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C

/**
*
* \section COPYRIGHT
*
* Copyright 2013-2015 The srsLTE Developers. See the
* COPYRIGHT file at the top-level directory of this distribution.
*
* \section LICENSE
*
* This file is part of the srsLTE library.
*
* srsLTE is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsLTE 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 Affero General Public License for more details.
*
* A copy of the GNU Affero 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 <stdint.h>
#include <stdio.h>
#include <string.h>
#include <strings.h>
#include <stdlib.h>
#include <stdbool.h>
#include <math.h>
#include "srslte/phch/dci.h"
#include "srslte/phch/regs.h"
#include "srslte/phch/pdcch.h"
#include "srslte/common/phy_common.h"
#include "srslte/utils/bit.h"
#include "srslte/utils/vector.h"
#include "srslte/utils/debug.h"
#define PDCCH_NOF_FORMATS 4
#define PDCCH_FORMAT_NOF_CCE(i) (1<<i)
#define PDCCH_FORMAT_NOF_REGS(i) ((1<<i)*9)
#define PDCCH_FORMAT_NOF_BITS(i) ((1<<i)*72)
static void set_cfi(srslte_pdcch_t *q, uint32_t cfi) {
if (cfi > 0 && cfi < 4) {
q->nof_regs = (srslte_regs_pdcch_nregs(q->regs, cfi) / 9) * 9;
q->nof_cce = q->nof_regs / 9;
}
}
/** Initializes the PDCCH transmitter and receiver */
int srslte_pdcch_init(srslte_pdcch_t *q, srslte_regs_t *regs, srslte_cell_t cell) {
int ret = SRSLTE_ERROR_INVALID_INPUTS;
uint32_t i;
if (q != NULL &&
regs != NULL &&
srslte_cell_isvalid(&cell))
{
ret = SRSLTE_ERROR;
bzero(q, sizeof(srslte_pdcch_t));
q->cell = cell;
q->regs = regs;
if (srslte_precoding_init(&q->precoding, SRSLTE_SF_LEN_RE(cell.nof_prb, cell.cp))) {
fprintf(stderr, "Error initializing precoding\n");
}
/* Allocate memory for the maximum number of PDCCH bits (CFI=3) */
q->max_bits = (srslte_regs_pdcch_nregs(q->regs, 3) / 9) * 72;
INFO("Init PDCCH: Max bits: %d, %d ports.\n",
q->max_bits, q->cell.nof_ports);
if (srslte_modem_table_lte(&q->mod, SRSLTE_MOD_QPSK, true)) {
goto clean;
}
if (srslte_crc_init(&q->crc, SRSLTE_LTE_CRC16, 16)) {
goto clean;
}
for (i = 0; i < SRSLTE_NSUBFRAMES_X_FRAME; i++) {
// we need to pregenerate the sequence for the maximum number of bits, which is 8 times
// the maximum number of REGs (for CFI=3)
if (srslte_sequence_pdcch(&q->seq[i], 2 * i, q->cell.id, 8*srslte_regs_pdcch_nregs(q->regs, 3))) {
goto clean;
}
}
uint32_t poly[3] = { 0x6D, 0x4F, 0x57 };
if (srslte_viterbi_init(&q->decoder, SRSLTE_VITERBI_37, poly, SRSLTE_DCI_MAX_BITS + 16, true)) {
goto clean;
}
q->e = srslte_vec_malloc(sizeof(uint8_t) * q->max_bits);
