/****************************************************************************

NAME
   rtcm2_json.c - deserialize RTCM2 JSON

DESCRIPTION
   This module uses the generic JSON parser to get data from RTCM2
representations to libgps structures.

PERMISSIONS
   This file is Copyright (c) 2010 by the GPSD project
   SPDX-License-Identifier: BSD-2-clause

***************************************************************************/

#include <stdio.h>
#include <math.h>
#include <string.h>
#include <stddef.h>

#include "gpsd.h"

#ifdef SOCKET_EXPORT_ENABLE
#include "gps_json.h"

/* common fields in every RTCM2 message */

int json_rtcm2_read(const char *buf,
		    char *path, size_t pathlen, struct rtcm2_t *rtcm2,
		    const char **endptr)
{

    static char *stringptrs[NITEMS(rtcm2->words)];
    static char stringstore[sizeof(rtcm2->words) * 2];
    static int stringcount;

/* *INDENT-OFF* */
#define RTCM2_HEADER \
	{"class",          t_check,    .dflt.check = "RTCM2"}, \
	{"type",           t_uinteger, .addr.uinteger = &rtcm2->type}, \
	{"device",         t_string,   .addr.string = path, \
	                                  .len = pathlen}, \
	{"station_id",     t_uinteger, .addr.uinteger = &rtcm2->refstaid}, \
	{"zcount",         t_real,     .addr.real = &rtcm2->zcount, \
			                  .dflt.real = NAN}, \
	{"seqnum",         t_uinteger, .addr.uinteger = &rtcm2->seqnum}, \
	{"length",         t_uinteger, .addr.uinteger = &rtcm2->length}, \
	{"station_health", t_uinteger, .addr.uinteger = &rtcm2->stathlth},

    int status = 0, satcount = 0;

    const struct json_attr_t rtcm1_satellite[] = {
	{"ident",     t_uinteger, STRUCTOBJECT(struct gps_rangesat_t, ident)},
	{"udre",      t_uinteger, STRUCTOBJECT(struct gps_rangesat_t, udre)},
	{"iod",       t_uinteger, STRUCTOBJECT(struct gps_rangesat_t, iod)},
	{"prc",       t_real,     STRUCTOBJECT(struct gps_rangesat_t, prc)},
	{"rrc",       t_real,     STRUCTOBJECT(struct gps_rangesat_t, rrc)},
	{NULL},
    };
    const struct json_attr_t json_rtcm1[] = {
	RTCM2_HEADER
        {"satellites", t_array,	STRUCTARRAY(rtcm2->gps_ranges.sat,
					    rtcm1_satellite, &satcount)},
	{NULL},
    };

    const struct json_attr_t json_rtcm3[] = {
	RTCM2_HEADER
	{"x",              t_real,    .addr.real = &rtcm2->ecef.x,
			                 .dflt.real = NAN},
	{"y",              t_real,    .addr.real = &rtcm2->ecef.y,
			                 .dflt.real = NAN},
	{"z",              t_real,    .addr.real = &rtcm2->ecef.z,
			                 .dflt.real = NAN},
	{NULL},
    };

    /*
     * Beware! Needs to stay synchronized with a corresponding
     * name array in the RTCM2 JSON dump code. This interpretation of
     * NAVSYSTEM_GALILEO is assumed from RTCM3, it's not actually
     * documented in RTCM 2.1.
     */
    const struct json_enum_t system_table[] = {
	{"GPS", 0}, {"GLONASS", 1}, {"GALILEO", 2}, {"UNKNOWN", 3}, {NULL}
    };
    const struct json_attr_t json_rtcm4[] = {
	RTCM2_HEADER
        {"valid",          t_boolean, .addr.boolean = &rtcm2->reference.valid},
	{"system",         t_integer, .addr.integer = &rtcm2->reference.system,
	                                 .map=system_table},
	{"sense",          t_integer, .addr.integer = &rtcm2->reference.sense},
	{"datum",          t_string,  .addr.string = rtcm2->reference.datum,
	                                 .len = sizeof(rtcm2->reference.datum)},
	{"dx",             t_real,    .addr.real = &rtcm2->reference.dx,
			                 .dflt.real = NAN},
	{"dy",             t_real,    .addr.real = &rtcm2->reference.dy,
			                 .dflt.real = NAN},
	{"dz",             t_real,    .addr.real = &rtcm2->reference.dz,
			                 .dflt.real = NAN},
	{NULL},
    };

