3.36/doxygen/tcp-yeah-test_8cc_source.html

/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */

/*

 * Copyright (c) 2016 ResiliNets, ITTC, University of Kansas

 *

 * 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: Truc Anh N. Nguyen <annguyen@ittc.ku.edu>

 *

 * James P.G. Sterbenz <jpgs@ittc.ku.edu>, director

 * ResiliNets Research Group  http://wiki.ittc.ku.edu/resilinets

 * Information and Telecommunication Technology Center (ITTC)

 * and Department of Electrical Engineering and Computer Science

 * The University of Kansas Lawrence, KS USA.

 */


#include "ns3/test.h"

#include "ns3/log.h"

#include "ns3/tcp-congestion-ops.h"

#include "ns3/tcp-socket-base.h"

#include "ns3/tcp-yeah.h"


using namespace ns3;


NS_LOG_COMPONENT_DEFINE ("TcpYeahTestSuite");


class TcpYeahIncrementTest : public TestCase

{

public:

  TcpYeahIncrementTest (uint32_t cWnd,

                        uint32_t ssThresh,

                        uint32_t segmentSize,

                        SequenceNumber32 nextTxSeq,

                        SequenceNumber32 lastAckedSeq,

                        uint32_t segmentsAcked,

                        Time minRtt,

                        const std::string &name);


private:

  virtual void DoRun ();

  void IncreaseWindow (Ptr<TcpYeah> cong);


  uint32_t m_cWnd;

  uint32_t m_ssThresh;

  uint32_t m_segmentSize;

  SequenceNumber32 m_nextTxSeq;

  SequenceNumber32 m_lastAckedSeq;

  uint32_t m_segmentsAcked;

  Time m_baseRtt;

  Time m_minRtt;

  uint32_t m_doingRenoNow;

  uint32_t m_cntRtt;

  uint32_t m_renoCount;

};


TcpYeahIncrementTest::TcpYeahIncrementTest (uint32_t cWnd,

                                            uint32_t ssThresh,

                                            uint32_t segmentSize,

                                            SequenceNumber32 nextTxSeq,

                                            SequenceNumber32 lastAckedSeq,

                                            uint32_t segmentsAcked,

                                            Time minRtt,

                                            const std::string &name)

  : TestCase (name),

    m_cWnd (cWnd),

    m_ssThresh (ssThresh),

    m_segmentSize (segmentSize),

    m_nextTxSeq (nextTxSeq),

    m_lastAckedSeq (lastAckedSeq),

    m_segmentsAcked (segmentsAcked),

    m_baseRtt (MilliSeconds (100)),

    m_minRtt (minRtt),

    m_doingRenoNow (0),

    m_cntRtt (4),

    m_renoCount (2)

{

}


void

TcpYeahIncrementTest::DoRun ()

{

  Ptr<TcpSocketState> state = CreateObject <TcpSocketState> ();

  state->m_cWnd = m_cWnd;

  state->m_ssThresh = m_ssThresh;

  state->m_segmentSize = m_segmentSize;

  state->m_nextTxSequence = m_nextTxSeq;

  state->m_lastAckedSeq = m_lastAckedSeq;

  state->m_minRtt = m_minRtt;


  Ptr<TcpYeah> cong = CreateObject <TcpYeah> ();


  // Set baseRtt to 100 ms

  cong->PktsAcked (state, m_segmentsAcked, m_baseRtt);


  // Reset YeAH to assign a new value of minRtt

  cong->CongestionStateSet (state, TcpSocketState::CA_OPEN);

  cong->PktsAcked (state, m_segmentsAcked, m_minRtt);


  // 2 more calls to PktsAcked to increment cntRtt beyond 2

  cong->PktsAcked (state, m_segmentsAcked, m_minRtt);

  cong->PktsAcked (state, m_segmentsAcked, m_minRtt);


  cong->IncreaseWindow (state, m_segmentsAcked);

