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/*
* Copyright (c) 2009 CTTC
*
* 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: Nicola Baldo <nbaldo@cttc.es>
* Giuseppe Piro <g.piro@poliba.it>
* Modified by: Marco Miozzo <mmiozzo@cttc.es> (introduce physical error model)
*/
#ifndef LTE_SPECTRUM_PHY_H
#define LTE_SPECTRUM_PHY_H
#include <ns3/event-id.h>
#include <ns3/spectrum-value.h>
#include <ns3/mobility-model.h>
#include <ns3/packet.h>
#include <ns3/nstime.h>
#include <ns3/net-device.h>
#include <ns3/spectrum-phy.h>
#include <ns3/spectrum-channel.h>
#include <ns3/spectrum-interference.h>
#include <ns3/data-rate.h>
#include <ns3/generic-phy.h>
#include <ns3/packet-burst.h>
#include <ns3/lte-interference.h>
#include "ns3/random-variable-stream.h"
#include <map>
#include <ns3/ff-mac-common.h>
#include <ns3/lte-harq-phy.h>
#include <ns3/lte-common.h>
namespace ns3 {
struct TbId_t
{
uint16_t m_rnti;
uint8_t m_layer;
public:
TbId_t ();
TbId_t (const uint16_t a, const uint8_t b);
friend bool operator == (const TbId_t &a, const TbId_t &b);
friend bool operator < (const TbId_t &a, const TbId_t &b);
};
struct tbInfo_t
{
uint8_t ndi;
uint16_t size;
uint8_t mcs;
std::vector<int> rbBitmap;
uint8_t harqProcessId;
uint8_t rv;
double mi;
bool downlink;
bool corrupt;
bool harqFeedbackSent;
};
typedef std::map<TbId_t, tbInfo_t> expectedTbs_t;
class LteNetDevice;
class AntennaModel;
class LteControlMessage;
struct LteSpectrumSignalParametersDataFrame;
struct LteSpectrumSignalParametersDlCtrlFrame;
struct LteSpectrumSignalParametersUlSrsFrame;
/**
* this method is invoked by the LteSpectrumPhy to notify the PHY that the
* transmission of a given packet has been completed.
*
* @param packet the Packet whose TX has been completed.
*/
typedef Callback< void, Ptr<const Packet> > LtePhyTxEndCallback;
/**
* This method is used by the LteSpectrumPhy to notify the PHY that a
* previously started RX attempt has terminated without success
*/
typedef Callback< void > LtePhyRxDataEndErrorCallback;
/**
* This method is used by the LteSpectrumPhy to notify the PHY that a
* previously started RX attempt has been successfully completed.
*
* @param packet the received Packet
*/
typedef Callback< void, Ptr<Packet> > LtePhyRxDataEndOkCallback;
/**
* This method is used by the LteSpectrumPhy to notify the PHY that a
* previously started RX of a control frame attempt has been
* successfully completed.
*
* @param packet the received Packet
*/
typedef Callback< void, std::list<Ptr<LteControlMessage> > > LtePhyRxCtrlEndOkCallback;
/**
* This method is used by the LteSpectrumPhy to notify the PHY that a
* previously started RX of a control frame attempt has terminated
* without success.
*/
typedef Callback< void > LtePhyRxCtrlEndErrorCallback;
/**
* This method is used by the LteSpectrumPhy to notify the PHY about
* the status of a certain DL HARQ process
*/
typedef Callback< void, DlInfoListElement_s > LtePhyDlHarqFeedbackCallback;
/**
* This method is used by the LteSpectrumPhy to notify the PHY about
* the status of a certain UL HARQ process
*/
typedef Callback< void, UlInfoListElement_s > LtePhyUlHarqFeedbackCallback;
/**
* \ingroup lte
*
* The LteSpectrumPhy models the physical layer of LTE
*
* It supports a single antenna model instance which is
* used for both transmission and reception.
*/
class LteSpectrumPhy : public SpectrumPhy
{
public:
LteSpectrumPhy ();
virtual ~LteSpectrumPhy ();
/**
* PHY states
*/
enum State
{
IDLE, TX, RX_DATA, RX_CTRL
};
// inherited from Object
static TypeId GetTypeId (void);
virtual void DoDispose ();
// inherited from SpectrumPhy
void SetChannel (Ptr<SpectrumChannel> c);
void SetMobility (Ptr<MobilityModel> m);
void SetDevice (Ptr<NetDevice> d);
Ptr<MobilityModel> GetMobility ();
Ptr<NetDevice> GetDevice ();
Ptr<const SpectrumModel> GetRxSpectrumModel () const;
Ptr<AntennaModel> GetRxAntenna ();
void StartRx (Ptr<SpectrumSignalParameters> params);
void StartRxData (Ptr<LteSpectrumSignalParametersDataFrame> params);
void StartRxCtrl (Ptr<SpectrumSignalParameters> params);
void SetHarqPhyModule (Ptr<LteHarqPhy> harq);
/**
* set the Power Spectral Density of outgoing signals in W/Hz.
