Leaked source code of windows server 2003
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/*==========================================================================
*
* Copyright (C) 1999 Microsoft Corporation. All Rights Reserved.
*
* File: dvcdb.cpp
* Content:
* This module contains the implementation of the compression
* subsystem and the associated utility functions.
*
* History:
* Date By Reason
* ==== == ======
* 08/29/99 rodtoll Created
* 09/01/99 rodtoll Updated to add checks for valid read/write pointers
* 09/07/99 rodtoll Removed bad assert and added dpf_modnames
* Removed Create flag on registry opens
* 09/10/99 rodtoll dwFlags check on call to DVCDB_CopyCompress...
* 09/14/99 rodtoll Minor bugfix in compression info copy
* 09/21/99 rodtoll Added OSInd and fixed memory leak
* 10/07/99 rodtoll Added stubs for supporting new codecs
* rodtoll Updated to use Unicode
* 10/15/99 rodtoll Plugged some memory leaks
* 10/28/99 rodtoll Updated to use new compression providers
* 10/29/99 rodtoll Bug #113726 - Integrate Voxware Codecs, updating to use new
* pluggable codec architecture.
* 11/22/99 rodtoll Removed false error message when loading compression types
* 12/16/99 rodtoll Removed asserts (which were not needed) exposed by compression
* provider changes.
* 02/10/2000 rodtoll Fixed crash if invalid registry entries are present.
* 03/03/2000 rodtoll Updated to handle alternative gamevoice build.
* 03/16/2000 rodtoll Updated converter create to check and return error code
* 04/21/2000 rodtoll Bug #32889 - Does not run on Win2k w/o Admin
* 06/09/00 rmt Updates to split CLSID and allow whistler compat and support external create funcs
* 06/28/2000 rodtoll Prefix Bug #38022
* 08/28/2000 masonb Voice Merge: Removed OSAL_* and dvosal.h, added STR_* and strutils.h
* 08/31/2000 rodtoll Prefix Bug #171840
* 10/05/2000 rodtoll Bug #46541 - DPVOICE: A/V linking to dpvoice.lib could cause application to fail init and crash
*
***************************************************************************/
#include "dxvutilspch.h"
#undef DPF_SUBCOMP
#define DPF_SUBCOMP DN_SUBCOMP_VOICE
struct DVCDBProvider
{
GUID guidClassID;
PDVFULLCOMPRESSIONINFO pInfo;
DWORD dwNumElements;
DVCDBProvider *pNext;
};
DVCDBProvider *g_dvcdbProviderList = NULL;
#define REGISTRY_CDB_FORMAT L"Format"
#define REGISTRY_WAVEFORMAT_RATE L"Rate"
#define REGISTRY_WAVEFORMAT_BITS L"Bits"
#define REGISTRY_WAVEFORMAT_CHANNELS L"Channels"
#define REGISTRY_WAVEFORMAT_TAG L"Tag"
#define REGISTRY_WAVEFORMAT_AVGPERSEC L"AvgPerSec"
#define REGISTRY_WAVEFORMAT_BLOCKALIGN L"BlockAlign"
#define REGISTRY_WAVEFORMAT_CBSIZE L"cbsize"
#define REGISTRY_WAVEFORMAT_CBDATA L"cbdata"
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_CalcUnCompressedFrameSize"
DWORD DVCDB_CalcUnCompressedFrameSize( const DVFULLCOMPRESSIONINFO* lpdvInfo, const WAVEFORMATEX* lpwfxFormat )
{
DWORD frameSize;
switch( lpwfxFormat->nSamplesPerSec )
{
case 8000: frameSize = lpdvInfo->dwFrame8Khz; break;
