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C++

/*
* Copyright 2013-2019 Software Radio Systems Limited
*
* This file is part of srsLTE.
*
* srsLTE is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsLTE is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
#include "srsue/hdr/ue.h"
#include "srslte/build_info.h"
#include "srslte/srslte.h"
#include "srsue/hdr/phy/phy.h"
#include "srsue/hdr/radio/ue_radio.h"
#include "srsue/hdr/stack/ue_stack_lte.h"
#include <algorithm>
#include <iostream>
#include <iterator>
#include <pthread.h>
#include <sstream>
#include <string>
using namespace srslte;
namespace srsue {
ue::ue() : logger(nullptr)
{
// print build info
std::cout << std::endl << get_build_string() << std::endl;
// load FFTW wisdom
srslte_dft_load();
pool = byte_buffer_pool::get_instance();
}
ue::~ue()
{
byte_buffer_pool::cleanup();
// save FFTW wisdom
srslte_dft_exit();
}
int ue::init(const all_args_t& args_, srslte::logger* logger_)
{
logger = logger_;
// Init UE log
log.init("UE ", logger);
log.set_level(srslte::LOG_LEVEL_INFO);
log.info("\n\n");
log.info("%s\n", get_build_string().c_str());
// Validate arguments
if (parse_args(args_)) {
log.console("Error processing arguments.\n");
return SRSLTE_ERROR;
}
// Instantiate layers and stack together our UE
if (args.stack.type == "lte") {
std::unique_ptr<ue_stack_lte> lte_stack(new ue_stack_lte());
if (!lte_stack) {
log.console("Error creating LTE stack instance.\n");
return SRSLTE_ERROR;
}
std::unique_ptr<gw> gw_ptr(new gw());
if (!gw_ptr) {
log.console("Error creating a GW instance.\n");
return SRSLTE_ERROR;
}
std::unique_ptr<srsue::phy> lte_phy = std::unique_ptr<srsue::phy>(new srsue::phy());
if (!lte_phy) {
log.console("Error creating LTE PHY instance.\n");
return SRSLTE_ERROR;
}
std::unique_ptr<ue_radio> lte_radio = std::unique_ptr<ue_radio>(new ue_radio());
if (!lte_radio) {
log.console("Error creating radio multi instance.\n");
return SRSLTE_ERROR;
}
// init layers
if (lte_radio->init(args.rf, logger, lte_phy.get())) {
log.console("Error initializing radio.\n");
return SRSLTE_ERROR;
}
if (lte_phy->init(args.phy, logger, lte_stack.get(), lte_radio.get())) {
log.console("Error initializing PHY.\n");
return SRSLTE_ERROR;
}
if (lte_stack->init(args.stack, logger, lte_phy.get(), gw_ptr.get())) {
log.console("Error initializing stack.\n");
return SRSLTE_ERROR;
}
if (gw_ptr->init(args.gw, logger, lte_stack.get())) {
log.console("Error initializing GW.\n");
return SRSLTE_ERROR;
}
// move ownership
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stack = std::move(lte_stack);
gw_inst = std::move(gw_ptr);
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phy = std::move(lte_phy);
radio = std::move(lte_radio);
} else {
log.console("Invalid stack type %s. Supported values are [lte].\n", args.stack.type.c_str());
return SRSLTE_ERROR;
}
log.console("Waiting PHY to initialize ... ");
phy->wait_initialize();
log.console("done!\n");
return SRSLTE_SUCCESS;
}
int ue::parse_args(const all_args_t& args_)
{
// set member variable
args = args_;
// carry out basic sanity checks
if (args.stack.rrc.mbms_service_id > -1) {
if (!args.phy.interpolate_subframe_enabled) {
log.error("interpolate_subframe_enabled = %d, While using MBMS, "
"please set interpolate_subframe_enabled to true\n",
