint8_t startFlag = FALSE;
//u08 data;
uint16_t i,j;
// process the receive buffer
// go through buffer looking for packets
while(rxBuffer->datalength)
{
// look for a start of NMEA packet
if(bufferGetAtIndex(rxBuffer,0) == '$')
{
// found start
startFlag = TRUE;
// when start is found, we leave it intact in the receive buffer
// in case the full NMEA string is not completely received. The
// start will be detected in the next nmeaProcess iteration.
// done looking for start
break;
}
else
bufferGetFromFront(rxBuffer);
}
// if we detected a start, look for end of packet
if(startFlag)
{
for(i=1; i<(rxBuffer->datalength)-1; i++)
{
// check for end of NMEA packet <CR><LF>
if((bufferGetAtIndex(rxBuffer,i) == '\r') && (bufferGetAtIndex(rxBuffer,i+1) == '\n'))
{
// have a packet end
// dump initial '$'
bufferGetFromFront(rxBuffer);
// copy packet to NmeaPacket
for(j=0; j<(i-1); j++)
{
// although NMEA strings should be 80 characters or less,
// receive buffer errors can generate erroneous packets.
// Protect against packet buffer overflow
if(j<(NMEA_BUFFERSIZE-1))
NmeaPacket[j] = bufferGetFromFront(rxBuffer);
else
bufferGetFromFront(rxBuffer);
}
// null terminate it
NmeaPacket[j] = 0;
// dump <CR><LF> from rxBuffer
bufferGetFromFront(rxBuffer);
bufferGetFromFront(rxBuffer);
//DEBUG
//iprintf("$%s\r\n",NmeaPacket);
//
#ifdef NMEA_DEBUG_PKT
printf("$%s\r\n",NmeaPacket);
#endif
// found a packet
// done with this processing session
foundpacket = NMEA_UNKNOWN;
break;
}
}
}
if(foundpacket)
{
// check message type and process appropriately
if(!strncmp((char *)NmeaPacket, "GPGGA", 5))
{
// process packet of this type
nmeaProcessGPGGA(NmeaPacket);
// report packet type
foundpacket = NMEA_GPGGA;
}
else if(!strncmp((char *)NmeaPacket, "GPVTG", 5))
{
// process packet of this type
nmeaProcessGPVTG(NmeaPacket);
// report packet type
foundpacket = NMEA_GPVTG;
}
}
else if(rxBuffer->datalength >= rxBuffer->size)
{
// if we found no packet, and the buffer is full
// we're logjammed, flush entire buffer
bufferFlush(rxBuffer);
}
return foundpacket;
}
//#define CHAR_GPS
/**
* Prosesses NMEA GPGGA sentences
* \param[in] Buffer for parsed nmea GPGGA sentence
*/
void nmeaProcessGPGGA(uint8_t* packet)
{
uint8_t i,j=0;
char* endptr;
double degrees, minutesfrac;
#ifdef NMEA_DEBUG_GGA
printf("NMEA: %s\r\n",packet);
#endif
// start parsing just after "GPGGA,"
i = 6;
// attempt to reject empty packets right away
if(packet[i]==',' && packet[i+1]==',')
return;
// get UTC time [hhmmss.sss]
GpsInfo.PosLLA.TimeOfFix.f = strtod((char *)&packet[i], &endptr);
while(packet[i++] != ','); // next field: latitude
// get latitude [ddmm.mmmmm]
GpsInfo.PosLLA.lat.f = strtod((char *)&packet[i], &endptr);
// convert to pure degrees [dd.dddd] format
minutesfrac = modf(GpsInfo.PosLLA.lat.f/100, &degrees);
GpsInfo.PosLLA.lat.f = degrees + (minutesfrac*100)/60;
// convert to radians
GpsInfo.PosLLA.lat.f *= (M_PI/180);
#ifdef CHAR_GPS
while(packet[i++] != ',')
GpsInfo.PosLLA.lat.c[j++]=packet[i-1]; // next field: N/S indicator
