/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2005,2006 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>
*/
#ifndef WIFI_PHY_H
#define WIFI_PHY_H
#include <stdint.h>
#include "ns3/callback.h"
#include "ns3/packet.h"
#include "ns3/object.h"
#include "ns3/nstime.h"
#include "ns3/ptr.h"
#include "wifi-mode.h"
#include "wifi-preamble.h"
#include "wifi-phy-standard.h"
#include "ns3/traced-callback.h"
#include "wifi-tx-vector.h"
namespace ns3 {
class WifiChannel;
class NetDevice;
/**
* \brief receive notifications about phy events.
*/
class WifiPhyListener
{
public:
virtual ~WifiPhyListener ();
/**
* \param duration the expected duration of the packet reception.
*
* We have received the first bit of a packet. We decided
* that we could synchronize on this packet. It does not mean
* we will be able to successfully receive completely the
* whole packet. It means that we will report a BUSY status until
* one of the following happens:
* - NotifyRxEndOk
* - NotifyRxEndError
* - NotifyTxStart
*/
virtual void NotifyRxStart (Time duration) = 0;
/**
* We have received the last bit of a packet for which
* NotifyRxStart was invoked first and, the packet has
* been successfully received.
*/
virtual void NotifyRxEndOk (void) = 0;
/**
* We have received the last bit of a packet for which
* NotifyRxStart was invoked first and, the packet has
* _not_ been successfully received.
*/
virtual void NotifyRxEndError (void) = 0;
/**
* \param duration the expected transmission duration.
* \param txPowerDbm the nominal tx power in dBm
*
* We are about to send the first bit of the packet.
* We do not send any event to notify the end of
* transmission. Listeners should assume that the
* channel implicitely reverts to the idle state
* unless they have received a cca busy report.
*/
virtual void NotifyTxStart (Time duration, double txPowerDbm) = 0;
/**
* \param duration the expected busy duration.
*
* This method does not really report a real state
* change as opposed to the other methods in this class.
* It merely reports that, unless the medium is reported
* busy through NotifyTxStart or NotifyRxStart/End,
* it will be busy as defined by the currently selected
* CCA mode.
*
* Typical client code which wants to have a clear picture
* of the CCA state will need to keep track of the time at
* which the last NotifyCcaBusyStart method is called and
* what duration it reported.
*/
virtual void NotifyMaybeCcaBusyStart (Time duration) = 0;
/**
* \param duration the expected channel switching duration.
*
* We do not send any event to notify the end of
* channel switching. Listeners should assume that the
* channel implicitely reverts to the idle or busy states.
*/
virtual void NotifySwitchingStart (Time duration) = 0;
/**
* Notify listeners that we went to sleep
*/
virtual void NotifySleep (void) = 0;
/**
* Notify listeners that we woke up
*/
virtual void NotifyWakeup (void) = 0;
};
/**
* \brief 802.11 PHY layer model
* \ingroup wifi
*
*/
class WifiPhy : public Object
{
public:
/**
* The state of the PHY layer.
*/
enum State
{
/**
* The PHY layer is IDLE.
*/
IDLE,
/**
* The PHY layer has sense the medium busy through the CCA mechanism
*/
CCA_BUSY,
/**
* The PHY layer is sending a packet.
*/
TX,
/**
* The PHY layer is receiving a packet.
*/
RX,
/**
* The PHY layer is switching to other channel.
*/
SWITCHING,
/**
* The PHY layer is sleeping.
*/
SLEEP
};
/**
* arg1: packet received successfully
* arg2: snr of packet
* arg3: mode of packet
* arg4: type of preamble used for packet.
*/
typedef Callback<void,Ptr<Packet>, double, WifiMode, enum WifiPreamble> RxOkCallback;
/**
* arg1: packet received unsuccessfully
* arg2: snr of packet
*/
typedef Callback<void,Ptr<const Packet>, double> RxErrorCallback;
static TypeId GetTypeId (void);
WifiPhy ();
virtual ~WifiPhy ();
/**
* Return the minimum available transmission power level (dBm).
*
* \return the minimum available transmission power level in dBm
*/
virtual double GetTxPowerStart (void) const = 0;
/**
* Return the maximum available transmission power level (dBm).
