nsc-tcp-socket-impl.cc

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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
 * 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
 *
 * based on tcp-socket-impl.cc, Author: Raj Bhattacharjea <raj.b@gatech.edu>
 * Author: Florian Westphal <fw@strlen.de>
 */

#define NS_LOG_APPEND_CONTEXT                                   \
  if (m_node) { std::clog << Simulator::Now ().GetSeconds () << " [node " << m_node->GetId () << "] "; } 

#include "ns3/node.h"
#include "ns3/inet-socket-address.h"
#include "ns3/log.h"
#include "ns3/ipv4.h"
#include "ipv4-end-point.h"
#include "nsc-tcp-l4-protocol.h"
#include "nsc-tcp-socket-impl.h"
#include "ns3/simulation-singleton.h"
#include "ns3/simulator.h"
#include "ns3/packet.h"
#include "ns3/uinteger.h"
#include "ns3/trace-source-accessor.h"

#include <algorithm>

// for ntohs().
#include <arpa/inet.h>
#include <netinet/in.h>
#include "sim_interface.h"

#include "sim_errno.h"


namespace ns3 {

NS_LOG_COMPONENT_DEFINE ("NscTcpSocketImpl");

NS_OBJECT_ENSURE_REGISTERED (NscTcpSocketImpl);

TypeId
NscTcpSocketImpl::GetTypeId ()
{
  static TypeId tid = TypeId ("ns3::NscTcpSocketImpl")
    .SetParent<TcpSocket> ()
    .SetGroupName ("Internet")
    .AddTraceSource ("CongestionWindow",
                     "The TCP connection's congestion window",
                     MakeTraceSourceAccessor (&NscTcpSocketImpl::m_cWnd),
                     "ns3::TracedValueCallback::Uint32")
    .AddTraceSource ("SlowStartThreshold",
                     "TCP slow start threshold (bytes)",
                     MakeTraceSourceAccessor (&NscTcpSocketImpl::m_ssThresh),
                     "ns3::TracedValueCallback::Uint32")
    .AddTraceSource ("State",
                     "TCP state",
                     MakeTraceSourceAccessor (&NscTcpSocketImpl::m_state),
                     "ns3::TcpStatesTracedValueCallback")
  ;
  return tid;
}

NscTcpSocketImpl::NscTcpSocketImpl ()
  : m_endPoint (0),
    m_node (0),
    m_tcp (0),
    m_localAddress (Ipv4Address::GetZero ()),
    m_localPort (0),
    m_peerAddress ("0.0.0.0", 0),
    m_errno (ERROR_NOTERROR),
    m_shutdownSend (false),
    m_shutdownRecv (false),
    m_connected (false),
    m_state (CLOSED),
    m_closeOnEmpty (false),
    m_txBufferSize (0),
    m_lastMeasuredRtt (Seconds (0.0))
{
  NS_LOG_FUNCTION (this);
}

NscTcpSocketImpl::NscTcpSocketImpl(const NscTcpSocketImpl& sock)
  : TcpSocket (sock), //copy the base class callbacks
    m_delAckMaxCount (sock.m_delAckMaxCount),
    m_delAckTimeout (sock.m_delAckTimeout),
    m_noDelay (sock.m_noDelay),
    m_endPoint (0),
    m_node (sock.m_node),
    m_tcp (sock.m_tcp),
    m_remoteAddress (sock.m_remoteAddress),
    m_remotePort (sock.m_remotePort),
    m_localAddress (sock.m_localAddress),
    m_localPort (sock.m_localPort),
    m_peerAddress (sock.m_peerAddress),
    m_errno (sock.m_errno),
    m_shutdownSend (sock.m_shutdownSend),
    m_shutdownRecv (sock.m_shutdownRecv),
    m_connected (sock.m_connected),
    m_state (sock.m_state),
    m_closeOnEmpty (sock.m_closeOnEmpty),
    m_txBufferSize (sock.m_txBufferSize),
    m_segmentSize (sock.m_segmentSize),
    m_rxWindowSize (sock.m_rxWindowSize),
    m_advertisedWindowSize (sock.m_advertisedWindowSize),
    m_cWnd (sock.m_cWnd),
    m_ssThresh (sock.m_ssThresh),
    m_initialCWnd (sock.m_initialCWnd),
    m_initialSsThresh (sock.m_initialSsThresh),
    m_lastMeasuredRtt (Seconds (0.0)),
    m_cnTimeout (sock.m_cnTimeout),
    m_synRetries (sock.m_synRetries),
    m_rxAvailable (0),
    m_nscTcpSocket (0),
    m_sndBufSize (sock.m_sndBufSize)
{
  NS_LOG_FUNCTION (this);
  NS_LOG_LOGIC ("Invoked the copy constructor");
  //copy the pending data if necessary
  if(!sock.m_txBuffer.empty () )
    {
      m_txBuffer = sock.m_txBuffer;
    }
  //can't "copy" the endpoint just yes, must do this when we know the peer info
  //too; this is in SYN_ACK_TX
}

