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Windows2003-3790/multimedia/dshow/h/dynlink.h
Microsoft 50969b0ea2 First commit
2020-09-30 16:53:55 +02:00

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// Copyright (c) 1996 - 1999 Microsoft Corporation. All Rights Reserved.
#ifndef __DYNLINK_H__
#define __DYNLINK_H__
// Add DYNLINKAVI to the class definition statement
// for all classes that use AVI/VFW function
// to enable dynamic linking to AVI. That, and #includ'ing this file
// should be the only thing you need to do
//
// For example:
// class CAVIDec : public CTransformFilter DYNLINKAVI DYNLINKVFW
//
// In the case where the filter is being built into its own DLL dynamic
// linking is not enabled and DYNLINKAVI is #define'd to nothing.
//
// If the class in which you want to use dynamic linking does not
// inherit from anything else use _DYNLINKAVI or _DYNLINKVFW
//
// For example:
// class CNoInherit : _DYNLINKAVI
// or
// class CNoInherit : _DYNLINKVFW
// or
// class CNoInterit : _DYNLINKVFW DYNLINKAVI //etc...
//
#define NODRAWDIB
#define NOAVIFMT
#include <vfw.h> // we need the avi definitions
#include <urlmon.h>
#ifdef FILTER_DLL
#define DYNLINKAVI
#define DYNLINKVFW
#define DYNLINKACM
#define DYNLINKURLMON
#define _DYNLINKAVI
#define _DYNLINKVFW
#define _DYNLINKACM
#define _DYNLINKURLMON
#else
// Add DYNLINKAVI at the end of the class definition statement
// for all classes that use AVI/VFW function
// to enable dynamic linking to AVI. That, and #includ'ing this file
// should be the only thing you need to do
// define string that will bind dynamic linking to the class definition
#define DYNLINKAVI , CAVIDynLink
#define DYNLINKVFW , CVFWDynLink
#define DYNLINKACM , CACMDynLink
#define DYNLINKURLMON , CURLMonDynLink
// for those classes that have no inheritance and still want dynamic linking
#define _DYNLINKAVI CAVIDynLink
#define _DYNLINKVFW CVFWDynLink
#define _DYNLINKACM CACMDynLink
#define _DYNLINKURLMON CURLMonDynLink
//
// typedef the AVIFILE API set that we redirect
//
typedef HRESULT (STDAPICALLTYPE *pAVIFileOpenW )(PAVIFILE FAR * ppfile, LPCWSTR szFile, UINT uMode, LPCLSID lpHandler);
typedef HRESULT (STDAPICALLTYPE *pAVIStreamRead)(PAVISTREAM pavi, LONG lStart, LONG lSamples, LPVOID lpBuffer, LONG cbBuffer, LONG FAR * plBytes, LONG FAR * plSamples);
typedef LONG (STDAPICALLTYPE *pAVIStreamStart) (PAVISTREAM pavi);
typedef LONG (STDAPICALLTYPE *pAVIStreamLength) (PAVISTREAM pavi);
typedef LONG (STDAPICALLTYPE *pAVIStreamTimeToSample)(PAVISTREAM pavi, LONG lTime);
typedef LONG (STDAPICALLTYPE *pAVIStreamSampleToTime)(PAVISTREAM pavi, LONG lSample);
typedef HRESULT (STDAPICALLTYPE *pAVIStreamBeginStreaming)(PAVISTREAM pavi, LONG lStart, LONG lEnd, LONG lRate);
typedef HRESULT (STDAPICALLTYPE *pAVIStreamEndStreaming)(PAVISTREAM pavi);
typedef LONG (STDAPICALLTYPE *pAVIStreamFindSample)(PAVISTREAM pavi, LONG lPos, LONG lFlags);
#undef AVIStreamEnd // sigh... nasty AVI macro
