/** * Copyright 2013-2021 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: phy_common.h * * Description: Common parameters and lookup functions for PHY * * Reference: 3GPP TS 36.211 version 10.0.0 Release 10 *********************************************************************************************/ #ifndef SRSRAN_PHY_COMMON_H #define SRSRAN_PHY_COMMON_H #include #include #include #include #ifdef __cplusplus extern "C" { #endif #include "srsran/config.h" #define SRSRAN_NOF_SF_X_FRAME 10 #define SRSRAN_NOF_SLOTS_PER_SF 2 #define SRSRAN_NSLOTS_X_FRAME (SRSRAN_NOF_SLOTS_PER_SF * SRSRAN_NOF_SF_X_FRAME) #define SRSRAN_NSOFT_BITS 250368 // Soft buffer size for Category 1 UE #define SRSRAN_PC_MAX 23 // Maximum TX power for Category 1 UE (in dBm) #define SRSRAN_NOF_NID_1 (168) #define SRSRAN_NOF_NID_2 (3) #define SRSRAN_NUM_PCI (SRSRAN_NOF_NID_1 * SRSRAN_NOF_NID_2) #define SRSRAN_MAX_CARRIERS 5 // Maximum number of supported simultaneous carriers #define SRSRAN_MAX_PORTS 4 #define SRSRAN_MAX_CHANNELS (SRSRAN_MAX_CARRIERS * SRSRAN_MAX_PORTS) #define SRSRAN_MAX_LAYERS 4 #define SRSRAN_MAX_CODEWORDS 2 #define SRSRAN_MAX_TB SRSRAN_MAX_CODEWORDS #define SRSRAN_MAX_QM 8 #define SRSRAN_MAX_CODEBLOCKS 32 #define SRSRAN_MAX_CODEBOOKS 4 #define SRSRAN_NOF_CFI 3 #define SRSRAN_CFI_ISVALID(x) ((x >= 1 && x <= 3)) #define SRSRAN_CFI_IDX(x) ((x - 1) % SRSRAN_NOF_CFI) #define SRSRAN_LTE_CRC24A 0x1864CFB #define SRSRAN_LTE_CRC24B 0X1800063 #define SRSRAN_LTE_CRC24C 0X1B2B117 #define SRSRAN_LTE_CRC16 0x11021 #define SRSRAN_LTE_CRC11 0xE21 #define SRSRAN_LTE_CRC8 0x19B #define SRSRAN_LTE_CRC6 0x61 #define SRSRAN_MAX_MBSFN_AREA_IDS 256 #define SRSRAN_PMCH_RV 0 typedef enum { SRSRAN_CP_NORM = 0, SRSRAN_CP_EXT } srsran_cp_t; typedef enum { SRSRAN_SF_NORM = 0, SRSRAN_SF_MBSFN } srsran_sf_t; #define SRSRAN_INVALID_RNTI 0x0 // TS 36.321 - Table 7.1-1 RNTI 0x0 isn't a valid DL RNTI #define SRSRAN_CRNTI_START 0x000B #define SRSRAN_CRNTI_END 0xFFF3 #define SRSRAN_RARNTI_START 0x0001 #define SRSRAN_RARNTI_END 0x000A #define SRSRAN_SIRNTI 0xFFFF #define SRSRAN_PRNTI 0xFFFE #define SRSRAN_MRNTI 0xFFFD #define SRSRAN_RNTI_ISRAR(rnti) (rnti >= SRSRAN_RARNTI_START && rnti <= SRSRAN_RARNTI_END) #define SRSRAN_RNTI_ISUSER(rnti) (rnti >= SRSRAN_CRNTI_START && rnti <= SRSRAN_CRNTI_END) #define SRSRAN_RNTI_ISSI(rnti) (rnti == SRSRAN_SIRNTI) #define SRSRAN_RNTI_ISPA(rnti) (rnti == SRSRAN_PRNTI) #define SRSRAN_RNTI_ISMBSFN(rnti) (rnti == SRSRAN_MRNTI) #define SRSRAN_RNTI_ISSIRAPA(rnti) (SRSRAN_RNTI_ISSI(rnti) || SRSRAN_RNTI_ISRAR(rnti) || SRSRAN_RNTI_ISPA(rnti)) #define SRSRAN_CELL_ID_UNKNOWN 1000 #define SRSRAN_MAX_NSYMB 7 #define SRSRAN_MAX_PRB 110 #define SRSRAN_NRE 12 #define SRSRAN_SYMBOL_SZ_MAX 2048 #define SRSRAN_CP_NORM_NSYMB 7 #define