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/*
 * rrlp.c
 *
 * RRLP implementation
 *
 *
 * Copyright (C) 2009  Sylvain Munaut <tnt@246tNt.com>
 *
 * 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 2 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 <http://www.gnu.org/licenses/>.
 */


#include <errno.h>

#include "gps.h"
#include "rrlp.h"

#include <PDU.h>
#include <GPS-AssistData.h>
#include <NavigationModel.h>
#include <IonosphericModel.h>
#include <UTCModel.h>
#include <Almanac.h>
#include <RefLocation.h>
#include <ReferenceTime.h>


/* ------------------------------------------------------------------------ */
/* RRLP Assistance request decoding                                         */
/* ---------------------------------------------------------------------{{{ */
/* Decode and validate the assistance data request messages.
 * See section 10.10 of
 *  . ETSI TS 149 031 V8.1.0 (2009-01)
 *  . 3GPP TS 49.031 version 8.1.0 Release 8
 */

/* Packed structure from 49.031 spec (RGA = Request GPS Assistance) */

#define RRLP_RGA0_ALMANAC	(1<<0)
#define RRLP_RGA0_UTC_MODEL	(1<<1)
#define RRLP_RGA0_IONO_MODEL	(1<<2)
#define RRLP_RGA0_NAV_MODEL	(1<<3)
#define RRLP_RGA0_DGPS		(1<<4)
#define RRLP_RGA0_REF_LOC	(1<<5)
#define RRLP_RGA0_REF_TIME	(1<<6)
#define RRLP_RGA0_ACQ_ASSIST	(1<<7)

#define RRLP_RGA1_REALTIME_INT	(1<<0)
#define RRLP_RGA1_EPH_EXT	(1<<1)
#define RRLP_RGA1_EPH_EXT_CHECK	(1<<2)

struct rrlp_rga_hdr {
	uint8_t items0;
	uint8_t items1;
} __attribute__((packed));

struct rrlp_rga_eph_sv {
	uint8_t sv_id;		/* [7:6] reserved, [5:0] sv_id */
	uint8_t iode;		/* latest eph in the MS memory in hours */
} __attribute__((packed));

struct rrlp_rga_eph {
	uint8_t wn_hi;		/* [7:6] = wn[9:8] */
	uint8_t wn_lo;		/* wn[7:0] */
	uint8_t toe;		/* latest eph in the MS memory in hours */
	uint8_t nsat_tmtoe;	/* [7:4] nstat, [3:0] T-Toe limit */
	struct rrlp_rga_eph_sv svs[0];
} __attribute__((packed));

struct rrlp_rga_eph_ext {
	uint8_t validity;	/* in 4 hours units */
} __attribute__((packed));

struct rrlp_rga_eph_ext_check {
		/* weeks are in gps week modulo 4 */
	uint8_t wn_begin_end;	/* [7:4] begin, [3:0] end */
	uint8_t tow_begin;
	uint8_t tow_end;
} __attribute__((packed));


/* Parsing function */

int
rrlp_decode_assistance_request(
	struct rrlp_assist_req *ar,
	void *req, int req_len)
{
	struct rrlp_rga_hdr *hdr = NULL;
	struct rrlp_rga_eph *eph = NULL;
	struct rrlp_rga_eph_ext *eph_ext = NULL;
	struct rrlp_rga_eph_ext_check *eph_ext_check = NULL;
	int p = 0;

	/* Reset */
	ar->req_elems = 0;
	ar->eph_svs = 0;