    const struct json_attr_t rtcm5_satellite[] = {
	{"ident",       t_uinteger, STRUCTOBJECT(struct consat_t, ident)},
	{"iodl",        t_boolean,  STRUCTOBJECT(struct consat_t, iodl)},
	{"health",      t_uinteger, STRUCTOBJECT(struct consat_t, health)},
	{"snr",         t_integer,  STRUCTOBJECT(struct consat_t, snr)},
	{"health_en",   t_boolean,  STRUCTOBJECT(struct consat_t, health_en)},
	{"new_data",    t_boolean,  STRUCTOBJECT(struct consat_t, new_data)},
	{"los_warning", t_boolean,  STRUCTOBJECT(struct consat_t, los_warning)},
	{"tou",         t_uinteger, STRUCTOBJECT(struct consat_t, tou)},
	{NULL},
    };
    const struct json_attr_t json_rtcm5[] = {
	RTCM2_HEADER
        {"satellites", t_array,	STRUCTARRAY(rtcm2->conhealth.sat,
					    rtcm5_satellite, &satcount)},
	{NULL},
    };

    const struct json_attr_t json_rtcm6[] = {
	RTCM2_HEADER
	// No-op or keepalive message
	{NULL},
    };

    const struct json_attr_t rtcm7_satellite[] = {
	{"lat",         t_real,     STRUCTOBJECT(struct station_t, latitude)},
	{"lon",         t_real,     STRUCTOBJECT(struct station_t, longitude)},
	{"range",       t_uinteger, STRUCTOBJECT(struct station_t, range)},
	{"frequency",   t_real,     STRUCTOBJECT(struct station_t, frequency)},
	{"health",      t_uinteger, STRUCTOBJECT(struct station_t, health)},
	{"station_id",  t_uinteger, STRUCTOBJECT(struct station_t, station_id)},
	{"bitrate",     t_uinteger, STRUCTOBJECT(struct station_t, bitrate)},
	{NULL},
    };
    const struct json_attr_t json_rtcm7[] = {
	RTCM2_HEADER
        {"satellites", t_array,	STRUCTARRAY(rtcm2->almanac.station,
					    rtcm7_satellite, &satcount)},
	{NULL},
    };

    const struct json_attr_t json_rtcm13[] = {
	RTCM2_HEADER
        {"status",       t_boolean,  .addr.boolean = &rtcm2->xmitter.status},
        {"rangeflag",    t_boolean,  .addr.boolean = &rtcm2->xmitter.rangeflag},
	{"lat",          t_real,     .addr.real = &rtcm2->xmitter.lat,
			                .dflt.real = NAN},
	{"lon",          t_real,     .addr.real = &rtcm2->xmitter.lon,
			                .dflt.real = NAN},
	{"range",        t_uinteger, .addr.uinteger = &rtcm2->xmitter.range},
	{NULL},
    };

    const struct json_attr_t json_rtcm14[] = {
	RTCM2_HEADER
	{"week",              t_uinteger, .addr.uinteger = &rtcm2->gpstime.week},
	{"hour",              t_uinteger, .addr.uinteger = &rtcm2->gpstime.hour},
	{"leapsecs",          t_uinteger, .addr.uinteger = &rtcm2->gpstime.leapsecs},
	{NULL},
    };

    const struct json_attr_t json_rtcm16[] = {
	RTCM2_HEADER
	{"message",        t_string,  .addr.string = rtcm2->message,
	                                 .len = sizeof(rtcm2->message)},
	{NULL},
    };