  IncreaseWindow (cong);


  NS_TEST_ASSERT_MSG_EQ (state->m_cWnd.Get (), m_cWnd,

                         "CWnd has not updated correctly");

}


void

TcpYeahIncrementTest::IncreaseWindow (Ptr<TcpYeah> cong)

{

  uint32_t segCwnd = m_cWnd / m_segmentSize;


  if (m_cWnd < m_ssThresh)

    { // NewReno slow start

      if (m_segmentsAcked >= 1)

        {

          m_cWnd += m_segmentSize;

          m_segmentsAcked -= 1;

          NS_LOG_INFO ("In SlowStart, updated to cwnd " << m_cWnd <<

                       " ssthresh " << m_ssThresh);

        }

    }

  else if (!m_doingRenoNow)

    { // Fast mode, follow STCP increment rule

      UintegerValue aiFactor;

      cong->GetAttribute ("StcpAiFactor", aiFactor);

      uint32_t w = std::min (segCwnd, (uint32_t) aiFactor.Get ());

      uint32_t delta = m_segmentsAcked / w;

      m_cWnd += delta * m_segmentSize;

      NS_LOG_INFO ("In Fast mode, updated to cwnd " << m_cWnd <<

                   " ssthresh " << m_ssThresh);

    }

  else

    { // NewReno congestion avoidance

      if (m_segmentsAcked > 0)

        {

          double adder = static_cast<double> (m_segmentSize * m_segmentSize) / m_cWnd;

          adder = std::max (1.0, adder);

          m_cWnd += static_cast<uint32_t> (adder);

          NS_LOG_INFO ("In CongAvoid, updated to cwnd " << m_cWnd <<

                       " ssthresh " << m_ssThresh);

        }


    }

  if (m_lastAckedSeq >= m_nextTxSeq)

    {

      if (m_cntRtt > 2)

        {

          /*

           * Calculate the extra number of packets in queue

           */

          Time rttQueue = m_minRtt - m_baseRtt;

          double bw = segCwnd / m_minRtt.GetSeconds ();

          uint32_t queue = bw * rttQueue.GetSeconds ();


          // Calculate network congestion level

          double L = rttQueue.GetSeconds () / m_baseRtt.GetSeconds ();


          UintegerValue alpha;

          cong->GetAttribute ("Alpha", alpha);

          UintegerValue phy;

          cong->GetAttribute ("Phy", phy);

          UintegerValue gamma;

          cong->GetAttribute ("Gamma", gamma);

          UintegerValue epsilon;

          cong->GetAttribute ("Epsilon", epsilon);

          UintegerValue zeta;

          cong->GetAttribute ("Zeta", zeta);


          if (queue > alpha.Get () || L > (1 / phy.Get ()) )

            { // Slow mode

              NS_LOG_INFO ("Enter Slow mode");

              if (queue > alpha.Get () && segCwnd > m_renoCount)

                { // Precautionary decongestion

                  uint32_t reduction = std::min (queue / (uint32_t) gamma.Get (),

                                        segCwnd >> (uint32_t) epsilon.Get ());

                  segCwnd -= reduction;

                  segCwnd = std::max (segCwnd, m_renoCount);

                  m_cWnd = segCwnd * m_segmentSize;

                  m_ssThresh = m_cWnd;

                  NS_LOG_INFO ("In Slow mode, after precautionary decongestion, "

                               "updated to cwnd " << m_cWnd << " ssthresh " <<

                               m_ssThresh);

                }

            }

        }

    }

}


class TcpYeahDecrementTest : public TestCase

{

public:

  TcpYeahDecrementTest (uint32_t cWnd,

                        uint32_t ssThresh,

                        uint32_t segmentSize,

                        SequenceNumber32 nextTxSeq,

                        SequenceNumber32 lastAckedSeq,

                        Time minRtt,

                        UintegerValue rho,

                        const std::string &name);


private:

  virtual void DoRun (void);

  uint32_t CalculateSsThresh (Ptr<TcpYeah> cong);


  uint32_t m_cWnd;

  uint32_t m_ssThresh;

  uint32_t m_segmentSize;

  uint32_t m_doingRenoNow;

