jamulus/src/channel.cpp

/******************************************************************************\
 * Copyright (c) 2004-2008
 *
 * Author(s):
 *  Volker Fischer
 *
 ******************************************************************************
 *
 * This program is free software; you can redistribute it and/or modify it under
 * the terms of the GNU General Public License as published by the Free Software
 * Foundation; either version 2 of the License, or (at your option) any later 
 * version.
 *
 * 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
 *
\******************************************************************************/

#include "channel.h"


/******************************************************************************\
* CChannelSet                                                                  *
\******************************************************************************/
CChannelSet::CChannelSet() : bWriteStatusHTMLFile ( false )
{
    // enable all channels
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        vecChannels[i].SetEnable ( true );
    }

    // CODE TAG: MAX_NUM_CHANNELS_TAG
    // make sure we have MAX_NUM_CHANNELS connections!!!
    // send message
    QObject::connect ( &vecChannels[0], SIGNAL ( MessReadyForSending ( CVector<uint8_t> ) ), this, SLOT ( OnSendProtMessCh0 ( CVector<uint8_t> ) ) );
    QObject::connect ( &vecChannels[1], SIGNAL ( MessReadyForSending ( CVector<uint8_t> ) ), this, SLOT ( OnSendProtMessCh1 ( CVector<uint8_t> ) ) );
    QObject::connect ( &vecChannels[2], SIGNAL ( MessReadyForSending ( CVector<uint8_t> ) ), this, SLOT ( OnSendProtMessCh2 ( CVector<uint8_t> ) ) );
    QObject::connect ( &vecChannels[3], SIGNAL ( MessReadyForSending ( CVector<uint8_t> ) ), this, SLOT ( OnSendProtMessCh3 ( CVector<uint8_t> ) ) );
    QObject::connect ( &vecChannels[4], SIGNAL ( MessReadyForSending ( CVector<uint8_t> ) ), this, SLOT ( OnSendProtMessCh4 ( CVector<uint8_t> ) ) );
    QObject::connect ( &vecChannels[5], SIGNAL ( MessReadyForSending ( CVector<uint8_t> ) ), this, SLOT ( OnSendProtMessCh5 ( CVector<uint8_t> ) ) );

    // request jitter buffer size
    QObject::connect ( &vecChannels[0], SIGNAL ( NewConnection() ), this, SLOT ( OnNewConnectionCh0() ) );
    QObject::connect ( &vecChannels[1], SIGNAL ( NewConnection() ), this, SLOT ( OnNewConnectionCh1() ) );
    QObject::connect ( &vecChannels[2], SIGNAL ( NewConnection() ), this, SLOT ( OnNewConnectionCh2() ) );
    QObject::connect ( &vecChannels[3], SIGNAL ( NewConnection() ), this, SLOT ( OnNewConnectionCh3() ) );
    QObject::connect ( &vecChannels[4], SIGNAL ( NewConnection() ), this, SLOT ( OnNewConnectionCh4() ) );
    QObject::connect ( &vecChannels[5], SIGNAL ( NewConnection() ), this, SLOT ( OnNewConnectionCh5() ) );

    // request connected clients list
    QObject::connect ( &vecChannels[0], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh0() ) );
    QObject::connect ( &vecChannels[1], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh1() ) );
    QObject::connect ( &vecChannels[2], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh2() ) );
    QObject::connect ( &vecChannels[3], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh3() ) );
    QObject::connect ( &vecChannels[4], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh4() ) );
    QObject::connect ( &vecChannels[5], SIGNAL ( ReqConnClientsList() ), this, SLOT ( OnReqConnClientsListCh5() ) );

