ns3学习(二)——tcp-NewReno

ns3学习(二)——tcp-NewReno,第1张


一、ns3源码

在文件tcp-congestion-ops.cc文件中是TCP-NewReno的源码

/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
 * Copyright (c) 2015 Natale Patriciello 
 *
 * 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-congestion-ops.h"
#include "tcp-socket-base.h"
#include "ns3/log.h"

namespace ns3 {

NS_LOG_COMPONENT_DEFINE ("TcpCongestionOps");

NS_OBJECT_ENSURE_REGISTERED (TcpCongestionOps);

TypeId
TcpCongestionOps::GetTypeId (void)
{
  static TypeId tid = TypeId ("ns3::TcpCongestionOps")
    .SetParent<Object> ()
    .SetGroupName ("Internet")
  ;
  return tid;
}

TcpCongestionOps::TcpCongestionOps () : Object ()
{
}

TcpCongestionOps::TcpCongestionOps (const TcpCongestionOps &other) : Object (other)
{
}

TcpCongestionOps::~TcpCongestionOps ()
{
}


// RENO

NS_OBJECT_ENSURE_REGISTERED (TcpNewReno);

TypeId
TcpNewReno::GetTypeId (void)
{
  static TypeId tid = TypeId ("ns3::TcpNewReno")
    .SetParent<TcpCongestionOps> ()
    .SetGroupName ("Internet")
    .AddConstructor<TcpNewReno> ()
  ;
  return tid;
}

TcpNewReno::TcpNewReno (void) : TcpCongestionOps ()
{
  NS_LOG_FUNCTION (this);
}

TcpNewReno::TcpNewReno (const TcpNewReno& sock)
  : TcpCongestionOps (sock)
{
  NS_LOG_FUNCTION (this);
}

TcpNewReno::~TcpNewReno (void)
{
}

/**
 * \brief Tcp NewReno slow start algorithm
 *
 * Defined in RFC 5681 as
 *
 * > During slow start, a TCP increments cwnd by at most SMSS bytes for
 * > each ACK received that cumulatively acknowledges new data.  Slow
 * > start ends when cwnd exceeds ssthresh (or, optionally, when it
 * > reaches it, as noted above) or when congestion is observed.  While
 * > traditionally TCP implementations have increased cwnd by precisely
 * > SMSS bytes upon receipt of an ACK covering new data, we RECOMMEND
 * > that TCP implementations increase cwnd, per:
 * >
 * >    cwnd += min (N, SMSS)                      (2)
 * >
 * > where N is the number of previously unacknowledged bytes acknowledged
 * > in the incoming ACK.
 *
 * The ns-3 implementation respect the RFC definition. Linux does something
 * different:
 * \verbatim
u32 tcp_slow_start(struct tcp_sock *tp, u32 acked)
  {
    u32 cwnd = tp->snd_cwnd + acked;

    if (cwnd > tp->snd_ssthresh)
      cwnd = tp->snd_ssthresh + 1;
    acked -= cwnd - tp->snd_cwnd;
    tp->snd_cwnd = min(cwnd, tp->snd_cwnd_clamp);

    return acked;
  }
  \endverbatim
 *
 * As stated, we want to avoid the case when a cumulative ACK increases cWnd more
 * than a segment size, but we keep count of how many segments we have ignored,
 * and return them.
 *
 * \param tcb internal congestion state
 * \param segmentsAcked count of segments acked
 * \return the number of segments not considered for increasing the cWnd
 */
uint32_t
TcpNewReno::SlowStart (Ptr<TcpSocketState> tcb, uint32_t segmentsAcked)
{
  NS_LOG_FUNCTION (this << tcb << segmentsAcked);

  if (segmentsAcked >= 1)
    {
      tcb->m_cWnd += tcb->m_segmentSize;
      NS_LOG_INFO ("In SlowStart, updated to cwnd " << tcb->m_cWnd << " ssthresh " << tcb->m_ssThresh);
      return segmentsAcked - 1;
    }

  return 0;
}

/**
 * \brief NewReno congestion avoidance
 *
 * During congestion avoidance, cwnd is incremented by roughly 1 full-sized
 * segment per round-trip time (RTT).
 *
 * \param tcb internal congestion state
 * \param segmentsAcked count of segments acked
 */
void
TcpNewReno::CongestionAvoidance (Ptr<TcpSocketState> tcb, uint32_t segmentsAcked)
{
  NS_LOG_FUNCTION (this << tcb << segmentsAcked);

  if (segmentsAcked > 0)
    {
      double adder = static_cast<double> (tcb->m_segmentSize * tcb->m_segmentSize) / tcb->m_cWnd.Get ();
      adder = std::max (1.0, adder);
      tcb->m_cWnd += static_cast<uint32_t> (adder);
      NS_LOG_INFO ("In CongAvoid, updated to cwnd " << tcb->m_cWnd <<
                   " ssthresh " << tcb->m_ssThresh);
    }
}