  SequenceNumber32 m_nextTxSeq;

  SequenceNumber32 m_lastAckedSeq;

  Time m_minRtt;

  Time m_baseRtt;

  uint32_t m_segmentsAcked;

  UintegerValue m_rho;

};


TcpYeahDecrementTest::TcpYeahDecrementTest (uint32_t cWnd,

                                            uint32_t ssThresh,

                                            uint32_t segmentSize,

                                            SequenceNumber32 nextTxSeq,

                                            SequenceNumber32 lastAckedSeq,

                                            Time minRtt,

                                            UintegerValue rho,

                                            const std::string &name)

  : TestCase (name),

    m_cWnd (cWnd),

    m_ssThresh (ssThresh),

    m_segmentSize (segmentSize),

    m_doingRenoNow (0),

    m_nextTxSeq (nextTxSeq),

    m_lastAckedSeq (lastAckedSeq),

    m_minRtt (minRtt),

    m_baseRtt (MilliSeconds (100)),

    m_segmentsAcked (2),

    m_rho (rho)

{

}


void

TcpYeahDecrementTest::DoRun ()

{

  Ptr<TcpSocketState> state = CreateObject <TcpSocketState> ();

  state->m_cWnd = m_cWnd;

  state->m_nextTxSequence = m_nextTxSeq;

  state->m_lastAckedSeq = m_lastAckedSeq;

  state->m_segmentSize = m_segmentSize;

  state->m_ssThresh = m_ssThresh;


  Ptr<TcpYeah> cong = CreateObject <TcpYeah> ();


  // Re-set rho to 1 for this unit test

  cong->SetAttribute ("Rho", UintegerValue (m_rho));


  // Set baseRtt to 100 ms

  cong->PktsAcked (state, m_segmentsAcked, m_baseRtt);


  // Set minRtt to a different value

  cong->CongestionStateSet (state, TcpSocketState::CA_OPEN);

  cong->PktsAcked (state, m_segmentsAcked, m_minRtt);


  // 2 more calls to PktsAcked to increment cntRtt beyond 2

  cong->PktsAcked (state, m_segmentsAcked, m_minRtt);

  cong->PktsAcked (state, m_segmentsAcked, m_minRtt);


  // Calculate queue backlog

  cong->IncreaseWindow (state, m_segmentsAcked);


  // Now get the value of ssThresh

  uint32_t ssThresh = cong->GetSsThresh (state, m_cWnd);


  // Our calculation of ssThresh

  uint32_t ssThreshVal = CalculateSsThresh (cong);


  NS_TEST_ASSERT_MSG_EQ (ssThresh, ssThreshVal,

                         "SsThresh has not updated correctly");

}


uint32_t

TcpYeahDecrementTest::CalculateSsThresh (Ptr<TcpYeah> cong)

{

  // Calculate queue backlog

  uint32_t segCwnd = m_cWnd / m_segmentSize;

  uint32_t reduction;


  UintegerValue delta;

  cong->GetAttribute ("Delta", delta);


  Time rttQueue =  m_minRtt - m_baseRtt;


  // queue = rttQueue * bw = rttQueue * (cwnd/RTTmin)

  double bw = segCwnd / m_minRtt.GetSeconds ();

  uint32_t queue = bw * rttQueue.GetSeconds ();


  NS_LOG_LOGIC ("queue backlog" << queue);


  if (m_doingRenoNow < m_rho.Get ())

    {

      reduction = std::max (queue, segCwnd >> delta.Get ());

      reduction = std::min (reduction, std::max (segCwnd >> 1, (uint32_t) 2));

      NS_LOG_INFO ("Reduction amount for yeah upon loss = " << reduction);