    // channel name has changed
    QObject::connect ( &vecChannels[0], SIGNAL ( NameHasChanged() ), this, SLOT ( OnNameHasChangedCh0() ) );
    QObject::connect ( &vecChannels[1], SIGNAL ( NameHasChanged() ), this, SLOT ( OnNameHasChangedCh1() ) );
    QObject::connect ( &vecChannels[2], SIGNAL ( NameHasChanged() ), this, SLOT ( OnNameHasChangedCh2() ) );
    QObject::connect ( &vecChannels[3], SIGNAL ( NameHasChanged() ), this, SLOT ( OnNameHasChangedCh3() ) );
    QObject::connect ( &vecChannels[4], SIGNAL ( NameHasChanged() ), this, SLOT ( OnNameHasChangedCh4() ) );
    QObject::connect ( &vecChannels[5], SIGNAL ( NameHasChanged() ), this, SLOT ( OnNameHasChangedCh5() ) );

    // chat text received
    QObject::connect ( &vecChannels[0], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh0 ( QString ) ) );
    QObject::connect ( &vecChannels[1], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh1 ( QString ) ) );
    QObject::connect ( &vecChannels[2], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh2 ( QString ) ) );
    QObject::connect ( &vecChannels[3], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh3 ( QString ) ) );
    QObject::connect ( &vecChannels[4], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh4 ( QString ) ) );
    QObject::connect ( &vecChannels[5], SIGNAL ( ChatTextReceived ( QString ) ), this, SLOT ( OnChatTextReceivedCh5 ( QString ) ) );

    // ping message received
    QObject::connect ( &vecChannels[0], SIGNAL ( PingReceived ( QTime ) ), this, SLOT ( OnPingReceivedCh0 ( QTime ) ) );
    QObject::connect ( &vecChannels[1], SIGNAL ( PingReceived ( QTime ) ), this, SLOT ( OnPingReceivedCh1 ( QTime ) ) );
    QObject::connect ( &vecChannels[2], SIGNAL ( PingReceived ( QTime ) ), this, SLOT ( OnPingReceivedCh2 ( QTime ) ) );
    QObject::connect ( &vecChannels[3], SIGNAL ( PingReceived ( QTime ) ), this, SLOT ( OnPingReceivedCh3 ( QTime ) ) );
    QObject::connect ( &vecChannels[4], SIGNAL ( PingReceived ( QTime ) ), this, SLOT ( OnPingReceivedCh4 ( QTime ) ) );
    QObject::connect ( &vecChannels[5], SIGNAL ( PingReceived ( QTime ) ), this, SLOT ( OnPingReceivedCh5 ( QTime ) ) );
}

CVector<CChannelShortInfo> CChannelSet::CreateChannelList()
{
    CVector<CChannelShortInfo> vecChanInfo ( 0 );

    // look for free channels
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        if ( vecChannels[i].IsConnected() )
        {
            // append channel ID, IP address and channel name to storing vectors
            vecChanInfo.Add ( CChannelShortInfo (
                i, // ID
                vecChannels[i].GetAddress().InetAddr.toIPv4Address(), // IP address
                vecChannels[i].GetName() /* name */ ) );
        }
    }

    return vecChanInfo;
}

void CChannelSet::CreateAndSendChanListForAllConChannels()
{
    // create channel list
    CVector<CChannelShortInfo> vecChanInfo ( CChannelSet::CreateChannelList() );

    // now send connected channels list to all connected clients
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        if ( vecChannels[i].IsConnected() )
        {
            // send message
            vecChannels[i].CreateConClientListMes ( vecChanInfo );
        }
    }

    // create status HTML file if enabled
    if ( bWriteStatusHTMLFile )
    {
        WriteHTMLChannelList();
    }
}

void CChannelSet::CreateAndSendChanListForAllExceptThisChan ( const int iCurChanID )
{
    // create channel list
    CVector<CChannelShortInfo> vecChanInfo ( CChannelSet::CreateChannelList() );

    // now send connected channels list to all connected clients except for
    // the channel with the ID "iCurChanID"
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        if ( ( vecChannels[i].IsConnected() ) && ( i != iCurChanID ) )
        {
            // send message
            vecChannels[i].CreateConClientListMes ( vecChanInfo );
        }
    }