NscTcpSocketImpl::~NscTcpSocketImpl ()
{
  NS_LOG_FUNCTION (this);
  m_node = 0;
  if (m_endPoint != 0)
    {
      NS_ASSERT (m_tcp != 0);
      NS_ASSERT (m_endPoint != 0);
      m_tcp->DeAllocate (m_endPoint);
      NS_ASSERT (m_endPoint == 0);
    }
  m_tcp = 0;
}

void
NscTcpSocketImpl::SetNode (Ptr<Node> node)
{
  m_node = node;
  // Initialize some variables 
  m_cWnd = m_initialCWnd * m_segmentSize;
  m_ssThresh = m_initialSsThresh;
  m_rxWindowSize = m_advertisedWindowSize;
}

void 
NscTcpSocketImpl::SetTcp (Ptr<NscTcpL4Protocol> tcp)
{
  m_nscTcpSocket = tcp->m_nscStack->new_tcp_socket ();
  m_tcp = tcp;
}


enum Socket::SocketErrno
NscTcpSocketImpl::GetErrno (void) const
{
  NS_LOG_FUNCTION (this);
  return m_errno;
}

enum Socket::SocketType
NscTcpSocketImpl::GetSocketType (void) const
{
  return NS3_SOCK_STREAM;
}

Ptr<Node>
NscTcpSocketImpl::GetNode (void) const
{
  NS_LOG_FUNCTION (this);
  return m_node;
}

void 
NscTcpSocketImpl::Destroy (void)
{
  NS_LOG_FUNCTION (this);
  m_node = 0;
  m_endPoint = 0;
  m_tcp = 0;
}
int
NscTcpSocketImpl::FinishBind (void)
{
  NS_LOG_FUNCTION (this);
  if (m_endPoint == 0)
    {
      return -1;
    }
  m_endPoint->SetRxCallback (MakeCallback (&NscTcpSocketImpl::ForwardUp, Ptr<NscTcpSocketImpl>(this)));
  m_endPoint->SetDestroyCallback (MakeCallback (&NscTcpSocketImpl::Destroy, Ptr<NscTcpSocketImpl>(this)));
  m_localAddress = m_endPoint->GetLocalAddress ();
  m_localPort = m_endPoint->GetLocalPort ();
  return 0;
}

