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336 lines
11 KiB
C++
336 lines
11 KiB
C++
/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2021 Software Radio Systems Limited
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*
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* By using this file, you agree to the terms and conditions set
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* forth in the LICENSE file which can be found at the top level of
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* the distribution.
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*
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*/
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#ifndef SRSUE_PHCH_COMMON_H
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#define SRSUE_PHCH_COMMON_H
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#include "phy_metrics.h"
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#include "srsran/adt/circular_array.h"
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#include "srsran/common/gen_mch_tables.h"
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#include "srsran/common/tti_sempahore.h"
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#include "srsran/interfaces/phy_common_interface.h"
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#include "srsran/interfaces/phy_interface_types.h"
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#include "srsran/interfaces/radio_interfaces.h"
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#include "srsran/interfaces/rrc_interface_types.h"
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#include "srsran/interfaces/ue_phy_interfaces.h"
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#include "srsran/radio/radio.h"
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#include "srsran/srslog/srslog.h"
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#include "srsran/srsran.h"
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#include "srsue/hdr/phy/scell/scell_state.h"
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#include "ta_control.h"
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#include <condition_variable>
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#include <mutex>
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#include <string.h>
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#include <vector>
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namespace srsue {
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class stack_interface_phy_lte;
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class rsrp_insync_itf
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{
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public:
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virtual void in_sync() = 0;
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virtual void out_of_sync() = 0;
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virtual void set_cfo(float cfo) = 0;
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};
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/* Subclass that manages variables common to all workers */
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class phy_common : public srsran::phy_common_interface
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{
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public:
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/* Common variables used by all phy workers */
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phy_args_t* args = nullptr;
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stack_interface_phy_lte* stack = nullptr;
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srsran::phy_cfg_mbsfn_t mbsfn_config = {};
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// Secondary serving cell states
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scell::state cell_state;
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// Save last TBS for uplink (mcs >= 28)
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srsran_ra_tb_t last_ul_tb[SRSRAN_MAX_HARQ_PROC][SRSRAN_MAX_CARRIERS] = {};
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// Save last TBS for DL (Format1C)
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int last_dl_tbs[SRSRAN_MAX_HARQ_PROC][SRSRAN_MAX_CARRIERS][SRSRAN_MAX_CODEWORDS] = {};
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srsran::tti_semaphore<void*> semaphore;
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// Time Aligment Controller, internal thread safe
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ta_control ta;
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// Last reported RI
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std::atomic<uint32_t> last_ri = {0};
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phy_common(srslog::basic_logger& logger);
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~phy_common();
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void init(phy_args_t* args,
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srsran::radio_interface_phy* _radio,
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stack_interface_phy_lte* _stack,
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rsrp_insync_itf* rsrp_insync);
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uint32_t ul_pidof(uint32_t tti, srsran_tdd_config_t* tdd_config);
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// Set configurations for lib objects
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void set_ue_dl_cfg(srsran_ue_dl_cfg_t* ue_dl_cfg);
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void set_ue_ul_cfg(srsran_ue_ul_cfg_t* ue_ul_cfg);
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void set_pdsch_cfg(srsran_pdsch_cfg_t* pdsch_cfg);
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void set_rar_grant(uint8_t grant_payload[SRSRAN_RAR_GRANT_LEN], uint16_t rnti, srsran_tdd_config_t tdd_config);
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void set_dl_pending_grant(uint32_t tti, uint32_t cc_idx, uint32_t grant_cc_idx, const srsran_dci_dl_t* dl_dci);
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bool get_dl_pending_grant(uint32_t tti, uint32_t cc_idx, uint32_t* grant_cc_idx, srsran_dci_dl_t* dl_dci);
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void set_ul_pending_ack(srsran_ul_sf_cfg_t* sf,
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uint32_t cc_idx,
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srsran_phich_grant_t phich_grant,
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srsran_dci_ul_t* dci_ul);
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bool get_ul_pending_ack(srsran_dl_sf_cfg_t* sf,
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uint32_t cc_idx,
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srsran_phich_grant_t* phich_grant,
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srsran_dci_ul_t* dci_ul);
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bool is_any_ul_pending_ack();
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bool get_ul_received_ack(srsran_ul_sf_cfg_t* sf, uint32_t cc_idx, bool* ack_value, srsran_dci_ul_t* dci_ul);
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void set_ul_received_ack(srsran_dl_sf_cfg_t* sf,
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uint32_t cc_idx,
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bool ack_value,
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uint32_t I_phich,
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srsran_dci_ul_t* dci_ul);
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void set_ul_pending_grant(srsran_dl_sf_cfg_t* sf, uint32_t cc_idx, srsran_dci_ul_t* dci);
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bool get_ul_pending_grant(srsran_ul_sf_cfg_t* sf, uint32_t cc_idx, uint32_t* pid, srsran_dci_ul_t* dci);
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/**
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* If there is a UL Grant it returns the lowest index component carrier that has a grant, otherwise it returns 0.