    // create status HTML file if enabled
    if ( bWriteStatusHTMLFile )
    {
        WriteHTMLChannelList();
    }
}

void CChannelSet::CreateAndSendChanListForThisChan ( const int iCurChanID )
{
    // create channel list
    CVector<CChannelShortInfo> vecChanInfo ( CChannelSet::CreateChannelList() );

    // now send connected channels list to the channel with the ID "iCurChanID"
    vecChannels[iCurChanID].CreateConClientListMes ( vecChanInfo );
}

void CChannelSet::CreateAndSendChatTextForAllConChannels ( const int iCurChanID,
                                                           const QString& strChatText )
{
    // create message which is sent to all connected clients -------------------
    // get client name, if name is empty, use IP address instead
    QString ChanName = vecChannels[iCurChanID].GetName();
    if ( ChanName.isEmpty() )
    {
        // convert IP address to text and show it
        const QHostAddress addrTest ( vecChannels[iCurChanID].GetAddress().InetAddr );
        ChanName = addrTest.toString();
    }

    // add name of the client at the beginning of the message text
    const QString strActualMessageText =
        "<" + ChanName + "> " + strChatText;


    // send chat text to all connected clients ---------------------------------
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        if ( vecChannels[i].IsConnected() )
        {
            // send message
            vecChannels[i].CreateChatTextMes ( strActualMessageText );
        }
    }
}

int CChannelSet::GetFreeChan()
{
    // look for a free channel
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        if ( !vecChannels[i].IsConnected() )
        {
            return i;
        }
    }

    /* no free channel found, return invalid ID */
    return INVALID_CHANNEL_ID;
}

int CChannelSet::CheckAddr ( const CHostAddress& Addr )
{
    CHostAddress InetAddr;

    /* Check for all possible channels if IP is already in use */
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        if ( vecChannels[i].GetAddress ( InetAddr ) )
        {
            /* IP found, return channel number */
            if ( InetAddr == Addr )
            {
                return i;
            }
        }
    }

    /* IP not found, return invalid ID */
    return INVALID_CHANNEL_ID;
}

bool CChannelSet::PutData ( const CVector<unsigned char>& vecbyRecBuf,
                            const int                     iNumBytesRead,
                            const CHostAddress&           HostAdr )
{
    bool bRet            = false;
    bool bCreateChanList = false;

    Mutex.lock();
    {
        bool bChanOK = true;

        // get channel ID ------------------------------------------------------
        // check address
        int iCurChanID = CheckAddr ( HostAdr );

        if ( iCurChanID == INVALID_CHANNEL_ID )
        {
            // a new client is calling, look for free channel
            iCurChanID = GetFreeChan();

            if ( iCurChanID != INVALID_CHANNEL_ID )
            {
                // initialize current channel by storing the calling host
                // address
                vecChannels[iCurChanID].SetAddress ( HostAdr );

                // reset the channel gains of current channel, at the same
                // time reset gains of this channel ID for all other channels
                for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
                {
                    vecChannels[iCurChanID].SetGain ( i, (double) 1.0 );

                    // other channels (we do not distinguish the case if
                    // i == iCurChanID for simplicity)
                    vecChannels[i].SetGain ( iCurChanID, (double) 1.0 );
                }

                // a new client connected to the server, set flag to create and
                // send all clients the updated channel list, we cannot create
                // the message here since the received data has to be put to the
                // channel first so that this channel is marked as connected
                bCreateChanList = true;
            }
            else
            {
                // no free channel available
                bChanOK = false;