SRSRAN_CP_NORM_SF_NSYMB (2 * SRSRAN_CP_NORM_NSYMB) #define SRSRAN_CP_NORM_0_LEN 160 #define SRSRAN_CP_NORM_LEN 144 #define SRSRAN_CP_EXT_NSYMB 6 #define SRSRAN_CP_EXT_SF_NSYMB (2 * SRSRAN_CP_EXT_NSYMB) #define SRSRAN_CP_EXT_LEN 512 #define SRSRAN_CP_EXT_7_5_LEN 1024 #define SRSRAN_CP_ISNORM(cp) (cp == SRSRAN_CP_NORM) #define SRSRAN_CP_ISEXT(cp) (cp == SRSRAN_CP_EXT) #define SRSRAN_CP_NSYMB(cp) (SRSRAN_CP_ISNORM(cp) ? SRSRAN_CP_NORM_NSYMB : SRSRAN_CP_EXT_NSYMB) #define SRSRAN_CP_LEN(symbol_sz, c) ((int)ceilf((((float)(c) * (symbol_sz)) / 2048.0f))) #define SRSRAN_CP_LEN_NORM(symbol, symbol_sz) \ (((symbol) == 0) ? SRSRAN_CP_LEN((symbol_sz), SRSRAN_CP_NORM_0_LEN) : SRSRAN_CP_LEN((symbol_sz), SRSRAN_CP_NORM_LEN)) #define SRSRAN_CP_LEN_EXT(symbol_sz) (SRSRAN_CP_LEN((symbol_sz), SRSRAN_CP_EXT_LEN)) #define SRSRAN_CP_SZ(symbol_sz, cp) \ (SRSRAN_CP_LEN(symbol_sz, (SRSRAN_CP_ISNORM(cp) ? SRSRAN_CP_NORM_LEN : SRSRAN_CP_EXT_LEN))) #define SRSRAN_SYMBOL_SZ(symbol_sz, cp) (symbol_sz + SRSRAN_CP_SZ(symbol_sz, cp)) #define SRSRAN_SLOT_LEN(symbol_sz) (symbol_sz * 15 / 2) #define SRSRAN_SF_LEN(symbol_sz) (symbol_sz * 15) #define SRSRAN_SF_LEN_MAX (SRSRAN_SF_LEN(SRSRAN_SYMBOL_SZ_MAX)) #define SRSRAN_SLOT_LEN_PRB(nof_prb) (SRSRAN_SLOT_LEN(srsran_symbol_sz(nof_prb))) #define SRSRAN_SF_LEN_PRB(nof_prb) ((uint32_t)SRSRAN_SF_LEN(srsran_symbol_sz(nof_prb))) #define SRSRAN_SLOT_LEN_RE(nof_prb, cp) (nof_prb * SRSRAN_NRE * SRSRAN_CP_NSYMB(cp)) #define SRSRAN_SF_LEN_RE(nof_prb, cp) (2 * SRSRAN_SLOT_LEN_RE(nof_prb, cp)) #define SRSRAN_NOF_RE(cell) (2 * SRSRAN_SLOT_LEN_RE(cell.nof_prb, cell.cp)) #define SRSRAN_TA_OFFSET (10e-6) #define SRSRAN_LTE_TS (1.0f / (15000.0f * 2048.0f)) #define SRSRAN_SLOT_IDX_CPNORM(symbol_idx, symbol_sz) \ (symbol_idx == 0 ? 0 \ : (symbol_sz + SRSRAN_CP_LEN(symbol_sz, SRSRAN_CP_NORM_0_LEN) + \ (symbol_idx - 1) * (symbol_sz + SRSRAN_CP_LEN(symbol_sz, SRSRAN_CP_NORM_LEN)))) #define SRSRAN_SLOT_IDX_CPEXT(idx, symbol_sz) (idx * (symbol_sz + SRSRAN_CP(symbol_sz, SRSRAN_CP_EXT_LEN))) #define SRSRAN_RE_IDX(nof_prb, symbol_idx, sample_idx) ((symbol_idx) * (nof_prb) * (SRSRAN_NRE) + sample_idx) #define SRSRAN_RS_VSHIFT(cell_id) (cell_id % 6) #define SRSRAN_GUARD_RE(nof_prb) ((srsran_symbol_sz(nof_prb) - nof_prb * SRSRAN_NRE) / 2) #define SRSRAN_SYMBOL_HAS_REF(l, cp, nof_ports) ((l == 1 && nof_ports == 4) || l == 0 || l == SRSRAN_CP_NSYMB(cp) - 3) #define SRSRAN_NOF_CTRL_SYMBOLS(cell, cfi) (cfi + (cell.nof_prb < 10 ? 