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*
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* @param tti_tx TTI in which the transmission is happening
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* @return The number of carrier if a grant is available, otherwise 0
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*/
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uint32_t get_ul_uci_cc(uint32_t tti_tx) const;
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void set_rar_grant_tti(uint32_t tti);
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void set_dl_pending_ack(srsran_dl_sf_cfg_t* sf,
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uint32_t cc_idx,
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uint8_t value[SRSRAN_MAX_CODEWORDS],
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srsran_pdsch_ack_resource_t resource);
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bool get_dl_pending_ack(srsran_ul_sf_cfg_t* sf, uint32_t cc_idx, srsran_pdsch_ack_cc_t* ack);
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void worker_end(void* h,
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bool tx_enable,
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srsran::rf_buffer_t& buffer,
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srsran::rf_timestamp_t& tx_time,
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bool is_nr) override;
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void set_cell(const srsran_cell_t& c);
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bool sr_enabled = false;
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int sr_last_tx_tti = -1;
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srsran::radio_interface_phy* get_radio();
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void set_dl_metrics(uint32_t cc_idx, const dl_metrics_t& m);
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void get_dl_metrics(dl_metrics_t::array_t& m);
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void set_ch_metrics(uint32_t cc_idx, const ch_metrics_t& m);
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void get_ch_metrics(ch_metrics_t::array_t& m);
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void set_ul_metrics(uint32_t cc_idx, const ul_metrics_t& m);
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void get_ul_metrics(ul_metrics_t::array_t& m);
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void set_sync_metrics(const uint32_t& cc_idx, const sync_metrics_t& m);
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void get_sync_metrics(sync_metrics_t::array_t& m);
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void reset();
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void reset_radio();
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void build_mch_table();
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void build_mcch_table();
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void set_mcch();
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bool is_mbsfn_sf(srsran_mbsfn_cfg_t* cfg, uint32_t tti);
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void set_mch_period_stop(uint32_t stop);
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/**
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* Deduces the UL EARFCN from a DL EARFCN. If the UL-EARFCN was defined in the UE PHY arguments it will use the
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* corresponding UL-EARFCN to the DL-EARFCN. Otherwise, it will use default.
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*
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* @param dl_earfcn
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* @return the deduced UL EARFCN
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*/
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uint32_t get_ul_earfcn(uint32_t dl_earfcn);
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/**
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* @brief Resets measurements from a given CC
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* @param cc_idx CC index
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*/
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void reset_measurements(uint32_t cc_idx);
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void update_measurements(uint32_t cc_idx,
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const srsran_chest_dl_res_t& chest_res,
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srsran_dl_sf_cfg_t sf_cfg_dl,
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float tx_crs_power,
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std::vector<phy_meas_t>& serving_cells,
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cf_t* rssi_power_buffer = nullptr);
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void update_cfo_measurement(uint32_t cc_idx, float cfo_hz);
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float get_sinr_db(uint32_t cc_idx)
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{
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std::unique_lock<std::mutex> lock(meas_mutex);
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return avg_sinr_db[cc_idx];
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}
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float get_pusch_power()
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{
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std::unique_lock<std::mutex> lock(meas_mutex);
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return cur_pusch_power;
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}
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float get_pathloss()
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{
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std::unique_lock<std::mutex> lock(meas_mutex);
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return cur_pathloss;
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}
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float get_rx_gain_offset()
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{
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std::unique_lock<std::mutex> lock(meas_mutex);
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return rx_gain_offset;
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}
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void neighbour_cells_reset(uint32_t cc_idx) { avg_rsrp_neigh[cc_idx] = NAN; }
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void set_neighbour_cells(uint32_t cc_idx, const std::vector<phy_meas_t>& meas)
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{
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// Add RSRP in the linear domain and average
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float total_rsrp = 0;
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for (auto& m : meas) {
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total_rsrp += srsran_convert_dB_to_power(m.rsrp);
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}
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if (std::isnormal(total_rsrp)) {
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if (std::isnormal(avg_rsrp_neigh[cc_idx])) {
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avg_rsrp_neigh[cc_idx] = SRSRAN_VEC_EMA(total_rsrp, avg_rsrp_neigh[cc_idx], 0.9);
