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srsRAN_4G/lib/test/phy/pucch_ca_test.c

171 lines
6.3 KiB
C

/**
* Copyright 2013-2021 Software Radio Systems Limited
*
* This file is part of srsLTE.
*
* 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 <srsran/common/test_common.h>
#include <srsran/phy/utils/random.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <sys/time.h>
#include <unistd.h>
#include "srsran/srsran.h"
static int test_pucch_ca(srsran_ack_nack_feedback_mode_t ack_nack_feedback_mode,
uint32_t nof_prb,
const uint32_t* nof_tb,
uint16_t nof_carriers)
{
srsran_pucch_cfg_t pucch_cfg = {};
uint16_t rnti = 0x1234;
srsran_cell_t cell = {
nof_prb, // nof_prb
1, // nof_ports
1, // cell_id
SRSRAN_CP_NORM, // cyclic prefix
SRSRAN_PHICH_NORM, // PHICH length
SRSRAN_PHICH_R_1_6, // PHICH resources
SRSRAN_FDD,
};
cf_t* buffer = NULL;
srsran_refsignal_dmrs_pusch_cfg_t dmrs_pusch_cfg = {}; // Use default
srsran_ue_ul_t ue_ul = {};
srsran_ue_ul_cfg_t ue_ul_cfg = {};
srsran_enb_ul_t enb_ul = {};
srsran_ul_sf_cfg_t ul_sf = {};
srsran_pucch_res_t pucch_res = {};
srsran_pusch_data_t pusch_data = {};
// Basic default args
pucch_cfg.delta_pucch_shift = 1; // 1, 2, 3
pucch_cfg.n_rb_2 = 1; // 0, 1, ..., 98
pucch_cfg.N_cs = 1; // 0, 1, ..., 7
pucch_cfg.N_pucch_1 = 1; // 0, 1, ..., 2047
pucch_cfg.ack_nack_feedback_mode = ack_nack_feedback_mode; // Normal, CS, PUCCH3
// Set Channel Selection resources
for (uint32_t i = 0, k = 6; i < SRSRAN_PUCCH_SIZE_AN_CS; i++) {
for (uint32_t j = 0; j < SRSRAN_PUCCH_NOF_AN_CS; j++, k++) {
pucch_cfg.n1_pucch_an_cs[i][j] = k;
}
}
uint32_t base_ncce = 1;
for (uint32_t i = 0; i < nof_carriers; base_ncce += nof_tb[i++]) {
pucch_cfg.uci_cfg.ack[i].grant_cc_idx = 0; // 0: PCell Scheduling; 1: SCell Scheduling
pucch_cfg.uci_cfg.ack[i].ncce[0] = base_ncce; // PDCCH Location, 0 is always fine
pucch_cfg.uci_cfg.ack[i].nof_acks = nof_tb[i]; // Number of transport blocks, 1 or 2
}
// Set derived parameters
pucch_cfg.rnti = rnti;
// Init buffers
buffer = srsran_vec_cf_malloc(SRSRAN_SF_LEN_PRB(cell.nof_prb));
TESTASSERT(buffer);
// Init UE
TESTASSERT(!srsran_ue_ul_init(&ue_ul, buffer, cell.nof_prb));
TESTASSERT(!srsran_ue_ul_set_cell(&ue_ul, cell));
// Init eNb
TESTASSERT(!srsran_enb_ul_init(&enb_ul, buffer, cell.nof_prb));
TESTASSERT(!srsran_enb_ul_set_cell(&enb_ul, cell, &dmrs_pusch_cfg, NULL));
// The test itself starts here
for (ul_sf.tti = 0; ul_sf.tti < (1U << (nof_carriers * 2U)); ul_sf.tti++) {
// Generate new data
pusch_data.uci.ack.valid = true;
for (uint32_t i = 0, k = 0; i < nof_carriers; i++) {
for (uint32_t j = 0; j < nof_tb[i]; j++, k++) {
pusch_data.uci.ack.ack_value[k] = (ul_sf.tti >> k) & 1U;
}
}
// Copy UL configuration
ue_ul_cfg.ul_cfg.pucch = pucch_cfg;
// Generate UL Signal
TESTASSERT(srsran_ue_ul_encode(&ue_ul, &ul_sf, &ue_ul_cfg, &pusch_data) >= SRSRAN_SUCCESS);
// Process UL signal
srsran_enb_ul_fft(&enb_ul);
TESTASSERT(!srsran_enb_ul_get_pucch(&enb_ul, &ul_sf, &pucch_cfg, &pucch_res));
TESTASSERT(pucch_res.detected);
TESTASSERT(pucch_res.uci_data.ack.valid);
// Check results
for (int i = 0, k = 0; i < nof_carriers; i++) {
for (int j = 0; j < nof_tb[i]; j++, k++) {
INFO("cc=%d; tb=%d; tx_ack=%d; rx_ack=%d;",
i,
j,
pusch_data.uci.ack.ack_value[k],
pucch_res.uci_data.ack.ack_value[k]);
TESTASSERT(pusch_data.uci.ack.ack_value[k] == pucch_res.uci_data.ack.ack_value[k]);
}
}
}
// Free all
srsran_ue_ul_free(&ue_ul);
srsran_enb_ul_free(&enb_ul);
free(buffer);
return SRSRAN_SUCCESS;
}
int main(int argc, char** argv)
{
// Set PHY lib verbose to INFO
srsran_verbose = SRSRAN_VERBOSE_INFO;
uint32_t nof_tb_1[SRSRAN_MAX_CARRIERS] = {1, 1, 1, 1, 1};
uint32_t nof_tb_2[SRSRAN_MAX_CARRIERS] = {2, 1, 1, 1, 1};
uint32_t nof_tb_3[SRSRAN_MAX_CARRIERS] = {2, 2, 2, 2, 2};
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_CS, 6, nof_tb_1, 2));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_CS, 6, nof_tb_2, 2));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_CS, 6, nof_tb_3, 2));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_CS, 100, nof_tb_1, 2));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_CS, 100, nof_tb_2, 2));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_CS, 100, nof_tb_3, 2));
for (uint32_t i = 2; i < SRSRAN_PUCCH_FORMAT3_MAX_CARRIERS; i++) {
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_PUCCH3, 6, nof_tb_1, i));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_PUCCH3, 6, nof_tb_2, i));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_PUCCH3, 6, nof_tb_3, i));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_PUCCH3, 100, nof_tb_1, i));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_PUCCH3, 100, nof_tb_2, i));
TESTASSERT(!test_pucch_ca(SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_PUCCH3, 100, nof_tb_3, i));
}
printf("Ok\n");
return SRSRAN_SUCCESS;
}