/* * Handle the Garmin binary packet format supported by the USB Garmins * tested with the Garmin 18 and other models. This driver is NOT for * serial port connected Garmins, they provide adequate NMEA support. * * This code is partly from the Garmin IOSDK and partly from the * sample code in the Linux garmin_gps driver. * * Presently this code needs the Linux garmin_gps driver and will * not function without it. It also depends on the Intel byte order * (little-endian) so will not work on PPC or other big-endian machines * * Protocol info from: * GPS18_TechnicalSpecification.pdf * iop_spec.pdf * http://www.garmin.com/support/commProtocol.html * * bad code by: Gary E. Miller * all rights abandoned, a thank would be nice if you use this code. * * -D 3 = packet trace * -D 4 = packet details * -D 5 = more packet details * * limitations: * * do not have from garmin: * pdop * hdop * vdop * magnetic variation * * known bugs: * hangs in the fread loop instead of keeping state and returning. * may or may not work on a little-endian machine */ #define __USE_POSIX199309 1 #include // for nanosleep() #include #include #include #include #include #include #if defined (HAVE_SYS_SELECT_H) #include #endif #if defined(HAVE_STRINGS_H) #include #endif #include "config.h" #include "gpsd.h" #include "gps.h" #ifdef GARMIN_ENABLE #define GARMIN_LAYERID_TRANSPORT (unsigned char) 0 #define GARMIN_LAYERID_APPL (unsigned int) 20 // Linux Garmin USB driver layer-id to use for some control mechanisms #define GARMIN_LAYERID_PRIVATE 0x01106E4B // packet ids used in private layer #define PRIV_PKTID_SET_DEBUG 1 #define PRIV_PKTID_SET_MODE 2 #define PRIV_PKTID_INFO_REQ 3 #define PRIV_PKTID_INFO_RESP 4 #define PRIV_PKTID_RESET_REQ 5 #define PRIV_PKTID_SET_DEF_MODE 6 #define MODE_NATIVE 0 #define MODE_GARMIN_SERIAL 1 #define GARMIN_PKTID_TRANSPORT_START_SESSION_REQ 5 #define GARMIN_PKTID_TRANSPORT_START_SESSION_RESP 6 #define GARMIN_PKTID_PROTOCOL_ARRAY 253 #define GARMIN_PKTID_PRODUCT_RQST 254 #define GARMIN_PKTID_PRODUCT_DATA 255 #define GARMIN_PKTID_PVT_DATA 51 #define GARMIN_PKTID_SAT_DATA 114 #define GARMIN_PKTID_L001_XFER_CMPLT 12 #define GARMIN_PKTID_L001_COMMAND_DATA 10 #define GARMIN_PKTID_L001_DATE_TIME_DATA 14 #define GARMIN_PKTID_L001_RECORDS 27 #define GARMIN_PKTID_L001_WPT_DATA 35 #define MAX_BUFFER_SIZE 4096 #define GARMIN_CHANNELS 12 // something magic about 64, garmin driver will not return more than // 64 at a time. If you read less than 64 bytes the next read will // just get the last of the 64 byte buffer. #define ASYNC_DATA_SIZE 64 #pragma pack(1) // This is the data format of the satellite data from the garmin USB typedef struct { unsigned char svid; unsigned short snr; // 0 - 0xffff unsigned char elev; unsigned short azmth; unsigned char status; // bit 0, has ephemeris, 1, has diff correction // bit 2 used in solution // bit 3?? } cpo_sat_data; /* Garmin D800_Pvt_Date_Type */ // This is the data format of the position data from the garmin USB typedef struct { float alt; /* altitude above WGS 84 (meters) */ float epe; /* estimated position error, 2 sigma (meters) */ float eph; /* epe, but horizontal only (meters) */ float epv; /* epe but vertical only (meters ) */ short fix; /* 0 - failed integrity check * 1 - invalid or unavailable fix * 2 - 2D * 3 - 3D * 4 - 2D Diff * 5 - 3D Diff */ double gps_tow; /* gps time os week (seconds) */ double lat; /* ->latitude (radians) */ double lon; /* ->longitude (radians) */ float lon_vel; /* velocity east (meters/second) */ float lat_vel; /* velocity north (meters/second) */ float alt_vel; /* velocity up (meters/sec) */ float msl_hght; /* height of WGS 84 above MSL (meters) */ short leap_sec; /* diff between GPS and UTC (seconds) */ long grmn_days; } cpo_pvt_data; #ifdef __UNUSED__ typedef struct { unsigned long cycles; double pr; unsigned short phase; char slp_dtct; unsigned char snr_dbhz; char svid; char valid; } cpo_rcv_sv_data; typedef struct { double rcvr_tow; short rcvr_wn; cpo_rcv_sv_data sv[GARMIN_CHANNELS]; } cpo_rcv_data; #endif /* __UNUSED__ */ // This is the packet format to/from the Garmin USB typedef struct { unsigned char mPacketType; unsigned char mReserved1; unsigned short mReserved2; unsigned short mPacketId; unsigned short mReserved3; unsigned long mDataSize; union { char chars[MAX_BUFFER_SIZE]; unsigned char uchars[MAX_BUFFER_SIZE]; cpo_pvt_data pvt; cpo_sat_data sats; } mData; } Packet_t; // useful funcs to read/write ints, only tested on Intel byte order // floats and doubles are Intel order only... static inline void set_int(unsigned char *buf, unsigned int value) { buf[0] = (unsigned char)(0x0FF & value); buf[1] = (unsigned char)(0x0FF & (value >> 8)); buf[2] = (unsigned char)(0x0FF & (value >> 16)); buf[3] = (unsigned char)(0x0FF & (value >> 24)); } static inline unsigned short get_short(const unsigned char *buf) { return (unsigned short)(0xFF & buf[0]) | (unsigned short)((0xFF & buf[1]) << 8); } static inline unsigned int get_int(const unsigned char *buf) { return (unsigned int)(0xFF & buf[0]) | ((0xFF & buf[1]) << 8) | ((0xFF & buf[2]) << 16) | ((0xFF & buf[3]) << 24); } // convert radians to degrees static inline double radtodeg( double rad) { return (double)(rad * RAD_2_DEG ); } static gps_mask_t PrintPacket(struct gps_device_t *session, Packet_t *pkt ); static void SendPacket (struct gps_device_t *session, Packet_t *aPacket ); static int GetPacket (struct gps_device_t *session ); // For debugging, decodes and prints some known packets. static gps_mask_t PrintPacket(struct gps_device_t *session, Packet_t *pkt) { gps_mask_t mask = 0; int maj_ver; int min_ver; unsigned int mode; unsigned short prod_id; unsigned short ver; unsigned int veri; time_t time_l = 0; unsigned int serial; cpo_sat_data *sats = NULL; cpo_pvt_data *pvt = NULL; int i = 0, j = 0; double track; gpsd_report(3, "PrintPacket()\n"); if ( 4096 < pkt->mDataSize) { gpsd_report(3, "bogus packet, size too large=%d\n", pkt->mDataSize); return 0; } (void)snprintf(session->gpsdata.tag, sizeof(session->gpsdata.tag), "%u" , (unsigned int)pkt->mPacketType); switch ( pkt->mPacketType ) { case GARMIN_LAYERID_TRANSPORT: switch( pkt->mPacketId ) { case GARMIN_PKTID_TRANSPORT_START_SESSION_REQ: gpsd_report(3, "Transport, Start Session req\n"); break; case GARMIN_PKTID_TRANSPORT_START_SESSION_RESP: gpsd_report(3, "Transport, Start Session resp\n"); break; default: gpsd_report(3, "Transport, Packet: Type %d %d %d, ID: %d, Sz: %d\n" , pkt->mPacketType , pkt->mReserved1 , pkt->mReserved2 , pkt->mPacketId , pkt->mDataSize); break; } break; case GARMIN_LAYERID_APPL: switch( pkt->mPacketId ) { case GARMIN_PKTID_PRODUCT_RQST: gpsd_report(3, "Appl, Product Data req\n"); break; case GARMIN_PKTID_PRODUCT_DATA: prod_id = get_short(&pkt->mData.uchars[0]); ver = get_short(&pkt->mData.uchars[2]); maj_ver = ver / 100; min_ver = ver - (maj_ver * 100); gpsd_report(3, "Appl, Product Data, sz: %d\n" , pkt->mDataSize); gpsd_report(1, "Garmin Product ID: %d, SoftVer: %d.