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/**
*
* \section COPYRIGHT
*
* Copyright 2013-2021 Software Radio Systems Limited
*
* By using this file, you agree to the terms and conditions set
* forth in the LICENSE file which can be found at the top level of
* the distribution.
*
*/
/**
* \brief Structures and utility functions for DL/UL resource allocation for NB-IoT.
*
* Reference: 3GPP TS 36.213 version 13.2.0 Release 13
*/
#ifndef SRSRAN_RA_NBIOT_H
#define SRSRAN_RA_NBIOT_H
#include <stdbool.h>
#include <stdint.h>
#include "srsran/config.h"
#include "srsran/phy/common/phy_common.h"
#include "srsran/phy/phch/npbch.h"
#include "srsran/phy/phch/ra.h"
#define SRSRAN_NPUSCH_MAX_SC 12
#define SRSRAN_NPUSCH_MAX_SLOTS (16 * SRSRAN_NPUSCH_N_RU_MAX)
#define SRSRAN_NPUSCH_MAX_SF (SRSRAN_NPUSCH_MAX_SLOTS / 2)
#define SRSRAN_NPUSCH_N_REP_MAX 128
#define SRSRAN_NPUSCH_N_RU_MAX 10
#define SRSRAN_NPUSCH_MAX_NOF_RU_SLOTS_PROD 24
#define SRSRAN_NPUSCH_FORMAT2_MAX_SLOTS 4
#define DUMMY_R_MAX 64
#define SIB1_NB_TTI 256
#define SIB1_NB_MAX_REP 16
/// All System Information types defined for NB-IoT
typedef enum SRSRAN_API {
SRSRAN_NBIOT_SI_TYPE_MIB = 0, ///< Essential information required to receive further sys information
SRSRAN_NBIOT_SI_TYPE_SIB1, ///< Cell access and selection, other SIB scheduling
SRSRAN_NBIOT_SI_TYPE_SIB2, ///< Radio resource configuration information
SRSRAN_NBIOT_SI_TYPE_SIB3, ///< Cell re-selection information for intra-frequency, inter-frequency
SRSRAN_NBIOT_SI_TYPE_SIB4, ///< Neighboring cell related information relevant for intra-frequency cell re-selection
SRSRAN_NBIOT_SI_TYPE_SIB5, ///< Neighboring cell related information relevant for inter-frequency cell re-selection
SRSRAN_NBIOT_SI_TYPE_SIB14, ///< Access Barring parameters
SRSRAN_NBIOT_SI_TYPE_SIB16, ///< Information related to GPS time and Coordinated Universal Time (UTC)
SRSRAN_NBIOT_SI_TYPE_NITEMS
} srsran_nbiot_si_type_t;
typedef struct SRSRAN_API {
bool has_sib1; ///< Whether this NPDSCH carries SystemInformationBlockType1-NB
bool is_ra; ///< Order is set to 1 for random access procedure
uint32_t nprach_start; ///< Starting number for NPRACH repetitions
uint32_t nprach_sc; ///< Subcarrier indication of NPRACH
uint32_t i_delay; ///< Scheduling delay
uint32_t i_sf; ///< Resource assignment, i.e. number of subframes
uint32_t i_rep; ///< Repetition number
uint32_t i_n_start; ///< The starting OFDM symbol signalled through RRC
uint32_t harq_ack; ///< HARQ-ACK resource
uint32_t dci_sf_rep_num; ///< DCI subframe repetition number
uint32_t sched_info_sib1; ///< broadcasted through MIB-NB for TBS calculation
} srsran_ra_nbiot_t;
/// This shall be replaced/moved by proper structures and packing/unpacking based on ASN1
typedef struct SRSRAN_API {
uint32_t n; ///< Index of entry in schedulingInfoList
uint32_t si_periodicity;
uint32_t si_radio_frame_offset;
uint32_t si_repetition_pattern;
uint32_t si_tb;
uint32_t si_window_length;
} srsran_nbiot_si_params_t;
typedef enum SRSRAN_API {
SRSRAN_NPUSCH_FORMAT1 = 0,
SRSRAN_NPUSCH_FORMAT2,
SRSRAN_NPUSCH_FORMAT_NITEMS
