the NAV should be updated only when the packet is _not_ addressed to us. (see section 9.2.5.4)
/* -*- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2005 INRIA
*
* 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: Mathieu Lacage <mathieu.lacage@sophia.inria.fr>
*/
#include "mac-rx-middle.h"
#include "wifi-mac-header.h"
#include "ns3/assert.h"
#include "ns3/log.h"
#include "ns3/packet.h"
#include "ns3/simulator.h"
#include <list>
NS_LOG_COMPONENT_DEFINE ("MacRxMiddle");
#define TRACE(x) NS_LOG_DEBUG(Simulator::Now () << " " << x)
namespace ns3 {
class OriginatorRxStatus {
private:
typedef std::list<Ptr<const Packet> > Fragments;
typedef std::list<Ptr<const Packet> >::const_iterator FragmentsCI;
bool m_defragmenting;
uint16_t m_lastSequenceControl;
Fragments m_fragments;
public:
OriginatorRxStatus () {
/* this is a magic value necessary. */
m_lastSequenceControl = 0xffff;
m_defragmenting = false;
}
~OriginatorRxStatus () {
m_fragments.clear ();
}
bool IsDeFragmenting (void) {
return m_defragmenting;
}
void AccumulateFirstFragment (Ptr<const Packet> packet) {
NS_ASSERT (!m_defragmenting);
m_defragmenting = true;
m_fragments.push_back (packet);
}
Ptr<Packet> AccumulateLastFragment (Ptr<const Packet> packet) {
NS_ASSERT (m_defragmenting);
m_fragments.push_back (packet);
m_defragmenting = false;
Ptr<Packet> full = Create<Packet> ();
for (FragmentsCI i = m_fragments.begin (); i != m_fragments.end (); i++)
{
full->AddAtEnd (*i);
}
m_fragments.erase (m_fragments.begin (), m_fragments.end ());
return full;
}
void AccumulateFragment (Ptr<const Packet> packet) {
NS_ASSERT (m_defragmenting);
m_fragments.push_back (packet);
}
bool IsNextFragment (uint16_t sequenceControl) {
if ((sequenceControl >> 4) == (m_lastSequenceControl >> 4) &&
(sequenceControl & 0x0f) == ((m_lastSequenceControl & 0x0f)+1))
{
return true;
}
else
{
return false;
}
}
uint16_t GetLastSequenceControl (void)
{
return m_lastSequenceControl;
}
void SetSequenceControl (uint16_t sequenceControl)
{
m_lastSequenceControl = sequenceControl;
}
};
MacRxMiddle::MacRxMiddle ()
{}
MacRxMiddle::~MacRxMiddle ()
{
for (OriginatorsI i = m_originatorStatus.begin ();
i != m_originatorStatus.end (); i++)
{
delete (*i).second;
}
m_originatorStatus.erase (m_originatorStatus.begin (),
m_originatorStatus.end ());
for (QosOriginatorsI i = m_qosOriginatorStatus.begin ();
i != m_qosOriginatorStatus.end (); i++)
{
delete (*i).second;
}
m_qosOriginatorStatus.erase (m_qosOriginatorStatus.begin (),
m_qosOriginatorStatus.end ());
}
void
MacRxMiddle::SetForwardCallback (ForwardUpCallback callback)
{
m_callback = callback;
}
bool
MacRxMiddle::SequenceControlSmaller (int seqca, int seqcb)
{
int seqa = seqca >> 4;
int seqb = seqcb >> 4;
int delta = seqb - seqa;
TRACE ("seqb="<<seqb<<", seqa="<<seqa<<", delta="<<delta);
if (delta <= 0 && delta < -2048)
{
return true;
}
else if (delta >= 0 && delta < 2048)
{
return true;
}
else
{
return false;
}
}
OriginatorRxStatus *
MacRxMiddle::Lookup (WifiMacHeader const *hdr)
{
OriginatorRxStatus *originator;
Mac48Address source = hdr->GetAddr2 ();
if (hdr->IsQosData () &&
!hdr->GetAddr2 ().IsBroadcast ())
{
/* only for qos data non-broadcast frames */
originator = m_qosOriginatorStatus[std::make_pair(source, hdr->GetQosTid ())];
if (originator == 0)
{
originator = new OriginatorRxStatus ();
m_qosOriginatorStatus[std::make_pair(source, hdr->GetQosTid ())] = originator;