%02d\n" , prod_id, maj_ver, min_ver); gpsd_report(1, "Garmin Product Desc: %s\n" , &pkt->mData.chars[4]); break; case GARMIN_PKTID_PVT_DATA: gpsd_report(3, "Appl, PVT Data Sz: %d\n", pkt->mDataSize); pvt = &pkt->mData.pvt; // 631065600, unix seconds for 31 Dec 1989 Zulu time_l = (time_t)(631065600 + (pvt->grmn_days * 86400)); time_l -= pvt->leap_sec; session->context->leap_seconds = pvt->leap_sec; session->context->valid = LEAP_SECOND_VALID; // gps_tow is always like x.999 or x.998 so just round it time_l += (time_t) round(pvt->gps_tow); session->gpsdata.newdata.time = session->gpsdata.sentence_time = (double)time_l; gpsd_report(5, "time_l: %ld\n", (long int)time_l); session->gpsdata.newdata.latitude = radtodeg(pvt->lat); session->gpsdata.newdata.longitude = radtodeg(pvt->lon); // altitude over WGS84 converted to MSL session->gpsdata.newdata.altitude = pvt->alt + pvt->msl_hght; // geoid separation from WGS 84 // gpsd sign is opposite of garmin sign session->gpsdata.separation = -pvt->msl_hght; // Estimated position error in meters. session->gpsdata.epe = pvt->epe * (GPSD_CONFIDENCE/2); session->gpsdata.newdata.eph = pvt->eph * (GPSD_CONFIDENCE/2); session->gpsdata.newdata.epv = pvt->epv * (GPSD_CONFIDENCE/2); // convert lat/lon to knots session->gpsdata.newdata.speed = hypot(pvt->lon_vel, pvt->lat_vel) * 1.9438445; // keep climb in meters/sec session->gpsdata.newdata.climb = pvt->alt_vel; track = atan2(pvt->lon_vel, pvt->lat_vel); if (track < 0) { track += 2 * PI; } session->gpsdata.newdata.track = radtodeg(track); switch ( pvt->fix) { case 0: case 1: default: // no fix session->gpsdata.status = STATUS_NO_FIX; session->gpsdata.newdata.mode = MODE_NO_FIX; break; case 2: // 2D fix session->gpsdata.status = STATUS_FIX; session->gpsdata.newdata.mode = MODE_2D; break; case 3: // 3D fix session->gpsdata.status = STATUS_FIX; session->gpsdata.newdata.mode = MODE_3D; break; case 4: // 2D Differential fix session->gpsdata.status = STATUS_DGPS_FIX; session->gpsdata.newdata.mode = MODE_2D; break; case 5: // 3D differential fix session->gpsdata.status = STATUS_DGPS_FIX; session->gpsdata.newdata.mode = MODE_3D; break; } #ifdef NTPSHM_ENABLE if (session->gpsdata.newdata.mode > MODE_NO_FIX) (void) ntpshm_put(session, session->gpsdata.newdata.time); #endif /* NTPSHM_ENABLE */ gpsd_report(4, "Appl, mode %d, status %d\n" , session->gpsdata.newdata.mode , session->gpsdata.status); gpsd_report(3, "UTC Time: %lf\n", session->gpsdata.newdata.time); gpsd_report(3, "Geoid Separation (MSL - WGS84): from garmin %lf, calculated %lf\n" , -pvt->msl_hght , wgs84_separation(session->gpsdata.newdata.latitude , session->gpsdata.newdata.longitude)); gpsd_report(3, "Alt: %.3f, Epe: %.3f, Eph: %.3f, Epv: %.3f, Fix: %d, Gps_tow: %f, Lat: %.3f, Lon: %.3f, LonVel: %.3f, LatVel: %.3f, AltVel: %.3f, MslHgt: %.3f, Leap: %d, GarminDays: %ld\n" , pvt->alt , pvt->epe , pvt->eph , pvt->epv , pvt->fix , pvt->gps_tow , session->gpsdata.newdata.latitude , session->gpsdata.newdata.longitude , pvt->lon_vel , pvt->lat_vel , pvt->alt_vel , pvt->msl_hght , pvt->leap_sec , pvt->grmn_days); mask |= TIME_SET | LATLON_SET | ALTITUDE_SET | STATUS_SET | MODE_SET | SPEED_SET | TRACK_SET | CLIMB_SET | HERR_SET | VERR_SET | PERR_SET | CYCLE_START_SET; break; case GARMIN_PKTID_SAT_DATA: gpsd_report(3, "Appl, SAT Data Sz: %d\n", pkt->mDataSize); sats = &pkt->mData.sats; session->gpsdata.satellites_used = 0; memset(session->gpsdata.used,0,sizeof(session->gpsdata.used)); gpsd_zero_satellites(&session->gpsdata); for ( i = 0, j = 0 ; i < GARMIN_CHANNELS ; i++, sats++ ) { gpsd_report(4, " Sat %d, snr: %d, elev: %d, Azmth: %d, Stat: %x\n" , sats->svid , sats->snr , sats->elev , sats->azmth , sats->status); // busted?? // FIXME!! need to elimate sats over 32 if ( (32 < (int)sats->svid) || (0 == (int)sats->svid) ) { // Garmin uses 255 for empty // gpsd uses 0 for empty continue; } session->gpsdata.PRN[j] = (int)sats->svid; session->gpsdata.azimuth[j] = (int)sats->azmth; session->gpsdata.elevation[j] = (int)sats->elev; // snr units?? // garmin 0 -> 0xffff, NMEA 99 -> 0 session->gpsdata.ss[j] = 99 - (int)((100 *( unsigned long)sats->snr) >> 16); if ( (unsigned char)0 != (sats->status & 4 ) ) { // used in solution? session->gpsdata.used[session->gpsdata.satellites_used++] = (int)sats->svid; } session->gpsdata.satellites++; j++; } mask |= SATELLITE_SET | USED_SET; break; case GARMIN_PKTID_PROTOCOL_ARRAY: // this packet is never requested, it just comes, in some case // after a GARMIN_PKTID_PRODUCT_RQST gpsd_report(3, "Appl, Product Capability: %d\n", pkt->mDataSize); for ( i = 0; i < (int)pkt->mDataSize ; i += 3 ) { gpsd_report(3, " %c%03d\n", pkt->mData.chars[i] , get_short( &(pkt->mData.uchars[i+1])) ); } break; default: gpsd_report(3, "Appl, ID: %d, Sz: %d\n" , pkt->mPacketId , pkt->mDataSize); break; } break; case 75: // private switch( pkt->mPacketId ) { case PRIV_PKTID_INFO_REQ: gpsd_report(3, "Private, ID: Info Req\n"); break; case PRIV_PKTID_INFO_RESP: veri = get_int(pkt->mData.uchars); maj_ver = (int)(veri >> 16); min_ver = (int)(veri & 0xffff); mode = get_int(&pkt->mData.uchars[4]); serial = get_int(&pkt->mData.uchars[8]); gpsd_report(3, "Private, ID: Info Resp\n"); gpsd_report(1, "Garmin USB Driver found, Version %d.%d, Mode: %d, GPS Serial# %u\n" , maj_ver, min_ver, mode, serial); break; default: gpsd_report(3, "Private, Packet: ID: %d, Sz: %d\n" , pkt->mPacketId , pkt->mDataSize); break; } break; default: gpsd_report(3, "Packet: Type %d %d %d, ID: %d, Sz: %d\n" , pkt->mPacketType , pkt->mReserved1 , pkt->mReserved2 , pkt->mPacketId , pkt->mDataSize); break; } return mask; } //----------------------------------------------------------------------------- // send a packet in GarminUSB format static void SendPacket (struct gps_device_t *session, Packet_t *aPacket ) { size_t theBytesToWrite = (size_t)(12 + aPacket->mDataSize); ssize_t theBytesReturned = 0; gpsd_report(4, "SendPacket(), writing %d bytes\n", theBytesToWrite); (void)PrintPacket ( session, aPacket); theBytesReturned = write( session->gpsdata.gps_fd , aPacket, theBytesToWrite); gpsd_report(4, "SendPacket(), wrote %d bytes\n", theBytesReturned); // Garmin says: // If the packet size was an exact multiple of the USB packet // size, we must make a final write call with no data // as a