lte-test-rlc-um-transmitter.cc

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/*
 * Copyright (c) 2011 Centre Tecnologic de Telecomunicacions de Catalunya (CTTC)
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation;
 *
 * This program 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 General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 * Author: Manuel Requena <manuel.requena@cttc.es>
 */
 
#include "lte-test-rlc-um-transmitter.h"
 
#include "lte-test-entities.h"
 
#include "ns3/log.h"
#include "ns3/lte-rlc-header.h"
#include "ns3/lte-rlc-um.h"
#include "ns3/simulator.h"
 
using namespace ns3;
 
NS_LOG_COMPONENT_DEFINE("LteRlcUmTransmitterTest");
 
LteRlcUmTransmitterTestSuite::LteRlcUmTransmitterTestSuite()
    : TestSuite("lte-rlc-um-transmitter", SYSTEM)
{
    // LogLevel logLevel = (LogLevel)(LOG_PREFIX_FUNC | LOG_PREFIX_TIME | LOG_LEVEL_ALL);
    // LogComponentEnable ("LteRlcUmTransmitterTest", logLevel);
 
    // NS_LOG_INFO ("Creating LteRlcUmTransmitterTestSuite");
 
    AddTestCase(new LteRlcUmTransmitterOneSduTestCase("One SDU, one PDU"), TestCase::QUICK);
    AddTestCase(new LteRlcUmTransmitterSegmentationTestCase("Segmentation"), TestCase::QUICK);
    AddTestCase(new LteRlcUmTransmitterConcatenationTestCase("Concatenation"), TestCase::QUICK);
    AddTestCase(new LteRlcUmTransmitterReportBufferStatusTestCase("ReportBufferStatus primitive"),
                TestCase::QUICK);
}
 
static LteRlcUmTransmitterTestSuite lteRlcUmTransmitterTestSuite;
 
LteRlcUmTransmitterTestCase::LteRlcUmTransmitterTestCase(std::string name)
    : TestCase(name)
{
    // NS_LOG_UNCOND ("Creating LteRlcUmTransmitterTestCase: " + name);
}
 
LteRlcUmTransmitterTestCase::~LteRlcUmTransmitterTestCase()
{
}
 
void
LteRlcUmTransmitterTestCase::DoRun()
{
    // LogLevel logLevel = (LogLevel)(LOG_PREFIX_FUNC | LOG_PREFIX_TIME | LOG_LEVEL_ALL);
    // LogComponentEnable ("LteRlcUmTransmitterTest", logLevel);
    // LogComponentEnable ("LteTestEntities", logLevel);
    // LogComponentEnable ("LteRlc", logLevel);
    // LogComponentEnable ("LteRlcUm", logLevel);
    // LogComponentEnable ("LteRlcHeader", logLevel);
 
    uint16_t rnti = 1111;
    uint8_t lcid = 222;
 
    Packet::EnablePrinting();
 
    // Create topology
 
    // Create transmission PDCP test entity
    txPdcp = CreateObject<LteTestPdcp>();
 
    // Create transmission RLC entity
    txRlc = CreateObject<LteRlcUm>();
    txRlc->SetRnti(rnti);
    txRlc->SetLcId(lcid);
 
    // Create transmission MAC test entity
    txMac = CreateObject<LteTestMac>();
    txMac->SetRlcHeaderType(LteTestMac::UM_RLC_HEADER);
 
    // Connect SAPs: PDCP (TX) <-> RLC (Tx) <-> MAC (Tx)
    txPdcp->SetLteRlcSapProvider(txRlc->GetLteRlcSapProvider());
    txRlc->SetLteRlcSapUser(txPdcp->GetLteRlcSapUser());
 
    txRlc->SetLteMacSapProvider(txMac->GetLteMacSapProvider());
    txMac->SetLteMacSapUser(txRlc->GetLteMacSapUser());
}
 
void
LteRlcUmTransmitterTestCase::CheckDataReceived(Time time,
                                               std::string shouldReceived,
                                               std::string assertMsg)
{
    Simulator::Schedule(time,
                        &LteRlcUmTransmitterTestCase::DoCheckDataReceived,
                        this,
                        shouldReceived,
                        assertMsg);
}
 
void
LteRlcUmTransmitterTestCase::DoCheckDataReceived(std::string shouldReceived, std::string assertMsg)
{
    NS_TEST_ASSERT_MSG_EQ(shouldReceived, txMac->GetDataReceived(), assertMsg);
}
 
