3.36/doxygen/tcp-rate-ops_8cc_source.html

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

/*

 * Copyright (c) 2018 Natale Patriciello <natale.patriciello@gmail.com>

 *

 * 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

 *

 */

#include "tcp-rate-ops.h"

#include "ns3/log.h"

#include "ns3/simulator.h"


namespace ns3 {


NS_LOG_COMPONENT_DEFINE ("TcpRateOps");

NS_OBJECT_ENSURE_REGISTERED (TcpRateOps);


TypeId

TcpRateOps::GetTypeId (void)

{

  static TypeId tid = TypeId ("ns3::TcpRateOps")

    .SetParent<Object> ()

    .SetGroupName ("Internet")

  ;

  return tid;

}


NS_OBJECT_ENSURE_REGISTERED (TcpRateLinux);


TypeId

TcpRateLinux::GetTypeId (void)

{

  static TypeId tid = TypeId ("ns3::TcpRateLinux")

    .SetParent<TcpRateOps> ()

    .SetGroupName ("Internet")

    .AddTraceSource ("TcpRateUpdated",

                     "Tcp rate information has been updated",

                     MakeTraceSourceAccessor (&TcpRateLinux::m_rateTrace),

                     "ns3::TcpRateLinux::TcpRateUpdated")

    .AddTraceSource ("TcpRateSampleUpdated",

                     "Tcp rate sample has been updated",

                     MakeTraceSourceAccessor (&TcpRateLinux::m_rateSampleTrace),

                     "ns3::TcpRateLinux::TcpRateSampleUpdated")

  ;

  return tid;

}


const TcpRateOps::TcpRateSample &

TcpRateLinux::GenerateSample (uint32_t delivered, uint32_t lost, bool is_sack_reneg,

                              uint32_t priorInFlight, const Time &minRtt)

{

  NS_LOG_FUNCTION (this << delivered << lost << is_sack_reneg);


  /* Clear app limited if bubble is acked and gone. */

  if (m_rate.m_appLimited != 0 && m_rate.m_delivered > m_rate.m_appLimited)

    {

      NS_LOG_INFO ("Updating Rate m_appLimited to zero");

      m_rate.m_appLimited = 0;

    }


  NS_LOG_INFO ("Updating RateSample m_ackedSacked=" << delivered <<

               ", m_bytesLoss=" << lost << " and m_priorInFlight" << priorInFlight);

  m_rateSample.m_ackedSacked = delivered;   /* freshly ACKed or SACKed */

  m_rateSample.m_bytesLoss   = lost;        /* freshly marked lost */

  m_rateSample.m_priorInFlight = priorInFlight;


  /* Return an invalid sample if no timing information is available or

   * in recovery from loss with SACK reneging. Rate samples taken during

   * a SACK reneging event may overestimate bw by including packets that

   * were SACKed before the reneg.

   */

  if (m_rateSample.m_priorTime == Seconds (0) || is_sack_reneg)

    {

      NS_LOG_INFO ("PriorTime is zero, invalidating sample");

      m_rateSample.m_delivered = -1;

      m_rateSample.m_interval = Seconds (0);

      m_rateSampleTrace (m_rateSample);

      return m_rateSample;

    }


  // LINUX:

  //  /* Model sending data and receiving ACKs as separate pipeline phases

  //   * for a window. Usually the ACK phase is longer, but with ACK

  //   * compression the send phase can be longer. To be safe we use the

  //   * longer phase.

  //   */

  //  auto snd_us = m_rateSample.m_interval;  /* send phase */

  //  auto ack_us = Simulator::Now () - m_rateSample.m_prior_mstamp;

  //  m_rateSample.m_interval = std::max (snd_us, ack_us);


  m_rateSample.m_interval = std::max (m_rateSample.m_sendElapsed, m_rateSample.m_ackElapsed);

  m_rateSample.m_delivered = m_rate.m_delivered - m_rateSample.m_priorDelivered;

  NS_LOG_INFO ("Updating sample interval=" << m_rateSample.m_interval << " and delivered data" << m_rateSample.m_delivered);


  /* Normally we expect m_interval >= minRtt.

   * Note that rate may still be over-estimated when a spuriously

   * retransmistted skb was first (s)acked because "interval_us"

   * is under-estimated (up to an RTT). However continuously

   * measuring the delivery rate during loss recovery is crucial

   * for connections suffer heavy or prolonged losses.

