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C

/**
* Copyright 2013-2022 Software Radio Systems Limited
*
* This file is part of srsRAN.
*
* srsRAN 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.
*
* srsRAN 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/.
*
*/
/******************************************************************************
* File: enb_dl.h
*
* Description: ENB downlink object.
*
* This module is a frontend to all the downlink data and control
* channel processing modules for the ENB transmitter side.
*
* Reference:
*****************************************************************************/
#ifndef SRSRAN_ENB_DL_H
#define SRSRAN_ENB_DL_H
#include <stdbool.h>
#include "srsran/phy/ch_estimation/refsignal_dl.h"
#include "srsran/phy/common/phy_common.h"
#include "srsran/phy/dft/ofdm.h"
#include "srsran/phy/phch/dci.h"
#include "srsran/phy/phch/pbch.h"
#include "srsran/phy/phch/pcfich.h"
#include "srsran/phy/phch/pdcch.h"
#include "srsran/phy/phch/pdsch.h"
#include "srsran/phy/phch/pdsch_cfg.h"
#include "srsran/phy/phch/phich.h"
#include "srsran/phy/phch/pmch.h"
#include "srsran/phy/phch/ra.h"
#include "srsran/phy/phch/regs.h"
#include "srsran/phy/sync/pss.h"
#include "srsran/phy/sync/sss.h"
#include "srsran/phy/enb/enb_ul.h"
#include "srsran/phy/ue/ue_dl.h"
#include "srsran/phy/utils/debug.h"
#include "srsran/phy/utils/vector.h"
#include "srsran/config.h"
typedef struct SRSRAN_API {
srsran_cell_t cell;
srsran_dl_sf_cfg_t dl_sf;
srsran_cfr_cfg_t cfr_config;
cf_t* sf_symbols[SRSRAN_MAX_PORTS];
cf_t* out_buffer[SRSRAN_MAX_PORTS];
srsran_ofdm_t ifft[SRSRAN_MAX_PORTS];
srsran_ofdm_t ifft_mbsfn;
srsran_pbch_t pbch;
srsran_pcfich_t pcfich;
srsran_regs_t regs;
srsran_pdcch_t pdcch;
srsran_pdsch_t pdsch;
srsran_pmch_t pmch;
srsran_phich_t phich;
srsran_refsignal_t csr_signal;
srsran_refsignal_t mbsfnr_signal;
cf_t pss_signal[SRSRAN_PSS_LEN];
float sss_signal0[SRSRAN_SSS_LEN];
float sss_signal5[SRSRAN_SSS_LEN];
uint32_t nof_common_locations[3];
srsran_dci_location_t common_locations[3][SRSRAN_MAX_CANDIDATES_COM];
} srsran_enb_dl_t;
typedef struct {
uint8_t ack;
uint32_t n_prb_lowest;
uint32_t n_dmrs;
} srsran_enb_dl_phich_t;
/* This function shall be called just after the initial synchronization */
SRSRAN_API int srsran_enb_dl_init(srsran_enb_dl_t* q, cf_t* out_buffer[SRSRAN_MAX_PORTS], uint32_t max_prb);
SRSRAN_API void srsran_enb_dl_free(srsran_enb_dl_t* q);
SRSRAN_API int srsran_enb_dl_set_cell(srsran_enb_dl_t* q, srsran_cell_t cell);
SRSRAN_API int srsran_enb_dl_set_cfr(srsran_enb_dl_t* q, const srsran_cfr_cfg_t* cfr);
SRSRAN_API bool srsran_enb_dl_location_is_common_ncce(srsran_enb_dl_t* q, const srsran_dci_location_t* loc);
SRSRAN_API void srsran_enb_dl_put_base(srsran_enb_dl_t* q, srsran_dl_sf_cfg_t* dl_sf);
SRSRAN_API void srsran_enb_dl_put_phich(srsran_enb_dl_t* q, srsran_phich_grant_t* grant, bool ack);
SRSRAN_API int srsran_enb_dl_put_pdcch_dl(srsran_enb_dl_t* q, srsran_dci_cfg_t* dci_cfg, srsran_dci_dl_t* dci_dl);
SRSRAN_API int srsran_enb_dl_put_pdcch_ul(srsran_enb_dl_t* q, srsran_dci_cfg_t* dci_cfg, srsran_dci_ul_t* dci_ul);
SRSRAN_API int
srsran_enb_dl_put_pdsch(srsran_enb_dl_t* q, srsran_pdsch_cfg_t* pdsch, uint8_t* data[SRSRAN_MAX_CODEWORDS]);
SRSRAN_API int srsran_enb_dl_put_pmch(srsran_enb_dl_t* q, srsran_pmch_cfg_t* pmch_cfg, uint8_t* data);
SRSRAN_API void srsran_enb_dl_gen_signal(srsran_enb_dl_t* q);
SRSRAN_API bool srsran_enb_dl_gen_cqi_periodic(const srsran_cell_t* cell,
const srsran_dl_cfg_t* dl_cfg,
uint32_t tti,
uint32_t last_ri,
srsran_cqi_cfg_t* cqi_cfg);
SRSRAN_API bool srsran_enb_dl_gen_cqi_aperiodic(const srsran_cell_t* cell,
const srsran_dl_cfg_t* dl_cfg,
uint32_t ri,
srsran_cqi_cfg_t* cqi_cfg);
SRSRAN_API void srsran_enb_dl_save_signal(srsran_enb_dl_t* q);
/**
* Generates the uplink control information configuration from the cell, subframe and HARQ ACK information. Note that
* it expects the UCI configuration shall have been configured already with scheduling request and channel quality
* information prior to this call.
*
* @param cell points to the physical layer cell parameters
* @param sf points to the subframe configuration
* @param ack_info is the HARQ-ACK information
* @param uci_cfg the UCI configuration destination
*/
SRSRAN_API void srsran_enb_dl_gen_ack(const srsran_cell_t* cell,
const srsran_dl_sf_cfg_t* sf,
const srsran_pdsch_ack_t* ack_info,
srsran_uci_cfg_t* uci_cfg);
/**
* gets the HARQ-ACK values from the received Uplink Control Information configuration, the cell, and HARQ ACK
* info itself. Note that it expects that the HARQ-ACK info has been set prior the UCI Data decoding.
*
* @param cell points to the physical layer cell parameters
* @param uci_cfg points to the UCI configration
* @param uci_value points to the received UCI values
* @param ack_info is the HARQ-ACK information
*/
SRSRAN_API void srsran_enb_dl_get_ack(const srsran_cell_t* cell,
const srsran_uci_cfg_t* uci_cfg,
const srsran_uci_value_t* uci_value,
srsran_pdsch_ack_t* pdsch_ack);
/**
* Gets the maximum signal power in decibels full scale. It is equivalent to the transmit power if all resource elements
* were populated.
* @return The maximum power
*/
SRSRAN_API float srsran_enb_dl_get_maximum_signal_power_dBfs(uint32_t nof_prb);
#endif // SRSRAN_ENB_DL_H