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C

/**
*
* \section COPYRIGHT
*
* Copyright 2013-2014 The libLTE Developers. See the
* COPYRIGHT file at the top-level directory of this distribution.
*
* \section LICENSE
*
* This file is part of the libLTE library.
*
* libLTE 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 3 of
* the License, or (at your option) any later version.
*
* libLTE 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 Lesser General Public License for more details.
*
* A copy of the GNU Lesser General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
#include <string.h>
#include "liblte/phy/phy.h"
#include "liblte/mex/mexutils.h"
/** MEX function to be called from MATLAB to test the channel estimator
*/
#define ENBCFG prhs[0]
#define PDSCHCFG prhs[1]
#define TBS prhs[2]
#define INPUT prhs[3]
#define NOF_INPUTS 4
void help()
{
mexErrMsgTxt
("[decoded_ok, llr, rm, bits, symbols] = liblte_pdsch(enbConfig, pdschConfig, trblklen, rxWaveform)\n\n");
}
extern int indices[2048];
/* the gateway function */
void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[])
{
int i;
lte_cell_t cell;
pdsch_t pdsch;
chest_dl_t chest;
lte_fft_t fft;
uint32_t cfi, sf_idx;
cf_t *input_fft, *input_signal;
int nof_re;
ra_mcs_t mcs;
ra_prb_t prb_alloc;
harq_t harq_process;
uint32_t rv;
uint32_t rnti32;
if (nrhs < NOF_INPUTS) {
help();
return;
}
if (mexutils_read_cell(ENBCFG, &cell)) {
help();
return;
}
if (mexutils_read_uint32_struct(PDSCHCFG, "RNTI", &rnti32)) {
mexErrMsgTxt("Field RNTI not found in pdsch config\n");
return;
}
if (mexutils_read_uint32_struct(ENBCFG, "CFI", &cfi)) {
help();
return;
}
if (mexutils_read_uint32_struct(ENBCFG, "NSubframe", &sf_idx)) {
help();
return;
}
if (pdsch_init(&pdsch, cell)) {
mexErrMsgTxt("Error initiating PDSCH\n");
return;
}
pdsch_set_rnti(&pdsch, (uint16_t) (rnti32 & 0xffff));
if (harq_init(&harq_process, cell)) {
mexErrMsgTxt("Error initiating HARQ process\n");
return;
}
if (chest_dl_init(&chest, cell)) {
mexErrMsgTxt("Error initializing equalizer\n");
return;
}
if (lte_fft_init(&fft, cell.cp, cell.nof_prb)) {
mexErrMsgTxt("Error initializing FFT\n");
return;
}
nof_re = 2 * CPNORM_NSYMB * cell.nof_prb * RE_X_RB;
mcs.tbs = mxGetScalar(TBS);
if (mcs.tbs == 0) {
mexErrMsgTxt("Error trblklen is zero\n");
return;
}
if (mexutils_read_uint32_struct(PDSCHCFG, "RV", &rv)) {
mexErrMsgTxt("Field RV not found in pdsch config\n");
return;
}
char *mod_str = mexutils_get_char_struct(PDSCHCFG, "Modulation");
if (!strcmp(mod_str, "QPSK")) {
mcs.mod = LTE_QPSK;
} else if (!strcmp(mod_str, "16QAM")) {
mcs.mod = LTE_QAM16;
} else if (!strcmp(mod_str, "64QAM")) {
mcs.mod = LTE_QAM64;
} else {
mexErrMsgTxt("Unknown modulation\n");
return;
}
mxFree(mod_str);
float *prbset;
mxArray *p;
p = mxGetField(PDSCHCFG, 0, "PRBSet");
if (!p) {
mexErrMsgTxt("Error field PRBSet not found\n");
return;
}
// Only localized PRB supported
prb_alloc.slot[0].nof_prb = mexutils_read_f(p, &prbset);
for (i=0;i<cell.nof_prb;i++) {
prb_alloc.slot[0].prb_idx[i] = false;
for (int j=0;j<prb_alloc.slot[0].nof_prb && !prb_alloc.slot[0].prb_idx[i];j++) {
if ((int) prbset[j] == i) {
prb_alloc.slot[0].prb_idx[i] = true;
}
}
}
memcpy(&prb_alloc.slot[1], &prb_alloc.slot[0], sizeof(ra_prb_slot_t));
free(prbset);
ra_prb_get_re_dl(&prb_alloc, cell.nof_prb, cell.nof_ports, cell.nof_prb<10?(cfi+1):cfi, cell.cp);
if (harq_setup_dl(&harq_process, mcs, rv, sf_idx, &prb_alloc)) {
mexErrMsgTxt("Error configuring HARQ process\n");
return;
}
/** Allocate input buffers */
if (mexutils_read_cf(INPUT, &input_signal) < 0) {
mexErrMsgTxt("Error reading input signal\n");
return;
}
input_fft = vec_malloc(SF_LEN_RE(cell.nof_prb, cell.cp) * sizeof(cf_t));
// Set Channel estimates to 1.0 (ignore fading)
cf_t *ce[MAX_PORTS];
for (i=0;i<cell.nof_ports;i++) {
ce[i] = vec_malloc(SF_LEN_RE(cell.nof_prb, cell.cp) * sizeof(cf_t));
}
lte_fft_run_sf(&fft, input_signal, input_fft);
if (nrhs > NOF_INPUTS) {
cf_t *cearray = NULL;
nof_re = mexutils_read_cf(prhs[NOF_INPUTS], &cearray);
cf_t *cearray_ptr = cearray;
for (i=0;i<cell.nof_ports;i++) {
for (int j=0;j<nof_re/cell.nof_ports;j++) {
ce[i][j] = *cearray;
cearray++;
}
}
if (cearray_ptr)
free(cearray_ptr);
} else {
chest_dl_estimate(&chest, input_fft, ce, sf_idx);
}
float noise_power;
if (nrhs > NOF_INPUTS + 1) {
noise_power = mxGetScalar(prhs[NOF_INPUTS+1]);
} else {
noise_power = chest_dl_get_noise_estimate(&chest);
}
uint8_t *data = malloc(sizeof(uint8_t) * mcs.tbs);
if (!data) {
return;
}
int r = pdsch_decode(&pdsch, &harq_process, input_fft, ce, noise_power, data);
if (nlhs >= 1) {
plhs[0] = mxCreateLogicalScalar(r == 0);
}
if (nlhs >= 2) {
mexutils_write_uint8(data, &plhs[1], mcs.tbs, 1);
}
if (nlhs >= 3) {
mexutils_write_cf(pdsch.pdsch_symbols[0], &plhs[2], harq_process.prb_alloc.re_sf[sf_idx], 1);
}
if (nlhs >= 4) {
mexutils_write_cf(pdsch.pdsch_d, &plhs[3], harq_process.prb_alloc.re_sf[sf_idx], 1);
}
if (nlhs >= 5) {
mexutils_write_f(pdsch.pdsch_e, &plhs[4], harq_process.prb_alloc.re_sf[sf_idx] * lte_mod_bits_x_symbol(mcs.mod), 1);
}
chest_dl_free(&chest);
lte_fft_free(&fft);
pdsch_free(&pdsch);
for (i=0;i<cell.nof_ports;i++) {
free(ce[i]);
}
free(data);
free(input_signal);
free(input_fft);
return;
}