case 11025: frameSize = lpdvInfo->dwFrame11Khz; break;
case 22050: frameSize = lpdvInfo->dwFrame22Khz; break;
case 44100: frameSize = lpdvInfo->dwFrame44Khz; break;
default: return 0;
}
if( lpwfxFormat->wBitsPerSample == 16 )
frameSize *= 2;
frameSize *= lpwfxFormat->nChannels;
return frameSize;
}
#undef DPF_MODNAME
#define DPF_MODNAME "CREG_ReadAndAllocWaveFormatEx"
HRESULT CREG_ReadAndAllocWaveFormatEx( HKEY hkeyReg, LPCWSTR path, LPWAVEFORMATEX *lpwfxFormat )
{
CRegistry waveKey;
if( !waveKey.Open( hkeyReg, path, TRUE, FALSE ) )
{
return E_FAIL;
}
DWORD dwTmp;
if( !waveKey.ReadDWORD( REGISTRY_WAVEFORMAT_CBSIZE, &dwTmp ) )
{
return E_FAIL;
}
*lpwfxFormat = (LPWAVEFORMATEX) new BYTE[dwTmp+sizeof(WAVEFORMATEX)];
LPWAVEFORMATEX tmpFormat = *lpwfxFormat;
if( tmpFormat == NULL )
{
return E_OUTOFMEMORY;
}
tmpFormat->cbSize = (BYTE) dwTmp;
if( !waveKey.ReadDWORD( REGISTRY_WAVEFORMAT_RATE, &dwTmp ) )
{
goto READ_FAILURE;
}
tmpFormat->nSamplesPerSec = dwTmp;
if( !waveKey.ReadDWORD( REGISTRY_WAVEFORMAT_BITS, &dwTmp ) )
{
goto READ_FAILURE;
}
tmpFormat->wBitsPerSample = (WORD) dwTmp;
if( !waveKey.ReadDWORD( REGISTRY_WAVEFORMAT_CHANNELS, &dwTmp ) )
{
goto READ_FAILURE;
}
tmpFormat->nChannels = (INT) dwTmp;
if( !waveKey.ReadDWORD( REGISTRY_WAVEFORMAT_TAG, &dwTmp ) )
{
goto READ_FAILURE;
}
tmpFormat->wFormatTag = (WORD) dwTmp;
if( !waveKey.ReadDWORD( REGISTRY_WAVEFORMAT_AVGPERSEC, &dwTmp ) )
{
goto READ_FAILURE;
}
tmpFormat->nAvgBytesPerSec = (INT) dwTmp;
if( !waveKey.ReadDWORD( REGISTRY_WAVEFORMAT_BLOCKALIGN, &dwTmp ) )
{
goto READ_FAILURE;
}
tmpFormat->nBlockAlign = (INT) dwTmp;
dwTmp = tmpFormat->cbSize;
if( !waveKey.ReadBlob( REGISTRY_WAVEFORMAT_CBDATA, (LPBYTE) &tmpFormat[1], &dwTmp ) )
{
DPFX(DPFPREP, 0, "Error reading waveformat blob" );
goto READ_FAILURE;
}
return S_OK;
READ_FAILURE:
delete [] *lpwfxFormat;
*lpwfxFormat = NULL;
return E_FAIL;
}
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_LoadCompressionInfo"
HRESULT DVCDB_LoadCompressionInfo( const WCHAR *swzBaseRegistryPath )
{
CRegistry mainKey, subKey;
LPWSTR keyName = NULL;
DWORD dwIndex = 0;
DWORD dwSize = 0;
HRESULT hr;
PDPVCOMPRESSIONPROVIDER pCompressionProvider = NULL;
DVCDBProvider *pNewProvider = NULL;
WCHAR wszPath[_MAX_PATH];
if( swzBaseRegistryPath == NULL )
{
DPFX(DPFPREP, 0, "INTERNAL ERROR!" );
return E_FAIL;
}
wcscpy( wszPath, swzBaseRegistryPath );
wcscat( wszPath, DPVOICE_REGISTRY_CP );
if( !mainKey.Open( HKEY_LOCAL_MACHINE, wszPath, TRUE, FALSE ) )
{
DPFX(DPFPREP, 0, "Error reading compression providers from the registry. Path doesn't exist" );
return E_FAIL;
}
dwIndex = 0;
keyName = NULL;
dwSize = 0;
LPSTR lpstrKeyName = NULL;
GUID guidCP;
// Enumerate the subkeys at this point in the tree
while( 1 )
{
dwSize = 0;
if( !mainKey.EnumKeys( keyName, &dwSize, dwIndex ) )
{
if( dwSize == 0 )
{
DPFX(DPFPREP, DVF_INFOLEVEL, "End of provider list" );
break;
}
if( keyName != NULL )
{
delete [] keyName;
}