int
NscTcpSocketImpl::Bind (void)
{
  NS_LOG_FUNCTION (this);
  m_endPoint = m_tcp->Allocate ();
  return FinishBind ();
}
int
NscTcpSocketImpl::Bind6 ()
{
  NS_LOG_LOGIC ("NscTcpSocketImpl: ERROR_AFNOSUPPORT - Bind6 not supported");
  m_errno = ERROR_AFNOSUPPORT;
  return (-1);
}
int 
NscTcpSocketImpl::Bind (const Address &address)
{
  NS_LOG_FUNCTION (this<<address);
  if (!InetSocketAddress::IsMatchingType (address))
    {
      return ERROR_INVAL;
    }
  InetSocketAddress transport = InetSocketAddress::ConvertFrom (address);
  Ipv4Address ipv4 = transport.GetIpv4 ();
  uint16_t port = transport.GetPort ();
  if (ipv4 == Ipv4Address::GetAny () && port == 0)
    {
      m_endPoint = m_tcp->Allocate ();
      NS_LOG_LOGIC ("NscTcpSocketImpl "<<this<<" got an endpoint: "<<m_endPoint);
    }
  else if (ipv4 == Ipv4Address::GetAny () && port != 0)
    {
      m_endPoint = m_tcp->Allocate (GetBoundNetDevice (), port);
      NS_LOG_LOGIC ("NscTcpSocketImpl "<<this<<" got an endpoint: "<<m_endPoint);
    }
  else if (ipv4 != Ipv4Address::GetAny () && port == 0)
    {
      m_endPoint = m_tcp->Allocate (ipv4);
      NS_LOG_LOGIC ("NscTcpSocketImpl "<<this<<" got an endpoint: "<<m_endPoint);
    }
  else if (ipv4 != Ipv4Address::GetAny () && port != 0)
    {
      m_endPoint = m_tcp->Allocate (GetBoundNetDevice (), ipv4, port);
      NS_LOG_LOGIC ("NscTcpSocketImpl "<<this<<" got an endpoint: "<<m_endPoint);
    }

  m_localPort = port;
  return FinishBind ();
}

/* Inherit from Socket class: Bind this socket to the specified NetDevice */
void
NscTcpSocketImpl::BindToNetDevice (Ptr<NetDevice> netdevice)
{
  NS_LOG_FUNCTION (this << netdevice);
  Socket::BindToNetDevice (netdevice); // Includes sanity check
  if (m_endPoint != 0)
    {
      m_endPoint->BindToNetDevice (netdevice);
    }
  return;
}

int 
NscTcpSocketImpl::ShutdownSend (void)
{
  NS_LOG_FUNCTION (this);
  m_shutdownSend = true;
  return 0;
}
int 
NscTcpSocketImpl::ShutdownRecv (void)
{
  NS_LOG_FUNCTION (this);
  m_shutdownRecv = true;
  return 0;
}

int
NscTcpSocketImpl::Close (void)
{
  NS_LOG_FUNCTION (this << m_state);

  if (m_state == CLOSED)
    {
      return -1;
    }
  if (!m_txBuffer.empty ())
    { // App close with pending data must wait until all data transmitted
      m_closeOnEmpty = true;
      NS_LOG_LOGIC ("Socket " << this <<
                    " deferring close, state " << m_state);
      return 0;
    }

  NS_LOG_LOGIC ("NscTcp socket " << this << " calling disconnect(); moving to CLOSED");
  m_nscTcpSocket->disconnect ();
  m_state = CLOSED;
  ShutdownSend ();
  return 0;
}

int
NscTcpSocketImpl::Connect (const Address & address)
{
  NS_LOG_FUNCTION (this << address);
  if (m_endPoint == 0)
    {
      if (Bind () == -1)
        {
          NS_ASSERT (m_endPoint == 0);
          return -1;
        }
      NS_ASSERT (m_endPoint != 0);
    }
  InetSocketAddress transport = InetSocketAddress::ConvertFrom (address);
  m_remoteAddress = transport.GetIpv4 ();
  m_remotePort = transport.GetPort ();

  std::ostringstream ss;
  m_remoteAddress.Print (ss);
  std::string ipstring = ss.str ();

  m_nscTcpSocket->connect (ipstring.c_str (), m_remotePort);
  m_state = SYN_SENT;
  return 0;
}

int
NscTcpSocketImpl::Send (const Ptr<Packet> p, uint32_t flags)
{
  NS_LOG_FUNCTION (this << p);