*
* \return the maximum available transmission power level in dBm
*/
virtual double GetTxPowerEnd (void) const = 0;
/**
* \return the number of tx power levels available for this PHY.
*/
virtual uint32_t GetNTxPower (void) const = 0;
/**
* \param callback the callback to invoke
* upon successful packet reception.
*/
virtual void SetReceiveOkCallback (RxOkCallback callback) = 0;
/**
* \param callback the callback to invoke
* upon erroneous packet reception.
*/
virtual void SetReceiveErrorCallback (RxErrorCallback callback) = 0;
/**
* \param packet the packet to send
* \param txvector the txvector that has tx parameters such as mode, the transmission mode to use to send
* this packet, and txPowerLevel, a power level to use to send this packet. The real transmission
* power is calculated as txPowerMin + txPowerLevel * (txPowerMax - txPowerMin) / nTxLevels
* \param preamble the type of preamble to use to send this packet.
*/
virtual void SendPacket (Ptr<const Packet> packet, WifiTxVector txvector, enum WifiPreamble preamble) = 0;
/**
* \param listener the new listener
*
* Add the input listener to the list of objects to be notified of
* PHY-level events.
*/
virtual void RegisterListener (WifiPhyListener *listener) = 0;
/**
* Put in sleep mode.
*/
virtual void SetSleepMode (void) = 0;
/**
* Resume from sleep mode.
*/
virtual void ResumeFromSleep (void) = 0;
/**
* \return true of the current state of the PHY layer is WifiPhy::IDLE, false otherwise.
*/
virtual bool IsStateIdle (void) = 0;
/**
* \return true of the current state of the PHY layer is WifiPhy::CCA_BUSY, false otherwise.
*/
virtual bool IsStateCcaBusy (void) = 0;
/**
* \return true of the current state of the PHY layer is not WifiPhy::IDLE, false otherwise.
*/
virtual bool IsStateBusy (void) = 0;
/**
* \return true of the current state of the PHY layer is WifiPhy::RX, false otherwise.
*/
virtual bool IsStateRx (void) = 0;
/**
* \return true of the current state of the PHY layer is WifiPhy::TX, false otherwise.
*/
virtual bool IsStateTx (void) = 0;
/**
* \return true of the current state of the PHY layer is WifiPhy::SWITCHING, false otherwise.
*/
virtual bool IsStateSwitching (void) = 0;
/**
* \return true if the current state of the PHY layer is WifiPhy::SLEEP, false otherwise.
*/
virtual bool IsStateSleep (void) = 0;
/**
* \return the amount of time since the current state has started.
*/
virtual Time GetStateDuration (void) = 0;
/**
* \return the predicted delay until this PHY can become WifiPhy::IDLE.
*
* The PHY will never become WifiPhy::IDLE _before_ the delay returned by
* this method but it could become really idle later.
*/
virtual Time GetDelayUntilIdle (void) = 0;
/**
* Return the start time of the last received packet.
*
* \return the start time of the last received packet
*/
virtual Time GetLastRxStartTime (void) const = 0;
/**
* \param size the number of bytes in the packet to send
* \param txvector the transmission parameters used for this packet
* \param preamble the type of preamble to use for this packet.
* \param frequency the channel center frequency (MHz)
* \return the total amount of time this PHY will stay busy for
* the transmission of these bytes.
