/******************************************************************************* * * Module Name: mci.c * * Media Control Architecture Driver Interface * * Contents: MCI external message API's mciSendString and mciSendCommand * Author: DLL (DavidLe) * Created: 2/13/90 * 5/22/91: Ported to Win32 - NigelT * * Copyright (c) 1992 - 1995 Microsoft Corporation. All rights reserved * \******************************************************************************/ #define INCL_WINMM #include "winmmi.h" #include "mci.h" #include "wchar.h" /* * MCI critical section stuff */ #if DBG UINT cmciCritSec; // enter'ed count UINT uCritSecOwner; // Thread id of critical section owner #endif CRITICAL_SECTION mciCritSec; // used to protect process global mci variables #if DBG int mciDebugLevel; #endif extern DWORD mciWindowThreadId; #define MCIERR_AUTO_ALREADY_CLOSED ((MCIERROR)0xFF000000) // Secret return code STATICFN UINT mciConvertReturnValue( UINT uType, UINT uErr, MCIDEVICEID wDeviceID, LPDWORD dwParams, LPWSTR lpstrReturnString, UINT uReturnLength); STATICFN DWORD mciSendStringInternal( LPCWSTR lpstrCommand, LPWSTR lpstrReturnString, UINT uReturnLength, HANDLE hCallback, LPMCI_SYSTEM_MESSAGE lpMessage); STATICFN DWORD mciSendSystemString( LPCWSTR lpstrCommand, DWORD dwAdditionalFlags, LPWSTR lpstrReturnString, UINT uReturnLength); UINT mciBreakKeyYieldProc ( MCIDEVICEID wDeviceID, DWORD dwYieldData); extern UINT FAR mciExtractTypeFromID( LPMCI_OPEN_PARMSW lpOpen); // This macro defines the list of messages for which mciSendString // will not try to auto-open #define MCI_CANNOT_AUTO_OPEN(wMessage) \ (wMessage == MCI_OPEN || wMessage == MCI_SYSINFO \ || wMessage == MCI_SOUND || wMessage == MCI_CLOSE \ || wMessage == MCI_BREAK) // This macro devices the list of message which do not require an open // device. It is a subset of MCI_CANNOT_AUTO_OPEN #define MCI_DO_NOT_NEED_OPEN(wMessage) \ (wMessage == MCI_OPEN || wMessage == MCI_SOUND || wMessage == MCI_SYSINFO) // Strings used in mciAutoOpenDevice WSZCODE wszOpen[] = L"open"; STATICDT WSZCODE wszClose[] = L"close"; STATICDT WSZCODE wszNotify[] = L"notify"; // IMPORTANT: MUST be lowercase STATICDT WSZCODE wszWait[] = L"wait"; STATICDT WSZCODE szCmdFormat[] = L"%ls %ls"; STATICDT WSZCODE szLongFormat[] = L"%ld"; STATICDT WSZCODE szRectFormat[] = L"%d %d %d %d"; // Special device name STATICDT WSZCODE wszNew[] = L"new"; /***************************************************************************** * @doc INTERNAL * * @func void | MciNotify | called by mmWndProc when it recives a * MM_MCINOTIFY message * @rdesc None. * ****************************************************************************/ void MciNotify( DWORD wParam, LONG lParam) { // // wParam is the notify status // lParam is the MCI device id // mciEnter("MciNotify"); if (MCI_VALID_DEVICE_ID((UINT)lParam) // If a valid device && !(ISCLOSING(MCI_lpDeviceList[lParam]))) { // and if not in process of closing SETAUTOCLOSING(MCI_lpDeviceList[lParam]); // // Must not hold MCI critical section when calling mciCloseDevice // because DrvClose gets the load/unload critical section while // drivers loading will have the load/unload critical section // but can call back (eg) to mciRegisterCommandTable causing // a deadlock. // // Even if the incoming notification is ABORTED/SUPERSEDED/FAILED // we must still close the device. Otherwise devices get left open. // mciCloseDevice will protect against trying to close a device that // we do not own. mciLeave("MciNotify"); mciCloseDevice ((MCIDEVICEID)lParam, 0L, NULL, TRUE); } else { mciLeave("MciNotify"); } } /*--------------------------------------------------------------------*\ * HandleNotify * \*--------------------------------------------------------------------*/ STATICFN void HandleNotify( DWORD uErr, MCIDEVICEID wDeviceID, DWORD dwFlags, DWORD dwParam2) { LPMCI_GENERIC_PARMS lpGeneric = (LPMCI_GENERIC_PARMS)dwParam2; HANDLE hCallback; if (0 == uErr && dwFlags & MCI_NOTIFY && lpGeneric != NULL && (hCallback = (HANDLE)lpGeneric->dwCallback) != NULL) { mciDriverNotify (hCallback, wDeviceID, MCI_NOTIFY_SUCCESSFUL); } } #if DBG /*--------------------------------------------------------------------*\ * mciDebugOut * * Dump the string form of an MCI command \*--------------------------------------------------------------------*/ UINT NEAR mciDebugOut( MCIDEVICEID wDeviceID, UINT wMessage, DWORD dwFlags, DWORD dwParam2, LPMCI_DEVICE_NODE nodeWorking) { LPWSTR lpCommand, lpFirstParameter, lpPrevious, lszDebugOut; WCHAR strTemp[256]; UINT wID; UINT wOffset, wOffsetFirstParameter; UINT uReturnType = 0; DWORD dwValue; DWORD dwMask = 1; // used to test each flag bit in turn UINT wTable; // Find the command table for the given command message ID lpCommand = FindCommandItem( wDeviceID, NULL, (LPWSTR)wMessage, NULL, &wTable ); if (lpCommand == NULL) { if (wMessage != MCI_OPEN_DRIVER && wMessage != MCI_CLOSE_DRIVER) { ROUT(("WINMM: mciDebugOut: Command table not found")); } return 0; } lszDebugOut = mciAlloc( BYTE_GIVEN_CHAR( 512 ) ); if (!lszDebugOut) { ROUT(("WINMM: Not enough memory to display command")); return 0; } // Dump the command name into the buffer wsprintfW( lszDebugOut, L"MCI command: \"%ls", lpCommand ); // Dump the device name if (wDeviceID == MCI_ALL_DEVICE_ID) { wcscat( lszDebugOut, L" all" ); } else if (nodeWorking != NULL) { if (nodeWorking->dwMCIOpenFlags & MCI_OPEN_ELEMENT_ID) { wsprintfW( lszDebugOut + wcslen( lszDebugOut ), L" Element ID:0x%lx", nodeWorking->dwElementID ); } else if (nodeWorking->lpstrName != NULL) { wsprintfW( lszDebugOut + wcslen( lszDebugOut ), L" %ls", nodeWorking->lpstrName ); } } // Skip past command entry lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, NULL, NULL)); // Get the next entry lpFirstParameter = lpCommand; // Skip past the DWORD return value wOffsetFirstParameter = 4; lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, &dwValue, &wID )); // If it is a return value, skip it if (wID == MCI_RETURN) { uReturnType = (UINT)dwValue; lpFirstParameter = lpCommand; wOffsetFirstParameter += mciGetParamSize (dwValue, wID); lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry(lpCommand, &dwValue, &wID)); } // Dump device name parameter to OPEN if (wMessage == MCI_OPEN) { LPCWSTR lpstrDeviceType = ((LPMCI_OPEN_PARMSW)dwParam2)->lpstrDeviceType; LPCWSTR lpstrElementName = ((LPMCI_OPEN_PARMSW)dwParam2)->lpstrElementName; // Tack on device type if (dwFlags & MCI_OPEN_TYPE_ID) { LPMCI_OPEN_PARMSW lpOpen = (LPMCI_OPEN_PARMSW)dwParam2; DWORD dwOld = (DWORD)lpOpen->lpstrDeviceType; if (mciExtractTypeFromID ((LPMCI_OPEN_PARMSW)dwParam2) != 0) { strTemp[0] = '\0'; } wcscpy (strTemp, (LPWSTR)lpOpen->lpstrDeviceType); mciFree ((LPWSTR)lpOpen->lpstrDeviceType); lpOpen->lpstrDeviceType = (LPWSTR)dwOld; } else if (lpstrDeviceType != NULL) wcscpy (strTemp, (LPWSTR)lpstrDeviceType); else { strTemp[0] = '\0'; } if (dwFlags & MCI_OPEN_ELEMENT_ID) { // Tack on element ID wcscat( strTemp, L" Element ID:"); wsprintfW( strTemp + wcslen (strTemp), szLongFormat, LOWORD ((DWORD)lpstrDeviceType)); } else { // Add separator if both type name and element name are present if (lpstrDeviceType != 0 && lpstrElementName != 0) { wcscat( strTemp, L"!" ); } if (lpstrElementName != 0 && dwFlags & MCI_OPEN_ELEMENT) { wcscat( strTemp, lpstrElementName ); } } wsprintfW( lszDebugOut + wcslen(lszDebugOut), L" %ls", strTemp ); } // Walk through each flag while (dwMask != 0) { // Is this bit set? if ((dwFlags & dwMask) != 0 && ! // The MCI_OPEN_TYPE and MCI_OPEN_ELEMENT flags are taken care of // above (wMessage == MCI_OPEN && (dwMask == MCI_OPEN_TYPE || dwMask == MCI_OPEN_ELEMENT))) { lpPrevious = lpCommand = lpFirstParameter; wOffset = 0; lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, &dwValue, &wID )); // What parameter uses this bit? while (wID != MCI_END_COMMAND && dwValue != dwMask) { wOffset += mciGetParamSize( dwValue, wID); if (wID == MCI_CONSTANT) { while (wID != MCI_END_CONSTANT) { lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, NULL, &wID)); } } lpPrevious = lpCommand; lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, &dwValue, &wID )); } if (wID != MCI_END_COMMAND) { // Found the parameter which matches this flag bit // Print the parameter name if (*lpPrevious) { wsprintfW( lszDebugOut + wcslen(lszDebugOut), L" %ls", lpPrevious); } // Print any argument switch (wID) { case MCI_STRING: wsprintfW( lszDebugOut + wcslen(lszDebugOut), L" %ls", *(LPWSTR *)( (LPBYTE)dwParam2 + wOffset + wOffsetFirstParameter) ); break; case MCI_CONSTANT: { DWORD dwConst = *(LPDWORD)((LPBYTE)dwParam2 + wOffset + wOffsetFirstParameter); UINT wLen; BOOL bFound = FALSE; while (wID != MCI_END_CONSTANT) { wLen = mciEatCommandEntry( lpCommand, &dwValue, &wID); if (dwValue == dwConst) { bFound = TRUE; wsprintfW( lszDebugOut + wcslen(lszDebugOut), L" %ls", lpCommand); } lpCommand = (LPWSTR)((LPBYTE)lpCommand + wLen); } if (bFound) break; // FALL THROUGH } case MCI_INTEGER: case MCI_HWND: case MCI_HPAL: case MCI_HDC: wsprintfW( strTemp, szLongFormat, *(LPDWORD)((LPBYTE)dwParam2 + wOffset + wOffsetFirstParameter)); wsprintfW( lszDebugOut + wcslen(lszDebugOut), L" %ls", strTemp ); break; } } } // Go to the next flag dwMask <<= 1; } mciUnlockCommandTable( wTable); wcscat(lszDebugOut, L"\"" ); ROUTSW((lszDebugOut)); mciFree(lszDebugOut); return uReturnType; } #endif DWORD mciBreak( MCIDEVICEID wDeviceID, DWORD dwFlags, LPMCI_BREAK_PARMS lpBreakon) { HWND hwnd; if (dwFlags & MCI_BREAK_KEY) { if (dwFlags & MCI_BREAK_OFF) { return MCIERR_FLAGS_NOT_COMPATIBLE; } if (dwFlags & MCI_BREAK_HWND) { hwnd = lpBreakon->hwndBreak; } else { hwnd = NULL; } return mciSetBreakKey (wDeviceID, lpBreakon->nVirtKey, hwnd) ? 