tcp-rate-ops-test.cc

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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
 * Copyright (c) 2018 NITK Surathkal
 *
 * 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
 *
 * Authors: Vivek Jain <jain.vivek.anand@gmail.com>
 *          Viyom Mittal <viyommittal@gmail.com>
 *          Mohit P. Tahiliani <tahiliani@nitk.edu.in>
 */
 
#include "ns3/test.h"
#include "ns3/tcp-tx-item.h"
#include "ns3/log.h"
#include "ns3/tcp-rate-ops.h"
#include "tcp-general-test.h"
#include "ns3/config.h"
#include "tcp-error-model.h"
#include "ns3/tcp-tx-buffer.h"
 
using namespace ns3;
 
NS_LOG_COMPONENT_DEFINE ("TcpRateOpsTestSuite");
 
class MimicCongControl;
 
class TcpRateLinuxBasicTest : public TestCase
{
public:
 
  TcpRateLinuxBasicTest (uint32_t cWnd, SequenceNumber32 tailSeq, SequenceNumber32 nextTx,
                         uint32_t testCase, std::string testName);
 
private:
  virtual void DoRun (void);
 
  void SendSkb (TcpTxItem * skb);
  void SkbDelivered (TcpTxItem * skb);
 
  TcpRateLinux              m_rateOps;        
  uint32_t                  m_cWnd;           
  uint32_t                  m_inFlight;       
  uint32_t                  m_segmentSize;    
  uint32_t                  m_delivered;      
  Time                      m_deliveredTime;  
  SequenceNumber32          m_tailSeq;        
  SequenceNumber32          m_nextTx;         
  uint32_t                  m_testCase;       
  std::vector <TcpTxItem *> m_skbs;           
};
 
TcpRateLinuxBasicTest::TcpRateLinuxBasicTest (uint32_t cWnd, SequenceNumber32 tailSeq,
                                              SequenceNumber32 nextTx,
                                              uint32_t testCase, std::string testName)
  : TestCase (testName),
  m_cWnd (cWnd),
  m_inFlight (0),
  m_segmentSize (1),
  m_delivered (0),
  m_deliveredTime (Seconds (0)),
  m_tailSeq (tailSeq),
  m_nextTx (nextTx),
  m_testCase (testCase)
{
}
 
void
TcpRateLinuxBasicTest::DoRun ()
{
  for (uint8_t i = 0; i < 100; ++i)
    {
      m_skbs.push_back (new TcpTxItem ());
      Simulator::Schedule (Time (Seconds (i * 0.01)), &TcpRateLinuxBasicTest::SendSkb, this, m_skbs [i]);
    }
 
  for (uint8_t i = 0; i < 100; ++i)
    {
      Simulator::Schedule (Time (Seconds ((i + 1) * 0.1)), &TcpRateLinuxBasicTest::SkbDelivered, this, m_skbs [i]);
    }
 
  Simulator::Run ();
  Simulator::Destroy ();
 
  for (uint8_t i = 0; i < 100; ++i)
    {
      delete m_skbs[i];
    }
}
 
void
TcpRateLinuxBasicTest::SendSkb (TcpTxItem * skb)
{
  bool isStartOfTransmission = m_inFlight == 0;
  m_rateOps.CalculateAppLimited (m_cWnd, m_inFlight, m_segmentSize, m_tailSeq, m_nextTx, 0, 0);
  m_rateOps.SkbSent (skb, isStartOfTransmission);
  m_inFlight += skb->GetSeqSize ();
 
  NS_TEST_ASSERT_MSG_EQ (skb->GetRateInformation ().m_delivered, m_delivered, "SKB should have delivered equal to current value of total delivered");
 
  if (isStartOfTransmission)
    {
      NS_TEST_ASSERT_MSG_EQ (skb->GetRateInformation ().m_deliveredTime, Simulator::Now (), "SKB should have updated the delivered time to current value");
    }
  else
    {
      NS_TEST_ASSERT_MSG_EQ (skb->GetRateInformation ().m_deliveredTime, m_deliveredTime, "SKB should have updated the delivered time to current value");
    }
}
 
void
TcpRateLinuxBasicTest::SkbDelivered (TcpTxItem * skb)
{
  m_rateOps.SkbDelivered (skb);
  m_inFlight  -= skb->GetSeqSize ();
  m_delivered += skb->GetSeqSize ();
  m_deliveredTime = Simulator::Now ();
 