*/
static Time CalculateTxDuration (uint32_t size, WifiTxVector txvector, enum WifiPreamble preamble, double frequency);
/**
* \param payloadMode the WifiMode use for the transmission of the payload
* \param preamble the type of preamble
* \param txvector the transmission parameters used for this packet
* \return the training symbol duration
*/
static uint32_t GetPlcpHtTrainingSymbolDurationMicroSeconds (WifiMode payloadMode, WifiPreamble preamble, WifiTxVector txvector);
/**
* \param payloadMode the WifiMode use for the transmission of the payload
* \param preamble the type of preamble
*
* \return the WifiMode used for the transmission of the HT-SIG in Mixed Format and greenfield format PLCP header
*/
static WifiMode GetMFPlcpHeaderMode (WifiMode payloadMode, WifiPreamble preamble);
/**
* \param payloadMode the WifiMode use for the transmission of the payload
* \param preamble the type of preamble
*
* \return the duration of the GT-SIG in Mixed Format and greenfield format PLCP header
*/
static uint32_t GetPlcpHtSigHeaderDurationMicroSeconds (WifiMode payloadMode, WifiPreamble preamble);
/**
* \param payloadMode the WifiMode use for the transmission of the payload
* \param preamble the type of preamble
*
* \return the WifiMode used for the transmission of the PLCP header
*/
static WifiMode GetPlcpHeaderMode (WifiMode payloadMode, WifiPreamble preamble);
/**
* \param payloadMode the WifiMode use for the transmission of the payload
* \param preamble the type of preamble
*
* \return the duration of the PLCP header in microseconds
*/
static uint32_t GetPlcpHeaderDurationMicroSeconds (WifiMode payloadMode, WifiPreamble preamble);
/**
* \param payloadMode the WifiMode use for the transmission of the payload
* \param preamble the type of preamble
*
* \return the duration of the PLCP preamble in microseconds
*/
static uint32_t GetPlcpPreambleDurationMicroSeconds (WifiMode payloadMode, WifiPreamble preamble);
/**
* \param size the number of bytes in the packet to send
* \param txvector the transmission parameters used for this packet
* \param frequency the channel center frequency (MHz)
*
* \return the duration of the payload in microseconds
*/
static double GetPayloadDurationMicroSeconds (uint32_t size, WifiTxVector txvector, double frequency);
/**
* The WifiPhy::GetNModes() and WifiPhy::GetMode() methods are used
* (e.g., by a WifiRemoteStationManager) to determine the set of
* transmission/reception modes that this WifiPhy(-derived class)
* can support - a set of WifiMode objects which we call the
* DeviceRateSet, and which is stored as WifiPhy::m_deviceRateSet.
*
* It is important to note that the DeviceRateSet is a superset (not
* necessarily proper) of the OperationalRateSet (which is
* logically, if not actually, a property of the associated
* WifiRemoteStationManager), which itself is a superset (again, not
* necessarily proper) of the BSSBasicRateSet.
*
* \return the number of transmission modes supported by this PHY.
*
* \sa WifiPhy::GetMode()
*/
virtual uint32_t GetNModes (void) const = 0;
/**
* The WifiPhy::GetNModes() and WifiPhy::GetMode() methods are used
* (e.g., by a WifiRemoteStationManager) to determine the set of
* transmission/reception modes that this WifiPhy(-derived class)
* can support - a set of WifiMode objects which we call the
* DeviceRateSet, and which is stored as WifiPhy::m_deviceRateSet.
*
* It is important to note that the DeviceRateSet is a superset (not
* necessarily proper) of the OperationalRateSet (which is
* logically, if not actually, a property of the associated
* WifiRemoteStationManager), which itself is a superset (again, not
* necessarily proper) of the BSSBasicRateSet.
*
* \param mode index in array of supported modes
* \return the mode whose index is specified.
*
* \sa WifiPhy::GetNModes()
*/
virtual WifiMode GetMode (uint32_t mode) const = 0;
/**
* Check if the given WifiMode is supported by the PHY.
*
* \param mode the wifi mode to check
* \return true if the given mode is supported,
* false otherwise
*/
virtual bool IsModeSupported (WifiMode mode) const = 0;
/**
* \param txMode the transmission mode
* \param ber the probability of bit error rate
* \return the minimum snr which is required to achieve
* the requested ber for the specified transmission mode. (W/W)
*/
virtual double CalculateSnr (WifiMode txMode, double ber) const = 0;
/**
* The WifiPhy::NBssMembershipSelectors() method is used
* (e.g., by a WifiRemoteStationManager) to determine the set of
* transmission/reception modes that this WifiPhy(-derived class)
* can support - a set of WifiMode objects which we call the
* BssMemebershipSelectorSet, and which is stored as WifiPhy::m_bssMembershipSelectorSet.
*
* This was introduced with 11n
*
* \return the memebership selector whose index is specified.
*/
virtual uint32_t GetNBssMembershipSelectors (void) const=0;
/**
* The WifiPhy::BssMembershipSelector() method is used
* (e.g., by a WifiRemoteStationManager) to determine the set of
* transmission/reception modes that this WifiPhy(-derived class)
* can support - a set of WifiMode objects which we call the
* BssMemebershipSelectorSet, and which is stored as WifiPhy::m_bssMembershipSelectorSet.
