/* -*- Mode: C++; c-file-style: "gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2006, 2009 INRIA
* Copyright (c) 2009 MIRKO BANCHI
*
* 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>
* Author: Mirko Banchi <mk.banchi@gmail.com>
*/
#include "ns3/assert.h"
#include "ns3/log.h"
#include "ns3/simulator.h"
#include "ns3/string.h"
#include "ns3/pointer.h"
#include "qos-tag.h"
#include "qap-wifi-mac.h"
#include "dca-txop.h"
#include "edca-txop-n.h"
#include "wifi-phy.h"
#include "dcf-manager.h"
#include "mac-rx-middle.h"
#include "mac-tx-middle.h"
#include "mgt-headers.h"
#include "mac-low.h"
#include "amsdu-subframe-header.h"
#include "msdu-aggregator.h"
NS_LOG_COMPONENT_DEFINE ("QapWifiMac");
namespace ns3 {
NS_OBJECT_ENSURE_REGISTERED (QapWifiMac);
TypeId
QapWifiMac::GetTypeId (void)
{
static TypeId tid = TypeId ("ns3::QapWifiMac")
.SetParent<WifiMac> ()
.AddConstructor<QapWifiMac> ()
.AddAttribute ("BeaconInterval", "Delay between two beacons",
TimeValue (Seconds (0.1)),
MakeTimeAccessor (&QapWifiMac::GetBeaconInterval,
&QapWifiMac::SetBeaconInterval),
MakeTimeChecker ())
.AddAttribute ("BeaconGeneration", "Whether or not beacons are generated.",
BooleanValue (true),
MakeBooleanAccessor (&QapWifiMac::SetBeaconGeneration,
&QapWifiMac::GetBeaconGeneration),
MakeBooleanChecker ())
.AddAttribute ("VO_EdcaTxopN",
"Queue that manages packets belonging to AC_VO access class",
PointerValue (),
MakePointerAccessor(&QapWifiMac::GetVOQueue),
MakePointerChecker<EdcaTxopN> ())
.AddAttribute ("VI_EdcaTxopN",
"Queue that manages packets belonging to AC_VI access class",
PointerValue (),
MakePointerAccessor(&QapWifiMac::GetVIQueue),
MakePointerChecker<EdcaTxopN> ())
.AddAttribute ("BE_EdcaTxopN",
"Queue that manages packets belonging to AC_BE access class",
PointerValue (),
MakePointerAccessor(&QapWifiMac::GetBEQueue),
MakePointerChecker<EdcaTxopN> ())
.AddAttribute ("BK_EdcaTxopN",
"Queue that manages packets belonging to AC_BK access class",
PointerValue (),
MakePointerAccessor(&QapWifiMac::GetBKQueue),
MakePointerChecker<EdcaTxopN> ())
;
return tid;
}
QapWifiMac::QapWifiMac ()
{
NS_LOG_FUNCTION (this);
m_rxMiddle = new MacRxMiddle ();
m_rxMiddle->SetForwardCallback (MakeCallback (&QapWifiMac::Receive, this));
m_txMiddle = new MacTxMiddle ();
m_low = CreateObject<MacLow> ();
m_low->SetRxCallback (MakeCallback (&MacRxMiddle::Receive, m_rxMiddle));
m_dcfManager = new DcfManager ();
m_dcfManager->SetupLowListener (m_low);
m_beaconDca = CreateObject<DcaTxop> ();
m_beaconDca->SetAifsn(1);
m_beaconDca->SetMinCw(0);
m_beaconDca->SetMaxCw(0);
m_beaconDca->SetLow (m_low);
m_beaconDca->SetManager (m_dcfManager);
SetQueue (AC_VO);
SetQueue (AC_VI);
SetQueue (AC_BE);
SetQueue (AC_BK);
m_enableBeaconGeneration = false;
}
QapWifiMac::~QapWifiMac ()
{
NS_LOG_FUNCTION (this);
}
void
QapWifiMac::DoDispose ()
{
delete m_rxMiddle;
delete m_txMiddle;
delete m_dcfManager;
m_low->Dispose ();
m_rxMiddle = 0;
