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304 lines
10 KiB
C++
304 lines
10 KiB
C++
/*
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* Copyright 2013-2020 Software Radio Systems Limited
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*
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* This file is part of srsLTE.
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*
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* srsLTE 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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* srsLTE 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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#include <pthread.h>
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#include <sstream>
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#include <string.h>
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#include <string>
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#include <strings.h>
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#include <sys/mman.h>
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#include <unistd.h>
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#include "srsenb/hdr/phy/phy.h"
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#include "srslte/common/log.h"
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#include "srslte/common/threads.h"
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#define Error(fmt, ...) \
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if (SRSLTE_DEBUG_ENABLED) \
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log_h->error(fmt, ##__VA_ARGS__)
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#define Warning(fmt, ...) \
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if (SRSLTE_DEBUG_ENABLED) \
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log_h->warning(fmt, ##__VA_ARGS__)
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#define Info(fmt, ...) \
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if (SRSLTE_DEBUG_ENABLED) \
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log_h->info(fmt, ##__VA_ARGS__)
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#define Debug(fmt, ...) \
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if (SRSLTE_DEBUG_ENABLED) \
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log_h->debug(fmt, ##__VA_ARGS__)
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using namespace std;
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using namespace asn1::rrc;
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namespace srsenb {
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phy::phy(srslte::logger* logger_) :
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logger(logger_), workers_pool(MAX_WORKERS), workers(MAX_WORKERS), workers_common(), nof_workers(0)
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{
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}
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phy::~phy()
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{
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stop();
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}
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void phy::parse_common_config(const phy_cfg_t& cfg)
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{
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// PRACH configuration
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prach_cfg.config_idx = cfg.prach_cnfg.prach_cfg_info.prach_cfg_idx;
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prach_cfg.hs_flag = cfg.prach_cnfg.prach_cfg_info.high_speed_flag;
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prach_cfg.root_seq_idx = cfg.prach_cnfg.root_seq_idx;
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prach_cfg.zero_corr_zone = cfg.prach_cnfg.prach_cfg_info.zero_correlation_zone_cfg;
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prach_cfg.freq_offset = cfg.prach_cnfg.prach_cfg_info.prach_freq_offset;
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prach_cfg.num_ra_preambles = cfg.phy_cell_cfg.at(0).num_ra_preambles;
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// DMRS
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workers_common.dmrs_pusch_cfg.cyclic_shift = cfg.pusch_cnfg.ul_ref_sigs_pusch.cyclic_shift;
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workers_common.dmrs_pusch_cfg.delta_ss = cfg.pusch_cnfg.ul_ref_sigs_pusch.group_assign_pusch;
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workers_common.dmrs_pusch_cfg.group_hopping_en = cfg.pusch_cnfg.ul_ref_sigs_pusch.group_hop_enabled;
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workers_common.dmrs_pusch_cfg.sequence_hopping_en = cfg.pusch_cnfg.ul_ref_sigs_pusch.seq_hop_enabled;
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}
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int phy::init(const phy_args_t& args,
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const phy_cfg_t& cfg,
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srslte::radio_interface_phy* radio_,
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stack_interface_phy_lte* stack_)
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{
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mlockall((uint32_t)MCL_CURRENT | (uint32_t)MCL_FUTURE);
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// Create array of pointers to phy_logs
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for (int i = 0; i < args.nof_phy_threads; i++) {
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auto mylog = std::unique_ptr<srslte::log_filter>(new srslte::log_filter);
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char tmp[16] = {};
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sprintf(tmp, "PHY%d", i);
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mylog->init(tmp, logger, true);
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mylog->set_level(args.log.phy_level);
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mylog->set_hex_limit(args.log.phy_hex_limit);
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log_vec.push_back(std::move(mylog));
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}
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log_h = log_vec[0].get();
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// Add PHY lib log
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if (log_vec.at(0)->get_level_from_string(args.log.phy_lib_level) != srslte::LOG_LEVEL_NONE) {
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auto lib_log = std::unique_ptr<srslte::log_filter>(new srslte::log_filter);
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char tmp[16] = {};
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sprintf(tmp, "PHY_LIB");
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lib_log->init(tmp, logger, true);
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lib_log->set_level(args.log.phy_lib_level);
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lib_log->set_hex_limit(args.log.phy_hex_limit);
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log_vec.push_back(std::move(lib_log));
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} else {