  NS_TEST_ASSERT_MSG_EQ (skb->GetRateInformation ().m_deliveredTime, Time::Max (), "SKB should have delivered time as Time::Max ()");
 
  if (m_testCase == 1)
    {
      NS_TEST_ASSERT_MSG_EQ (skb->GetRateInformation ().m_isAppLimited, false, "Socket should not be applimited");
    }
  else if (m_testCase == 2)
    {
      NS_TEST_ASSERT_MSG_EQ (skb->GetRateInformation ().m_isAppLimited, true, "Socket should be applimited");
    }
}
 
class MimicCongControl : public TcpNewReno
{
public:
  static TypeId GetTypeId (void);
 
  MimicCongControl ()
  {
  }
 
  virtual bool HasCongControl () const
  {
    return true;
  }
 
};
 
TypeId
MimicCongControl::GetTypeId (void)
{
  static TypeId tid = TypeId ("ns3::MimicCongControl")
    .SetParent<TcpNewReno> ()
    .AddConstructor<MimicCongControl> ()
    .SetGroupName ("Internet")
  ;
  return tid;
}
 
class TcpRateLinuxWithSocketsTest : public TcpGeneralTest
{
public:
  TcpRateLinuxWithSocketsTest (const std::string &desc, bool sackEnabled,
                               std::vector<uint32_t> &toDrop);
 
protected:
  virtual Ptr<TcpSocketMsgBase> CreateSenderSocket (Ptr<Node> node);
 
  virtual Ptr<ErrorModel> CreateReceiverErrorModel ();
 
  virtual void Rx (const Ptr<const Packet> p, const TcpHeader&h, SocketWho who);
 
  virtual void BytesInFlightTrace (uint32_t oldValue, uint32_t newValue);
 
  void PktDropped (const Ipv4Header &ipH, const TcpHeader& tcpH, Ptr<const Packet> p);
 
  void ConfigureEnvironment ();
 
  void FinalChecks ();
 
  virtual void RateUpdatedTrace (const TcpRateLinux::TcpRateConnection &rate);
 
  virtual void RateSampleUpdatedTrace (const TcpRateLinux::TcpRateSample &sample);
 
private:
  Ptr<MimicCongControl>        m_congCtl;     
  bool                         m_sackEnabled; 
  std::vector<uint32_t>        m_toDrop;      
  uint32_t                     m_bytesInFlight {0}; 
  SequenceNumber32             m_lastAckRecv {SequenceNumber32 (1)};   
  bool                         m_isDupAck;    
  TcpRateLinux::TcpRateConnection        m_prevRate;    
  TcpRateLinux::TcpRateSample  m_prevRateSample; 
};
 
TcpRateLinuxWithSocketsTest::TcpRateLinuxWithSocketsTest (const std::string &desc, bool sackEnabled,
                                                          std::vector<uint32_t> &toDrop)
  : TcpGeneralTest (desc),
  m_sackEnabled (sackEnabled),
  m_toDrop (toDrop)
{
}
 
Ptr<TcpSocketMsgBase>
TcpRateLinuxWithSocketsTest::CreateSenderSocket (Ptr<Node> node)
{
  Ptr<TcpSocketMsgBase> s = TcpGeneralTest::CreateSenderSocket (node);
  m_congCtl = CreateObject<MimicCongControl> ();
  s->SetCongestionControlAlgorithm (m_congCtl);
  return s;
}
 
void
TcpRateLinuxWithSocketsTest::ConfigureEnvironment ()
{
  TcpGeneralTest::ConfigureEnvironment ();
  SetAppPktCount (300);
  SetPropagationDelay (MilliSeconds (50));
  SetTransmitStart (Seconds (2.0));
 
