/** * * \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. * */ #ifndef SRSENB_PHCH_COMMON_H #define SRSENB_PHCH_COMMON_H #include "phy_interfaces.h" #include "srsenb/hdr/phy/phy_ue_db.h" #include "srsran/common/gen_mch_tables.h" #include "srsran/common/interfaces_common.h" #include "srsran/common/standard_streams.h" #include "srsran/common/thread_pool.h" #include "srsran/common/threads.h" #include "srsran/interfaces/enb_metrics_interface.h" #include "srsran/interfaces/phy_common_interface.h" #include "srsran/interfaces/radio_interfaces.h" #include "srsran/phy/channel/channel.h" #include "srsran/radio/radio.h" #include #include #include namespace srsenb { class phy_common : public srsran::phy_common_interface { public: phy_common() = default; bool init(const phy_cell_cfg_list_t& cell_list_, const phy_cell_cfg_list_nr_t& cell_list_nr_, srsran::radio_interface_phy* radio_handler, stack_interface_phy_lte* mac); void reset(); void stop(); /** * TTI transmission semaphore, used for ensuring that PHY workers transmit following start order */ srsran::tti_semaphore semaphore; /** * Performs common end worker transmission tasks such as transmission and stack TTI execution * * @param tx_sem_id Semaphore identifier, the worker thread pointer is used * @param buffer baseband IQ sample buffer * @param tx_time timestamp to transmit samples * @param is_nr flag is true if it is called from NR */ void worker_end(const worker_context_t& w_ctx, const bool& tx_enable, srsran::rf_buffer_t& buffer) override; // Common objects phy_args_t params = {}; uint32_t get_nof_carriers_lte() { return static_cast(cell_list_lte.size()); } uint32_t get_nof_carriers_nr() { return static_cast(cell_list_nr.size()); } uint32_t get_nof_carriers() { return static_cast(cell_list_lte.size() + cell_list_nr.size()); } uint32_t get_nof_prb(uint32_t cc_idx) { uint32_t ret = 0; if (cc_idx >= get_nof_carriers()) { // invalid CC index return ret; } if (cc_idx < cell_list_lte.size()) { ret = cell_list_lte[cc_idx].cell.nof_prb; } else if (cc_idx >= cell_list_lte.size()) { // offset CC index by all LTE carriers cc_idx -= cell_list_lte.size(); if (cc_idx < cell_list_nr.size()) { ret = cell_list_nr[cc_idx].carrier.nof_prb; } } return ret; } uint32_t get_nof_ports(uint32_t cc_idx) { uint32_t ret = 0; if (cc_idx < cell_list_lte.size()) { ret = cell_list_lte[cc_idx].cell.nof_ports; } else if ((cc_idx == 0 || cc_idx == 1) && !cell_list_nr.empty()) { // one RF port for basic NSA/SA config ret = 1; } return ret; } uint32_t get_nof_rf_channels() { uint32_t count = 0; for (auto& cell : cell_list_lte) { count += cell.cell.nof_ports; } for (auto& cell : cell_list_nr) { count += cell.carrier.max_mimo_layers; } return count; } double get_ul_freq_hz(uint32_t cc_idx) { double ret = 0.0; if (cc_idx < cell_list_lte.size()) { ret = cell_list_lte[cc_idx].ul_freq_hz; } cc_idx -= cell_list_lte.size(); if (cc_idx < cell_list_nr.size()) { ret = cell_list_nr[cc_idx].ul_freq_hz; } return ret; } double get_dl_freq_hz(uint32_t cc_idx) { double ret = 0.0; if (cc_idx < cell_list_lte.size()) { ret = cell_list_lte[cc_idx].dl_freq_hz; } cc_idx -= cell_list_lte.size(); if (cc_idx < cell_list_nr.size()) { ret = cell_list_nr[cc_idx].dl_freq_hz; } return ret; } uint32_t get_rf_port(uint32_t cc_idx) { uint32_t ret = 0; if (cc_idx < cell_list_lte.size()) { ret = cell_list_lte[cc_idx].rf_port; } cc_idx -= cell_list_lte.size(); if (cc_idx < cell_list_nr.size()) { ret = cell_list_nr[cc_idx].rf_port; } return ret; } srsran_cell_t get_cell(uint32_t cc_idx) { srsran_cell_t c = {}; if (cc_idx < cell_list_lte.size()) { c = cell_list_lte[cc_idx].cell; } return c; } void set_cell_measure_trigger() { // Trigger on LTE cell for (auto it_lte = cell_list_lte.begin(); it_lte != cell_list_lte.end(); ++it_lte) { it_lte->dl_measure = true; } // Trigger on NR cell for (auto it_nr = cell_list_nr.begin(); it_nr != cell_list_nr.end(); ++it_nr) { it_nr->dl_measure = true; } } bool get_cell_measure_trigger(uint32_t cc_idx) { if (cc_idx < cell_list_lte.size()) { return cell_list_lte.at(cc_idx).dl_measure; } cc_idx -= cell_list_lte.size(); if (cc_idx < cell_list_nr.size()) { return cell_list_nr.at(cc_idx).dl_measure; } return false; } void clear_cell_measure_trigger(uint32_t cc_idx) { if (cc_idx < cell_list_lte.size()) { cell_list_lte.at(cc_idx).dl_measure = false; } cc_idx -= cell_list_lte.size(); if (cc_idx < cell_list_nr.size()) { cell_list_nr.at(cc_idx).dl_measure = false; } } void set_cell_gain(uint32_t cell_id, float gain_db) { // Find LTE cell auto it_lte = std::find_if( cell_list_lte.begin(), cell_list_lte.end(), [cell_id](phy_cell_cfg_t& x) { return x.cell_id == cell_id; }); // Check if the lte cell was found; if (it_lte != cell_list_lte.end()) { std::lock_guard lock(cell_gain_mutex); it_lte->gain_db = gain_db; return; } // Find NR cell auto it_nr = std::find_if( cell_list_nr.begin(), cell_list_nr.end(), [cell_id](phy_cell_cfg_nr_t& x) { return x.cell_id == cell_id; }); // Check if the nr cell was found; if (it_nr != cell_list_nr.end()) { std::lock_guard lock(cell_gain_mutex); it_nr->gain_db = gain_db; return; } srsran::console("cell ID %d not found\n", cell_id); } float get_cell_gain(uint32_t cc_idx) { std::lock_guard lock(cell_gain_mutex); if (cc_idx < cell_list_lte.size()) { return cell_list_lte.at(cc_idx).gain_db; } cc_idx -= cell_list_lte.size(); if (cc_idx < cell_list_nr.size()) { return cell_list_nr.at(cc_idx).gain_db; } return 0.0f; } // Common CFR configuration srsran_cfr_cfg_t cfr_config = {}; void set_cfr_config(srsran_cfr_cfg_t cfr_cfg) { cfr_config = cfr_cfg; } srsran_cfr_cfg_t get_cfr_config() { return cfr_config; } // Common Physical Uplink DMRS configuration srsran_refsignal_dmrs_pusch_cfg_t dmrs_pusch_cfg = {}; srsran::radio_interface_phy* radio = nullptr; stack_interface_phy_lte* stack = nullptr; srsran::channel_ptr dl_channel = nullptr; /** * UE Database object, direct public access, all PHY threads should be able to access this attribute directly */ phy_ue_db ue_db; void configure_mbsfn(srsran::phy_cfg_mbsfn_t* cfg); void build_mch_table(); void build_mcch_table(); bool is_mbsfn_sf(srsran_mbsfn_cfg_t* cfg, uint32_t phy_tti); void set_mch_period_stop(uint32_t stop); // Getters and setters for ul grants which need to be shared between workers const stack_interface_phy_lte::ul_sched_list_t get_ul_grants(uint32_t tti); void set_ul_grants(uint32_t tti, const stack_interface_phy_lte::ul_sched_list_t& ul_grants); void clear_grants(uint16_t rnti); private: // Common objects for scheduling grants srsran::circular_array ul_grants = {}; std::mutex grant_mutex = {}; phy_cell_cfg_list_t cell_list_lte; phy_cell_cfg_list_nr_t cell_list_nr; std::mutex cell_gain_mutex; bool have_mtch_stop = false; pthread_mutex_t mtch_mutex = {}; pthread_cond_t mtch_cvar = {}; srsran::phy_cfg_mbsfn_t mbsfn = {}; bool sib13_configured = false; bool mcch_configured = false; uint8_t mch_table[40] = {}; uint8_t mcch_table[10] = {}; uint32_t mch_period_stop = 0; srsran::rf_buffer_t tx_buffer = {}; bool is_mch_subframe(srsran_mbsfn_cfg_t* cfg, uint32_t phy_tti); bool is_mcch_subframe(srsran_mbsfn_cfg_t* cfg, uint32_t phy_tti); }; } // namespace srsenb #endif // SRSENB_PHCH_COMMON_H