/* * Implements WAVE/AU/AIFF Parser. * * hidenori@a2.ctktv.ne.jp */ #include "config.h" #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "winuser.h" #include "mmsystem.h" #include "mmreg.h" #include "winerror.h" #include "strmif.h" #include "control.h" #include "vfwmsgs.h" #include "uuids.h" #include "debugtools.h" DEFAULT_DEBUG_CHANNEL(quartz); #include "quartz_private.h" #include "audioutl.h" #include "parser.h" static const WCHAR QUARTZ_WaveParser_Name[] = { 'W','a','v','e',' ','P','a','r','s','e','r',0 }; static const WCHAR QUARTZ_WaveParserInPin_Name[] = { 'I','n',0 }; static const WCHAR QUARTZ_WaveParserOutPin_Name[] = { 'O','u','t',0 }; /****************************************************************************/ /* S_OK = found, S_FALSE = not found */ HRESULT RIFF_GetNext( CParserImpl* pImpl, LONGLONG llOfs, DWORD* pdwCode, DWORD* pdwLength ) { BYTE bTemp[8]; HRESULT hr; hr = IAsyncReader_SyncRead( pImpl->m_pReader, llOfs, 8, bTemp ); if ( hr == S_OK ) { *pdwCode = mmioFOURCC(bTemp[0],bTemp[1],bTemp[2],bTemp[3]); *pdwLength = PARSER_LE_UINT32(&bTemp[4]); } else { *pdwCode = 0; *pdwLength = 0; } return hr; } /* S_OK = found, S_FALSE = not found */ HRESULT RIFF_SearchChunk( CParserImpl* pImpl, DWORD dwSearchLengthMax, LONGLONG llOfs, DWORD dwChunk, LONGLONG* pllOfs, DWORD* pdwChunkLength ) { HRESULT hr; DWORD dwCurCode; DWORD dwCurLen; LONGLONG llCurLen; while ( 1 ) { hr = RIFF_GetNext( pImpl, llOfs, &dwCurCode, &dwCurLen ); if ( hr != S_OK ) break; TRACE("%c%c%c%c len %lu\n", (int)(dwCurCode>> 0)&0xff, (int)(dwCurCode>> 8)&0xff, (int)(dwCurCode>>16)&0xff, (int)(dwCurCode>>24)&0xff, (unsigned long)dwCurLen); if ( dwChunk == dwCurCode ) break; llCurLen = 8 + (LONGLONG)((dwCurLen+1)&(~1)); llOfs += llCurLen; if ( (LONGLONG)dwSearchLengthMax <= llCurLen ) return S_FALSE; if ( dwSearchLengthMax != (DWORD)0xffffffff ) dwSearchLengthMax -= (DWORD)llCurLen; } *pllOfs = llOfs + 8; *pdwChunkLength = dwCurLen; return hr; } /* S_OK = found, S_FALSE = not found */ HRESULT RIFF_SearchList( CParserImpl* pImpl, DWORD dwSearchLengthMax, LONGLONG llOfs, DWORD dwListChunk, LONGLONG* pllOfs, DWORD* pdwChunkLength ) { HRESULT hr; DWORD dwCurLen; LONGLONG llCurLen; BYTE bTemp[4]; while ( 1 ) { hr = RIFF_SearchChunk( pImpl, dwSearchLengthMax, llOfs, PARSER_LIST, &llOfs, &dwCurLen ); if ( hr != S_OK ) break; hr = IAsyncReader_SyncRead( pImpl->m_pReader, llOfs, 4, bTemp ); if ( hr != S_OK ) break; if ( mmioFOURCC(bTemp[0],bTemp[1],bTemp[2],bTemp[3]) == dwListChunk ) break; llCurLen = (LONGLONG)((dwCurLen+1)&(~1)); llOfs += llCurLen; if ( (LONGLONG)dwSearchLengthMax <= (llCurLen+8) ) return S_FALSE; if ( dwSearchLengthMax != (DWORD)0xffffffff ) dwSearchLengthMax -= (DWORD)(llCurLen+8); } if ( dwCurLen < 12 ) return E_FAIL; *pllOfs = llOfs+4; *pdwChunkLength = dwCurLen-4; return hr; } /**************************************************************************** * * CWavParseImpl */ typedef enum WavParseFmtType { WaveParse_Native, WaveParse_Signed8, WaveParse_Signed16BE, WaveParse_Unsigned16LE, WaveParse_Unsigned16BE, } WavParseFmtType; typedef