} srsran_npusch_format_t;
static const char srsran_npusch_format_text[SRSRAN_NPUSCH_FORMAT_NITEMS][20] = {"Format 1 (UL-SCH)", "Format 2 (UCI)"};
typedef enum SRSRAN_API {
SRSRAN_NPUSCH_SC_SPACING_15000 = 0,
SRSRAN_NPUSCH_SC_SPACING_3750 = 1,
SRSRAN_NPUSCH_SC_SPACING_NITEMS
} srsran_npusch_sc_spacing_t;
static const char srsran_npusch_sc_spacing_text[SRSRAN_NPUSCH_SC_SPACING_NITEMS][20] = {"15kHz", "3.75kHz"};
/**************************************************
* Structures used for Downlink Resource Allocation
**************************************************/
typedef struct SRSRAN_API {
uint32_t Qm;
srsran_ra_tb_t mcs[SRSRAN_MAX_TB];
uint32_t start_hfn;
uint32_t start_sfn;
uint32_t start_sfidx;
uint32_t k0;
uint32_t nof_sf;
uint32_t nof_rep;
uint32_t l_start;
uint32_t ack_nack_resource;
srsran_nbiot_mode_t mode; ///< needed to compute starting symbol for NPDSCH
bool has_sib1;
} srsran_ra_nbiot_dl_grant_t;
/// Unpacked DCI message for DL grant
typedef struct SRSRAN_API {
uint32_t format; ///< Flag for format N0/format N1 differentiation 1 bit, 0 for format N0 and value 1 for format N1
srsran_ra_nbiot_t alloc;
uint32_t mcs_idx;
int rv_idx;
bool ndi;
// Format N2 specifics
bool dci_is_n2;
uint8_t dir_indication_info;
} srsran_ra_nbiot_dl_dci_t;
/// Structures used for Uplink Resource Allocation
/// Unpacked DCI message
typedef struct SRSRAN_API {
srsran_npusch_sc_spacing_t sc_spacing;
uint32_t format; ///< Flag for format N0/format N1 differentiation 1 bit, 0 for format N0 and value 1 for format N1
uint32_t i_sc; ///< Subcarrier indication field
uint32_t i_delay; ///< Scheduling delay
uint32_t i_ru; ///< Resource assignment, i.e. number of resource units
uint32_t i_mcs; ///< MCS field
uint32_t i_rv; ///< Redundency version
uint32_t i_rep; ///< Repetition number
bool ndi; ///< New data indicator
uint32_t dci_sf_rep_num; ///< DCI subframe repetition number
} srsran_ra_nbiot_ul_dci_t;
typedef struct SRSRAN_API {
uint32_t Qm;
srsran_ra_tb_t mcs;
uint32_t k0; ///< TODO: consider removing k0 and compute tx_tti directly
uint32_t nof_rep; ///< number of repetitions
uint32_t nof_ru; ///< Number of resource units
uint32_t nof_slots;
uint32_t nof_sc; ///< The total number of Subcarriers (N_sc_RU)
uint32_t sc_alloc_set[SRSRAN_NPUSCH_MAX_SC]; ///< The set of subcarriers
uint32_t rv_idx;
uint32_t tx_tti;
srsran_npusch_sc_spacing_t sc_spacing;
srsran_npusch_format_t format;
} srsran_ra_nbiot_ul_grant_t;
typedef union {
srsran_ra_nbiot_ul_grant_t ul;
srsran_ra_nbiot_dl_grant_t dl;
} srsran_nbiot_phy_grant_t;
#define SRSRAN_NBIOT_PHY_GRANT_LEN sizeof(srsran_nbiot_phy_grant_t)
/// Structure that gives the number of encoded bits and RE for a UL/DL grant
typedef struct {
uint32_t lstart;
uint32_t nof_symb;
uint32_t nof_bits;
uint32_t nof_re;
} srsran_ra_nbits_t;
/// According to Section 16.3.3 in TS 36.213 v13.3
typedef struct SRSRAN_API {
uint32_t sc_spacing; ///< SC spacing (1bit)
uint32_t i_sc; ///< Subcarrier indication field (6bits)
uint32_t i_delay; ///< Scheduling delay (2bits)
uint32_t n_rep; ///< Repetition number (3bits) (Is this i_rep or N_rep?)
