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/**
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* Copyright 2013-2021 Software Radio Systems Limited
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*
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* This file is part of srsRAN.
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*
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* srsRAN is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as
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* published by the Free Software Foundation, either version 3 of
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* the License, or (at your option) any later version.
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*
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* srsRAN is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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*
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* A copy of the GNU Affero General Public License can be found in
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* the LICENSE file in the top-level directory of this distribution
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* and at http://www.gnu.org/licenses/.
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*
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*/
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#ifndef SRSRAN_DUMMY_UE_STACK_H
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#define SRSRAN_DUMMY_UE_STACK_H
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#include "dummy_rx_harq_proc.h"
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#include "dummy_tx_harq_proc.h"
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#include "srsran/asn1/rrc_nr.h"
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#include "srsran/interfaces/ue_nr_interfaces.h"
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class ue_dummy_stack : public srsue::stack_interface_phy_nr
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{
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public:
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struct prach_metrics_t {
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uint32_t count;
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};
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struct cell_search_metrics_t {
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// Last cell search result for the PCI and SSB candidate
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srsue::stack_interface_phy_nr::cell_search_result_t last_result;
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// Signal Measurements
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float epre_db_avg = 0.0f;
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float epre_db_min = +INFINITY;
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float epre_db_max = -INFINITY;
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float rsrp_db_avg = 0.0f;
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float rsrp_db_min = +INFINITY;
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float rsrp_db_max = -INFINITY;
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float snr_db_avg = 0.0f;
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float snr_db_min = +INFINITY;
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float snr_db_max = -INFINITY;
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float cfo_hz_avg = 0.0f;
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float cfo_hz_min = +INFINITY;
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float cfo_hz_max = -INFINITY;
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uint32_t count = 0;
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};
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struct metrics_t {
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std::map<uint32_t, std::map<uint32_t, cell_search_metrics_t> > cell_search;
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std::map<uint32_t, prach_metrics_t> prach = {}; ///< PRACH metrics indexed with premable index
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uint32_t sr_count = 0; ///< Counts number of transmitted SR
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};
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private:
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srslog::basic_logger& logger = srslog::fetch_basic_logger("UE-STCK");
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std::mutex rnti_mutex;
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srsran_random_t random_gen = srsran_random_init(0x1323);
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srsran_rnti_type_t dl_rnti_type = srsran_rnti_type_c;
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uint16_t rnti = 0;
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bool valid = false;
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uint32_t sr_period = 0;
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uint32_t sr_count = 0;
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uint32_t prach_period = 0;
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uint32_t prach_preamble = 0;
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bool prach_pending = false;
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metrics_t metrics = {};
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srsue::phy_interface_stack_nr& phy;
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// Atributes to flag configuration PHy complete
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bool configuration_complete = false;
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std::mutex configuration_complete_mutex;
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std::condition_variable configuration_complete_cvar;
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// Attributes for throttling PHY and avoiding PHY free-running
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bool pending_tti = false;
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std::mutex pending_tti_mutex;
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std::condition_variable pending_tti_cvar;
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std::atomic<bool> running = {true};
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dummy_tx_harq_entity tx_harq_proc;
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dummy_rx_harq_entity rx_harq_proc;
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std::atomic<bool> cell_search_finished = {false};
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std::atomic<bool> cell_select_finished = {false};
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cell_select_result_t cell_select_result = {};
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public:
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struct args_t {
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uint16_t rnti = 0x1234; ///< C-RNTI for PUSCH and PDSCH transmissions
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uint32_t sr_period = 0; ///< Indicates positive SR period in number of opportunities. Set to 0 to disable.
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uint32_t prach_period = 0; ///< Requests PHY to transmit PRACH periodically in frames. Set to 0 to disable.