LteRlcUmTransmitterOneSduTestCase::LteRlcUmTransmitterOneSduTestCase(std::string name)
    : LteRlcUmTransmitterTestCase(name)
{
}
 
LteRlcUmTransmitterOneSduTestCase::~LteRlcUmTransmitterOneSduTestCase()
{
}
 
void
LteRlcUmTransmitterOneSduTestCase::DoRun()
{
    // Create topology
    LteRlcUmTransmitterTestCase::DoRun();
 
    //
    // a) One SDU generates one PDU
    //
 
    // PDCP entity sends data
    txPdcp->SendData(Seconds(0.100), "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
 
    // MAC entity sends TxOpp to RLC entity
    txMac->SendTxOpportunity(Seconds(0.150), 28);
    CheckDataReceived(Seconds(0.200), "ABCDEFGHIJKLMNOPQRSTUVWXYZ", "SDU is not OK");
 
    Simulator::Run();
    Simulator::Destroy();
}
 
LteRlcUmTransmitterSegmentationTestCase::LteRlcUmTransmitterSegmentationTestCase(std::string name)
    : LteRlcUmTransmitterTestCase(name)
{
}
 
LteRlcUmTransmitterSegmentationTestCase::~LteRlcUmTransmitterSegmentationTestCase()
{
}
 
void
LteRlcUmTransmitterSegmentationTestCase::DoRun()
{
    // Create topology
    LteRlcUmTransmitterTestCase::DoRun();
 
    //
    // b) Segmentation: one SDU generates n PDUs
    //
 
    // PDCP entity sends data
    txPdcp->SendData(Seconds(0.100), "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
 
    // MAC entity sends small TxOpp to RLC entity generating four segments
    txMac->SendTxOpportunity(Seconds(0.150), 10);
    CheckDataReceived(Seconds(0.200), "ABCDEFGH", "Segment #1 is not OK");
 
    txMac->SendTxOpportunity(Seconds(0.200), 10);
    CheckDataReceived(Seconds(0.250), "IJKLMNOP", "Segment #2 is not OK");
 
    txMac->SendTxOpportunity(Seconds(0.300), 10);
    CheckDataReceived(Seconds(0.350), "QRSTUVWX", "Segment #3 is not OK");
 
    txMac->SendTxOpportunity(Seconds(0.400), 4);
    CheckDataReceived(Seconds(0.450), "YZ", "Segment #4 is not OK");
 
    Simulator::Run();
    Simulator::Destroy();
}
 
LteRlcUmTransmitterConcatenationTestCase::LteRlcUmTransmitterConcatenationTestCase(std::string name)
    : LteRlcUmTransmitterTestCase(name)
{
}
 
LteRlcUmTransmitterConcatenationTestCase::~LteRlcUmTransmitterConcatenationTestCase()
{
}
 
void
LteRlcUmTransmitterConcatenationTestCase::DoRun()
{
    // Create topology
    LteRlcUmTransmitterTestCase::DoRun();
 
    //
    // c) Concatenation: n SDUs generate one PDU
    //
 
    // PDCP entity sends three data packets
    txPdcp->SendData(Seconds(0.100), "ABCDEFGH");
    txPdcp->SendData(Seconds(0.150), "IJKLMNOPQR");
    txPdcp->SendData(Seconds(0.200), "STUVWXYZ");
 
    // MAC entity sends TxOpp to RLC entity generating only one concatenated PDU
    txMac->SendTxOpportunity(Seconds(0.250), 31);
    CheckDataReceived(Seconds(0.300), "ABCDEFGHIJKLMNOPQRSTUVWXYZ", "Concatenation is not OK");
 