*
* This was introduced with 11n
*
* \param selector index in array of supported memeberships
* \return the memebership selector whose index is specified.
*/
virtual uint32_t GetBssMembershipSelector (uint32_t selector) const=0;
/**
* The WifiPhy::GetMembershipSelectorModes() method is used
* (e.g., by a WifiRemoteStationManager) to determine the set of
* transmission/reception modes that this WifiPhy(-derived class)
* can support - a set of WifiMode objects which we call the
* BssMemebershipSelectorSet, and which is stored as WifiPhy::m_bssMembershipSelectorSet.
*
* This was introduced with 11n
*
* \param selector index in array of supported memeberships
* \return a WifiModeList that contains the WifiModes associrated with the selected index.
*
* \sa WifiPhy::GetMembershipSelectorModes()
*/
virtual WifiModeList GetMembershipSelectorModes(uint32_t selector)=0;
/**
* The WifiPhy::GetNMcs() method is used
* (e.g., by a WifiRemoteStationManager) to determine the set of
* transmission/reception MCS indexes that this WifiPhy(-derived class)
* can support - a set of Mcs indexes which we call the
* DeviceMcsSet, and which is stored as WifiPhy::m_deviceMcsSet.
*
* This was introduced with 11n
*
* \return the Mcs index whose index is specified.
*/
virtual uint8_t GetNMcs (void) const=0;
/**
* The WifiPhy::GetMcs() method is used
* (e.g., by a WifiRemoteStationManager) to determine the set of
* transmission/reception MCS indexes that this WifiPhy(-derived class)
* can support - a set of Mcs indexes which we call the
* DeviceMcsSet, and which is stored as WifiPhy::m_deviceMcsSet.
*
* This was introduced with 11n
*
* \param mcs index in array of supported Mcs
* \return the Mcs index whose index is specified.
*/
virtual uint8_t GetMcs (uint8_t mcs) const=0;
/**
* For a given WifiMode finds the corresponding MCS value and returns it
* as defined in the IEEE 802.11n standard
*
* \param mode the WifiMode
* \return the MCS number that corresponds to the given WifiMode
*/
virtual uint32_t WifiModeToMcs (WifiMode mode)=0;
/**
* For a given MCS finds the corresponding WifiMode and returns it
* as defined in the IEEE 802.11n standard.
*
* \param mcs the MCS number
* \return the WifiMode that corresponds to the given mcs number
*/
virtual WifiMode McsToWifiMode (uint8_t mcs)=0;
/**
* \brief Set channel number.
*
* Channel center frequency = Channel starting frequency + 5 MHz * (nch - 1)
*
* where Starting channel frequency is standard-dependent, see SetStandard()
* as defined in (Section 18.3.8.4.2 "Channel numbering"; IEEE Std 802.11-2012).
*
* \param id the channel number
*/
virtual void SetChannelNumber (uint16_t id) = 0;
/**
* Return current channel number.
*
* \return the current channel number
*/
virtual uint16_t GetChannelNumber () const = 0;
/**
* Configure the PHY-level parameters for different Wi-Fi standard.
*
* \param standard the Wi-Fi standard
*/
virtual void ConfigureStandard (enum WifiPhyStandard standard) = 0;
/**
* Return the WifiChannel this WifiPhy is connected to.
*
* \return the WifiChannel this WifiPhy is connected to
*/
virtual Ptr<WifiChannel> GetChannel (void) const = 0;
/**
* Return a WifiMode for DSSS at 1Mbps.
*
* \return a WifiMode for DSSS at 1Mbps
*/
static WifiMode GetDsssRate1Mbps ();
/**
* Return a WifiMode for DSSS at 2Mbps.
*
* \return a WifiMode for DSSS at 2Mbps
*/
static WifiMode GetDsssRate2Mbps ();
/**
* Return a WifiMode for DSSS at 5.5Mbps.
*
* \return a WifiMode for DSSS at 5.5Mbps
*/
static WifiMode GetDsssRate5_5Mbps ();
/**
* Return a WifiMode for DSSS at 11Mbps.
*
* \return a WifiMode for DSSS at 11Mbps
*/
static WifiMode GetDsssRate11Mbps ();
/**
* Return a WifiMode for ERP-ODFM at 6Mbps.