*
* @param txPsd
*/
void SetTxPowerSpectralDensity (Ptr<SpectrumValue> txPsd);
/**
* \brief set the noise power spectral density
* @param noisePsd the Noise Power Spectral Density in power units
* (Watt, Pascal...) per Hz.
*/
void SetNoisePowerSpectralDensity (Ptr<const SpectrumValue> noisePsd);
/**
* reset the internal state
*
*/
void Reset ();
/**
* set the AntennaModel to be used
*
* \param a the Antenna Model
*/
void SetAntenna (Ptr<AntennaModel> a);
/**
* Start a transmission of data frame in DL and UL
*
*
* @param pb the burst of packets to be transmitted in PDSCH/PUSCH
* @param ctrlMsgList the list of LteControlMessage to send
* @param duration the duration of the data frame
*
* @return true if an error occurred and the transmission was not
* started, false otherwise.
*/
bool StartTxDataFrame (Ptr<PacketBurst> pb, std::list<Ptr<LteControlMessage> > ctrlMsgList, Time duration);
/**
* Start a transmission of control frame in DL
*
*
* @param dlDci the burst of DL-DCIs to be transmitted
* @param ulDci the burst of UL-DCIs to be transmitted
*
* @return true if an error occurred and the transmission was not
* started, false otherwise.
*/
bool StartTxDlCtrlFrame (std::list<Ptr<LteControlMessage> > ctrlMsgList);
/**
* Start a transmission of control frame in UL
*
*
* @param pb the burst of control messages to be transmitted
*
* @return true if an error occurred and the transmission was not
* started, false otherwise.
*/
bool StartTxUlSrsFrame ();
/**
* set the callback for the end of a TX, as part of the
* interconnections betweenthe PHY and the MAC
*
* @param c the callback
*/
void SetLtePhyTxEndCallback (LtePhyTxEndCallback c);
/**
* set the callback for the end of a RX in error, as part of the
* interconnections betweenthe PHY and the MAC
*
* @param c the callback
*/
void SetLtePhyRxDataEndErrorCallback (LtePhyRxDataEndErrorCallback c);
/**
* set the callback for the successful end of a RX, as part of the
* interconnections betweenthe PHY and the MAC
*
* @param c the callback
*/
void SetLtePhyRxDataEndOkCallback (LtePhyRxDataEndOkCallback c);
/**
* set the callback for the successful end of a RX ctrl frame, as part
* of the interconnections betweenthe LteSpectrumPhy and the PHY
*
* @param c the callback
*/
void SetLtePhyRxCtrlEndOkCallback (LtePhyRxCtrlEndOkCallback c);
/**
* set the callback for the erroneous end of a RX ctrl frame, as part
* of the interconnections betweenthe LteSpectrumPhy and the PHY
*
* @param c the callback
*/
void SetLtePhyRxCtrlEndErrorCallback (LtePhyRxCtrlEndErrorCallback c);
/**
* set the callback for the DL HARQ feedback as part of the
* interconnections betweenthe LteSpectrumPhy and the PHY
*
* @param c the callback
*/
void SetLtePhyDlHarqFeedbackCallback (LtePhyDlHarqFeedbackCallback c);
/**
* set the callback for the UL HARQ feedback as part of the
* interconnections betweenthe LteSpectrumPhy and the PHY
*
* @param c the callback
*/
void SetLtePhyUlHarqFeedbackCallback (LtePhyUlHarqFeedbackCallback c);
/**
* \brief Set the state of the phy layer
* \param newState the state
*/
void SetState (State newState);
/**
*
*
* \param cellId the Cell Identifier
*/
void SetCellId (uint16_t cellId);
/**
*
*
* \param p the new LteSinrChunkProcessor to be added to the RS power
* \processing chain
*/
void AddRsPowerChunkProcessor (Ptr<LteSinrChunkProcessor> p);
/**
*
*
* \param p the new LteSinrChunkProcessor to be added to the data processing chain
*/
void AddDataSinrChunkProcessor (Ptr<LteSinrChunkProcessor> p);
/**
* LteSinrChunkProcessor devoted to evaluate intefrerence + noise power
* in data frame
*
* \param p the new LteSinrChunkProcessor to be added to the data processing chain
*/
void AddInterferenceChunkProcessor (Ptr<LteSinrChunkProcessor> p);
/**
*
*
* \param p the new LteSinrChunkProcessor to be added to the ctrl processing chain
*/
void AddCtrlSinrChunkProcessor (Ptr<LteSinrChunkProcessor> p);
/**
*
*
* \param rnti the rnti of the source of the TB
* \param ndi new data indicator flag
* \param size the size of the TB
* \param mcs the MCS of the TB
* \param map the map of RB(s) used
* \param layer the layer (in case of MIMO tx)
* \param harqId the id of the HARQ process (valid only for DL)
* \param downlink true when the TB is for DL
*/
void AddExpectedTb (uint16_t rnti, uint8_t ndi, uint16_t size, uint8_t mcs, std::vector<int> map, uint8_t layer, uint8_t harqId, uint8_t rv, bool downlink);
/**
*
*
* \param sinr vector of sinr perceived per each RB
*/
void UpdateSinrPerceived (const SpectrumValue& sinr);
/**
*
*
* \param txMode UE transmission mode (SISO, MIMO tx diversity, ...)