                // create and send "server full" message

// TODO problem: if channel is not officially connected, we cannot send messages

            }
        }


        // put received data in jitter buffer ----------------------------------
        if ( bChanOK )
        {
            // put packet in socket buffer
            switch ( vecChannels[iCurChanID].PutData ( vecbyRecBuf, iNumBytesRead ) )
            {
            case PS_AUDIO_OK:
                PostWinMessage ( MS_JIT_BUF_PUT, MUL_COL_LED_GREEN, iCurChanID );
                bRet = true; // in case we have an audio packet, return true
                break;

            case PS_AUDIO_ERR:
                PostWinMessage ( MS_JIT_BUF_PUT, MUL_COL_LED_RED, iCurChanID );
                bRet = true; // in case we have an audio packet, return true
                break;

            case PS_PROT_ERR:
                PostWinMessage ( MS_JIT_BUF_PUT, MUL_COL_LED_YELLOW, iCurChanID );
                break;
            }
        }


        // after data is put in channel buffer, create channel list message if
        // requested
        if ( bCreateChanList )
        {
            // connected clients list is only send for new connected clients after
            // request, only the already connected clients get the list
            // automatically, because they don't know when new clients connect
            CreateAndSendChanListForAllExceptThisChan ( iCurChanID );
        }
    }
    Mutex.unlock();

    return bRet;
}

void CChannelSet::GetBlockAllConC ( CVector<int>&              vecChanID,
                                    CVector<CVector<double> >& vecvecdData,
                                    CVector<CVector<double> >& vecvecdGains )
{
    int  i, j;
    bool bCreateChanList = false;

    // init temporal data vector and clear input buffers
    CVector<double> vecdData ( MIN_BLOCK_SIZE_SAMPLES );

    vecChanID.Init    ( 0 );
    vecvecdData.Init  ( 0 );
    vecvecdGains.Init ( 0 );

    // make put and get calls thread safe. Do not forget to unlock mutex
    // afterwards!
    Mutex.lock();
    {
        // check all possible channels
        for ( i = 0; i < MAX_NUM_CHANNELS; i++ )
        {
            // read out all input buffers to decrease timeout counter on
            // disconnected channels
            const EGetDataStat eGetStat = vecChannels[i].GetData ( vecdData );

            // if channel was just disconnected, set flag that connected
            // client list is sent to all other clients
            if ( eGetStat == GS_CHAN_NOW_DISCONNECTED )
            {
                bCreateChanList = true;
            }

            if ( vecChannels[i].IsConnected() )
            {
                // add ID and data
                vecChanID.Add ( i );

                const int iOldSize = vecvecdData.Size();
                vecvecdData.Enlarge ( 1 );
                vecvecdData[iOldSize].Init ( vecdData.Size() );
                vecvecdData[iOldSize] = vecdData;

                // send message for get status (for GUI)
                if ( eGetStat == GS_BUFFER_OK )
                {
                    PostWinMessage ( MS_JIT_BUF_GET, MUL_COL_LED_GREEN, i );
                }
                else
                {
                    PostWinMessage ( MS_JIT_BUF_GET, MUL_COL_LED_RED, i );
                }
            }
        }

        // now that we know the IDs of the connected clients, get gains
        const int iNumCurConnChan = vecChanID.Size();
        vecvecdGains.Init ( iNumCurConnChan );

        for ( i = 0; i < iNumCurConnChan; i++ )
        {
            vecvecdGains[i].Init ( iNumCurConnChan );

            for ( j = 0; j < iNumCurConnChan; j++ )
            {
                // The second index of "vecvecdGains" does not represent
                // the channel ID! Therefore we have to use "vecChanID" to
                // query the IDs of the currently connected channels
                vecvecdGains[i][j] =
                    vecChannels[ vecChanID[i] ].GetGain( vecChanID[j] );
            }
        }

        // create channel list message if requested
        if ( bCreateChanList )
        {
            // update channel list for all currently connected clients
            CreateAndSendChanListForAllConChannels();
        }
    }
    Mutex.unlock(); // release mutex
}

void CChannelSet::GetConCliParam ( CVector<CHostAddress>& vecHostAddresses,
                                   CVector<QString>&      vecsName,
                                   CVector<int>&          veciJitBufSize,
                                   CVector<int>&          veciNetwOutBlSiFact,
                                   CVector<int>&          veciNetwInBlSiFact )
{
    CHostAddress InetAddr;