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log_vec.push_back(nullptr);
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}
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radio = radio_;
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nof_workers = args.nof_phy_threads;
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workers_common.params = args;
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workers_common.init(cfg.phy_cell_cfg, radio, stack_);
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parse_common_config(cfg);
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// Add workers to workers pool and start threads
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for (uint32_t i = 0; i < nof_workers; i++) {
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workers[i].init(&workers_common, log_vec.at(i).get());
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workers_pool.init_worker(i, &workers[i], WORKERS_THREAD_PRIO);
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}
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// For each carrier, initialise PRACH worker
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for (uint32_t cc = 0; cc < cfg.phy_cell_cfg.size(); cc++) {
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prach_cfg.root_seq_idx = cfg.phy_cell_cfg[cc].root_seq_idx;
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prach.init(cc, cfg.phy_cell_cfg[cc].cell, prach_cfg, stack_, log_vec.at(0).get(), PRACH_WORKER_THREAD_PRIO);
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}
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prach.set_max_prach_offset_us(args.max_prach_offset_us);
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// Warning this must be initialized after all workers have been added to the pool
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tx_rx.init(radio, &workers_pool, &workers_common, &prach, log_vec.at(0).get(), SF_RECV_THREAD_PRIO);
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initialized = true;
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return SRSLTE_SUCCESS;
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}
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void phy::stop()
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{
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if (initialized) {
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tx_rx.stop();
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workers_common.stop();
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workers_pool.stop();
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prach.stop();
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initialized = false;
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}
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}
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/***** MAC->PHY interface **********/
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int phy::add_rnti(uint16_t rnti, uint32_t pcell_index)
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{
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if (SRSLTE_RNTI_ISUSER(rnti)) {
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// Create default PHY configuration with the desired PCell index
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phy_interface_rrc_lte::phy_rrc_cfg_list_t phy_rrc_dedicated_list(1);
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phy_rrc_dedicated_list[0].enb_cc_idx = pcell_index;
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workers_common.ue_db.addmod_rnti(rnti, phy_rrc_dedicated_list);
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}
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for (uint32_t i = 0; i < nof_workers; i++) {
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if (workers[i].add_rnti(rnti, pcell_index) != SRSLTE_SUCCESS) {
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return SRSLTE_ERROR;
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}
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}
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return SRSLTE_SUCCESS;
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}
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void phy::rem_rnti(uint16_t rnti)
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{
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// Remove the RNTI when the TTI finishes, this has a delay up to the pipeline length (3 ms)
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for (uint32_t i = 0; i < nof_workers; i++) {
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sf_worker* w = (sf_worker*)workers_pool.wait_worker_id(i);
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if (w) {
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w->rem_rnti(rnti);
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w->release();
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}
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}
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if (SRSLTE_RNTI_ISUSER(rnti)) {
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workers_common.ue_db.rem_rnti(rnti);
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workers_common.clear_grants(rnti);
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}
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}
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int phy::pregen_sequences(uint16_t rnti)
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{
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for (uint32_t i = 0; i < nof_workers; i++) {
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if (workers[i].pregen_sequences(rnti) != SRSLTE_SUCCESS) {
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return SRSLTE_ERROR;
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}
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}
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return SRSLTE_SUCCESS;
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}
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void phy::set_mch_period_stop(uint32_t stop)
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{
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workers_common.set_mch_period_stop(stop);
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}
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void phy::set_activation_deactivation_scell(uint16_t rnti, const std::array<bool, SRSLTE_MAX_CARRIERS>& activation)
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{
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// Iterate all elements except 0 that is reserved for primary cell
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for (uint32_t scell_idx = 1; scell_idx < SRSLTE_MAX_CARRIERS; scell_idx++) {
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workers_common.ue_db.activate_deactivate_scell(rnti, scell_idx, activation[scell_idx]);
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}
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}
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void phy::get_metrics(phy_metrics_t metrics[ENB_METRICS_MAX_USERS])