m_txMiddle = 0;
m_dcfManager = 0;
m_low = 0;
m_phy = 0;
m_beaconDca = 0;
m_enableBeaconGeneration = false;
m_beaconEvent.Cancel ();
m_stationManager = 0;
for (Queues::iterator i = m_queues.begin (); i != m_queues.end (); ++i)
{
(*i).second = 0;
}
WifiMac::DoDispose ();
}
void
QapWifiMac::SetBeaconGeneration (bool enable)
{
NS_LOG_FUNCTION (this << enable);
if (!enable)
{
m_beaconEvent.Cancel ();
}
else if (enable && !m_enableBeaconGeneration)
{
m_beaconEvent = Simulator::ScheduleNow (&QapWifiMac::SendOneBeacon, this);
}
m_enableBeaconGeneration = enable;
}
bool
QapWifiMac::GetBeaconGeneration (void) const
{
return m_enableBeaconGeneration;
}
Time
QapWifiMac::GetBeaconInterval (void) const
{
return m_beaconInterval;
}
void
QapWifiMac::SetSlot (Time slotTime)
{
NS_LOG_FUNCTION (this << slotTime);
m_dcfManager->SetSlot (slotTime);
m_low->SetSlotTime (slotTime);
}
void
QapWifiMac::SetSifs (Time sifs)
{
NS_LOG_FUNCTION (this << sifs);
m_dcfManager->SetSifs (sifs);
m_low->SetSifs (sifs);
}
void
QapWifiMac::SetEifsNoDifs (Time eifsNoDifs)
{
NS_LOG_FUNCTION (this << eifsNoDifs);
m_dcfManager->SetEifsNoDifs (eifsNoDifs);
}
void
QapWifiMac::SetAckTimeout (Time ackTimeout)
{
m_low->SetAckTimeout (ackTimeout);
}
void
QapWifiMac::SetCtsTimeout (Time ctsTimeout)
{
m_low->SetCtsTimeout (ctsTimeout);
}
void
QapWifiMac::SetPifs (Time pifs)
{
m_low->SetPifs (pifs);
}
Time
QapWifiMac::GetSlot (void) const
{
return m_low->GetSlotTime ();
}
Time
QapWifiMac::GetSifs (void) const
{
return m_low->GetSifs ();
}
Time
QapWifiMac::GetEifsNoDifs (void) const
{
return m_dcfManager->GetEifsNoDifs ();
}
Time
QapWifiMac::GetAckTimeout (void) const
{
return m_low->GetAckTimeout ();
}
Time
QapWifiMac::GetCtsTimeout (void) const
{
return m_low->GetCtsTimeout ();
}
Time
QapWifiMac::GetPifs (void) const
{
return m_low->GetPifs ();
}
void
QapWifiMac::SetWifiPhy (Ptr<WifiPhy> phy)
{
NS_LOG_FUNCTION (this << phy);
m_phy = phy;
m_dcfManager->SetupPhyListener (phy);
m_low->SetPhy (phy);
}
void
QapWifiMac::SetWifiRemoteStationManager (Ptr<WifiRemoteStationManager> stationManager)
{
NS_LOG_FUNCTION (this << stationManager);
m_stationManager = stationManager;
for (Queues::iterator i = m_queues.begin (); i != m_queues.end (); ++i)
{
(*i).second->SetWifiRemoteStationManager (stationManager);
}
m_beaconDca->SetWifiRemoteStationManager (stationManager);
m_low->SetWifiRemoteStationManager (stationManager);
}
void
QapWifiMac::SetForwardUpCallback (Callback<void, Ptr<Packet>, Mac48Address, Mac48Address> upCallback)
{
NS_LOG_FUNCTION (this);
m_forwardUp = upCallback;
}
void
QapWifiMac::SetLinkUpCallback (Callback<void> linkUp)
{
NS_LOG_FUNCTION (this);
if (!linkUp.IsNull ())
{
linkUp ();
}
}
void
QapWifiMac::SetLinkDownCallback (Callback<void> linkDown)
{
NS_LOG_FUNCTION (this);
}
Mac48Address
QapWifiMac::GetAddress () const
{
return m_low->GetAddress ();
}
Ssid
QapWifiMac::GetSsid (void) const
{
return m_ssid;
}
void