1 : 0)) #define SRSRAN_SYMBOL_HAS_REF_MBSFN(l, s) ((l == 2 && s == 0) || (l == 0 && s == 1) || (l == 4 && s == 1)) #define SRSRAN_NON_MBSFN_REGION_GUARD_LENGTH(non_mbsfn_region, symbol_sz) \ ((non_mbsfn_region == 1) \ ? (SRSRAN_CP_LEN_EXT(symbol_sz) - SRSRAN_CP_LEN_NORM(0, symbol_sz)) \ : (2 * SRSRAN_CP_LEN_EXT(symbol_sz) - SRSRAN_CP_LEN_NORM(0, symbol_sz) - SRSRAN_CP_LEN_NORM(1, symbol_sz))) #define SRSRAN_FDD_NOF_HARQ (FDD_HARQ_DELAY_DL_MS + FDD_HARQ_DELAY_UL_MS) #define SRSRAN_MAX_HARQ_PROC 15 #define SRSRAN_NOF_LTE_BANDS 58 #define SRSRAN_DEFAULT_MAX_FRAMES_PBCH 500 #define SRSRAN_DEFAULT_MAX_FRAMES_PSS 10 #define SRSRAN_DEFAULT_NOF_VALID_PSS_FRAMES 10 #define ZERO_OBJECT(x) memset(&(x), 0x0, sizeof((x))) typedef enum SRSRAN_API { SRSRAN_PHICH_NORM = 0, SRSRAN_PHICH_EXT } srsran_phich_length_t; typedef enum SRSRAN_API { SRSRAN_PHICH_R_1_6 = 0, SRSRAN_PHICH_R_1_2, SRSRAN_PHICH_R_1, SRSRAN_PHICH_R_2 } srsran_phich_r_t; /// LTE duplex modes. typedef enum SRSRAN_API { /// FDD uses frame structure type 1. SRSRAN_FDD = 0, /// TDD uses frame structure type 2. SRSRAN_TDD = 1 } srsran_frame_type_t; /// Maximum number of TDD special subframe configurations. #define SRSRAN_MAX_TDD_SS_CONFIGS (10u) /// Maximum number of TDD uplink-downlink subframe configurations. #define SRSRAN_MAX_TDD_SF_CONFIGS (7u) /// Configuration fields for operating in TDD mode. typedef struct SRSRAN_API { /// Uplink-downlink configuration, valid range is [0,SRSRAN_MAX_TDD_SF_CONFIGS[. /// TS 36.211 v8.9.0 Table 4.2-2. uint32_t sf_config; /// Special subframe symbol length configuration, valid range is [0,SRSRAN_MAX_TDD_SS_CONFIGS[. /// TS 36.211 v13.13.0 Table 4.2-1. uint32_t ss_config; /// Set to true when the fields have been configured, otherwise false. bool configured; } srsran_tdd_config_t; /// TDD uplink-downlink subframe types. typedef enum SRSRAN_API { /// Subframe is reserved for downlink transmissions. SRSRAN_TDD_SF_D = 0, /// Subframe is reserved for uplink transmissions. SRSRAN_TDD_SF_U = 1, /// Special subframe. SRSRAN_TDD_SF_S = 2, } srsran_tdd_sf_t; typedef struct { uint8_t mbsfn_area_id; uint8_t non_mbsfn_region_length; uint8_t mbsfn_mcs; bool enable; bool is_mcch; } srsran_mbsfn_cfg_t; // Common cell constant properties that require object reconfiguration typedef struct SRSRAN_API { uint32_t nof_prb; uint32_t nof_ports; uint32_t id; srsran_cp_t cp; srsran_phich_length_t phich_length; srsran_phich_r_t phich_resources; srsran_frame_type_t frame_type; } srsran_cell_t; // Common downlink properties that may change every subframe typedef struct SRSRAN_API { srsran_tdd_config_t tdd_config; uint32_t tti; uint32_t cfi; srsran_sf_t sf_type; uint32_t non_mbsfn_region; } srsran_dl_sf_cfg_t; typedef struct SRSRAN_API { srsran_tdd_config_t tdd_config; uint32_t tti; bool shortened; } srsran_ul_sf_cfg_t; typedef enum SRSRAN_API { SRSRAN_TM1 = 0, SRSRAN_TM2, SRSRAN_TM3, SRSRAN_TM4, SRSRAN_TM5, SRSRAN_TM6, SRSRAN_TM7, SRSRAN_TM8, SRSRAN_TMINV // Invalid Transmission Mode } srsran_tm_t; typedef enum SRSRAN_API { SRSRAN_TXSCHEME_PORT0, SRSRAN_TXSCHEME_DIVERSITY, SRSRAN_TXSCHEME_SPATIALMUX, SRSRAN_TXSCHEME_CDD } srsran_tx_scheme_t; typedef enum SRSRAN_API { SRSRAN_MIMO_DECODER_ZF, SRSRAN_MIMO_DECODER_MMSE } srsran_mimo_decoder_t; /*! * \brief Types of modulations and associated modulation order. */ typedef enum SRSRAN_API { SRSRAN_MOD_BPSK = 0, /*!