*
* \return a WifiMode for ERP-OFDM at 6Mbps
*/
static WifiMode GetErpOfdmRate6Mbps ();
/**
* Return a WifiMode for ERP-ODFM at 9Mbps.
*
* \return a WifiMode for ERP-OFDM at 9Mbps
*/
static WifiMode GetErpOfdmRate9Mbps ();
/**
* Return a WifiMode for ERP-ODFM at 12Mbps.
*
* \return a WifiMode for ERP-OFDM at 12Mbps
*/
static WifiMode GetErpOfdmRate12Mbps ();
/**
* Return a WifiMode for ERP-ODFM at 18Mbps.
*
* \return a WifiMode for ERP-OFDM at 18Mbps
*/
static WifiMode GetErpOfdmRate18Mbps ();
/**
* Return a WifiMode for ERP-ODFM at 24Mbps.
*
* \return a WifiMode for ERP-OFDM at 24Mbps
*/
static WifiMode GetErpOfdmRate24Mbps ();
/**
* Return a WifiMode for ERP-ODFM at 36Mbps.
*
* \return a WifiMode for ERP-OFDM at 36Mbps
*/
static WifiMode GetErpOfdmRate36Mbps ();
/**
* Return a WifiMode for ERP-ODFM at 48Mbps.
*
* \return a WifiMode for ERP-OFDM at 48Mbps
*/
static WifiMode GetErpOfdmRate48Mbps ();
/**
* Return a WifiMode for ERP-ODFM at 54Mbps.
*
* \return a WifiMode for ERP-OFDM at 54Mbps
*/
static WifiMode GetErpOfdmRate54Mbps ();
/**
* Return a WifiMode for ODFM at 6Mbps.
*
* \return a WifiMode for OFDM at 6Mbps
*/
static WifiMode GetOfdmRate6Mbps ();
/**
* Return a WifiMode for ODFM at 9Mbps.
*
* \return a WifiMode for OFDM at 9Mbps
*/
static WifiMode GetOfdmRate9Mbps ();
/**
* Return a WifiMode for ODFM at 12Mbps.
*
* \return a WifiMode for OFDM at 12Mbps
*/
static WifiMode GetOfdmRate12Mbps ();
/**
* Return a WifiMode for ODFM at 18Mbps.
*
* \return a WifiMode for OFDM at 18Mbps
*/
static WifiMode GetOfdmRate18Mbps ();
/**
* Return a WifiMode for ODFM at 24Mbps.
*
* \return a WifiMode for OFDM at 24Mbps
*/
static WifiMode GetOfdmRate24Mbps ();
/**
* Return a WifiMode for ODFM at 36Mbps.
*
* \return a WifiMode for OFDM at 36Mbps
*/
static WifiMode GetOfdmRate36Mbps ();
/**
* Return a WifiMode for ODFM at 48Mbps.
*
* \return a WifiMode for OFDM at 48Mbps
*/
static WifiMode GetOfdmRate48Mbps ();
/**
* Return a WifiMode for ODFM at 54Mbps.
*
* \return a WifiMode for OFDM at 54Mbps
*/
static WifiMode GetOfdmRate54Mbps ();
/**
* Return a WifiMode for ODFM at 3Mbps with 10MHz channel spacing.
*
* \return a WifiMode for OFDM at 3Mbps with 10MHz channel spacing
*/
static WifiMode GetOfdmRate3MbpsBW10MHz ();
/**
* Return a WifiMode for ODFM at 4.5Mbps with 10MHz channel spacing.
*
* \return a WifiMode for OFDM at 4.5Mbps with 10MHz channel spacing
*/
static WifiMode GetOfdmRate4_5MbpsBW10MHz ();
/**
* Return a WifiMode for ODFM at 6Mbps with 10MHz channel spacing.
*
* \return a WifiMode for OFDM at 6Mbps with 10MHz channel spacing
*/
static WifiMode GetOfdmRate6MbpsBW10MHz ();
/**
* Return a WifiMode for ODFM at 9Mbps with 10MHz channel spacing.
*
* \return a WifiMode for OFDM at 9Mbps with 10MHz channel spacing
*/
static WifiMode GetOfdmRate9MbpsBW10MHz ();
/**
* Return a WifiMode for ODFM at 12Mbps with 10MHz channel spacing.