QapWifiMac::SetAddress (Mac48Address address)
{
NS_LOG_FUNCTION (address);
m_low->SetAddress (address);
m_low->SetBssid (address);
}
void
QapWifiMac::SetSsid (Ssid ssid)
{
NS_LOG_FUNCTION (this << ssid);
m_ssid = ssid;
}
Mac48Address
QapWifiMac::GetBssid (void) const
{
return m_low->GetBssid ();
}
void
QapWifiMac::SetBeaconInterval (Time interval)
{
NS_LOG_FUNCTION (this << interval);
m_beaconInterval = interval;
}
void
QapWifiMac::StartBeaconing (void)
{
NS_LOG_FUNCTION (this);
SendOneBeacon ();
}
void
QapWifiMac::ForwardUp (Ptr<Packet> packet, Mac48Address from, Mac48Address to)
{
NS_LOG_FUNCTION (this << packet << from);
m_forwardUp (packet, from, to);
}
void
QapWifiMac::ForwardDown (Ptr<const Packet> packet, Mac48Address from, Mac48Address to)
{
/* For now Qos AP sends only Qos frame. In the future it should be able to
send frames also to Non-Qos Stas.
*/
NS_LOG_FUNCTION (this << packet << from << to);
WifiMacHeader hdr;
hdr.SetType (WIFI_MAC_QOSDATA);
hdr.SetQosAckPolicy (WifiMacHeader::NORMAL_ACK);
hdr.SetQosNoEosp ();
hdr.SetQosNoAmsdu ();
/* Transmission of multiple frames in the same
Txop is not supported for now */
hdr.SetQosTxopLimit (0);
hdr.SetAddr1 (to);
hdr.SetAddr2 (GetAddress ());
hdr.SetAddr3 (from);
hdr.SetDsFrom ();
hdr.SetDsNotTo ();
uint8_t tid = QosUtilsGetTidForPacket (packet);
if (tid < 8)
{
hdr.SetQosTid (tid);
AccessClass ac = QosUtilsMapTidToAc (tid);
m_queues[ac]->Queue (packet, hdr);
}
else
{
//packet is considerated belonging to BestEffort AC
hdr.SetQosTid (0);
m_queues[AC_BE]->Queue (packet, hdr);
}
}
void
QapWifiMac::ForwardDown (Ptr<const Packet> packet, Mac48Address from, Mac48Address to,
const WifiMacHeader *oldHdr)
{
/* For now Qos AP sends only Qos frame. In the future it should be able to
send frames also to Non-Qos Stas.
*/
NS_LOG_FUNCTION (this << packet << from << to);
NS_ASSERT (oldHdr->IsQosData ());
WifiMacHeader hdr;
hdr.SetType (WIFI_MAC_QOSDATA);
hdr.SetQosAckPolicy (WifiMacHeader::NORMAL_ACK);
hdr.SetQosNoEosp ();
hdr.SetQosNoAmsdu ();
/* Transmission of multiple frames in the same
Txop is not supported for now */
hdr.SetQosTxopLimit (0);
hdr.SetQosTid (oldHdr->GetQosTid ());
hdr.SetAddr1 (to);
hdr.SetAddr2 (GetAddress ());
hdr.SetAddr3 (from);
hdr.SetDsFrom ();
hdr.SetDsNotTo ();
AccessClass ac = QosUtilsMapTidToAc (oldHdr->GetQosTid ());
m_queues[ac]->Queue (packet, hdr);
}
void
QapWifiMac::Enqueue (Ptr<const Packet> packet, Mac48Address to, Mac48Address from)
{
NS_LOG_FUNCTION (this << packet << from << to);
ForwardDown (packet, from, to);
}
void
QapWifiMac::Enqueue (Ptr<const Packet> packet, Mac48Address to)
{
NS_LOG_FUNCTION (this << packet << to);
ForwardDown (packet, m_low->GetAddress (), to);
}
bool
QapWifiMac::SupportsSendFrom (void) const
{
return true;
}
SupportedRates
QapWifiMac::GetSupportedRates (void) const
{
// send the set of supported rates and make sure that we indicate
// the Basic Rate set in this set of supported rates.