   */

  if (m_rateSample.m_interval < minRtt)

    {

      NS_LOG_INFO ("Sampling interval is invalid");

      m_rateSample.m_interval  = Seconds (0);

      m_rateSample.m_priorTime = Seconds (0); // To make rate sample invalid

      m_rateSampleTrace (m_rateSample);

      return m_rateSample;

    }


  /* Record the last non-app-limited or the highest app-limited bw */

  if (!m_rateSample.m_isAppLimited

      || (m_rateSample.m_delivered * m_rate.m_rateInterval >=

          m_rate.m_rateDelivered * m_rateSample.m_interval))

    {

      m_rate.m_rateDelivered  = m_rateSample.m_delivered;

      m_rate.m_rateInterval   = m_rateSample.m_interval;

      m_rate.m_rateAppLimited = m_rateSample.m_isAppLimited;

      m_rateSample.m_deliveryRate = DataRate (m_rateSample.m_delivered * 8.0 / m_rateSample.m_interval.GetSeconds ());

      NS_LOG_INFO ("Updating delivery rate=" << m_rateSample.m_deliveryRate);

    }


  m_rateSampleTrace (m_rateSample);

  return m_rateSample;

}


void

TcpRateLinux::CalculateAppLimited (uint32_t cWnd, uint32_t in_flight,

                                   uint32_t segmentSize, const SequenceNumber32 &tailSeq,

                                   const SequenceNumber32 &nextTx, const uint32_t lostOut,

                                   const uint32_t retransOut)

{

  NS_LOG_FUNCTION (this);


  /* Missing checks from Linux:

   * - Nothing in sending host's qdisc queues or NIC tx queue. NOT IMPLEMENTED

   */

  if (tailSeq - nextTx < static_cast<int32_t> (segmentSize)    // We have less than one packet to send.

      && in_flight < cWnd                                      // We are not limited by CWND.

      && lostOut <= retransOut)                                // All lost packets have been retransmitted.

    {

      m_rate.m_appLimited = std::max<uint32_t> (m_rate.m_delivered + in_flight, 1);

      m_rateTrace (m_rate);

    }


  // m_appLimited will be reset once in GenerateSample, if it has to be.

  // else

  //  {

  //    m_rate.m_appLimited = 0;

  //  }

}


void

TcpRateLinux::SkbDelivered (TcpTxItem * skb)

{

  NS_LOG_FUNCTION (this << skb);


  TcpTxItem::RateInformation & skbInfo = skb->GetRateInformation ();


  if (skbInfo.m_deliveredTime == Time::Max ())

    {

      return;

    }


  m_rate.m_delivered    += skb->GetSeqSize ();

  m_rate.m_deliveredTime = Simulator::Now ();


  if (m_rateSample.m_priorDelivered == 0

      || skbInfo.m_delivered > m_rateSample.m_priorDelivered)

    {

      m_rateSample.m_ackElapsed       = Simulator::Now () - m_rateSample.m_priorTime;

      m_rateSample.m_priorDelivered   = skbInfo.m_delivered;

      m_rateSample.m_priorTime        = skbInfo.m_deliveredTime;

      m_rateSample.m_isAppLimited     = skbInfo.m_isAppLimited;

      m_rateSample.m_sendElapsed      = skb->GetLastSent () - skbInfo.m_firstSent;


      m_rateSampleTrace (m_rateSample);


      m_rate.m_firstSentTime          = skb->GetLastSent ();

    }


  /* Mark off the skb delivered once it's taken into account to avoid being

   * used again when it's cumulatively acked, in case it was SACKed.

   */

  skbInfo.m_deliveredTime = Time::Max ();

  m_rate.m_txItemDelivered = skbInfo.m_delivered;

  m_rateTrace (m_rate);

}


void

TcpRateLinux::SkbSent (TcpTxItem *skb, bool isStartOfTransmission)

{

  NS_LOG_FUNCTION (this << skb << isStartOfTransmission);


  TcpTxItem::RateInformation & skbInfo = skb->GetRateInformation ();


  /* In general we need to start delivery rate samples from the

   * time we received the most recent ACK, to ensure we include

   * the full time the network needs to deliver all in-flight

   * packets. If there are no packets in flight yet, then we

   * know that any ACKs after now indicate that the network was

   * able to deliver those packets completely in the sampling

   * interval between now and the next ACK.

   *

   * Note that we use the entire window size instead of bytes_in_flight

   * because the latter is a guess based on RTO and loss-marking

   * heuristics. We don't want spurious RTOs or loss markings to cause

   * a spuriously small time interval, causing a spuriously high

   * bandwidth estimate.

