Comply to log module.

[bertos.git] / bertos / net / nmea.c

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 *
 * \brief NMEA parser implementation.
 *
 * NMEA 0183 is acronym of National Marine Electronics Association that
 * combined electrical and data specification for communication between marine
 * electronic devices such as echo sounder, sonars, anemometer (wind speed and direction),
 * gyrocompass, autopilot, GPS receivers and many other types of instruments.
 * It has been defined by, and is controlled by, the U.S.-based National Marine
 * Electronics Association.
 * The NMEA 0183 standard uses a simple ASCII, serial communications protocol
 * that defines how data is transmitted in a "sentence" from one "talker"
 * to multiple "listeners" at a time.
 * At the application layer, the standard also defines the contents of each sentence
 * (message) type so that all listeners can parse messages accurately.
 *
 *
 * \author Daniele Basile <asterix@develer.com>
 *
 * notest:avr
 */

#include "nmea.h"

#include "cfg/cfg_nmea.h"

#include <cfg/debug.h>

#define LOG_LEVEL  NMEA_LOG_LEVEL
#define LOG_FORMAT NMEA_LOG_FORMAT
#include <cfg/log.h>

#include <net/nmeap/inc/nmeap.h>

#include <ctype.h>
#include <time.h>
#include <string.h>
#include <stdlib.h>

/*
 * Make conversion from one string to int.
 *
 * You can specify the precision if the string is a float
 * number. The result is an int multiplied to 10^precision.
 */
static uint32_t tokenToInt(const char *s, int precision)
{
        uint32_t num = 0;
        bool sep_found = false;
        int i;

        if (!s)
                return 0;

        for(i = 0; i < NMEAP_MAX_SENTENCE_LENGTH; i++)
        {
                char c = *s++;

                if (c == '.')
                {
                        sep_found = true;
                        continue;
                }

                if (c == '\0' || !isdigit(c) || (precision == 0 && sep_found))
                        break;

                if (sep_found)
                        precision--;

                num *= 10;
                num += c - '0';
        }

        while (precision--)
                num *= 10;

        return num;
}

/*
 * Convert a string to micro degree.
 */
static udegree_t convertToDegree(const char *str)
{
        uint32_t dec;
        uint32_t deg;
        uint32_t min;

        if (*str == 0)
        {
        return 0;
    }

        dec = tokenToInt(str, 4);
        deg = dec / 1000000;
        min = dec - deg * 1000000;
        dec = deg * 1000000 + ((min * 5) + 1) / 3;

        return dec;
}

/*
 * Retun latitude in micro degree from a string.
 */
static udegree_t nmea_latitude(const char *plat, const char *phem)
{
        int ns;

    if (*phem == 0)
        return 0;

    /* north lat is +, south lat is - */
        ns = (*phem == 'N') ? 1 : -1;


        return ns * convertToDegree(plat);
}

/*
 * Retun longitude in micro degree from a string.
 */
static udegree_t nmea_longitude(const char *plot, const char *phem)
{
        int ew;

    if (*phem == 0)
        return 0;

    /* west long is negative, east long is positive */
   ew = (*phem == 'E') ? 1 : -1;

        return ew * convertToDegree(plot);
}

/*
 * Return altitude in meter from a string.
 *
 */
static uint16_t nmea_altitude(const char *palt, const char *punits)
{
        uint32_t alt;

        if (*palt == 0)
        return 0;

        alt = atoi(palt);

    if (*punits == 'F')
        {
        /* convert to feet */
        /* alt = alt * 3.2808399 */
                alt = alt * 3 +  /* 3.0 */
                          (alt >> 2) + /* 0.25 */
                          (alt >> 6) + /* 0.015625 */
                          (alt >> 7) + /* 0.0078125 */
                          (alt >> 8); /* 0,00390625 */

    }

        return alt;
}

/*
 * Convert time and date stamp string to unix time.
 */
static time_t timestampToSec(uint32_t time_stamp, uint32_t date_stamp)
{
        struct tm t;
        uint16_t msec;
        uint16_t tmr[3];
        uint16_t date[3];

        memset(&t, 0, sizeof(t));
        memset(&tmr, 0, sizeof(tmr));
        memset(&date, 0, sizeof(date));

