/usr/include/ns3.26/ns3/lte-ue-cphy-sap.h is in libns3-dev 3.26+dfsg-1.
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/*
* Copyright (c) 2011, 2012 Centre Tecnologic de Telecomunicacions de Catalunya (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>,
* Marco Miozzo <mmiozzo@cttc.es>
*/
#ifndef LTE_UE_CPHY_SAP_H
#define LTE_UE_CPHY_SAP_H
#include <stdint.h>
#include <ns3/ptr.h>
#include <ns3/lte-rrc-sap.h>
namespace ns3 {
class LteEnbNetDevice;
/**
* Service Access Point (SAP) offered by the UE PHY to the UE RRC for control purposes
*
* This is the PHY SAP Provider, i.e., the part of the SAP that contains
* the PHY methods called by the MAC
*/
class LteUeCphySapProvider
{
public:
/**
* destructor
*/
virtual ~LteUeCphySapProvider ();
/**
* reset the PHY
*
*/
virtual void Reset () = 0;
/**
* \brief Tell the PHY entity to listen to PSS from surrounding cells and
* measure the RSRP.
* \param dlEarfcn the downlink carrier frequency (EARFCN) to listen to
*
* This function will instruct this PHY instance to listen to the DL channel
* over the bandwidth of 6 RB at the frequency associated with the given
* EARFCN.
*
* After this, it will start receiving Primary Synchronization Signal (PSS)
* and periodically returning measurement reports to RRC via
* LteUeCphySapUser::ReportUeMeasurements function.
*/
virtual void StartCellSearch (uint16_t dlEarfcn) = 0;
/**
* \brief Tell the PHY entity to synchronize with a given eNodeB over the
* currently active EARFCN for communication purposes.
* \param cellId the ID of the eNodeB to synchronize with
*
* By synchronizing, the PHY will start receiving various information
* transmitted by the eNodeB. For instance, when receiving system information,
* the message will be relayed to RRC via
* LteUeCphySapUser::RecvMasterInformationBlock and
* LteUeCphySapUser::RecvSystemInformationBlockType1 functions.
*
* Initially, the PHY will be configured to listen to 6 RBs of BCH.
* LteUeCphySapProvider::SetDlBandwidth can be called afterwards to increase
* the bandwidth.
*/
virtual void SynchronizeWithEnb (uint16_t cellId) = 0;
/**
* \brief Tell the PHY entity to align to the given EARFCN and synchronize
* with a given eNodeB for communication purposes.
* \param cellId the ID of the eNodeB to synchronize with
* \param dlEarfcn the downlink carrier frequency (EARFCN)
*
* By synchronizing, the PHY will start receiving various information
* transmitted by the eNodeB. For instance, when receiving system information,
* the message will be relayed to RRC via
* LteUeCphySapUser::RecvMasterInformationBlock and
* LteUeCphySapUser::RecvSystemInformationBlockType1 functions.
*
* Initially, the PHY will be configured to listen to 6 RBs of BCH.
* LteUeCphySapProvider::SetDlBandwidth can be called afterwards to increase
* the bandwidth.
*/
virtual void SynchronizeWithEnb (uint16_t cellId, uint16_t dlEarfcn) = 0;
/**
* \param dlBandwidth the DL bandwidth in number of PRBs
*/
virtual void SetDlBandwidth (uint8_t dlBandwidth) = 0;
/**
* \brief Configure uplink (normally done after reception of SIB2)
*
* \param ulEarfcn the uplink carrier frequency (EARFCN)
* \param ulBandwidth the UL bandwidth in number of PRBs
*/
virtual void ConfigureUplink (uint16_t ulEarfcn, uint8_t ulBandwidth) = 0;
/**
* \brief Configure referenceSignalPower
*
* \param referenceSignalPower received from eNB in SIB2
*/
virtual void ConfigureReferenceSignalPower (int8_t referenceSignalPower) = 0;
/**
*
* \param rnti the cell-specific UE identifier
*/
virtual void SetRnti (uint16_t rnti) = 0;
/**
* \param txMode the transmissionMode of the user
*/
virtual void SetTransmissionMode (uint8_t txMode) = 0;
/**
* \param srcCi the SRS configuration index
*/
virtual void SetSrsConfigurationIndex (uint16_t srcCi) = 0;
/**
* \param pa the P_A value
*/
virtual void SetPa (double pa) = 0;
};
/**
* Service Access Point (SAP) offered by the UE PHY to the UE RRC for control purposes
*
* This is the CPHY SAP User, i.e., the part of the SAP that contains the RRC
* methods called by the PHY
*/
class LteUeCphySapUser
{
public:
/**
* destructor
*/
virtual ~LteUeCphySapUser ();
/**
* Parameters of the ReportUeMeasurements primitive: RSRP [dBm] and RSRQ [dB]
* See section 5.1.1 and 5.1.3 of TS 36.214
*/
struct UeMeasurementsElement
{
uint16_t m_cellId;
double m_rsrp; // [dBm]
double m_rsrq; // [dB]
};
struct UeMeasurementsParameters
{
std::vector <struct UeMeasurementsElement> m_ueMeasurementsList;
};
/**
* \brief Relay an MIB message from the PHY entity to the RRC layer.
* \param cellId the ID of the eNodeB where the message originates from
* \param mib the Master Information Block message
*
* This function is typically called after PHY receives an MIB message over
* the BCH.
*/
virtual void RecvMasterInformationBlock (uint16_t cellId,
LteRrcSap::MasterInformationBlock mib) = 0;
/**
* \brief Relay an SIB1 message from the PHY entity to the RRC layer.
