/** * * \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. * */ /****************************************************************************** * File: cqi.h * * Description: Channel quality indicator message packing. * * Reference: 3GPP TS 36.212 version 10.0.0 Release 10 Sec. 5.2.2.6, 5.2.3.3 *****************************************************************************/ #ifndef SRSRAN_CQI_H #define SRSRAN_CQI_H #include #include "srsran/config.h" #include "srsran/phy/common/phy_common.h" #define SRSRAN_CQI_MAX_BITS 64 #define SRSRAN_DIF_CQI_MAX_BITS 3 #define SRSRAN_PMI_MAX_BITS 4 #define SRSRAN_CQI_STR_MAX_CHAR 64 typedef enum { SRSRAN_CQI_MODE_10, SRSRAN_CQI_MODE_11, SRSRAN_CQI_MODE_12, SRSRAN_CQI_MODE_20, SRSRAN_CQI_MODE_21, SRSRAN_CQI_MODE_22, SRSRAN_CQI_MODE_30, SRSRAN_CQI_MODE_31, SRSRAN_CQI_MODE_NA, } srsran_cqi_report_mode_t; typedef struct { bool periodic_configured; bool aperiodic_configured; uint16_t pmi_idx; uint32_t ri_idx; bool ri_idx_present; bool format_is_subband; uint32_t subband_size; srsran_cqi_report_mode_t periodic_mode; srsran_cqi_report_mode_t aperiodic_mode; } srsran_cqi_report_cfg_t; /* Table 5.2.2.6.2-1: Fields for channel quality information feedback for higher layer configured subband CQI reports (transmission mode 1, transmission mode 2, transmission mode 3, transmission mode 7 and transmission mode 8 configured without PMI/RI reporting). */ /* Table 5.2.2.6.2-2: Fields for channel quality information (CQI) feedback for higher layer configured subband CQI reports (transmission mode 4, transmission mode 5 and transmission mode 6). */ typedef struct SRSRAN_API { uint8_t wideband_cqi_cw0; // 4-bit width uint32_t subband_diff_cqi_cw0; // 2N-bit width uint8_t wideband_cqi_cw1; // if RI > 1 then 4-bit width otherwise 0-bit width uint32_t subband_diff_cqi_cw1; // if RI > 1 then 2N-bit width otherwise 0-bit width uint32_t pmi; // if RI > 1 then 2-bit width otherwise 1-bit width } srsran_cqi_hl_subband_t; /* Table 5.2.2.6.3-1: Fields for channel quality information feedback for UE selected subband CQI reports (transmission mode 1, transmission mode 2, transmission mode 3, transmission mode 7 and transmission mode 8 configured without PMI/RI reporting). */ typedef struct SRSRAN_API { uint8_t wideband_cqi; // 4-bit width uint8_t subband_diff_cqi; // 2-bit width uint32_t position_subband; // L-bit width } srsran_cqi_ue_subband_t; /* Table 5.2.3.3.1-1: Fields for channel quality information feedback for wideband CQI reports (transmission mode 1, transmission mode 2, transmission mode 3, transmission mode 7 and transmission mode 8 configured without PMI/RI reporting). This is for PUCCH Format 2 reports */ /* Table 5.2.3.3.1-2: UCI fields for channel quality and precoding information (CQI/PMI) feedback for wideband reports (transmission mode 4, transmission mode 5 and transmission mode 6) This is for PUCCH Format 2 reports */ typedef struct SRSRAN_API { uint8_t wideband_cqi; // 4-bit width uint8_t spatial_diff_cqi; // If Rank==1 then it is 0-bit width otherwise it is 3-bit width uint8_t pmi; } srsran_cqi_format2_wideband_t; typedef struct SRSRAN_API { uint8_t subband_cqi; // 4-bit width uint8_t subband_label; // 1- or 2-bit width } srsran_cqi_format2_subband_t; typedef enum { SRSRAN_CQI_TYPE_WIDEBAND = 0, SRSRAN_CQI_TYPE_SUBBAND, SRSRAN_CQI_TYPE_SUBBAND_UE, SRSRAN_CQI_TYPE_SUBBAND_HL } srsran_cqi_type_t; typedef struct SRSRAN_API { bool data_enable; bool pmi_present; bool four_antenna_ports; ///< If cell has 4 antenna ports then true otherwise false bool rank_is_not_one; ///< If rank > 1 then true otherwise false bool subband_label_2_bits; ///< false, label=1-bit, true label=2-ack_value uint32_t scell_index; ///< Indicates the cell/carrier the measurement belongs, use 0 for PCell uint32_t L; uint32_t N; srsran_cqi_type_t type; uint32_t ri_len; } srsran_cqi_cfg_t; typedef struct { union { srsran_cqi_format2_wideband_t wideband; srsran_cqi_format2_subband_t subband; srsran_cqi_ue_subband_t subband_ue; srsran_cqi_hl_subband_t subband_hl; }; bool data_crc; } srsran_cqi_value_t; SRSRAN_API int srsran_cqi_size(srsran_cqi_cfg_t* cfg); SRSRAN_API int srsran_cqi_value_pack(srsran_cqi_cfg_t* cfg, srsran_cqi_value_t* value, uint8_t* buff); SRSRAN_API int srsran_cqi_value_unpack(srsran_cqi_cfg_t* cfg, uint8_t buff[SRSRAN_CQI_MAX_BITS], srsran_cqi_value_t* value); SRSRAN_API int srsran_cqi_value_tostring(srsran_cqi_cfg_t* cfg, srsran_cqi_value_t* value, char* buff, uint32_t buff_len); SRSRAN_API bool srsran_cqi_periodic_send(const srsran_cqi_report_cfg_t* periodic_cfg, uint32_t tti, srsran_frame_type_t frame_type); SRSRAN_API bool srsran_cqi_periodic_ri_send(const srsran_cqi_report_cfg_t* periodic_cfg, uint32_t tti, srsran_frame_type_t frame_type); SRSRAN_API int srsran_cqi_hl_get_no_subbands(int nof_prb); SRSRAN_API uint8_t srsran_cqi_from_snr(float snr); SRSRAN_API float srsran_cqi_to_coderate(uint32_t cqi, bool use_alt_table); #endif // SRSRAN_CQI_H