if (!q->e) {
goto clean;
}
q->llr = srslte_vec_malloc(sizeof(float) * q->max_bits);
if (!q->llr) {
goto clean;
}
bzero(q->llr, sizeof(float) * q->max_bits);
q->d = srslte_vec_malloc(sizeof(cf_t) * q->max_bits / 2);
if (!q->d) {
goto clean;
}
for (i = 0; i < SRSLTE_MAX_PORTS; i++) {
q->ce[i] = srslte_vec_malloc(sizeof(cf_t) * q->max_bits / 2);
if (!q->ce[i]) {
goto clean;
}
q->x[i] = srslte_vec_malloc(sizeof(cf_t) * q->max_bits / 2);
if (!q->x[i]) {
goto clean;
}
q->symbols[i] = srslte_vec_malloc(sizeof(cf_t) * q->max_bits / 2);
if (!q->symbols[i]) {
goto clean;
}
}
ret = SRSLTE_SUCCESS;
}
clean:
if (ret == SRSLTE_ERROR) {
srslte_pdcch_free(q);
}
return ret;
}
void srslte_pdcch_free(srslte_pdcch_t *q) {
int i;
if (q->e) {
free(q->e);
}
if (q->llr) {
free(q->llr);
}
if (q->d) {
free(q->d);
}
for (i = 0; i < SRSLTE_MAX_PORTS; i++) {
if (q->ce[i]) {
free(q->ce[i]);
}
if (q->x[i]) {
free(q->x[i]);
}
if (q->symbols[i]) {
free(q->symbols[i]);
}
}
for (i = 0; i < SRSLTE_NSUBFRAMES_X_FRAME; i++) {
srslte_sequence_free(&q->seq[i]);
}
srslte_precoding_free(&q->precoding);
srslte_modem_table_free(&q->mod);
srslte_viterbi_free(&q->decoder);
bzero(q, sizeof(srslte_pdcch_t));
}
/** 36.213 v9.1.1
* Computes up to max_candidates UE-specific candidates for DCI messages and saves them
* in the structure pointed by c.
* Returns the number of candidates saved in the array c.
*/
uint32_t srslte_pdcch_ue_locations(srslte_pdcch_t *q, srslte_dci_location_t *c, uint32_t max_candidates,
uint32_t nsubframe, uint32_t cfi, uint16_t rnti) {
int l; // this must be int because of the for(;;--) loop
uint32_t i, k, L, m;
uint32_t Yk, ncce;
const int S[4] = { 6, 12, 8, 16 };
set_cfi(q, cfi);
// Compute Yk for this subframe
Yk = rnti;
for (m = 0; m < nsubframe+1; m++) {
Yk = (39827 * Yk) % 65537;
}
k = 0;
// All aggregation levels from 8 to 1
for (l = 0; l < 3; l++) {
L = (1 << l);
// For all possible ncce offset
for (i = 0; i < SRSLTE_MIN(q->nof_cce / L, S[l]/PDCCH_FORMAT_NOF_CCE(l)); i++) {
ncce = L * ((Yk + i) % (q->nof_cce / L));
if (k < max_candidates &&
ncce + PDCCH_FORMAT_NOF_CCE(l) <= q->nof_cce)
{
c[k].L = l;
c[k].ncce = ncce;
DEBUG("UE-specific SS Candidate %d: nCCE: %d, L: %d\n",
k, c[k].ncce, c[k].L);
k++;
}
}
}
DEBUG("Initiated %d candidate(s) in the UE-specific search space for C-RNTI: 0x%x\n", k, rnti);
return k;
}
/**
* 36.213 9.1.1
* Computes up to max_candidates candidates in the common search space
* for DCI messages and saves them in the structure pointed by c.
* Returns the number of candidates saved in the array c.
