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C

/**
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*
* \section COPYRIGHT
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*
* 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,
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* 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/.
*
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*/
#include <strings.h>
#include <complex.h>
#include <math.h>
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#include "liblte/phy/utils/debug.h"
#include "liblte/phy/common/phy_common.h"
#include "liblte/phy/sync/sync.h"
#include "liblte/phy/utils/vector.h"
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static bool fft_size_isvalid(uint32_t fft_size) {
if (fft_size >= FFT_SIZE_MIN && fft_size <= FFT_SIZE_MAX && (fft_size%64) == 0) {
return true;
} else {
return false;
}
}
int sync_init(sync_t *q, uint32_t frame_size, uint32_t fft_size) {
int ret = LIBLTE_ERROR_INVALID_INPUTS;
if (q != NULL &&
frame_size >= fft_size &&
frame_size <= 307200 &&
fft_size_isvalid(fft_size))
{
bzero(q, sizeof(sync_t));
q->detect_cp = true;
q->normalize_en = true;
q->sss_en = true;
q->N_id_2 = 1000;
q->N_id_1 = 1000;
q->fft_size = fft_size;
q->frame_size = frame_size;
if (pss_synch_init_fft(&q->pss, frame_size, fft_size)) {
fprintf(stderr, "Error initializing PSS object\n");
return LIBLTE_ERROR;
}
if (sss_synch_init(&q->sss, fft_size)) {
fprintf(stderr, "Error initializing SSS object\n");
return LIBLTE_ERROR;
}
DEBUG("SYNC init with frame_size=%d and fft_size=%d\n", frame_size, fft_size);
ret = LIBLTE_SUCCESS;
}
return ret;
}
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void sync_free(sync_t *q) {
if (q) {
pss_synch_free(&q->pss);
sss_synch_free(&q->sss);
}
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}
void sync_set_threshold(sync_t *q, float threshold) {
q->threshold = threshold;
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}
void sync_sss_en(sync_t *q, bool enabled) {
q->sss_en = enabled;
}
void sync_normalize_en(sync_t *q, bool enable) {
q->normalize_en = enable;
}
bool sync_sss_detected(sync_t *q) {
return lte_N_id_1_isvalid(q->N_id_1);
}
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int sync_get_cell_id(sync_t *q) {
if (lte_N_id_2_isvalid(q->N_id_2) && lte_N_id_1_isvalid(q->N_id_1)) {
return q->N_id_1*3 + q->N_id_2;
} else {
fprintf(stderr, "Error getting cell_id, invalid N_id_1 or N_id_2\n");
return LIBLTE_ERROR;
}
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}
int sync_set_N_id_2(sync_t *q, uint32_t N_id_2) {
if (lte_N_id_2_isvalid(N_id_2)) {
q->N_id_2 = N_id_2;
return LIBLTE_SUCCESS;
} else {
fprintf(stderr, "Invalid N_id_2=%d\n", N_id_2);
return LIBLTE_ERROR_INVALID_INPUTS;
}
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}
uint32_t sync_get_sf_idx(sync_t *q) {
return q->sf_idx;
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}
float sync_get_cfo(sync_t *q) {
return q->cfo;
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}
float sync_get_last_peak_value(sync_t *q) {
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return q->peak_value;
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}
float sync_get_peak_value(sync_t *q) {
return q->mean_peak_value;
}
void sync_cp_en(sync_t *q, bool enabled) {
q->detect_cp = enabled;
}
lte_cp_t sync_get_cp(sync_t *q) {
return q->cp;
}
/* CP detection algorithm taken from:
* "SSS Detection Method for Initial Cell Search in 3GPP LTE FDD/TDD Dual Mode Receiver"
* by Jung-In Kim et al.