practical matter no known pckets are 64 bytes long so // this is untested // So here goes just in case if( 0 == (theBytesToWrite % ASYNC_DATA_SIZE) ) { char *n = ""; theBytesReturned = write( session->gpsdata.gps_fd , &n, 0); } } //----------------------------------------------------------------------------- // Gets a single packet. // this is odd, the garmin usb driver will only return 64 bytes, or less // at a time, no matter what you ask for. // // is you ask for less than 64 bytes then the next packet will include // just the remaining bytes of the last 64 byte packet. // // Reading a packet of length Zero, or less than 64, signals the end of // the entire packet. // // The Garmin sample WinXX code also assumes the same behavior, so // maybe it is something in the USB protocol. // // Return: 0 = got a good packet // -1 = error // 1 = got partial packet static int GetPacket (struct gps_device_t *session ) { struct timespec delay, rem; int cnt = 0; // int x = 0; // for debug dump memset( session->garmin.Buffer, 0, sizeof(Packet_t)); memset( &delay, 0, sizeof(delay)); session->garmin.BufferLen = 0; gpsd_report(4, "GetPacket()\n"); for( cnt = 0 ; cnt < 10 ; cnt++ ) { // Read async data until the driver returns less than the // max async data size, which signifies the end of a packet // not optimal, but given the speed and packet nature of // the USB not too bad for a start ssize_t theBytesReturned = 0; unsigned char *buf = session->garmin.Buffer; theBytesReturned = read(session->gpsdata.gps_fd , buf + session->garmin.BufferLen , ASYNC_DATA_SIZE); if ( 0 > theBytesReturned ) { // read error... // or EAGAIN, but O_NONBLOCK is never set gpsd_report(0, "GetPacket() read error=%d, errno=%d\n" , theBytesReturned, errno); continue; } gpsd_report(5, "got %d bytes\n", theBytesReturned); session->garmin.BufferLen += theBytesReturned; if ( 64 > theBytesReturned ) { // zero length, or short, read is a flag for got the whole packet break; } if ( 256 <= session->garmin.BufferLen ) { // really bad read error... session->garmin.BufferLen = 0; gpsd_report(3, "GetPacket() packet too long!\n"); break; } /*@ ignore @*/ delay.tv_sec = 0; delay.tv_nsec = 3330000L; while (nanosleep(&delay, &rem) < 0) continue; /*@ end @*/ } // dump the individual bytes, debug only // for ( x = 0; x < session->garmin.BufferLen; x++ ) { // gpsd_report(6, "p[%d] = %x\n", x, session->garmin.Buffer[x]); // } if ( 10 <= cnt ) { gpsd_report(3, "GetPacket() packet too long or too slow!\n"); return -1; } gpsd_report(5, "GotPacket() sz=%d \n", session->garmin.BufferLen); return 0; } /* * garmin_probe() * * return 1 if garmin_gps device found * return 0 if not */ static bool garmin_probe(struct gps_device_t *session) { Packet_t *thePacket = NULL; unsigned char *buffer = NULL; fd_set fds, rfds; struct timeval tv; int sel_ret = 0; int ok = 0; int i; /* check for USB serial drivers -- very Linux-specific */ if (access("/sys/module/garmin_gps", R_OK) != 0) { gpsd_report(5, "garmin_gps not active.