uint32_t i_mcs; ///< MCS field (3bits), according to 16.3.3-1
} srsran_nbiot_dci_rar_grant_t;
/// Functions
SRSRAN_API int srsran_ra_nbiot_dl_dci_to_grant(srsran_ra_nbiot_dl_dci_t* dci,
srsran_ra_nbiot_dl_grant_t* grant,
uint32_t sfn,
uint32_t sf_idx,
uint32_t r_max,
bool is_prescheduled,
srsran_nbiot_mode_t mode);
SRSRAN_API void srsran_ra_nbiot_dl_grant_to_nbits(srsran_ra_nbiot_dl_grant_t* grant,
srsran_nbiot_cell_t cell,
uint32_t sf_idx,
srsran_ra_nbits_t* nbits);
SRSRAN_API void
srsran_ra_nbiot_ul_get_uci_grant(srsran_ra_nbiot_ul_grant_t* grant, const uint8_t resource_field, const uint32_t tti);
SRSRAN_API int srsran_ra_nbiot_ul_dci_to_grant(srsran_ra_nbiot_ul_dci_t* dci,
srsran_ra_nbiot_ul_grant_t* grant,
uint32_t rx_tti,
srsran_npusch_sc_spacing_t spacing);
SRSRAN_API void srsran_ra_nbiot_ul_grant_to_nbits(srsran_ra_nbiot_ul_grant_t* grant, srsran_ra_nbits_t* nbits);
SRSRAN_API int
srsran_ra_nbiot_ul_rar_dci_to_grant(srsran_ra_nbiot_ul_dci_t* dci, srsran_ra_nbiot_ul_grant_t* grant, uint32_t rx_tti);
SRSRAN_API void srsran_ra_npdsch_fprint(FILE* f, srsran_ra_nbiot_dl_dci_t* ra, uint32_t nof_prb);
SRSRAN_API void srsran_ra_npusch_fprint(FILE* f, srsran_ra_nbiot_ul_dci_t* dci);
SRSRAN_API void srsran_nbiot_dl_dci_fprint(FILE* f, srsran_ra_nbiot_dl_dci_t* dci);
/*!
* Checks if TTI contains reference signal
* In safe mode only those subframes that are guaranteed to contain
* NRS are considered.
*
* \param tti the TTI in question
* \return true if TTI contains DL ref signal
*/
SRSRAN_API bool srsran_ra_nbiot_dl_has_ref_signal(uint32_t tti);
/*!
* Checks if TTI contains reference signal for standalone deployment
*
* \param tti the TTI in question
* \return true if TTI contains DL ref signal
*/
SRSRAN_API bool srsran_ra_nbiot_dl_has_ref_signal_standalone(uint32_t tti);
/*!
* Checks if TTI contains reference signal for inband deployments
*
* \param tti the TTI in question
* \return true if TTI contains DL ref signal
*/
SRSRAN_API bool srsran_ra_nbiot_dl_has_ref_signal_inband(uint32_t tti);
/*!
* Checks if TTI is a valid downlink TTI, i.e., can carry either a NPDCCH or NPDSCH
*
* \param tti the TTI in question
* \return true if TTI is valid DL TTI
*/
SRSRAN_API bool srsran_ra_nbiot_is_valid_dl_sf(uint32_t tti);
/*!
* Calculate the number of resource elements per subframe that carry data
*
* \param cell the cell structure
* \param l_start the starting OFDM symbols that carries data
* \return the number of resource elements
*/
SRSRAN_API uint32_t srsran_ra_nbiot_dl_grant_nof_re(srsran_nbiot_cell_t cell, uint32_t l_start);
SRSRAN_API void srsran_ra_nbiot_dl_grant_fprint(FILE* f, srsran_ra_nbiot_dl_grant_t* grant);
SRSRAN_API void srsran_ra_nbiot_ul_grant_fprint(FILE* f, srsran_ra_nbiot_ul_grant_t* grant);
SRSRAN_API int srsran_ra_n_rep_sib1_nb(srsran_mib_nb_t* mib);
SRSRAN_API int srsran_ra_nbiot_get_sib1_tbs(srsran_mib_nb_t* mib);
SRSRAN_API int srsran_ra_nbiot_get_npdsch_tbs(uint32_t i_tbs, uint32_t i_sf);
SRSRAN_API int srsran_ra_nbiot_get_npusch_tbs(uint32_t i_tbs, uint32_t i_ru);
SRSRAN_API int srsran_ra_nbiot_get_starting_sib1_frame(uint32_t cell_id, srsran_mib_nb_t* mib);
SRSRAN_API int srsran_ra_nbiot_sib1_start(uint32_t n_id_ncell, srsran_mib_nb_t* mib);
SRSRAN_API float srsran_ra_nbiot_get_delta_f(srsran_npusch_sc_spacing_t spacing);
#endif // SRSRAN_RA_NBIOT_H