< \brief BPSK. */ SRSRAN_MOD_QPSK, /*!< \brief QPSK. */ SRSRAN_MOD_16QAM, /*!< \brief QAM16. */ SRSRAN_MOD_64QAM, /*!< \brief QAM64. */ SRSRAN_MOD_256QAM, /*!< \brief QAM256. */ SRSRAN_MOD_NITEMS } srsran_mod_t; typedef enum { SRSRAN_DCI_FORMAT0 = 0, SRSRAN_DCI_FORMAT1, SRSRAN_DCI_FORMAT1A, SRSRAN_DCI_FORMAT1B, SRSRAN_DCI_FORMAT1C, SRSRAN_DCI_FORMAT1D, SRSRAN_DCI_FORMAT2, SRSRAN_DCI_FORMAT2A, SRSRAN_DCI_FORMAT2B, // SRSRAN_DCI_FORMAT3, // SRSRAN_DCI_FORMAT3A, SRSRAN_DCI_FORMATN0, SRSRAN_DCI_FORMATN1, SRSRAN_DCI_FORMATN2, SRSRAN_DCI_FORMAT_RAR, // Not a real LTE format. Used internally to indicate RAR grant SRSRAN_DCI_NOF_FORMATS } srsran_dci_format_t; typedef enum { SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_NORMAL = 0, /* No cell selection no pucch3 */ SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_CS, SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_PUCCH3, SRSRAN_PUCCH_ACK_NACK_FEEDBACK_MODE_ERROR, } srsran_ack_nack_feedback_mode_t; typedef struct SRSRAN_API { int id; float fd; } srsran_earfcn_t; enum band_geographical_area { SRSRAN_BAND_GEO_AREA_ALL, SRSRAN_BAND_GEO_AREA_NAR, SRSRAN_BAND_GEO_AREA_APAC, SRSRAN_BAND_GEO_AREA_EMEA, SRSRAN_BAND_GEO_AREA_JAPAN, SRSRAN_BAND_GEO_AREA_CALA, SRSRAN_BAND_GEO_AREA_NA }; ///< NB-IoT specific structs typedef enum { SRSRAN_NBIOT_MODE_INBAND_SAME_PCI = 0, SRSRAN_NBIOT_MODE_INBAND_DIFFERENT_PCI, SRSRAN_NBIOT_MODE_GUARDBAND, SRSRAN_NBIOT_MODE_STANDALONE, SRSRAN_NBIOT_MODE_N_ITEMS, } srsran_nbiot_mode_t; typedef struct SRSRAN_API { srsran_cell_t base; // the umbrella or super cell uint32_t nbiot_prb; // the index of the NB-IoT PRB within the cell uint32_t n_id_ncell; uint32_t nof_ports; // The number of antenna ports for NB-IoT bool is_r14; // Whether the cell is a R14 cell srsran_nbiot_mode_t mode; } srsran_nbiot_cell_t; #define SRSRAN_NBIOT_MAX_PORTS 2 #define SRSRAN_NBIOT_MAX_CODEWORDS SRSRAN_MAX_CODEWORDS #define SRSRAN_SF_LEN_PRB_NBIOT (SRSRAN_SF_LEN_PRB(1)) #define SRSRAN_SF_LEN_RE_NBIOT (SRSRAN_SF_LEN_RE(1, SRSRAN_CP_NORM)) #define SRSRAN_NBIOT_FFT_SIZE 128 #define SRSRAN_NBIOT_FREQ_SHIFT_FACTOR ((float)-0.5) #define SRSRAN_NBIOT_NUM_RX_ANTENNAS 1 #define SRSRAN_NBIOT_MAX_PRB 1 #define SRSRAN_NBIOT_DEFAULT_NUM_PRB_BASECELL 1 #define SRSRAN_NBIOT_DEFAULT_PRB_OFFSET 0 #define SRSRAN_DEFAULT_MAX_FRAMES_NPBCH 500 #define SRSRAN_DEFAULT_MAX_FRAMES_NPSS 20 #define SRSRAN_DEFAULT_NOF_VALID_NPSS_FRAMES 20 #define SRSRAN_NBIOT_NPBCH_NOF_TOTAL_BITS (1600) ///< Number of bits for the entire NPBCH (See 36.211 Sec 10.2.4.1) #define SRSRAN_NBIOT_NPBCH_NOF_BITS_SF \ (SRSRAN_NBIOT_NPBCH_NOF_TOTAL_BITS / 8) ///< The NPBCH is transmitted in 8 blocks (See 36.211 Sec 10.2.4.4) #define SRSRAN_MAX_DL_BITS_CAT_NB1 (680) ///< TS 36.306 v15.4.0 Table 4.1C-1 ///< PHY common function declarations SRSRAN_API bool srsran_cell_isvalid(srsran_cell_t* cell); SRSRAN_API void srsran_cell_fprint(FILE* stream, srsran_cell_t* cell, uint32_t sfn); SRSRAN_API bool srsran_cellid_isvalid(uint32_t cell_id); SRSRAN_API bool srsran_nofprb_isvalid(uint32_t nof_prb); /** * Returns the subframe type for a given subframe number and a TDD configuration. * Check TS 36.211 v8.9.0 Table 4.2-2. * * @param tdd_config TDD configuration. * @param sf_idx Subframe number, must be in range [0,SRSRAN_NOF_SF_X_FRAME[. * @return Returns the subframe type. */ SRSRAN_API srsran_tdd_sf_t srsran_sfidx_tdd_type(srsran_tdd_config_t tdd_config, uint32_t sf_idx); /** * Returns the number of UpPTS symbols in a subframe. * Check TS 36.211 v13.13.0 Table 4.2-1. * * @param tdd_config TDD configuration. * @return Returns the number of UpPTS symbols. */ SRSRAN_API uint32_t srsran_sfidx_tdd_nof_up(srsran_tdd_config_t tdd_config); /** * Returns the number of GP symbols in a subframe. * Check TS 36.211 v13.13.0 Table 4.2-1. * * @param tdd_config TDD configuration. * @return Returns the number of GP symbols. */ SRSRAN_API uint32_t srsran_sfidx_tdd_nof_gp(srsran_tdd_config_t tdd_config); /** * Returns the number of DwPTS symbols in a subframe. * Check TS 36.211 v13.13.0 Table 4.2-1. * * @param tdd_config TDD configuration. * @return Returns the number of DwPTS symbols. */ SRSRAN_API uint32_t srsran_sfidx_tdd_nof_dw(srsran_tdd_config_t tdd_config); SRSRAN_API uint32_t srsran_tdd_nof_harq(srsran_tdd_config_t tdd_config); SRSRAN_API uint32_t srsran_sfidx_tdd_nof_dw_slot(srsran_tdd_config_t tdd_config, uint32_t slot, srsran_cp_t cp); SRSRAN_API bool srsran_sfidx_isvalid(uint32_t sf_idx); SRSRAN_API bool srsran_portid_isvalid(uint32_t port_id); SRSRAN_API bool srsran_N_id_2_isvalid(uint32_t N_id_2); SRSRAN_API bool srsran_N_id_1_isvalid(uint32_t N_id_1); SRSRAN_API bool srsran_symbol_sz_isvalid(uint32_t symbol_sz); SRSRAN_API int srsran_symbol_sz(uint32_t nof_prb); SRSRAN_API int srsran_symbol_sz_power2(uint32_t nof_prb); SRSRAN_API int srsran_nof_prb(uint32_t symbol_sz); SRSRAN_API uint32_t srsran_max_cce(uint32_t nof_prb); SRSRAN_API int srsran_sampling_freq_hz(uint32_t nof_prb); SRSRAN_API void srsran_use_standard_symbol_size(bool enabled); SRSRAN_API bool srsran_symbol_size_is_standard(); SRSRAN_API uint32_t srsran_re_x_prb(uint32_t ns, uint32_t symbol, uint32_t nof_ports, uint32_t nof_symbols); SRSRAN_API