*/
uint32_t srslte_pdcch_common_locations(srslte_pdcch_t *q, srslte_dci_location_t *c, uint32_t max_candidates,
uint32_t cfi)
{
uint32_t i, l, L, k;
set_cfi(q, cfi);
k = 0;
for (l = 3; l > 1; l--) {
L = (1 << l);
for (i = 0; i < SRSLTE_MIN(q->nof_cce, 16) / (L); i++) {
if (k < max_candidates) {
c[k].L = l;
c[k].ncce = (L) * (i % (q->nof_cce / (L)));
INFO("Common SS Candidate %d: nCCE: %d, L: %d\n",
k, c[k].ncce, c[k].L);
k++;
}
}
}
INFO("Initiated %d candidate(s) in the Common search space\n", k);
return k;
}
/** 36.212 5.3.3.2 to 5.3.3.4
*
* Returns XOR between parity and remainder bits
*
* TODO: UE transmit antenna selection CRC mask
*/
static int dci_decode(srslte_pdcch_t *q, float *e, uint8_t *data, uint32_t E, uint32_t nof_bits, uint16_t *crc) {
uint16_t p_bits, crc_res;
uint8_t *x;
if (q != NULL &&
data != NULL &&
E <= q->max_bits &&
nof_bits <= SRSLTE_DCI_MAX_BITS)
{
bzero(q->rm_f, sizeof(float)*3 * (SRSLTE_DCI_MAX_BITS + 16));
/* unrate matching */
srslte_rm_conv_rx(e, E, q->rm_f, 3 * (nof_bits + 16));
/* viterbi decoder */
srslte_viterbi_decode_f(&q->decoder, q->rm_f, data, nof_bits + 16);
if (SRSLTE_VERBOSE_ISDEBUG()) {
srslte_bit_fprint(stdout, data, nof_bits + 16);
}
x = &data[nof_bits];
p_bits = (uint16_t) srslte_bit_pack(&x, 16);
crc_res = ((uint16_t) srslte_crc_checksum(&q->crc, data, nof_bits) & 0xffff);
DEBUG("p_bits: 0x%x, crc_checksum: 0x%x, crc_rem: 0x%x\n", p_bits, crc_res,
p_bits ^ crc_res);
if (crc) {
*crc = p_bits ^ crc_res;
}
return SRSLTE_SUCCESS;
} else {
fprintf(stderr, "Invalid parameters: E: %d, max_bits: %d, nof_bits: %d\n", E, q->max_bits, nof_bits);
return SRSLTE_ERROR_INVALID_INPUTS;
}
}
/** Tries to decode a DCI message from the LLRs stored in the srslte_pdcch_t structure by the function
* srslte_pdcch_extract_llr(). This function can be called multiple times.
* The decoded message is stored in msg and the CRC remainder in crc_rem pointer
*
*/
int srslte_pdcch_decode_msg(srslte_pdcch_t *q,
srslte_dci_msg_t *msg,
srslte_dci_location_t *location,
srslte_dci_format_t format,
uint16_t *crc_rem)
{
int ret = SRSLTE_ERROR_INVALID_INPUTS;
if (q != NULL &&
msg != NULL &&
srslte_dci_location_isvalid(location) &&
crc_rem != NULL)
{
if (location->ncce * 72 + PDCCH_FORMAT_NOF_BITS(location->L) >
q->nof_cce*72) {
fprintf(stderr, "Invalid location: nCCE: %d, L: %d, NofCCE: %d\n",
location->ncce, location->L, q->nof_cce);
} else {
uint32_t nof_bits = srslte_dci_format_sizeof_lut(format, q->cell.nof_prb);
uint32_t e_bits = PDCCH_FORMAT_NOF_BITS(location->L);
DEBUG("Decoding DCI offset %d, e_bits: %d, msg_len %d (nCCE: %d, L: %d)\n",
location->ncce * 72, e_bits, nof_bits, location->ncce, location->L);
double mean = 0;
for (int i=0;i<e_bits;i++) {
mean += fabsf(q->llr[location->ncce * 72 + i]);
}
mean /= e_bits;
if (mean > 0.5) {
ret = dci_decode(q, &q->llr[location->ncce * 72],
msg->data, e_bits, nof_bits, crc_rem);
if (ret == SRSLTE_SUCCESS) {
msg->nof_bits = nof_bits;
}
} else {
ret = SRSLTE_SUCCESS;
}
}
}
return ret;
}
/** Extracts the LLRs from srslte_dci_location_t location of the subframe and stores them in the srslte_pdcch_t structure.
* DCI messages can be extracted from this location calling the function srslte_pdcch_decode_msg().
