// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- /* 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, see . */ // // u-blox UBX GPS driver for ArduPilot and ArduPilotMega. // Code by Michael Smith, Jordi Munoz and Jose Julio, DIYDrones.com // // UBlox Lea6H protocol: http://www.u-blox.com/images/downloads/Product_Docs/u-blox6_ReceiverDescriptionProtocolSpec_%28GPS.G6-SW-10018%29.pdf #ifndef __AP_GPS_UBLOX_H__ #define __AP_GPS_UBLOX_H__ #include #include "AP_GPS.h" /* * try to put a UBlox into binary mode. This is in two parts. * * First we send a ubx binary message that enables the NAV_SOL message * at rate 1. Then we send a NMEA message to set the baud rate to our * desired rate. The reason for doing the NMEA message second is if we * send it first the second message will be ignored for a baud rate * change. * The reason we need the NAV_SOL rate message at all is some uBlox * modules are configured with all ubx binary messages off, which * would mean we would never detect it. */ #define UBLOX_SET_BINARY "\265\142\006\001\003\000\001\006\001\022\117$PUBX,41,1,0003,0001,38400,0*26\r\n" #define UBLOX_SET_BINARY_RAW_BAUD "\265\142\006\001\003\000\001\006\001\022\117$PUBX,41,1,0003,0001,115200,0*1E\r\n" #if HAL_CPU_CLASS >= HAL_CPU_CLASS_75 #define UBLOX_RXM_RAW_LOGGING 1 #define UBLOX_MAX_RXM_RAW_SATS 22 #define UBLOX_MAX_RXM_RAWX_SATS 32 #define UBLOX_GNSS_SETTINGS 1 #define UBLOX_HW_LOGGING 1 #else #define UBLOX_RXM_RAW_LOGGING 0 #define UBLOX_GNSS_SETTINGS 0 #define UBLOX_HW_LOGGING 0 #endif #define UBLOX_MAX_GNSS_CONFIG_BLOCKS 7 class AP_GPS_UBLOX : public AP_GPS_Backend { public: AP_GPS_UBLOX(AP_GPS &_gps, AP_GPS::GPS_State &_state, AP_HAL::UARTDriver *_port); // Methods bool read(); AP_GPS::GPS_Status highest_supported_status(void) { return AP_GPS::GPS_OK_FIX_3D_DGPS; } static bool _detect(struct UBLOX_detect_state &state, uint8_t data); private: // u-blox UBX protocol essentials struct PACKED ubx_header { uint8_t preamble1; uint8_t preamble2; uint8_t msg_class; uint8_t msg_id; uint16_t length; }; #if UBLOX_GNSS_SETTINGS struct PACKED ubx_cfg_gnss { uint8_t msgVer; uint8_t numTrkChHw; uint8_t numTrkChUse; uint8_t numConfigBlocks; PACKED struct configBlock { uint8_t gnssId; uint8_t resTrkCh; uint8_t maxTrkCh; uint8_t reserved1; uint32_t flags; } configBlock[UBLOX_MAX_GNSS_CONFIG_BLOCKS]; }; #endif struct PACKED ubx_cfg_nav_rate { uint16_t measure_rate_ms; uint16_t nav_rate; uint16_t timeref; }; struct PACKED ubx_cfg_msg_rate { uint8_t msg_class; uint8_t msg_id; uint8_t rate; }; struct PACKED ubx_cfg_nav_settings { uint16_t mask; uint8_t dynModel; uint8_t fixMode; int32_t fixedAlt; uint32_t fixedAltVar; int8_t minElev; uint8_t drLimit; uint16_t pDop; uint16_t tDop; uint16_t pAcc; uint16_t tAcc; uint8_t staticHoldThresh; uint8_t res1; uint32_t res2; uint32_t res3; uint32_t res4; }; struct PACKED ubx_cfg_sbas { uint8_t mode; uint8_t usage; uint8_t