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std::string log_level = "warning";
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};
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ue_dummy_stack(const args_t& args, srsue::phy_interface_stack_nr& phy_) :
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rnti(args.rnti), sr_period(args.sr_period), prach_period(args.prach_period), phy(phy_)
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{
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logger.set_level(srslog::str_to_basic_level(args.log_level));
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valid = true;
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}
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~ue_dummy_stack() { srsran_random_free(random_gen); }
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void in_sync() override {}
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void out_of_sync() override {}
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void run_tti(const uint32_t tti, const uint32_t tti_jump) override
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{
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// Wait for tick from test bench
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std::unique_lock<std::mutex> lock(pending_tti_mutex);
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while (not pending_tti and running) {
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pending_tti_cvar.wait_for(lock, std::chrono::milliseconds(1));
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}
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// Let the tick proceed
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pending_tti = false;
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pending_tti_cvar.notify_all();
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// Run PRACH
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if (prach_period != 0) {
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uint32_t slot_idx = tti % SRSRAN_NSLOTS_PER_FRAME_NR(srsran_subcarrier_spacing_15kHz);
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uint32_t sfn = tti / SRSRAN_NSLOTS_PER_FRAME_NR(srsran_subcarrier_spacing_15kHz);
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if (not prach_pending and slot_idx == 0 and sfn % prach_period == 0) {
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prach_preamble = srsran_random_uniform_int_dist(random_gen, 0, 63);
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phy.send_prach(0, prach_preamble, 0.0f, 0.0f);
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prach_pending = true;
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}
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}
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}
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void tick()
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{
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// Wait for TTI to get processed
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std::unique_lock<std::mutex> lock(pending_tti_mutex);
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while (pending_tti and running) {
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pending_tti_cvar.wait_for(lock, std::chrono::milliseconds(1));
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}
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// Let the TTI proceed
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pending_tti = true;
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pending_tti_cvar.notify_all();
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}
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void stop()
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{
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running = false;
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pending_tti_cvar.notify_all();
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}
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sched_rnti_t get_dl_sched_rnti_nr(const uint32_t tti) override
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{
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std::unique_lock<std::mutex> lock(rnti_mutex);
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return {rnti, dl_rnti_type};
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}
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sched_rnti_t get_ul_sched_rnti_nr(const uint32_t tti) override
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{
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std::unique_lock<std::mutex> lock(rnti_mutex);
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return {rnti, srsran_rnti_type_c};
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}
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void new_grant_dl(const uint32_t cc_idx, const mac_nr_grant_dl_t& grant, tb_action_dl_t* action) override
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{
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action->tb.enabled = true;
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action->tb.softbuffer = &rx_harq_proc[grant.pid].get_softbuffer(grant.ndi, grant.tbs);
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}
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void tb_decoded(const uint32_t cc_idx, const mac_nr_grant_dl_t& grant, tb_action_dl_result_t result) override {}
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void new_grant_ul(const uint32_t cc_idx, const mac_nr_grant_ul_t& grant, tb_action_ul_t* action) override
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{
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if (action == nullptr) {
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return;
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}
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action->tb.enabled = true;
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action->tb.payload = tx_harq_proc[grant.pid].get_tb(grant.tbs);
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action->tb.softbuffer = &tx_harq_proc[grant.pid].get_softbuffer(grant.ndi);
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}
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void prach_sent(uint32_t tti, uint32_t s_id, uint32_t t_id, uint32_t f_id, uint32_t ul_carrier_id) override
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{
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std::unique_lock<std::mutex> lock(rnti_mutex);
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dl_rnti_type = srsran_rnti_type_ra;
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rnti = 1 + s_id + 14 * t_id + 14 * 80 * f_id + 14 * 80 * 8 * ul_carrier_id;
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metrics.prach[prach_preamble].count++;
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prach_pending = false;
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}
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bool sr_opportunity(uint32_t tti, uint32_t sr_id, bool meas_gap, bool ul_sch_tx) override
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{
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if (sr_period == 0) {
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return false;
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}
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if (sr_count >= (sr_period - 1) and not ul_sch_tx) {
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metrics.sr_count++;
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sr_count = 0;
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return true;
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}
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sr_count++;
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return false;
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}
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bool is_valid() const { return valid; }