0 : MMSYSERR_INVALPARAM; } else if (dwFlags & MCI_BREAK_OFF) { mciSetYieldProc (wDeviceID, NULL, 0); return 0; } else { return MCIERR_MISSING_PARAMETER; } } //*********************************************************************** // mciAutoCloseDevice // // Close the indicated device by sending a message inter-task //*********************************************************************** STATICFN DWORD mciAutoCloseDevice( LPCWSTR lpstrDevice) { LPWSTR lpstrCommand; DWORD dwRet; int alloc_len = BYTE_GIVEN_CHAR( wcslen( lpstrDevice) ) + sizeof(wszClose) + sizeof(WCHAR); if ((lpstrCommand = mciAlloc ( alloc_len ) ) == NULL) return MCIERR_OUT_OF_MEMORY; wsprintfW( lpstrCommand, szCmdFormat, wszClose, lpstrDevice); dwRet = mciSendSystemString( lpstrCommand, 0L, NULL, 0); mciFree( lpstrCommand); return dwRet; } //*********************************************************************** // mciSendSingleCommand // // Process a single MCI command // Called by mciSendCommandInternal // //*********************************************************************** DWORD NEAR mciSendSingleCommand( MCIDEVICEID wDeviceID, UINT wMessage, DWORD dwParam1, DWORD dwParam2, LPMCI_DEVICE_NODE nodeWorking, BOOL bWalkAll, LPMCI_INTERNAL_OPEN_INFO lpOpenInfo) { DWORD dwRet; #if DBG UINT uReturnType; if (mciDebugLevel != 0) uReturnType = mciDebugOut( wDeviceID, wMessage, dwParam1, dwParam2, nodeWorking); if (nodeWorking == NULL && !MCI_DO_NOT_NEED_OPEN (wMessage)) return MCIERR_INTERNAL; #endif switch (wMessage) { case MCI_OPEN: dwRet = mciOpenDevice (dwParam1, (LPMCI_OPEN_PARMSW)dwParam2, lpOpenInfo); break; case MCI_CLOSE: // If we were walking the device list and this device was auto opened // send the command via a task switch // If we just called mciCloseDevice (as sometimes happened before a bug // was fixed mciCloseDevice will unload the driver but the MCI_CLOSE_DRIVER // command will not get sent because it will be rejected as coming from the // wrong task. The result would be (was) that the driver would access violate // when it next did something. if (GetCurrentTask() != nodeWorking->hCreatorTask) { LPWSTR lpstrCommand; if (!bWalkAll) { // // Only valid to close an auto-opened device if it's // being close as part of closing MCI_ALL_DEVICE_ID // We can reach here if an app 'guesses' an MCI device // id and tries to close it while playing. // dwRet = MCIERR_ILLEGAL_FOR_AUTO_OPEN; break; } lpstrCommand = mciAlloc( sizeof(wszClose)+ sizeof(WCHAR) + BYTE_GIVEN_CHAR( wcslen( nodeWorking->lpstrName ) ) ); if ( lpstrCommand == NULL ) return MCIERR_OUT_OF_MEMORY; wcscpy( lpstrCommand, wszClose); wcscat( lpstrCommand, L" "); wcscat( lpstrCommand, nodeWorking->lpstrName); dwRet = mciSendSystemString( lpstrCommand, 0L, NULL, 0); mciFree( lpstrCommand); } else dwRet = mciCloseDevice( wDeviceID, dwParam1, (LPMCI_GENERIC_PARMS)dwParam2, TRUE); break; case MCI_SYSINFO: dwRet = mciSysinfo( wDeviceID, dwParam1, (LPMCI_SYSINFO_PARMSW)dwParam2); HandleNotify( dwRet, wDeviceID, dwParam1, dwParam2); break; case MCI_BREAK: dwRet = mciBreak( wDeviceID, dwParam1, (LPMCI_BREAK_PARMS)dwParam2); HandleNotify( dwRet, wDeviceID, dwParam1, dwParam2); break; case MCI_SOUND: { LPMCI_SOUND_PARMSW lpSound = (LPMCI_SOUND_PARMSW)dwParam2; if ( PlaySoundW( MCI_SOUND_NAME & dwParam1 ? lpSound->lpstrSoundName : L".Default", (HANDLE)0, dwParam1 & MCI_WAIT ? SND_SYNC | SND_ALIAS : SND_ASYNC | SND_ALIAS ) ) { dwRet = 0; } else { dwRet = MCIERR_HARDWARE; } HandleNotify( dwRet, wDeviceID, dwParam1, dwParam2); break; } default: #if 0 // don't bother (NigelT) if (mciDebugLevel > 1) { dwStartTime = timeGetTime(); } #endif // Initialize GetAsyncKeyState for break key { if ((dwParam1 & MCI_WAIT) && nodeWorking->fpYieldProc == mciBreakKeyYieldProc) { dprintf4(("Getting initial state of Break key")); GetAsyncKeyState( nodeWorking->dwYieldData); //GetAsyncKeyState( LOWORD(nodeWorking->dwYieldData)); } } dwRet = DrvSendMessage( nodeWorking->hDrvDriver, wMessage, dwParam1, dwParam2); break; } // switch #if DBG if (mciDebugLevel != 0) { if (dwRet & MCI_INTEGER_RETURNED) uReturnType = MCI_INTEGER; switch (uReturnType) { case MCI_INTEGER: { WCHAR strTemp[50]; mciConvertReturnValue( uReturnType, HIWORD(dwRet), wDeviceID, (LPDWORD)dwParam2, strTemp, CHAR_GIVEN_BYTE( sizeof(strTemp) ) ); dprintf2((" returns: %ls", strTemp)); break; } case MCI_STRING: dprintf2((" returns: %ls",(LPWSTR)(1 + (LPDWORD)dwParam2))); break; } } #endif return dwRet; } //*********************************************************************** // mciSendCommandInternal // // Internal version of mciSendCommand. Differs ONLY in that the return // value is a DWORD where the high word has meaning only for mciSendString // //*********************************************************************** STATICFN DWORD mciSendCommandInternal( MCIDEVICEID wDeviceID, UINT wMessage, DWORD dwParam1, DWORD dwParam2, LPMCI_INTERNAL_OPEN_INFO lpOpenInfo) { DWORD dwRetVal; LPMCI_DEVICE_NODE nodeWorking = NULL; BOOL bWalkAll; DWORD dwAllError = 0; HANDLE hCurrentTask; hCurrentTask = GetCurrentTask(); // If the device is "all" and the message is *not* // "sysinfo" then we must walk all devices if (wDeviceID == MCI_ALL_DEVICE_ID && (wMessage != MCI_SYSINFO) && (wMessage != MCI_SOUND)) { if (wMessage == MCI_OPEN) { dwRetVal = MCIERR_CANNOT_USE_ALL; goto exitfn; } bWalkAll = TRUE; // Start at device #1 wDeviceID = 1; } else { bWalkAll = FALSE; } mciEnter("mciSendCommandInternal"); // Walk through all devices if bWalkAll or just one device if !bWalkAll do { // Initialize dwRetVal = 0; // Validate the device ID if single device if (!bWalkAll) { if (!MCI_DO_NOT_NEED_OPEN(wMessage)) { if (!MCI_VALID_DEVICE_ID(wDeviceID)) { dwRetVal = MCIERR_INVALID_DEVICE_ID; goto exitfn; } nodeWorking = MCI_lpDeviceList[wDeviceID]; } } else if (wMessage != MCI_SYSINFO) { nodeWorking = MCI_lpDeviceList[wDeviceID]; } // Skip if walking the device list and the // device is not part of the current task if (bWalkAll) { if (nodeWorking == NULL || nodeWorking->hOpeningTask != hCurrentTask) goto no_send; } // If the device is in the process of closing and the message // is not MCI_CLOSE_DEVICE then return an error if (nodeWorking != NULL && ISCLOSING(nodeWorking) && wMessage != MCI_CLOSE_DRIVER) { dwRetVal = MCIERR_DEVICE_LOCKED; goto exitfn; } // If this message is being sent from the wrong task (the device was auto- // opened) fail all but the MCI_CLOSE message which gets sent inter-task if (nodeWorking != NULL && nodeWorking->hCreatorTask != hCurrentTask) { if (wMessage != MCI_CLOSE) { dwRetVal = MCIERR_ILLEGAL_FOR_AUTO_OPEN; goto exitfn; } else { // Don't even allow close from mciSendCommand if auto-open device has a // pending close if (ISAUTOCLOSING(nodeWorking)) { dwRetVal = MCIERR_DEVICE_LOCKED; goto exitfn; } } } mciLeave("mciSendCommandInternal"); dwRetVal = mciSendSingleCommand( wDeviceID, wMessage, dwParam1, dwParam2, nodeWorking, bWalkAll, lpOpenInfo); mciEnter("mciSendCommandInternal"); no_send: // If we are processing multiple devices if (bWalkAll) { // If there was an error for this device if (dwRetVal != 0) { // If this is not the first error if (dwAllError != 0) { dwAllError = MCIERR_MULTIPLE; // Just one error so far } else { dwAllError = dwRetVal; } } } } while (bWalkAll && ++wDeviceID < MCI_wNextDeviceID); exitfn:; mciLeave("mciSendCommandInternal"); return dwAllError == MCIERR_MULTIPLE ? dwAllError : dwRetVal; } /************************************************************************ * @doc EXTERNAL MCI * * @api DWORD | mciSendCommand | This function sends a command message to * the specified MCI device. * * @parm MCIDEVICEID | wDeviceID | Specifies the device ID of the MCI device * to receive the command. This parameter is * not used with the command. * * @parm UINT | wMessage | Specifies the command message. * * @parm DWORD | dwParam1 | Specifies flags for the command. * * @parm DWORD | dwParam2 | Specifies a pointer to a parameter block * for the command. * * @rdesc Returns zero if the function was successful. Otherwise, it returns * error information. The low-order word * of the returned DWORD is the error return value. If the error is * device-specific, the high-order word contains the driver ID; otherwise * the high-order word is zero. * * To get a textual description of return values, * pass the return value to . * * Error values that are returned when a device is being opened * are listed with the MCI_OPEN message. In addition to the * MCI_OPEN error returns, this function can * return the following values: * * @flag MCIERR_BAD_TIME_FORMAT | Illegal value for time format. * * @flag MCIERR_CANNOT_USE_ALL | The device name "all" is not allowed * for this command. * * @flag MCIERR_CREATEWINDOW | Could not create or use window. * * @flag MCIERR_DEVICE_LOCKED | The device is locked until it is * closed automatically. * * @flag MCIERR_DEVICE_NOT_READY | Device not