keyName = new wchar_t[dwSize];
}
if( !mainKey.EnumKeys( keyName, &dwSize, dwIndex ) )
{
delete [] keyName;
break;
}
if( FAILED( STR_AllocAndConvertToANSI( &lpstrKeyName, keyName ) ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Error allocating memory" );
break;
}
DPFX(DPFPREP, DVF_INFOLEVEL, "Reading provider: %hs", lpstrKeyName );
if( !subKey.Open( mainKey, keyName, TRUE, FALSE ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Error reading provider: %hs", lpstrKeyName );
goto SKIP_TO_NEXT;
}
delete [] keyName;
keyName = NULL;
dwSize = 0;
// Read the GUID from the default key
if( !subKey.ReadGUID( L"", &guidCP ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Unable to read the provider's GUID" );
goto SKIP_TO_NEXT;
}
// Attempt to create the provider
hr = COM_CoCreateInstance( guidCP , NULL, CLSCTX_INPROC_SERVER, IID_IDPVCompressionProvider, (void **) &pCompressionProvider, FALSE );
if( FAILED( hr ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "FAILED to create 0x%x\n", hr );
goto SKIP_TO_NEXT;
}
// Build a record for the provider
pNewProvider = new DVCDBProvider;
if( pNewProvider == NULL )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Out of memory" );
goto SKIP_TO_NEXT;
}
pNewProvider->guidClassID = guidCP;
pNewProvider->pInfo = NULL;
pNewProvider->dwNumElements = 0;
dwSize = 0;
// GetCompression Info for the provider
hr = pCompressionProvider->EnumCompressionTypes( pNewProvider->pInfo, &dwSize, &pNewProvider->dwNumElements, 0 );
if( hr != DVERR_BUFFERTOOSMALL )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Unable to get compression info for provider: %hs", lpstrKeyName );
goto SKIP_TO_NEXT;
}
pNewProvider->pInfo = (DVFULLCOMPRESSIONINFO *) new BYTE[dwSize];
if( pNewProvider->pInfo == NULL )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Out of memory" );
goto SKIP_TO_NEXT;
}
hr = pCompressionProvider->EnumCompressionTypes( pNewProvider->pInfo, &dwSize, &pNewProvider->dwNumElements, 0 );
if( FAILED( hr ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Unable to get compression info for %hs hr=0x%x", lpstrKeyName, hr );
goto SKIP_TO_NEXT;
}
// Add it to the list
pNewProvider->pNext = g_dvcdbProviderList;
g_dvcdbProviderList = pNewProvider;
pNewProvider = NULL;
SKIP_TO_NEXT:
if( pCompressionProvider != NULL )
{
pCompressionProvider->Release();
pCompressionProvider = NULL;
}
if( pNewProvider != NULL )
{
delete pNewProvider;
pNewProvider = NULL;
}
if( lpstrKeyName != NULL )
delete [] lpstrKeyName;
if( keyName != NULL )
delete [] keyName;
lpstrKeyName = NULL;
keyName = NULL;
dwSize = 0;
dwIndex++;
continue;
}
if( lpstrKeyName != NULL )
delete [] lpstrKeyName;
if( keyName != NULL )
delete [] keyName;
return DV_OK;
}
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_FreeCompressionInfo"
HRESULT DVCDB_FreeCompressionInfo()
{
DVCDBProvider *pTmpProvider, *pTmpNext;
if( g_dvcdbProviderList == NULL )
return DV_OK;
pTmpProvider = g_dvcdbProviderList;
while( pTmpProvider != NULL )
{
