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/**
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* Copyright 2013-2022 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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#include "srsran/rlc/rlc.h"
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#include <iostream>
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#define TESTASSERT(cond) \
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{ \
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if (!(cond)) { \
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std::cout << "[" << __FUNCTION__ << "][Line " << __LINE__ << "]: FAIL at " << (#cond) << std::endl; \
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return -1; \
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} \
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}
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#define MAX_NBUFS 100
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#define NBUFS 5
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using namespace srsran;
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class rlc_tester : public srsue::pdcp_interface_rlc, public srsue::rrc_interface_rlc
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{
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public:
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rlc_tester()
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{
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bzero(sdus, sizeof(sdus));
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n_sdus = 0;
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expected_sdu_len = 0;
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}
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// PDCP interface
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void write_pdu(uint32_t lcid, unique_byte_buffer_t sdu)
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{
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if (lcid != 3 && sdu->N_bytes != expected_sdu_len) {
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printf("Received PDU with size %d, expected %d. Exiting.\n", sdu->N_bytes, expected_sdu_len);
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exit(-1);
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}
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sdus[n_sdus++] = std::move(sdu);
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}
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void notify_delivery(uint32_t lcid, const srsran::pdcp_sn_vector_t& pdcp_sn) {}
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void notify_failure(uint32_t lcid, const srsran::pdcp_sn_vector_t& pdcp_sn) {}
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void write_pdu_bcch_bch(unique_byte_buffer_t sdu) {}
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void write_pdu_bcch_dlsch(unique_byte_buffer_t sdu) {}
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void write_pdu_pcch(unique_byte_buffer_t sdu) {}
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void write_pdu_mch(uint32_t lcid, srsran::unique_byte_buffer_t sdu) { sdus[n_sdus++] = std::move(sdu); }
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// RRC interface
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void max_retx_attempted() {}
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void protocol_failure() {}
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const char* get_rb_name(uint32_t lcid) { return "TestRB"; }
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void set_expected_sdu_len(uint32_t len) { expected_sdu_len = len; }
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unique_byte_buffer_t sdus[MAX_NBUFS];
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int n_sdus;
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uint32_t expected_sdu_len;
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};
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int meas_obj_test()
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{
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auto& logger_rlc1 = srslog::fetch_basic_logger("RLC_1", false);
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logger_rlc1.set_level(srslog::basic_levels::debug);
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logger_rlc1.set_hex_dump_max_size(-1);
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auto& logger_rlc2 = srslog::fetch_basic_logger("RLC_2", false);
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logger_rlc2.set_level(srslog::basic_levels::debug);
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logger_rlc2.set_hex_dump_max_size(-1);
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rlc_tester tester;
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srsran::timer_handler timers(1);
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int len = 0;
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rlc rlc1(logger_rlc1.id().c_str());
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rlc rlc2(logger_rlc2.id().c_str());
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rlc1.init(&tester, &tester, &timers, 0);
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rlc2.init(&tester, &tester, &timers, 0);
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rlc_config_t cnfg = rlc_config_t::default_rlc_um_config(10);
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cnfg.rlc_mode = rlc_mode_t::um;
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cnfg.um.t_reordering = 5;
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cnfg.um.rx_sn_field_length = rlc_umd_sn_size_t::size10bits;
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cnfg.um.rx_window_size = 512;
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cnfg.um.rx_mod = 1024;
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cnfg.um.tx_sn_field_length = rlc_umd_sn_size_t::size10bits;
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cnfg.um.tx_mod = 1024;
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uint32_t lcid = 1;
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rlc1.add_bearer(lcid, cnfg);
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rlc2.add_bearer(lcid, cnfg);
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byte_buffer_pool* pool = byte_buffer_pool::get_instance();
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unique_byte_buffer_t sdu_bufs[NBUFS];
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tester.set_expected_sdu_len(1);
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// Push 5 SDUs into RLC1
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for (int i = 0; i < NBUFS; i++) {
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sdu_bufs[i] = srsran::make_byte_buffer();
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*sdu_bufs[i]->msg = i; // Write the index into the buffer
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sdu_bufs[i]->N_bytes = 1; // Give each buffer a size of 1 byte
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rlc1.write_sdu(lcid, std::move(sdu_bufs[i]));
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}
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TESTASSERT(14 == rlc1.get_buffer_state(lcid));
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// Reestablish
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rlc1.reestablish(1);
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TESTASSERT(0 == rlc1.get_buffer_state(lcid));
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// Push again 5 SDUs, SN should start from 0
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for (int i = 0; i < NBUFS; i++) {
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sdu_bufs[i] = srsran::make_byte_buffer();
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*sdu_bufs[i]->msg = i; // Write the index into the buffer
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sdu_bufs[i]->N_bytes = 1; // Give each buffer a size of 1 byte
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rlc1.write_sdu(lcid, std::move(sdu_bufs[i]));
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}
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TESTASSERT(14 == rlc1.get_buffer_state(lcid));
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// Read 5 PDUs from RLC1 (1 byte each)
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byte_buffer_t pdu_bufs[NBUFS];
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for (int i = 0; i < NBUFS; i++) {
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len = rlc1.read_pdu(lcid, pdu_bufs[i].msg, 4); // 3 bytes for header + payload
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pdu_bufs[i].N_bytes = len;
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}
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TESTASSERT(0 == rlc1.get_buffer_state(lcid));
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// Write 5 PDUs into RLC2
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for (int i = 0; i < NBUFS; i++) {
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rlc2.write_pdu(lcid, pdu_bufs[i].msg, pdu_bufs[i].N_bytes);
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}
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// Check they have been passed to PDCP
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TESTASSERT(NBUFS == tester.n_sdus);
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rlc2.reestablish(lcid);
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tester.n_sdus = 0;
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// Push again
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for (int i = 0; i < NBUFS; i++) {
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rlc2.write_pdu(lcid, pdu_bufs[i].msg, pdu_bufs[i].N_bytes);
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}
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// Check the are again in the buffer
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TESTASSERT(NBUFS == tester.n_sdus);
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for (int i = 0; i < NBUFS; i++) {
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TESTASSERT(tester.sdus[i]->N_bytes == 1);
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TESTASSERT(*(tester.sdus[i]->msg) == i);
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}
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// Resume unexisting and unsuspended bearer
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rlc2.resume_bearer(lcid + 1);
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rlc2.resume_bearer(lcid);
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// Suspend unexisting bearer and twice
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rlc2.suspend_bearer(lcid + 1);
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rlc2.suspend_bearer(lcid);
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rlc2.suspend_bearer(lcid);
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// Reestablish and push again while in suspended
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rlc2.reestablish(lcid);
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tester.n_sdus = 0;
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// Push again
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for (int i = 0; i < NBUFS; i++) {
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rlc2.write_pdu(lcid, pdu_bufs[i].msg, pdu_bufs[i].N_bytes);
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}
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// Check they are not being passed to PDCP
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TESTASSERT(0 == tester.n_sdus);
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rlc2.resume_bearer(lcid);
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// Check now they are being passed
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TESTASSERT(NBUFS == tester.n_sdus);
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for (int i = 0; i < NBUFS; i++) {
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TESTASSERT(tester.sdus[i]->N_bytes == 1);
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TESTASSERT(*(tester.sdus[i]->msg) == i);
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}
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return 0;
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}
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int main(int argc, char** argv)
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{
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srslog::init();
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if (meas_obj_test()) {
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return -1;
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}
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}
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