GpsInfo.PosLLA.lat.c[j]=0;
#else
while(packet[i++] != ','); // next field: N/S indicator
#endif
// correct latitute for N/S
if(packet[i] == 'S') GpsInfo.PosLLA.lat.f = -GpsInfo.PosLLA.lat.f;
while(packet[i++] != ','); // next field: longitude
// get longitude [ddmm.mmmmm]
GpsInfo.PosLLA.lon.f = strtod((char *)&packet[i], &endptr);
// convert to pure degrees [dd.dddd] format
minutesfrac = modf(GpsInfo.PosLLA.lon.f/100, &degrees);
GpsInfo.PosLLA.lon.f = degrees + (minutesfrac*100)/60;
// convert to radians
GpsInfo.PosLLA.lon.f *= (M_PI/180);
#ifdef CHAR_GPS
j=0;
while(packet[i++] != ',')
GpsInfo.PosLLA.lon.c[j++]=packet[i-1]; // next field: E/W indicator
GpsInfo.PosLLA.lon.c[j]=0;
#else
while(packet[i++] != ','); // next field: E/W indicator
#endif
// correct latitute for E/W
if(packet[i] == 'W') GpsInfo.PosLLA.lon.f = -GpsInfo.PosLLA.lon.f;
while(packet[i++] != ','); // next field: position fix status
// position fix status
// 0 = Invalid, 1 = Valid SPS, 2 = Valid DGPS, 3 = Valid PPS
// check for good position fix
if( (packet[i] != '0') && (packet[i] != ',') )
GpsInfo.PosLLA.updates++;
while(packet[i++] != ','); // next field: satellites used
// get number of satellites used in GPS solution
GpsInfo.numSVs = atoi((char *)&packet[i]);
while(packet[i++] != ','); // next field: HDOP (horizontal dilution of precision)
while(packet[i++] != ','); // next field: altitude
// get altitude (in meters)
GpsInfo.PosLLA.alt.f = strtod((char *)&packet[i], &endptr);
while(packet[i++] != ','); // next field: altitude units, always 'M'
while(packet[i++] != ','); // next field: geoid seperation
while(packet[i++] != ','); // next field: seperation units
while(packet[i++] != ','); // next field: DGPS age
while(packet[i++] != ','); // next field: DGPS station ID
while(packet[i++] != '*'); // next field: checksum
}
/**
* Prosesses NMEA GPVTG sentences
* \param[in] Buffer for parsed nmea GPVTG sentence
*/
void nmeaProcessGPVTG(uint8_t* packet)
{
uint8_t i;
char* endptr;
#ifdef NMEA_DEBUG_VTG
printf("NMEA: %s\r\n",packet);
#endif
// start parsing just after "GPVTG,"
i = 6;
// attempt to reject empty packets right away
if(packet[i]==',' && packet[i+1]==',')
return;
// get course (true north ref) in degrees [ddd.dd]
GpsInfo.VelHS.heading.f = strtod((char *)&packet[i], &endptr);
while(packet[i++] != ','); // next field: 'T'
while(packet[i++] != ','); // next field: course (magnetic north)
// get course (magnetic north ref) in degrees [ddd.dd]
//GpsInfo.VelHS.heading.f = strtod(&packet[i], &endptr);
while(packet[i++] != ','); // next field: 'M'
while(packet[i++] != ','); // next field: speed (knots)
// get speed in knots
//GpsInfo.VelHS.speed.f = strtod(&packet[i], &endptr);
while(packet[i++] != ','); // next field: 'N'
while(packet[i++] != ','); // next field: speed (km/h)
// get speed in km/h
GpsInfo.VelHS.speed.f = strtod((char *)&packet[i], &endptr);
while(packet[i++] != ','); // next field: 'K'
while(packet[i++] != '*'); // next field: checksum
GpsInfo.VelHS.updates++;
}