maxSBAS; uint8_t scanmode2; uint32_t scanmode1; }; struct PACKED ubx_nav_posllh { uint32_t time; // GPS msToW int32_t longitude; int32_t latitude; int32_t altitude_ellipsoid; int32_t altitude_msl; uint32_t horizontal_accuracy; uint32_t vertical_accuracy; }; struct PACKED ubx_nav_status { uint32_t time; // GPS msToW uint8_t fix_type; uint8_t fix_status; uint8_t differential_status; uint8_t res; uint32_t time_to_first_fix; uint32_t uptime; // milliseconds }; struct PACKED ubx_nav_dop { uint32_t time; // GPS msToW uint16_t gDOP; uint16_t pDOP; uint16_t tDOP; uint16_t vDOP; uint16_t hDOP; uint16_t nDOP; uint16_t eDOP; }; struct PACKED ubx_nav_solution { uint32_t time; int32_t time_nsec; uint16_t week; uint8_t fix_type; uint8_t fix_status; int32_t ecef_x; int32_t ecef_y; int32_t ecef_z; uint32_t position_accuracy_3d; int32_t ecef_x_velocity; int32_t ecef_y_velocity; int32_t ecef_z_velocity; uint32_t speed_accuracy; uint16_t position_DOP; uint8_t res; uint8_t satellites; uint32_t res2; }; struct PACKED ubx_nav_velned { uint32_t time; // GPS msToW int32_t ned_north; int32_t ned_east; int32_t ned_down; uint32_t speed_3d; uint32_t speed_2d; int32_t heading_2d; uint32_t speed_accuracy; uint32_t heading_accuracy; }; #if UBLOX_HW_LOGGING // Lea6 uses a 60 byte message struct PACKED ubx_mon_hw_60 { uint32_t pinSel; uint32_t pinBank; uint32_t pinDir; uint32_t pinVal; uint16_t noisePerMS; uint16_t agcCnt; uint8_t aStatus; uint8_t aPower; uint8_t flags; uint8_t reserved1; uint32_t usedMask; uint8_t VP[17]; uint8_t jamInd; uint16_t reserved3; uint32_t pinIrq; uint32_t pullH; uint32_t pullL; }; // Neo7 uses a 68 byte message struct PACKED ubx_mon_hw_68 { uint32_t pinSel; uint32_t pinBank; uint32_t pinDir; uint32_t pinVal; uint16_t noisePerMS; uint16_t agcCnt; uint8_t aStatus; uint8_t aPower; uint8_t flags; uint8_t reserved1; uint32_t usedMask; uint8_t VP[25]; uint8_t jamInd; uint16_t reserved3; uint32_t pinIrq; uint32_t pullH; uint32_t pullL; }; struct PACKED ubx_mon_hw2 { int8_t ofsI; uint8_t magI; int8_t ofsQ; uint8_t magQ; uint8_t cfgSource; uint8_t reserved0[3]; uint32_t lowLevCfg; uint32_t reserved1[2]; uint32_t postStatus; uint32_t reserved2; }; #endif struct PACKED ubx_nav_svinfo_header { uint32_t itow; uint8_t numCh; uint8_t globalFlags; uint16_t reserved; }; #if UBLOX_RXM_RAW_LOGGING struct PACKED ubx_rxm_raw { int32_t iTOW; int16_t week; uint8_t numSV; uint8_t reserved1; struct ubx_rxm_raw_sv { double cpMes; double prMes; float doMes; uint8_t sv; int8_t mesQI; int8_t cno; uint8_t lli; } svinfo[UBLOX_MAX_RXM_RAW_SATS]; }; struct PACKED ubx_rxm_rawx { double rcvTow; uint16_t week; int8_t leapS; uint8_t numMeas; uint8_t recStat; uint8_t reserved1[3]; PACKED struct ubx_rxm_rawx_sv { double prMes; double cpMes; float doMes; uint8_t gnssId; uint8_t svId; uint8_t reserved2; uint8_t freqId; uint16_t locktime; uint8_t cno; uint8_t prStdev; uint8_t cpStdev; uint8_t doStdev; uint8_t