ready. * * @flag MCIERR_DEVICE_TYPE_REQUIRED | The device name must be a valid * device type. * * @flag MCIERR_DRIVER | Unspecified device error. * * @flag MCIERR_DRIVER_INTERNAL | Internal driver error. * * @flag MCIERR_FILE_NOT_FOUND | Requested file not found. * * @flag MCIERR_FILE_NOT_SAVED | The file was not saved. * * @flag MCIERR_FILE_READ | A read from the file failed. * * @flag MCIERR_FILE_WRITE | A write to the file failed. * * @flag MCIERR_FLAGS_NOT_COMPATIBLE | Incompatible parameters * were specified. * * @flag MCIERR_HARDWARE | Hardware error on media device. * * @flag MCIERR_INTERNAL | Internal error. * * @flag MCIERR_INVALID_DEVICE_ID | Invalid device ID. * * @flag MCIERR_INVALID_DEVICE_NAME | The device is not open * or is not known. * * @flag MCIERR_INVALID_FILE | Invalid file format. * * @flag MCIERR_MULTIPLE | Errors occurred in more than one device. * * @flag MCIERR_NO_WINDOW | There is no display window. * * @flag MCIERR_NULL_PARAMETER_BLOCK | Parameter block pointer was NULL. * * @flag MCIERR_OUT_OF_MEMORY | Not enough memory for requested operation. * * @flag MCIERR_OUTOFRANGE | Parameter value out of range. * * @flag MCIERR_UNNAMED_RESOURCE | Attempt to save unnamed file. * * @flag MCIERR_UNRECOGNIZED_COMMAND | Unknown command. * * @flag MCIERR_UNSUPPORTED_FUNCTION | Action not available for this * device. * * The following additional return values are defined for MCI sequencers: * * @flag MCIERR_SEQ_DIV_INCOMPATIBLE | Set Song Pointer incompatible * with SMPTE files. * * @flag MCIERR_SEQ_PORT_INUSE | Specified port is in use. * * @flag MCIERR_SEQ_PORT_MAPNODEVICE | Current map uses non-existent * device. * * @flag MCIERR_SEQ_PORT_MISCERROR | Miscellaneous error with * specified port. * * @flag MCIERR_SEQ_PORT_NONEXISTENT | Specified port does not exist. * * @flag MCIERR_SEQ_PORTUNSPECIFIED | No current MIDI port. * * @flag MCIERR_SEQ_NOMIDIPRESENT | No MIDI ports present. * * @flag MCIERR_SEQ_TIMER | Timer error. * * The following additional return values are defined for MCI waveform * audio devices: * * @flag MCIERR_WAVE_INPUTSINUSE | No compatible waveform recording * device is free. * * @flag MCIERR_WAVE_INPUTSUNSUITABLE | No compatible waveform * recording devices. * * @flag MCIERR_WAVE_INPUTUNSPECIFIED | Any compatible waveform * recording device may be used. * * @flag MCIERR_WAVE_OUTPUTSINUSE | No compatible waveform playback * device is free. * * @flag MCIERR_WAVE_OUTPUTSUNSUITABLE | No compatible waveform * playback devices. * * @flag MCIERR_WAVE_OUTPUTUNSPECIFIED | Any compatible waveform * playback device may be used. * * @flag MCIERR_WAVE_SETINPUTINUSE | Set waveform recording device * is in use. * * @flag MCIERR_WAVE_SETINPUTUNSUITABLE | Set waveform recording * device is incompatible with set format. * * @flag MCIERR_WAVE_SETOUTPUTINUSE | Set waveform playback device * is in use. * * @flag MCIERR_WAVE_SETOUTPUTUNSUITABLE | Set waveform playback * device is incompatible with set format. * * @comm Use the command to obtain the device ID * specified by

. * * @xref mciGetErrorString mciSendString */ /* * @doc internal * * @api DWORD | mciDriverEntry | Actually a callback. The entry point for MCI drivers. * * @parm UINT | wMessage | Identifies the requested action to be performed. * * @parm DWORD | dwParam1 | Specifies data for this message. Defined separately * for each message. * * @parm DWORD | dwParam2 | Specifies data for this message. Defined separately * for each message. * * @rdesc The return value is defined separately for each message. */ DWORD mciSendCommandA( MCIDEVICEID wDeviceID, UINT wMessage, DWORD dwParam1, DWORD dwParam2) { LPCSTR lpStr1; LPCSTR lpStr2; LPCSTR lpStr3; DWORD dwRet; /* ** If dwParam1 is 0L, we have no information to perform the ascii ** to unicode thunks from. Therefore, I will pass the call straight ** thru to mciSendCommandW "as is". */ if ( dwParam1 == 0L ) { return mciSendCommandW( wDeviceID, wMessage, dwParam1, dwParam2 ); } /* ** If we are still here we have some thunking to do. ** ** ** Basically this code is very similiar to the WOW thunk code. ** ** We have to special case MCI_OPEN and MCI_SYSINFO because the ** command table is either not available or in an inconsistent state. ** ** Otherwise, the code is identical to the WOW code. Maybe we could do ** unicode thunking in the WOW layer and then call mciSendCommandW. ** It seems bad that we should have to thunk poor old WOW apps twice!! ** they are slow enough as it is :-) ** ** We have the advantage that all pointers are already 32 bit. ** */ switch ( wMessage ) { case MCI_CLOSE_DRIVER: dprintf3(( "MCI_CLOSE_DRIVER command" )); return mciSendCommandW( wDeviceID, wMessage, dwParam1, dwParam2 ); break; case MCI_OPEN_DRIVER: dprintf3(( "MCI_OPEN_DRIVER command" )); /* fall thru */ case MCI_OPEN: { LPMCI_OPEN_PARMSW lpOpenP = (LPMCI_OPEN_PARMSW)dwParam2; #if DBG dprintf3(( "MCI_OPEN command" )); /* ** As of yet I don't know how to thunk command extensions ** for the open command. ** These may well contain strings but we have no way of ** knowing because we haven't got access to the command table. */ if ( dwParam1 & 0xFFFF0000 ) { dprintf1(( "MCI_OPEN called with command extensions !!" )); } #endif /* ** First save the original ascii string pointers. ** Note that lpstrDeviceType may be a TYPE_ID ** Note that lpstrElementName may be a ELEMENT_ID */ lpStr1 = (LPCSTR)lpOpenP->lpstrDeviceType; lpStr2 = (LPCSTR)lpOpenP->lpstrElementName; lpStr3 = (LPCSTR)lpOpenP->lpstrAlias; /* ** Now allocate a unicode copy of the ascii, don't try ** to copy NULL strings, or ID types ** ** The first string to be copied is lpstrDeviceType. ** This pointer is only valid if the MCI_OPEN_TYPE bit ** is set and MCI_OPEN_TYPE_ID is not set. If either ** bit is set and lpstrDeviceType is NULL it is an ** error that will be picked up later. ** ** The second string is lpstrElementName which is valid ** only with MCI_OPEN_ELEMENT set and MCI_OPEN_ELEMENT_ID ** not set. As in the case above it is an error if ** either bit is set but the pointer itself is NULL. ** ** The third string is lpstrAlias which is valid only ** with MCI_OPEN_ALIAS set. In this case when this bit ** is set there is no modifying bit that changes the ** meaning of the pointer. ** ** If an unicode string is not allocated the internal ** pointer is set to NULL. This value can be checked ** after the mciSendCommand call to see if the string ** has to be freed and the original pointer restored. */ if ( lpStr1 ) { if ((dwParam1 & MCI_OPEN_TYPE) && !(dwParam1 & MCI_OPEN_TYPE_ID) ) { lpOpenP->lpstrDeviceType = AllocUnicodeStr( (LPSTR)lpStr1 ); if ( lpOpenP->lpstrDeviceType == NULL ) { dwRet = MCIERR_OUT_OF_MEMORY; goto err1; } } else lpStr1 = NULL; // Nothing allocated, will free nothing } if ( lpStr2 ) { if ((dwParam1 & MCI_OPEN_ELEMENT) && !(dwParam1 & MCI_OPEN_ELEMENT_ID) ) { lpOpenP->lpstrElementName = AllocUnicodeStr( (LPSTR)lpStr2 ); if ( lpOpenP->lpstrElementName == NULL ) { dwRet = MCIERR_OUT_OF_MEMORY; goto err2; } } else lpStr2 = NULL; // Nothing allocated, will free nothing } if ( lpStr3 ) { if (dwParam1 & MCI_OPEN_ALIAS) { lpOpenP->lpstrAlias = AllocUnicodeStr( (LPSTR)lpStr3 ); if ( lpOpenP->lpstrAlias == NULL ) { dwRet = MCIERR_OUT_OF_MEMORY; goto err3; } } else lpStr3 = NULL; // Nothing allocated, will free nothing } /* ** Now call the unicode version */ dwRet = mciSendCommandW( wDeviceID, wMessage, dwParam1, dwParam2 ); /* ** Free the unicode strings. ** and restore the original string pointers */ if ( lpStr3 ) { FreeUnicodeStr( (LPWSTR)lpOpenP->lpstrAlias ); err3: lpOpenP->lpstrAlias = (LPCWSTR)lpStr3; } if ( lpStr2 ) { FreeUnicodeStr( (LPWSTR)lpOpenP->lpstrElementName ); err2: lpOpenP->lpstrElementName = (LPCWSTR)lpStr2; } if ( lpStr1 ) { FreeUnicodeStr( (LPWSTR)lpOpenP->lpstrDeviceType ); err1: lpOpenP->lpstrDeviceType = (LPCWSTR)lpStr1; } return dwRet; } case MCI_SYSINFO: dprintf3(( "MCI_SYSINFO command" )); /* ** If we are returning a number forget about UNICODE, ** applies when (dwParam1 & MCI_SYSINFO_QUANTITY) is TRUE. */ if ( dwParam1 & MCI_SYSINFO_QUANTITY ) { return mciSendCommandW( wDeviceID, wMessage, dwParam1, dwParam2 ); } else { LPMCI_SYSINFO_PARMSW lpInfoP = (LPMCI_SYSINFO_PARMSW)dwParam2; DWORD len = BYTE_GIVEN_CHAR( lpInfoP->dwRetSize ); /* ** First save the original ascii string pointers. */ lpStr1 = (LPSTR)lpInfoP->lpstrReturn; /* ** If there is somewhere to store the result then we ** must allocate temporary space (for Unicode result) ** and on return from mciSendCommandW translate the ** string to Ascii. */ if (len) { if ( lpStr1 ) { lpInfoP->lpstrReturn = mciAlloc( len ); if ( lpInfoP->lpstrReturn == NULL ) { lpInfoP->lpstrReturn = (LPWSTR)lpStr1; return MCIERR_OUT_OF_MEMORY; } lpStr2 = mciAlloc( len ); if ( lpStr2 == NULL ) { mciFree( (LPWSTR)lpInfoP->lpstrReturn ); lpInfoP->lpstrReturn = (LPWSTR)lpStr1; return MCIERR_OUT_OF_MEMORY; } } } else { /* ** Should we ZERO the string pointers in the parameter block? ** Yes, belts and braces !! */ lpInfoP->lpstrReturn = NULL; } /* ** Now call the unicode version */ dwRet = mciSendCommandW( wDeviceID, wMessage, dwParam1, dwParam2 ); /* ** Copy the unicode return string into ascii, if the ** user provided a return string */ if (len && lpStr1) { if ((MMSYSERR_NOERROR == dwRet) && len) { UnicodeStrToAsciiStr( (PBYTE)lpStr2, (PBYTE)lpStr2 + len, lpInfoP->lpstrReturn ); /* On return from mciSendCommandW lpInfoP->dwRetSize is ** equal to the number of characters copied to ** lpInfoP->lpstrReturn less the NULL terminator. ** So add one to lpInfoP->dwRetSize to include the NULL ** in the strncpy below. ** ** But ONLY if the original buffer was large enough. */ #ifdef DBCS //fix kksuzuka: #3642 //have to copy byte length into ASCII buffer.. strncpy( (LPSTR)lpStr1, lpStr2, min(BYTE_GIVEN_CHAR(lpInfoP->dwRetSize+1), CHAR_GIVEN_BYTE(len))); #else strncpy( (LPSTR)lpStr1, lpStr2, min((UINT)lpInfoP->dwRetSize + 1, CHAR_GIVEN_BYTE(len)) ); #endif #if DBG dprintf3(( "Return param (UNICODE)= %ls", lpInfoP->lpstrReturn )); dprintf3(( "Return param (ASCII) = %s", lpStr1 )); #endif } /* ** Free temp storage and restore the original strings */ mciFree( lpInfoP->lpstrReturn ); lpInfoP->lpstrReturn = (LPWSTR)lpStr1; mciFree( lpStr2 ); } return dwRet; } default: { /* ** NewParms is allocated off the stack in order to minimize ** the number of calls to mciAlloc, and it means we do not ** have to remember to free it. */ DWORD NewParms[MCI_MAX_PARAM_SLOTS]; /* ** dwStrMask is used to store a bitmap representation of which ** offsets into dwParam2 contain strings. ie. bit 4 set ** means that dwParam2[4] is a string. */ DWORD dwStrMask = 0L; /* ** fStrReturn is used as a reminder of whether a string return ** is expected or not. If the return type is not a string ** we just copy the bytes back as is. uReturnLength is the ** number of bytes to copy back. dwParm2 is used to ease some ** of the addressing used to access the dwParam2 array. */ BOOL fStrReturn = FALSE; UINT uReturnLength = 0; LPDWORD dwParm2 = (LPDWORD)dwParam2; /* ** The remaining variables are used as we scan our way thru the ** command table. */ LPWSTR lpCommand, lpFirstParameter; LPSTR lpReturnStrTemp; UINT wID; DWORD dwValue; UINT wOffset32, wOffset1stParm32, uTable, uStrlenBytes; PDWORD pdwParm32; DWORD dwMask = 1; if (!dwParam2) { return mciSendCommandW( wDeviceID, wMessage, dwParam1, dwParam2); } /* ** Find the command table for the given command ID. ** If the command table is not there we have probably been ** given a duff device ID. Anyway exit with an internal ** error. */ lpCommand = FindCommandItem( wDeviceID, NULL, (LPWSTR)wMessage, NULL, &uTable ); if ( lpCommand == NULL ) { return MCIERR_UNSUPPORTED_FUNCTION; } #if DBG ZeroMemory(NewParms, sizeof(NewParms)); #endif /* ** Copy callback field. */ if ( dwParam1 & MCI_NOTIFY ) { NewParms[0] = dwParm2[0]; } /* ** Skip past command entry */ lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, NULL, NULL )); /* ** Get and remember the first parameter */ lpFirstParameter = lpCommand; /* ** Skip past the DWORD callback field */ wOffset1stParm32 = 4; lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, &dwValue, &wID )); /* ** If the first parameter is a return value, we have some ** special processing */ if ( wID == MCI_RETURN ) { /* ** String return types are a special case. */ if ( dwValue == MCI_STRING ) { dprintf3(( "Found a return string" )); /* ** Get unicode string length in bytes and allocate ** some storage, but only if a valid length has been ** given. Otherwise set this field to NULL, we must ** use 0 here otherwise the MIPS compiler goes ** ape Xxxx. We set a flag to remind us to unthunk ** the return string later. ** ** Note that we are actually allocating lots of equally ** sized storage here. This saves on the number of times ** that we call mciAlloc. */ if ( uStrlenBytes = BYTE_GIVEN_CHAR( dwParm2[2] ) ) { NewParms[1] = (DWORD)mciAlloc( uStrlenBytes * 2 ); dprintf4(( "Allocated %d bytes for the return string at %x", uStrlenBytes, NewParms[1] )); if ( NewParms[1] == 0 ) { mciUnlockCommandTable( uTable ); return MCIERR_OUT_OF_MEMORY; } lpReturnStrTemp = (LPSTR)(NewParms[1] + uStrlenBytes); fStrReturn = TRUE; } else { NewParms[1] = (DWORD)0; } /* ** Copy string length. */ NewParms[2] = dwParm2[2]; } /* ** Adjust the offset of the first parameter. */ uReturnLength = mciGetParamSize( dwValue, wID ); wOffset1stParm32 += uReturnLength; /* ** Save the new first parameter pointer */ lpFirstParameter = lpCommand; } /* ** Walk through each flag */ while ( dwMask != 0 ) { /* ** Is this bit set? */ if ( (dwParam1 & dwMask) != 0 ) { wOffset32 = wOffset1stParm32; lpCommand = (LPWSTR)((LPBYTE)lpFirstParameter + mciEatCommandEntry( lpFirstParameter, &dwValue, &wID )); /* ** What parameter uses this bit? */ while ( wID != MCI_END_COMMAND && dwValue != dwMask ) { wOffset32 += mciGetParamSize( dwValue, wID ); if ( wID == MCI_CONSTANT ) { while ( wID != MCI_END_CONSTANT ) { lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, NULL, &wID )); } } lpCommand = (LPWSTR)((LPBYTE)lpCommand + mciEatCommandEntry( lpCommand, &dwValue, &wID )); } if ( wID != MCI_END_COMMAND ) { pdwParm32 = (LPDWORD)((LPBYTE)NewParms + wOffset32); if ( wID == MCI_STRING ) { /* ** Allocate a unicode string for this parameter ** and set the flag. */ *pdwParm32 = (DWORD)AllocUnicodeStr( (LPSTR)*(LPDWORD)((LPBYTE)dwParm2 + wOffset32) ); // // Turn wOffset32 into a bit mask. // wOffset32 is the slot number offset in bytes dwStrMask |= 1 << ((wOffset32 >> 2) - 1); // Calculate the slot position (offset / 4) // decrement to get the number of bits to shift // shift 1 that number of bits left // and OR into the existing dwStrMask. #if DBG dprintf3(( "String at %x (Addr %x) (UNICODE)= %ls", wOffset32/4, *pdwParm32 , *pdwParm32 )); dprintf3(( "String at %x (Addr %x) (ASCII) = %s", wOffset32/4, *pdwParm32 , (LPSTR)*(LPDWORD)((LPBYTE)dwParm2 + wOffset32) )); #endif } else { // not a string /* ** Otherwise copy the parameter as is, if ** there is anything to copy... */ wID = mciGetParamSize( dwValue, wID); switch (wID) { case 4: *pdwParm32 = *(LPDWORD)((LPBYTE)dwParm2 + wOffset32); break; case 0: break; default: // This will be sizeof(MCI_RECT) as of today (Jan 93) CopyMemory(pdwParm32, (LPBYTE)dwParm2 + wOffset32, wID); } } } } /* ** Go to the next flag */ dwMask <<= 1; } // If no strings needed converting. Use the original parameter block if ( !(dwStrMask | fStrReturn)) { // No strings in parameters. Use original parameter pointer dprintf3(( "NO strings for command %4X", wMessage )); dwRet = mciSendCommandW( wDeviceID, wMessage, dwParam1, dwParam2); uReturnLength = 0; // We will not need to copy anything back } else { dprintf3(( "The unicode string mask is %8X fStrReturn %x", dwStrMask, fStrReturn )); dwRet = mciSendCommandW( wDeviceID, wMessage, dwParam1, (DWORD)NewParms ); } /* ** If there is a string return field we unthunk it here. */ if ( fStrReturn && uStrlenBytes ) { /* ** If mciSendCommand worked then we need to convert the ** return string from unicode to ascii. */ if ( MMSYSERR_NOERROR == dwRet ) { UnicodeStrToAsciiStr( (PBYTE)lpReturnStrTemp, (PBYTE)lpReturnStrTemp + uStrlenBytes, (LPWSTR)NewParms[1] ); /* ** Copy back the return string size. */ dwParm2[2] = NewParms[2]; /* On return from mciSendCommandW the dwRetSize field is ** equal to the number of characters copied to ** lpInfoP->lpstrReturn less the NULL terminator. ** So add one to lpInfoP->dwRetSize to include the NULL in ** the strncpy below. ** ** But ONLY if the original buffer was large enough. */ #ifdef DBCS //fix kksuzuka: #3642 //have to copy byte length into ASCII buffer.. strncpy( (LPSTR)dwParm2[1], lpReturnStrTemp, min( BYTE_GIVEN_CHAR(NewParms[2]+1), CHAR_GIVEN_BYTE(uStrlenBytes)) ); #else strncpy( (LPSTR)dwParm2[1], lpReturnStrTemp, min( (UINT)NewParms[2] + 1, CHAR_GIVEN_BYTE(uStrlenBytes)) ); #endif #if DBG dprintf3(( "Returned string (UNICODE)= %ls", NewParms[1] )); dprintf3(( "Returned string (ASCII) = %s", dwParm2[1] )); #endif } /* ** We need to free the string storage whether mciSendCommand ** worked or not. */ dprintf4(( "Freeing returned string at %x", NewParms[1] )); mciFree( NewParms[1] ); } /* ** Else if there is any other sort of return field unthunk ** it by copying across the bytes as is. */ else if ( uReturnLength ) { dprintf3(( "Copying back %d returned bytes", uReturnLength )); CopyMemory( (LPDWORD)dwParam2 + 1, NewParms + 1, uReturnLength ); } /* ** Now go through the dwStrMask and free each field as indicated ** by the set bits in the mask. We start at 1 because the ** zero'th field is known to be a window handle. */ wOffset32 = 1; for ( ; dwStrMask != 0; dwStrMask >>= 1, wOffset32++ ) { if ( dwStrMask & 1 ) { /* ** There is a string at NewParms[ wOffset32 ] */ dprintf3(( "Freeing string at %d (%x) (UNICODE) = %ls", wOffset32, NewParms[ wOffset32 ], (LPWSTR)NewParms[ wOffset32 ] )); FreeUnicodeStr( (LPWSTR)NewParms[ wOffset32 ] ); } } dprintf4(( "Unlocking command table" )); mciUnlockCommandTable( uTable ); } } return dwRet; } DWORD mciSendCommandW( MCIDEVICEID wDeviceID, UINT wMessage, DWORD dwParam1, DWORD dwParam2) { UINT wRet; DWORD dwErr; MCI_INTERNAL_OPEN_INFO OpenInfo; // Initialize the device list if (!MCI_bDeviceListInitialized && !mciInitDeviceList()) return MCIERR_OUT_OF_MEMORY; dprintf3(("mciSendCommand, command=%x Device=%x",wMessage, wDeviceID)); // // Send the command. This shell is responsible for adding the device ID // to the error code if necessary // OpenInfo.hCallingTask = GetCurrentTask(); OpenInfo.lpstrParams = NULL; OpenInfo.lpstrPointerList = NULL; OpenInfo.wParsingError = 0; dwErr = mciSendCommandInternal( wDeviceID, wMessage, dwParam1, dwParam2, &OpenInfo); wRet = LOWORD(dwErr); dprintf4(("Return value from mciSendCommandInternal %x", wRet)); // If the return value contains a resource ID then clear it from the high word if (dwErr & MCI_RESOURCE_RETURNED) { ((LPDWORD)dwParam2)[1] &= 0xFFFF; } // If the error message is in a driver, store the driver ID in the high // word of the error code if (wRet >= MCIERR_CUSTOM_DRIVER_BASE) { dwErr = (DWORD)wRet | ((DWORD)wDeviceID << 16); } else { dwErr = (DWORD)wRet; } #if DBG // Dump the error text if any to the debug terminal // Note that dwErr != 0 is a VALID return for driver messages. Only // trap MCI messages if ((dwErr != 0) && (wMessage>=MCI_FIRST)) { WCHAR strTemp[MAXERRORLENGTH]; if (!mciGetErrorStringW( dwErr, strTemp, MAXERRORLENGTH ) ) { LoadStringW( ghInst, STR_MCISCERRTXT, strTemp, MAXERRORLENGTH ); } dprintf1(("mciSendCommand: %ls", strTemp)); } #endif // // Somehow since 3.51 the priorities of threads in WOW have // changed and now the application thread is running at a // higher priority than that of regular threads (i.e. mciavi's // worker thread). Many applications that use MCI tend to // poll the status of the MCI device that is playing. This // polling is causing the other threads in WOW to be starved // and brings the playback of AVIs to a crawl. This sleep // will keep the application thread from buring so much of // the CPU and allow other threads, for example MCIAVI, to // do it's work. // if ( WinmmRunningInWOW ) { Sleep(0); } return dwErr; } //*************************************************************************** // mciColonizeDigit // // Grab colonized digit // Return is number of bytes written to output (NOT including NULL) // or 0 if out of room in output buffer (but is terminated anyway) // If there is room then at least two digits are written, padded with '0' // if necessary. The function assumes that the buffer size is non-zero length, // as this is checked in the function that calls the function that calls us. // //*************************************************************************** STATICFN UINT NEAR mciColonizeDigit( LPWSTR lpstrOutput, CHAR cDigit, UINT uSize) { UINT uCount = 0; #if DBG // There is room for terminating NULL if (uSize == 0) { dprintf(("MCI: Internal error!!")); return 0; } #endif uCount = 2; // If there is room for at least two digits if (uSize >= 3) { if (cDigit >= 100) { uCount = 3; if (uSize < 4) goto terminate; *lpstrOutput++ = (WCHAR)((cDigit / 100) % 10 + '0'); cDigit = (CHAR)(cDigit % 100); } *lpstrOutput++ = (WCHAR)(cDigit / 10 + '0'); *lpstrOutput++ = (WCHAR)(cDigit % 10 + '0'); } terminate:; *lpstrOutput++ = '\0'; // If we ran out of room then return an error return (uCount >= uSize) ? 0 : uCount; } /* * @doc INTERNAL MCI * @func BOOL | mciColonize | Convert a colonized dword into a string * representation * * @parm LPWSTR | lpstrOutput | Output buffer * * @parm UINT | uLength | Size of output buffer * * @parm DWORD | dwData | Value to convert * * @parm UINT | uType | Either MCI_COLONIZED3_RETURN or * MCI_COLONIZED4_RETURN is set (HIWORD portion only!) * * @comm Example: For C4, 0x01020304 is converted to "04:03:02:01" * For C3, 0x01020304 is converted to "04:03:02" * * @rdesc FALSE if there is not enough room in the output buffer * */ STATICFN BOOL NEAR mciColonize( LPWSTR lpstrOutput, UINT uLength, DWORD dwData, UINT uType) { LPSTR lpstrInput = (LPSTR)&dwData; // For stepping over each byte of input UINT uSize; int i; for (i = 1; i <= (uType & HIWORD(MCI_COLONIZED3_RETURN) ? 3 : 4); ++i) { uSize = mciColonizeDigit( lpstrOutput, *lpstrInput++, uLength); if (uSize == 0) return FALSE; lpstrOutput += uSize; uLength -= uSize; if (i < 3 || i < 4 && uType & HIWORD(MCI_COLONIZED4_RETURN)) { --uLength; if (uLength == 0) return FALSE; else *lpstrOutput++ = ':'; } } return TRUE; } //*********************************************************************** // mciConvertReturnValue // // Convert the return value to a return string // //*********************************************************************** UINT mciConvertReturnValue( UINT uType, UINT uErrCode, MCIDEVICEID wDeviceID, LPDWORD dwParams, LPWSTR lpstrReturnString, UINT uReturnLength ) // This is a character length { UINT wExternalTable; if (lpstrReturnString == NULL || uReturnLength == 0) return 0; switch (uType) { case MCI_INTEGER: case MCI_HWND: case MCI_HPAL: case MCI_HDC: // Convert integer or resource return value to string if (uErrCode & HIWORD(MCI_RESOURCE_RETURNED)) { int nResId = HIWORD(dwParams[1]); LPMCI_DEVICE_NODE nodeWorking; HANDLE hInstance; mciEnter("mciConvertReturnValue"); nodeWorking = MCI_lpDeviceList[wDeviceID]; mciLeave("mciConvertReturnValue"); if (nodeWorking == NULL) { // Return blank string on memory error dprintf1(("mciConvertReturnValue Warning:NULL device node")); break; } // Return value is a resource if (uErrCode & HIWORD(MCI_RESOURCE_DRIVER)) { // Return string ID belongs to driver hInstance = nodeWorking->hDriver; // WAS hInstance = nodeWorking->hCreatorTask; wExternalTable = nodeWorking->wCustomCommandTable; } else { wExternalTable = nodeWorking->wCommandTable; hInstance = ghInst; } // Try to get string from custom or device specific external table if ( wExternalTable == MCI_TABLE_NOT_PRESENT || command_tables[wExternalTable].hModule == NULL || LoadStringW( command_tables[wExternalTable].hModule, nResId, lpstrReturnString, uReturnLength ) == 0 ) { // Try to get string from CORE.MCI if it's not from the driver if (hInstance != ghInst || command_tables[0].hModule == NULL || LoadStringW( command_tables[0].hModule, nResId, lpstrReturnString, uReturnLength ) == 0) { // Get string from custom module or WINMM.DLL LoadStringW( hInstance, nResId, lpstrReturnString, uReturnLength); } } } else if (uErrCode & HIWORD(MCI_COLONIZED3_RETURN) || uErrCode & HIWORD(MCI_COLONIZED4_RETURN)) { if (!mciColonize (lpstrReturnString, uReturnLength, dwParams[1], uErrCode)) return MCIERR_PARAM_OVERFLOW; } else // Convert integer return value to string // NEED BETTER ERROR CHECKING !!LATER!! // MUST FIND A VERSION OF THIS WHICH WON'T OVERFLOW OUTPUT BUFFER { DWORD dwTemp; // Need room for a sign, up to ten digits and a NULL if (uReturnLength < 12) return MCIERR_PARAM_OVERFLOW; if (uType == MCI_STRING || uErrCode == HIWORD(MCI_INTEGER_RETURNED)) dwTemp = *(LPDWORD)dwParams[1]; else dwTemp = dwParams[1]; wsprintfW(lpstrReturnString, szLongFormat, dwTemp); } break; case MCI_RECT: // Need from for 4 times (a sign plus 5 digits) plus three spaces and a NULL if (uReturnLength < 4 * 6 + 4) return MCIERR_PARAM_OVERFLOW; wsprintfW (lpstrReturnString, szRectFormat, ((PMCI_ANIM_RECT_PARMS)dwParams)->rc.left, ((PMCI_ANIM_RECT_PARMS)dwParams)->rc.top, ((PMCI_ANIM_RECT_PARMS)dwParams)->rc.right, ((PMCI_ANIM_RECT_PARMS)dwParams)->rc.bottom); break; default: // Only support INTEGERs & MIXED dprintf1(("mciConvertReturnValue Warning: Unknown return type")); return MCIERR_PARSER_INTERNAL; } return 0; } //*********************************************************************** // mciSeparateCommandParts // // Pull off the command name and device name from the command string, // leaving *lplpstrCommand pointing past the device name // // Returns 0 or an error code on failure. If successful, the caller must // free the pstrCommandName and pstrDeviceName // // If bCompound then check for a '!' separator in the extracted device name // and return only the element part. This is done so that inter-task // commands to auto-opened devices will include the correct device name // //*********************************************************************** STATICFN DWORD NEAR mciSeparateCommandParts( LPCWSTR FAR *lplpstrCommand, BOOL bCompound, LPWSTR FAR *lplpstrCommandName, LPWSTR FAR *lplpstrDeviceName) { LPWSTR lpstrCommand; UINT uErr; // Localize the input lpstrCommand = (LPWSTR)*lplpstrCommand; // Remove leading spaces while (*lpstrCommand == ' ') { ++lpstrCommand; } if (*lpstrCommand == '\0') { return MCIERR_MISSING_COMMAND_STRING; } // Pull the command name off the front of the command string if ((uErr = mciEatToken ( (LPCWSTR *)&lpstrCommand, ' ', lplpstrCommandName, FALSE)) != 0) { return uErr; } // Skip past spaces while (*lpstrCommand == ' ') { ++lpstrCommand; } // If we're looking for compound elements then yank off any leading // device type if it is not the open command if (bCompound && lstrcmpiW( wszOpen, *lplpstrCommandName) != 0) { LPWSTR lpstrTemp = lpstrCommand; while (*lpstrTemp != '\0') { if (*lpstrTemp == '!') { // A ! was found so skip past it lpstrCommand = lpstrTemp + 1; break; } else ++lpstrTemp; } } // Pull the device name off of the command string if ((uErr = mciEatToken( (LPCWSTR *)&lpstrCommand, ' ', lplpstrDeviceName, FALSE)) != 0) { mciFree (*lplpstrCommandName); return uErr; } // Fix up the results *lplpstrCommand = lpstrCommand; return 0; } /*--------------------------------------------------------------------*\ * mciSendSystemString * \*--------------------------------------------------------------------*/ STATICFN DWORD mciSendSystemString( LPCWSTR lpstrCommand, DWORD dwAdditionalFlags, LPWSTR lpstrReturnString, UINT uReturnLength) { DWORD dwRet; LPMCI_SYSTEM_MESSAGE lpMessage; DWORD