parf-wifi-manager.cc

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/*
 * Copyright (c) 2014 Universidad de la República - Uruguay
 *
 * 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: Matias Richart <mrichart@fing.edu.uy>
 */
 
#include "parf-wifi-manager.h"
 
#include "ns3/data-rate.h"
#include "ns3/log.h"
#include "ns3/uinteger.h"
#include "ns3/wifi-phy.h"
 
#define Min(a, b) ((a < b) ? a : b)
 
namespace ns3
{
 
NS_LOG_COMPONENT_DEFINE("ParfWifiManager");
 
struct ParfWifiRemoteStation : public WifiRemoteStation
{
    uint32_t m_nAttempt;       
    uint32_t m_nSuccess;       
    uint32_t m_nFail;          
    bool m_usingRecoveryRate;  
    bool m_usingRecoveryPower; 
    uint32_t m_nRetry;         
    uint8_t m_prevRateIndex;   
    uint8_t m_rateIndex;       
    uint8_t m_prevPowerLevel;  
    uint8_t m_powerLevel;      
    uint8_t m_nSupported;      
    bool m_initialized;        
};
 
NS_OBJECT_ENSURE_REGISTERED(ParfWifiManager);
 
TypeId
ParfWifiManager::GetTypeId()
{
    static TypeId tid =
        TypeId("ns3::ParfWifiManager")
            .SetParent<WifiRemoteStationManager>()
            .SetGroupName("Wifi")
            .AddConstructor<ParfWifiManager>()
            .AddAttribute("AttemptThreshold",
                          "The minimum number of transmission attempts to try a new power or rate.",
                          UintegerValue(15),
                          MakeUintegerAccessor(&ParfWifiManager::m_attemptThreshold),
                          MakeUintegerChecker<uint32_t>())
            .AddAttribute(
                "SuccessThreshold",
                "The minimum number of successful transmissions to try a new power or rate.",
                UintegerValue(10),
                MakeUintegerAccessor(&ParfWifiManager::m_successThreshold),
                MakeUintegerChecker<uint32_t>())
            .AddTraceSource("PowerChange",
                            "The transmission power has change",
                            MakeTraceSourceAccessor(&ParfWifiManager::m_powerChange),
                            "ns3::WifiRemoteStationManager::PowerChangeTracedCallback")
            .AddTraceSource("RateChange",
                            "The transmission rate has change",
                            MakeTraceSourceAccessor(&ParfWifiManager::m_rateChange),
                            "ns3::WifiRemoteStationManager::RateChangeTracedCallback");
    return tid;
}
 
ParfWifiManager::ParfWifiManager()
{
    NS_LOG_FUNCTION(this);
}
 
ParfWifiManager::~ParfWifiManager()
{
    NS_LOG_FUNCTION(this);
}
 
void
ParfWifiManager::SetupPhy(const Ptr<WifiPhy> phy)
{
    NS_LOG_FUNCTION(this << phy);
    m_minPower = 0;
    m_maxPower = phy->GetNTxPower() - 1;
    WifiRemoteStationManager::SetupPhy(phy);
}
 
void
ParfWifiManager::DoInitialize()
{
    NS_LOG_FUNCTION(this);
    if (GetHtSupported())
    {
        NS_FATAL_ERROR("WifiRemoteStationManager selected does not support HT rates");
    }
    if (GetVhtSupported())
    {
        NS_FATAL_ERROR("WifiRemoteStationManager selected does not support VHT rates");
    }
    if (GetHeSupported())
    {
        NS_FATAL_ERROR("WifiRemoteStationManager selected does not support HE rates");
    }
}
 
WifiRemoteStation*
ParfWifiManager::DoCreateStation() const
{
    NS_LOG_FUNCTION(this);
    ParfWifiRemoteStation* station = new ParfWifiRemoteStation();
 
    station->m_nSuccess = 0;
    station->m_nFail = 0;
    station->m_usingRecoveryRate = false;
    station->m_usingRecoveryPower = false;
    station->m_initialized = false;
    station->m_nRetry = 0;
    station->m_nAttempt = 0;
 