trkStat; uint8_t reserved3; } svinfo[UBLOX_MAX_RXM_RAWX_SATS]; }; #endif // Receive buffer union PACKED { ubx_nav_posllh posllh; ubx_nav_status status; ubx_nav_dop dop; ubx_nav_solution solution; ubx_nav_velned velned; ubx_cfg_nav_settings nav_settings; #if UBLOX_HW_LOGGING ubx_mon_hw_60 mon_hw_60; ubx_mon_hw_68 mon_hw_68; ubx_mon_hw2 mon_hw2; #endif #if UBLOX_GNSS_SETTINGS ubx_cfg_gnss gnss; #endif ubx_cfg_sbas sbas; ubx_nav_svinfo_header svinfo_header; #if UBLOX_RXM_RAW_LOGGING ubx_rxm_raw rxm_raw; ubx_rxm_rawx rxm_rawx; #endif uint8_t bytes[]; } _buffer; enum ubs_protocol_bytes { PREAMBLE1 = 0xb5, PREAMBLE2 = 0x62, CLASS_NAV = 0x01, CLASS_ACK = 0x05, CLASS_CFG = 0x06, CLASS_MON = 0x0A, CLASS_RXM = 0x02, MSG_ACK_NACK = 0x00, MSG_ACK_ACK = 0x01, MSG_POSLLH = 0x2, MSG_STATUS = 0x3, MSG_DOP = 0x4, MSG_SOL = 0x6, MSG_VELNED = 0x12, MSG_CFG_PRT = 0x00, MSG_CFG_RATE = 0x08, MSG_CFG_SET_RATE = 0x01, MSG_CFG_NAV_SETTINGS = 0x24, MSG_CFG_SBAS = 0x16, MSG_CFG_GNSS = 0x3E, MSG_MON_HW = 0x09, MSG_MON_HW2 = 0x0B, MSG_NAV_SVINFO = 0x30, MSG_RXM_RAW = 0x10, MSG_RXM_RAWX = 0x15 }; enum ubx_gnss_identifier { GNSS_GPS = 0x00, GNSS_SBAS = 0x01, GNSS_GALILEO = 0x02, GNSS_BEIDOU = 0x03, GNSS_IMES = 0x04, GNSS_QZSS = 0x05, GNSS_GLONASS = 0x06 }; enum ubs_nav_fix_type { FIX_NONE = 0, FIX_DEAD_RECKONING = 1, FIX_2D = 2, FIX_3D = 3, FIX_GPS_DEAD_RECKONING = 4, FIX_TIME = 5 }; enum ubx_nav_status_bits { NAV_STATUS_FIX_VALID = 1, NAV_STATUS_DGPS_USED = 2 }; enum ubx_hardware_version { ANTARIS = 0, UBLOX_5, UBLOX_6, UBLOX_7, UBLOX_M8 }; // Packet checksum accumulators uint8_t _ck_a; uint8_t _ck_b; // State machine state uint8_t _step; uint8_t _msg_id; uint16_t _payload_length; uint16_t _payload_counter; // 8 bit count of fix messages processed, used for periodic // processing uint8_t _fix_count; uint8_t _class; uint32_t _last_vel_time; uint32_t _last_pos_time; // do we have new position information? bool _new_position:1; // do we have new speed information? bool _new_speed:1; bool need_rate_update:1; uint8_t _disable_counter; // Buffer parse & GPS state update bool _parse_gps(); // used to update fix between status and position packets AP_GPS::GPS_Status next_fix; uint8_t rate_update_step; uint32_t _last_5hz_time; void _configure_navigation_rate(uint16_t rate_ms); void _configure_message_rate(uint8_t msg_class, uint8_t msg_id, uint8_t rate); void _configure_gps(void); void _configure_sbas(bool enable); void _update_checksum(uint8_t *data, uint16_t len, uint8_t &ck_a, uint8_t &ck_b); void _send_message(uint8_t msg_class, uint8_t msg_id, void *msg, uint16_t size); void send_next_rate_update(void); void _request_version(void); void unexpected_message(void); void write_logging_headers(void); void log_mon_hw(void); void log_mon_hw2(void); void log_accuracy(void); void log_rxm_raw(const struct ubx_rxm_raw &raw); void log_rxm_rawx(const struct ubx_rxm_rawx &raw); }; #endif // __AP_GPS_UBLOX_H__