   */

  if (isStartOfTransmission)

    {

      NS_LOG_INFO ("Starting of a transmission at time " << Simulator::Now ().GetSeconds ());

      m_rate.m_firstSentTime = Simulator::Now ();

      m_rate.m_deliveredTime = Simulator::Now ();

      m_rateTrace (m_rate);

    }


  skbInfo.m_firstSent     = m_rate.m_firstSentTime;

  skbInfo.m_deliveredTime = m_rate.m_deliveredTime;

  skbInfo.m_isAppLimited  = (m_rate.m_appLimited != 0);

  skbInfo.m_delivered     = m_rate.m_delivered;

}


std::ostream &

operator<< (std::ostream & os, TcpRateLinux::TcpRateConnection const & rate)

{

  os << "m_delivered      = " << rate.m_delivered       << std::endl;

  os << "m_deliveredTime  = " << rate.m_deliveredTime   << std::endl;

  os << "m_firstSentTime  = " << rate.m_firstSentTime   << std::endl;

  os << "m_appLimited     = " << rate.m_appLimited      << std::endl;

  os << "m_rateDelivered  = " << rate.m_rateDelivered   << std::endl;

  os << "m_rateInterval   = " << rate.m_rateInterval    << std::endl;

  os << "m_rateAppLimited = " << rate.m_rateAppLimited  << std::endl;

  os << "m_txItemDelivered = " << rate.m_txItemDelivered << std::endl;

  return os;

}


std::ostream &

operator<< (std::ostream & os, TcpRateLinux::TcpRateSample const & sample)

{

  os << "m_deliveryRate  = "  << sample.m_deliveryRate   << std::endl;

  os << " m_isAppLimited = "  << sample.m_isAppLimited   << std::endl;

  os << " m_interval     = "  << sample.m_interval       << std::endl;

  os << " m_delivered    = "  << sample.m_delivered      << std::endl;

  os << " m_priorDelivered = " << sample.m_priorDelivered << std::endl;

  os << " m_priorTime    = "  << sample.m_priorTime      << std::endl;

  os << " m_sendElapsed  = "  << sample.m_sendElapsed    << std::endl;

  os << " m_ackElapsed   = "  << sample.m_ackElapsed     << std::endl;

  os << " m_bytesLoss    = "  << sample.m_bytesLoss      << std::endl;

  os << " m_priorInFlight= "  << sample.m_priorInFlight  << std::endl;

  os << " m_ackedSacked  = "  << sample.m_ackedSacked    << std::endl;

  return os;

}


bool

operator== (TcpRateLinux::TcpRateSample const & lhs, TcpRateLinux::TcpRateSample const & rhs)

{

  return (lhs.m_deliveryRate   == rhs.m_deliveryRate

          && lhs.m_isAppLimited   == rhs.m_isAppLimited

          && lhs.m_interval       == rhs.m_interval

          && lhs.m_delivered      == rhs.m_delivered

          && lhs.m_priorDelivered == rhs.m_priorDelivered

          && lhs.m_priorTime      == rhs.m_priorTime

          && lhs.m_sendElapsed    == rhs.m_sendElapsed

          && lhs.m_ackElapsed     == rhs.m_ackElapsed

          );

}


bool

operator== (TcpRateLinux::TcpRateConnection const & lhs,

            TcpRateLinux::TcpRateConnection const & rhs)

{

  return (lhs.m_delivered       == rhs.m_delivered

          && lhs.m_deliveredTime   == rhs.m_deliveredTime

          && lhs.m_firstSentTime   == rhs.m_firstSentTime

          && lhs.m_appLimited      == rhs.m_appLimited

          );

}


} // namespace ns3

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

int32_t

ns3::Object
A base class which provides memory management and object aggregation.
Definition: object.h:88

ns3::SequenceNumber< uint32_t, int32_t >

ns3::Simulator::Now
static Time Now(void)
Return the current simulation virtual time.
Definition: simulator.cc:195

ns3::TcpRateLinux
Linux management and generation of Rate information for TCP.
Definition: tcp-rate-ops.h:181

ns3::TcpRateLinux::m_rateTrace
TracedCallback< const TcpRateConnection & > m_rateTrace
Rate trace.
Definition: tcp-rate-ops.h:231

ns3::TcpRateLinux::m_rateSampleTrace
TracedCallback< const TcpRateSample & > m_rateSampleTrace
Rate Sample trace.
Definition: tcp-rate-ops.h:232