CurDirSize; dprintf2(("\nmciSendSystemString(%ls)", lpstrCommand)); if (!CreatehwndNotify()) { dprintf1(("NULL notification window handle")); return MCIERR_INTERNAL; } // Get a buffer to hold the current path PLUS an MCI_SYSTEM_MESSAGE structure CurDirSize = GetCurrentDirectoryW( 0, NULL ); // Get size required. // Remember the NULL is not included if ( !CurDirSize ) { // Add 1 for the terminator dprintf1(("NULL current path")); return MCIERR_GET_CD; } CurDirSize++; if (NULL != (lpMessage = mciAlloc( sizeof(MCI_SYSTEM_MESSAGE) + BYTE_GIVEN_CHAR( CurDirSize ) ))) { LPWSTR lpstrPath = (LPWSTR)( (LPBYTE)lpMessage + sizeof( MCI_SYSTEM_MESSAGE ) ); if ( GetCurrentDirectoryW( CurDirSize, lpstrPath ) ) { lpMessage->lpstrCommand = (LPWSTR)lpstrCommand; lpMessage->dwAdditionalFlags = dwAdditionalFlags; lpMessage->lpstrReturnString = lpstrReturnString; lpMessage->uReturnLength = uReturnLength; #if DBG if ((0 == uReturnLength) && (0 != lpstrReturnString)) { dprintf1((" ******** Return length 0, non 0 return address")); } #endif lpMessage->hCallingTask = GetCurrentTask(); lpMessage->lpstrNewDirectory = lpstrPath; // BUGBUG This is where we need to do some thread stuff dwRet = (DWORD)SendMessage(hwndNotify, MM_MCISYSTEM_STRING, 0, (LONG)lpMessage); //dwRet = mciSendStringInternal (NULL, NULL, 0, NULL, lpMessage); } else { dprintf1(("mciSendSystemString: cannot get current directory\n")); dwRet = MCIERR_GET_CD; } mciFree(lpMessage); } else { dprintf1(("mciSendSystemString: cannot allocate message block\n")); dwRet = MCIERR_OUT_OF_MEMORY; } return dwRet; } /*--------------------------------------------------------------------*\ * mciRelaySystemString * * Internal: * \*--------------------------------------------------------------------*/ DWORD mciRelaySystemString( LPMCI_SYSTEM_MESSAGE lpMessage) { DWORD dwRet; LPWSTR lpstrOldPath; DWORD CurDirSize; lpstrOldPath = 0; // Initialise to remove warning message #if DBG dprintf2(("mciRelaySystemString(%ls)", lpMessage->lpstrCommand)); #endif // Get a buffer to hold the current path CurDirSize = GetCurrentDirectoryW(0, lpstrOldPath); // Get size required. // Remember the NULL is not included if (!CurDirSize) { // Add 1 for the terminator AFTER testing dprintf1(("NULL current path")); // for 0 from GetCurrentDirectory return MCIERR_INTERNAL; } CurDirSize++; /* * Allocate space to hold the current path * Fill the allocated space with the current path * Set the new current directory to that in the message * Execute the MCI command via SentStringInternal * Reset to old current directory * BUGBUG: This code is not reentrant on the same PROCESS */ if (NULL != (lpstrOldPath = mciAlloc( BYTE_GIVEN_CHAR(CurDirSize) ))) { if (GetCurrentDirectoryW(CurDirSize, lpstrOldPath)) { if (SetCurrentDirectoryW(lpMessage->lpstrNewDirectory)) { dwRet = mciSendStringInternal (NULL, NULL, 0, NULL, lpMessage); if (!SetCurrentDirectoryW(lpstrOldPath)) { dprintf1(("mciRelaySystemString: WARNING, cannot restore path\n")); } } else { dprintf1(("mciRelaySystemString: cannot set new path\n")); dwRet = MCIERR_SET_CD; } } else { dprintf1(("mciRelaySystemString: cannot get old path\n")); dwRet = MCIERR_GET_CD; } mciFree(lpstrOldPath); } else { dprintf1(("mciRelaySystemString: cannot allocate old path\n")); dwRet = MCIERR_OUT_OF_MEMORY; } return dwRet; } //*********************************************************************** // mciFindNotify // // Returns TRUE if "notify" is contained in string with leading blank // and trailing blank or '\0' //*********************************************************************** STATICFN BOOL mciFindNotify( LPWSTR lpString) { while (*lpString != '\0') { // "notify" must be preceded by a blank if (*lpString++ == ' ') { LPWSTR lpTemp; lpTemp = wszNotify; while (*lpTemp != '\0' && *lpString != '\0' && *lpTemp == MCI_TOLOWER(*lpString)) { ++lpTemp; ++lpString; } // "notify" must be followed by a blank or a null if (*lpTemp == '\0' && // implies that wszNotify was found (*lpString == '\0' || *lpString == ' ')) return TRUE; } } return FALSE; } /* * @doc INTERNAL MCI * * @func UINT | mciAutoOpenDevice | Try to auto-open the given device and * then send the given command with notification sent to the system task * window proc which sends a close command to the device on receipt * * @parm LPWSTR | lpstrDeviceName | The device name to open * * @parm LPWSTR | lpstrCommand | The full command to send including the * device name which must be the same as lpstrDeviceName * * @parm LPWSTR | lpstrReturnString | The caller's return string buffer * * @parm UINT | uReturnLength | Size of the caller's return string buffer * * @rdesc The errorcode to return to the user */ STATICFN UINT NEAR mciAutoOpenDevice( LPWSTR lpstrDeviceName, LPWSTR lpstrCommand, LPWSTR lpstrReturnString, UINT uReturnLength) { LPWSTR lpstrTempCommand, lpstrTempReturn = NULL; UINT uErr; dprintf2(("mciAutoOpenDevice(%ls, %ls)", lpstrDeviceName, lpstrCommand)); // // Don't allow recursive auto opens on the mciWindow thread! // This can happen when the device auto closes between a command (eg // status) being issued on the client thread and executed on the // mciWindow thread. // // mciSendStringW will detect this return code and try again - probably // causing the device to be auto-opened on the caller's thread. // if ((DWORD)GetCurrentTask() == mciWindowThreadId) { return MCIERR_AUTO_ALREADY_CLOSED; } // "notify" not allowed. This will be found by the parser but the wrong // error message will be returned. if (mciFindNotify (lpstrCommand)) { return MCIERR_NOTIFY_ON_AUTO_OPEN; } // Build the command string "open " // Must be GMEM_SHARE for system task // "open" + blank + device name + NULL if ( (lpstrTempCommand = mciAlloc( BYTE_GIVEN_CHAR( wcslen(lpstrDeviceName) + /* Sizeof(wszOpen) == OPEN+NULL */ sizeof( wszOpen ) + sizeof( WCHAR ) ) ) ) == NULL) { return MCIERR_OUT_OF_MEMORY; } #ifdef WHICH_IS_BEST wcscpy (lpstrTempCommand, wszOpen); wcscat (lpstrTempCommand, L" "); wcscat (lpstrTempCommand, lpstrDeviceName); #else wsprintfW(lpstrTempCommand, szCmdFormat, wszOpen, lpstrDeviceName); #endif // Get the open string into the system task via a SendMessage() to mmWndProc uErr = (UINT)mciSendSystemString (lpstrTempCommand, 0L, NULL, 0); mciFree (lpstrTempCommand); if (uErr != 0) { return uErr; } lpstrTempCommand = NULL; // Must make a GMEM_SHARE copy of the return string for system task if ( lpstrReturnString != NULL ) { if ((lpstrTempReturn = mciAlloc( BYTE_GIVEN_CHAR(uReturnLength + 1) )) == NULL ) { // Close the device mciDriverNotify (hwndNotify, mciGetDeviceIDW( lpstrDeviceName), 0); return MCIERR_OUT_OF_MEMORY; } #if DBG *lpstrTempReturn = 0; #endif } // Get the user command string into the system task via a SendMessage() // to mmWndProc // The notification handle is also mmWndProc uErr = (UINT)mciSendSystemString( lpstrCommand, MCI_NOTIFY, lpstrTempReturn, uReturnLength); // Copy the return string into the user's buffer if (lpstrReturnString != NULL) { if (uErr == 0) { wcscpy( lpstrReturnString, lpstrTempReturn); } else { // ERROR and no string to be copied WinAssert(!*lpstrTempReturn); } mciFree( lpstrTempReturn); } // If there was an error we must close the device if (uErr != 0) { mciAutoCloseDevice( lpstrDeviceName); } return uErr; } //************************************************************************* // mciSendStringInternal // // Identical to mciSendString() but the lpMessage parameter is tacked on // // lpMessage comes from inter-task mciSendString and includes an // hCallingTask item which is sent down the the OPEN command // //************************************************************************* STATICFN DWORD mciSendStringInternal( LPCWSTR lpstrCommand, LPWSTR lpstrReturnString, UINT uReturnLength, // This is a character length - NOT bytes HANDLE hCallback, LPMCI_SYSTEM_MESSAGE lpMessage) { UINT wID; UINT uLen; UINT uErr = 0; UINT uConvertReturnValue; UINT wMessage; MCIDEVICEID wDeviceID; LPDWORD lpdwParams = NULL; DWORD dwReturn, dwFlags = 0, dwAdditionalFlags = 0; LPWSTR lpCommandItem; DWORD dwErr = 0, dwRetType; UINT wTable = (UINT)MCI_TABLE_NOT_PRESENT; LPWSTR lpstrDeviceName = NULL; LPWSTR lpstrCommandName = NULL; LPWSTR FAR *lpstrPointerList = NULL; LPWSTR lpstrCommandStart; HANDLE hCallingTask; UINT wParsingError; BOOL bNewDevice; LPWSTR lpstrInputCopy = NULL; // Did this call come in from another task if (lpMessage != NULL) { dprintf3(("mciSendStringInternal: remote task call")); // Yes so restore info lpstrCommand = lpMessage->lpstrCommand; dwAdditionalFlags = lpMessage->dwAdditionalFlags; lpstrReturnString = lpMessage->lpstrReturnString; uReturnLength = lpMessage->uReturnLength; #if DBG if ((0 == uReturnLength) && (0 != lpstrReturnString)) { dprintf((" -------- Return length 0, non 0 return address")); } #endif hCallback = hwndNotify; hCallingTask = lpMessage->hCallingTask; lpstrInputCopy = NULL; } else { BOOL bInQuotes = FALSE; // No, so set hCallingTask to current thread hCallingTask = GetCurrentTask(); if (lpstrCommand == NULL) { return MCIERR_MISSING_COMMAND_STRING; } dprintf2(("mciSendString command ->%ls<-",lpstrCommand)); // Make a copy of the input string and convert tabs to spaces except // when inside a quoted string if ( (lpstrInputCopy = mciAlloc( BYTE_GIVEN_CHAR( wcslen(lpstrCommand) + 1 ) ) ) == NULL ) { return