*
* \return a WifiMode for OFDM at 12Mbps with 10MHz channel spacing
*/
static WifiMode GetOfdmRate12MbpsBW10MHz ();
/**
* Return a WifiMode for ODFM at 18Mbps with 10MHz channel spacing.
*
* \return a WifiMode for OFDM at 18Mbps with 10MHz channel spacing
*/
static WifiMode GetOfdmRate18MbpsBW10MHz ();
/**
* Return a WifiMode for ODFM at 24Mbps with 10MHz channel spacing.
*
* \return a WifiMode for OFDM at 24Mbps with 10MHz channel spacing
*/
static WifiMode GetOfdmRate24MbpsBW10MHz ();
/**
* Return a WifiMode for ODFM at 27Mbps with 10MHz channel spacing.
*
* \return a WifiMode for OFDM at 27Mbps with 10MHz channel spacing
*/
static WifiMode GetOfdmRate27MbpsBW10MHz ();
/**
* Return a WifiMode for ODFM at 1.5Mbps with 5MHz channel spacing.
*
* \return a WifiMode for OFDM at 1.5Mbps with 5MHz channel spacing
*/
static WifiMode GetOfdmRate1_5MbpsBW5MHz ();
/**
* Return a WifiMode for ODFM at 2.25Mbps with 5MHz channel spacing.
*
* \return a WifiMode for OFDM at 2.25Mbps with 5MHz channel spacing
*/
static WifiMode GetOfdmRate2_25MbpsBW5MHz ();
/**
* Return a WifiMode for ODFM at 3Mbps with 5MHz channel spacing.
*
* \return a WifiMode for OFDM at 3Mbps with 5MHz channel spacing
*/
static WifiMode GetOfdmRate3MbpsBW5MHz ();
/**
* Return a WifiMode for ODFM at 4.5Mbps with 5MHz channel spacing.
*
* \return a WifiMode for OFDM at 4.5Mbps with 5MHz channel spacing
*/
static WifiMode GetOfdmRate4_5MbpsBW5MHz ();
/**
* Return a WifiMode for ODFM at 6Mbps with 5MHz channel spacing.
*
* \return a WifiMode for OFDM at 6Mbps with 5MHz channel spacing
*/
static WifiMode GetOfdmRate6MbpsBW5MHz ();
/**
* Return a WifiMode for ODFM at 9Mbps with 5MHz channel spacing.
*
* \return a WifiMode for OFDM at 9Mbps with 5MHz channel spacing
*/
static WifiMode GetOfdmRate9MbpsBW5MHz ();
/**
* Return a WifiMode for ODFM at 12Mbps with 5MHz channel spacing.
*
* \return a WifiMode for OFDM at 12Mbps with 5MHz channel spacing
*/
static WifiMode GetOfdmRate12MbpsBW5MHz ();
/**
* Return a WifiMode for ODFM at 13.5Mbps with 5MHz channel spacing.
*
* \return a WifiMode for OFDM at 13.5Mbps with 5MHz channel spacing
*/
static WifiMode GetOfdmRate13_5MbpsBW5MHz ();
/**
* Return a WifiMode for ODFM at 6.5Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 6.5Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate6_5MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 13Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 13Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate13MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 19.5Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 19.5Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate19_5MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 26Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 26Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate26MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 39Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 39Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate39MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 52Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 52Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate52MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 58.5Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 58.5Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate58_5MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 65Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 65Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate65MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 13.5Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 13.5Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate13_5MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 27Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 27Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate27MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 40.5Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 40.5Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate40_5MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 54Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 54Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate54MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 81Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 81Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate81MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 108Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 108Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate108MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 121.5Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 121.5Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate121_5MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 135Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 135Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate135MbpsBW40MHz ();
//Rates for clause 20 with short guard interval
/**
* Return a WifiMode for ODFM at 7.2Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 7.2Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate7_2MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 14.4Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 14.4Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate14_4MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 21.7Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 21.7Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate21_7MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 28.9Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 28.9Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate28_9MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 43.3Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 43.3Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate43_3MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 57.8Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 57.8Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate57_8MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 65Mbps with 20MHz channel spacing.
* The rate supports short guard interval.
*
* \return a WifiMode for OFDM at 65Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate65MbpsBW20MHzShGi ();
/**
* Return a WifiMode for ODFM at 72.2Mbps with 20MHz channel spacing.
