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/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2021 Software Radio Systems Limited
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*
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* By using this file, you agree to the terms and conditions set
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* forth in the LICENSE file which can be found at the top level of
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* the distribution.
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*
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*/
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#include "rlc_stress_test.h"
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#include "srsran/common/block_queue.h"
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#include "srsran/common/crash_handler.h"
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#include "srsran/common/rlc_pcap.h"
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#include "srsran/common/test_common.h"
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#include "srsran/common/threads.h"
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#include "srsran/common/tsan_options.h"
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#include "srsran/rlc/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 <cassert>
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#include <cstdlib>
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#include <iostream>
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#include <pthread.h>
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#include <random>
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#include "srsran/common/mac_pcap.h"
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#include "srsran/mac/mac_sch_pdu_nr.h"
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static std::unique_ptr<srsran::mac_pcap> pcap_handle = nullptr;
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/***********************
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* MAC tester class
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***********************/
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void mac_dummy::run_thread()
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{
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srsran::move_task_t task;
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while (run_enable) {
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// Downlink direction first (RLC1->RLC2)
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run_tti(rlc1, rlc2, true);
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// UL direction (RLC2->RLC1)
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run_tti(rlc2, rlc1, false);
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// step timer
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timers->step_all();
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if (pending_tasks.try_pop(&task)) {
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task();
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}
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}
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if (pending_tasks.try_pop(&task)) {
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task();
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}
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}
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void mac_dummy::run_tti(srsue::rlc_interface_mac* tx_rlc, srsue::rlc_interface_mac* rx_rlc, bool is_dl)
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{
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std::vector<srsran::unique_byte_buffer_t> pdu_list;
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// Run Tx
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run_tx_tti(tx_rlc, rx_rlc, pdu_list);
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// Reverse PDUs
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std::reverse(pdu_list.begin(), pdu_list.end());
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// Run Rx
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run_rx_tti(tx_rlc, rx_rlc, is_dl, pdu_list);
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}
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void mac_dummy::run_tx_tti(srsue::rlc_interface_mac* tx_rlc,
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srsue::rlc_interface_mac* rx_rlc,
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std::vector<srsran::unique_byte_buffer_t>& pdu_list)
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{
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// Generate A number of MAC PDUs
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for (uint32_t i = 0; i < args.nof_pdu_tti; i++) {
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// Create PDU unique buffer
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srsran::unique_byte_buffer_t pdu = srsran::make_byte_buffer();
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if (!pdu) {
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printf("Fatal Error: Could not allocate PDU in %s\n", __FUNCTION__);
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exit(-1);
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}
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// Get MAC PDU size
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float factor = 1.0f;
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if (args.random_opp) {
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factor = 0.5f + real_dist(mt19937);
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}
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int opp_size = static_cast<int>(args.avg_opp_size * factor);
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// Request data to transmit
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uint32_t buf_state = tx_rlc->get_buffer_state(lcid);
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if (buf_state > 0) {
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pdu->N_bytes = tx_rlc->read_pdu(lcid, pdu->msg, opp_size);
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// Push PDU in the list
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pdu_list.push_back(std::move(pdu));
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}
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}
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}
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void mac_dummy::run_rx_tti(srsue::rlc_interface_mac* tx_rlc,
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srsue::rlc_interface_mac* rx_rlc,
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bool is_dl,
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std::vector<srsran::unique_byte_buffer_t>& pdu_list)
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{
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// Sleep if necessary
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if (args.pdu_tx_delay_usec > 0) {
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std::this_thread::sleep_for(std::chrono::microseconds(args.pdu_tx_delay_usec));
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}
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auto it = pdu_list.begin(); // PDU iterator
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bool skip_action = false; // Avoid discarding a duplicated or duplicating a discarded
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while (it != pdu_list.end()) {
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// Get PDU unique buffer
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srsran::unique_byte_buffer_t& pdu = *it;
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// Drop
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float rnd = real_dist(mt19937);
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if (std::isnan(rnd) || (((rnd > args.pdu_drop_rate) || skip_action) && pdu->N_bytes > 0)) {
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uint32_t pdu_len = pdu->N_bytes;
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// Cut
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if ((real_dist(mt19937) < args.pdu_cut_rate)) {
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int cut_pdu_len = static_cast<int>(pdu_len * real_dist(mt19937));
