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/* -*- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil -*- */
/*
* Copyright (c) 2011 University of California, Los Angeles
*
* 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: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
*/
#include "ccnx-fib.h"
#include "ccnx.h"
#include "ccnx-face.h"
#include "ccnx-interest-header.h"
#include "ns3/node.h"
#include "ns3/assert.h"
#include "ns3/names.h"
#include "ns3/log.h"
#define NDN_RTO_ALPHA 0.125
#define NDN_RTO_BETA 0.25
#define NDN_RTO_K 4
#include <boost/lambda/lambda.hpp>
#include <boost/lambda/bind.hpp>
namespace ll = boost::lambda;
namespace ns3 {
//////////////////////////////////////////////////////////////////////
// Helpers
//////////////////////////////////////////////////////////////////////
namespace __ccnx_private {
struct CcnxFibFaceMetricByFace
{
typedef CcnxFibFaceMetricContainer::type::index<i_face>::type
type;
};
}
//////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////
NS_LOG_COMPONENT_DEFINE ("CcnxFib");
using namespace __ccnx_private;
TypeId
CcnxFib::GetTypeId (void)
{
static TypeId tid = TypeId ("ns3::CcnxFib")
.SetParent<Object> ()
.SetGroupName ("Ccnx")
.AddConstructor<CcnxFib> ()
;
return tid;
}
/////////////////////////////////////////////////////////////////////
void
CcnxFibFaceMetric::UpdateRtt (const Time &rttSample)
{
// const Time & this->m_rttSample
//update srtt and rttvar (RFC 2988)
if (m_sRtt.IsZero ())
{
//first RTT measurement
NS_ASSERT_MSG (m_rttVar.IsZero (), "SRTT is zero, but variation is not");
m_sRtt = rttSample;
m_rttVar = Time (m_sRtt / 2.0);
}
else
{
m_rttVar = Time ((1 - NDN_RTO_BETA) * m_rttVar + NDN_RTO_BETA * Abs(m_sRtt - rttSample));
m_sRtt = Time ((1 - NDN_RTO_ALPHA) * m_sRtt + NDN_RTO_ALPHA * rttSample);
}
}
/////////////////////////////////////////////////////////////////////
void
CcnxFibEntry::UpdateFaceRtt (Ptr<CcnxFace> face, const Time &sample)
{
CcnxFibFaceMetricByFace::type::iterator record = m_faces.get<i_face> ().find (face);
NS_ASSERT_MSG (record != m_faces.get<i_face> ().end (),
"Update status can be performed only on existing faces of CcxnFibEntry");
m_faces.modify (record,
ll::bind (&CcnxFibFaceMetric::UpdateRtt, ll::_1, sample));
// reordering random access index same way as by metric index
m_faces.get<i_nth> ().rearrange (m_faces.get<i_metric> ().begin ());
}
void
CcnxFibEntry::UpdateStatus (Ptr<CcnxFace> face, CcnxFibFaceMetric::Status status)
{
NS_LOG_FUNCTION (this << boost::cref(*face) << status);
CcnxFibFaceMetricByFace::type::iterator record = m_faces.get<i_face> ().find (face);
NS_ASSERT_MSG (record != m_faces.get<i_face> ().end (),
"Update status can be performed only on existing faces of CcxnFibEntry");
m_faces.modify (record,
(&ll::_1)->*&CcnxFibFaceMetric::m_status = status);
// reordering random access index same way as by metric index
m_faces.get<i_nth> ().rearrange (m_faces.get<i_metric> ().begin ());
}
void
CcnxFibEntry::AddOrUpdateRoutingMetric (Ptr<CcnxFace> face, int32_t metric)
{
NS_LOG_FUNCTION (this);
NS_ASSERT_MSG (face != NULL, "Trying to Add or Update NULL face");
CcnxFibFaceMetricByFace::type::iterator record = m_faces.get<i_face> ().find (face);
if (record == m_faces.get<i_face> ().end ())
{
m_faces.insert (CcnxFibFaceMetric (face, metric));
}
else
{
m_faces.modify (record,
(&ll::_1)->*&CcnxFibFaceMetric::m_routingCost = metric);
}
// reordering random access index same way as by metric index
m_faces.get<i_nth> ().rearrange (m_faces.get<i_metric> ().begin ());
}
const CcnxFibFaceMetric &
CcnxFibEntry::FindBestCandidate (uint32_t skip/* = 0*/) const