  NS_ASSERT (p->GetSize () > 0);
  if (m_state == ESTABLISHED || m_state == SYN_SENT || m_state == CLOSE_WAIT)
    {
      if (p->GetSize () > GetTxAvailable ())
        {
          m_errno = ERROR_MSGSIZE;
          return -1;
        }

      uint32_t sent = p->GetSize ();
      if (m_state == ESTABLISHED)
        {
          m_txBuffer.push (p);
          m_txBufferSize += sent;
          SendPendingData ();
        }
      else
        { // SYN_SET -- Queue Data
          m_txBuffer.push (p);
          m_txBufferSize += sent;
        }
      return sent;
    }
  else
    {
      m_errno = ERROR_NOTCONN;
      return -1;
    }
}

int
NscTcpSocketImpl::SendTo (Ptr<Packet> p, uint32_t flags, const Address &address)
{
  NS_LOG_FUNCTION (this << address << p);
  if (!m_connected)
    {
      m_errno = ERROR_NOTCONN;
      return -1;
    }
  else
    {
      return Send (p, flags); //drop the address according to BSD manpages
    }
}

uint32_t
NscTcpSocketImpl::GetTxAvailable (void) const
{
  NS_LOG_FUNCTION (this);
  if (m_txBufferSize != 0)
    {
      NS_ASSERT (m_txBufferSize <= m_sndBufSize);
      return m_sndBufSize - m_txBufferSize;
    }
  else
    {
      return m_sndBufSize;
    }
}

int
NscTcpSocketImpl::Listen (void)
{
  NS_LOG_FUNCTION (this);
  m_nscTcpSocket->listen (m_localPort);
  m_state = LISTEN;
  return 0;
}


void
NscTcpSocketImpl::NSCWakeup ()
{
  NS_LOG_FUNCTION (this);
  switch (m_state) {
    case SYN_SENT:
      if (!m_nscTcpSocket->is_connected ())
        break;
      m_state = ESTABLISHED;
      Simulator::ScheduleNow (&NscTcpSocketImpl::ConnectionSucceeded, this);
    // fall through to schedule read/write events
    case ESTABLISHED:
      if (!m_txBuffer.empty ())
        {
          Simulator::ScheduleNow (&NscTcpSocketImpl::SendPendingData, this);
        }
      else
        {
          if (GetTxAvailable ())
            {
              NotifySend (GetTxAvailable ());
            }
        }
      Simulator::ScheduleNow (&NscTcpSocketImpl::ReadPendingData, this);
      break;
    case LISTEN:
      Simulator::ScheduleNow (&NscTcpSocketImpl::Accept, this);
      break;
    case CLOSED: break;
    default:
      NS_LOG_DEBUG (this << " invalid state: " << m_state);
    }
}

Ptr<Packet>
NscTcpSocketImpl::Recv (uint32_t maxSize, uint32_t flags)
{
  NS_LOG_FUNCTION (this << maxSize << flags);
  if (m_deliveryQueue.empty () )
    {
      m_errno = ERROR_AGAIN;
      return 0;
    }
  Ptr<Packet> p = m_deliveryQueue.front ();
  if (p->GetSize () <= maxSize)
    {
      m_deliveryQueue.pop ();
      m_rxAvailable -= p->GetSize ();
    }
  else
    {
      m_errno = ERROR_AGAIN;
      p = 0;
    }
  return p;
}

Ptr<Packet>
NscTcpSocketImpl::RecvFrom (uint32_t maxSize, uint32_t flags,
                            Address &fromAddress)
{
  NS_LOG_FUNCTION (this << maxSize << flags);
  Ptr<Packet> packet = Recv (maxSize, flags);
  GetPeerName (fromAddress);
  return packet;
}

int
NscTcpSocketImpl::GetSockName (Address &address) const
{
  NS_LOG_FUNCTION (this << address);
  address = InetSocketAddress (m_localAddress, m_localPort);
  return 0;
}

int
NscTcpSocketImpl::GetPeerName (Address &address) const
{
  NS_LOG_FUNCTION (this << address);

  if (!m_endPoint)
    {
      m_errno = ERROR_NOTCONN;
      return -1;
    }
  address = InetSocketAddress (m_endPoint->GetPeerAddress (),
                               m_endPoint->GetPeerPort ());
  return 0;
}

uint32_t
NscTcpSocketImpl::GetRxAvailable (void) const
{
  NS_LOG_FUNCTION (this);
  // We separately maintain this state to avoid walking the queue 
  // every time this might be called
  return m_rxAvailable;
}