	/* Parse message */
	hdr = req;
	p += sizeof(struct rrlp_rga_hdr);
	if (p > req_len)
		return -1;

	if (hdr->items0 & RRLP_RGA0_NAV_MODEL) {
		eph = req + p;
		p += sizeof(struct rrlp_rga_eph);
		if (p > req_len)
			return -1;
		p += (eph->nsat_tmtoe >> 4) * sizeof(struct rrlp_rga_eph_sv);
		if (p > req_len)
			return -1;
	}

	if (hdr->items1 & RRLP_RGA1_EPH_EXT) {
		eph_ext = req + p;
		p += sizeof(struct rrlp_rga_eph_ext);
		if (p > req_len)
			return -1;
	}

	if (hdr->items1 & RRLP_RGA1_EPH_EXT_CHECK) {
		eph_ext_check = req + p;
		p += sizeof(struct rrlp_rga_eph_ext_check);
		if (p > req_len)
			return -1;
	}

	if (p != req_len)
		return -2; /* not all bytes consumed ??? */

	/* Print a warning for unsupported requests */
	if ((eph_ext != NULL) ||
	    (eph_ext_check != NULL) ||
	    (hdr->items0 & (RRLP_RGA0_DGPS | RRLP_RGA0_ACQ_ASSIST)) ||
	    (hdr->items1 & RRLP_RGA1_REALTIME_INT)) {
		fprintf(stderr, "[w] Unsupported assistance data requested, ignored ...\n");
	}

	/* Copy the request */
	if (hdr->items0 & RRLP_RGA0_ALMANAC)
		ar->req_elems |= RRLP_AR_ALMANAC;

	if (hdr->items0 & RRLP_RGA0_UTC_MODEL)
		ar->req_elems |= RRLP_AR_UTC_MODEL;

	if (hdr->items0 & RRLP_RGA0_IONO_MODEL)
		ar->req_elems |= RRLP_AR_IONO_MODEL;

	if (hdr->items0 & RRLP_RGA0_REF_LOC)
		ar->req_elems |= RRLP_AR_REF_LOC;

	if (hdr->items0 & RRLP_RGA0_REF_TIME)
		ar->req_elems |= RRLP_AR_REF_TIME;

	if (hdr->items0 & RRLP_RGA0_NAV_MODEL) {
		int i, n_svs = eph->nsat_tmtoe >> 4;
		ar->req_elems |= RRLP_AR_EPHEMERIS;
		for (i=0; i<n_svs; i++)
			ar->eph_svs |= (1ULL << (eph->svs[i].sv_id - 1));
	}

	return 0;
}

/* }}} */


/* ------------------------------------------------------------------------ */
/* RRLP elements fill                                                       */
/* ---------------------------------------------------------------------{{{ */

static void
_rrlp_fill_navigation_model_element(
	struct NavModelElement *rrlp_nme,
	struct gps_ephemeris_sv *gps_eph_sv)
{
	struct UncompressedEphemeris *rrlp_eph;

	rrlp_nme->satStatus.present = SatStatus_PR_newSatelliteAndModelUC;
	rrlp_nme->satelliteID = gps_eph_sv->sv_id;

	rrlp_eph = &rrlp_nme->satStatus.choice.newSatelliteAndModelUC;