  Config::SetDefault ("ns3::TcpSocketBase::Sack", BooleanValue (m_sackEnabled));
}
 
Ptr<ErrorModel>
TcpRateLinuxWithSocketsTest::CreateReceiverErrorModel ()
{
  Ptr<TcpSeqErrorModel> m_errorModel = CreateObject<TcpSeqErrorModel> ();
  for (std::vector<uint32_t>::iterator it = m_toDrop.begin (); it != m_toDrop.end (); ++it)
    {
      m_errorModel->AddSeqToKill (SequenceNumber32 (*it));
    }
 
  m_errorModel->SetDropCallback (MakeCallback (&TcpRateLinuxWithSocketsTest::PktDropped, this));
 
  return m_errorModel;
}
 
void
TcpRateLinuxWithSocketsTest::PktDropped (const Ipv4Header &ipH, const TcpHeader &tcpH,
                                         Ptr<const Packet> p)
{
  NS_LOG_DEBUG ("Drop seq= " << tcpH.GetSequenceNumber () << " size " << p->GetSize ());
}
 
void
TcpRateLinuxWithSocketsTest::Rx (const Ptr<const Packet> p, const TcpHeader &h, SocketWho who)
{
  if (who == SENDER)
    {
      if (h.GetAckNumber () == m_lastAckRecv
          && m_lastAckRecv != SequenceNumber32 (1)
          && (h.GetFlags () & TcpHeader::FIN) == 0)
        {
          m_isDupAck = true;
        }
      else
        {
          m_isDupAck = false;
          m_lastAckRecv = h.GetAckNumber ();
        }
    }
}
 
void
TcpRateLinuxWithSocketsTest::BytesInFlightTrace ([[maybe_unused]] uint32_t oldValue, uint32_t newValue)
{
  m_bytesInFlight = newValue;
}
 
void
TcpRateLinuxWithSocketsTest::RateUpdatedTrace (const TcpRateLinux::TcpRateConnection &rate)
{
  NS_LOG_DEBUG ("Rate updated " << rate);
  if (m_bytesInFlight == 0)
    {
      NS_TEST_ASSERT_MSG_EQ (rate.m_firstSentTime, Simulator::Now (), "FirstSentTime should be current time when bytes inflight is zero");
      NS_TEST_ASSERT_MSG_EQ (rate.m_deliveredTime, Simulator::Now (), "Delivered time should be current time when bytes inflight is zero");
    }
  NS_TEST_ASSERT_MSG_GT_OR_EQ (rate.m_delivered, m_prevRate.m_delivered, "Total delivered should not be lesser than previous values");
  m_prevRate = rate;
}
 
void
TcpRateLinuxWithSocketsTest::RateSampleUpdatedTrace (const TcpRateLinux::TcpRateSample &sample)
{
  NS_LOG_DEBUG ("Rate sample updated " << sample);
  if (m_isDupAck)
    {
      if (!m_sackEnabled)
        {
          NS_TEST_ASSERT_MSG_EQ (m_prevRateSample, sample, "RateSample should not update due to DupAcks");
        }
      else
        {
          if (sample.m_ackedSacked == 0)
            {
              NS_TEST_ASSERT_MSG_EQ (m_prevRateSample, sample, "RateSample should not update as nothing is acked or sacked");
            }
        }
    }
  m_prevRateSample = sample;
}
 
void
TcpRateLinuxWithSocketsTest::FinalChecks ()
{
}
 
class TcpRateLinuxWithBufferTest : public TestCase
{
public:
  TcpRateLinuxWithBufferTest (uint32_t segmentSize, std::string desc);
 
private:
  virtual void DoRun (void);
  virtual void DoTeardown (void);
 
  virtual void RateUpdatedTrace (const TcpRateLinux::TcpRateConnection &rate);
 
  virtual void RateSampleUpdatedTrace (const TcpRateLinux::TcpRateSample &sample);
 
  void TestWithStraightAcks ();
 
  void TestWithSackBlocks ();
 
  uint32_t               m_expectedDelivered {0}; 
  uint32_t               m_expectedAckedSacked {0}; 
  uint32_t               m_segmentSize;           
  TcpTxBuffer            m_txBuf;                 
  Ptr<TcpRateOps>        m_rateOps;               
};
 