//
// Class to link dynamically to AVIFIL32.DLL entry points
//
class CAVIDynLink {
private:
static HMODULE m_hAVIFile32; // handle to AVIFIL32
static LONG m_dynlinkCount; // instance count for this process
static CRITICAL_SECTION m_LoadAVILock; // serialise constructor/destructor
public:
static void CAVIDynLinkLoad() {
InitializeCriticalSection(&CAVIDynLink::m_LoadAVILock); // serialise constructor/destructor
}
static void CAVIDynLinkUnload() {
DeleteCriticalSection(&CAVIDynLink::m_LoadAVILock); // serialise constructor/destructor
}
static void AVIFileInit(void);
static void AVIFileExit(void);
static HRESULT AVIFileOpenW (PAVIFILE FAR * ppfile, LPCWSTR szFile,
UINT uMode, LPCLSID lpHandler);
static HRESULT AVIStreamRead(PAVISTREAM pavi,
LONG lStart,
LONG lSamples,
LPVOID lpBuffer,
LONG cbBuffer,
LONG FAR * plBytes,
LONG FAR * plSamples)
{
return(pavi->Read(lStart, lSamples, lpBuffer, cbBuffer, plBytes, plSamples));
}
static LONG AVIStreamStart(PAVISTREAM pavi)
{
AVISTREAMINFOW aviStreamInfo;
HRESULT hr;
hr = pavi->Info(&aviStreamInfo, sizeof(aviStreamInfo));
if (hr!=NOERROR) {
aviStreamInfo.dwStart=0;
}
return(LONG)aviStreamInfo.dwStart;
//return(((pAVIStreamStart)aAVIEntries[indxAVIStreamStart])(pavi));
}
static LONG AVIStreamLength(PAVISTREAM pavi)
{
AVISTREAMINFOW aviStreamInfo;
HRESULT hr;
hr = pavi->Info(&aviStreamInfo, sizeof(aviStreamInfo));
if (hr!=NOERROR) {
aviStreamInfo.dwLength=1;
}
return (LONG)aviStreamInfo.dwLength;
//return(((pAVIStreamLength)aAVIEntries[indxAVIStreamLength])(pavi));
}
/*static*/ LONG AVIStreamTimeToSample (PAVISTREAM pavi, LONG lTime);
/*static*/ LONG AVIStreamSampleToTime (PAVISTREAM pavi, LONG lSample);
/*static*/ HRESULT AVIStreamBeginStreaming(PAVISTREAM pavi, LONG lStart, LONG lEnd, LONG lRate);
/*static*/ HRESULT AVIStreamEndStreaming(PAVISTREAM pavi);
static LONG AVIStreamFindSample(PAVISTREAM pavi, LONG lPos, LONG lFlags)
{
// The use of AVIStreamFindSample within Quartz ALWAYS set the type
// and direction
ASSERT(lFlags & FIND_TYPE);
ASSERT(lFlags & FIND_DIR);
return(pavi->FindSample(lPos, lFlags));
//return(((pAVIStreamFindSample)aAVIEntries[indxAVIStreamFindSample])(pavi));
}
static LONG AVIStreamEnd(PAVISTREAM pavi)
{
AVISTREAMINFOW aviStreamInfo;
HRESULT hr;
hr = pavi->Info(&aviStreamInfo, sizeof(aviStreamInfo));
if (hr!=NOERROR) {
aviStreamInfo.dwStart=0;
aviStreamInfo.dwLength=1;
}
return (LONG)aviStreamInfo.dwLength + (LONG)aviStreamInfo.dwStart;
//return(((pAVIStreamStart)aAVIEntries[indxAVIStreamStart])(pavi)
// + ((pAVIStreamLength)aAVIEntries[indxAVIStreamLength])(pavi));
}
CAVIDynLink();
~CAVIDynLink();
private:
// make copy and assignment inaccessible
CAVIDynLink(const CAVIDynLink &refAVIDynLink);
CAVIDynLink &operator=(const CAVIDynLink &refAVIDynLink);
};
//
// Class for dynamic linking to MSVFW32.DLL
//
// Most of the IC API set are macros that call ICSendMessage. There are
// a couple of awkward ones that we expand inline.