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const metrics_t& get_metrics() const { return metrics; }
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void reset_metrics()
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{
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metrics.cell_search.clear();
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metrics.prach.clear();
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metrics.sr_count = 0;
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}
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void set_phy_config_complete(bool status) override
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{
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std::unique_lock<std::mutex> lock(configuration_complete_mutex);
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configuration_complete = true;
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configuration_complete_cvar.notify_all();
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}
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void wait_phy_config_complete()
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{
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std::unique_lock<std::mutex> lock(configuration_complete_mutex);
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while (not configuration_complete) {
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configuration_complete_cvar.wait(lock);
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}
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configuration_complete = false;
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}
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bool get_cell_search_finished()
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{
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bool ret = cell_search_finished;
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cell_search_finished = false;
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return ret;
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}
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void cell_search_found_cell(const cell_search_result_t& result) override
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{
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if (not result.cell_found) {
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logger.info("Cell search finished without detecting any cell");
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// Flag as cell search is done
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cell_search_finished = true;
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return;
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}
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// Pack PBCH message bits
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std::array<uint8_t, SRSRAN_PBCH_MSG_NR_SZ> bit_pack_pbch_msg = {};
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asn1::cbit_ref cbit(bit_pack_pbch_msg.data(), bit_pack_pbch_msg.size());
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srsran_bit_pack_vector((uint8_t*)result.pbch_msg.payload, bit_pack_pbch_msg.data(), SRSRAN_PBCH_MSG_NR_SZ);
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// Unpack MIB with ASN1
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asn1::rrc_nr::bcch_bch_msg_s bcch;
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bcch.unpack(cbit);
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// Convert MIB to JSON
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asn1::json_writer json;
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bcch.to_json(json);
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// Unpack MIB with C lib
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srsran_mib_nr_t mib_c = {};
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srsran_pbch_msg_nr_mib_unpack(&result.pbch_msg, &mib_c);
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// Convert MIB from C lib to info
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std::array<char, 512> mib_info = {};
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srsran_pbch_msg_nr_mib_info(&mib_c, mib_info.data(), (uint32_t)mib_info.size());
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// Convert CSI to string
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std::array<char, 512> csi_info = {};
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srsran_csi_meas_info_short(&result.measurements, csi_info.data(), (uint32_t)csi_info.size());
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logger.info(
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"Cell found pci=%d %s %s ASN1: %s", result.pci, mib_info.data(), csi_info.data(), json.to_string().c_str());
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cell_search_metrics_t& m = metrics.cell_search[result.pci][result.pbch_msg.ssb_idx];
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m.last_result = result;
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m.epre_db_min = SRSRAN_MIN(m.epre_db_min, result.measurements.epre_dB);
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m.epre_db_max = SRSRAN_MAX(m.epre_db_max, result.measurements.epre_dB);
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m.epre_db_avg = SRSRAN_VEC_SAFE_CMA(result.measurements.epre_dB, m.epre_db_avg, m.count);
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m.rsrp_db_min = SRSRAN_MIN(m.rsrp_db_min, result.measurements.rsrp_dB);
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m.rsrp_db_max = SRSRAN_MAX(m.rsrp_db_max, result.measurements.rsrp_dB);
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m.rsrp_db_avg = SRSRAN_VEC_SAFE_CMA(result.measurements.rsrp_dB, m.rsrp_db_avg, m.count);
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m.snr_db_min = SRSRAN_MIN(m.snr_db_min, result.measurements.snr_dB);
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m.snr_db_max = SRSRAN_MAX(m.snr_db_max, result.measurements.snr_dB);
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m.snr_db_avg = SRSRAN_VEC_SAFE_CMA(result.measurements.snr_dB, m.snr_db_avg, m.count);
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m.cfo_hz_min = SRSRAN_MIN(m.cfo_hz_min, result.measurements.cfo_hz);
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m.cfo_hz_max = SRSRAN_MAX(m.cfo_hz_max, result.measurements.cfo_hz);
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m.cfo_hz_avg = SRSRAN_VEC_SAFE_CMA(result.measurements.cfo_hz, m.cfo_hz_avg, m.count);
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m.count++;
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// Flag as cell search is done
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cell_search_finished = true;
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}
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bool get_cell_select_finished()
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{
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bool ret = cell_select_finished;
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cell_select_finished = false;
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return ret;
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}
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cell_select_result_t get_cell_select_result() { return cell_select_result; }
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void cell_select_completed(const cell_select_result_t& result) override
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{
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cell_select_result = result;
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cell_select_finished = true;
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}
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};
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#endif // SRSRAN_DUMMY_UE_STACK_H
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