        LOG_INFO("time_s[%lu],date[%lu]\n", (long)time_stamp, (long)date_stamp);
        uint32_t res = time_stamp / 1000;
        uint32_t all = time_stamp;
        msec = all - res * 1000;

        for (int i = 0; i < 3; i++)
        {
                all = res;
                res = all / 100;
                tmr[i]  = all - res * 100;
                LOG_INFO("t[%d]%d\n", tmr[i],i);
        }

        t.tm_sec = tmr[0] + (ROUND_UP(msec, 1000) / 1000);
        t.tm_min = tmr[1];
        t.tm_hour = tmr[2];
        //If we not have refence data, we set as default 1/1/1970.
        t.tm_mday = 1;
        t.tm_mon = 0;
        t.tm_year = 70;

        if (date_stamp)
        {
                res = all = date_stamp;
                for (int i = 0; i < 3; i++)
                {
                        all = res;
                        res = all / 100;
                        date[i]  = all - res * 100;
                        LOG_INFO("d[%d]%d\n", date[i],i);
                }
                t.tm_mday = date[2];
                t.tm_mon = date[1] - 1; // time struct count month from 0 to 11;
                // we should specific number of years from 1900, but the year field
                // is only two cipher, so we sum 100 (2000 - 1900)..
                t.tm_year = date[0] + 100;
        }
        LOG_INFO("times=%d,%d,%d,%d,%d,%d\n",t.tm_sec, t.tm_min, t.tm_hour, t.tm_year, t.tm_mon, t.tm_mday);

        return  mktime(&t);
}

/**
 *  Callout example for GGA data
 */
void gpgga_callout(nmeap_context_t *context, void *data, void *user_data)
{
        (void)context;
        (void)user_data;
        (void)data;
        LOG_INFOB(
                NmeaGga *gga = (NmeaGga *)data;
                LOG_INFO("Found GPGGA message %ld %ld %d %lu %d %d %d %d\n",
                                (long)gga->latitude,
                                (long)gga->longitude,
                                gga->altitude,
                                gga->time,
                                gga->satellites,
                                gga->quality,
                                gga->hdop,
                                gga->geoid);
        );
}

/**
 * Callout example for RMC
 */
void gprmc_callout(nmeap_context_t *context, void *data, void *user_data)
{
        (void)context;
        (void)user_data;
        (void)data;
    LOG_INFOB(
                NmeaRmc *rmc = (NmeaRmc *)data;

                LOG_INFO("Found GPRMC message %lu %c %ld %ld %d %d %d\n",
                                rmc->time,
                                rmc->warn,
                                (long)rmc->latitude,
                                (long)rmc->longitude,
                                rmc->speed,
                                rmc->course,
                                rmc->mag_var);
        );
}

/**
 * Callout example for GSV data
 */
void gpgsv_callout(nmeap_context_t *context, void *data, void *user_data)
{
        (void)context;
        (void)user_data;
        (void)data;
        LOG_INFOB(
                NmeaGsv *gsv = (NmeaGsv *)data;

            LOG_INFO("Found GPGSV message %d %d %d\n", gsv->tot_message, gsv->message_num, gsv->tot_svv);

                for (int i = 0; i < 4; i++)
                        LOG_INFO("%d %d %d %d\n", gsv->info[i].sv_prn, gsv->info[i].elevation, gsv->info[i].azimut, gsv->info[i].snr);
        );
}

/**
 * Callout example for VTG data
 */
void gpvtg_callout(nmeap_context_t *context, void *data, void *user_data)
{
        (void)context;
        (void)user_data;
        (void)data;
        LOG_INFOB(
                NmeaVtg *vtg = (NmeaVtg *)data;
            LOG_INFO("Found GPVTG message %d %d %d\n", vtg->track_good, vtg->knot_speed, vtg->km_speed);
        );
}



/**
 * standard GPGGA sentence parser
 */
int nmea_gpgga(nmeap_context_t *context, nmeap_sentence_t *sentence)
{
        /*
         * get pointer to sentence data
         */
        NmeaGga *gga = (NmeaGga *)sentence->data;