SupportedRates rates;
for (uint32_t i = 0; i < m_phy->GetNModes (); i++)
{
WifiMode mode = m_phy->GetMode (i);
rates.AddSupportedRate (mode.GetDataRate ());
}
// set the basic rates
for (uint32_t j = 0; j < m_stationManager->GetNBasicModes (); j++)
{
WifiMode mode = m_stationManager->GetBasicMode (j);
rates.SetBasicRate (mode.GetDataRate ());
}
return rates;
}
void
QapWifiMac::SendProbeResp (Mac48Address to)
{
NS_LOG_FUNCTION (this << to);
WifiMacHeader hdr;
hdr.SetProbeResp ();
hdr.SetAddr1 (to);
hdr.SetAddr2 (GetAddress ());
hdr.SetAddr3 (GetAddress ());
hdr.SetDsNotFrom ();
hdr.SetDsNotTo ();
Ptr<Packet> packet = Create<Packet> ();
MgtProbeResponseHeader probe;
probe.SetSsid (GetSsid ());
probe.SetSupportedRates (GetSupportedRates ());
probe.SetBeaconIntervalUs (m_beaconInterval.GetMicroSeconds ());
packet->AddHeader (probe);
/* Which is correct queue for management frames ? */
m_queues[AC_VO]->Queue (packet, hdr);
}
void
QapWifiMac::SendAssocResp (Mac48Address to, bool success)
{
NS_LOG_FUNCTION (this << to << success);
WifiMacHeader hdr;
hdr.SetAssocResp ();
hdr.SetAddr1 (to);
hdr.SetAddr2 (GetAddress ());
hdr.SetAddr3 (GetAddress ());
hdr.SetDsNotFrom ();
hdr.SetDsNotTo ();
Ptr<Packet> packet = Create<Packet> ();
MgtAssocResponseHeader assoc;
StatusCode code;
if (success)
{
code.SetSuccess ();
}
else
{
code.SetFailure ();
}
assoc.SetSupportedRates (GetSupportedRates ());
assoc.SetStatusCode (code);
packet->AddHeader (assoc);
/* Which is correct queue for management frames ? */
m_queues[AC_VO]->Queue (packet, hdr);
}
void
QapWifiMac::SendOneBeacon (void)
{
NS_LOG_FUNCTION (this);
WifiMacHeader hdr;
hdr.SetBeacon ();
hdr.SetAddr1 (Mac48Address::GetBroadcast ());
hdr.SetAddr2 (GetAddress ());
hdr.SetAddr3 (GetAddress ());
hdr.SetDsNotFrom ();
hdr.SetDsNotTo ();
Ptr<Packet> packet = Create<Packet> ();
MgtBeaconHeader beacon;
beacon.SetSsid (GetSsid ());
beacon.SetSupportedRates (GetSupportedRates ());
beacon.SetBeaconIntervalUs (m_beaconInterval.GetMicroSeconds ());
packet->AddHeader (beacon);
m_beaconDca->Queue (packet, hdr);
m_beaconEvent = Simulator::Schedule (m_beaconInterval, &QapWifiMac::SendOneBeacon, this);
}
void
QapWifiMac::TxOk (const WifiMacHeader &hdr)
{
NS_LOG_FUNCTION (this);
WifiRemoteStation *station = m_stationManager->Lookup (hdr.GetAddr1 ());
if (hdr.IsAssocResp () &&
station->IsWaitAssocTxOk ())
{
NS_LOG_DEBUG ("associated with sta="<<hdr.GetAddr1 ());
station->RecordGotAssocTxOk ();
}
}
void
QapWifiMac::TxFailed (const WifiMacHeader &hdr)
{
NS_LOG_FUNCTION (this);
WifiRemoteStation *station = m_stationManager->Lookup (hdr.GetAddr1 ());
if (hdr.IsAssocResp () &&