uint32_t srsran_voffset(uint32_t symbol_id, uint32_t cell_id, uint32_t nof_ports); SRSRAN_API int srsran_group_hopping_f_gh(uint32_t f_gh[SRSRAN_NSLOTS_X_FRAME], uint32_t cell_id); SRSRAN_API uint32_t srsran_N_ta_new_rar(uint32_t ta); SRSRAN_API uint32_t srsran_N_ta_new(uint32_t N_ta_old, uint32_t ta); SRSRAN_API float srsran_coderate(uint32_t tbs, uint32_t nof_re); SRSRAN_API char* srsran_cp_string(srsran_cp_t cp); SRSRAN_API srsran_mod_t srsran_str2mod(const char* mod_str); SRSRAN_API char* srsran_mod_string(srsran_mod_t mod); SRSRAN_API uint32_t srsran_mod_bits_x_symbol(srsran_mod_t mod); SRSRAN_API uint8_t srsran_band_get_band(uint32_t dl_earfcn); SRSRAN_API bool srsran_band_is_tdd(uint32_t band); SRSRAN_API double srsran_band_fd(uint32_t dl_earfcn); SRSRAN_API double srsran_band_fu(uint32_t ul_earfcn); SRSRAN_API uint32_t srsran_band_ul_earfcn(uint32_t dl_earfcn); SRSRAN_API int srsran_band_get_fd_band(uint32_t band, srsran_earfcn_t* earfcn, int earfcn_start, int earfcn_end, uint32_t max_elems); SRSRAN_API int srsran_band_get_fd_band_all(uint32_t band, srsran_earfcn_t* earfcn, uint32_t max_nelems); SRSRAN_API int srsran_band_get_fd_region(enum band_geographical_area region, srsran_earfcn_t* earfcn, uint32_t max_elems); SRSRAN_API int srsran_str2mimotype(char* mimo_type_str, srsran_tx_scheme_t* type); SRSRAN_API char* srsran_mimotype2str(srsran_tx_scheme_t mimo_type); /* Returns the interval tti1-tti2 mod 10240 */ SRSRAN_API uint32_t srsran_tti_interval(uint32_t tti1, uint32_t tti2); SRSRAN_API uint32_t srsran_print_check(char* s, size_t max_len, uint32_t cur_len, const char* format, ...); SRSRAN_API bool srsran_nbiot_cell_isvalid(srsran_nbiot_cell_t* cell); SRSRAN_API bool srsran_nbiot_portid_isvalid(uint32_t port_id); SRSRAN_API float srsran_band_fu_nbiot(uint32_t ul_earfcn, const float m_ul); SRSRAN_API char* srsran_nbiot_mode_string(srsran_nbiot_mode_t mode); /** * Returns a constant string pointer with the ACK/NACK feedback mode * * @param ack_nack_feedback_mode Mode * @return Returns constant pointer with the text of the mode if succesful, `error` otherwise */ SRSRAN_API const char* srsran_ack_nack_feedback_mode_string(srsran_ack_nack_feedback_mode_t ack_nack_feedback_mode); /** * Returns a constant string pointer with the ACK/NACK feedback mode * * @param ack_nack_feedback_mode Mode * @return Returns constant pointer with the text of the mode if succesful, `error` otherwise */ SRSRAN_API srsran_ack_nack_feedback_mode_t srsran_string_ack_nack_feedback_mode(const char* str); /** * Returns the number of bits for Rank Indicador reporting depending on the cell * * @param cell */ SRSRAN_API uint32_t srsran_ri_nof_bits(const srsran_cell_t* cell); #ifdef __cplusplus } #endif #endif // SRSRAN_PHY_COMMON_H