/**
 * \brief Try to increase the cWnd following the NewReno specification
 *
 * \see SlowStart
 * \see CongestionAvoidance
 *
 * \param tcb internal congestion state
 * \param segmentsAcked count of segments acked
 */
void
TcpNewReno::IncreaseWindow (Ptr<TcpSocketState> tcb, uint32_t segmentsAcked)
{
  NS_LOG_FUNCTION (this << tcb << segmentsAcked);

  if (tcb->m_cWnd < tcb->m_ssThresh)
    {
      segmentsAcked = SlowStart (tcb, segmentsAcked);
    }

  if (tcb->m_cWnd >= tcb->m_ssThresh)
    {
      CongestionAvoidance (tcb, segmentsAcked);
    }

  /* At this point, we could have segmentsAcked != 0. This because RFC says
   * that in slow start, we should increase cWnd by min (N, SMSS); if in
   * slow start we receive a cumulative ACK, it counts only for 1 SMSS of
   * increase, wasting the others.
   *
   * // Incorrect assert, I am sorry
   * NS_ASSERT (segmentsAcked == 0);
   */
}

std::string
TcpNewReno::GetName () const
{
  return "TcpNewReno";
}

uint32_t
TcpNewReno::GetSsThresh (Ptr<const TcpSocketState> state,
                         uint32_t bytesInFlight)
{
  NS_LOG_FUNCTION (this << state << bytesInFlight);

  return std::max (2 * state->m_segmentSize, bytesInFlight / 2);
}

Ptr<TcpCongestionOps>
TcpNewReno::Fork ()
{
  return CopyObject<TcpNewReno> (this);
}

} // namespace ns3

二、学习内容 1、在命名空间中写,方便其他部分进行引用

namespace ns3 {
2、定义日志
NS_LOG_COMPONENT_DEFINE ("TcpCongestionOps");
3、定义一个TypeId类——TcpCongestionOps

关于这部分的c++语言结构看不懂可以参考:C++类构造函数学习

定义一个名为TcpCongestionOps的TypeId类,并定义其GetTyped函数。


在GetTyped函数内部,定义全局属性TypeId为"ns3::TcpCongestionOps"。


set其父类为Object,所属分组为Internet(应该是上层文件夹名)。


无其他属性Attribute。


NS_OBJECT_ENSURE_REGISTERED (TcpCongestionOps);

TypeId
TcpCongestionOps::GetTypeId (void)
{
  static TypeId tid = TypeId ("ns3::TcpCongestionOps")
    .SetParent<Object> ()
    .SetGroupName ("Internet")
  ;
  return tid;
}

设置TcpCongestionOps类的构造方法TcpCongestionOps(void)。


并赋值Object为空。


TcpCongestionOps::TcpCongestionOps () : Object ()
{
}

设置TcpCongestionOps类的构造方法TcpCongestionOps(const TcpCongestionOps &other)。


并传入名为other的输入的索引(对other值更改则调用函数时传入的变量也更改。


参考链接:)。


TcpCongestionOps::TcpCongestionOps (const TcpCongestionOps &other) : Object (other)
{
}

设置TcpCongestionOps类的析构函数TcpCongestionOps()。


相当于把该对象分解掉,释放内内存

TcpCongestionOps::~TcpCongestionOps ()
{
}
4、定义一个TypeId类——TcpNewReno

类似第三部分定义TcpCongestionOps类的同样 *** 作,定义TcpNewReno。


// RENO

NS_OBJECT_ENSURE_REGISTERED (TcpNewReno);

TypeId
TcpNewReno::GetTypeId (void)
{
  static TypeId tid = TypeId ("ns3::TcpNewReno")
    .SetParent<TcpCongestionOps> ()
    .SetGroupName ("Internet")
    .AddConstructor<TcpNewReno> ()
  ;
  return tid;
}