//
//
// Dynamically loaded array of entry points
//
extern FARPROC aVFWEntries[];
//
// List of index entries into the array for each redirected API
//
#define indxICClose 0
#define indxICSendMessage 1
#define indxICLocate 2
#define indxICOpen 3
#define indxICInfo 4
#define indxICGetInfo 5
//
// typedef the API set that we redirect
//
typedef LRESULT (WINAPI *pICClose)(HIC hic);
typedef HIC (WINAPI *pICLocate)(DWORD fccType, DWORD fccHandler, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut, WORD wFlags);
typedef LRESULT (WINAPI *pICSendMessage)(HIC hic, UINT msg, DWORD_PTR dw1, DWORD_PTR dw2);
typedef HIC (VFWAPI *pICOpen)(DWORD fccType, DWORD fccHandler, UINT wMode);
typedef BOOL (VFWAPI *pICInfo)(DWORD fccType, DWORD fccHandler, ICINFO FAR* lpicinfo);
typedef BOOL (VFWAPI *pICGetInfo)(HIC hic, ICINFO FAR* lpicinfo, DWORD cb);
class CVFWDynLink {
private:
static HMODULE m_hVFW; // handle to MSVFW32
static LONG m_vfwlinkCount; // instance count for this process
static CRITICAL_SECTION m_LoadVFWLock; // serialise constructor/destructor
public:
static void CVFWDynLinkLoad()
{
InitializeCriticalSection(&m_LoadVFWLock); // serialise constructor/destructor
}
static void CVFWDynLinkUnload()
{
DeleteCriticalSection(&m_LoadVFWLock); // serialise constructor/destructor
}
static DWORD_PTR ICDecompress(
HIC hic,
DWORD dwFlags, // flags (from AVI index...)
LPBITMAPINFOHEADER lpbiFormat, // BITMAPINFO of compressed data
// biSizeImage has the chunk size
// biCompression has the ckid (AVI only)
LPVOID lpData, // data
LPBITMAPINFOHEADER lpbi, // DIB to decompress to
LPVOID lpBits)
{
ICDECOMPRESS icd;
icd.dwFlags = dwFlags;
icd.lpbiInput = lpbiFormat;
icd.lpInput = lpData;
icd.lpbiOutput = lpbi;
icd.lpOutput = lpBits;
icd.ckid = 0;
return ICSendMessage(hic, ICM_DECOMPRESS, (DWORD_PTR)(LPVOID)&icd, sizeof(ICDECOMPRESS));
}
static LRESULT CVFWDynLink::ICClose(HIC hic)
{
return((((pICClose)aVFWEntries[indxICClose]))(hic));
}
static HIC ICLocate(DWORD fccType, DWORD fccHandler, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut, WORD wFlags)
{
return((((pICLocate)aVFWEntries[indxICLocate]))(fccType, fccHandler, lpbiIn, lpbiOut, wFlags));
}
static LRESULT ICSendMessage(HIC hic, UINT msg, DWORD_PTR dw1, DWORD_PTR dw2)
{
return((((pICSendMessage)aVFWEntries[indxICSendMessage]))(hic, msg, dw1, dw2));
}
static HIC ICOpen(DWORD fccType, DWORD fccHandler, UINT wMode)
{
return((((pICOpen)aVFWEntries[indxICOpen]))(fccType, fccHandler, wMode));
}
static BOOL ICInfo(DWORD fccType, DWORD fccHandler, ICINFO* lpicinfo)
{
return((((pICInfo)aVFWEntries[indxICInfo]))(fccType, fccHandler, lpicinfo));
}
static BOOL ICGetInfo(HIC hic, ICINFO* lpicinfo, DWORD cb)
{
