/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2003,2007 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 "amrr-wifi-manager.h"
#include "ns3/simulator.h"
#include "ns3/log.h"
#include "ns3/uinteger.h"
#include "ns3/double.h"
#define Min(a,b) ((a < b) ? a : b)
namespace ns3 {
NS_LOG_COMPONENT_DEFINE ("AmrrWifiRemoteStation");
/**
* \brief hold per-remote-station state for AMRR Wifi manager.
*
* This struct extends from WifiRemoteStation struct to hold additional
* information required by the AMRR Wifi manager
*/
struct AmrrWifiRemoteStation : public WifiRemoteStation
{
Time m_nextModeUpdate;
uint32_t m_tx_ok;
uint32_t m_tx_err;
uint32_t m_tx_retr;
uint32_t m_retry;
uint32_t m_txrate;
uint32_t m_successThreshold;
uint32_t m_success;
bool m_recovery;
};
NS_OBJECT_ENSURE_REGISTERED (AmrrWifiManager);
TypeId
AmrrWifiManager::GetTypeId (void)
{
static TypeId tid = TypeId ("ns3::AmrrWifiManager")
.SetParent<WifiRemoteStationManager> ()
.SetGroupName ("Wifi")
.AddConstructor<AmrrWifiManager> ()
.AddAttribute ("UpdatePeriod",
"The interval between decisions about rate control changes",
TimeValue (Seconds (1.0)),
MakeTimeAccessor (&AmrrWifiManager::m_updatePeriod),
MakeTimeChecker ())
.AddAttribute ("FailureRatio",
"Ratio of minimum erroneous transmissions needed to switch to a lower rate",
DoubleValue (1.0 / 3.0),
MakeDoubleAccessor (&AmrrWifiManager::m_failureRatio),
MakeDoubleChecker<double> (0.0, 1.0))
.AddAttribute ("SuccessRatio",
"Ratio of maximum erroneous transmissions needed to switch to a higher rate",
DoubleValue (1.0 / 10.0),
MakeDoubleAccessor (&AmrrWifiManager::m_successRatio),
MakeDoubleChecker<double> (0.0, 1.0))
.AddAttribute ("MaxSuccessThreshold",
"Maximum number of consecutive success periods needed to switch to a higher rate",
UintegerValue (10),
MakeUintegerAccessor (&AmrrWifiManager::m_maxSuccessThreshold),
MakeUintegerChecker<uint32_t> ())
.AddAttribute ("MinSuccessThreshold",
"Minimum number of consecutive success periods needed to switch to a higher rate",
UintegerValue (1),
MakeUintegerAccessor (&AmrrWifiManager::m_minSuccessThreshold),
MakeUintegerChecker<uint32_t> ())
;
return tid;
}
AmrrWifiManager::AmrrWifiManager ()
{
NS_LOG_FUNCTION (this);
}
WifiRemoteStation *
AmrrWifiManager::DoCreateStation (void) const
{
NS_LOG_FUNCTION (this);
AmrrWifiRemoteStation *station = new AmrrWifiRemoteStation ();
station->m_nextModeUpdate = Simulator::Now () + m_updatePeriod;
station->m_tx_ok = 0;
station->m_tx_err = 0;
station->m_tx_retr = 0;
station->m_retry = 0;
station->m_txrate = 0;
station->m_successThreshold = m_minSuccessThreshold;
station->m_success = 0;
station->m_recovery = false;
return station;
}
void
AmrrWifiManager::DoReportRxOk (WifiRemoteStation *station,
double rxSnr, WifiMode txMode)
{
NS_LOG_FUNCTION (this << station << rxSnr << txMode);
}
void
AmrrWifiManager::DoReportRtsFailed (WifiRemoteStation *station)
{
NS_LOG_FUNCTION (this << station);
}
void
AmrrWifiManager::DoReportDataFailed (WifiRemoteStation *st)
{
NS_LOG_FUNCTION (this << st);
AmrrWifiRemoteStation *station = (AmrrWifiRemoteStation *)st;
station->m_retry++;
station->m_tx_retr++;
}
void
AmrrWifiManager::DoReportRtsOk (WifiRemoteStation *st,
double ctsSnr, WifiMode ctsMode, double rtsSnr)
{
NS_LOG_FUNCTION (this << st << ctsSnr << ctsMode << rtsSnr);
}
void
AmrrWifiManager::DoReportDataOk (WifiRemoteStation *st,
double ackSnr, WifiMode ackMode, double dataSnr)
{
NS_LOG_FUNCTION (this << st << ackSnr << ackMode << dataSnr);
AmrrWifiRemoteStation *station = (AmrrWifiRemoteStation *)st;
station->m_retry = 0;
station->m_tx_ok++;
}
void
AmrrWifiManager::DoReportFinalRtsFailed (WifiRemoteStation *station)
{
NS_LOG_FUNCTION (this << station);
}
void
AmrrWifiManager::DoReportFinalDataFailed (WifiRemoteStation *st)
{
NS_LOG_FUNCTION (this << st);
AmrrWifiRemoteStation *station = (AmrrWifiRemoteStation *)st;
station->m_retry = 0;
station->m_tx_err++;
}
bool
AmrrWifiManager::IsMinRate (AmrrWifiRemoteStation *station) const
{
NS_LOG_FUNCTION (this << station);
return (station->m_txrate == 0);
}
bool
AmrrWifiManager::IsMaxRate (AmrrWifiRemoteStation *station) const
{
NS_LOG_FUNCTION (this << station);
NS_ASSERT (station->m_txrate + 1 <= GetNSupported (station));
return (station->m_txrate + 1 == GetNSupported (station));
}
bool
AmrrWifiManager::IsSuccess (AmrrWifiRemoteStation *station) const