    // init return values
    vecHostAddresses.Init    ( MAX_NUM_CHANNELS );
    vecsName.Init            ( MAX_NUM_CHANNELS );
    veciJitBufSize.Init      ( MAX_NUM_CHANNELS );
    veciNetwOutBlSiFact.Init ( MAX_NUM_CHANNELS );
    veciNetwInBlSiFact.Init  ( MAX_NUM_CHANNELS );

    // check all possible channels
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        if ( vecChannels[i].GetAddress ( InetAddr ) )
        {
            // get requested data
            vecHostAddresses[i]    = InetAddr;
            vecsName[i]            = vecChannels[i].GetName();
            veciJitBufSize[i]      = vecChannels[i].GetSockBufSize();
            veciNetwOutBlSiFact[i] = vecChannels[i].GetNetwBufSizeFactOut();
            veciNetwInBlSiFact[i]  = vecChannels[i].GetNetwBufSizeFactIn();
        }
    }
}

void CChannelSet::StartStatusHTMLFileWriting ( const QString& strNewFileName,
                                               const QString& strNewServerNameWithPort )
{
    // set important parameters
    strServerHTMLFileListName = strNewFileName;
    strServerNameWithPort     = strNewServerNameWithPort;

    // set flag
    bWriteStatusHTMLFile = true;

    // write initial file
    WriteHTMLChannelList();
}

void CChannelSet::WriteHTMLChannelList()
{
    // create channel list
    CVector<CChannelShortInfo> vecChanInfo ( CChannelSet::CreateChannelList() );

    // prepare file and stream
    QFile serverFileListFile ( strServerHTMLFileListName );
    if ( !serverFileListFile.open ( QIODevice::WriteOnly | QIODevice::Text ) )
    {
        return;
    }

    QTextStream streamFileOut ( &serverFileListFile );
    streamFileOut << strServerNameWithPort << endl << "<ul>" << endl;

    // get the number of connected clients
    int iNumConnClients = 0;
    for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
    {
        if ( vecChannels[i].IsConnected() )
        {
            iNumConnClients++;
        }
    }

    // depending on number of connected clients write list
    if ( iNumConnClients == 0 )
    {
        // no clients are connected -> empty server
        streamFileOut << "  No client connected" << endl;
    }
    else
    {
        // write entry for each connected client
        for ( int i = 0; i < MAX_NUM_CHANNELS; i++ )
        {
            if ( vecChannels[i].IsConnected() )
            {
                QString strCurChanName = vecChannels[i].GetName();

                // if text is empty, show IP address instead
                if ( strCurChanName.isEmpty() )
                {
                    // convert IP address to text and show it
                    const QHostAddress addrTest ( vecChannels[i].GetAddress().InetAddr );
                    strCurChanName = addrTest.toString();

                    // remove last digits
                    strCurChanName = strCurChanName.section ( ".", 0, 2 ) + ".x";
                }

                streamFileOut << "  <li>" << strCurChanName << "</li>" << endl;
            }
        }
    }

    // finish list
    streamFileOut << "</ul>" << endl;
}



/******************************************************************************\
* CChannel                                                                     *
\******************************************************************************/
CChannel::CChannel() : sName ( "" ),
    vecdGains ( MAX_NUM_CHANNELS, (double) 1.0 ),
    // it is important to give the following parameters meaningful initial
    // values because they are dependend on each other
    iCurSockBufSize ( DEF_NET_BUF_SIZE_NUM_BL ),
    iCurNetwInBlSiFact ( DEF_NET_BLOCK_SIZE_FACTOR )
{
    // query all possible network in buffer sizes for determining if an
    // audio packet was received
    for ( int i = 0; i < MAX_NET_BLOCK_SIZE_FACTOR; i++ )
    {
        // network block size factor must start from 1 -> ( i + 1 )
        vecNetwInBufSizes[i] = AudioCompressionIn.Init (
            ( i + 1 ) * MIN_BLOCK_SIZE_SAMPLES,
            CAudioCompression::CT_IMAADPCM );
    }

