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374 lines
10 KiB
C++
374 lines
10 KiB
C++
/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2015 Software Radio Systems Limited
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*
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* \section LICENSE
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*
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* This file is part of the srsUE library.
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*
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* srsUE 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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* srsUE 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 <iostream>
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#include <stdlib.h>
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#include <pthread.h>
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#include "srslte/common/log_filter.h"
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#include "srslte/common/logger_stdout.h"
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#include "srslte/common/threads.h"
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#include "srslte/common/rlc_pcap.h"
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#include "srslte/upper/rlc.h"
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#include <boost/program_options.hpp>
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#include <boost/program_options/parsers.hpp>
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#include <assert.h>
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#include <boost/thread.hpp>
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#define SDU_SIZE 1500
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using namespace std;
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using namespace srsue;
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using namespace srslte;
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namespace bpo = boost::program_options;
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typedef struct {
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uint32_t test_duration_sec;
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float error_rate;
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uint32_t sdu_gen_delay_usec;
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uint32_t pdu_tx_delay_usec;
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bool reestablish;
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uint32_t log_level;
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bool single_tx;
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bool write_pcap;
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float opp_sdu_ratio;
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} stress_test_args_t;
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boost::mutex mutex;
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void parse_args(stress_test_args_t *args, int argc, char *argv[]) {
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// Command line only options
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bpo::options_description general("General options");
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general.add_options()
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("help,h", "Produce help message")
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("version,v", "Print version information and exit");
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// Command line or config file options
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bpo::options_description common("Configuration options");
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common.add_options()
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("duration", bpo::value<uint32_t>(&args->test_duration_sec)->default_value(10), "Duration (sec)")
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("sdu_gen_delay", bpo::value<uint32_t>(&args->sdu_gen_delay_usec)->default_value(10), "SDU generation delay (usec)")
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("pdu_tx_delay", bpo::value<uint32_t>(&args->pdu_tx_delay_usec)->default_value(10), "Delay in MAC for transfering PDU from tx'ing RLC to rx'ing RLC (usec)")
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("error_rate", bpo::value<float>(&args->error_rate)->default_value(0.1), "Rate at which RLC PDUs are dropped")
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("opp_sdu_ratio", bpo::value<float>(&args->opp_sdu_ratio)->default_value(0.0), "Ratio between MAC opportunity and SDU size (0==random)")
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("reestablish", bpo::value<bool>(&args->reestablish)->default_value(false), "Mimic RLC reestablish during execution")
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("loglevel", bpo::value<uint32_t>(&args->log_level)->default_value(srslte::LOG_LEVEL_DEBUG), "Log level (1=Error,2=Warning,3=Info,4=Debug)")
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("singletx", bpo::value<bool>(&args->single_tx)->default_value(false), "If set to true, only one node is generating data")
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("pcap", bpo::value<bool>(&args->write_pcap)->default_value(false), "Whether to write all RLC PDU to PCAP file");
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// these options are allowed on the command line
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bpo::options_description cmdline_options;
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cmdline_options.add(common).add(general);
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// parse the command line and store result in vm
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bpo::variables_map vm;
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bpo::store(bpo::command_line_parser(argc, argv).options(cmdline_options).run(), vm);
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bpo::notify(vm);
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// help option was given - print usage and exit
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if (vm.count("help")) {
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cout << "Usage: " << argv[0] << " [OPTIONS] config_file" << endl << endl;
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cout << common << endl << general << endl;
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exit(0);
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}
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if (args->log_level > 4) {
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args->log_level = 4;
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printf("Set log level to %d (%s)\n", args->log_level, srslte::log_level_text[args->log_level]);
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}
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}
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class mac_reader
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:public thread
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{
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public:
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mac_reader(rlc_interface_mac *rlc1_, rlc_interface_mac *rlc2_, float fail_rate_, float opp_sdu_ratio_, uint32_t pdu_tx_delay_usec_, rlc_pcap *pcap_, bool is_dl_ = true)
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{
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rlc1 = rlc1_;
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rlc2 = rlc2_;
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fail_rate = fail_rate_;
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opp_sdu_ratio = opp_sdu_ratio_;
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run_enable = true;
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running = false;
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pdu_tx_delay_usec = pdu_tx_delay_usec_;
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pcap = pcap_;
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is_dl = is_dl_;
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}
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void stop()
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{
