// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*-
//
//  u-blox UBX GPS driver for ArduPilot and ArduPilotMega.
//	Code by Michael Smith, Jordi Munoz and Jose Julio, DIYDrones.com
//
//	This library is free software; you can redistribute it and / or
//	modify it under the terms of the GNU Lesser General Public
//	License as published by the Free Software Foundation; either
//	version 2.1 of the License, or (at your option) any later version.
//
#ifndef AP_GPS_UBLOX_h
#define AP_GPS_UBLOX_h

#include "GPS.h"

/*
 *  try to put a UBlox into binary mode. This is in two parts. First we
 *  send a PUBX asking the UBlox to receive NMEA and UBX, and send UBX,
 *  with a baudrate of 38400. Then we send a UBX message setting rate 1
 *  for the NAV_SOL message. The setup of NAV_SOL is to cope with
 *  configurations where all UBX binary message types are disabled.
 */
#define UBLOX_SET_BINARY "$PUBX,41,1,0003,0001,38400,0*26\n\265\142\006\001\003\000\001\006\001\022\117"

class AP_GPS_UBLOX : public GPS
{
public:
    // Methods
    AP_GPS_UBLOX(Stream *s);
    virtual void                    init(enum GPS_Engine_Setting nav_setting = GPS_ENGINE_NONE);
    virtual bool                    read();

    static const prog_char          _ublox_set_binary[];
    static const uint8_t            _ublox_set_binary_size;

private:
    // u-blox UBX protocol essentials
// XXX this is being ignored by the compiler #pragma pack(1)
    struct ubx_header {
        uint8_t preamble1;
        uint8_t preamble2;
        uint8_t msg_class;
        uint8_t msg_id;
        uint16_t length;
    };
    struct ubx_cfg_nav_rate {
        uint16_t measure_rate_ms;
        uint16_t nav_rate;
        uint16_t timeref;
    };
    struct ubx_cfg_msg_rate {
        uint8_t msg_class;
        uint8_t msg_id;
        uint8_t rate;
    };
    struct 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 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 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 ubx_nav_solution {
        uint32_t time;
        int32_t time_nsec;
        int16_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 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;
    };
// // #pragma pack(pop)
    enum ubs_protocol_bytes {
        PREAMBLE1 = 0xb5,
        PREAMBLE2 = 0x62,
        CLASS_NAV = 0x01,
        CLASS_ACK = 0x05,
        CLASS_CFG = 0x06,
        MSG_ACK_NACK = 0x00,
        MSG_ACK_ACK = 0x01,
        MSG_POSLLH = 0x2,
        MSG_STATUS = 0x3,
        MSG_SOL = 0x6,
        MSG_VELNED = 0x12,
        MSG_CFG_PRT = 0x00,
        MSG_CFG_RATE = 0x08,
        MSG_CFG_SET_RATE = 0x01,
        MSG_CFG_NAV_SETTINGS = 0x24
    };
    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
    };

    // 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;

    uint8_t         _class;

    // do we have new position information?
    bool            _new_position;

    // do we have new speed information?
    bool            _new_speed;

    uint8_t         _disable_counter;

    // Receive buffer
    union {
        ubx_nav_posllh posllh;
        ubx_nav_status status;
        ubx_nav_solution solution;
        ubx_nav_velned velned;
        ubx_cfg_nav_settings nav_settings;
        uint8_t bytes[];
    } _buffer;

    // Buffer parse & GPS state update
    bool        _parse_gps();

    // used to update fix between status and position packets
    bool        next_fix;

    void        _configure_message_rate(uint8_t msg_class, uint8_t msg_id, uint8_t rate);
    void        _configure_gps(void);
    void        _update_checksum(uint8_t *data, uint8_t len, uint8_t &ck_a, uint8_t &ck_b);
    void        _send_message(uint8_t msg_class, uint8_t msg_id, void *msg, uint8_t size);

};

#endif