/*----------------------------------------------------------------------+ | | | drvproc.c - driver procedure | | | | Copyright (c) 1993 Microsoft Corporation. | | All Rights Reserved. | | | +----------------------------------------------------------------------*/ #include #include #include #include "msyuv.h" HMODULE ghModule; // Our DLL module handle /*************************************************************************** * DriverProc - The entry point for an installable driver. * * PARAMETERS * dwDriverId: For most messages, is the DWORD * value that the driver returns in response to a message. * Each time that the driver is opened, through the API, * the driver receives a message and can return an * arbitrary, non-zero value. The installable driver interface * saves this value and returns a unique driver handle to the * application. Whenever the application sends a message to the * driver using the driver handle, the interface routes the message * to this entry point and passes the corresponding . * This mechanism allows the driver to use the same or different * identifiers for multiple opens but ensures that driver handles * are unique at the application interface layer. * * The following messages are not related to a particular open * instance of the driver. For these messages, the dwDriverId * will always be zero. * * DRV_LOAD, DRV_FREE, DRV_ENABLE, DRV_DISABLE, DRV_OPEN * * hDriver: This is the handle returned to the application by the * driver interface. * * uiMessage: The requested action to be performed. Message * values below are used for globally defined messages. * Message values from to are used for * defined driver protocols. Messages above are used * for driver specific messages. * * lParam1: Data for this message. Defined separately for * each message * * lParam2: Data for this message. Defined separately for * each message * * RETURNS * Defined separately for each message. * ***************************************************************************/ LRESULT DriverProc(PINSTINFO pi, HDRVR hDriver, UINT uiMessage, LPARAM lParam1, LPARAM lParam2) { switch (uiMessage) { case DRV_LOAD: dprintf2((TEXT("DRV_LOAD:\n"))); #ifdef _WIN32 if (ghModule) { // AVI explicitly loads us as well, but does not pass the // correct (as known by WINMM) driver handle. } else { ghModule = (HANDLE) GetDriverModuleHandle(hDriver); } #endif return (LRESULT) 1L; case DRV_FREE: dprintf2((TEXT("DRV_FREE:\n"))); return (LRESULT)1L; case DRV_OPEN: dprintf2((TEXT("DRV_OPEN\n"))); // if being opened with no open struct, then return a non-zero // value without actually opening if (lParam2 == 0L) return 0xFFFF0000; return (LRESULT)(DWORD_PTR) Open((ICOPEN FAR *) lParam2); case DRV_CLOSE: dprintf2((TEXT("DRV_CLOSE:\n"))); #ifdef _WIN32 if (pi != (PINSTINFO)(ULONG_PTR)0xFFFF0000) #else if (pi) #endif Close(pi); return (LRESULT)1L; /********************************************************************* state messages *********************************************************************/ case DRV_QUERYCONFIGURE: // configuration from drivers applet dprintf2((TEXT("DRV_QUERYCONFIGURE:\n"))); return (LRESULT)0L; case DRV_CONFIGURE: dprintf2((TEXT("DRV_CONFIGURE:\n"))); return DRV_OK; case ICM_CONFIGURE: dprintf2((TEXT("ICM_CONFIGURE:\n"))); // // return ICERR_OK if you will do a configure box, error otherwise // if (lParam1 == -1) return QueryConfigure(pi) ? ICERR_OK : ICERR_UNSUPPORTED; else return Configure(pi, (HWND)lParam1); case ICM_ABOUT: dprintf2((TEXT("ICM_ABOUT:\n"))); // // return ICERR_OK if you will do a about box, error otherwise // if (lParam1 == -1) return QueryAbout(pi) ? ICERR_OK : ICERR_UNSUPPORTED; else return About(pi, (HWND)lParam1); case ICM_GETSTATE: dprintf1((TEXT("ICM_GETSTATE:\n"))); return GetState(pi, (LPVOID)lParam1, (DWORD)lParam2); case ICM_SETSTATE: dprintf1((TEXT("ICM_SETSTATE:\n"))); return SetState(pi, (LPVOID)lParam1, (DWORD)lParam2); case ICM_GETINFO: dprintf1((TEXT("ICM_GETINFO:\n"))); return GetInfo(pi, (ICINFO FAR *)lParam1, (DWORD)lParam2); case ICM_GETDEFAULTQUALITY: dprintf2((TEXT("ICM_GETDEFAULTQUALITY:\n"))); if (lParam1) { *((LPDWORD)lParam1) = 7500; return ICERR_OK; } break; #if 0 // NOT SUPPORTED /********************************************************************* compression messages *********************************************************************/ case ICM_COMPRESS_QUERY: dprintf2((TEXT("ICM_COMPRESS_QUERY:\n"))); return CompressQuery(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_COMPRESS_BEGIN: dprintf2((TEXT("ICM_COMPRESS_BEGIN:\n"))); return CompressBegin(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_COMPRESS_GET_FORMAT: dprintf2((TEXT("ICM_COMPRESS_GET_FORMAT:\n"))); return CompressGetFormat(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_COMPRESS_GET_SIZE: dprintf2((TEXT("ICM_COMPRESS_GET_SIZE:\n"))); return