station->IsWaitAssocTxOk ())
{
NS_LOG_DEBUG ("assoc failed with sta="<<hdr.GetAddr1 ());
station->RecordGotAssocTxFailed ();
}
}
void
QapWifiMac::Receive (Ptr<Packet> packet, const WifiMacHeader *hdr)
{
NS_LOG_FUNCTION (this << packet << hdr);
Mac48Address from = hdr->GetAddr2 ();
WifiRemoteStation *fromStation = m_stationManager->Lookup (from);
if (hdr->IsData ())
{
Mac48Address bssid = hdr->GetAddr1 ();
if (!hdr->IsFromDs () &&
hdr->IsToDs () &&
bssid == GetAddress () &&
fromStation->IsAssociated ())
{
Mac48Address to = hdr->GetAddr3 ();
WifiRemoteStation *toStation = m_stationManager->Lookup (to);
if (to == GetAddress ())
{
NS_LOG_DEBUG ("frame for me (Qap) from="<<from);
if (hdr->IsQosData ())
{
if (hdr->IsQosAmsdu ())
{
NS_LOG_DEBUG ("Received A-MSDU from="<<from<<", size="<<packet->GetSize ());
DeaggregateAmsduAndForward (packet, hdr);
packet = 0;
}
else
{
ForwardUp (packet, from, bssid);
}
}
else
{
ForwardUp (packet, from, bssid);
}
}
else if (to.IsGroup () ||
toStation->IsAssociated ())
{
NS_LOG_DEBUG ("forwarding frame from="<<from<<", to="<<to);
Ptr<Packet> copy = packet->Copy ();
ForwardDown (packet, from, to, hdr);
ForwardUp (copy, from, to);
}
else
{
ForwardUp (packet, from, to);
}
}
else if (hdr->IsFromDs () &&
hdr->IsToDs ())
{
// this is an AP-to-AP frame
// we ignore for now.
}
else
{
// we can ignore these frames since
// they are not targeted at the AP
}
}
else if (hdr->IsMgt ())
{
if (hdr->IsProbeReq ())
{
NS_ASSERT (hdr->GetAddr1 ().IsBroadcast ());
SendProbeResp (hdr->GetAddr2 ());
}
else if (hdr->GetAddr1 () == GetAddress ())
{
if (hdr->IsAssocReq ())
{
// first, verify that the the station's supported
// rate set is compatible with our Basic Rate set
MgtAssocRequestHeader assocReq;
packet->RemoveHeader (assocReq);
SupportedRates rates = assocReq.GetSupportedRates ();
bool problem = false;
for (uint32_t i = 0; i < m_stationManager->GetNBasicModes (); i++)
{
WifiMode mode = m_stationManager->GetBasicMode (i);
if (!rates.IsSupportedRate (mode.GetDataRate ()))
{
problem = true;
break;
}
}
if (problem)
{
// one of the Basic Rate set mode is not
// supported by the station. So, we return an assoc
// response with an error status.
SendAssocResp (hdr->GetAddr2 (), false);
}
else
{
// station supports all rates in Basic Rate Set.
// record all its supported modes in its associated WifiRemoteStation
for (uint32_t j = 0; j < m_phy->GetNModes (); j++)
{
WifiMode mode = m_phy->GetMode (j);
if (rates.IsSupportedRate (mode.GetDataRate ()))
{
fromStation->AddSupportedMode (mode);
}
}
fromStation->RecordWaitAssocTxOk ();
// send assoc response with success status.