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run_enable = false;
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int cnt=0;
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while(running && cnt<100) {
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usleep(10000);
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cnt++;
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}
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if(running) {
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thread_cancel();
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}
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wait_thread_finish();
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}
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private:
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void run_thread()
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{
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running = true;
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byte_buffer_t *pdu = byte_buffer_pool::get_instance()->allocate("mac_reader::run_thread");
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if (!pdu) {
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printf("Fatal Error: Could not allocate PDU in mac_reader::run_thread\n");
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exit(-1);
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}
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while(run_enable) {
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// generate MAC opportunities of random size or with fixed ratio
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float r = opp_sdu_ratio ? opp_sdu_ratio : (float)rand()/RAND_MAX;
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int opp_size = r*SDU_SIZE;
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mutex.lock();
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uint32_t buf_state = rlc1->get_buffer_state(1);
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if (buf_state) {
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int read = rlc1->read_pdu(1, pdu->msg, opp_size);
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usleep(pdu_tx_delay_usec);
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if(((float)rand()/RAND_MAX > fail_rate) && read>0) {
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pdu->N_bytes = read;
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rlc2->write_pdu(1, pdu->msg, pdu->N_bytes);
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if (is_dl) {
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pcap->write_dl_am_ccch(pdu->msg, pdu->N_bytes);
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} else {
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pcap->write_ul_am_ccch(pdu->msg, pdu->N_bytes);
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}
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}
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}
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mutex.unlock();
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}
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running = false;
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byte_buffer_pool::get_instance()->deallocate(pdu);
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}
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rlc_interface_mac *rlc1;
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rlc_interface_mac *rlc2;
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float fail_rate;
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float opp_sdu_ratio;
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uint32_t pdu_tx_delay_usec;
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rlc_pcap *pcap;
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bool is_dl;
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bool run_enable;
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bool running;
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};
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class mac_dummy
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:public srslte::mac_interface_timers
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{
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public:
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mac_dummy(rlc_interface_mac *rlc1_, rlc_interface_mac *rlc2_, float fail_rate_, float opp_sdu_ratio_, int32_t pdu_tx_delay, rlc_pcap* pcap = NULL)
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:r1(rlc1_, rlc2_, fail_rate_, opp_sdu_ratio_, pdu_tx_delay, pcap, true)
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,r2(rlc2_, rlc1_, fail_rate_, opp_sdu_ratio_, pdu_tx_delay, pcap, false)
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{
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}
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void start()
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{
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r1.start(7);
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r2.start(7);
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}
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void stop()
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{
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r1.stop();
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r2.stop();
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}
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srslte::timers::timer* timer_get(uint32_t timer_id)
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{
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return &t;
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}
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uint32_t timer_get_unique_id(){return 0;}
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void timer_release_id(uint32_t id){}
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private:
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srslte::timers::timer t;
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mac_reader r1;
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mac_reader r2;
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};
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class rlc_am_tester
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:public pdcp_interface_rlc
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,public rrc_interface_rlc
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,public thread
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{
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public:
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rlc_am_tester(rlc_interface_pdcp *rlc_, std::string name_, uint32_t sdu_gen_delay_usec_){
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rlc = rlc_;
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run_enable = true;
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running = false;
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rx_pdus = 0;
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name = name_;
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sdu_gen_delay_usec = sdu_gen_delay_usec_;
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}
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void stop()
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{
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run_enable = false;
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int cnt=0;
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while(running && cnt<100) {
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usleep(10000);
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cnt++;
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}
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if(running) {
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thread_cancel();
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}
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wait_thread_finish();
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}
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// PDCP interface
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void write_pdu(uint32_t lcid, byte_buffer_t *sdu)
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{