void
NscTcpSocketImpl::ForwardUp (Ptr<Packet> packet, Ipv4Header header, uint16_t port,
                             Ptr<Ipv4Interface> incomingInterface)
{
  NSCWakeup ();
}

void NscTcpSocketImpl::CompleteFork (void)
{
  // The address pairs (m_localAddress, m_localPort, m_remoteAddress, m_remotePort)
  // are bogus, but this isn't important at the moment, because
  // address <-> Socket handling is done by NSC internally.
  // We only need to add the new ns-3 socket to the list of sockets, so
  // we use plain Allocate() instead of Allocate(m_localAddress, ... )
  struct sockaddr_in sin;
  size_t sin_len = sizeof(sin);

  if (0 == m_nscTcpSocket->getpeername ((struct sockaddr*) &sin, &sin_len)) {
      m_remotePort = ntohs (sin.sin_port);
      m_remoteAddress = Ipv4Address::Deserialize ((const uint8_t*) &sin.sin_addr);
      m_peerAddress = InetSocketAddress (m_remoteAddress, m_remotePort);
    }

  m_endPoint = m_tcp->Allocate ();

  //the cloned socket with be in listen state, so manually change state
  NS_ASSERT (m_state == LISTEN);
  m_state = ESTABLISHED;

  sin_len = sizeof(sin);

  if (0 == m_nscTcpSocket->getsockname ((struct sockaddr *) &sin, &sin_len))
    m_localAddress = Ipv4Address::Deserialize ((const uint8_t*) &sin.sin_addr);

  NS_LOG_LOGIC ("NscTcpSocketImpl " << this << " accepted connection from " 
                                    << m_remoteAddress << ":" << m_remotePort
                                    << " to " << m_localAddress << ":" << m_localPort);
  //equivalent to FinishBind
  m_endPoint->SetRxCallback (MakeCallback (&NscTcpSocketImpl::ForwardUp, Ptr<NscTcpSocketImpl>(this)));
  m_endPoint->SetDestroyCallback (MakeCallback (&NscTcpSocketImpl::Destroy, Ptr<NscTcpSocketImpl>(this)));

  NotifyNewConnectionCreated (this, m_peerAddress);
}

void NscTcpSocketImpl::ConnectionSucceeded ()
{ // We would preferred to have scheduled an event directly to
  // NotifyConnectionSucceeded, but (sigh) these are protected
  // and we can get the address of it :(
  struct sockaddr_in sin;
  size_t sin_len = sizeof(sin);
  if (0 == m_nscTcpSocket->getsockname ((struct sockaddr *) &sin, &sin_len)) {
      m_localAddress = Ipv4Address::Deserialize ((const uint8_t*)&sin.sin_addr);
      m_localPort = ntohs (sin.sin_port);
    }

  NS_LOG_LOGIC ("NscTcpSocketImpl " << this << " connected to "
                                    << m_remoteAddress << ":" << m_remotePort
                                    << " from " << m_localAddress << ":" << m_localPort);
  NotifyConnectionSucceeded ();
}


bool NscTcpSocketImpl::Accept (void)
{
  if (m_state == CLOSED)
    {  // Happens if application closes listening socket after Accept() was scheduled.
      return false;
    }
  NS_ASSERT (m_state == LISTEN);

  if (!m_nscTcpSocket->is_listening ())
    {
      return false;
    }
  INetStreamSocket *newsock;
  int res = m_nscTcpSocket->accept (&newsock);
  if (res != 0)
    {
      return false;
    }
// We could obtain a fromAddress using getpeername, but we've already
// finished the tcp handshake here, i.e. this is a new connection
// and not a connection request.
// if (!NotifyConnectionRequest(fromAddress))
//   return true;

  // Clone the socket
  Ptr<NscTcpSocketImpl> newSock = Copy ();
  newSock->m_nscTcpSocket = newsock;
  NS_LOG_LOGIC ("Cloned a NscTcpSocketImpl " << newSock);