}
}
else
{
/* - management frames
* - qos data broadcast frames
* - nqos data frames
* see section 7.1.3.4.1
*/
originator = m_originatorStatus[source];
if (originator == 0)
{
originator = new OriginatorRxStatus ();
m_originatorStatus[source] = originator;
}
}
return originator;
}
bool
MacRxMiddle::IsDuplicate (WifiMacHeader const*hdr,
OriginatorRxStatus *originator) const
{
if (hdr->IsRetry () &&
originator->GetLastSequenceControl () == hdr->GetSequenceControl ())
{
return true;
}
return false;
}
Ptr<Packet>
MacRxMiddle::HandleFragments (Ptr<Packet> packet, WifiMacHeader const*hdr,
OriginatorRxStatus *originator)
{
if (originator->IsDeFragmenting ())
{
if (hdr->IsMoreFragments ())
{
if (originator->IsNextFragment (hdr->GetSequenceControl ()))
{
TRACE ("accumulate fragment seq="<<hdr->GetSequenceNumber ()<<
", frag="<<hdr->GetFragmentNumber ()<<
", size="<<packet->GetSize ());
originator->AccumulateFragment (packet);
originator->SetSequenceControl (hdr->GetSequenceControl ());
}
else
{
TRACE ("non-ordered fragment");
}
return 0;
}
else
{
if (originator->IsNextFragment (hdr->GetSequenceControl ()))
{
TRACE ("accumulate last fragment seq="<<hdr->GetSequenceNumber ()<<
", frag="<<hdr->GetFragmentNumber ()<<
", size="<<hdr->GetSize ());
Ptr<Packet> p = originator->AccumulateLastFragment (packet);
originator->SetSequenceControl (hdr->GetSequenceControl ());
return p;
}
else
{
TRACE ("non-ordered fragment");
return 0;
}
}
}
else
{
if (hdr->IsMoreFragments ())
{
TRACE ("accumulate first fragment seq="<<hdr->GetSequenceNumber ()<<
", frag="<<hdr->GetFragmentNumber ()<<
", size="<<packet->GetSize ());
originator->AccumulateFirstFragment (packet);
originator->SetSequenceControl (hdr->GetSequenceControl ());
return 0;
}
else
{
return packet;
}
}
}
void
MacRxMiddle::Receive (Ptr<Packet> packet, WifiMacHeader const *hdr)
{
OriginatorRxStatus *originator = Lookup (hdr);
if (hdr->IsData ())
{
/**
* Note that the check below is not deterministic: it is possible
* for sequence numbers to loop back to zero once they reach 0xfff0
* and to go up to 0xf7f0 in which case the check below will report the
* two sequence numbers to not have the correct order relationship.
* This is why this check generates a warning only.
*/
if (!SequenceControlSmaller (originator->GetLastSequenceControl (),
hdr->GetSequenceControl ()))
{
NS_LOG_UNCOND ("Sequence numbers have looped back. last recorded="<<originator->GetLastSequenceControl ()<<
" currently seen="<< hdr->GetSequenceControl ());
}
// filter duplicates.
if (IsDuplicate (hdr, originator))
{
TRACE ("duplicate from="<<hdr->GetAddr2 ()<<
", seq="<<hdr->GetSequenceNumber ()<<
", frag="<<hdr->GetFragmentNumber ());
return;
}
Ptr<Packet> agregate = HandleFragments (packet, hdr, originator);
if (agregate == 0)
{
return;
}
TRACE ("forwarding data from="<<hdr->GetAddr2 ()<<
", seq="<<hdr->GetSequenceNumber ()<<
", frag="<<hdr->GetFragmentNumber ());
if (!hdr->GetAddr1 ().IsBroadcast ())
{
originator->SetSequenceControl (hdr->GetSequenceControl ());
}
m_callback (agregate, hdr);
}
else
{
TRACE ("forwarding "<<hdr->GetTypeString ()<<
", from="<<hdr->GetAddr2 ()<<
", seq="<<hdr->GetSequenceNumber ()<<
", frag="<<hdr->GetFragmentNumber ());
if (!hdr->GetAddr1 ().IsBroadcast ())
{
originator->SetSequenceControl (hdr->GetSequenceControl ());
}
m_callback (packet, hdr);
}
}
} // namespace ns3