SendAssocResp (hdr->GetAddr2 (), true);
}
}
else if (hdr->IsDisassociation ())
{
fromStation->RecordDisassociated ();
}
else if (hdr->IsReassocReq ())
{
/* we don't support reassoc frames for now */
}
else if (hdr->IsAction ())
{
WifiActionHeader actionHdr;
packet->RemoveHeader (actionHdr);
if (actionHdr.GetCategory () == WifiActionHeader::BLOCK_ACK &&
actionHdr.GetAction().blockAck == WifiActionHeader::BLOCK_ACK_ADDBA_REQUEST)
{
MgtAddBaRequestHeader reqHdr;
packet->RemoveHeader (reqHdr);
SendAddBaResponse (&reqHdr, hdr->GetAddr2 ());
}
else if (actionHdr.GetCategory () == WifiActionHeader::BLOCK_ACK &&
actionHdr.GetAction().blockAck == WifiActionHeader::BLOCK_ACK_ADDBA_RESPONSE)
{
MgtAddBaResponseHeader respHdr;
packet->RemoveHeader (respHdr);
m_queues[QosUtilsMapTidToAc (respHdr.GetTid ())]->GotAddBaResponse (&respHdr, hdr->GetAddr2 ());
}
else if (actionHdr.GetCategory () == WifiActionHeader::BLOCK_ACK &&
actionHdr.GetAction().blockAck == WifiActionHeader::BLOCK_ACK_DELBA)
{
MgtDelBaHeader delBaHdr;
packet->RemoveHeader (delBaHdr);
if (delBaHdr.IsByOriginator ())
{
/* Block ack agreement tear down */
}
else
{
/* We must notify correct queue tear down of agreement */
}
}
}
else if (hdr->IsAuthentication () ||
hdr->IsDeauthentication ())
{
/*
*/
}
else
{
/* unknown mgt frame
*/
}
}
}
}
void
QapWifiMac::DeaggregateAmsduAndForward (Ptr<Packet> aggregatedPacket, const WifiMacHeader *hdr)
{
DeaggregatedMsdus packets = MsduAggregator::Deaggregate (aggregatedPacket);
for (DeaggregatedMsdusCI i = packets.begin (); i != packets.end (); ++i)
{
if ((*i).second.GetDestinationAddr () == GetAddress ())
{
ForwardUp ((*i).first, (*i).second.GetSourceAddr (),
(*i).second.GetDestinationAddr ());
}
else
{
Mac48Address from = (*i).second.GetSourceAddr ();
Mac48Address to = (*i).second.GetDestinationAddr ();
NS_LOG_DEBUG ("forwarding QoS frame from="<<from<<", to="<<to);
ForwardDown ((*i).first, from, to, hdr);
}
}
}
Ptr<EdcaTxopN>
QapWifiMac::GetVOQueue (void) const
{
return m_queues.find (AC_VO)->second;
}
Ptr<EdcaTxopN>
QapWifiMac::GetVIQueue (void) const
{
return m_queues.find (AC_VI)->second;
}
Ptr<EdcaTxopN>
QapWifiMac::GetBEQueue (void) const
{
return m_queues.find (AC_BE)->second;
}
Ptr<EdcaTxopN>
QapWifiMac::GetBKQueue (void) const
{
return m_queues.find (AC_BK)->second;
}
void
QapWifiMac::SetQueue (enum AccessClass ac)
{
Ptr<EdcaTxopN> edca = CreateObject<EdcaTxopN> ();
edca->SetLow (m_low);
edca->SetManager (m_dcfManager);
edca->SetTypeOfStation (AP);
edca->SetTxMiddle (m_txMiddle);
edca->SetTxOkCallback (MakeCallback (&QapWifiMac::TxOk, this));
edca->SetTxFailedCallback (MakeCallback (&QapWifiMac::TxFailed, this));
m_queues.insert (std::make_pair(ac, edca));
}
void
QapWifiMac::FinishConfigureStandard (enum WifiPhyStandard standard)
{
switch (standard)
{
case WIFI_PHY_STANDARD_80211p_CCH:
ConfigureCCHDcf (m_queues[AC_BK], 15, 511, AC_BK);
ConfigureCCHDcf (m_queues[AC_BE], 15, 511, AC_BE);