  Simulator::ScheduleNow (&NscTcpSocketImpl::CompleteFork, newSock);
  return true;
}

bool NscTcpSocketImpl::ReadPendingData (void)
{
  if (m_state != ESTABLISHED)
    {
      return false;
    }
  int len, err;
  uint8_t buffer[8192];
  len = sizeof(buffer);
  m_errno = ERROR_NOTERROR;
  err = m_nscTcpSocket->read_data (buffer, &len);
  if (err == 0 && len == 0)
    {
      NS_LOG_LOGIC ("ReadPendingData got EOF from socket");
      m_state = CLOSE_WAIT;
      return false;
    }
  m_errno = GetNativeNs3Errno (err);
  switch (m_errno)
    {
    case ERROR_NOTERROR: break;   // some data was sent
    case ERROR_AGAIN: return false;
    default:
      NS_LOG_WARN ("Error (" << err << ") " <<
                   "during read_data, ns-3 errno set to" << m_errno);
      m_state = CLOSED;
      return false;
    }

  Ptr<Packet> p =  Create<Packet> (buffer, len);

  m_deliveryQueue.push (p);
  m_rxAvailable += p->GetSize ();

  NotifyDataRecv ();
  return true;
}

bool NscTcpSocketImpl::SendPendingData (void)
{
  NS_LOG_FUNCTION (this);
  NS_LOG_LOGIC ("ENTERING SendPendingData");

  if (m_txBuffer.empty ())
    {
      return false;
    }

  int ret;
  size_t size, written = 0;

  do {
      NS_ASSERT (!m_txBuffer.empty ());
      Ptr<Packet> &p = m_txBuffer.front ();
      size = p->GetSize ();
      NS_ASSERT (size > 0);

      m_errno = ERROR_NOTERROR;

      uint8_t *buf = new uint8_t[size];
      p->CopyData (buf, size);
      ret = m_nscTcpSocket->send_data ((const char *)buf, size);
      delete[] buf;

      if (ret <= 0)
        {
          break;
        }
      written += ret;

      NS_ASSERT (m_txBufferSize >= (size_t)ret);
      m_txBufferSize -= ret;

      if ((size_t)ret < size)
        {
          p->RemoveAtStart (ret);
          break;
        }

      m_txBuffer.pop ();

      if (m_txBuffer.empty ())
        {
          if (m_closeOnEmpty)
            {
              m_nscTcpSocket->disconnect ();
              m_state = CLOSED;
            }
          break;
        }
    } while ((size_t) ret == size);

  if (written > 0)
    {
      NS_LOG_DEBUG ("Notifying data sent, remaining txbuffer size: " << m_txBufferSize);
      Simulator::ScheduleNow (&NscTcpSocketImpl::NotifyDataSent, this, ret);
      return true;
    }
  else
    {
      NS_LOG_DEBUG ("Not notifying data sent, return value " << ret);
    }
  return false;
}

Ptr<NscTcpSocketImpl> NscTcpSocketImpl::Copy ()
{
  return CopyObject<NscTcpSocketImpl> (this);
}

void
NscTcpSocketImpl::SetSndBufSize (uint32_t size)
{
  m_sndBufSize = size;
}

uint32_t
NscTcpSocketImpl::GetSndBufSize (void) const
{
  return m_sndBufSize;
}

void
NscTcpSocketImpl::SetRcvBufSize (uint32_t size)
{
  m_rcvBufSize = size;
}

uint32_t
NscTcpSocketImpl::GetRcvBufSize (void) const
{
  return m_rcvBufSize;
}

void
NscTcpSocketImpl::SetSegSize (uint32_t size)
{
  m_segmentSize = size;
}

uint32_t
NscTcpSocketImpl::GetSegSize (void) const
{
  return m_segmentSize;
}

void
NscTcpSocketImpl::SetAdvWin (uint32_t window)
{
  m_advertisedWindowSize = window;
}

uint32_t
NscTcpSocketImpl::GetAdvWin (void) const
{
  return m_advertisedWindowSize;
}

void
NscTcpSocketImpl::SetInitialSSThresh (uint32_t threshold)
{
  m_initialSsThresh = threshold;
}

uint32_t
NscTcpSocketImpl::GetInitialSSThresh (void) const
{
  return m_initialSsThresh;
}

void
NscTcpSocketImpl::SetInitialCwnd (uint32_t cwnd)
{
  m_initialCWnd = cwnd;
}

uint32_t
NscTcpSocketImpl::GetInitialCwnd (void) const
{
  return m_initialCWnd;
}

void 
NscTcpSocketImpl::SetConnTimeout (Time timeout)
{
  m_cnTimeout = timeout;
}