return((((pICGetInfo)aVFWEntries[indxICGetInfo]))(hic, lpicinfo, cb));
}
static LRESULT ICDecompressEx(
HIC hic,
DWORD dwFlags,
LPBITMAPINFOHEADER lpbiSrc,
LPVOID lpSrc,
int xSrc,int ySrc,int dxSrc,int dySrc,LPBITMAPINFOHEADER lpbiDst,
LPVOID lpDst,
int xDst,int yDst,int dxDst,int dyDst)
{
ICDECOMPRESSEX ic;
ic.dwFlags = dwFlags;
ic.lpbiSrc = lpbiSrc;
ic.lpSrc = lpSrc;
ic.xSrc = xSrc;
ic.ySrc = ySrc;
ic.dxSrc = dxSrc;
ic.dySrc = dySrc;
ic.lpbiDst = lpbiDst;
ic.lpDst = lpDst;
ic.xDst = xDst;
ic.yDst = yDst;
ic.dxDst = dxDst;
ic.dyDst = dyDst;
// note that ICM swaps round the length and pointer
// length in lparam2, pointer in lparam1
return ICSendMessage(hic, ICM_DECOMPRESSEX, (DWORD_PTR)&ic, sizeof(ic));
}
static LRESULT ICDecompressExQuery(
HIC hic,
DWORD dwFlags,
LPBITMAPINFOHEADER lpbiSrc,
LPVOID lpSrc,
int xSrc,int ySrc,int dxSrc,int dySrc,
LPBITMAPINFOHEADER lpbiDst,
LPVOID lpDst,
int xDst,int yDst,int dxDst,int dyDst)
{
ICDECOMPRESSEX ic;
ic.dwFlags = dwFlags;
ic.lpbiSrc = lpbiSrc;
ic.lpSrc = lpSrc;
ic.xSrc = xSrc;
ic.ySrc = ySrc;
ic.dxSrc = dxSrc;
ic.dySrc = dySrc;
ic.lpbiDst = lpbiDst;
ic.lpDst = lpDst;
ic.xDst = xDst;
ic.yDst = yDst;
ic.dxDst = dxDst;
ic.dyDst = dyDst;
// note that ICM swaps round the length and pointer
// length in lparam2, pointer in lparam1
return ICSendMessage(hic, ICM_DECOMPRESSEX_QUERY, (DWORD_PTR)&ic, sizeof(ic));
}
static LRESULT ICDecompressExBegin(
HIC hic,
DWORD dwFlags,
LPBITMAPINFOHEADER lpbiSrc,
LPVOID lpSrc,
int xSrc,int ySrc,int dxSrc,int dySrc,
LPBITMAPINFOHEADER lpbiDst,
LPVOID lpDst,
int xDst,int yDst,int dxDst,int dyDst)
{
ICDECOMPRESSEX ic;
ic.dwFlags = dwFlags;
ic.lpbiSrc = lpbiSrc;
ic.lpSrc = lpSrc;
ic.xSrc = xSrc;
ic.ySrc = ySrc;
ic.dxSrc = dxSrc;
ic.dySrc = dySrc;
ic.lpbiDst = lpbiDst;
ic.lpDst = lpDst;
ic.xDst = xDst;
ic.yDst = yDst;
ic.dxDst = dxDst;
ic.dyDst = dyDst;
// note that ICM swaps round the length and pointer
// length in lparam2, pointer in lparam1
return ICSendMessage(hic, ICM_DECOMPRESSEX_BEGIN, (DWORD_PTR)&ic, sizeof(ic));
}
static DWORD_PTR VFWAPIV ICDrawBegin(
HIC hic,
DWORD dwFlags, // flags
HPALETTE hpal, // palette to draw with
HWND hwnd, // window to draw to
HDC hdc, // HDC to draw to
int xDst, // destination rectangle
int yDst,
int dxDst,
int dyDst,
LPBITMAPINFOHEADER lpbi, // format of frame to draw
int xSrc, // source rectangle
int ySrc,
int dxSrc,
int dySrc,
DWORD dwRate, // frames/second = (dwRate/dwScale)
DWORD dwScale)
{
ICDRAWBEGIN icdraw;
icdraw.dwFlags = dwFlags;
icdraw.hpal = hpal;
icdraw.hwnd = hwnd;
icdraw.hdc = hdc;
icdraw.xDst = xDst;
icdraw.yDst = yDst;
icdraw.dxDst = dxDst;
icdraw.dyDst = dyDst;
icdraw.lpbi = lpbi;
icdraw.xSrc = xSrc;
icdraw.ySrc = ySrc;
icdraw.dxSrc = dxSrc;
icdraw.dySrc = dySrc;
icdraw.dwRate = dwRate;