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{
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phy_metrics_t metrics_tmp[ENB_METRICS_MAX_USERS] = {};
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uint32_t nof_users = workers[0].get_nof_rnti();
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bzero(metrics, sizeof(phy_metrics_t) * ENB_METRICS_MAX_USERS);
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for (uint32_t i = 0; i < nof_workers; i++) {
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workers[i].get_metrics(metrics_tmp);
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for (uint32_t j = 0; j < nof_users; j++) {
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metrics[j].dl.n_samples += metrics_tmp[j].dl.n_samples;
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metrics[j].dl.mcs += metrics_tmp[j].dl.n_samples * metrics_tmp[j].dl.mcs;
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metrics[j].ul.n_samples += metrics_tmp[j].ul.n_samples;
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metrics[j].ul.mcs += metrics_tmp[j].ul.n_samples * metrics_tmp[j].ul.mcs;
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metrics[j].ul.n += metrics_tmp[j].ul.n_samples * metrics_tmp[j].ul.n;
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metrics[j].ul.rssi += metrics_tmp[j].ul.n_samples * metrics_tmp[j].ul.rssi;
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metrics[j].ul.sinr += metrics_tmp[j].ul.n_samples * metrics_tmp[j].ul.sinr;
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metrics[j].ul.turbo_iters += metrics_tmp[j].ul.n_samples * metrics_tmp[j].ul.turbo_iters;
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}
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}
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for (uint32_t j = 0; j < nof_users; j++) {
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metrics[j].dl.mcs /= metrics[j].dl.n_samples;
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metrics[j].ul.mcs /= metrics[j].ul.n_samples;
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metrics[j].ul.n /= metrics[j].ul.n_samples;
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metrics[j].ul.rssi /= metrics[j].ul.n_samples;
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metrics[j].ul.sinr /= metrics[j].ul.n_samples;
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metrics[j].ul.turbo_iters /= metrics[j].ul.n_samples;
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}
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}
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/***** RRC->PHY interface **********/
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void phy::set_config(uint16_t rnti, const phy_rrc_cfg_list_t& phy_cfg_list)
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{
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// Update UE Database
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workers_common.ue_db.addmod_rnti(rnti, phy_cfg_list);
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// Iterate over the list and add the RNTIs
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for (const phy_rrc_cfg_t& config : phy_cfg_list) {
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// Add RNTI to eNb cell/carrier.
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// - Do not ignore PCell, it could have changed
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// - Do not remove RNTI from unused workers, it will be removed when the UE is released
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if (config.configured) {
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// Add RNTI to all SF workers
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for (uint32_t w = 0; w < nof_workers; w++) {
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workers[w].add_rnti(rnti, config.enb_cc_idx);
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}
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}
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}
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}
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void phy::complete_config(uint16_t rnti)
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{
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// Forwards call to the UE Database
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workers_common.ue_db.complete_config(rnti);
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}
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void phy::configure_mbsfn(sib_type2_s* sib2, sib_type13_r9_s* sib13, const mcch_msg_s& mcch)
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{
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if (sib2->mbsfn_sf_cfg_list_present) {
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if (sib2->mbsfn_sf_cfg_list.size() == 0) {
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Warning("SIB2 does not have any MBSFN config although it was set as present\n");
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} else {
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if (sib2->mbsfn_sf_cfg_list.size() > 1) {
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Warning("SIB2 has %d MBSFN subframe configs - only 1 supported\n", sib2->mbsfn_sf_cfg_list.size());
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}
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mbsfn_config.mbsfn_subfr_cnfg = sib2->mbsfn_sf_cfg_list[0];
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}
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} else {
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fprintf(stderr, "SIB2 has no MBSFN subframe config specified\n");
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return;
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}
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mbsfn_config.mbsfn_notification_cnfg = sib13->notif_cfg_r9;
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if (sib13->mbsfn_area_info_list_r9.size() > 0) {
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if (sib13->mbsfn_area_info_list_r9.size() > 1) {
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Warning("SIB13 has %d MBSFN area info elements - only 1 supported\n", sib13->mbsfn_area_info_list_r9.size());
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}
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mbsfn_config.mbsfn_area_info = sib13->mbsfn_area_info_list_r9[0];
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}
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mbsfn_config.mcch = mcch;
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workers_common.configure_mbsfn(&mbsfn_config);
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}
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// Start GUI
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void phy::start_plot()
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{
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workers[0].start_plot();
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}
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} // namespace srsenb
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