CompressGetSize(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_COMPRESS: dprintf2((TEXT("ICM_COMPRESS:\n"))); return Compress(pi, (ICCOMPRESS FAR *)lParam1, (DWORD)lParam2); case ICM_COMPRESS_END: dprintf2((TEXT("ICM_COMPRESS_END:\n"))); return CompressEnd(pi); #endif /********************************************************************* decompress messages *********************************************************************/ case ICM_DECOMPRESS_QUERY: dprintf2((TEXT("\nICM_DECOMPRESS_QUERY:----------------\n"))); return DecompressQuery(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_DECOMPRESS_BEGIN: dprintf2((TEXT("\nICM_DECOMPRESS_BEGIN:\n"))); return DecompressBegin(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_DECOMPRESS_GET_FORMAT: dprintf2((TEXT("\nICM_DECOMPRESS_GET_FORMAT:================\n"))); return DecompressGetFormat(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_DECOMPRESS_GET_PALETTE: dprintf2((TEXT("ICM_DECOMPRESS_GET_PALETTE:\n"))); return DecompressGetPalette(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_DECOMPRESS: dprintf4((TEXT("ICM_DECOMPRESS:\n"))); return Decompress(pi, (ICDECOMPRESS FAR *)lParam1, (DWORD)lParam2); case ICM_DECOMPRESS_END: dprintf2((TEXT("ICM_DECOMPRESS_END:\n"))); return DecompressEnd(pi); // *EX case ICM_DECOMPRESSEX_QUERY: dprintf2((TEXT("\nICM_DECOMPRESSEX_QUERY:----------------\n"))); return DecompressExQuery(pi, (ICDECOMPRESSEX *) lParam1,(DWORD) lParam2); case ICM_DECOMPRESSEX: dprintf4((TEXT("ICM_DECOMPRESSEX:\n"))); return DecompressEx(pi, (ICDECOMPRESSEX *) lParam1, (DWORD) lParam2); case ICM_DECOMPRESSEX_BEGIN: dprintf2((TEXT("\nICM_DECOMPRESSEX_BEGIN:\n"))); return DecompressExBegin(pi, (ICDECOMPRESSEX *) lParam1,(DWORD) lParam2);; case ICM_DECOMPRESSEX_END: dprintf2((TEXT("\nICM_DECOMPRESSEX_END:\n"))); return DecompressExEnd(pi);; /********************************************************************* draw messages: *********************************************************************/ #ifdef ICM_DRAW_SUPPORTED case ICM_DRAW_BEGIN: dprintf2((TEXT("ICM_DRAW_BEGIN:\n"))); /* * sent when a sequence of draw calls are about to start - * enable hardware. */ //return DrawBegin(pi,(ICDRAWBEGIN FAR *)lParam1, (DWORD)lParam2); return( (DWORD) ICERR_OK); case ICM_DRAW: dprintf2((TEXT("ICM_DRAW:\n"))); /* * frame ready for decompress. Since we don't have any pre-buffering, * it is ok to render the frame at this time too. If we had * pre-buffer, we would queue now, and start clocking frames out * on the draw-start message. */ return Draw(pi,(ICDRAW FAR *)lParam1, (DWORD)lParam2); case ICM_DRAW_END: dprintf2((TEXT("ICM_DRAW_END:\n"))); /* * this message is sent when the sequence of draw calls has finished - * note that the final frame should remain rendered!! - so we can't * disable the hardware yet. */ //return DrawEnd(pi); //return((DWORD) ICERR_OK); case ICM_DRAW_WINDOW: dprintf2(("ICM_DRAW_WINDOW:\n")); /* * the window has changed position or z-ordering. re-sync the * hardware rendering. */ return(DrawWindow(pi, (PRECT)lParam1)); case ICM_DRAW_QUERY: dprintf2((TEXT("ICM_DRAW_QUERY:\n"))); /* * can we draw this format ? (lParam2 may (should?) be null) */ return DrawQuery(pi, (LPBITMAPINFOHEADER)lParam1, (LPBITMAPINFOHEADER)lParam2); case ICM_DRAW_START: case ICM_DRAW_STOP: dprintf2((TEXT("ICM_DRAW_START/END:\n"))); /* * only relevant if you have pre-buffering. */ return( (DWORD) ICERR_OK); #endif /********************************************************************* standard driver messages *********************************************************************/ case DRV_DISABLE: case DRV_ENABLE: dprintf2((TEXT("DRV_DISABLE/ENABLE:\n"))); return (LRESULT)1L; case DRV_INSTALL: case DRV_REMOVE: dprintf2((TEXT("DRV_INSTALL/REMOVE:\n"))); return (LRESULT)DRV_OK; } if (uiMessage < DRV_USER) { return DefDriverProc((UINT_PTR)pi, hDriver, uiMessage,lParam1,lParam2); } else { dprintf1((TEXT("DriverProc: ICM message ID (ICM_USER+%d) not supported.\n"), uiMessage-ICM_USER)); return ICERR_UNSUPPORTED; } } #ifdef _WIN32 #if 0 // done on DRV_LOAD BOOL DllInstanceInit(PVOID hModule, ULONG Reason, PCONTEXT pContext) { if (Reason == DLL_PROCESS_ATTACH) { ghModule = (HANDLE) hModule; DisableThreadLibraryCalls(hModule); } return TRUE; } #endif #endif // #else /**************************************************************************** * LibMain - Library initialization code. * * PARAMETERS * hModule: Our module handle. * * wHeapSize: The heap size from the .def file. * * lpCmdLine: The command line. * * Returns 1 if the initialization was successful and 0 otherwise. ***************************************************************************/ //int NEAR PASCAL LibMain(HMODULE hModule, WORD wHeapSize, LPSTR lpCmdLine) BOOL FAR PASCAL LibMain(HMODULE hModule, WORD wHeapSize, LPSTR lpCmdLine) { ghModule = hModule; return 1; } // #endif