icdraw.dwScale = dwScale;
return ICSendMessage(hic, ICM_DRAW_BEGIN, (DWORD_PTR)(LPVOID)&icdraw, sizeof(ICDRAWBEGIN));
}
static DWORD_PTR VFWAPIV ICDraw(
HIC hic,
DWORD dwFlags, // flags
LPVOID lpFormat, // format of frame to decompress
LPVOID lpData, // frame data to decompress
DWORD cbData, // size in bytes of data
LONG lTime) // time to draw this frame (see drawbegin dwRate and dwScale)
{
ICDRAW icdraw;
icdraw.dwFlags = dwFlags;
icdraw.lpFormat = lpFormat;
icdraw.lpData = lpData;
icdraw.cbData = cbData;
icdraw.lTime = lTime;
return ICSendMessage(hic, ICM_DRAW, (DWORD_PTR)(LPVOID)&icdraw, sizeof(ICDRAW));
}
CVFWDynLink();
~CVFWDynLink();
private:
// make copy and assignment inaccessible
CVFWDynLink(const CVFWDynLink &refVFWDynLink);
CVFWDynLink &operator=(const CVFWDynLink &refVFWDynLink);
};
//
// Class for dynamic linking to MSACM32.DLL
//
//
// Dynamically loaded array of entry points
//
extern FARPROC aACMEntries[];
//
// List of index entries into the array for each redirected API
//
#define indxacmStreamConvert 0
#define indxacmStreamSize 1
#define indxacmStreamPrepareHeader 2
#define indxacmMetrics 3
#define indxacmStreamUnprepareHeader 4
#define indxacmStreamOpen 5
#define indxacmFormatSuggest 6
#define indxacmStreamClose 7
#ifdef UNICODE
# define indxacmFormatEnumW 8
#else
# define indxacmFormatEnumA 8
#endif
//
// typedef the API set that we redirect
//
typedef MMRESULT (ACMAPI *pacmStreamConvert)(HACMSTREAM has, LPACMSTREAMHEADER pash, DWORD fdwConvert);
typedef MMRESULT (ACMAPI *pacmStreamSize)
(
HACMSTREAM has,
DWORD cbInput,
LPDWORD pdwOutputBytes,
DWORD fdwSize
);
typedef MMRESULT (ACMAPI *pacmStreamPrepareHeader)
(
HACMSTREAM has,
LPACMSTREAMHEADER pash,
DWORD fdwPrepare
);
typedef MMRESULT (ACMAPI *pacmMetrics)
(
HACMOBJ hao,
UINT uMetric,
LPVOID pMetric
);
typedef MMRESULT (ACMAPI *pacmStreamUnprepareHeader)
(
HACMSTREAM has,
LPACMSTREAMHEADER pash,
DWORD fdwUnprepare
);
typedef MMRESULT (ACMAPI *pacmStreamOpen)
(
LPHACMSTREAM phas, // pointer to stream handle
HACMDRIVER had, // optional driver handle
LPWAVEFORMATEX pwfxSrc, // source format to convert
LPWAVEFORMATEX pwfxDst, // required destination format
LPWAVEFILTER pwfltr, // optional filter
DWORD_PTR dwCallback, // callback
DWORD_PTR dwInstance, // callback instance data
DWORD fdwOpen // ACM_STREAMOPENF_* and CALLBACK_*
);
typedef MMRESULT (ACMAPI *pacmFormatSuggest)
(
HACMDRIVER had,
LPWAVEFORMATEX pwfxSrc,
LPWAVEFORMATEX pwfxDst,
DWORD cbwfxDst,
DWORD fdwSuggest
);
typedef MMRESULT (ACMAPI *pacmStreamClose)
(
HACMSTREAM has,
DWORD fdwClose
);
typedef MMRESULT (ACMAPI *pacmFormatEnumA)
(
HACMDRIVER had,
LPACMFORMATDETAILSA pafd,
ACMFORMATENUMCBA fnCallback,
DWORD_PTR dwInstance,
DWORD fdwEnum