*
* \return a WifiMode for OFDM at 72.2Mbps with 20MHz channel spacing
*/
static WifiMode GetOfdmRate72_2MbpsBW20MHz ();
/**
* Return a WifiMode for ODFM at 15Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 15Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate15MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 30Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 30Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate30MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 45Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 45Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate45MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 60Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 60Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate60MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 90Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 90Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate90MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 120Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 120Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate120MbpsBW40MHz ();
/**
* Return a WifiMode for ODFM at 135Mbps with 40MHz channel spacing.
* The rate supports short guard interval.
*
* \return a WifiMode for OFDM at 135Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate135MbpsBW40MHzShGi ();
/**
* Return a WifiMode for ODFM at 150Mbps with 40MHz channel spacing.
*
* \return a WifiMode for OFDM at 150Mbps with 40MHz channel spacing
*/
static WifiMode GetOfdmRate150MbpsBW40MHz ();
/**
* Public method used to fire a PhyTxBegin trace. Implemented for encapsulation
* purposes.
*
* \param packet the packet being transmitted
*/
void NotifyTxBegin (Ptr<const Packet> packet);
/**
* Public method used to fire a PhyTxEnd trace. Implemented for encapsulation
* purposes.
*
* \param packet the packet that was transmitted
*/
void NotifyTxEnd (Ptr<const Packet> packet);
/**
* Public method used to fire a PhyTxDrop trace. Implemented for encapsulation
* purposes.
*
* \param packet the packet that was failed to transmitted
*/
void NotifyTxDrop (Ptr<const Packet> packet);
/**
* Public method used to fire a PhyRxBegin trace. Implemented for encapsulation
* purposes.
*
* \param packet the packet being received
*/
void NotifyRxBegin (Ptr<const Packet> packet);
/**
* Public method used to fire a PhyRxEnd trace. Implemented for encapsulation
* purposes.
*
* \param packet the packet received
*/
void NotifyRxEnd (Ptr<const Packet> packet);
/**
* Public method used to fire a PhyRxDrop trace. Implemented for encapsulation
* purposes.
*
* \param packet the packet that was not successfully received
*/
void NotifyRxDrop (Ptr<const Packet> packet);
/**
*
* Public method used to fire a MonitorSniffer trace for a wifi packet being received. Implemented for encapsulation
* purposes.
*
* \param packet the packet being received
* \param channelFreqMhz the frequency in MHz at which the packet is
* received. Note that in real devices this is normally the
* frequency to which the receiver is tuned, and this can be
* different than the frequency at which the packet was originally
* transmitted. This is because it is possible to have the receiver
* tuned on a given channel and still to be able to receive packets
* on a nearby channel.
* \param channelNumber the channel on which the packet is received
* \param rate the PHY data rate in units of 500kbps (i.e., the same
* units used both for the radiotap and for the prism header)
* \param isShortPreamble true if short preamble is used, false otherwise
* \param signalDbm signal power in dBm
* \param noiseDbm noise power in dBm
*/
void NotifyMonitorSniffRx (Ptr<const Packet> packet, uint16_t channelFreqMhz, uint16_t channelNumber, uint32_t rate, bool isShortPreamble,
double signalDbm, double noiseDbm);
/**
*
* Public method used to fire a MonitorSniffer trace for a wifi packet being transmitted. Implemented for encapsulation
* purposes.
*
* \param packet the packet being transmitted
* \param channelFreqMhz the frequency in MHz at which the packet is
* transmitted.
* \param channelNumber the channel on which the packet is transmitted
* \param rate the PHY data rate in units of 500kbps (i.e., the same
* units used both for the radiotap and for the prism header)
* \param isShortPreamble true if short preamble is used, false otherwise
* \param txPower the transmission power in dBm
*/
void NotifyMonitorSniffTx (Ptr<const Packet> packet, uint16_t channelFreqMhz, uint16_t channelNumber, uint32_t rate, bool isShortPreamble, uint8_t txPower);
/**
* Assign a fixed random variable stream number to the random variables
* used by this model. Return the number of streams (possibly zero) that
* have been assigned.
*
* \param stream first stream index to use
* \return the number of stream indices assigned by this model
*/
virtual int64_t AssignStreams (int64_t stream) = 0;
/**
* \param freq the operating frequency on this node.