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assert(lcid == 1);
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assert(sdu->N_bytes==SDU_SIZE);
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byte_buffer_pool::get_instance()->deallocate(sdu);
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std::cout << "rlc_am_tester " << name << " received " << rx_pdus++ << " PDUs" << std::endl;
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}
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void write_pdu_bcch_bch(byte_buffer_t *sdu) {}
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void write_pdu_bcch_dlsch(byte_buffer_t *sdu) {}
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void write_pdu_pcch(byte_buffer_t *sdu) {}
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// RRC interface
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void max_retx_attempted(){}
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std::string get_rb_name(uint32_t lcid) { return std::string(""); }
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private:
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void run_thread()
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{
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uint8_t sn = 0;
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running = true;
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while(run_enable) {
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byte_buffer_t *pdu = byte_buffer_pool::get_instance()->allocate("rlc_am_tester::run_thread");
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if (!pdu) {
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printf("Fatal Error: Could not allocate PDU in rlc_am_tester::run_thread\n");
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exit(-1);
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}
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for (uint32_t i = 0; i < SDU_SIZE; i++) {
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pdu->msg[i] = sn;
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}
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sn++;
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pdu->N_bytes = SDU_SIZE;
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rlc->write_sdu(1, pdu);
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usleep(sdu_gen_delay_usec);
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}
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running = false;
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}
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bool run_enable;
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bool running;
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long rx_pdus;
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std::string name;
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uint32_t sdu_gen_delay_usec;
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rlc_interface_pdcp *rlc;
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};
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void stress_test(stress_test_args_t args)
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{
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srslte::log_filter log1("RLC_AM_1");
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srslte::log_filter log2("RLC_AM_2");
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log1.set_level((LOG_LEVEL_ENUM)args.log_level);
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log2.set_level((LOG_LEVEL_ENUM)args.log_level);
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log1.set_hex_limit(-1);
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log2.set_hex_limit(-1);
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rlc_pcap pcap;
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if (args.write_pcap) {
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pcap.open("rlc_stress_test.pcap", 0);
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}
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rlc rlc1;
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rlc rlc2;
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rlc_am_tester tester1(&rlc1, "tester1", args.sdu_gen_delay_usec);
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rlc_am_tester tester2(&rlc2, "tester2", args.sdu_gen_delay_usec);
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mac_dummy mac(&rlc1, &rlc2, args.error_rate, args.opp_sdu_ratio, args.pdu_tx_delay_usec, &pcap);
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ue_interface ue;
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rlc1.init(&tester1, &tester1, &ue, &log1, &mac, 0);
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rlc2.init(&tester2, &tester2, &ue, &log2, &mac, 0);
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LIBLTE_RRC_RLC_CONFIG_STRUCT cnfg;
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cnfg.rlc_mode = LIBLTE_RRC_RLC_MODE_AM;
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cnfg.dl_am_rlc.t_reordering = LIBLTE_RRC_T_REORDERING_MS5;
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cnfg.dl_am_rlc.t_status_prohibit = LIBLTE_RRC_T_STATUS_PROHIBIT_MS5;
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cnfg.ul_am_rlc.max_retx_thresh = LIBLTE_RRC_MAX_RETX_THRESHOLD_T4;
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cnfg.ul_am_rlc.poll_byte = LIBLTE_RRC_POLL_BYTE_KB25;
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cnfg.ul_am_rlc.poll_pdu = LIBLTE_RRC_POLL_PDU_P4;
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cnfg.ul_am_rlc.t_poll_retx = LIBLTE_RRC_T_POLL_RETRANSMIT_MS5;
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srslte_rlc_config_t cnfg_(&cnfg);
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rlc1.add_bearer(1, cnfg_);
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rlc2.add_bearer(1, cnfg_);
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tester1.start(7);
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if (!args.single_tx) {
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tester2.start(7);
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}
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mac.start();
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for (uint32_t i = 0; i < args.test_duration_sec; i++) {
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// if enabled, mimic reestablishment every second
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if (args.reestablish) {
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// lock mutex during reestablish to prevent a RLC PDU that is already been transmitted before
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// resetting the tx'ing RLC entity, but not yet received before resetting the
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// rx'ing RLC entity to screw the test
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mutex.lock();
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rlc1.reestablish();
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rlc2.reestablish();
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mutex.unlock();
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}
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usleep(1e6);
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}
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tester1.stop();
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tester2.stop();
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mac.stop();
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if (args.write_pcap) {
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pcap.close();
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}
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}
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int main(int argc, char **argv) {
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stress_test_args_t args;
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parse_args(&args, argc, argv);
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stress_test(args);
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byte_buffer_pool::get_instance()->cleanup();
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}
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