{
NS_LOG_FUNCTION (this << station);
return (station->m_tx_retr + station->m_tx_err) < station->m_tx_ok * m_successRatio;
}
bool
AmrrWifiManager::IsFailure (AmrrWifiRemoteStation *station) const
{
NS_LOG_FUNCTION (this << station);
return (station->m_tx_retr + station->m_tx_err) > station->m_tx_ok * m_failureRatio;
}
bool
AmrrWifiManager::IsEnough (AmrrWifiRemoteStation *station) const
{
NS_LOG_FUNCTION (this << station);
return (station->m_tx_retr + station->m_tx_err + station->m_tx_ok) > 10;
}
void
AmrrWifiManager::ResetCnt (AmrrWifiRemoteStation *station)
{
NS_LOG_FUNCTION (this << station);
station->m_tx_ok = 0;
station->m_tx_err = 0;
station->m_tx_retr = 0;
}
void
AmrrWifiManager::IncreaseRate (AmrrWifiRemoteStation *station)
{
NS_LOG_FUNCTION (this << station);
station->m_txrate++;
NS_ASSERT (station->m_txrate < GetNSupported (station));
}
void
AmrrWifiManager::DecreaseRate (AmrrWifiRemoteStation *station)
{
NS_LOG_FUNCTION (this << station);
station->m_txrate--;
}
void
AmrrWifiManager::UpdateMode (AmrrWifiRemoteStation *station)
{
NS_LOG_FUNCTION (this << station);
if (Simulator::Now () < station->m_nextModeUpdate)
{
return;
}
station->m_nextModeUpdate = Simulator::Now () + m_updatePeriod;
NS_LOG_DEBUG ("Update");
bool needChange = false;
if (IsSuccess (station) && IsEnough (station))
{
station->m_success++;
NS_LOG_DEBUG ("++ success=" << station->m_success << " successThreshold=" << station->m_successThreshold <<
" tx_ok=" << station->m_tx_ok << " tx_err=" << station->m_tx_err << " tx_retr=" << station->m_tx_retr <<
" rate=" << station->m_txrate << " n-supported-rates=" << GetNSupported (station));
if (station->m_success >= station->m_successThreshold
&& !IsMaxRate (station))
{
station->m_recovery = true;
station->m_success = 0;
IncreaseRate (station);
needChange = true;
}
else
{
station->m_recovery = false;
}
}
else if (IsFailure (station))
{
station->m_success = 0;
NS_LOG_DEBUG ("-- success=" << station->m_success << " successThreshold=" << station->m_successThreshold <<
" tx_ok=" << station->m_tx_ok << " tx_err=" << station->m_tx_err << " tx_retr=" << station->m_tx_retr <<
" rate=" << station->m_txrate << " n-supported-rates=" << GetNSupported (station));
if (!IsMinRate (station))
{
if (station->m_recovery)
{
station->m_successThreshold *= 2;
station->m_successThreshold = std::min (station->m_successThreshold,
m_maxSuccessThreshold);
}
else
{
station->m_successThreshold = m_minSuccessThreshold;
}
station->m_recovery = false;
DecreaseRate (station);
needChange = true;
}
else
{
station->m_recovery = false;
}
}
if (IsEnough (station) || needChange)
{
NS_LOG_DEBUG ("Reset");
ResetCnt (station);
}
}
WifiTxVector
AmrrWifiManager::DoGetDataTxVector (WifiRemoteStation *st, uint32_t size)
{
NS_LOG_FUNCTION (this << st << size);
AmrrWifiRemoteStation *station = (AmrrWifiRemoteStation *)st;
UpdateMode (station);
NS_ASSERT (station->m_txrate < GetNSupported (station));
uint32_t rateIndex;
if (station->m_retry < 1)
{
rateIndex = station->m_txrate;
}
else if (station->m_retry < 2)
{
if (station->m_txrate > 0)
{
rateIndex = station->m_txrate - 1;
}
else
{
rateIndex = station->m_txrate;
}
}
else if (station->m_retry < 3)
{
if (station->m_txrate > 1)
{
rateIndex = station->m_txrate - 2;
}
else
{
rateIndex = station->m_txrate;
}
}
else
{
if (station->m_txrate > 2)
{
rateIndex = station->m_txrate - 3;
}
else
{
rateIndex = station->m_txrate;
}
}
return WifiTxVector (GetSupported (station, rateIndex), GetDefaultTxPowerLevel (), GetLongRetryCount (station), GetShortGuardInterval (station), Min (GetNumberOfReceiveAntennas (station), GetNumberOfTransmitAntennas ()), GetNess (station), GetAggregation (station), GetStbc (station));
}
WifiTxVector
AmrrWifiManager::DoGetRtsTxVector (WifiRemoteStation *st)
{
NS_LOG_FUNCTION (this << st);
AmrrWifiRemoteStation *station = (AmrrWifiRemoteStation *)st;
UpdateMode (station);
/// \todo can we implement something smarter ?
return WifiTxVector (GetSupported (station, 0), GetDefaultTxPowerLevel (), GetLongRetryCount (station), GetShortGuardInterval (station), Min (GetNumberOfReceiveAntennas (station), GetNumberOfTransmitAntennas ()), GetNess (station), GetAggregation (station), GetStbc (station));
}
bool
AmrrWifiManager::IsLowLatency (void) const
{
NS_LOG_FUNCTION (this);
return true;
}
} //namespace ns3