	rrlp_eph->ephemCodeOnL2   = gps_eph_sv->code_on_l2;
	rrlp_eph->ephemURA        = gps_eph_sv->sv_ura;
	rrlp_eph->ephemSVhealth   = gps_eph_sv->sv_health;
	rrlp_eph->ephemIODC       = gps_eph_sv->iodc;
	rrlp_eph->ephemL2Pflag    = gps_eph_sv->l2_p_flag;
	rrlp_eph->ephemTgd        = gps_eph_sv->t_gd;
	rrlp_eph->ephemToc        = gps_eph_sv->t_oc;
	rrlp_eph->ephemAF2        = gps_eph_sv->a_f2;
	rrlp_eph->ephemAF1        = gps_eph_sv->a_f1;
	rrlp_eph->ephemAF0        = gps_eph_sv->a_f0;
	rrlp_eph->ephemCrs        = gps_eph_sv->c_rs;
	rrlp_eph->ephemDeltaN     = gps_eph_sv->delta_n;
	rrlp_eph->ephemM0         = gps_eph_sv->m_0;
	rrlp_eph->ephemCuc        = gps_eph_sv->c_uc;
	rrlp_eph->ephemE          = gps_eph_sv->e;
	rrlp_eph->ephemCus        = gps_eph_sv->c_us;
	rrlp_eph->ephemAPowerHalf = gps_eph_sv->a_powhalf;
	rrlp_eph->ephemToe        = gps_eph_sv->t_oe;
	rrlp_eph->ephemFitFlag    = gps_eph_sv->fit_flag;
	rrlp_eph->ephemAODA       = gps_eph_sv->aodo;
	rrlp_eph->ephemCic        = gps_eph_sv->c_ic;
	rrlp_eph->ephemOmegaA0    = gps_eph_sv->omega_0;
	rrlp_eph->ephemCis        = gps_eph_sv->c_is;
	rrlp_eph->ephemI0         = gps_eph_sv->i_0;
	rrlp_eph->ephemCrc        = gps_eph_sv->c_rc;
	rrlp_eph->ephemW          = gps_eph_sv->w;
	rrlp_eph->ephemOmegaADot  = gps_eph_sv->omega_dot;
	rrlp_eph->ephemIDot       = gps_eph_sv->idot;

	rrlp_eph->ephemSF1Rsvd.reserved1 = gps_eph_sv->_rsvd1;
	rrlp_eph->ephemSF1Rsvd.reserved2 = gps_eph_sv->_rsvd2;
	rrlp_eph->ephemSF1Rsvd.reserved3 = gps_eph_sv->_rsvd3;
	rrlp_eph->ephemSF1Rsvd.reserved4 = gps_eph_sv->_rsvd4;
}

static void
_rrlp_fill_almanac_element(
	struct AlmanacElement *rrlp_ae,
	struct gps_almanac_sv *gps_alm_sv)
{
	rrlp_ae->satelliteID = gps_alm_sv->sv_id;

	rrlp_ae->almanacE          = gps_alm_sv->e;
	rrlp_ae->alamanacToa       = gps_alm_sv->t_oa;
	rrlp_ae->almanacKsii       = gps_alm_sv->ksii;
	rrlp_ae->almanacOmegaDot   = gps_alm_sv->omega_dot;
	rrlp_ae->almanacSVhealth   = gps_alm_sv->sv_health;
	rrlp_ae->almanacAPowerHalf = gps_alm_sv->a_powhalf;
	rrlp_ae->almanacOmega0     = gps_alm_sv->omega_0;
	rrlp_ae->almanacW          = gps_alm_sv->w;
	rrlp_ae->almanacM0         = gps_alm_sv->m_0;
	rrlp_ae->almanacAF0        = gps_alm_sv->a_f0;
	rrlp_ae->almanacAF1        = gps_alm_sv->a_f1;

}

static void
_rrlp_fill_ionospheric_model(
	struct IonosphericModel *rrlp_iono,
	struct gps_ionosphere_model *gps_iono)
{
	rrlp_iono->alfa0 = gps_iono->alpha_0;
	rrlp_iono->alfa1 = gps_iono->alpha_1;
	rrlp_iono->alfa2 = gps_iono->alpha_2;
	rrlp_iono->alfa3 = gps_iono->alpha_3;
	rrlp_iono->beta0 = gps_iono->beta_0;
	rrlp_iono->beta1 = gps_iono->beta_1;
	rrlp_iono->beta2 = gps_iono->beta_2;
	rrlp_iono->beta3 = gps_iono->beta_3;
}

static void
_rrlp_fill_utc_model(
	struct UTCModel *rrlp_utc,
	struct gps_utc_model *gps_utc)
{
	rrlp_utc->utcA1        = gps_utc->a1;
	rrlp_utc->utcA0        = gps_utc->a0;
	rrlp_utc->utcTot       = gps_utc->t_ot;
	rrlp_utc->utcWNt       = gps_utc->wn_t & 0xff;
	rrlp_utc->utcDeltaTls  = gps_utc->delta_t_ls;
	rrlp_utc->utcWNlsf     = gps_utc->wn_lsf & 0xff;
	rrlp_utc->utcDN        = gps_utc->dn;
	rrlp_utc->utcDeltaTlsf = gps_utc->delta_t_lsf;
}