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logger.info("Cutting MAC PDU len (%d B -> %d B)", pdu_len, cut_pdu_len);
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pdu_len = cut_pdu_len;
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}
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// Write PDU in RX
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rx_rlc->write_pdu(lcid, pdu->msg, pdu_len);
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// Write PCAP
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write_pdu_to_pcap(pcap_handle, is_dl, 4, pdu->msg, pdu_len); // Only handles NR rat
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if (is_dl) {
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pcap->write_dl_ccch(pdu->msg, pdu_len);
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} else {
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pcap->write_ul_ccch(pdu->msg, pdu_len);
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}
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} else {
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logger.info(pdu->msg, pdu->N_bytes, "Dropping RLC PDU (%d B)", pdu->N_bytes);
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skip_action = true; // Avoid drop duplicating this PDU
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}
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// Duplicate
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if (real_dist(mt19937) > args.pdu_duplicate_rate || skip_action) {
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it++;
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skip_action = false; // Allow action on the next PDU
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} else {
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logger.info(pdu->msg, pdu->N_bytes, "Duplicating RLC PDU (%d B)", pdu->N_bytes);
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skip_action = true; // Avoid drop of this PDU
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}
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}
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}
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/***********************
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* RLC tester class
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***********************/
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// PDCP interface
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void rlc_tester::write_pdu(uint32_t rx_lcid, srsran::unique_byte_buffer_t sdu)
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{
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assert(rx_lcid == lcid);
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if (args.mode != "AM") {
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// Only AM will guarantee to deliver SDUs, take first byte as reference for other modes
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next_expected_sdu = sdu->msg[0];
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}
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// check SDU content (consider faster alternative)
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for (uint32_t i = 0; i < sdu->N_bytes; ++i) {
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if (sdu->msg[i] != next_expected_sdu) {
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logger.error(sdu->msg,
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sdu->N_bytes,
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"Received malformed SDU with size %d, expected data 0x%X",
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sdu->N_bytes,
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next_expected_sdu);
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fprintf(stderr, "Received malformed SDU with size %d, expected data 0x%X\n", sdu->N_bytes, next_expected_sdu);
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fprintf(stdout, "Received malformed SDU with size %d, expected data 0x%X\n", sdu->N_bytes, next_expected_sdu);
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std::this_thread::sleep_for(std::chrono::seconds(1)); // give some time to flush logs
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exit(-1);
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}
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}
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next_expected_sdu += 1;
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rx_pdus++;
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}
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void rlc_tester::run_thread()
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{
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uint32_t pdcp_sn = 0;
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uint32_t sdu_size = 0;
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uint8_t payload = 0x0; // increment for each SDU
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while (run_enable) {
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// SDU queue is full, don't assign PDCP SN
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if (rlc_pdcp->sdu_queue_is_full(lcid)) {
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continue;
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}
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srsran::unique_byte_buffer_t pdu = srsran::make_byte_buffer();
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if (pdu == nullptr) {
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printf("Error: Could not allocate PDU in rlc_tester::run_thread\n\n\n");
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// backoff for a bit
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std::this_thread::sleep_for(std::chrono::milliseconds(1));
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continue;
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}
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pdu->md.pdcp_sn = pdcp_sn;
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// random or fixed SDU size
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if (args.sdu_size < 1) {
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sdu_size = int_dist(mt19937);
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} else {
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sdu_size = args.sdu_size;
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}
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for (uint32_t i = 0; i < sdu_size; i++) {
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pdu->msg[i] = payload;
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}
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pdu->N_bytes = sdu_size;
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payload++;
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rlc_pdcp->write_sdu(lcid, std::move(pdu));
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pdcp_sn = (pdcp_sn + 1) % max_pdcp_sn;
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if (args.sdu_gen_delay_usec > 0) {
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std::this_thread::sleep_for(std::chrono::microseconds(args.sdu_gen_delay_usec));
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}
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}
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}
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void stress_test(stress_test_args_t args)
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{
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auto log_sink =
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(args.log_filename == "stdout") ? srslog::create_stdout_sink() : srslog::create_file_sink(args.log_filename);
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if (!log_sink) {
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return;
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}
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srslog::log_channel* chan = srslog::create_log_channel("main_channel", *log_sink);
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if (!chan) {
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return;
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}
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srslog::set_default_sink(*log_sink);
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auto& log1 = srslog::fetch_basic_logger("RLC_1", false);
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log1.set_level(static_cast<srslog::basic_levels>(args.log_level));