struct CWavParseImpl { DWORD cbFmt; WAVEFORMATEX* pFmt; DWORD dwBlockSize; LONGLONG llDataStart; LONGLONG llBytesTotal; LONGLONG llBytesProcessed; WavParseFmtType iFmtType; } CWavParseImpl; static HRESULT CWavParseImpl_InitWAV( CParserImpl* pImpl, CWavParseImpl* This ) { HRESULT hr; LONGLONG llOfs; DWORD dwChunkLength; hr = RIFF_SearchChunk( pImpl, (DWORD)0xffffffff, PARSER_RIFF_OfsFirst, PARSER_fmt, &llOfs, &dwChunkLength ); if ( FAILED(hr) ) return hr; if ( hr != S_OK || ( dwChunkLength < (sizeof(WAVEFORMATEX)-2) ) ) return E_FAIL; This->cbFmt = dwChunkLength; if ( dwChunkLength < sizeof(WAVEFORMATEX) ) This->cbFmt = sizeof(WAVEFORMATEX); This->pFmt = (WAVEFORMATEX*)QUARTZ_AllocMem( dwChunkLength ); if ( This->pFmt == NULL ) return E_OUTOFMEMORY; ZeroMemory( This->pFmt, This->cbFmt ); hr = IAsyncReader_SyncRead( pImpl->m_pReader, llOfs, dwChunkLength, (BYTE*)This->pFmt ); if ( hr != S_OK ) { if ( SUCCEEDED(hr) ) hr = E_FAIL; return hr; } hr = RIFF_SearchChunk( pImpl, (DWORD)0xffffffff, PARSER_RIFF_OfsFirst, PARSER_data, &llOfs, &dwChunkLength ); if ( FAILED(hr) ) return hr; if ( hr != S_OK || dwChunkLength == 0 ) return E_FAIL; This->llDataStart = llOfs; This->llBytesTotal = (LONGLONG)dwChunkLength; return NOERROR; } static HRESULT CWavParseImpl_InitAU( CParserImpl* pImpl, CWavParseImpl* This ) { BYTE au_hdr[24]; DWORD dataofs; DWORD datalen; DWORD datafmt; DWORD datarate; DWORD datachannels; HRESULT hr; WAVEFORMATEX wfx; hr = IAsyncReader_SyncRead( pImpl->m_pReader, 0, 24, au_hdr ); if ( FAILED(hr) ) return hr; dataofs = PARSER_BE_UINT32(&au_hdr[4]); datalen = PARSER_BE_UINT32(&au_hdr[8]); datafmt = PARSER_BE_UINT32(&au_hdr[12]); datarate = PARSER_BE_UINT32(&au_hdr[16]); datachannels = PARSER_BE_UINT32(&au_hdr[20]); if ( dataofs < 24U || datalen == 0U ) return E_FAIL; if ( datachannels != 1 && datachannels != 2 ) return E_FAIL; ZeroMemory( &wfx, sizeof(WAVEFORMATEX) ); wfx.nChannels = datachannels; wfx.nSamplesPerSec = datarate; switch ( datafmt ) { case 1: wfx.wFormatTag = WAVE_FORMAT_MULAW; wfx.nBlockAlign = datachannels; wfx.wBitsPerSample = 8; break; case 2: wfx.wFormatTag = WAVE_FORMAT_PCM; wfx.nBlockAlign = datachannels; wfx.wBitsPerSample = 8; This->iFmtType = WaveParse_Signed8; break; case 3: wfx.wFormatTag = WAVE_FORMAT_PCM; wfx.nBlockAlign = datachannels; wfx.wBitsPerSample = 16; This->iFmtType = WaveParse_Signed16BE; break; default: FIXME("audio/basic - unknown format %lu\n", datafmt ); return E_FAIL; } wfx.nAvgBytesPerSec = (datarate * datachannels * (DWORD)wfx.wBitsPerSample) >> 3; This->cbFmt = sizeof(WAVEFORMATEX); This->pFmt = (WAVEFORMATEX*)QUARTZ_AllocMem( sizeof(WAVEFORMATEX) ); if ( This->pFmt == NULL ) return E_OUTOFMEMORY; memcpy( This->pFmt, &wfx, sizeof(WAVEFORMATEX) ); This->llDataStart = dataofs; This->llBytesTotal = datalen; return NOERROR; } static HRESULT CWavParseImpl_InitAIFF( CParserImpl* pImpl, CWavParseImpl* This ) { FIXME( "AIFF is not supported now.