args.phy.interpolate_subframe_enabled);
return SRSLTE_ERROR;
}
if (args.phy.nof_phy_threads > 2) {
log.error("nof_phy_threads = %d, While using MBMS, please set "
"number of phy threads to 1 or 2\n",
args.phy.nof_phy_threads);
return SRSLTE_ERROR;
}
if ((0 == args.phy.snr_estim_alg.find("refs"))) {
log.error("snr_estim_alg = refs, While using MBMS, please set "
"algorithm to pss or empty \n");
return SRSLTE_ERROR;
}
}
// replicate some RF parameter to make them available to PHY
args.phy.nof_rx_ant = args.rf.nof_rx_ant;
args.phy.ue_category = args.stack.rrc.ue_category;
args.phy.agc_enable = args.rf.rx_gain < 0.0f;
// Calculate number of carriers available in all radios
args.phy.nof_radios = args.rf.nof_radios;
args.phy.nof_rf_channels = args.rf.nof_rf_channels;
args.phy.nof_carriers = args.rf.nof_radios * args.rf.nof_rf_channels;
if (args.phy.nof_carriers > SRSLTE_MAX_CARRIERS) {
log.error("Too many carriers (%d > %d)\n", args.phy.nof_carriers, SRSLTE_MAX_CARRIERS);
return SRSLTE_ERROR;
}
// Generate RF-Channel to Carrier map
for (uint32_t i = 0; i < args.phy.nof_carriers; i++) {
carrier_map_t* m = &args.phy.carrier_map[i];
m->radio_idx = i / args.rf.nof_rf_channels;
m->channel_idx = (i % args.rf.nof_rf_channels) * args.rf.nof_rx_ant;
log.debug("Mapping carrier %d to channel %d in radio %d\n", i, m->channel_idx, m->radio_idx);
}
// populate EARFCN list
if (!args.phy.dl_earfcn.empty()) {
std::stringstream ss(args.phy.dl_earfcn);
uint32_t idx = 0;
while (ss.good()) {
std::string substr;
getline(ss, substr, ',');
auto earfcn = (uint32_t)strtoul(substr.c_str(), nullptr, 10);
args.stack.rrc.supported_bands[idx] = srslte_band_get_band(earfcn);
args.stack.rrc.nof_supported_bands = ++idx;
args.phy.earfcn_list.push_back(earfcn);
}
} else {
log.error("Error: dl_earfcn list is empty\n");
log.console("Error: dl_earfcn list is empty\n");
return SRSLTE_ERROR;
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}
// Set UE category
args.stack.rrc.ue_category = (uint32_t)strtoul(args.stack.rrc.ue_category_str.c_str(), nullptr, 10);
// Consider Carrier Aggregation support if more than one
args.stack.rrc.support_ca = (args.rf.nof_rf_channels * args.rf.nof_radios) > 1;
return SRSLTE_SUCCESS;
}
void ue::stop()
{
// tear down UE in reverse order
if (stack) {
stack->stop();
}
if (gw_inst) {
gw_inst->stop();
}
if (phy) {
phy->stop();
}
if (radio) {
radio->stop();
}
}
bool ue::switch_on()
{
return stack->switch_on();
}
bool ue::switch_off()
{
if (gw_inst) {
gw_inst->stop();
}
return stack->switch_off();
}
bool ue::is_rrc_connected()
{
return stack->is_rrc_connected();
}
void ue::start_plot()
{
phy->start_plot();
}
bool ue::get_metrics(ue_metrics_t* m)
{
bzero(m, sizeof(ue_metrics_t));
phy->get_metrics(&m->phy);
radio->get_metrics(&m->rf);
stack->get_metrics(&m->stack);
gw_inst->get_metrics(m->gw);
return true;
}
std::string ue::get_build_mode()
{
return std::string(srslte_get_build_mode());
}
std::string ue::get_build_info()
{
if (std::string(srslte_get_build_info()).find(" ") != std::string::npos) {
return std::string(srslte_get_version());
}
return std::string(srslte_get_build_info());
}
std::string ue::get_build_string()
{
std::stringstream ss;
ss << "Built in " << get_build_mode() << " mode using " << get_build_info() << "." << std::endl;
return ss.str();
}
} // namespace srsue