ns3::TcpRateLinux::SkbDelivered
virtual void SkbDelivered(TcpTxItem *skb) override
Update the Rate information after an item is received.
Definition: tcp-rate-ops.cc:164

ns3::TcpRateLinux::m_rateSample
TcpRateSample m_rateSample
Rate sample (continuosly updated)
Definition: tcp-rate-ops.h:229

ns3::TcpRateLinux::m_rate
TcpRateConnection m_rate
Rate information.
Definition: tcp-rate-ops.h:228

ns3::TcpRateLinux::SkbSent
virtual void SkbSent(TcpTxItem *skb, bool isStartOfTransmission) override
Put the rate information inside the sent skb.
Definition: tcp-rate-ops.cc:201

ns3::TcpRateLinux::GenerateSample
virtual const TcpRateSample & GenerateSample(uint32_t delivered, uint32_t lost, bool is_sack_reneg, uint32_t priorInFlight, const Time &minRtt) override
Generate a TcpRateSample to feed a congestion avoidance algorithm.
Definition: tcp-rate-ops.cc:59

ns3::TcpRateLinux::GetTypeId
static TypeId GetTypeId(void)
Get the type ID.
Definition: tcp-rate-ops.cc:41

ns3::TcpRateLinux::CalculateAppLimited
virtual void CalculateAppLimited(uint32_t cWnd, uint32_t in_flight, uint32_t segmentSize, const SequenceNumber32 &tailSeq, const SequenceNumber32 &nextTx, const uint32_t lostOut, const uint32_t retransOut) override
If a gap is detected between sends, it means we are app-limited.
Definition: tcp-rate-ops.cc:138

ns3::TcpRateOps
Interface for all operations that involve a Rate monitoring for TCP.
Definition: tcp-rate-ops.h:39

ns3::TcpRateOps::GetTypeId
static TypeId GetTypeId(void)
Get the type ID.
Definition: tcp-rate-ops.cc:29

ns3::TcpTxItem
Item that encloses the application packet and some flags for it.
Definition: tcp-tx-item.h:33

ns3::TcpTxItem::GetRateInformation
RateInformation & GetRateInformation(void)
Get (to modify) the Rate Information of this item.
Definition: tcp-tx-item.cc:98

ns3::TcpTxItem::GetSeqSize
uint32_t GetSeqSize(void) const
Get the size in the sequence number space.
Definition: tcp-tx-item.cc:62

ns3::TcpTxItem::GetLastSent
const Time & GetLastSent(void) const
Get a reference to the time the packet was sent for the last time.
Definition: tcp-tx-item.cc:92

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::Time::Max
static Time Max()
Maximum representable Time Not to be confused with Max(Time,Time).
Definition: nstime.h:282

ns3::TypeId
a unique identifier for an interface.
Definition: type-id.h:59

ns3::TypeId::SetParent
TypeId SetParent(TypeId tid)
Set the parent TypeId.
Definition: type-id.cc:922

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_FUNCTION
#define NS_LOG_FUNCTION(parameters)
If log level LOG_FUNCTION is enabled, this macro will output all input parameters separated by ",...
Definition: log-macros-enabled.h:244

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

ns3::TracedValueCallback::DataRate
void(* DataRate)(DataRate oldValue, DataRate newValue)
TracedValue callback signature for DataRate.
Definition: data-rate.h:329

NS_OBJECT_ENSURE_REGISTERED
#define NS_OBJECT_ENSURE_REGISTERED(type)
Register an Object subclass with the TypeId system.
Definition: object-base.h:45

ns3::Seconds
Time Seconds(double value)
Construct a Time in the indicated unit.
Definition: nstime.h:1244

ns3::MakeTraceSourceAccessor
Ptr< const TraceSourceAccessor > MakeTraceSourceAccessor(T a)
Create a TraceSourceAccessor which will control access to the underlying trace source.
Definition: trace-source-accessor.h:202