*/
void SetTransmissionMode (uint8_t txMode);
/**
*
* \return the previously set channel
*/
Ptr<SpectrumChannel> GetChannel ();
friend class LteUePhy;
/**
* 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
*/
int64_t AssignStreams (int64_t stream);
private:
void ChangeState (State newState);
void EndTx ();
void EndRxData ();
void EndRxDlCtrl ();
void EndRxUlSrs ();
void SetTxModeGain (uint8_t txMode, double gain);
Ptr<MobilityModel> m_mobility;
Ptr<AntennaModel> m_antenna;
Ptr<NetDevice> m_device;
Ptr<SpectrumChannel> m_channel;
Ptr<const SpectrumModel> m_rxSpectrumModel;
Ptr<SpectrumValue> m_txPsd;
Ptr<PacketBurst> m_txPacketBurst;
std::list<Ptr<PacketBurst> > m_rxPacketBurstList;
std::list<Ptr<LteControlMessage> > m_txControlMessageList;
std::list<Ptr<LteControlMessage> > m_rxControlMessageList;
State m_state;
Time m_firstRxStart;
Time m_firstRxDuration;
TracedCallback<Ptr<const PacketBurst> > m_phyTxStartTrace;
TracedCallback<Ptr<const PacketBurst> > m_phyTxEndTrace;
TracedCallback<Ptr<const PacketBurst> > m_phyRxStartTrace;
TracedCallback<Ptr<const Packet> > m_phyRxEndOkTrace;
TracedCallback<Ptr<const Packet> > m_phyRxEndErrorTrace;
LtePhyTxEndCallback m_ltePhyTxEndCallback;
LtePhyRxDataEndErrorCallback m_ltePhyRxDataEndErrorCallback;
LtePhyRxDataEndOkCallback m_ltePhyRxDataEndOkCallback;
LtePhyRxCtrlEndOkCallback m_ltePhyRxCtrlEndOkCallback;
LtePhyRxCtrlEndErrorCallback m_ltePhyRxCtrlEndErrorCallback;
Ptr<LteInterference> m_interferenceData;
Ptr<LteInterference> m_interferenceCtrl;
uint16_t m_cellId;
expectedTbs_t m_expectedTbs;
SpectrumValue m_sinrPerceived;
/// Provides uniform random variables.
Ptr<UniformRandomVariable> m_random;
bool m_dataErrorModelEnabled; // when true (default) the phy error model is enabled
bool m_ctrlErrorModelEnabled; // when true (default) the phy error model is enabled for DL ctrl frame
uint8_t m_transmissionMode; // for UEs: store the transmission mode
uint8_t m_layersNum;
std::vector <double> m_txModeGain; // duplicate value of LteUePhy
Ptr<LteHarqPhy> m_harqPhyModule;
LtePhyDlHarqFeedbackCallback m_ltePhyDlHarqFeedbackCallback;
LtePhyUlHarqFeedbackCallback m_ltePhyUlHarqFeedbackCallback;
/**
* Trace information regarding PHY stats from DL Rx perspective
* PhyReceptionStatParameters (see lte-common.h)
*/
TracedCallback<PhyReceptionStatParameters> m_dlPhyReception;
/**
* Trace information regarding PHY stats from UL Rx perspective
* PhyReceptionStatParameters (see lte-common.h)
*/
TracedCallback<PhyReceptionStatParameters> m_ulPhyReception;
EventId m_endTxEvent;
EventId m_endRxDataEvent;
EventId m_endRxDlCtrlEvent;
EventId m_endRxUlSrsEvent;
};
}
#endif /* LTE_SPECTRUM_PHY_H */
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