    NS_LOG_DEBUG("create station=" << station << ", timer=" << station->m_nAttempt
                                   << ", rate=" << +station->m_rateIndex
                                   << ", power=" << +station->m_powerLevel);
 
    return station;
}
 
void
ParfWifiManager::CheckInit(ParfWifiRemoteStation* station)
{
    if (!station->m_initialized)
    {
        station->m_nSupported = GetNSupported(station);
        station->m_rateIndex = station->m_nSupported - 1;
        station->m_prevRateIndex = station->m_nSupported - 1;
        station->m_powerLevel = m_maxPower;
        station->m_prevPowerLevel = m_maxPower;
        WifiMode mode = GetSupported(station, station->m_rateIndex);
        uint16_t channelWidth = GetChannelWidth(station);
        DataRate rate = DataRate(mode.GetDataRate(channelWidth));
        double power = GetPhy()->GetPowerDbm(m_maxPower);
        m_powerChange(power, power, station->m_state->m_address);
        m_rateChange(rate, rate, station->m_state->m_address);
        station->m_initialized = true;
    }
}
 
void
ParfWifiManager::DoReportRtsFailed(WifiRemoteStation* station)
{
    NS_LOG_FUNCTION(this << station);
}
 
/*
 * It is important to realize that "recovery" mode starts after failure of
 * the first transmission after a rate increase and ends at the first successful
 * transmission. Specifically, recovery mode spans retransmissions boundaries.
 * Fundamentally, ARF handles each data transmission independently, whether it
 * is the initial transmission of a packet or the retransmission of a packet.
 * The fundamental reason for this is that there is a backoff between each data
 * transmission, be it an initial transmission or a retransmission.
 */
void
ParfWifiManager::DoReportDataFailed(WifiRemoteStation* st)
{
    NS_LOG_FUNCTION(this << st);
    ParfWifiRemoteStation* station = static_cast<ParfWifiRemoteStation*>(st);
    CheckInit(station);
    station->m_nAttempt++;
    station->m_nFail++;
    station->m_nRetry++;
    station->m_nSuccess = 0;
 
    NS_LOG_DEBUG("station=" << station << " data fail retry=" << station->m_nRetry << ", timer="
                            << station->m_nAttempt << ", rate=" << +station->m_rateIndex
                            << ", power=" << +station->m_powerLevel);
    if (station->m_usingRecoveryRate)
    {
        NS_ASSERT(station->m_nRetry >= 1);
        if (station->m_nRetry == 1)
        {
            // need recovery fallback
            if (station->m_rateIndex != 0)
            {
                NS_LOG_DEBUG("station=" << station << " dec rate");
                station->m_rateIndex--;
                station->m_usingRecoveryRate = false;
            }
        }
        station->m_nAttempt = 0;
    }
    else if (station->m_usingRecoveryPower)
    {
        NS_ASSERT(station->m_nRetry >= 1);
        if (station->m_nRetry == 1)
        {
            // need recovery fallback
            if (station->m_powerLevel < m_maxPower)
            {
                NS_LOG_DEBUG("station=" << station << " inc power");
                station->m_powerLevel++;
                station->m_usingRecoveryPower = false;
            }
        }
        station->m_nAttempt = 0;
    }
    else
    {
        NS_ASSERT(station->m_nRetry >= 1);
        if (((station->m_nRetry - 1) % 2) == 1)
        {
            // need normal fallback
            if (station->m_powerLevel == m_maxPower)
            {
                if (station->m_rateIndex != 0)
                {
                    NS_LOG_DEBUG("station=" << station << " dec rate");
                    station->m_rateIndex--;
                }
            }
            else
            {
                NS_LOG_DEBUG("station=" << station << " inc power");
                station->m_powerLevel++;
            }
        }
        if (station->m_nRetry >= 2)
        {
            station->m_nAttempt = 0;
        }
    }
}
 
void
ParfWifiManager::DoReportRxOk(WifiRemoteStation* station, double rxSnr, WifiMode txMode)
{
    NS_LOG_FUNCTION(this << station << rxSnr << txMode);
}
 
void
ParfWifiManager::DoReportRtsOk(WifiRemoteStation* station,
                               double ctsSnr,
                               WifiMode ctsMode,
                               double rtsSnr)
{
    NS_LOG_FUNCTION(this << station << ctsSnr << ctsMode << rtsSnr);
}
 