TcpNewReno::TcpNewReno (void) : TcpCongestionOps ()
{
  NS_LOG_FUNCTION (this);
}

TcpNewReno::TcpNewReno (const TcpNewReno& sock)
  : TcpCongestionOps (sock)
{
  NS_LOG_FUNCTION (this);
}

TcpNewReno::~TcpNewReno (void)
{
}
5、TcpNewReno慢启动算法
uint32_t
TcpNewReno::SlowStart (Ptr<TcpSocketState> tcb, uint32_t segmentsAcked)
{
  NS_LOG_FUNCTION (this << tcb << segmentsAcked);

  if (segmentsAcked >= 1)
    {
      tcb->m_cWnd += tcb->m_segmentSize;
      NS_LOG_INFO ("In SlowStart, updated to cwnd " << tcb->m_cWnd << " ssthresh " << tcb->m_ssThresh);
      return segmentsAcked - 1;
    }
  return 0;
}
5.1、Ptr tcb

声明一个TcpSocketState类型的变量的指针,该指针名叫tcb。


Ptr是一个声明指针的模板类,C++中为固定用法。


Ptr模板类定义如下:

template <typename T> class Ptr 

T为传入值,类型为typename,可见是一个类型名称。


Ptr类为template class,即T类型的模板类。


5.2、tcb->m_cWnd

tcb是TcpSocketState类型的变量的指针,TcpSocketState类型中有m_cWnd属性。


tcb->m_cWnd是指通过tcb来索引该属性。


5.2、SlowStart算法

Log部分不再阐述,this << tcb << segmentsAcked的意思与cout相似。


算法的关键部分是:

  if (segmentsAcked >= 1)
    {
      tcb->m_cWnd += tcb->m_segmentSize;
      return segmentsAcked - 1;
    }

当ack大于1时,将拥塞窗口的大小进行调整,增加值为段大小。


由此可见,就是对拥塞窗口增加一个段的大小。


可见NewReno在慢启动阶段是线性增长。


6、TcpNewReno拥塞避免算法
void
TcpNewReno::CongestionAvoidance (Ptr<TcpSocketState> tcb, uint32_t segmentsAcked)
{
  NS_LOG_FUNCTION (this << tcb << segmentsAcked);

  if (segmentsAcked > 0)
    {
      double adder = static_cast<double> (tcb->m_segmentSize * tcb->m_segmentSize) / tcb->m_cWnd.Get ();
      adder = std::max (1.0, adder);
      tcb->m_cWnd += static_cast<uint32_t> (adder);
      NS_LOG_INFO ("In CongAvoid, updated to cwnd " << tcb->m_cWnd <<
                   " ssthresh " << tcb->m_ssThresh);
    }
}

static_cast的含义与double类似,但是运行时间比double更快。


忽略Log部分,算法的关键部分是:
adder是拥塞避免阶段加在cwnd上的增量。


该增量是max(1.0,段大小的平方除以cwnd)。


7、TcpNewReno增窗
void
TcpNewReno::IncreaseWindow (Ptr<TcpSocketState> tcb, uint32_t segmentsAcked)
{
  NS_LOG_FUNCTION (this << tcb << segmentsAcked);

  if (tcb->m_cWnd < tcb->m_ssThresh)
    {
      segmentsAcked = SlowStart (tcb, segmentsAcked);
    }

  if (tcb->m_cWnd >= tcb->m_ssThresh)
    {
      CongestionAvoidance (tcb, segmentsAcked);
    }

TcpNewReno使用IncreaseWindow把SlowStart和CongestionAvidance封装起来。



拥塞窗口在ssThresh之下时,为慢启动阶段,窗口大于ssTresh时,为拥塞避免阶段。


8、ssThresh设置

GetName和Fork函数不再赘述,下面来看ssTresh的设置。


uint32_t
TcpNewReno::GetSsThresh (Ptr<const TcpSocketState> state,
                         uint32_t bytesInFlight)
{
  NS_LOG_FUNCTION (this << state << bytesInFlight);

  return std::max (2 * state->m_segmentSize, bytesInFlight / 2);
}

ssTresh为max (2, 拥塞时的cwnd/2)

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原文地址: http://outofmemory.cn/langs/634787.html

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