/* }}} */


/* ------------------------------------------------------------------------ */
/* RRLP Assistance PDU Generation                                           */
/* ---------------------------------------------------------------------{{{ */

struct PDU *
_rrlp_create_gps_assist_pdu(int refnum, struct GPS_AssistData **o_gps_ad)
{
	struct PDU *pdu;
	struct GPS_AssistData *gps_ad;

	pdu = calloc(1, sizeof(*pdu));
	if (!pdu)
		return NULL;

	gps_ad = calloc(1, sizeof(*gps_ad));
	if (!gps_ad) {
		free(pdu);
		return NULL;
	}

	if (o_gps_ad)
		*o_gps_ad = gps_ad;

	pdu->referenceNumber = refnum;
	pdu->component.present = RRLP_Component_PR_assistanceData;
	pdu->component.choice.assistanceData.gps_AssistData = gps_ad;

	return pdu;
}

static int
_rrlp_add_ionospheric_model(
	struct GPS_AssistData *rrlp_gps_ad,
	struct gps_assist_data *gps_ad)
{
	struct IonosphericModel *rrlp_iono;

	if (!(gps_ad->fields & GPS_FIELD_IONOSPHERE))
		return -EINVAL;

	rrlp_iono = calloc(1, sizeof(*rrlp_iono));
	if (!rrlp_iono)
		return -ENOMEM;
	rrlp_gps_ad->controlHeader.ionosphericModel = rrlp_iono;

	_rrlp_fill_ionospheric_model(rrlp_iono, &gps_ad->ionosphere);

	return 0;
}

static int
_rrlp_add_utc_model(
	struct GPS_AssistData *rrlp_gps_ad,
	struct gps_assist_data *gps_ad)
{
	struct UTCModel *rrlp_utc;

	if (!(gps_ad->fields & GPS_FIELD_UTC))
		return -EINVAL;

	rrlp_utc = calloc(1, sizeof(*rrlp_utc));
	if (!rrlp_utc)
		return -ENOMEM;
	rrlp_gps_ad->controlHeader.utcModel = rrlp_utc;

	_rrlp_fill_utc_model(rrlp_utc, &gps_ad->utc);

	return 0;
}

static int
_rrlp_add_reference_location(
	struct GPS_AssistData *rrlp_gps_ad,
	struct gps_assist_data *gps_ad)
{
	struct RefLocation *rrlp_refloc;

	/* FIXME: Check if info is in gps_ad */

	rrlp_refloc = calloc(1, sizeof(*rrlp_refloc));
	if (!rrlp_refloc)
		return -ENOMEM;
	rrlp_gps_ad->controlHeader.refLocation = rrlp_refloc;

	/* FIXME */
	{
		uint8_t gps_loc[] = {
			0x80,			/* Ellipsoid Point with altitude */
			0x48, 0x0f, 0x93,	/* 50.667778 N */
			0x03, 0x47, 0x87,	/* 4.611667 E */
			0x00, 0x72,		/* 114m */
		};
		uint8_t *b = malloc(sizeof(gps_loc));
		memcpy(b, gps_loc, sizeof(gps_loc));
		rrlp_refloc->threeDLocation.buf = b;
		rrlp_refloc->threeDLocation.size = sizeof(gps_loc);
	}

	return 0;
}

static int
_rrlp_add_reference_time(
	struct GPS_AssistData *rrlp_gps_ad,
	struct gps_assist_data *gps_ad)
{
	struct ReferenceTime *rrlp_reftime;