* Every time this function is called (with a different location), the last demodulated symbols are overwritten and
* new messages from other locations can be decoded
*/
int srslte_pdcch_extract_llr(srslte_pdcch_t *q, cf_t *sf_symbols, cf_t *ce[SRSLTE_MAX_PORTS], float noise_estimate,
uint32_t nsubframe, uint32_t cfi) {
int ret = SRSLTE_ERROR_INVALID_INPUTS;
/* Set pointers for layermapping & precoding */
uint32_t i, nof_symbols;
cf_t *x[SRSLTE_MAX_LAYERS];
if (q != NULL &&
nsubframe < 10 &&
cfi > 0 &&
cfi < 4)
{
set_cfi(q, cfi);
uint32_t e_bits = 72*q->nof_cce;
nof_symbols = e_bits/2;
ret = SRSLTE_ERROR;
bzero(q->llr, sizeof(float) * q->max_bits);
DEBUG("Extracting LLRs: E: %d, SF: %d, CFI: %d\n",
e_bits, nsubframe, cfi);
/* number of layers equals number of ports */
for (i = 0; i < q->cell.nof_ports; i++) {
x[i] = q->x[i];
}
memset(&x[q->cell.nof_ports], 0, sizeof(cf_t*) * (SRSLTE_MAX_LAYERS - q->cell.nof_ports));
/* extract symbols */
int n = srslte_regs_pdcch_get(q->regs, sf_symbols, q->symbols[0]);
if (nof_symbols != n) {
fprintf(stderr, "Expected %d PDCCH symbols but got %d symbols\n", nof_symbols, n);
return ret;
}
/* extract channel estimates */
for (i = 0; i < q->cell.nof_ports; i++) {
n = srslte_regs_pdcch_get(q->regs, ce[i], q->ce[i]);
if (nof_symbols != n) {
fprintf(stderr, "Expected %d PDCCH symbols but got %d symbols\n", nof_symbols, n);
return ret;
}
}
/* in control channels, only diversity is supported */
if (q->cell.nof_ports == 1) {
/* no need for layer demapping */
srslte_predecoding_single(&q->precoding, q->symbols[0], q->ce[0], q->d, nof_symbols, noise_estimate);
} else {
srslte_predecoding_diversity(&q->precoding, q->symbols[0], q->ce, x, q->cell.nof_ports, nof_symbols, noise_estimate);
srslte_layerdemap_diversity(x, q->d, q->cell.nof_ports, nof_symbols / q->cell.nof_ports);
}
DEBUG("pdcch d symbols: ", 0);
if (SRSLTE_VERBOSE_ISDEBUG()) {
srslte_vec_fprint_c(stdout, q->d, nof_symbols);
}
/* demodulate symbols */
srslte_demod_soft_demodulate_lte(SRSLTE_MOD_QPSK, q->d, q->llr, nof_symbols);
/* descramble */
srslte_scrambling_f_offset(&q->seq[nsubframe], q->llr, 0, e_bits);
ret = SRSLTE_SUCCESS;
}
return ret;
}
static void crc_set_mask_rnti(uint8_t *crc, uint16_t rnti) {
uint32_t i;
uint8_t mask[16];
uint8_t *r = mask;
DEBUG("Mask CRC with RNTI 0x%x\n", rnti);
srslte_bit_unpack(rnti, &r, 16);
for (i = 0; i < 16; i++) {
crc[i] = (crc[i] + mask[i]) % 2;
}
}
/** 36.212 5.3.3.2 to 5.3.3.4
* TODO: UE transmit antenna selection CRC mask
*/
static int dci_encode(srslte_pdcch_t *q, uint8_t *data, uint8_t *e, uint32_t nof_bits, uint32_t E,
uint16_t rnti) {
srslte_convcoder_t encoder;
uint8_t tmp[3 * (SRSLTE_DCI_MAX_BITS + 16)];
if (q != NULL &&
data != NULL &&
e != NULL &&
nof_bits < SRSLTE_DCI_MAX_BITS &&
E < q->max_bits)
{
int poly[3] = { 0x6D, 0x4F, 0x57 };
encoder.K = 7;
encoder.R = 3;
encoder.tail_biting = true;
memcpy(encoder.poly, poly, 3 * sizeof(int));
srslte_crc_attach(&q->crc, data, nof_bits);
crc_set_mask_rnti(&data[nof_bits], rnti);
srslte_convcoder_encode(&encoder, data, tmp, nof_bits + 16);
DEBUG("CConv output: ", 0);
if (SRSLTE_VERBOSE_ISDEBUG()) {
srslte_vec_fprint_b(stdout, tmp, 3 * (nof_bits + 16));
}
srslte_rm_conv_tx(tmp, 3 * (nof_bits + 16), e, E);
return SRSLTE_SUCCESS;
} else {
return SRSLTE_ERROR_INVALID_INPUTS;
}
}
/** Encodes ONE DCI message and allocates the encoded bits to the srslte_dci_location_t indicated by
* the parameter location. The CRC is scrambled with the RNTI parameter.