ConfigureCCHDcf (m_queues[AC_VI], 15, 511, AC_VI);
ConfigureCCHDcf (m_queues[AC_VO], 15, 511, AC_VO);
break;
case WIFI_PHY_STANDARD_80211p_SCH:
ConfigureDcf (m_queues[AC_BK], 15, 511, AC_BK);
ConfigureDcf (m_queues[AC_BE], 15, 511, AC_BE);
ConfigureDcf (m_queues[AC_VI], 15, 511, AC_VI);
ConfigureDcf (m_queues[AC_VO], 15, 511, AC_VO);
break;
case WIFI_PHY_STANDARD_holland:
// fall through
case WIFI_PHY_STANDARD_80211a:
// fall through
case WIFI_PHY_STANDARD_80211_10Mhz:
// fall through
case WIFI_PHY_STANDARD_80211_5Mhz:
ConfigureDcf (m_queues[AC_BK], 15, 1023, AC_BK);
ConfigureDcf (m_queues[AC_BE], 15, 1023, AC_BE);
ConfigureDcf (m_queues[AC_VI], 15, 1023, AC_VI);
ConfigureDcf (m_queues[AC_VO], 15, 1023, AC_VO);
break;
case WIFI_PHY_STANDARD_80211b:
ConfigureDcf (m_queues[AC_BK], 31, 1023, AC_BK);
ConfigureDcf (m_queues[AC_BE], 31, 1023, AC_BE);
ConfigureDcf (m_queues[AC_VI], 31, 1023, AC_VI);
ConfigureDcf (m_queues[AC_VO], 31, 1023, AC_VO);
break;
default:
NS_ASSERT (false);
break;
}
}
void
QapWifiMac::DoStart (void)
{
m_beaconEvent.Cancel ();
if (m_enableBeaconGeneration)
{
m_beaconEvent = Simulator::ScheduleNow (&QapWifiMac::SendOneBeacon, this);
}
WifiMac::DoStart ();
}
void
QapWifiMac::SendAddBaResponse (const MgtAddBaRequestHeader *reqHdr, Mac48Address originator)
{
NS_LOG_FUNCTION (this);
WifiMacHeader hdr;
hdr.SetAction ();
hdr.SetAddr1 (originator);
hdr.SetAddr2 (m_low->GetAddress ());
hdr.SetAddr3 (m_low->GetAddress ());
hdr.SetDsNotFrom ();
hdr.SetDsNotTo ();
MgtAddBaResponseHeader respHdr;
StatusCode code;
code.SetSuccess ();
respHdr.SetStatusCode (code);
//Here a control about queues type?
respHdr.SetAmsduSupport (reqHdr->IsAmsduSupported ());
if (reqHdr->IsImmediateBlockAck ())
{
respHdr.SetImmediateBlockAck ();
}
else
{
respHdr.SetDelayedBlockAck ();
}
respHdr.SetTid (reqHdr->GetTid ());
/* For now there's not no control about limit of reception.
We assume that receiver has no limit on reception.
However we assume that a receiver sets a bufferSize in order to satisfy
next equation:
(bufferSize + 1) % 16 = 0
So if a recipient is able to buffer a packet, it should be also able to buffer
all possible packet's fragments.
See section 7.3.1.14 in IEEE802.11e for more details. */
respHdr.SetBufferSize (1023);
respHdr.SetTimeout (reqHdr->GetTimeout ());
WifiActionHeader actionHdr;
WifiActionHeader::ActionValue action;
action.blockAck = WifiActionHeader::BLOCK_ACK_ADDBA_RESPONSE;
actionHdr.SetAction (WifiActionHeader::BLOCK_ACK, action);
Ptr<Packet> packet = Create<Packet> ();
packet->AddHeader (respHdr);
packet->AddHeader (actionHdr);
/* ns3::MacLow have to buffer all correctly received packet for this block ack session */
m_low->CreateBlockAckAgreement (&respHdr, originator, reqHdr->GetStartingSequence ());
//Better a management queue?
m_queues[QosUtilsMapTidToAc (reqHdr->GetTid ())]->PushFront (packet, hdr);
}
} //namespace ns3