Time
NscTcpSocketImpl::GetConnTimeout (void) const
{
  return m_cnTimeout;
}

void 
NscTcpSocketImpl::SetSynRetries (uint32_t count)
{
  m_synRetries = count;
}

uint32_t 
NscTcpSocketImpl::GetSynRetries (void) const
{
  return m_synRetries;
}

void 
NscTcpSocketImpl::SetDelAckTimeout (Time timeout)
{
  m_delAckTimeout = timeout;
}

void
NscTcpSocketImpl::SetDataRetries (uint32_t retries)
{
  NS_LOG_FUNCTION (this << retries);
  m_dataRetries = retries;
}

uint32_t
NscTcpSocketImpl::GetDataRetries (void) const
{
  NS_LOG_FUNCTION (this);
  return m_dataRetries;
}

Time
NscTcpSocketImpl::GetDelAckTimeout (void) const
{
  return m_delAckTimeout;
}

void
NscTcpSocketImpl::SetDelAckMaxCount (uint32_t count)
{
  m_delAckMaxCount = count;
}

uint32_t
NscTcpSocketImpl::GetDelAckMaxCount (void) const
{
  return m_delAckMaxCount;
}

void
NscTcpSocketImpl::SetTcpNoDelay (bool noDelay)
{
  m_noDelay = noDelay;
}

bool
NscTcpSocketImpl::GetTcpNoDelay (void) const
{
  return m_noDelay;
}

void 
NscTcpSocketImpl::SetPersistTimeout (Time timeout)
{
  m_persistTimeout = timeout;
}

Time
NscTcpSocketImpl::GetPersistTimeout (void) const
{
  return m_persistTimeout;
}

enum Socket::SocketErrno
NscTcpSocketImpl::GetNativeNs3Errno (int error) const
{
  enum nsc_errno err;

  if (error >= 0)
    {
      return ERROR_NOTERROR;
    }
  err = (enum nsc_errno) error;
  switch (err)
    {
    case NSC_EADDRINUSE:   // fallthrough
    case NSC_EADDRNOTAVAIL: return ERROR_AFNOSUPPORT;
    case NSC_EINPROGRESS:   // Although nsc sockets are nonblocking, we pretend they're not.
    case NSC_EAGAIN: return ERROR_AGAIN;
    case NSC_EISCONN:   // fallthrough
    case NSC_EALREADY: return ERROR_ISCONN;
    case NSC_ECONNREFUSED: return ERROR_NOROUTETOHOST;   
    case NSC_ECONNRESET:   // for no, all of these fall through
    case NSC_EHOSTDOWN:
    case NSC_ENETUNREACH:
    case NSC_EHOSTUNREACH: return ERROR_NOROUTETOHOST;
    case NSC_EMSGSIZE: return ERROR_MSGSIZE;
    case NSC_ENOTCONN: return ERROR_NOTCONN;
    case NSC_ESHUTDOWN: return ERROR_SHUTDOWN;
    case NSC_ETIMEDOUT: return ERROR_NOTCONN;   
    case NSC_ENOTDIR:   // used by eg. sysctl(2). Shouldn't happen normally,
    // but is triggered by e.g. show_config().
    case NSC_EUNKNOWN: return ERROR_INVAL;   // Catches stacks that 'return -1' without real mapping
    }
  NS_ASSERT_MSG (0, "Unknown NSC error");
  return ERROR_INVAL;
}

bool
NscTcpSocketImpl::SetAllowBroadcast (bool allowBroadcast)
{
  if (allowBroadcast)
    {
      return false;
    }
  return true;
}

bool
NscTcpSocketImpl::GetAllowBroadcast () const
{
  return false;
}

} // namespace ns3