        ASSERT(gga);
        ASSERT(context->tokens >= 12);

        gga->latitude   = nmea_latitude(context->token[2],context->token[3]);
        gga->longitude  = nmea_longitude(context->token[4],context->token[5]);
        gga->altitude   = nmea_altitude(context->token[9],context->token[10]);
        gga->time       = timestampToSec(tokenToInt(context->token[1], 3), 0);
        gga->satellites = atoi(context->token[7]);
        gga->quality    = atoi(context->token[6]);
        gga->hdop       = tokenToInt(context->token[8], 1);
        gga->geoid      = nmea_altitude(context->token[11],context->token[12]);

        /*
         * if the sentence has a callout, call it
         */

        if (sentence->callout != 0)
                (*sentence->callout)(context, gga, context->user_data);

        return NMEA_GPGGA;
}

/**
 * standard GPRMCntence parser
 */
int nmea_gprmc(nmeap_context_t *context, nmeap_sentence_t *sentence)
{

    /*
         * get pointer to sentence data
         */
    NmeaRmc *rmc = (NmeaRmc *)sentence->data;

        ASSERT(rmc);
        ASSERT(context->tokens >= 10);

        /*
         * extract data from the tokens
         */
        rmc->time       = timestampToSec(tokenToInt(context->token[1], 3), tokenToInt(context->token[9], 0));
        rmc->warn       = *context->token[2];
        rmc->latitude   = nmea_latitude(context->token[3],context->token[4]);
        rmc->longitude  = nmea_longitude(context->token[5],context->token[6]);
        rmc->speed      = atoi(context->token[7]);
        rmc->course     = atoi(context->token[8]);
        rmc->mag_var    = atoi(context->token[10]);

    if (sentence->callout != 0)
        (*sentence->callout)(context, rmc, context->user_data);

    return NMEA_GPRMC;
}


/**
 * standard GPVTG sentence parser
 */
int nmea_gpvtg(nmeap_context_t *context, nmeap_sentence_t *sentence)
{

    /*
         * get pointer to sentence data
         */
    NmeaVtg *vtg = (NmeaVtg *)sentence->data;

        ASSERT(vtg);
        ASSERT(context->tokens >= 7);

        /*
         * extract data from the tokens
         */
        vtg->track_good  = atoi(context->token[1]);
        vtg->knot_speed  = atoi(context->token[5]);
        vtg->km_speed    = atoi(context->token[7]);

    /*
         * if the sentence has a callout, call it
         */
    if (sentence->callout != 0)
        (*sentence->callout)(context, vtg, context->user_data);

    return NMEA_GPVTG;
}

/**
 * standard GPGDSV sentence parser
 */
int nmea_gpgsv(nmeap_context_t *context, nmeap_sentence_t *sentence)
{

    /*
         * get pointer to sentence data
         */
    NmeaGsv *gsv = (NmeaGsv *)sentence->data;


        /*
         * extract data from the tokens
         */
        gsv->tot_message     = atoi(context->token[1]);
        gsv->message_num     = atoi(context->token[2]);
        gsv->tot_svv         = atoi(context->token[3]);

        // Fill remaning member until we have token
        int  j = 0;
        for (int i = 4; i < context->tokens - 3; i += 4, j++)
        {

                gsv->info[j].sv_prn     = atoi(context->token[i]);
                gsv->info[j].elevation  = atoi(context->token[i + 1]);
                gsv->info[j].azimut     = atoi(context->token[i + 2]);
                gsv->info[j].snr        = atoi(context->token[i + 3]);
        }

    /*
         * if the sentence has a callout, call it
         */
    if (sentence->callout != 0)
        (*sentence->callout)(context, gsv, context->user_data);

    return NMEA_GPGSV;
}


/*
 * Parse NMEA sentence from a channel.
 */
void nmea_poll(nmeap_context_t *context, KFile *channel)
{
        int c;
        while ((c = kfile_getc(channel)) != EOF)
        {
                nmeap_parse(context, c);
        }
}