pTmpNext = pTmpProvider->pNext;
delete [] pTmpProvider->pInfo;
delete pTmpProvider;
pTmpProvider = pTmpNext;
}
g_dvcdbProviderList = NULL;
return DV_OK;
}
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_GetCompressionClassID"
HRESULT DVCDB_GetCompressionClassID( const GUID& guidCT, GUID* pguidClass )
{
DVCDBProvider *pTmpProvider;
DWORD dwIndex;
pTmpProvider = g_dvcdbProviderList;
while( pTmpProvider != NULL )
{
for( dwIndex = 0; dwIndex < pTmpProvider->dwNumElements; dwIndex++ )
{
if( pTmpProvider->pInfo[dwIndex].guidType == guidCT )
{
*pguidClass = pTmpProvider->guidClassID;
return DV_OK;
}
}
pTmpProvider = pTmpProvider->pNext;
}
return DVERR_COMPRESSIONNOTSUPPORTED;
}
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_GetCompressionInfo"
HRESULT DVCDB_GetCompressionInfo( const GUID &guidType, PDVFULLCOMPRESSIONINFO *lpdvfCompressionInfo )
{
DVCDBProvider *pTmpProvider;
DWORD dwIndex;
pTmpProvider = g_dvcdbProviderList;
while( pTmpProvider != NULL )
{
for( dwIndex = 0; dwIndex < pTmpProvider->dwNumElements; dwIndex++ )
{
if( pTmpProvider->pInfo[dwIndex].guidType == guidType )
{
*lpdvfCompressionInfo = &pTmpProvider->pInfo[dwIndex];
return DV_OK;
}
}
pTmpProvider = pTmpProvider->pNext;
}
return DVERR_COMPRESSIONNOTSUPPORTED;
}
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_CreateConverter"
HRESULT DVCDB_CreateConverter( WAVEFORMATEX *pwfxSrcFormat, const GUID &guidTarget, PDPVCOMPRESSOR *pConverter )
{
HRESULT hr;
GUID guidProvider;
PDPVCOMPRESSIONPROVIDER pCompressionProvider = NULL;
hr = DVCDB_GetCompressionClassID( guidTarget, &guidProvider );
if( FAILED( hr ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Requested compression type is not supported, hr=0x%x", hr );
return hr;
}
hr = COM_CoCreateInstance( guidProvider , NULL, CLSCTX_INPROC_SERVER, IID_IDPVCompressionProvider, (void **) &pCompressionProvider, FALSE );
if( FAILED( hr ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "FAILED to create 0x%x\n", hr );
return DVERR_COMPRESSIONNOTSUPPORTED;
}
hr = pCompressionProvider->CreateCompressor( pwfxSrcFormat, guidTarget, pConverter, 0 );
if( FAILED( hr ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Error creating compressor hr=0x%x", hr );
return hr;
}
pCompressionProvider->Release();
return hr;
}
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_CreateConverter"
HRESULT DVCDB_CreateConverter( const GUID &guidSrc, WAVEFORMATEX *pwfxTarget, PDPVCOMPRESSOR *pConverter )
{
HRESULT hr;
GUID guidProvider;
PDPVCOMPRESSIONPROVIDER pCompressionProvider = NULL;
hr = DVCDB_GetCompressionClassID( guidSrc, &guidProvider );
if( FAILED( hr ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Requested compression type is not supported, hr=0x%x", hr );
return hr;
}
hr = COM_CoCreateInstance( guidProvider , NULL, CLSCTX_INPROC_SERVER, IID_IDPVCompressionProvider, (void **) &pCompressionProvider, FALSE );
if( FAILED( hr ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "FAILED to create 0x%x\n", hr );