void
ParfWifiManager::DoReportDataOk(WifiRemoteStation* st,
                                double ackSnr,
                                WifiMode ackMode,
                                double dataSnr,
                                uint16_t dataChannelWidth,
                                uint8_t dataNss)
{
    NS_LOG_FUNCTION(this << st << ackSnr << ackMode << dataSnr << dataChannelWidth << +dataNss);
    ParfWifiRemoteStation* station = static_cast<ParfWifiRemoteStation*>(st);
    CheckInit(station);
    station->m_nAttempt++;
    station->m_nSuccess++;
    station->m_nFail = 0;
    station->m_usingRecoveryRate = false;
    station->m_usingRecoveryPower = false;
    station->m_nRetry = 0;
    NS_LOG_DEBUG("station=" << station << " data ok success=" << station->m_nSuccess << ", timer="
                            << station->m_nAttempt << ", rate=" << +station->m_rateIndex
                            << ", power=" << +station->m_powerLevel);
    if ((station->m_nSuccess == m_successThreshold || station->m_nAttempt == m_attemptThreshold) &&
        (station->m_rateIndex < (station->m_state->m_operationalRateSet.size() - 1)))
    {
        NS_LOG_DEBUG("station=" << station << " inc rate");
        station->m_rateIndex++;
        station->m_nAttempt = 0;
        station->m_nSuccess = 0;
        station->m_usingRecoveryRate = true;
    }
    else if (station->m_nSuccess == m_successThreshold || station->m_nAttempt == m_attemptThreshold)
    {
        // we are at the maximum rate, we decrease power
        if (station->m_powerLevel != m_minPower)
        {
            NS_LOG_DEBUG("station=" << station << " dec power");
            station->m_powerLevel--;
        }
        station->m_nAttempt = 0;
        station->m_nSuccess = 0;
        station->m_usingRecoveryPower = true;
    }
}
 
void
ParfWifiManager::DoReportFinalRtsFailed(WifiRemoteStation* station)
{
    NS_LOG_FUNCTION(this << station);
}
 
void
ParfWifiManager::DoReportFinalDataFailed(WifiRemoteStation* station)
{
    NS_LOG_FUNCTION(this << station);
}
 
WifiTxVector
ParfWifiManager::DoGetDataTxVector(WifiRemoteStation* st, uint16_t allowedWidth)
{
    NS_LOG_FUNCTION(this << st << allowedWidth);
    ParfWifiRemoteStation* station = static_cast<ParfWifiRemoteStation*>(st);
    uint16_t channelWidth = GetChannelWidth(station);
    if (channelWidth > 20 && channelWidth != 22)
    {
        channelWidth = 20;
    }
    CheckInit(station);
    WifiMode mode = GetSupported(station, station->m_rateIndex);
    DataRate rate = DataRate(mode.GetDataRate(channelWidth));
    DataRate prevRate =
        DataRate(GetSupported(station, station->m_prevRateIndex).GetDataRate(channelWidth));
    double power = GetPhy()->GetPowerDbm(station->m_powerLevel);
    double prevPower = GetPhy()->GetPowerDbm(station->m_prevPowerLevel);
    if (station->m_prevPowerLevel != station->m_powerLevel)
    {
        m_powerChange(prevPower, power, station->m_state->m_address);
        station->m_prevPowerLevel = station->m_powerLevel;
    }
    if (station->m_prevRateIndex != station->m_rateIndex)
    {
        m_rateChange(prevRate, rate, station->m_state->m_address);
        station->m_prevRateIndex = station->m_rateIndex;
    }
    return WifiTxVector(
        mode,
        station->m_powerLevel,
        GetPreambleForTransmission(mode.GetModulationClass(), GetShortPreambleEnabled()),
        800,
        1,
        1,
        0,
        channelWidth,
        GetAggregation(station));
}
 
WifiTxVector
ParfWifiManager::DoGetRtsTxVector(WifiRemoteStation* st)
{
    NS_LOG_FUNCTION(this << st);
    ParfWifiRemoteStation* station = static_cast<ParfWifiRemoteStation*>(st);
    uint16_t channelWidth = GetChannelWidth(station);
    if (channelWidth > 20 && channelWidth != 22)
    {
        channelWidth = 20;
    }
    WifiMode mode;
    if (GetUseNonErpProtection() == false)
    {
        mode = GetSupported(station, 0);
    }
    else
    {
        mode = GetNonErpSupported(station, 0);
    }
    return WifiTxVector(
        mode,
        GetDefaultTxPowerLevel(),
        GetPreambleForTransmission(mode.GetModulationClass(), GetShortPreambleEnabled()),
        800,
        1,
        1,
        0,
        channelWidth,
        GetAggregation(station));
}
 
} // namespace ns3