MCIERR_OUT_OF_MEMORY; } wcscpy(lpstrInputCopy, lpstrCommand); // Copies to the allocated area lpstrCommand = lpstrInputCopy; // Reset string pointer to copy lpstrCommandStart = (LPWSTR)lpstrCommand; while (*lpstrCommandStart != '\0') { if (*lpstrCommandStart == '"') { bInQuotes = !bInQuotes; } else if (!bInQuotes && *lpstrCommandStart == '\t') { *lpstrCommandStart = ' '; } ++lpstrCommandStart; } } lpstrCommandStart = (LPWSTR)lpstrCommand; if (lpstrReturnString == NULL) { // As an additional safeguard against writing into // the output buffer when the return string pointer is NULL, // set its length to 0 uReturnLength = 0; } else { #if DBG if (0 == uReturnLength) { dprintf(("Return length of zero, but now writing to return string")); } #endif // Set return to empty string so that it won't print out garbage if not // touched again *lpstrReturnString = '\0'; } // Pull the command name and device name off the command string if ((dwReturn = mciSeparateCommandParts( (LPCWSTR FAR *)&lpstrCommand, lpMessage != NULL, &lpstrCommandName, &lpstrDeviceName)) != 0) goto exitfn; // Get the device id (if any) of the given device name wDeviceID = mciGetDeviceIDW(lpstrDeviceName); // Allow "new" for an empty device name if (wDeviceID == 0 && lstrcmpiW (lpstrDeviceName, wszNew) == 0) { bNewDevice = TRUE; *lpstrDeviceName = '\0'; } else { bNewDevice = FALSE; } // // If the call does not come from another task // if (MCI_VALID_DEVICE_ID(wDeviceID) && hCallingTask == GetCurrentTask()) // { // LPMCI_DEVICE_NODE nodeWorking = MCI_lpDeviceList[wDeviceID]; // if (nodeWorking == NULL) // { // uErr = MCIERR_INTERNAL; // goto cleanup; // } // // Was the device opened by this task // if (nodeWorking->hOpeningTask != nodeWorking->hCreatorTask) // // No so send the string inter-task // { // mciFree(lpstrCommandName); // mciFree(lpstrDeviceName); // dwReturn = mciSendSystemString (lpstrCommandStart, lpstrReturnString, // uReturnLength); // goto exitfn; // } // } // Look up the command name wMessage = mciParseCommand( wDeviceID, lpstrCommandName, lpstrDeviceName, &lpCommandItem, &wTable); // If the device was auto-opened the request will go to the auto thread. // We do not hang around to find out what happens. (The device could // close at any time.) mciEnter("mciSendStringInternal"); if (MCI_VALID_DEVICE_ID(wDeviceID)) { LPMCI_DEVICE_NODE nodeWorking; nodeWorking = MCI_lpDeviceList[wDeviceID]; // Is there a pending auto-close message? if (ISAUTOCLOSING(nodeWorking)) { uErr = MCIERR_DEVICE_LOCKED; mciLeave("mciSendStringInternal"); goto cleanup; // If the call does not come from another task and is not owned by this task // and is not the SYSINFO command } else if (lpMessage == NULL && nodeWorking->hOpeningTask != nodeWorking->hCreatorTask && wMessage != MCI_SYSINFO) // Send the string inter-task { if ( mciFindNotify( lpstrCommandStart) ) { uErr = MCIERR_NOTIFY_ON_AUTO_OPEN; mciLeave("mciSendStringInternal"); goto cleanup; } else { LPWSTR lpstrReturnStringCopy; mciFree(lpstrCommandName); mciFree(lpstrDeviceName); mciUnlockCommandTable (wTable); if (uReturnLength) { lpstrReturnStringCopy = mciAlloc ( BYTE_GIVEN_CHAR(uReturnLength + 1) ); } else { lpstrReturnStringCopy = NULL; } mciLeave("mciSendStringInternal"); // If we failed to allocate a return string we return // an error. Note: return strings are optional if ((uReturnLength==0) || (lpstrReturnStringCopy != NULL) ) { dwReturn = mciSendSystemString( lpstrCommandStart, 0L, lpstrReturnStringCopy, uReturnLength); if (uReturnLength) { wcscpy( lpstrReturnString, lpstrReturnStringCopy); mciFree( lpstrReturnStringCopy); } } else { dwReturn = MCIERR_OUT_OF_MEMORY; } goto exitfn; } } else { mciLeave("mciSendStringInternal"); } } else { mciLeave("mciSendStringInternal"); } // There must be a device name (except for the MCI_SOUND message) if (*lpstrDeviceName == '\0' && wMessage != MCI_SOUND && !bNewDevice) { uErr = MCIERR_MISSING_DEVICE_NAME; goto cleanup; } // The command must appear in the parser tables if (wMessage == 0) { uErr = MCIERR_UNRECOGNIZED_COMMAND; goto cleanup; } // The "new" device name is only legal for the open message if (bNewDevice) { if (wMessage != MCI_OPEN) { uErr = MCIERR_INVALID_DEVICE_NAME; goto cleanup; } } // If there was no device ID if (wDeviceID == 0) { // If auto open is not legal (usually internal commands) if (MCI_CANNOT_AUTO_OPEN (wMessage)) { // If the command needs an open device if (!MCI_DO_NOT_NEED_OPEN (wMessage)) { dprintf1(("mciSendStringInternal: device needs open")); uErr = MCIERR_INVALID_DEVICE_NAME; goto cleanup; } } else { // If auto open is legal try to open the device automatically uErr = mciAutoOpenDevice( lpstrDeviceName, lpstrCommandStart, lpstrReturnString, uReturnLength); // wDeviceID = MCI_ALL_DEVICE_ID; goto cleanup; } } // // Parse the command parameters // if ((lpdwParams = (LPDWORD)mciAlloc( sizeof(DWORD) * MCI_MAX_PARAM_SLOTS)) == NULL) { uErr = MCIERR_OUT_OF_MEMORY; goto cleanup; } uErr = mciParseParams( wMessage, lpstrCommand, lpCommandItem, &dwFlags, (LPWSTR)lpdwParams, MCI_MAX_PARAM_SLOTS * sizeof(DWORD), &lpstrPointerList, &wParsingError); if (uErr != 0) { goto cleanup; } // The 'new' device keyword requires an alias if (bNewDevice && !(dwFlags & MCI_OPEN_ALIAS)) { uErr = MCIERR_NEW_REQUIRES_ALIAS; goto cleanup; } // Parsed OK so execute command // Special processing for the MCI_OPEN message's parameters if (wMessage == MCI_OPEN) { // Manually reference the device type and device element if (dwFlags & MCI_OPEN_TYPE) { // The type name was specified explicitly as a parameter // so the given device name is the element name ((LPMCI_OPEN_PARMSW)lpdwParams)->lpstrElementName = lpstrDeviceName; dwFlags |= MCI_OPEN_ELEMENT; } else { // A type must be explicitly specified when "new" is used if (bNewDevice) { uErr = MCIERR_INVALID_DEVICE_NAME; goto cleanup; } // The device type is the given device name. There is no element name ((LPMCI_OPEN_PARMSW)lpdwParams)->lpstrDeviceType = lpstrDeviceName; ((LPMCI_OPEN_PARMSW)lpdwParams)->lpstrElementName = NULL; dwFlags |= MCI_OPEN_TYPE; } } else if (wMessage == MCI_SOUND && *lpstrDeviceName != '\0') { // Kludge the sound name for SOUND // mciToLower (lpstrDeviceName); if (lstrcmpiW(lpstrDeviceName, wszNotify) == 0) { *lpstrDeviceName = '\0'; dwFlags |= MCI_NOTIFY; } else if ( lstrcmpiW( lpstrDeviceName, wszWait ) == 0) { *lpstrDeviceName = '\0'; dwFlags |= MCI_WAIT; } else { ((LPMCI_SOUND_PARMSW)lpdwParams)->lpstrSoundName = lpstrDeviceName; dwFlags |= MCI_SOUND_NAME; } } // Figure out what kind of return value to expect // Initialize flag uConvertReturnValue = 0; // Skip past header uLen = mciEatCommandEntry (lpCommandItem, NULL, NULL); // Get return value (if any) mciEatCommandEntry ( (LPWSTR)((LPBYTE)lpCommandItem + uLen), &dwRetType, &wID); if (wID == MCI_RETURN) { // There is a return value if (wDeviceID == MCI_ALL_DEVICE_ID && wMessage != MCI_SYSINFO) { uErr = MCIERR_CANNOT_USE_ALL; goto cleanup; } switch (dwRetType) { case MCI_STRING: // The return value is a string, point output buffer to user's buffer lpdwParams[1] = (DWORD)lpstrReturnString; lpdwParams[2] = (DWORD)uReturnLength; break; case MCI_INTEGER: case MCI_HWND: case MCI_HPAL: case MCI_HDC: // The return value is an integer, flag to convert it to a string later // new uConvertReturnValue = MCI_INTEGER; // new break; case MCI_RECT: // The return value is an rect, flag to convert it to a string later // new uConvertReturnValue = MCI_RECT; /* NEW */ uConvertReturnValue = (UINT)dwRetType; break; #if DBG default: dprintf1(("mciSendStringInternal: Unknown return type %d",dwRetType)); break; #endif } } // We don't need this around anymore mciUnlockCommandTable (wTable); wTable = (UINT)MCI_TABLE_NOT_PRESENT; /* Fill the callback entry */ lpdwParams[0] = (DWORD)hCallback; // Kludge the type number for SYSINFO if (wMessage == MCI_SYSINFO) { ((LPMCI_SYSINFO_PARMS)lpdwParams)->wDeviceType = mciLookUpType(lpstrDeviceName); } // Now we actually send the command further into the bowels of MCI! // The INTERNAL version of mciSendCommand is used in order to get // special return description information encoded in the high word // of the return value and to get back the list of pointers allocated // by any parsing done in the open command { MCI_INTERNAL_OPEN_INFO OpenInfo; OpenInfo.lpstrParams = (LPWSTR)lpstrCommand; OpenInfo.lpstrPointerList = lpstrPointerList; OpenInfo.hCallingTask = hCallingTask; OpenInfo.wParsingError = wParsingError; dwErr = mciSendCommandInternal (wDeviceID, wMessage, dwFlags | dwAdditionalFlags, (DWORD)(LPDWORD)lpdwParams, &OpenInfo); // If the command was reparsed there may be a new pointer list // and the old one was free'd lpstrPointerList = OpenInfo.lpstrPointerList; } uErr = LOWORD(dwErr); if (uErr != 0) { // If command execution error goto cleanup; } // Command executed OK // See if a string return came back with an integer instead if (dwErr & MCI_INTEGER_RETURNED) { uConvertReturnValue = MCI_INTEGER; } // If the return value must be converted if (uConvertReturnValue != 0 && uReturnLength != 0) { uErr = mciConvertReturnValue( uConvertReturnValue, HIWORD(dwErr), wDeviceID, lpdwParams, lpstrReturnString, uReturnLength); } cleanup:; if (wTable != MCI_TABLE_NOT_PRESENT) { mciUnlockCommandTable (wTable); } mciFree(lpstrCommandName); mciFree(lpstrDeviceName); if (lpdwParams != NULL) { mciFree (lpdwParams); } // Free any memory used by string parameters mciParserFree (lpstrPointerList); dwReturn = (uErr >= MCIERR_CUSTOM_DRIVER_BASE ? (DWORD)uErr | (DWORD)wDeviceID << 16 : (DWORD)uErr); #if DBG if (dwReturn != 0) { WCHAR strTemp[MAXERRORLENGTH]; if (!mciGetErrorStringW( dwReturn, strTemp, sizeof(strTemp) / sizeof(WCHAR) ) ) { LoadStringW( ghInst, STR_MCISSERRTXT, strTemp, sizeof(strTemp) / sizeof(WCHAR) ); } else { dprintf1(( "mciSendString: %ls", strTemp )); } } #endif exitfn: if (lpstrInputCopy != NULL) { mciFree (lpstrInputCopy); } #if DBG mciCheckLocks(); #endif return dwReturn; } /* * @doc EXTERNAL MCI * * @api DWORD | mciSendString | This function sends a command string to an * MCI device. The device that the command is sent to is specified in the * command string. * * @parm LPCTSTR | lpstrCommand | Points to an MCI command string of the form: * [command] [device] [parameters]. * * @parm LPTSTR | lpstrReturnString | Specifies a buffer for return * information. If no return information is needed, you can specify * NULL for this parameter. * * @parm UINT | uReturnLength | Specifies the size of the return buffer * specified by