\n" ); return E_FAIL; } static HRESULT CWavParseImpl_InitParser( CParserImpl* pImpl, ULONG* pcStreams ) { CWavParseImpl* This = NULL; HRESULT hr; BYTE header[12]; TRACE("(%p,%p)\n",pImpl,pcStreams); if ( pImpl->m_pReader == NULL ) return E_UNEXPECTED; This = (CWavParseImpl*)QUARTZ_AllocMem( sizeof(CWavParseImpl) ); if ( This == NULL ) return E_OUTOFMEMORY; pImpl->m_pUserData = This; /* construct */ This->cbFmt = 0; This->pFmt = NULL; This->dwBlockSize = 0; This->llDataStart = 0; This->llBytesTotal = 0; This->llBytesProcessed = 0; This->iFmtType = WaveParse_Native; hr = IAsyncReader_SyncRead( pImpl->m_pReader, 0, 12, header ); if ( FAILED(hr) ) return hr; if ( hr != S_OK ) return E_FAIL; if ( !memcmp( &header[0], "RIFF", 4 ) && !memcmp( &header[8], "WAVE", 4 ) ) { TRACE( "(%p) - it's audio/wav.\n", pImpl ); hr = CWavParseImpl_InitWAV( pImpl, This ); } else if ( !memcmp( &header[0], ".snd", 4 ) ) { TRACE( "(%p) - it's audio/basic.\n", pImpl ); hr = CWavParseImpl_InitAU( pImpl, This ); } else if ( !memcmp( &header[0], "FORM", 4 ) && !memcmp( &header[8], "AIFF", 4 ) ) { TRACE( "(%p) - it's audio/aiff.\n", pImpl ); hr = CWavParseImpl_InitAIFF( pImpl, This ); } else { FIXME( "(%p) - unknown format.\n", pImpl ); hr = E_FAIL; } if ( FAILED(hr) ) { return hr; } /* initialized successfully. */ *pcStreams = 1; This->dwBlockSize = (This->pFmt->nAvgBytesPerSec + (DWORD)This->pFmt->nBlockAlign - 1U) / (DWORD)This->pFmt->nBlockAlign; TRACE( "(%p) returned successfully.\n", pImpl ); return NOERROR; } static HRESULT CWavParseImpl_UninitParser( CParserImpl* pImpl ) { CWavParseImpl* This = (CWavParseImpl*)pImpl->m_pUserData; TRACE("(%p)\n",This); if ( This == NULL ) return NOERROR; /* destruct */ if ( This->pFmt != NULL ) QUARTZ_FreeMem(This->pFmt); QUARTZ_FreeMem( This ); pImpl->m_pUserData = NULL; return NOERROR; } static LPCWSTR CWavParseImpl_GetOutPinName( CParserImpl* pImpl, ULONG nStreamIndex ) { CWavParseImpl* This = (CWavParseImpl*)pImpl->m_pUserData; TRACE("(%p)\n",This); return QUARTZ_WaveParserOutPin_Name; } static HRESULT CWavParseImpl_GetStreamType( CParserImpl* pImpl, ULONG nStreamIndex, AM_MEDIA_TYPE* pmt ) { CWavParseImpl* This = (CWavParseImpl*)pImpl->m_pUserData; TRACE("(%p)\n",This); if ( This == NULL || This->pFmt == NULL ) return E_UNEXPECTED; ZeroMemory( pmt, sizeof(AM_MEDIA_TYPE) ); memcpy( &pmt->majortype, &MEDIATYPE_Audio, sizeof(GUID) ); QUARTZ_MediaSubType_FromFourCC( &pmt->subtype, (DWORD)This->pFmt->wFormatTag ); pmt->bFixedSizeSamples = 1; pmt->bTemporalCompression = 0; pmt->lSampleSize = This->pFmt->nBlockAlign; memcpy( &pmt->formattype, &FORMAT_WaveFormatEx, sizeof(GUID) ); pmt->pUnk = NULL; pmt->pbFormat = (BYTE*)CoTaskMemAlloc( This->cbFmt ); if ( pmt->pbFormat == NULL ) return E_OUTOFMEMORY; pmt->cbFormat = This->cbFmt; memcpy( pmt->pbFormat, This->pFmt, This->cbFmt ); return NOERROR; } static HRESULT CWavParseImpl_CheckStreamType( CParserImpl* pImpl, ULONG nStreamIndex, const AM_MEDIA_TYPE* pmt ) { if ( !IsEqualGUID( &pmt->majortype, &MEDIATYPE_Audio ) || !IsEqualGUID( &pmt->formattype, &FORMAT_WaveFormatEx ) ) return E_FAIL; if ( pmt->pbFormat == NULL || pmt->cbFormat < sizeof(WAVEFORMATEX) ) return E_FAIL; return NOERROR; } static HRESULT CWavParseImpl_GetAllocProp( CParserImpl* pImpl, ALLOCATOR_PROPERTIES* pReqProp ) { CWavParseImpl* This = (CWavParseImpl*)pImpl->m_pUserData; TRACE("(%p)\n",This); if ( This == NULL || This->pFmt == NULL ) return E_UNEXPECTED; ZeroMemory( pReqProp, sizeof(ALLOCATOR_PROPERTIES) ); pReqProp->cBuffers = 1; pReqProp->cbBuffer = This->dwBlockSize; return NOERROR; } static HRESULT CWavParseImpl_GetNextRequest( CParserImpl* pImpl, ULONG* pnStreamIndex, LONGLONG* pllStart, LONG* plLength, REFERENCE_TIME* prtStart, REFERENCE_TIME* prtStop ) { CWavParseImpl* This = (CWavParseImpl*)pImpl->m_pUserData; LONGLONG llAvail; LONGLONG llStart; LONGLONG llEnd; TRACE("(%p)\n",This); if ( This == NULL || This->pFmt == NULL ) return E_UNEXPECTED; llAvail = This->llBytesTotal - This->llBytesProcessed; if ( llAvail > (LONGLONG)This->dwBlockSize ) llAvail = (LONGLONG)This->dwBlockSize; llStart = This->llBytesProcessed; llEnd = llStart + llAvail; This->llBytesProcessed = llEnd; *pllStart = This->llBytesProcessed; *plLength = (LONG)llAvail; *prtStart = llStart * QUARTZ_TIMEUNITS / (LONGLONG)This->pFmt->nAvgBytesPerSec; *prtStop = llEnd * QUARTZ_TIMEUNITS / (LONGLONG)This->pFmt->nAvgBytesPerSec; return NOERROR; } static HRESULT CWavParseImpl_ProcessSample( CParserImpl* pImpl, ULONG nStreamIndex, LONGLONG llStart, LONG lLength, IMediaSample* pSample ) { CWavParseImpl* This = (CWavParseImpl*)pImpl->m_pUserData; BYTE* pData; LONG lActLen; HRESULT hr; TRACE("(%p)\n",This); hr = IMediaSample_GetPointer(pSample,&pData); if ( FAILED(hr) ) return hr; lActLen = (LONG)IMediaSample_GetActualDataLength(pSample); if ( lActLen != lLength ) return E_FAIL; switch ( This->iFmtType ) { case WaveParse_Native: break; case WaveParse_Signed8: AUDIOUTL_ChangeSign8(pData,lActLen); break; case WaveParse_Signed16BE: AUDIOUTL_ByteSwap(pData,lActLen); break; case WaveParse_Unsigned16LE: AUDIOUTL_ChangeSign16LE(pData,lActLen); break; case WaveParse_Unsigned16BE: AUDIOUTL_ChangeSign16BE(pData,lActLen); AUDIOUTL_ByteSwap(pData,lActLen); break; default: FIXME("(%p) - %d not implemented\n", This, This->iFmtType ); return E_FAIL; } return NOERROR; } static const struct ParserHandlers CWavParseImpl_Handlers = { CWavParseImpl_InitParser, CWavParseImpl_UninitParser, CWavParseImpl_GetOutPinName, CWavParseImpl_GetStreamType, CWavParseImpl_CheckStreamType, CWavParseImpl_GetAllocProp, CWavParseImpl_GetNextRequest, CWavParseImpl_ProcessSample, /* for IQualityControl */ NULL, /* pQualityNotify */ /* for seeking */ NULL, /* pGetSeekingCaps */ NULL, /* pIsTimeFormatSupported */ NULL, /* pGetCurPos */ NULL, /* pSetCurPos */ NULL, /* pGetDuration */ NULL, /* pSetDuration */ NULL, /* pGetStopPos */ NULL, /* pSetStopPos */ NULL, /* pGetPreroll */ NULL, /* pSetPreroll */ }; HRESULT QUARTZ_CreateWaveParser(IUnknown* punkOuter,void** ppobj) { return QUARTZ_CreateParser( punkOuter,ppobj, &CLSID_quartzWaveParser, QUARTZ_WaveParser_Name, QUARTZ_WaveParserInPin_Name, &CWavParseImpl_Handlers ); }