    // init the socket buffer
    SetSockBufSize ( DEF_NET_BUF_SIZE_NUM_BL );

    // set initial input and output block size factors
    SetNetwInBlSiFact     ( DEF_NET_BLOCK_SIZE_FACTOR );
    SetNetwBufSizeFactOut ( DEF_NET_BLOCK_SIZE_FACTOR );

    // init time-out for the buffer with zero -> no connection
    iConTimeOut = 0;


    // connections -------------------------------------------------------------
    QObject::connect ( &Protocol,
        SIGNAL ( MessReadyForSending ( CVector<uint8_t> ) ),
        this, SLOT ( OnSendProtMessage ( CVector<uint8_t> ) ) );

    QObject::connect ( &Protocol,
        SIGNAL ( ChangeJittBufSize ( int ) ),
        this, SLOT ( OnJittBufSizeChange ( int ) ) );

    QObject::connect ( &Protocol,
        SIGNAL ( ReqJittBufSize() ),
        SIGNAL ( ReqJittBufSize() ) );

    QObject::connect ( &Protocol,
        SIGNAL ( ReqConnClientsList() ),
        SIGNAL ( ReqConnClientsList() ) );

    QObject::connect ( &Protocol,
        SIGNAL ( ConClientListMesReceived ( CVector<CChannelShortInfo> ) ),
        SIGNAL ( ConClientListMesReceived ( CVector<CChannelShortInfo> ) ) );

    QObject::connect ( &Protocol,
        SIGNAL ( ChangeNetwBlSiFact ( int ) ),
        this, SLOT ( OnNetwBlSiFactChange ( int ) ) );

    QObject::connect( &Protocol, SIGNAL ( ChangeChanGain ( int, double ) ),
        this, SLOT ( OnChangeChanGain ( int, double ) ) );

    QObject::connect( &Protocol, SIGNAL ( ChangeChanName ( QString ) ),
        this, SLOT ( OnChangeChanName ( QString ) ) );

    QObject::connect( &Protocol, SIGNAL ( ChatTextReceived ( QString ) ),
        this, SIGNAL ( ChatTextReceived ( QString ) ) );

    QObject::connect( &Protocol, SIGNAL ( PingReceived ( QTime ) ),
        this, SIGNAL ( PingReceived ( QTime ) ) );
}

void CChannel::SetEnable ( const bool bNEnStat )
{
    // set internal parameter
    bIsEnabled = bNEnStat;

    // if channel is not enabled, reset time out count
    if ( !bNEnStat )
    {
        iConTimeOut = 0;
    }
}

void CChannel::SetNetwInBlSiFact ( const int iNewBlockSizeFactor )
{
    // store new value
    iCurNetwInBlSiFact = iNewBlockSizeFactor;

    // init audio compression unit
    AudioCompressionIn.Init (
        iNewBlockSizeFactor * MIN_BLOCK_SIZE_SAMPLES,
        CAudioCompression::CT_IMAADPCM );

    // initial value for connection time out counter
    iConTimeOutStartVal = ( CON_TIME_OUT_SEC_MAX * 1000 ) /
        ( iNewBlockSizeFactor * MIN_BLOCK_DURATION_MS );

    // socket buffer must be adjusted
    SetSockBufSize ( GetSockBufSize() );
}

void CChannel::SetNetwBufSizeFactOut ( const int iNewNetwBlSiFactOut )
{
    // store new value
    iCurNetwOutBlSiFact = iNewNetwBlSiFactOut;