	/* FIXME: Check if info is in gps_ad */

	rrlp_reftime = calloc(1, sizeof(*rrlp_reftime));
	if (!rrlp_reftime)
		return -ENOMEM;
	rrlp_gps_ad->controlHeader.referenceTime = rrlp_reftime;

	/* FIXME */
//	rrlp_reftime.gpsTime.gpsTOW23b = g_gps_tow / 80;	/* 23 bits */
//	rrlp_reftime.gpsTime.gpsWeek   = g_gps_week & 0x3ff;	/* 10 bits */

	return 0;
}

static int
_rrlp_add_almanac(
	struct GPS_AssistData *rrlp_gps_ad,
	struct gps_assist_data *gps_ad, int *start, int count)
{
	int i;
	struct Almanac *rrlp_alm;
	struct gps_almanac *gps_alm = &gps_ad->almanac;

	if (!(gps_ad->fields & GPS_FIELD_ALMANAC))
		return -EINVAL;

	rrlp_alm = calloc(1, sizeof(*rrlp_alm));
	if (!rrlp_alm)
		return -ENOMEM;
	rrlp_gps_ad->controlHeader.almanac = rrlp_alm;

	rrlp_alm->alamanacWNa = gps_alm->wna;
	if (count == -1)
		count = gps_alm->n_sv - *start;
	for (i=*start; (i<*start+count) && (i<gps_alm->n_sv); i++) {
		struct AlmanacElement *ae;
		ae = calloc(1, sizeof(*ae));
		if (!ae)
			return -ENOMEM;
		_rrlp_fill_almanac_element(ae, &gps_alm->svs[i]);
		ASN_SEQUENCE_ADD(&rrlp_alm->almanacList.list, ae);
	}

	*start = i;

	return i < gps_alm->n_sv;
}

static int
_rrlp_add_ephemeris(
	struct GPS_AssistData *rrlp_gps_ad,
	struct gps_assist_data *gps_ad, int *start, int count, uint64_t mask)
{
	int i, j;
	struct NavigationModel *rrlp_nav;
	struct gps_ephemeris *gps_eph = &gps_ad->ephemeris;

	if (!(gps_ad->fields & GPS_FIELD_EPHEMERIS))
		return -EINVAL;

	rrlp_nav = calloc(1, sizeof(*rrlp_nav));
	if (!rrlp_nav)
		return -ENOMEM;
	rrlp_gps_ad->controlHeader.navigationModel = rrlp_nav;

	if (count == -1)
		count = gps_eph->n_sv - *start;
	for (i=*start,j=0; (j<count) && (i<gps_eph->n_sv); i++) {
		if (!(mask & (1ULL<<(gps_eph->svs[i].sv_id-1))))
			continue;
		struct NavModelElement *nme;
		nme = calloc(1, sizeof(*nme));
		if (!nme)
			return -ENOMEM;
		_rrlp_fill_navigation_model_element(nme, &gps_eph->svs[i]);
		ASN_SEQUENCE_ADD(&rrlp_nav->navModelList.list, nme);
		j++;
	}

	*start = i;

	return i < gps_eph->n_sv;
}


#define MAX_PDUS 64

int
rrlp_gps_assist_pdus(
	struct gps_assist_data *gps_ad, struct rrlp_assist_req *req,
	void **o_pdu, int *o_len, int o_max_pdus)
{
	struct PDU *lst_pdu[MAX_PDUS];
	int lst_cnt = 0;

	struct PDU *rrlp_pdu = NULL;
	struct GPS_AssistData *rrlp_gps_ad = NULL;
	uint32_t re = req->req_elems;
	int i, rv = 0;