\n"); return false; } /* Save original terminal parameters */ if (tcgetattr(session->gpsdata.gps_fd,&session->ttyset_old) != 0) { gpsd_report(0, "garmin_probe: error getting port attributes: %s\n", strerror(errno)); return false; } memcpy(&session->ttyset,&session->ttyset_old,sizeof(session->ttyset)); (void)cfmakeraw(&session->ttyset); if (tcsetattr( session->gpsdata.gps_fd, TCIOFLUSH, &session->ttyset) < 0) { gpsd_report(0, "garmin_probe: error changing port attributes: %s\n", strerror(errno)); return false; } /* reset the buffer and buffer length */ memset( session->garmin.Buffer, 0, sizeof(session->garmin.Buffer) ); session->garmin.BufferLen = 0; if (sizeof(session->garmin.Buffer) < sizeof(Packet_t)) { gpsd_report(0, "garmin_probe: Compile error, garmin.Buffer too small.\n", strerror(errno)); return false; } buffer = session->garmin.Buffer; thePacket = (Packet_t*)buffer; // set Mode 0 set_int(buffer, GARMIN_LAYERID_PRIVATE); set_int(buffer+4, PRIV_PKTID_SET_MODE); set_int(buffer+8, 4); // data length 4 set_int(buffer+12, 0); // mode 0 gpsd_report(3, "Set garmin_gps driver mode = 0\n"); SendPacket( session, thePacket); // expect no return packet !? // get Version info gpsd_report(3, "Get garmin_gps driver version\n"); set_int(buffer, GARMIN_LAYERID_PRIVATE); set_int(buffer+4, PRIV_PKTID_INFO_REQ); set_int(buffer+8, 0); // data length 0 SendPacket(session, thePacket); // get and print the driver Version info FD_ZERO(&fds); FD_SET(session->gpsdata.gps_fd, &fds); // Wait, nicely, until the device returns the Version info // Toss any other packets, up to 4 ok = 0; memset( &tv,0,sizeof(tv)); for( i = 0 ; i < 4 ; i++ ) { memcpy((char *)&rfds, (char *)&fds, sizeof(rfds)); tv.tv_sec = 1; tv.tv_usec = 0; sel_ret = select(FD_SETSIZE, &rfds, NULL, NULL, &tv); if (sel_ret < 0) { if (errno == EINTR) continue; gpsd_report(0, "select: %s\n", strerror(errno)); return false; } else if ( sel_ret == 0 ) { gpsd_report(3, "garmin_probe() timeout\n"); // restore old terminal settings (void)tcsetattr(session->gpsdata.gps_fd, TCIOFLUSH , &session->ttyset_old); return false; } if ( 0 == GetPacket( session ) ) { (void)PrintPacket(session, thePacket); if( ( (unsigned char)75 == thePacket->mPacketType) && (PRIV_PKTID_INFO_RESP == thePacket->mPacketId) ) { ok = 1; break; } } } if ( 0 == ok ) { gpsd_report(2, "Garmin driver never answered to INFO_REQ.\n"); // restore old terminal settings (void)tcsetattr(session->gpsdata.gps_fd, TCIOFLUSH , &session->ttyset_old); return false; } // Tell the device that we are starting a session. gpsd_report(3, "Send Garmin Start Session\n"); set_int(buffer, GARMIN_LAYERID_TRANSPORT); set_int(buffer+4, GARMIN_PKTID_TRANSPORT_START_SESSION_REQ); set_int(buffer+8, 0); // data length 0 SendPacket(session, thePacket); // Wait until the device is ready to the start the session // Toss any other packets, up to 4 ok = 0; for( i = 0 ; i < 4 ; i++ ) { memcpy((char *)&rfds, (char *)&fds, sizeof(rfds)); tv.tv_sec = 1; tv.tv_usec = 0; sel_ret = select(FD_SETSIZE, &rfds, NULL, NULL, &tv); if (sel_ret < 0) { if (errno == EINTR) continue; gpsd_report(0, "select: %s\n", strerror(errno)); return(0); } else if ( sel_ret == 0 ) { gpsd_report(3, "garmin_probe() timeout\n"); // restore old terminal settings (void)tcsetattr(session->gpsdata.gps_fd, TCIOFLUSH , &session->ttyset_old); return(0); } if ( 0 == GetPacket( session ) ) { (void)PrintPacket(session, thePacket); if( (GARMIN_LAYERID_TRANSPORT == thePacket->mPacketType) && (GARMIN_PKTID_TRANSPORT_START_SESSION_RESP == thePacket->mPacketId) ) { ok = 1; break; } } } if ( 0 == ok ) { gpsd_report(2, "Garmin driver never answered to START_SESSION.