{
if (m_faces.size () == 0) throw CcnxFibEntry::NoFaces ();
skip = skip % m_faces.size();
return m_faces.get<i_nth> () [skip];
}
CcnxFib::CcnxFib ()
{
}
void
CcnxFib::NotifyNewAggregate ()
{
if (m_node == 0)
m_node = this->GetObject<Node>();
Object::NotifyNewAggregate ();
}
void
CcnxFib::DoDispose (void)
{
m_fib.clear ();
m_node = 0;
Object::DoDispose ();
}
CcnxFibEntryContainer::type::iterator
CcnxFib::LongestPrefixMatch (const CcnxInterestHeader &interest) const
{
const CcnxNameComponents &name = interest.GetName ();
for (size_t componentsCount = name.GetComponents ().size ()+1;
componentsCount > 0;
componentsCount--)
{
CcnxNameComponents subPrefix (name.GetSubComponents (componentsCount-1));
CcnxFibEntryContainer::type::iterator match = m_fib.find (subPrefix);
if (match != m_fib.end())
return match;
}
return m_fib.end ();
}
CcnxFibEntryContainer::type::iterator
CcnxFib::Add (const CcnxNameComponents &prefix, Ptr<CcnxFace> face, int32_t metric)
{
// CcnxFibFaceMetric
NS_LOG_FUNCTION(this << prefix << face << metric);
CcnxFibEntryContainer::type::iterator entry = m_fib.find (prefix);
if (entry == m_fib.end ())
{
entry = m_fib.insert (m_fib.end (), CcnxFibEntry (prefix));
// insert new
}
NS_ASSERT_MSG (face != NULL, "Trying to modify NULL face");
m_fib.modify (entry,
ll::bind (&CcnxFibEntry::AddOrUpdateRoutingMetric, ll::_1, face, metric));
return entry;
}
void
CcnxFib::Remove (const CcnxFibEntry &entry, Ptr<CcnxFace> face)
{
NS_LOG_FUNCTION (this);
m_fib.modify (m_fib.iterator_to (entry),
ll::bind (&CcnxFibEntry::RemoveFace, ll::_1, face));
if (entry.m_faces.size () == 0)
{
m_fib.erase (m_fib.iterator_to (entry));
}
}
void
CcnxFib::RemoveFromAll (Ptr<CcnxFace> face)
{
NS_LOG_FUNCTION (this);
for_each (m_fib.begin (), m_fib.end (),
ll::bind (&CcnxFib::Remove, this, ll::_1, face));
}
/**
* \brief Get number of FIB entry (for python bindings)
*/
uint32_t
CcnxFib::GetCcnxFibEntryCount () const
{
return m_fib.size ();
}
/**
* \brief Get FIB entry by index (for python bindings)
*/
const CcnxFibEntry &
CcnxFib::GetCcnxFibEntry (uint32_t index)
{
NS_ASSERT (0 <= index && index < m_fib.size ());
return m_fib.get <i_nth> () [index];
}
std::ostream& operator<< (std::ostream& os, const CcnxFib &fib)
{
os << "Node " << Names::FindName (fib.m_node) << "\n";
os << " Dest prefix Interfaces(Costs) \n";
os << "+-------------+--------------------------------------+\n";
for (CcnxFibEntryContainer::type::iterator entry = fib.m_fib.begin ();
entry != fib.m_fib.end ();
entry++)
{
os << entry->GetPrefix () << "\t" << *entry << "\n";
}
return os;
}
std::ostream& operator<< (std::ostream& os, const CcnxFibEntry &entry)
{
for (CcnxFibFaceMetricContainer::type::index<i_nth>::type::iterator metric =
entry.m_faces.get<i_nth> ().begin ();
metric != entry.m_faces.get<i_nth> ().end ();
metric++)
{
if (metric != entry.m_faces.get<i_nth> ().begin ())
os << ", ";
os << *metric;
}
return os;
}
std::ostream& operator<< (std::ostream& os, const CcnxFibFaceMetric &metric)
{
static const std::string statusString[] = {"","g","y","r"};
os << *metric.m_face << "(" << metric.m_routingCost << ","<< statusString [metric.m_status] << "," << metric.m_face->GetMetric () << ")";
return os;
}
// void CcnxFib::resetProbing()
// {
// for(FibRangeIterator fib = _fib.begin(); fib != _fib.end(); fib++)
// VALUE(fib).needsProbing = true;
// }
// void CcnxFib::updateInterfaceStatus( int interface, int status )
// {
// for( FibRangeIterator fib = _fib.begin(); fib!=_fib.end(); fib++ )
// {
// VALUE(fib).updateStatus( interface, status );
// }
// }
} // namespace ns3