*/
virtual void SetFrequency (uint32_t freq)=0;
/**
* \return the operating frequency on this node
*/
virtual uint32_t GetFrequency (void) const=0;
/**
* \param tx the number of transmitters on this node.
*/
virtual void SetNumberOfTransmitAntennas (uint32_t tx)=0;
/**
* \return the number of transmit antenna on this device
*/
virtual uint32_t GetNumberOfTransmitAntennas (void) const=0;
/**
* \param rx the number of recievers on this node.
*/
virtual void SetNumberOfReceiveAntennas (uint32_t rx)=0 ;
/**
* \return the number of recievers on this node.
*/
virtual uint32_t GetNumberOfReceiveAntennas (void) const=0;
/**
* \param guardInterval Enable or disable short guard interval
*/
virtual void SetGuardInterval (bool guardInterval)=0;
/**
* \return true if short guard interval is supported, false otherwise
*/
virtual bool GetGuardInterval (void) const = 0;
/**
* \param ldpc Enable or disable LDPC
*/
virtual void SetLdpc (bool ldpc)=0;
/**
* \return true if LDPC is supported, false otherwise
*/
virtual bool GetLdpc (void) const=0;
/**
* \param stbc Enable or disable STBC is supported
*/
virtual void SetStbc (bool stbc)=0;
/**
* \return true if STBC is supported, false otherwise
*/
virtual bool GetStbc (void) const=0;
/**
* \param greenfield Enable or disable GreenField
*/
virtual void SetGreenfield (bool greenfield)=0;
/**
* \return true if Greenfield is supported, false otherwise
*/
virtual bool GetGreenfield (void) const=0;
/**
* \return true if channel bonding 40 MHz is supported, false otherwise
*/
virtual bool GetChannelBonding (void) const = 0;
/**
* \param channelbonding Enable or disable channel bonding
*/
virtual void SetChannelBonding (bool channelbonding) = 0 ;
private:
/**
* The trace source fired when a packet begins the transmission process on
* the medium.
*
* \see class CallBackTraceSource
*/
TracedCallback<Ptr<const Packet> > m_phyTxBeginTrace;
/**
* The trace source fired when a packet ends the transmission process on
* the medium.
*
* \see class CallBackTraceSource
*/
TracedCallback<Ptr<const Packet> > m_phyTxEndTrace;
/**
* The trace source fired when the phy layer drops a packet as it tries
* to transmit it.
*
* \see class CallBackTraceSource
*/
TracedCallback<Ptr<const Packet> > m_phyTxDropTrace;
/**
* The trace source fired when a packet begins the reception process from
* the medium.
*
* \see class CallBackTraceSource
*/
TracedCallback<Ptr<const Packet> > m_phyRxBeginTrace;
/**
* The trace source fired when a packet ends the reception process from
* the medium.
*
* \see class CallBackTraceSource
*/
TracedCallback<Ptr<const Packet> > m_phyRxEndTrace;
/**
* The trace source fired when the phy layer drops a packet it has received.
*
* \see class CallBackTraceSource
*/
TracedCallback<Ptr<const Packet> > m_phyRxDropTrace;
/**
* A trace source that emulates a wifi device in monitor mode
* sniffing a packet being received.
*
* As a reference with the real world, firing this trace
* corresponds in the madwifi driver to calling the function
* ieee80211_input_monitor()
*
* \see class CallBackTraceSource
*/
TracedCallback<Ptr<const Packet>, uint16_t, uint16_t, uint32_t, bool, double, double> m_phyMonitorSniffRxTrace;
/**
* A trace source that emulates a wifi device in monitor mode
* sniffing a packet being transmitted.
*
* As a reference with the real world, firing this trace
* corresponds in the madwifi driver to calling the function
* ieee80211_input_monitor()
*
* \see class CallBackTraceSource
*/
TracedCallback<Ptr<const Packet>, uint16_t, uint16_t, uint32_t, bool,uint8_t> m_phyMonitorSniffTxTrace;
};
/**
* \param os output stream
* \param state wifi state to stringify
* \return output stream
*/
std::ostream& operator<< (std::ostream& os, enum WifiPhy::State state);
} // namespace ns3
#endif /* WIFI_PHY_H */