    const struct json_attr_t rtcm31_satellite[] = {
	{"ident",     t_uinteger, STRUCTOBJECT(struct glonass_rangesat_t, ident)},
	{"udre",      t_uinteger, STRUCTOBJECT(struct glonass_rangesat_t, udre)},
	{"change",    t_boolean,  STRUCTOBJECT(struct glonass_rangesat_t, change)},
	{"tod",       t_uinteger, STRUCTOBJECT(struct glonass_rangesat_t, tod)},
	{"prc",       t_real,     STRUCTOBJECT(struct glonass_rangesat_t, prc)},
	{"rrc",       t_real,     STRUCTOBJECT(struct glonass_rangesat_t, rrc)},
	{NULL},
    };
    const struct json_attr_t json_rtcm31[] = {
	RTCM2_HEADER
        {"satellites", t_array,	STRUCTARRAY(rtcm2->glonass_ranges.sat,
					    rtcm31_satellite, &satcount)},
	{NULL},
    };

    const struct json_attr_t json_rtcm2_fallback[] = {
	RTCM2_HEADER
	{"data",         t_array, .addr.array.element_type = t_string,
	                             .addr.array.arr.strings.ptrs = stringptrs,
	                             .addr.array.arr.strings.store = stringstore,
	                             .addr.array.arr.strings.storelen = sizeof(stringstore),
	                             .addr.array.count = &stringcount,
	                             .addr.array.maxlen = NITEMS(stringptrs)},
	{NULL},
    };

#undef RTCM2_HEADER
/* *INDENT-ON* */

    memset(rtcm2, '\0', sizeof(struct rtcm2_t));

    if (strstr(buf, "\"type\":1,") != NULL
	|| strstr(buf, "\"type\":9,") != NULL) {
	status = json_read_object(buf, json_rtcm1, endptr);
	if (status == 0)
	    rtcm2->gps_ranges.nentries = (unsigned)satcount;
    } else if (strstr(buf, "\"type\":3,") != NULL) {
	status = json_read_object(buf, json_rtcm3, endptr);
	if (status == 0) {
	    rtcm2->ecef.valid = (isfinite(rtcm2->ecef.x) != 0)
		&& (isfinite(rtcm2->ecef.y) != 0)
		&& (isfinite(rtcm2->ecef.z) != 0);
	}
    } else if (strstr(buf, "\"type\":4,") != NULL) {
	status = json_read_object(buf, json_rtcm4, endptr);
	if (status == 0)
	    rtcm2->reference.valid = (isfinite(rtcm2->reference.dx) != 0)
		&& (isfinite(rtcm2->reference.dy) != 0)
		&& (isfinite(rtcm2->reference.dz) != 0);
    } else if (strstr(buf, "\"type\":5,") != NULL) {
	status = json_read_object(buf, json_rtcm5, endptr);
	if (status == 0)
	    rtcm2->conhealth.nentries = (unsigned)satcount;
    } else if (strstr(buf, "\"type\":6,") != NULL) {
	status = json_read_object(buf, json_rtcm6, endptr);
    } else if (strstr(buf, "\"type\":7,") != NULL) {
	status = json_read_object(buf, json_rtcm7, endptr);
	if (status == 0)
	    rtcm2->almanac.nentries = (unsigned)satcount;
    } else if (strstr(buf, "\"type\":13,") != NULL) {
	status = json_read_object(buf, json_rtcm13, endptr);
    } else if (strstr(buf, "\"type\":14,") != NULL) {
	status = json_read_object(buf, json_rtcm14, endptr);
    } else if (strstr(buf, "\"type\":16,") != NULL) {
	status = json_read_object(buf, json_rtcm16, endptr);
    } else if (strstr(buf, "\"type\":31,") != NULL) {
	status = json_read_object(buf, json_rtcm31, endptr);
	if (status == 0)
	    rtcm2->glonass_ranges.nentries = (unsigned)satcount;
    } else {
	int n;
	status = json_read_object(buf, json_rtcm2_fallback, endptr);
	for (n = 0; n < NITEMS(rtcm2->words); n++) {
	    if (n >= stringcount) {
		rtcm2->words[n] = 0;
	    } else {
		unsigned int u;
		int fldcount = sscanf(stringptrs[n], "0x%08x\n", &u);
		if (fldcount != 1)
		    return JSON_ERR_MISC;
		else
		    rtcm2->words[n] = (isgps30bits_t) u;
	    }
	}
    }
    return status;
}
#endif /* SOCKET_EXPORT_ENABLE */

/* rtcm2_json.c ends here */