    }

  else

    {

      reduction = std::max (segCwnd >> 1, (uint32_t) 2);

      NS_LOG_INFO ("Reduction amount for reno upon loss = " << reduction);

    }


  return (m_cWnd - (reduction * m_segmentSize));


}


class TcpYeahTestSuite : public TestSuite

{

public:

  TcpYeahTestSuite () : TestSuite ("tcp-yeah-test", UNIT)

  {

    AddTestCase (new TcpYeahIncrementTest (20 * 1446, 25 * 1446, 1446, SequenceNumber32 (2893),

                                           SequenceNumber32 (1447), 1, MilliSeconds (105),

                                           "YeAH test on cWnd when in slow start"),

                 TestCase::QUICK);

    AddTestCase (new TcpYeahIncrementTest (30 * 1446, 25 * 1446, 1446, SequenceNumber32 (2893),

                                           SequenceNumber32 (1447), 30, MilliSeconds (105),

                                           "YeAH test on cWnd when in Fast mode"),

                 TestCase::QUICK);

    AddTestCase (new TcpYeahIncrementTest (40 * 356, 30 * 356, 356, SequenceNumber32 (20761),

                                           SequenceNumber32 (21117), 1, MilliSeconds (120),

                                           "YeAH test on cWnd when in slow mode without precautionary decongestion"),

                 TestCase::QUICK);

    AddTestCase (new TcpYeahIncrementTest (100 * 356, 70 * 356, 356, SequenceNumber32 (20761),

                                           SequenceNumber32 (21117), 1, MilliSeconds (600),

                                           "YeAH test on cWnd when in slow mode with precautionary decongestion"),

                 TestCase::QUICK);

    AddTestCase (new TcpYeahDecrementTest (40 * 1446, 30 * 1446, 1446, SequenceNumber32 (2893),

                                           SequenceNumber32 (7230), MilliSeconds (120), UintegerValue (0),

                                           "YeAH test on ssThresh upon loss while competing with Reno flows"),

                 TestCase::QUICK);

    AddTestCase (new TcpYeahDecrementTest (57 * 1446, 42 * 1446, 1446, SequenceNumber32 (2893),

                                           SequenceNumber32 (7230), MilliSeconds (200), UintegerValue (2),

                                           "YeAH test on ssThresh upon loss while not competing with Reno flows"),

                 TestCase::QUICK);

  }

};


static TcpYeahTestSuite g_tcpYeahTest;


min
#define min(a, b)
Definition: 80211b.c:42

max
#define max(a, b)
Definition: 80211b.c:43

TcpYeahDecrementTest
Testing TcpYeah multiplicative decrease algorithm.
Definition: tcp-yeah-test.cc:230

TcpYeahDecrementTest::m_baseRtt
Time m_baseRtt
Base RTT.
Definition: tcp-yeah-test.cc:268

TcpYeahDecrementTest::m_cWnd
uint32_t m_cWnd
Congestion window.
Definition: tcp-yeah-test.cc:261

TcpYeahDecrementTest::DoRun
virtual void DoRun(void)
Implementation to actually run this TestCase.
Definition: tcp-yeah-test.cc:296

TcpYeahDecrementTest::m_minRtt
Time m_minRtt
Min RTT.
Definition: tcp-yeah-test.cc:267

TcpYeahDecrementTest::m_segmentsAcked
uint32_t m_segmentsAcked
Number of segments ACKed.
Definition: tcp-yeah-test.cc:269

TcpYeahDecrementTest::m_ssThresh
uint32_t m_ssThresh
Slow Start Threshold.
Definition: tcp-yeah-test.cc:262

TcpYeahDecrementTest::m_nextTxSeq
SequenceNumber32 m_nextTxSeq
Next Tx sequence number.
Definition: tcp-yeah-test.cc:265