);
typedef MMRESULT (ACMAPI *pacmFormatEnumW)
(
HACMDRIVER had,
LPACMFORMATDETAILSW pafd,
ACMFORMATENUMCBW fnCallback,
DWORD_PTR dwInstance,
DWORD fdwEnum
);
class CACMDynLink {
private:
static HMODULE m_hACM; // handle to MSVFW32
static LONG m_ACMlinkCount; // instance count for this process
static CRITICAL_SECTION m_LoadACMLock; // serialise constructor/destructor
public:
static void CACMDynLinkLoad()
{
InitializeCriticalSection(&m_LoadACMLock); // serialise constructor/destructor
}
static void CACMDynLinkUnload()
{
DeleteCriticalSection(&m_LoadACMLock); // serialise constructor/destructor
}
static MMRESULT ACMAPI acmStreamConvert(HACMSTREAM has, LPACMSTREAMHEADER pash, DWORD fdwConvert)
{
return((((pacmStreamConvert)aACMEntries[indxacmStreamConvert]))(has, pash, fdwConvert));
}
static MMRESULT ACMAPI acmStreamSize
(
HACMSTREAM has,
DWORD cbInput,
LPDWORD pdwOutputBytes,
DWORD fdwSize
)
{
return((((pacmStreamSize)aACMEntries[indxacmStreamSize]))(has, cbInput, pdwOutputBytes, fdwSize));
}
static MMRESULT ACMAPI acmStreamPrepareHeader
(
HACMSTREAM has,
LPACMSTREAMHEADER pash,
DWORD fdwPrepare
)
{
return((((pacmStreamPrepareHeader)aACMEntries[indxacmStreamPrepareHeader]))(has, pash, fdwPrepare));
}
static MMRESULT ACMAPI acmMetrics
(
HACMOBJ hao,
UINT uMetric,
LPVOID pMetric
)
{
return((((pacmMetrics)aACMEntries[indxacmMetrics]))(hao, uMetric, pMetric));
}
static MMRESULT ACMAPI acmStreamUnprepareHeader
(
HACMSTREAM has,
LPACMSTREAMHEADER pash,
DWORD fdwUnprepare
)
{
return((((pacmStreamUnprepareHeader)aACMEntries[indxacmStreamUnprepareHeader]))(has, pash, fdwUnprepare));
}
static MMRESULT ACMAPI acmStreamOpen
(
LPHACMSTREAM phas, // pointer to stream handle
HACMDRIVER had, // optional driver handle
LPWAVEFORMATEX pwfxSrc, // source format to convert
LPWAVEFORMATEX pwfxDst, // required destination format
LPWAVEFILTER pwfltr, // optional filter
DWORD_PTR dwCallback, // callback
DWORD_PTR dwInstance, // callback instance data
DWORD fdwOpen // ACM_STREAMOPENF_* and CALLBACK_*
)
{
return((((pacmStreamOpen)aACMEntries[indxacmStreamOpen]))(phas,had,pwfxSrc,pwfxDst,pwfltr,dwCallback,dwInstance,fdwOpen));
}
static MMRESULT ACMAPI acmFormatSuggest
(
HACMDRIVER had,
LPWAVEFORMATEX pwfxSrc,
LPWAVEFORMATEX pwfxDst,
DWORD cbwfxDst,
DWORD fdwSuggest
)
{
return((((pacmFormatSuggest)aACMEntries[indxacmFormatSuggest]))(had, pwfxSrc, pwfxDst, cbwfxDst, fdwSuggest));
}
static MMRESULT ACMAPI acmStreamClose
(
HACMSTREAM has,
DWORD fdwClose
)
{
return((((pacmStreamClose)aACMEntries[indxacmStreamClose]))(has, fdwClose));
}
#ifdef UNICODE
static MMRESULT ACMAPI acmFormatEnumW
(
HACMDRIVER had,
LPACMFORMATDETAILSW pafd,
ACMFORMATENUMCBW fnCallback,
DWORD_PTR dwInstance,
DWORD fdwEnum
)
{