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log1.set_hex_dump_max_size(args.log_hex_limit);
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auto& log2 = srslog::fetch_basic_logger("RLC_2", false);
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log2.set_level(static_cast<srslog::basic_levels>(args.log_level));
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log2.set_hex_dump_max_size(args.log_hex_limit);
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srsran::rlc_pcap pcap;
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uint32_t lcid = 1;
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srsran::rlc_config_t cnfg_ = {};
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if (args.rat == "LTE") {
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if (args.mode == "AM") {
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// config RLC AM bearer
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cnfg_ = srsran::rlc_config_t::default_rlc_am_config();
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cnfg_.am.max_retx_thresh = args.max_retx;
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} else if (args.mode == "UM") {
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// config UM bearer
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cnfg_ = srsran::rlc_config_t::default_rlc_um_config();
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} else if (args.mode == "TM") {
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// use default LCID in TM
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lcid = 0;
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} else {
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std::cout << "Unsupported RLC mode " << args.mode << ", exiting." << std::endl;
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exit(-1);
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}
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if (args.write_pcap) {
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pcap.open("rlc_stress_test.pcap", cnfg_);
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}
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} else if (args.rat == "NR") {
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if (args.mode == "UM6") {
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cnfg_ = srsran::rlc_config_t::default_rlc_um_nr_config(6);
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} else if (args.mode == "UM12") {
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cnfg_ = srsran::rlc_config_t::default_rlc_um_nr_config(12);
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} else if (args.mode == "AM12") {
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cnfg_ = srsran::rlc_config_t::default_rlc_am_nr_config();
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} else {
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std::cout << "Unsupported RLC mode " << args.mode << ", exiting." << std::endl;
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exit(-1);
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}
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if (args.write_pcap) {
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pcap_handle = std::unique_ptr<srsran::mac_pcap>(new srsran::mac_pcap());
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pcap_handle->open("rlc_stress_test_nr.pcap");
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}
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} else {
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std::cout << "Unsupported RAT mode " << args.rat << ", exiting." << std::endl;
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exit(-1);
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}
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// generate random seed if needed
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uint32_t seed = 0;
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if (not args.zero_seed) {
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std::random_device rd;
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seed = rd();
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}
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srsran::timer_handler timers(8);
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srsran::rlc rlc1(log1.id().c_str());
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srsran::rlc rlc2(log2.id().c_str());
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rlc_tester tester1(&rlc1, "tester1", args, lcid, seed);
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rlc_tester tester2(&rlc2, "tester2", args, lcid, seed);
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mac_dummy mac(&rlc1, &rlc2, args, lcid, &timers, &pcap, seed);
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rlc1.init(&tester1, &tester1, &timers, 0);
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rlc2.init(&tester2, &tester2, &timers, 0);
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// only add AM and UM bearers
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if (args.mode != "TM") {
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rlc1.add_bearer(lcid, cnfg_);
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rlc2.add_bearer(lcid, cnfg_);
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}
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printf("Starting test ... Seed: %u\n", seed);
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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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// wait until test is over
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std::this_thread::sleep_for(std::chrono::seconds(args.test_duration_sec));
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srslog::flush();
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fflush(stdout);
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printf("Test finished, tearing down ..\n");
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// Stop RLC instances first to release blocking writers
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mac.enqueue_task([&rlc1, &rlc2]() {
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rlc1.stop();
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rlc2.stop();
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});
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printf("RLC entities stopped.\n");
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// Stop upper layer writers
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tester1.stop();
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tester2.stop();
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printf("Writers stopped.\n");
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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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|
srsran::rlc_metrics_t metrics = {};
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|
|
|
rlc1.get_metrics(metrics, 1);
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|
|
|
|
|
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|
printf("RLC1 received %" PRIu64 " SDUs in %ds (%.2f/s), Tx=%" PRIu64 " B, Rx=%" PRIu64 " B\n",
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|
tester1.get_nof_rx_pdus(),
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|
|
|
args.test_duration_sec,
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|
|
|
static_cast<double>(tester1.get_nof_rx_pdus() / args.test_duration_sec),
|
|
|
|
metrics.bearer[lcid].num_tx_pdu_bytes,
|
|
|
|
metrics.bearer[lcid].num_rx_pdu_bytes);
|
|
|
|
rlc_bearer_metrics_print(metrics.bearer[lcid]);
|
|
|
|
|
|
|
|
rlc2.get_metrics(metrics, 1);
|
|
|
|
printf("RLC2 received %" PRIu64 " SDUs in %ds (%.2f/s), Tx=%" PRIu64 " B, Rx=%" PRIu64 " B\n",
|
|
|
|
tester2.get_nof_rx_pdus(),
|
|
|
|
args.test_duration_sec,
|
|
|
|
static_cast<double>(tester2.get_nof_rx_pdus() / args.test_duration_sec),
|
|
|
|
metrics.bearer[lcid].num_tx_pdu_bytes,
|
|
|
|
metrics.bearer[lcid].num_rx_pdu_bytes);
|
|
|
|
rlc_bearer_metrics_print(metrics.bearer[lcid]);
|
|
|
|
}
|
|
|
|
|
|
|
|
int main(int argc, char** argv)
|
|
|
|
{
|
|
|
|
srsran_debug_handle_crash(argc, argv);
|
|
|
|
|
|
|
|
stress_test_args_t args = {};
|
|
|
|
parse_args(&args, argc, argv);
|
|
|
|
|
|
|
|
srslog::init();
|
|
|
|
|
|
|
|
stress_test(args);
|
|
|
|
|
|
|
|
exit(0);
|
|
|
|
}
|