*/
static lte_cp_t detect_cp(sync_t *q, cf_t *input, uint32_t peak_pos)
{
float R_norm, R_ext, C_norm, C_ext;
float M_norm, M_ext;
R_norm = crealf(vec_dot_prod_conj_ccc(&input[peak_pos-q->fft_size-CP_NORM(7, q->fft_size)],
&input[peak_pos-CP_NORM(7, q->fft_size)],
CP_NORM(7, q->fft_size)));
C_norm = cabsf(vec_dot_prod_conj_ccc(&input[peak_pos-q->fft_size-CP_NORM(7, q->fft_size)],
&input[peak_pos-q->fft_size-CP_NORM(7, q->fft_size)],
CP_NORM(7, q->fft_size)));
R_ext = crealf(vec_dot_prod_conj_ccc(&input[peak_pos-q->fft_size-CP_EXT(q->fft_size)],
&input[peak_pos-CP_EXT(q->fft_size)],
CP_EXT(q->fft_size)));
C_ext = cabsf(vec_dot_prod_conj_ccc(&input[peak_pos-q->fft_size-CP_EXT(q->fft_size)],
&input[peak_pos-q->fft_size-CP_EXT(q->fft_size)],
CP_EXT(q->fft_size)));
M_norm = R_norm/C_norm;
M_ext = R_ext/C_ext;
if (M_norm > M_ext) {
return CPNORM;
} else if (M_norm < M_ext) {
return CPEXT;
} else {
if (R_norm > R_ext) {
return CPNORM;
} else {
return CPEXT;
}
}
}
int sync_sss(sync_t *q, cf_t *input, uint32_t peak_pos) {
uint32_t m0, m1;
int sss_idx, ret;
float m0_value, m1_value;
sss_synch_set_N_id_2(&q->sss, q->N_id_2);
if (q->detect_cp) {
q->cp = detect_cp(q, input, peak_pos);
}
/* Make sure we have enough room to find SSS sequence */
sss_idx = (int) peak_pos - 2*(q->fft_size + CP(q->fft_size, q->cp));
if (sss_idx < 0) {
INFO("Not enough room to decode CP SSS (sss_idx=%d, peak_pos=%d)\n", sss_idx, peak_pos);
return LIBLTE_SUCCESS;
}
/* try Normal CP length */
sss_synch_m0m1(&q->sss, &input[sss_idx], &m0, &m0_value, &m1, &m1_value);
q->sf_idx = sss_synch_subframe(m0, m1);
ret = sss_synch_N_id_1(&q->sss, m0, m1);
if (ret >= 0) {
q->N_id_1 = (uint32_t) ret;
} else {
q->N_id_1 = 1000;
}
DEBUG("SSS detected N_id_1=%d, sf_idx=%d, %s CP\n",
q->N_id_1, q->sf_idx, CP_ISNORM(q->cp)?"Normal":"Extended");
return 1;
}
int sync_find(sync_t *q, cf_t *input, uint32_t find_offset, uint32_t *peak_position)
{
int ret = LIBLTE_ERROR_INVALID_INPUTS;
float peak_unnormalized, energy;
if (q != NULL &&
input != NULL &&
lte_N_id_2_isvalid(q->N_id_2) &&
fft_size_isvalid(q->fft_size))
{
uint32_t peak_pos;
if (peak_position) {
*peak_position = 0;
}
pss_synch_set_N_id_2(&q->pss, q->N_id_2);
peak_pos = pss_synch_find_pss(&q->pss, &input[find_offset], &peak_unnormalized);
if (q->normalize_en &&
peak_pos + find_offset >= q->fft_size &&
peak_pos + find_offset + q->fft_size <= q->frame_size)
{
/* Compute the energy of the received PSS sequence to normalize */
cf_t *pss_ptr = &input[find_offset+peak_pos-q->fft_size];
energy = sqrtf(crealf(vec_dot_prod_conj_ccc(pss_ptr, pss_ptr, q->fft_size)) / (q->fft_size));
q->mean_energy = EXPAVERAGE(energy, q->mean_energy, q->frame_cnt);
} else {
if (q->mean_energy == 0.0) {
q->mean_energy = 1.0;
}
energy = q->mean_energy;
}
/* Normalize and compute mean peak value */
q->peak_value = peak_unnormalized/energy;
q->mean_peak_value = EXPAVERAGE(q->peak_value, q->mean_peak_value, q->frame_cnt);
q->frame_cnt++;
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/* If peak is over threshold, compute CFO and SSS */
if (q->peak_value >= q->threshold) {
if (find_offset + peak_pos >= q->fft_size) {
q->cfo = pss_synch_cfo_compute(&q->pss, &input[find_offset+peak_pos-q->fft_size]);
if (q->sss_en) {
if (sync_sss(q, input, find_offset + peak_pos) < 0) {
fprintf(stderr, "Error synchronizing with SSS\n");
return LIBLTE_ERROR;
}
}
} else {
INFO("Warning: no space for CFO computation\n",0);
}
if (peak_position) {
*peak_position = peak_pos;
}
ret = 1;
} else {
ret = LIBLTE_SUCCESS;
}
INFO("SYNC ret=%d N_id_2=%d pos=%d peak=%.2f energy=%.3f threshold=%.2f sf_idx=%d\n",
ret, q->N_id_2, peak_pos, q->peak_value, energy, q->threshold, q->sf_idx);
} else if (lte_N_id_2_isvalid(q->N_id_2)) {
fprintf(stderr, "Must call sync_set_N_id_2() first!\n");
}
return ret;
}
void sync_reset(sync_t *q) {
q->frame_cnt = 0;
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}