TcpRateLinuxWithBufferTest::TcpRateLinuxWithBufferTest (uint32_t segmentSize,
                                                        std::string testString)
  : TestCase (testString),
  m_segmentSize (segmentSize)
{
  m_rateOps  = CreateObject <TcpRateLinux> ();
  m_rateOps->TraceConnectWithoutContext ("TcpRateUpdated",
                                         MakeCallback (&TcpRateLinuxWithBufferTest::RateUpdatedTrace, this));
  m_rateOps->TraceConnectWithoutContext ("TcpRateSampleUpdated",
                                         MakeCallback (&TcpRateLinuxWithBufferTest::RateSampleUpdatedTrace, this));
}
 
void
TcpRateLinuxWithBufferTest::DoRun ()
{
  Simulator::Schedule (Seconds (0.0), &TcpRateLinuxWithBufferTest::TestWithSackBlocks, this);
  Simulator::Run ();
  Simulator::Destroy ();
}
 
void
TcpRateLinuxWithBufferTest::RateUpdatedTrace (const TcpRateLinux::TcpRateConnection &rate)
{
  NS_LOG_DEBUG ("Rate updated " << rate);
  NS_TEST_ASSERT_MSG_EQ (rate.m_delivered, m_expectedDelivered, "Delivered data is not equal to expected delivered");
}
 
void
TcpRateLinuxWithBufferTest::RateSampleUpdatedTrace (const TcpRateLinux::TcpRateSample &sample)
{
  NS_LOG_DEBUG ("Rate sample updated " << sample);
  NS_TEST_ASSERT_MSG_EQ (sample.m_ackedSacked, m_expectedAckedSacked, "AckedSacked bytes is not equal to expected AckedSacked bytes");
}
 
void
TcpRateLinuxWithBufferTest::TestWithSackBlocks ()
{
  SequenceNumber32 head (1);
  m_txBuf.SetHeadSequence (head);
  SequenceNumber32 ret;
  Ptr<TcpOptionSack> sack = CreateObject<TcpOptionSack> ();
  m_txBuf.SetSegmentSize (m_segmentSize);
  m_txBuf.SetDupAckThresh (3);
 
  m_txBuf.Add (Create<Packet> (10 * m_segmentSize));
 
  // Send 10 Segments
  for (uint8_t i = 0; i < 10; ++i)
    {
      bool isStartOfTransmission = m_txBuf.BytesInFlight () == 0;
      TcpTxItem *outItem = m_txBuf.CopyFromSequence (m_segmentSize, SequenceNumber32 ((i * m_segmentSize) + 1));
      m_rateOps->SkbSent (outItem, isStartOfTransmission);
    }
 
  uint32_t priorInFlight = m_txBuf.BytesInFlight ();
  // ACK 2 Segments
  for (uint8_t i = 1; i <= 2; ++i)
    {
      priorInFlight = m_txBuf.BytesInFlight ();
      m_expectedDelivered += m_segmentSize;
      m_txBuf.DiscardUpTo (SequenceNumber32 (m_segmentSize * i + 1), MakeCallback (&TcpRateOps::SkbDelivered, m_rateOps));
      m_expectedAckedSacked = m_segmentSize;
      m_rateOps->GenerateSample (m_segmentSize, 0, false, priorInFlight, Seconds (0));
    }
 