return((((pacmFormatEnumW)aACMEntries[indxacmFormatEnumW]))(had,pafd,fnCallback,dwInstance,fdwEnum));
}
#else
static MMRESULT ACMAPI acmFormatEnumA
(
HACMDRIVER had,
LPACMFORMATDETAILSA pafd,
ACMFORMATENUMCBA fnCallback,
DWORD_PTR dwInstance,
DWORD fdwEnum
)
{
return((((pacmFormatEnumA)aACMEntries[indxacmFormatEnumA]))(had,pafd,fnCallback,dwInstance,fdwEnum));
}
#endif
CACMDynLink();
~CACMDynLink();
private:
// make copy and assignment inaccessible
CACMDynLink(const CVFWDynLink &refVFWDynLink);
CACMDynLink &operator=(const CVFWDynLink &refVFWDynLink);
};
//
// Class for dynamic linking to URLMON.DLL
//
//
// Dynamically loaded array of entry points
//
extern FARPROC aURLMonEntries[];
//
// List of index entries into the array for each redirected API
//
#define indxurlmonCreateURLMoniker 0
#define indxurlmonRegisterCallback 1
#define indxurlmonRevokeCallback 2
//
// typedef the API set that we redirect
//
typedef HRESULT (STDAPICALLTYPE * pCreateURLMoniker) (LPMONIKER pMkCtx, LPCWSTR szURL, LPMONIKER FAR * ppmk);
typedef HRESULT (STDAPICALLTYPE * pRegisterBindStatusCallback)(LPBC pBC, IBindStatusCallback *pBSCb,
IBindStatusCallback** ppBSCBPrev, DWORD dwReserved);
typedef HRESULT (STDAPICALLTYPE * pRevokeBindStatusCallback)(LPBC pBC, IBindStatusCallback *pBSCb);
class CURLMonDynLink {
private:
static HMODULE m_hURLMon; // handle to URLMON
static LONG m_URLMonlinkCount; // instance count for this process
static CRITICAL_SECTION m_LoadURLMonLock; // serialise constructor/destructor
public:
static void CURLMonDynLinkLoad()
{
InitializeCriticalSection(&m_LoadURLMonLock); // serialise constructor/destructor
}
static void CURLMonDynLinkUnload()
{
DeleteCriticalSection(&m_LoadURLMonLock); // serialise constructor/destructor
}
static HRESULT STDAPICALLTYPE CreateURLMoniker (LPMONIKER pMkCtx, LPCWSTR szURL, LPMONIKER FAR * ppmk)
{
return((((pCreateURLMoniker)aURLMonEntries[indxurlmonCreateURLMoniker]))
(pMkCtx, szURL, ppmk));
}
static HRESULT STDAPICALLTYPE RegisterBindStatusCallback (LPBC pBC, IBindStatusCallback *pBSCb,
IBindStatusCallback** ppBSCBPrev, DWORD dwReserved)
{
return((((pRegisterBindStatusCallback)aURLMonEntries[indxurlmonRegisterCallback]))
(pBC, pBSCb, ppBSCBPrev, dwReserved));
}
static HRESULT STDAPICALLTYPE RevokeBindStatusCallback (LPBC pBC, IBindStatusCallback *pBSCb)
{
return((((pRevokeBindStatusCallback)aURLMonEntries[indxurlmonRevokeCallback]))
(pBC, pBSCb));
}
CURLMonDynLink();
~CURLMonDynLink();
private:
// make copy and assignment inaccessible
CURLMonDynLink(const CVFWDynLink &refVFWDynLink);
CURLMonDynLink &operator=(const CVFWDynLink &refVFWDynLink);
};
#endif // FILTER_DLL
#endif // __DYNLINK_H__
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