TcpYeahDecrementTest::m_segmentSize
uint32_t m_segmentSize
Segment size.
Definition: tcp-yeah-test.cc:263

TcpYeahDecrementTest::m_doingRenoNow
uint32_t m_doingRenoNow
TCP Reno fallback.
Definition: tcp-yeah-test.cc:264

TcpYeahDecrementTest::CalculateSsThresh
uint32_t CalculateSsThresh(Ptr< TcpYeah > cong)
Calculate the Slow Start threshold.
Definition: tcp-yeah-test.cc:335

TcpYeahDecrementTest::m_rho
UintegerValue m_rho
TCP Yeah rho param.
Definition: tcp-yeah-test.cc:270

TcpYeahDecrementTest::TcpYeahDecrementTest
TcpYeahDecrementTest(uint32_t cWnd, uint32_t ssThresh, uint32_t segmentSize, SequenceNumber32 nextTxSeq, SequenceNumber32 lastAckedSeq, Time minRtt, UintegerValue rho, const std::string &name)
Constructor.
Definition: tcp-yeah-test.cc:273

TcpYeahDecrementTest::m_lastAckedSeq
SequenceNumber32 m_lastAckedSeq
Last ACKed sequence number.
Definition: tcp-yeah-test.cc:266

TcpYeahIncrementTest
Testing TcpYeah additive increase algorithm.
Definition: tcp-yeah-test.cc:44

TcpYeahIncrementTest::IncreaseWindow
void IncreaseWindow(Ptr< TcpYeah > cong)
Increases the TCP window.
Definition: tcp-yeah-test.cc:142

TcpYeahIncrementTest::m_segmentsAcked
uint32_t m_segmentsAcked
Number of segments ACKed.
Definition: tcp-yeah-test.cc:79

TcpYeahIncrementTest::m_cWnd
uint32_t m_cWnd
Congestion window.
Definition: tcp-yeah-test.cc:74

TcpYeahIncrementTest::m_baseRtt
Time m_baseRtt
Base RTT.
Definition: tcp-yeah-test.cc:80

TcpYeahIncrementTest::m_segmentSize
uint32_t m_segmentSize
Segment size.
Definition: tcp-yeah-test.cc:76

TcpYeahIncrementTest::TcpYeahIncrementTest
TcpYeahIncrementTest(uint32_t cWnd, uint32_t ssThresh, uint32_t segmentSize, SequenceNumber32 nextTxSeq, SequenceNumber32 lastAckedSeq, uint32_t segmentsAcked, Time minRtt, const std::string &name)
Constructor.
Definition: tcp-yeah-test.cc:87

TcpYeahIncrementTest::m_doingRenoNow
uint32_t m_doingRenoNow
TCP Reno fallback.
Definition: tcp-yeah-test.cc:82

TcpYeahIncrementTest::m_lastAckedSeq
SequenceNumber32 m_lastAckedSeq
Last ACKed sequence number.
Definition: tcp-yeah-test.cc:78

TcpYeahIncrementTest::DoRun
virtual void DoRun()
Implementation to actually run this TestCase.
Definition: tcp-yeah-test.cc:111

TcpYeahIncrementTest::m_nextTxSeq
SequenceNumber32 m_nextTxSeq
Next Tx sequence number.
Definition: tcp-yeah-test.cc:77

TcpYeahIncrementTest::m_ssThresh
uint32_t m_ssThresh
Slow Start Threshold.
Definition: tcp-yeah-test.cc:75

TcpYeahIncrementTest::m_renoCount
uint32_t m_renoCount
Reno counter.
Definition: tcp-yeah-test.cc:84

TcpYeahIncrementTest::m_minRtt
Time m_minRtt
Min RTT.
Definition: tcp-yeah-test.cc:81

TcpYeahIncrementTest::m_cntRtt
uint32_t m_cntRtt
RTT counter.
Definition: tcp-yeah-test.cc:83