. * * @parm HANDLE | hCallback | Specifies a handle to a window to call back * if "notify" was specified in the command string. * * @rdesc Returns zero if the function was successful. Otherwise, it returns * error information. The low-order word * of the returned DWORD contains the error return value. * * To get a textual description of return values, * pass the return value to . * * The error returns listed for also apply to * . The following error returns are unique to * : * * @flag MCIERR_BAD_CONSTANT | Unknown value for parameter. * * @flag MCIERR_BAD_INTEGER | Invalid or missing integer in command. * * @flag MCIERR_DUPLICATE_FLAGS | A flag or value was specified twice. * * @flag MCIERR_MISSING_COMMAND_STRING | No command was specified. * * @flag MCIERR_MISSING_DEVICE_NAME | No device name was specified. * * @flag MCIERR_MISSING_STRING_ARGUMENT | A string value was * missing from the command. * * @flag MCIERR_NEW_REQUIRES_ALIAS | An alias must be used * with the "new" device name. * * @flag MCIERR_NO_CLOSING_QUOTE | A closing quotation mark is missing. * * @flag MCIERR_NOTIFY_ON_AUTO_OPEN | The "notify" flag is illegal * with auto-open. * * @flag MCIERR_PARAM_OVERFLOW | The output string was not long enough. * * @flag MCIERR_PARSER_INTERNAL | Internal parser error. * * @flag MCIERR_UNRECOGNIZED_KEYWORD | Unknown command parameter. * * @xref mciGetErrorString mciSendCommand */ MCIERROR APIENTRY mciSendStringA( LPCSTR lpstrCommand, LPSTR lpstrReturnString, UINT uReturnLength, HWND hwndCallback) { MCIERROR mciErr; LPWSTR lpwstrCom; LPWSTR lpwstrRet; LPSTR lpstrTmp; UINT len; #ifdef DBG dprintf4(( "Entered mciSendString ASCII" )); #endif // uReturnLength is a character count // len is now in bytes // WARNING: The length field might only be valid if a return // address is given. If NO return address is specified, then // we do not want to waste time allocating anything. if (!lpstrReturnString) { uReturnLength = 0; } len = BYTE_GIVEN_CHAR( uReturnLength ); // We could make the following code slightly more efficient by // allocating a single area of size uReturnLength*2 bytes. if (len) { lpstrTmp = (LPSTR)mciAlloc( len ); if ( lpstrTmp == (LPSTR)NULL ) { return MCIERR_OUT_OF_MEMORY; } lpwstrRet = (LPWSTR)mciAlloc( len ); if ( lpwstrRet == (LPWSTR)NULL ) { mciFree( lpstrTmp ); return MCIERR_OUT_OF_MEMORY; } } else { lpstrTmp = NULL; lpwstrRet = NULL; } lpwstrCom = AllocUnicodeStr( (LPSTR)lpstrCommand ); if ( lpwstrCom == NULL ) { if (len) { mciFree( lpstrTmp ); mciFree( lpwstrRet ); } return MCIERR_OUT_OF_MEMORY; } #ifdef DBG dprintf4(( "Unicode Command = %ls", lpwstrCom )); dprintf4(( "Ascii command = %s", lpstrCommand )); #endif mciErr = mciSendStringW( lpwstrCom, lpwstrRet, uReturnLength, hwndCallback ); dprintf4(( "mciSendStringW returned %d", mciErr )); if (len) { dprintf4(( "Copying Unicode string to Ascii: %ls", lpwstrRet)); UnicodeStrToAsciiStr( (PBYTE)lpstrTmp, (PBYTE)lpstrTmp + len, lpwstrRet ); strncpy( lpstrReturnString, lpstrTmp, uReturnLength ); dprintf4(( "........done: %s", lpstrReturnString)); mciFree( lpstrTmp ); mciFree( lpwstrRet ); } FreeUnicodeStr( lpwstrCom ); return mciErr; } MCIERROR APIENTRY mciSendStringW( LPCWSTR lpstrCommand, LPWSTR lpstrReturnString, UINT uReturnLength, HWND hwndCallback) { MCIERROR wRet; // Initialize the device list if (!MCI_bDeviceListInitialized && !mciInitDeviceList()) { return MCIERR_OUT_OF_MEMORY; } // // We can get return code MCIERR_AUTO_ALREADY_CLOSED if the device is // auto-open and appears to be open but when we get to the mciWindow // thread it has already closed. In this case we try again. // do { wRet = mciSendStringInternal (lpstrCommand, lpstrReturnString, uReturnLength, hwndCallback, NULL); } while (wRet == MCIERR_AUTO_ALREADY_CLOSED); return wRet; } /* * @doc INTERNAL MCI * * @api BOOL | mciExecute | This function is a simplified version of the * function. It does not take a buffer for * return information, and displays a dialog box when * errors occur. * * @parm LPCSTR | lpstrCommand | Points to an MCI command string of the form: * [command] [device] [parameters]. * * @rdesc TRUE if successful, FALSE if unsuccessful. * * @comm This function provides a simple interface to MCI from scripting * languages. For debugging, set the "mciexecute" entry in the * [mmdebug] section of WIN.INI to 1 and detailed error information will * be displayed in a dialog box. If "mmcmd" is set to 0, only user-correctable * error information will be displayed. * THIS FUNCTION IS NOW OBSOLETE AND IS ONLY PRESENT FOR 16BIT COMPATIBILITY * HENCE NO UNICODE VERSION IS PROVIDED * * @xref mciSendString */ BOOL APIENTRY mciExecute( LPCSTR lpstrCommand) { WCHAR aszError[MAXERRORLENGTH]; DWORD dwErr; HANDLE hName = 0; LPWSTR lpstrName = NULL; LPWSTR lpwstrCom; lpwstrCom = AllocUnicodeStr( (LPSTR)lpstrCommand ); if ( lpwstrCom == NULL ) { return FALSE; } dwErr = mciSendStringW(lpwstrCom, NULL, 0, NULL); FreeUnicodeStr( lpwstrCom ); if (LOWORD(dwErr) == 0) { return TRUE; } if (!mciGetErrorStringW( dwErr, aszError, MAXERRORLENGTH )) { LoadStringW( ghInst, STR_MCIUNKNOWN, aszError, MAXERRORLENGTH ); } else { if (lpwstrCom != NULL) { // Skip initial blanks while (*lpwstrCom == ' ') { ++lpwstrCom; } // Then skip the command while (*lpwstrCom != ' ' && *lpwstrCom != '\0') { ++lpwstrCom; } // Then blanks before the device name while (*lpwstrCom == ' ') ++lpwstrCom; // Now, get the device name if ( *lpwstrCom != '\0' && mciEatToken ((LPCWSTR *)&lpwstrCom, ' ', &lpstrName, FALSE) != 0 ) { dprintf1(("Could not allocate device name text for error box")); } } } MessageBoxW( NULL, aszError, lpstrName, MB_ICONHAND | MB_OK); if (lpstrName != NULL) { mciFree(lpstrName); } return FALSE; } /* * @doc EXTERNAL MCI * * @api BOOL | mciGetErrorString | This function returns a * textual description of the specified MCI error. * * @parm DWORD | dwError | Specifies the error code returned by * or . * * @parm LPTSTR | lpstrBuffer | Specifies a pointer to a buffer that is * filled with a textual description of the specified error. * * @parm UINT | uLength | Specifies the length of the buffer pointed to by *

. * * @rdesc Returns TRUE if successful. Otherwise, the given error code * was not known. */ BOOL APIENTRY mciGetErrorStringA( DWORD dwError, LPSTR lpstrBuffer, UINT uLength) { HANDLE hInst = 0; if (lpstrBuffer == NULL) { return FALSE; } // If the high bit is set then get the error string from the driver // otherwise get it from mmsystem.dll if (HIWORD(dwError) != 0) { mciEnter("mciGetErrorStringA"); if (MCI_VALID_DEVICE_ID ((UINT)HIWORD(dwError))) { hInst = MCI_lpDeviceList[HIWORD (dwError)]->hDriver; } mciLeave("mciGetErrorStringA"); if (hInst == 0) { hInst = ghInst; dwError = MCIERR_DRIVER; } } else { hInst = ghInst; } if (LoadStringA(hInst, LOWORD(dwError), lpstrBuffer, uLength ) == 0) { // If the string load failed then at least terminate the string if (uLength > 0) { *lpstrBuffer = '\0'; dprintf1(("Failed to load resource string")); } return FALSE; } else { return TRUE; } } BOOL APIENTRY mciGetErrorStringW( DWORD dwError, LPWSTR lpstrBuffer, UINT uLength) { HANDLE hInst = 0; if (lpstrBuffer == NULL) { return FALSE; } // If the high bit is set then get the error string from the driver // otherwise get it from mmsystem.dll if (HIWORD(dwError) != 0) { mciEnter("mciGetErrorStringW"); if (MCI_VALID_DEVICE_ID ((UINT)HIWORD(dwError))) { hInst = MCI_lpDeviceList[HIWORD (dwError)]->hDriver; } mciLeave("mciGetErrorStringW"); if (hInst == 0) { hInst = ghInst; dwError = MCIERR_DRIVER; } } else { hInst = ghInst; } if (LoadStringW(hInst, LOWORD(dwError), lpstrBuffer, uLength ) == 0) { // If the string load failed then at least terminate the string if (uLength > 0) { *lpstrBuffer = '\0'; dprintf1(("Failed to load resource string")); } return FALSE; } else { return TRUE; } } #if 0 /* * Return non-zero if load successful */ BOOL MCIInit() { return TRUE; } /* * Return non-zero if load successful */ void MCITerminate() { /* We would like to close all open devices here but cannot because of unknown WEP order */ if (hMciHeap != NULL) { HeapDestroy(hMciHeap); } hMciHeap = NULL; } #endif