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} else {
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avg_rsrp_neigh[cc_idx] = total_rsrp;
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}
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}
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}
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private:
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std::mutex meas_mutex;
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float cur_pathloss = 0.0f;
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float cur_pusch_power = 0.0f;
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float rx_gain_offset = 0.0f;
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std::array<float, SRSRAN_MAX_CARRIERS> pathloss = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_rsrp = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_rsrp_dbm = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_rsrq_db = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_rssi_dbm = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_cfo_hz = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_sinr_db = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_snr_db = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_noise = {};
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std::array<float, SRSRAN_MAX_CARRIERS> avg_rsrp_neigh = {};
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static constexpr uint32_t pcell_report_period = 20;
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uint32_t rssi_read_cnt = 0;
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rsrp_insync_itf* insync_itf = nullptr;
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bool have_mtch_stop = false;
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std::mutex mtch_mutex;
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std::condition_variable mtch_cvar;
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bool is_pending_tx_end = false;
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srsran::radio_interface_phy* radio_h = nullptr;
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srslog::basic_logger& logger;
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srsran::channel_ptr ul_channel = nullptr;
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int rar_grant_tti = -1;
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typedef struct {
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bool enable;
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srsran_phich_grant_t phich_grant;
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srsran_dci_ul_t dci_ul;
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} pending_ul_ack_t;
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srsran::circular_array<pending_ul_ack_t, TTIMOD_SZ> pending_ul_ack[SRSRAN_MAX_CARRIERS][2] = {};
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std::mutex pending_ul_ack_mutex;
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typedef struct {
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bool hi_value;
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bool hi_present;
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srsran_dci_ul_t dci_ul;
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} received_ul_ack_t;
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srsran::circular_array<received_ul_ack_t, TTIMOD_SZ> received_ul_ack[SRSRAN_MAX_CARRIERS] = {};
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std::mutex received_ul_ack_mutex;
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typedef struct {
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bool enable;
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uint32_t pid;
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srsran_dci_ul_t dci;
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} pending_ul_grant_t;
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srsran::circular_array<pending_ul_grant_t, TTIMOD_SZ> pending_ul_grant[SRSRAN_MAX_CARRIERS] = {};
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mutable std::mutex pending_ul_grant_mutex;
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typedef struct {
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bool enable;
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uint8_t value[SRSRAN_MAX_CODEWORDS]; // 0/1 or 2 for DTX
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srsran_pdsch_ack_resource_t resource;
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} received_ack_t;
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srsran::circular_array<received_ack_t, TTIMOD_SZ> pending_dl_ack[SRSRAN_MAX_CARRIERS] = {};
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srsran::circular_array<uint32_t, TTIMOD_SZ> pending_dl_dai[SRSRAN_MAX_CARRIERS] = {};
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std::mutex pending_dl_ack_mutex;
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std::mutex pending_dl_grant_mutex;
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// Cross-carried grants scheduled from PCell
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typedef struct {
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bool enable;
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uint32_t grant_cc_idx;
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srsran_dci_dl_t dl_dci;
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} pending_dl_grant_t;
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pending_dl_grant_t pending_dl_grant[FDD_HARQ_DELAY_UL_MS][SRSRAN_MAX_CARRIERS] = {};
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srsran_cell_t cell = {};
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std::mutex metrics_mutex;
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ch_metrics_t::array_t ch_metrics = {};
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dl_metrics_t::array_t dl_metrics = {};
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ul_metrics_t::array_t ul_metrics = {};
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sync_metrics_t::array_t sync_metrics = {};
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// MBSFN
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bool sib13_configured = false;
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bool mcch_configured = false;
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uint32_t mch_period_stop = 0;
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uint8_t mch_table[40] = {};
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uint8_t mcch_table[10] = {};
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bool is_mch_subframe(srsran_mbsfn_cfg_t* cfg, uint32_t phy_tti);
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bool is_mcch_subframe(srsran_mbsfn_cfg_t* cfg, uint32_t phy_tti);
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// NR carriers buffering synchronization, LTE workers are in charge of transmitting
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srsran::rf_buffer_t nr_tx_buffer;
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bool nr_tx_buffer_ready = false;
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};
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} // namespace srsue
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#endif // SRSUE_PDCH_COMMON_H
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