* This function can be called multiple times and encoded DCI messages will be allocated to the
* sf_symbols buffer ready for transmission.
* If the same location is provided in multiple messages, the encoded bits will be overwritten.
*
* @TODO: Use a bitmask and CFI to ensure message locations are valid and old messages are not overwritten.
*/
int srslte_pdcch_encode(srslte_pdcch_t *q, srslte_dci_msg_t *msg, srslte_dci_location_t location, uint16_t rnti,
cf_t *sf_symbols[SRSLTE_MAX_PORTS], uint32_t nsubframe, uint32_t cfi)
{
int ret = SRSLTE_ERROR_INVALID_INPUTS;
uint32_t i;
cf_t *x[SRSLTE_MAX_LAYERS];
uint32_t nof_symbols;
if (q != NULL &&
sf_symbols != NULL &&
nsubframe < 10 &&
cfi > 0 &&
cfi < 4 &&
srslte_dci_location_isvalid(&location))
{
set_cfi(q, cfi);
uint32_t e_bits = PDCCH_FORMAT_NOF_BITS(location.L);
nof_symbols = e_bits/2;
ret = SRSLTE_ERROR;
if (location.ncce + PDCCH_FORMAT_NOF_CCE(location.L) <= q->nof_cce &&
msg->nof_bits < SRSLTE_DCI_MAX_BITS)
{
DEBUG("Encoding DCI: Nbits: %d, E: %d, nCCE: %d, L: %d, RNTI: 0x%x\n",
msg->nof_bits, e_bits, location.ncce, location.L, rnti);
dci_encode(q, msg->data, q->e, msg->nof_bits, e_bits, rnti);
/* number of layers equals number of ports */
for (i = 0; i < q->cell.nof_ports; i++) {
x[i] = q->x[i];
}
memset(&x[q->cell.nof_ports], 0, sizeof(cf_t*) * (SRSLTE_MAX_LAYERS - q->cell.nof_ports));
srslte_scrambling_b_offset(&q->seq[nsubframe], q->e, 72 * location.ncce, e_bits);
DEBUG("Scrambling output: ", 0);
if (SRSLTE_VERBOSE_ISDEBUG()) {
srslte_vec_fprint_b(stdout, q->e, e_bits);
}
srslte_mod_modulate(&q->mod, q->e, q->d, e_bits);
/* layer mapping & precoding */
if (q->cell.nof_ports > 1) {
srslte_layermap_diversity(q->d, x, q->cell.nof_ports, nof_symbols);
srslte_precoding_diversity(&q->precoding, x, q->symbols, q->cell.nof_ports, nof_symbols / q->cell.nof_ports);
} else {
memcpy(q->symbols[0], q->d, nof_symbols * sizeof(cf_t));
}
/* mapping to resource elements */
for (i = 0; i < q->cell.nof_ports; i++) {
srslte_regs_pdcch_put_offset(q->regs, q->symbols[i], sf_symbols[i],
location.ncce * 9, PDCCH_FORMAT_NOF_REGS(location.L));
}
ret = SRSLTE_SUCCESS;
} else {
fprintf(stderr, "Illegal DCI message nCCE: %d, L: %d, nof_cce: %d\n", location.ncce, location.L, q->nof_cce);
}
}
return ret;
}