\n"); // restore old terminal settings (void)tcsetattr(session->gpsdata.gps_fd, TCIOFLUSH , &session->ttyset_old); return false; } // Tell the device to send product data gpsd_report(3, "Get Garmin Product Data\n"); set_int(buffer, GARMIN_LAYERID_APPL); set_int(buffer+4, GARMIN_PKTID_PRODUCT_RQST); set_int(buffer+8, 0); // data length 0 SendPacket(session, thePacket); // Get the product data packet // Toss any other packets, up to 4 ok = 0; for( i = 0 ; i < 4 ; i++ ) { memcpy((char *)&rfds, (char *)&fds, sizeof(rfds)); tv.tv_sec = 1; tv.tv_usec = 0; sel_ret = select(FD_SETSIZE, &rfds, NULL, NULL, &tv); if (sel_ret < 0) { if (errno == EINTR) continue; gpsd_report(0, "select: %s\n", strerror(errno)); return false; } else if ( sel_ret == 0 ) { gpsd_report(3, "garmin_probe() timeout\n"); // restore old terminal settings (void)tcsetattr(session->gpsdata.gps_fd, TCIOFLUSH , &session->ttyset_old); return false; } if ( 0 == GetPacket( session ) ) { (void)PrintPacket(session, thePacket); if( (GARMIN_LAYERID_APPL == (unsigned int)thePacket->mPacketType) && ( GARMIN_PKTID_PRODUCT_DATA == thePacket->mPacketId) ) { ok = 1; break; } } } if ( 0 == ok ) { gpsd_report(2, "Garmin driver never answered to PRODUCT_DATA.\n"); // restore old terminal settings (void)tcsetattr(session->gpsdata.gps_fd, TCIOFLUSH , &session->ttyset_old); return false; } return true; } /* * garmin_init() * * init a garmin_gps device, * session->gpsdata.gps_fd is assumed to already be open. * * the garmin_gps driver ignores all termios, baud rates, etc. so * any twiddling of that previously done is harmless. * */ static void garmin_init(struct gps_device_t *session) { unsigned char *buffer = session->garmin.Buffer; Packet_t *thePacket = (Packet_t*)buffer; bool ret; gpsd_report(5, "to garmin_probe()\n"); ret = garmin_probe( session ); gpsd_report(3, "from garmin_probe() = %d\n", (int)ret); // turn on PVT data 49 gpsd_report(3, "Set Garmin to send reports every 1 second\n"); set_int(buffer, GARMIN_LAYERID_APPL); set_int(buffer+4, GARMIN_PKTID_L001_COMMAND_DATA); set_int(buffer+8, 2); // data length 2 set_int(buffer+12, 49); // 49, CMND_START_PVT_DATA SendPacket(session, thePacket); // turn on RMD data 110 //set_int(buffer, GARMIN_LAYERID_APPL); //set_int(buffer+4, GARMIN_PKTID_L001_COMMAND_DATA); //set_int(buffer+8, 2); // data length 2 //set_int(buffer+12, 110); // 110, CMND_START_ Rcv Measurement Data //SendPacket(session, thePacket); } static ssize_t garmin_get_packet(struct gps_device_t *session) { return (ssize_t)( 0 == GetPacket( session ) ? 1 : 0); } static gps_mask_t garmin_parse_input(struct gps_device_t *session) { return PrintPacket(session, (Packet_t*)session->garmin.Buffer); } /* this is everything we export */ struct gps_type_t garmin_binary = { .typename = "Garmin binary", /* full name of type */ .trigger = NULL, /* no trigger, it has a probe */ .probe = garmin_probe, /* how to detect at startup time */ .initializer = garmin_init, /* initialize the device */ .get_packet = garmin_get_packet,/* how to grab a packet */ .parse_packet = garmin_parse_input, /* parse message packets */ .rtcm_writer = NULL, /* don't send DGPS corrections */ .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 */ .wrapup = NULL, /* no close hook */ .cycle = 1, /* updates every second */ }; #endif /* GARMIN_ENABLE */