    // init audio compression unit
    iAudComprSizeOut = AudioCompressionOut.Init (
        iNewNetwBlSiFactOut * MIN_BLOCK_SIZE_SAMPLES,
        CAudioCompression::CT_IMAADPCM );

    // init conversion buffer
    ConvBuf.Init ( iNewNetwBlSiFactOut * MIN_BLOCK_SIZE_SAMPLES );
}

void CChannel::OnSendProtMessage ( CVector<uint8_t> vecMessage )
{
    // only send messages if we are connected, otherwise delete complete queue
    if ( IsConnected() )
    {
        // emit message to actually send the data
        emit MessReadyForSending ( vecMessage );
    }
    else
    {
        // delete send message queue
        Protocol.DeleteSendMessQueue();
    }
}

void CChannel::SetSockBufSize ( const int iNumBlocks )
{
    // this opperation must be done with mutex
    Mutex.lock();
    {
        iCurSockBufSize = iNumBlocks;

        // the idea of setting the jitter buffer is as follows:
        // The network block size is a multiple of the internal minimal
        // block size. Therefore, the minimum jitter buffer size must be
        // so that it can take one network buffer -> NET_BLOCK_SIZE_FACTOR.
        // The actual jitter compensation are then the additional blocks of
        // the internal block size, which is set with SetSockBufSize
        SockBuf.Init ( MIN_BLOCK_SIZE_SAMPLES,
            iNumBlocks + iCurNetwInBlSiFact );
    }
    Mutex.unlock();
}

void CChannel::OnNetwBlSiFactChange ( int iNewNetwBlSiFact )
{
// TEST
//qDebug ( "new network block size factor: %d", iNewNetwBlSiFact );

    SetNetwBufSizeFactOut ( iNewNetwBlSiFact );
}

void CChannel::OnJittBufSizeChange ( int iNewJitBufSize )
{
// TEST
//qDebug ( "new jitter buffer size: %d", iNewJitBufSize );

    SetSockBufSize ( iNewJitBufSize );
}

void CChannel::OnChangeChanGain ( int iChanID, double dNewGain )
{
    Q_ASSERT ( ( iChanID >= 0 ) && ( iChanID < MAX_NUM_CHANNELS ) );

    // set value
    vecdGains[iChanID] = dNewGain;
}

void CChannel::OnChangeChanName ( QString strName )
{
    // apply value (if different from previous name)
    if ( sName.compare ( strName ) )
    {
        sName = strName;

        // fire message that name has changed
        emit NameHasChanged();
    }
}

bool CChannel::GetAddress(CHostAddress& RetAddr)
{
    if ( IsConnected() )
    {
        RetAddr = InetAddr;
        return true;
    }
    else
    {
        RetAddr = CHostAddress();
        return false;
    }
}

EPutDataStat CChannel::PutData ( const CVector<unsigned char>& vecbyData,
                                 int iNumBytes )
{
    EPutDataStat eRet = PS_GEN_ERROR;

    // init flags
    bool bIsProtocolPacket = false;
    bool bIsAudioPacket    = false;
    bool bNewConnection    = false;

    if ( bIsEnabled )
    {
        // first check if this is protocol data
        // only use protocol data if channel is connected
        if ( IsConnected() )
        {
            // parse the message assuming this is a protocol message
            if ( Protocol.ParseMessage ( vecbyData, iNumBytes ) )
            {
                // set status flags
                eRet              = PS_PROT_OK;
                bIsProtocolPacket = true;

                // create message for protocol status
                emit ProtocolStatus ( true );
            }
        }

        // only try to parse audio if it was not a protocol packet
        if ( !bIsProtocolPacket )
        {
            // check if this is an audio packet by checking all possible lengths
            for ( int i = 0; i < MAX_NET_BLOCK_SIZE_FACTOR; i++ )
            {
                // check for low/high quality audio packets and set flags
                if ( iNumBytes == vecNetwInBufSizes[i] )
                {
                    bIsAudioPacket = true;