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

ns3::operator==
bool operator==(const EventId &a, const EventId &b)
Definition: event-id.h:158

ns3::operator<<
std::ostream & operator<<(std::ostream &os, const Angles &a)
Definition: angles.cc:139

ns3::TcpRateOps::TcpRateConnection
Information about the connection rate.
Definition: tcp-rate-ops.h:163

ns3::TcpRateOps::TcpRateConnection::m_txItemDelivered
uint32_t m_txItemDelivered
The value of delivered when the acked item was sent.
Definition: tcp-rate-ops.h:168

ns3::TcpRateOps::TcpRateConnection::m_deliveredTime
Time m_deliveredTime
Simulator time when m_delivered was last updated.
Definition: tcp-rate-ops.h:165

ns3::TcpRateOps::TcpRateConnection::m_rateDelivered
int32_t m_rateDelivered
The amount of data delivered considered to calculate delivery rate.
Definition: tcp-rate-ops.h:169

ns3::TcpRateOps::TcpRateConnection::m_delivered
uint64_t m_delivered
The total amount of data in bytes delivered so far.
Definition: tcp-rate-ops.h:164

ns3::TcpRateOps::TcpRateConnection::m_appLimited
uint32_t m_appLimited
The index of the last transmitted packet marked as application-limited.
Definition: tcp-rate-ops.h:167

ns3::TcpRateOps::TcpRateConnection::m_rateAppLimited
bool m_rateAppLimited
Was sample was taken when data is app limited?
Definition: tcp-rate-ops.h:171

ns3::TcpRateOps::TcpRateConnection::m_firstSentTime
Time m_firstSentTime
The send time of the packet that was most recently marked as delivered.
Definition: tcp-rate-ops.h:166

ns3::TcpRateOps::TcpRateConnection::m_rateInterval
Time m_rateInterval
The value of interval considered to calculate delivery rate.
Definition: tcp-rate-ops.h:170

ns3::TcpRateOps::TcpRateSample
Rate Sample structure.
Definition: tcp-rate-ops.h:134

ns3::TcpRateOps::TcpRateSample::m_ackElapsed
Time m_ackElapsed
ACK time interval calculated from the most recent packet delivered.
Definition: tcp-rate-ops.h:142

ns3::TcpRateOps::TcpRateSample::m_isAppLimited
bool m_isAppLimited
Indicates whether the rate sample is application-limited.
Definition: tcp-rate-ops.h:136

ns3::TcpRateOps::TcpRateSample::m_ackedSacked
uint32_t m_ackedSacked
The amount of data acked and sacked in the last received ack.
Definition: tcp-rate-ops.h:145

ns3::TcpRateOps::TcpRateSample::m_deliveryRate
DataRate m_deliveryRate
The delivery rate sample.
Definition: tcp-rate-ops.h:135

ns3::TcpRateOps::TcpRateSample::m_priorInFlight
uint32_t m_priorInFlight
The value if bytes in flight prior to last received ack.
Definition: tcp-rate-ops.h:144

ns3::TcpRateOps::TcpRateSample::m_sendElapsed
Time m_sendElapsed
Send time interval calculated from the most recent packet delivered.
Definition: tcp-rate-ops.h:141

ns3::TcpRateOps::TcpRateSample::m_interval
Time m_interval
The length of the sampling interval.
Definition: tcp-rate-ops.h:137

ns3::TcpRateOps::TcpRateSample::m_priorDelivered
uint32_t m_priorDelivered
The delivered count of the most recent packet delivered.
Definition: tcp-rate-ops.h:139

ns3::TcpRateOps::TcpRateSample::m_delivered
int32_t m_delivered
The amount of data marked as delivered over the sampling interval.
Definition: tcp-rate-ops.h:138

ns3::TcpRateOps::TcpRateSample::m_bytesLoss
uint32_t m_bytesLoss
The amount of data marked as lost from the most recent ack received.
Definition: tcp-rate-ops.h:143

ns3::TcpRateOps::TcpRateSample::m_priorTime
Time m_priorTime
The delivered time of the most recent packet delivered.
Definition: tcp-rate-ops.h:140

ns3::TcpTxItem::RateInformation
Various rate-related information, can be accessed by TcpRateOps.
Definition: tcp-tx-item.h:88

ns3::TcpTxItem::RateInformation::m_isAppLimited
bool m_isAppLimited
Connection's app limited at the time the packet was sent.
Definition: tcp-tx-item.h:92

ns3::TcpTxItem::RateInformation::m_delivered
uint64_t m_delivered
Connection's delivered data at the time the packet was sent.
Definition: tcp-tx-item.h:89

ns3::TcpTxItem::RateInformation::m_deliveredTime
Time m_deliveredTime
Connection's delivered time at the time the packet was sent.
Definition: tcp-tx-item.h:90

ns3::TcpTxItem::RateInformation::m_firstSent
Time m_firstSent
Connection's first sent time at the time the packet was sent.
Definition: tcp-tx-item.h:91

tcp-rate-ops.h