mmfenh/advancedaudiocontroller/audiocontrollerpluginsvariant/mp3audioplaycontroller/Src/MP3AudioPlayControllerHwDecoder.cpp
/*
* Copyright (c) 2006 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: The functions in this module implements the specific behavior
* for the advanced audio converter class for configuration of
* hardware accelerated codec.
*
*/
// INCLUDE FILES
#include "MP3AudioPlayControllerDecoder.h"
#include "DebugMacros.h"
#include <MmfPanicCodes.h>
#include <Mmfcodec.h>
const TUint KRawMp3MaxFrameSize = 1441;
const TUint KSizeOfInBuffer = 2*KRawMp3MaxFrameSize;
const TInt KRawMp3FrameHeaderSize = 5;
class TAudioFrameInfo
{
public:
TInt iMode; // encoding mode
TInt iBitRate; // bitrate (bit/s)
TInt iSamplingRate; // sampling frequency (Hz)
TInt iChannels; // number of channels
TInt iFrameSize; // encoded size (bytes)
TInt iFrameSamples; // samples per frame
TInt iSamplingRateOut; // sampling frequency after conversion (Hz)
TInt iChannelsOut; // number of audio channels after conversion (1 or 2)
TInt iFrameSamplesOut; // decoded size after conversion (samples per frame)
TInt iPadding; // padding flag (TRUE or FALSE, TRUE if p slot exists)
TInt iId; // id of algorithm (1 MPEG-1, 0 MPEG-2)
};
// Bit rates in bits/sec supported by MPEG2, MPEG1 and MPEG2.5 respectively
const TInt16 cBitRateTable[3][16] =
{
{-1,8,16,24,32,40,48,56,64,80,96,112,128,144,160,0},
{-1,32,40,48,56,64,80,96,112,128,160,192,224,256,320,0},
{-1,8,16,24,32,40,48,56,64,80,96,112,128,144,160,0},
};
// Sampling frequencies supported by MPEG2, MPEG1 and MPEG2.5 respectively
const TUint16 cSamplingFrequencyTable[3][4] =
{
{22050,24000,16000,0},
{44100,48000,32000,0},
{11025,12000,8000,0},
};
// ============================ MEMBER FUNCTIONS ===============================
// -----------------------------------------------------------------------------
// C++ default constructor can NOT contain any code, that
// might leave.
// -----------------------------------------------------------------------------
//
CMP3AudioPlayControllerDecoder::CMP3AudioPlayControllerDecoder()
: CAdvancedAudioDecoder(CActive::EPriorityStandard)
{
DP0(_L("CMP3AudioPlayControllerDecoder::CMP3AudioPlayControllerDecoder - Hardware Accelerated"));
iMaxFrameSize = KRawMp3MaxFrameSize;
iSizeOfInBuffer = KSizeOfInBuffer;
}
// -----------------------------------------------------------------------------
// CMP3AudioPlayControllerDecoder::ConstructL
// Symbian 2nd phase constructor can leave.
// -----------------------------------------------------------------------------
//
void CMP3AudioPlayControllerDecoder::ConstructL()
{
DP1(_L("CMP3AudioPlayControllerDecoder::ConstructL"), this);
iFrameTable = CFrameTable::NewL();
RenderEnable();
UnMarkPlayEnd();
Enable();
CActiveScheduler::Add(this);
}
// -----------------------------------------------------------------------------
// C++ default constructor can NOT contain any code, that
// might leave.
// -----------------------------------------------------------------------------
//
CMP3AudioPlayControllerDecoder* CMP3AudioPlayControllerDecoder::NewL()
{
DP0(_L("CMP3AudioPlayControllerDecoder::NewL"));
CMP3AudioPlayControllerDecoder* self = new(ELeave) CMP3AudioPlayControllerDecoder();
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
// Destructor
CMP3AudioPlayControllerDecoder::~CMP3AudioPlayControllerDecoder()
{
DP0(_L("CMP3AudioPlayControllerDecoder::~CMP3AudioPlayControllerDecoder"));
delete iFrameTable;
}
TInt CMP3AudioPlayControllerDecoder::CodecConfig(RArray<TInt>& aConfigData)
{
TInt status = KErrNone;
TInt sampFreq = ((RArray<TInt>&) aConfigData)[5];
TInt samplesPerFrame = ((RArray<TInt>&) aConfigData)[8];
iFrameTable->InitFrameTable(sampFreq, samplesPerFrame);
return status;
}
// -----------------------------------------------------------------------------
// CMP3AudioPlayControllerDecoder::ResetL
// Resets configuration data and configures the codec.