return DVERR_COMPRESSIONNOTSUPPORTED;
}
hr = pCompressionProvider->CreateDeCompressor( guidSrc, pwfxTarget, pConverter, 0 );
if( FAILED( hr ) )
{
DPFX(DPFPREP, DVF_ERRORLEVEL, "Error creating compressor hr=0x%x", hr );
return hr;
}
pCompressionProvider->Release();
return DV_OK;
}
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_CopyCompressionArrayToBuffer"
HRESULT DVCDB_CopyCompressionArrayToBuffer( LPVOID lpBuffer, LPDWORD lpdwSize, LPDWORD lpdwNumElements, DWORD dwFlags )
{
if( lpdwNumElements == NULL || lpdwSize == NULL ||
!DNVALID_READPTR(lpdwNumElements,sizeof(DWORD)) ||
!DNVALID_READPTR(lpdwSize,sizeof(DWORD)) )
{
return E_POINTER;
}
if( dwFlags != 0 )
{
return DVERR_INVALIDFLAGS;
}
DWORD dwIndex, dwReadIndex;
DWORD dwRequiredSize = 0;
DWORD dwTmpSize;
LPDVCOMPRESSIONINFO lpdvTargetList;
LPBYTE lpbExtraLoc = (LPBYTE) lpBuffer;
*lpdwNumElements = 0;
DVCDBProvider *pTmpProvider;
pTmpProvider = g_dvcdbProviderList;
while( pTmpProvider != NULL )
{
for( dwIndex = 0; dwIndex < pTmpProvider->dwNumElements; dwIndex++ )
{
dwRequiredSize += DVCDB_GetCompressionInfoSize( (LPDVCOMPRESSIONINFO) &pTmpProvider->pInfo[dwIndex] );
(*lpdwNumElements)++;
}
pTmpProvider = pTmpProvider->pNext;
}
if( *lpdwSize < dwRequiredSize )
{
*lpdwSize = dwRequiredSize;
return DVERR_BUFFERTOOSMALL;
}
*lpdwSize = dwRequiredSize;
if( lpBuffer == NULL || !DNVALID_WRITEPTR(lpBuffer,dwRequiredSize) )
{
return E_POINTER;
}
lpbExtraLoc += (*lpdwNumElements)*sizeof(DVCOMPRESSIONINFO);
lpdvTargetList = (LPDVCOMPRESSIONINFO) lpBuffer;
pTmpProvider = g_dvcdbProviderList;
dwIndex = 0;
while( pTmpProvider != NULL )
{
for( dwReadIndex = 0; dwReadIndex < pTmpProvider->dwNumElements; dwReadIndex++, dwIndex++ )
{
memcpy( &lpdvTargetList[dwIndex], &pTmpProvider->pInfo[dwReadIndex], sizeof(DVCOMPRESSIONINFO) );
if( pTmpProvider->pInfo[dwReadIndex].lpszDescription != NULL )
{
dwTmpSize = (wcslen( pTmpProvider->pInfo[dwReadIndex].lpszDescription )*2)+2;
memcpy( lpbExtraLoc, pTmpProvider->pInfo[dwReadIndex].lpszDescription, dwTmpSize );
lpdvTargetList[dwIndex].lpszDescription = (LPWSTR) lpbExtraLoc;
lpbExtraLoc += dwTmpSize;
}
if( pTmpProvider->pInfo[dwReadIndex].lpszName != NULL )
{
dwTmpSize = (wcslen( pTmpProvider->pInfo[dwReadIndex].lpszName )*2)+2;
memcpy( lpbExtraLoc, pTmpProvider->pInfo[dwReadIndex].lpszName, dwTmpSize );
lpdvTargetList[dwIndex].lpszName = (LPWSTR) lpbExtraLoc;
lpbExtraLoc += dwTmpSize;
}
}
pTmpProvider = pTmpProvider->pNext;
}
return DV_OK;
}
#undef DPF_MODNAME
#define DPF_MODNAME "DVCDB_GetCompressionInfoSize"
DWORD DVCDB_GetCompressionInfoSize( LPDVCOMPRESSIONINFO lpdvCompressionInfo )
{
DNASSERT( lpdvCompressionInfo != NULL );
DWORD dwSize;
dwSize = sizeof( DVCOMPRESSIONINFO );
if( lpdvCompressionInfo->lpszDescription != NULL )
{
dwSize += (wcslen( lpdvCompressionInfo->lpszDescription )*2)+2;
}
if( lpdvCompressionInfo->lpszName != NULL )
{
dwSize += (wcslen( lpdvCompressionInfo->lpszName)*2)+2;
}
return dwSize;
}