* \param cellId the ID of the eNodeB where the message originates from
* \param sib1 the System Information Block Type 1 message
*
* This function is typically called after PHY receives an SIB1 message over
* the BCH.
*/
virtual void RecvSystemInformationBlockType1 (uint16_t cellId,
LteRrcSap::SystemInformationBlockType1 sib1) = 0;
/**
* \brief Send a report of RSRP and RSRQ values perceived from PSS by the PHY
* entity (after applying layer-1 filtering) to the RRC layer.
* \param params the structure containing a vector of cellId, RSRP and RSRQ
*/
virtual void ReportUeMeasurements (UeMeasurementsParameters params) = 0;
};
/**
* Template for the implementation of the LteUeCphySapProvider as a member
* of an owner class of type C to which all methods are forwarded
*
*/
template <class C>
class MemberLteUeCphySapProvider : public LteUeCphySapProvider
{
public:
MemberLteUeCphySapProvider (C* owner);
// inherited from LteUeCphySapProvider
virtual void Reset ();
virtual void StartCellSearch (uint16_t dlEarfcn);
virtual void SynchronizeWithEnb (uint16_t cellId);
virtual void SynchronizeWithEnb (uint16_t cellId, uint16_t dlEarfcn);
virtual void SetDlBandwidth (uint8_t dlBandwidth);
virtual void ConfigureUplink (uint16_t ulEarfcn, uint8_t ulBandwidth);
virtual void ConfigureReferenceSignalPower (int8_t referenceSignalPower);
virtual void SetRnti (uint16_t rnti);
virtual void SetTransmissionMode (uint8_t txMode);
virtual void SetSrsConfigurationIndex (uint16_t srcCi);
virtual void SetPa (double pa);
private:
MemberLteUeCphySapProvider ();
C* m_owner;
};
template <class C>
MemberLteUeCphySapProvider<C>::MemberLteUeCphySapProvider (C* owner)
: m_owner (owner)
{
}
template <class C>
MemberLteUeCphySapProvider<C>::MemberLteUeCphySapProvider ()
{
}
template <class C>
void
MemberLteUeCphySapProvider<C>::Reset ()
{
m_owner->DoReset ();
}
template <class C>
void
MemberLteUeCphySapProvider<C>::StartCellSearch (uint16_t dlEarfcn)
{
m_owner->DoStartCellSearch (dlEarfcn);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::SynchronizeWithEnb (uint16_t cellId)
{
m_owner->DoSynchronizeWithEnb (cellId);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::SynchronizeWithEnb (uint16_t cellId, uint16_t dlEarfcn)
{
m_owner->DoSynchronizeWithEnb (cellId, dlEarfcn);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::SetDlBandwidth (uint8_t dlBandwidth)
{
m_owner->DoSetDlBandwidth (dlBandwidth);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::ConfigureUplink (uint16_t ulEarfcn, uint8_t ulBandwidth)
{
m_owner->DoConfigureUplink (ulEarfcn, ulBandwidth);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::ConfigureReferenceSignalPower (int8_t referenceSignalPower)
{
m_owner->DoConfigureReferenceSignalPower (referenceSignalPower);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::SetRnti (uint16_t rnti)
{
m_owner->DoSetRnti (rnti);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::SetTransmissionMode (uint8_t txMode)
{
m_owner->DoSetTransmissionMode (txMode);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::SetSrsConfigurationIndex (uint16_t srcCi)
{
m_owner->DoSetSrsConfigurationIndex (srcCi);
}
template <class C>
void
MemberLteUeCphySapProvider<C>::SetPa (double pa)
{
m_owner->DoSetPa (pa);
}
/**
* Template for the implementation of the LteUeCphySapUser as a member
* of an owner class of type C to which all methods are forwarded
*
*/
template <class C>
class MemberLteUeCphySapUser : public LteUeCphySapUser
{
public:
MemberLteUeCphySapUser (C* owner);
// methods inherited from LteUeCphySapUser go here
virtual void RecvMasterInformationBlock (uint16_t cellId,
LteRrcSap::MasterInformationBlock mib);
virtual void RecvSystemInformationBlockType1 (uint16_t cellId,
LteRrcSap::SystemInformationBlockType1 sib1);
virtual void ReportUeMeasurements (LteUeCphySapUser::UeMeasurementsParameters params);
private:
MemberLteUeCphySapUser ();
C* m_owner;
};
template <class C>
MemberLteUeCphySapUser<C>::MemberLteUeCphySapUser (C* owner)
: m_owner (owner)
{
}
template <class C>
MemberLteUeCphySapUser<C>::MemberLteUeCphySapUser ()
{
}
template <class C>
void
MemberLteUeCphySapUser<C>::RecvMasterInformationBlock (uint16_t cellId,
LteRrcSap::MasterInformationBlock mib)
{
m_owner->DoRecvMasterInformationBlock (cellId, mib);
}
template <class C>
void
MemberLteUeCphySapUser<C>::RecvSystemInformationBlockType1 (uint16_t cellId,
LteRrcSap::SystemInformationBlockType1 sib1)
{
m_owner->DoRecvSystemInformationBlockType1 (cellId, sib1);
}
template <class C>
void
MemberLteUeCphySapUser<C>::ReportUeMeasurements (LteUeCphySapUser::UeMeasurementsParameters params)
{
m_owner->DoReportUeMeasurements (params);
}
} // namespace ns3
#endif // LTE_UE_CPHY_SAP_H
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