// -----------------------------------------------------------------------------
//
void CMP3AudioPlayControllerDecoder::ResetL()
{
DP0(_L ("CMP3AudioPlayControllerDecoder::Reset - Enter"));
delete[] iOutBuffer;
delete[] iInBuffer;
iInBuffer = NULL;
iOutBuffer = NULL;
iInBufferCount = 0;
iOutBufferCount = 0;
iOutBufferPtr = NULL;
iOutFrameLength = KRawMp3MaxFrameSize; // since data is not decoded
iInBuffer = new (ELeave) TUint8[KSizeOfInBuffer];
iOutBuffer = new (ELeave) TUint8[iOutFrameLength];
iOutBufferPtr = iOutBuffer;
iAccLen = 0;
iEnabled = ETrue;
DP0(_L ("CMP3AudioPlayControllerDecoder::Reset - Exit"));
}
TCodecProcessResult CMP3AudioPlayControllerDecoder::ProcessL(CMMFBuffer& aSrc, CMMFBuffer& aDst)
{
DP0(_L ("CMP3AudioPlayControllerDecoder::ProcessL"));
return CAdvancedAudioDecoder::ProcessHwL(aSrc, aDst);
}
TInt CMP3AudioPlayControllerDecoder::FrameLength(const TUint8* aBuf, TInt aBufLen, TInt& aFrameLength)
{
TInt stat = KErrNone;
TAudioFrameInfo info;
TInt len = FrameInfo(aBuf, aBufLen, info);
if (len > 0)
{
aFrameLength = len;
}
else
{
stat = KErrUnknown;
}
return stat;
}
// -----------------------------------------------------------------------------
// CMP3AudioPlayControllerDecoder::FrameInfo
// -----------------------------------------------------------------------------
//
TInt CMP3AudioPlayControllerDecoder::FrameInfo(
const TUint8* aBuf,
TInt aBufLen,
TAudioFrameInfo& aInfo)
{
TInt length = 0;
TUint temp;
TUint lTempVal;
if (aBufLen >= KRawMp3FrameHeaderSize)
{
// Extract header fields to aInfo and check their bit syntax
// (including the sync word!). If the syntax is not OK the length
// is set to zero.
temp = 0;
temp = aBuf[0] << 24;
temp |= (aBuf[1] << 16);
temp |= (aBuf[2] << 8);
temp |= aBuf[3];
if (((temp >> 21) & 0x7FF) != 0x7FF)
{
return length;
}
lTempVal = (temp >> 19) & 0x03;
switch (lTempVal)
{
case 0:
aInfo.iId = 2; // MPEG2.5
aInfo.iFrameSamples = 576;
break;
case 1:
return length;
case 2:
aInfo.iId = 0; // MPEG 2
aInfo.iFrameSamples = 576;
break;
case 3:
aInfo.iId = 1; // MPEG 1
aInfo.iFrameSamples = 1152;
break;
}
lTempVal = (temp >> 17) & 0x03;
if (lTempVal != 1)
{
return length;
}
lTempVal = (temp >> 12) & 0x0F;
aInfo.iBitRate = cBitRateTable[aInfo.iId][lTempVal]*1000;
if (aInfo.iBitRate == 0)
{
return length;
}
lTempVal = (temp >> 10) & 0x03;
if (lTempVal == 3)
{
return length;
}
else
{
aInfo.iSamplingRate = cSamplingFrequencyTable[aInfo.iId][lTempVal];
}
aInfo.iPadding = (temp >> 9) & 0x01;
lTempVal = (temp >> 6) & 0x03;
aInfo.iMode = lTempVal;
if (lTempVal == 3)
{
aInfo.iChannels = 1;
}
else
{
aInfo.iChannels = 2;
}
aInfo.iSamplingRateOut = aInfo.iSamplingRate;
aInfo.iChannelsOut = 2; /* always set to stereo output */
aInfo.iFrameSamplesOut = aInfo.iFrameSamples;
if (aInfo.iBitRate == -1)
{
// For free mode operation
length = KRawMp3MaxFrameSize;
}
if (aInfo.iSamplingRate > 0 && aInfo.iBitRate > 0)
{
length = (144*aInfo.iBitRate)/aInfo.iSamplingRate;
if (aInfo.iId != 1)
{
length >>= 1; /*for MPEG2 and MPEG2.5 */
}
if (aInfo.iPadding)
{
length++;
}
}
aInfo.iFrameSize = length;
// iChannelsOut = aInfo.iChannelsOut;
}
return length;
}
// -----------------------------------------------------------------------------
// CMP3AudioPlayControllerDecoder::SeekSync
// -----------------------------------------------------------------------------
TInt CMP3AudioPlayControllerDecoder::SeekSync(TUint8* aBuf, TInt aBufLen)
{
const TInt KMaxFrames = 3; // number of frames to check
const TInt KNotFound = aBufLen; // sync not found position
TAudioFrameInfo frameInfo; // frame parameters
TInt i = 0;
TInt syncPos = KNotFound;
TInt maxSeek = KMaxFrames;
const TUint8* endPtr = aBuf+aBufLen;
// Seek a valid frame candidate byte by byte until a valid frame
// is found or all bytes have been checked.
while (aBuf < endPtr && syncPos == KNotFound)
{
TInt seekCount = 0;
const TUint8* framePtr = aBuf;
TInt frameBufLen = aBufLen;
syncPos = i;
// Check the validity of this frame candidate and the nearest next
// frames. If they are not OK, syncPos will be set to KNotFound.
while (framePtr < endPtr && syncPos != KNotFound && seekCount < maxSeek)
{
TInt length = FrameInfo(framePtr, frameBufLen, frameInfo);
if (length == 0)
{
syncPos = KNotFound;
}
if ((length > 0) && (frameInfo.iBitRate < 0))
{
maxSeek = 1; // free formatcase
}
framePtr += length;
frameBufLen -= length;
seekCount++;
// consider SYNC not found if we reach end of buffer before finding 3 SYNC frames
if ((framePtr >= endPtr) && (seekCount < maxSeek))
{
syncPos = KNotFound;
aBuf += (aBufLen-1); // force an exit from while loop
}
}
aBuf++; aBufLen--; i++;
}
return syncPos;
}
// -----------------------------------------------------------------------------
// CMP3AudioPlayControllerDecoder::IsHwAccelerated
// Always return true when no soft codec is used.
// -----------------------------------------------------------------------------
//
TBool CMP3AudioPlayControllerDecoder::IsHwAccelerated()
{
return ETrue;
}
TInt CMP3AudioPlayControllerDecoder::CodecCmd(TCodecCmd /*aCmd*/)
{
return KErrNotSupported;
}
// End of file