TcpYeahTestSuite
TCP Yeah TestSuite.
Definition: tcp-yeah-test.cc:377

TcpYeahTestSuite::TcpYeahTestSuite
TcpYeahTestSuite()
Definition: tcp-yeah-test.cc:379

ns3::Ptr
Smart pointer class similar to boost::intrusive_ptr.
Definition: ptr.h:74

ns3::SequenceNumber< uint32_t, int32_t >

ns3::TcpSocketState::m_segmentSize
uint32_t m_segmentSize
Segment size.
Definition: tcp-socket-state.h:177

ns3::TcpSocketState::m_minRtt
Time m_minRtt
Minimum RTT observed throughout the connection.
Definition: tcp-socket-state.h:198

ns3::TcpSocketState::m_lastAckedSeq
SequenceNumber32 m_lastAckedSeq
Last sequence ACKed.
Definition: tcp-socket-state.h:178

ns3::TcpSocketState::m_cWnd
TracedValue< uint32_t > m_cWnd
Congestion window.
Definition: tcp-socket-state.h:165

ns3::TcpSocketState::m_nextTxSequence
TracedValue< SequenceNumber32 > m_nextTxSequence
Next seqnum to be sent (SND.NXT), ReTx pushes it back.
Definition: tcp-socket-state.h:185

ns3::TcpSocketState::m_ssThresh
TracedValue< uint32_t > m_ssThresh
Slow start threshold.
Definition: tcp-socket-state.h:167

ns3::TestCase
encapsulates test code
Definition: test.h:994

ns3::TestCase::AddTestCase
void AddTestCase(TestCase *testCase, TestDuration duration=QUICK)
Add an individual child TestCase to this test suite.
Definition: test.cc:299

ns3::TestSuite
A suite of tests to run.
Definition: test.h:1188

ns3::TestSuite::UNIT
@ UNIT
This test suite implements a Unit Test.
Definition: test.h:1197

ns3::Time
Simulation virtual time values and global simulation resolution.
Definition: nstime.h:103

ns3::Time::GetSeconds
double GetSeconds(void) const
Get an approximation of the time stored in this instance in the indicated unit.
Definition: nstime.h:379

ns3::TracedValue::Get
T Get(void) const
Get the underlying value.
Definition: traced-value.h:232

ns3::UintegerValue
Hold an unsigned integer type.
Definition: uinteger.h:44

ns3::UintegerValue::Get
uint64_t Get(void) const
Definition: uinteger.cc:35

uint32_t

segmentSize
uint32_t segmentSize
Definition: tcp-linux-reno.cc:53

NS_LOG_COMPONENT_DEFINE
#define NS_LOG_COMPONENT_DEFINE(name)
Define a Log component with a specific name.
Definition: log.h:205

NS_LOG_LOGIC
#define NS_LOG_LOGIC(msg)
Use NS_LOG to output a message of level LOG_LOGIC.
Definition: log.h:289

NS_LOG_INFO
#define NS_LOG_INFO(msg)
Use NS_LOG to output a message of level LOG_INFO.
Definition: log.h:281

NS_TEST_ASSERT_MSG_EQ
#define NS_TEST_ASSERT_MSG_EQ(actual, limit, msg)
Test that an actual and expected (limit) value are equal and report and abort if not.
Definition: test.h:141

ns3::MilliSeconds
Time MilliSeconds(uint64_t value)
Construct a Time in the indicated unit.
Definition: nstime.h:1252

ns3
Every class exported by the ns3 library is enclosed in the ns3 namespace.

sample-rng-plot.alpha
float alpha
Plot alpha value (transparency)
Definition: sample-rng-plot.py:46

third.phy
phy
Definition: third.py:93

g_tcpYeahTest
static TcpYeahTestSuite g_tcpYeahTest
Static variable for test initialization.
Definition: tcp-yeah-test.cc:408

epsilon
double epsilon
Definition: tv-spectrum-transmitter-test.cc:35