    Simulator::Run();
    Simulator::Destroy();
}
 
LteRlcUmTransmitterReportBufferStatusTestCase::LteRlcUmTransmitterReportBufferStatusTestCase(
    std::string name)
    : LteRlcUmTransmitterTestCase(name)
{
}
 
LteRlcUmTransmitterReportBufferStatusTestCase::~LteRlcUmTransmitterReportBufferStatusTestCase()
{
}
 
void
LteRlcUmTransmitterReportBufferStatusTestCase::DoRun()
{
    // Create topology
    LteRlcUmTransmitterTestCase::DoRun();
 
    //
    // d) Test the parameters of the ReportBufferStatus primitive
    //
 
    // PDCP entity sends data
    txPdcp->SendData(Seconds(0.100), "ABCDEFGHIJ"); // 10
    txPdcp->SendData(Seconds(0.150), "KLMNOPQRS");  // 9
    txPdcp->SendData(Seconds(0.200), "TUVWXYZ");    // 7
 
    txMac->SendTxOpportunity(Seconds(0.250), (2 + 2) + (10 + 6));
    CheckDataReceived(Seconds(0.300), "ABCDEFGHIJKLMNOP", "SDU is not OK");
 
    txPdcp->SendData(Seconds(0.350), "ABCDEFGH");     // 8
    txPdcp->SendData(Seconds(0.400), "IJKLMNOPQRST"); // 12
    txPdcp->SendData(Seconds(0.450), "UVWXYZ");       // 6
 
    txMac->SendTxOpportunity(Seconds(0.500), 2 + 3);
    CheckDataReceived(Seconds(0.550), "QRS", "SDU is not OK");
 
    txPdcp->SendData(Seconds(0.600), "ABCDEFGH");     // 8
    txPdcp->SendData(Seconds(0.650), "IJKLMNOPQRST"); // 12
    txPdcp->SendData(Seconds(0.700), "UVWXYZ");       // 6
 
    txPdcp->SendData(Seconds(0.750), "ABCDEFGHIJ"); // 10
    txPdcp->SendData(Seconds(0.800), "KLMNOPQRST"); // 10
    txPdcp->SendData(Seconds(0.850), "UVWXYZ");     // 6
 
    txMac->SendTxOpportunity(Seconds(0.900), 2 + 7);
    CheckDataReceived(Seconds(0.950), "TUVWXYZ", "SDU is not OK");
 
    txMac->SendTxOpportunity(Seconds(1.000), (2 + 2) + (8 + 2));
    CheckDataReceived(Seconds(1.050), "ABCDEFGHIJ", "SDU is not OK");
 
    txPdcp->SendData(Seconds(1.100), "ABCDEFGHIJ"); // 10
    txPdcp->SendData(Seconds(1.150), "KLMNOPQRST"); // 10
    txPdcp->SendData(Seconds(1.200), "UVWXYZ");     // 6
 
    txMac->SendTxOpportunity(Seconds(1.250), 2 + 2);
    CheckDataReceived(Seconds(1.300), "KL", "SDU is not OK");
 
    txMac->SendTxOpportunity(Seconds(1.350), 2 + 3);
    CheckDataReceived(Seconds(1.400), "MNO", "SDU is not OK");
 
    txMac->SendTxOpportunity(Seconds(1.450), 2 + 5);
    CheckDataReceived(Seconds(1.500), "PQRST", "SDU is not OK");
 
    txMac->SendTxOpportunity(Seconds(1.550),
                             (2 + 2 + 1 + 2 + 1 + 2 + 1) + (6 + 8 + 12 + 6 + 10 + 10 + 3));
    CheckDataReceived(Seconds(1.600),
                      "UVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVW",
                      "SDU is not OK");
 
    txMac->SendTxOpportunity(Seconds(1.650), (2 + 2 + 1 + 2) + (3 + 10 + 10 + 6));
    CheckDataReceived(Seconds(1.700), "XYZABCDEFGHIJKLMNOPQRSTUVWXYZ", "SDU is not OK");
 
    Simulator::Run();
    Simulator::Destroy();
}