	/* IonosphericModel, UTCModel, RefLocation, ReferenceTime */
	if (re & (RRLP_AR_IONO_MODEL |
	          RRLP_AR_UTC_MODEL |
	          RRLP_AR_REF_TIME |
	          RRLP_AR_REF_LOC))
	{
		int pdu_has_data = 0;

		rrlp_pdu = _rrlp_create_gps_assist_pdu(1, &rrlp_gps_ad);
		if (!rrlp_pdu) {
			rv = -ENOMEM;
			goto error;
		}

		if (re & RRLP_AR_IONO_MODEL)
			if (!_rrlp_add_ionospheric_model(rrlp_gps_ad, gps_ad))
				pdu_has_data = 1;

		if (re & RRLP_AR_UTC_MODEL)
			if (!_rrlp_add_utc_model(rrlp_gps_ad, gps_ad))
				pdu_has_data = 1;

		if (re & RRLP_AR_REF_TIME)
			if (!_rrlp_add_reference_time(rrlp_gps_ad, gps_ad))
				pdu_has_data = 1;

		if (re & RRLP_AR_REF_LOC)
			if (!_rrlp_add_reference_location(rrlp_gps_ad, gps_ad))
				pdu_has_data = 1;

		if (pdu_has_data) {
			lst_pdu[lst_cnt++] = rrlp_pdu;
			rrlp_pdu = NULL;
		}
	}

	/* Almanac */
	if (re & RRLP_AR_ALMANAC) {
		i = 0;
		do {
			if (!(gps_ad->fields & GPS_FIELD_ALMANAC))
				break;

			if (!rrlp_pdu) {
				rrlp_pdu = _rrlp_create_gps_assist_pdu(1, &rrlp_gps_ad);
				if (!rrlp_pdu) {
					rv = -ENOMEM;
					goto error;
				}
			}

			rv = _rrlp_add_almanac(rrlp_gps_ad, gps_ad, &i, 10);
			if (rv < 0)
				goto error;

			lst_pdu[lst_cnt++] = rrlp_pdu;
			rrlp_pdu = NULL;
		} while (rv);
	}

	/* Ephemeris */
	if (re & RRLP_AR_EPHEMERIS) {
		i = 0;
		do {
			if (!(gps_ad->fields & GPS_FIELD_EPHEMERIS))
				break;

			if (!rrlp_pdu) {
				rrlp_pdu = _rrlp_create_gps_assist_pdu(1, &rrlp_gps_ad);
				if (!rrlp_pdu) {
					rv = -ENOMEM;
					goto error;
				}
			}

			rv = _rrlp_add_ephemeris(rrlp_gps_ad, gps_ad, &i, 2, req->eph_svs);

			lst_pdu[lst_cnt++] = rrlp_pdu;
			rrlp_pdu = NULL;

		} while (rv);
	}

	/* Serialize & Release all PDUs */
	for (i=0; i<lst_cnt && i<o_max_pdus; i++) {
		/* Pseudo segmentation flags */
		MoreAssDataToBeSent_t *mad = calloc(1, sizeof(*mad));
		*mad = (i == (lst_cnt-1)) ?
				MoreAssDataToBeSent_noMoreMessages :
				MoreAssDataToBeSent_moreMessagesOnTheWay;
		lst_pdu[i]->component.choice.assistanceData.moreAssDataToBeSent = mad;

		/* Serialization */
		// asn_fprint(stdout, &asn_DEF_PDU, lst_pdu[i]);
		rv = uper_encode_to_new_buffer(&asn_DEF_PDU, NULL, lst_pdu[i], &o_pdu[i]);
		if (rv < 0)
			goto error;
		o_len[i] = rv;
	}

	rv = lst_cnt;

	/* Release ASN.1 objects */
error:
	if (rrlp_pdu)
		asn_DEF_PDU.free_struct(&asn_DEF_PDU, (void*)rrlp_pdu, 0);

	for (i=0; i<lst_cnt; i++)
		asn_DEF_PDU.free_struct(&asn_DEF_PDU, lst_pdu[i], 0);

	return rv;
}

/* }}} */