  priorInFlight = m_txBuf.BytesInFlight ();
  sack->AddSackBlock (TcpOptionSack::SackBlock (SequenceNumber32 (m_segmentSize * 4 + 1), SequenceNumber32 (m_segmentSize * 5 + 1)));
  m_expectedDelivered += m_segmentSize;
  m_txBuf.Update (sack->GetSackList (), MakeCallback (&TcpRateOps::SkbDelivered, m_rateOps));
  m_expectedAckedSacked = m_segmentSize;
  m_rateOps->GenerateSample (m_segmentSize, 0, false, priorInFlight, Seconds (0));
 
  priorInFlight = m_txBuf.BytesInFlight ();
  sack->AddSackBlock (TcpOptionSack::SackBlock (SequenceNumber32 (m_segmentSize * 3 + 1), SequenceNumber32 (m_segmentSize * 4 + 1)));
  m_expectedDelivered += m_segmentSize;
  m_txBuf.Update (sack->GetSackList (), MakeCallback (&TcpRateOps::SkbDelivered, m_rateOps));
  m_rateOps->GenerateSample (m_segmentSize, 0, false, priorInFlight, Seconds (0));
 
  priorInFlight = m_txBuf.BytesInFlight ();
  // Actual delivered should be increased by one segment even multiple blocks are acked.
  m_expectedDelivered += m_segmentSize;
  m_txBuf.DiscardUpTo (SequenceNumber32 (m_segmentSize * 5 + 1), MakeCallback (&TcpRateOps::SkbDelivered, m_rateOps));
  m_rateOps->GenerateSample (m_segmentSize, 0, false, priorInFlight, Seconds (0));
 
 
  priorInFlight = m_txBuf.BytesInFlight ();
  // ACK rest of the segments
  for (uint8_t i = 6; i <= 10; ++i)
    {
      m_expectedDelivered += m_segmentSize;
      m_txBuf.DiscardUpTo (SequenceNumber32 (m_segmentSize * i + 1), MakeCallback (&TcpRateOps::SkbDelivered, m_rateOps));
    }
  m_expectedAckedSacked = 5 * m_segmentSize;
  TcpRateOps::TcpRateSample rateSample = m_rateOps->GenerateSample (5 * m_segmentSize, 0, false, priorInFlight, Seconds (0));
}
 
void
TcpRateLinuxWithBufferTest::DoTeardown ()
{
}
 
 
class TcpRateOpsTestSuite : public TestSuite
{
public:
  TcpRateOpsTestSuite ()
    : TestSuite ("tcp-rate-ops", UNIT)
  {
    AddTestCase (new TcpRateLinuxBasicTest (1000, SequenceNumber32 (20), SequenceNumber32 (11), 1, "Testing SkbDelivered and SkbSent"), TestCase::QUICK);
    AddTestCase (new TcpRateLinuxBasicTest (1000, SequenceNumber32 (11), SequenceNumber32 (11), 2, "Testing SkbDelivered and SkbSent with app limited data"), TestCase::QUICK);
 
    std::vector<uint32_t> toDrop;
    toDrop.push_back (4001);
    AddTestCase (new TcpRateLinuxWithSocketsTest ("Checking Rate sample value without SACK, one drop", false, toDrop),
                 TestCase::QUICK);
 
    AddTestCase (new TcpRateLinuxWithSocketsTest ("Checking Rate sample value with SACK, one drop", true, toDrop),
                 TestCase::QUICK);
    toDrop.push_back (4001);
    AddTestCase (new TcpRateLinuxWithSocketsTest ("Checking Rate sample value without SACK, two drop", false, toDrop),
                 TestCase::QUICK);
 
    AddTestCase (new TcpRateLinuxWithSocketsTest ("Checking Rate sample value with SACK, two drop", true, toDrop),
                 TestCase::QUICK);
 
    AddTestCase (new TcpRateLinuxWithBufferTest (1000, "Checking rate sample values with arbitary SACK Block"), TestCase::QUICK);
 
    AddTestCase (new TcpRateLinuxWithBufferTest (500, "Checking rate sample values with arbitary SACK Block"), TestCase::QUICK);
 
  }
};
 
static TcpRateOpsTestSuite  g_TcpRateOpsTestSuite;