                    // check if we are correctly initialized
                    const int iNewNetwInBlSiFact = i + 1;
                    if ( iNewNetwInBlSiFact != iCurNetwInBlSiFact )
                    {
                        // re-initialize to new value
                        SetNetwInBlSiFact ( iNewNetwInBlSiFact );
                    }
                }
            }

            // only process if packet has correct size
            if ( bIsAudioPacket )
            {
                Mutex.lock();
                {
                    // decompress audio
                    CVector<short> vecsDecomprAudio ( AudioCompressionIn.Decode ( vecbyData ) );

                    // do resampling to compensate for sample rate offsets in the
                    // different sound cards of the clients
/*
for (int i = 0; i < BLOCK_SIZE_SAMPLES; i++)
    vecdResInData[i] = (double) vecsData[i];

const int iInSize = ResampleObj.Resample(vecdResInData, vecdResOutData,
    (double) SYSTEM_SAMPLE_RATE / (SYSTEM_SAMPLE_RATE - dSamRateOffset));
*/

vecdResOutData.Init ( iCurNetwInBlSiFact * MIN_BLOCK_SIZE_SAMPLES );
for ( int i = 0; i < iCurNetwInBlSiFact * MIN_BLOCK_SIZE_SAMPLES; i++ ) {
    vecdResOutData[i] = (double) vecsDecomprAudio[i];
}

                    if ( SockBuf.Put ( vecdResOutData ) )
                    {
                        eRet = PS_AUDIO_OK;
                    }
                    else
                    {
                        eRet = PS_AUDIO_ERR;
                    }

                    // check if channel was not connected, this is a new connection
                    bNewConnection = !IsConnected();

                    // reset time-out counter
                    iConTimeOut = iConTimeOutStartVal;
                }
                Mutex.unlock();
            }
            else
            {
                // the protocol parsing failed and this was no audio block,
                // we treat this as protocol error (unkown packet)
                eRet = PS_PROT_ERR;

                // create message for protocol status
                emit ProtocolStatus ( false );
            }
        }

        // inform other objects that new connection was established
        if ( bNewConnection )
        {
            // log new connection
            CHostAddress address ( GetAddress() );
            qDebug() << CLogTimeDate::toString() + "Connected with IP " + address.InetAddr.toString();

            emit NewConnection();
        }
    }

    return eRet;
}

EGetDataStat CChannel::GetData ( CVector<double>& vecdData )
{
    // init with ok flag
    EGetDataStat eGetStatus = GS_BUFFER_OK;

    Mutex.lock(); // get mutex lock
    {
        if ( !SockBuf.Get ( vecdData ) )
        {
            // decrease time-out counter
            if ( iConTimeOut > 0 )
            {
                iConTimeOut--;

                if ( iConTimeOut == 0 )
                {
                    // channel is just disconnected
                    eGetStatus = GS_CHAN_NOW_DISCONNECTED;
                }
                else
                {
                    // channel is not yet disconnected but no data in buffer
                    eGetStatus = GS_BUFFER_UNDERRUN;
                }
            }
            else
            {
                // channel is disconnected
                eGetStatus = GS_CHAN_NOT_CONNECTED;
            }
        }
    }
    Mutex.unlock(); // get mutex unlock

    return eGetStatus;
}

CVector<unsigned char> CChannel::PrepSendPacket ( const CVector<short>& vecsNPacket )
{
    // if the block is not ready we have to initialize with zero length to
    // tell the following network send routine that nothing should be sent
    CVector<unsigned char> vecbySendBuf ( 0 );

    // use conversion buffer to convert sound card block size in network
    // block size
    if ( ConvBuf.Put ( vecsNPacket ) )
    {
        // a packet is ready, compress audio
        vecbySendBuf.Init ( iAudComprSizeOut );
        vecbySendBuf = AudioCompressionOut.Encode ( ConvBuf.Get() );
    }

    return vecbySendBuf;
}