Sweden-Number/dlls/winmm/mciwave/mciwave.c

1654 lines
53 KiB
C

/* -*- tab-width: 8; c-basic-offset: 4 -*- */
/*
* Sample Wine Driver for MCI wave forms
*
* Copyright 1994 Martin Ayotte
* 1999,2000 Eric Pouech
* 2000 Francois Jacques
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "winerror.h"
#include "windef.h"
#include "winbase.h"
#include "wingdi.h"
#include "winuser.h"
#include "mmddk.h"
#include "digitalv.h"
#include "wine/debug.h"
WINE_DEFAULT_DEBUG_CHANNEL(mciwave);
typedef struct {
UINT wDevID;
HANDLE hWave;
int nUseCount; /* Incremented for each shared open */
BOOL fShareable; /* TRUE if first open was shareable */
HMMIO hFile; /* mmio file handle open as Element */
MCI_WAVE_OPEN_PARMSA openParms;
WAVEFORMATEX wfxRef;
LPWAVEFORMATEX lpWaveFormat;
BOOL fInput; /* FALSE = Output, TRUE = Input */
volatile WORD dwStatus; /* one from MCI_MODE_xxxx */
DWORD dwMciTimeFormat;/* One of the supported MCI_FORMAT_xxxx */
DWORD dwRemaining; /* remaining bytes to play or record */
DWORD dwPosition; /* position in bytes in chunk */
HANDLE hEvent; /* for synchronization */
DWORD dwEventCount; /* for synchronization */
BOOL bTemporaryFile; /* temporary file (MCI_RECORD) */
MMCKINFO ckMainRIFF; /* main RIFF chunk */
MMCKINFO ckWaveData; /* data chunk */
} WINE_MCIWAVE;
/* ===================================================================
* ===================================================================
* FIXME: should be using the new mmThreadXXXX functions from WINMM
* instead of those
* it would require to add a wine internal flag to mmThreadCreate
* in order to pass a 32 bit function instead of a 16 bit one
* ===================================================================
* =================================================================== */
struct SCA {
UINT wDevID;
UINT wMsg;
DWORD dwParam1;
DWORD dwParam2;
};
/**************************************************************************
* MCI_SCAStarter [internal]
*/
static DWORD CALLBACK MCI_SCAStarter(LPVOID arg)
{
struct SCA* sca = (struct SCA*)arg;
DWORD ret;
TRACE("In thread before async command (%08x,%u,%08lx,%08lx)\n",
sca->wDevID, sca->wMsg, sca->dwParam1, sca->dwParam2);
ret = mciSendCommandA(sca->wDevID, sca->wMsg, sca->dwParam1 | MCI_WAIT, sca->dwParam2);
TRACE("In thread after async command (%08x,%u,%08lx,%08lx)\n",
sca->wDevID, sca->wMsg, sca->dwParam1, sca->dwParam2);
HeapFree(GetProcessHeap(), 0, sca);
ExitThread(ret);
WARN("Should not happen ? what's wrong \n");
/* should not go after this point */
return ret;
}
/**************************************************************************
* MCI_SendCommandAsync [internal]
*/
static DWORD MCI_SendCommandAsync(UINT wDevID, UINT wMsg, DWORD dwParam1,
DWORD dwParam2, UINT size)
{
struct SCA* sca = HeapAlloc(GetProcessHeap(), 0, sizeof(struct SCA) + size);
if (sca == 0)
return MCIERR_OUT_OF_MEMORY;
sca->wDevID = wDevID;
sca->wMsg = wMsg;
sca->dwParam1 = dwParam1;
if (size && dwParam2) {
sca->dwParam2 = (DWORD)sca + sizeof(struct SCA);
/* copy structure passed by program in dwParam2 to be sure
* we can still use it whatever the program does
*/
memcpy((LPVOID)sca->dwParam2, (LPVOID)dwParam2, size);
} else {
sca->dwParam2 = dwParam2;
}
if (CreateThread(NULL, 0, MCI_SCAStarter, sca, 0, NULL) == 0) {
WARN("Couldn't allocate thread for async command handling, sending synchonously\n");
return MCI_SCAStarter(&sca);
}
return 0;
}
/*======================================================================*
* MCI WAVE implemantation *
*======================================================================*/
static DWORD WAVE_mciResume(UINT wDevID, DWORD dwFlags, LPMCI_GENERIC_PARMS lpParms);
/**************************************************************************
* MCIWAVE_drvOpen [internal]
*/
static DWORD WAVE_drvOpen(LPSTR str, LPMCI_OPEN_DRIVER_PARMSA modp)
{
WINE_MCIWAVE* wmw;
if (modp == NULL) return 0xFFFFFFFF;
wmw = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(WINE_MCIWAVE));
if (!wmw)
return 0;
wmw->wDevID = modp->wDeviceID;
mciSetDriverData(wmw->wDevID, (DWORD)wmw);
modp->wCustomCommandTable = MCI_NO_COMMAND_TABLE;
modp->wType = MCI_DEVTYPE_WAVEFORM_AUDIO;
wmw->wfxRef.wFormatTag = WAVE_FORMAT_PCM;
wmw->wfxRef.nChannels = 1; /* MONO */
wmw->wfxRef.nSamplesPerSec = 11025;
wmw->wfxRef.nAvgBytesPerSec = 11025;
wmw->wfxRef.nBlockAlign = 1;
wmw->wfxRef.wBitsPerSample = 8;
wmw->wfxRef.cbSize = 0; /* don't care */
return modp->wDeviceID;
}
/**************************************************************************
* MCIWAVE_drvClose [internal]
*/
static DWORD WAVE_drvClose(DWORD dwDevID)
{
WINE_MCIWAVE* wmw = (WINE_MCIWAVE*)mciGetDriverData(dwDevID);
if (wmw) {
HeapFree(GetProcessHeap(), 0, wmw);
mciSetDriverData(dwDevID, 0);
return 1;
}
return (dwDevID == 0xFFFFFFFF) ? 1 : 0;
}
/**************************************************************************
* WAVE_mciGetOpenDev [internal]
*/
static WINE_MCIWAVE* WAVE_mciGetOpenDev(UINT wDevID)
{
WINE_MCIWAVE* wmw = (WINE_MCIWAVE*)mciGetDriverData(wDevID);
if (wmw == NULL || wmw->nUseCount == 0) {
WARN("Invalid wDevID=%u\n", wDevID);
return 0;
}
return wmw;
}
/**************************************************************************
* WAVE_ConvertByteToTimeFormat [internal]
*/
static DWORD WAVE_ConvertByteToTimeFormat(WINE_MCIWAVE* wmw, DWORD val, LPDWORD lpRet)
{
DWORD ret = 0;
switch (wmw->dwMciTimeFormat) {
case MCI_FORMAT_MILLISECONDS:
ret = MulDiv(val,1000,wmw->lpWaveFormat->nAvgBytesPerSec);
break;
case MCI_FORMAT_BYTES:
ret = val;
break;
case MCI_FORMAT_SAMPLES: /* FIXME: is this correct ? */
ret = (val * 8) / wmw->lpWaveFormat->wBitsPerSample;
break;
default:
WARN("Bad time format %lu!\n", wmw->dwMciTimeFormat);
}
TRACE("val=%lu=0x%08lx [tf=%lu] => ret=%lu\n", val, val, wmw->dwMciTimeFormat, ret);
*lpRet = 0;
return ret;
}
/**************************************************************************
* WAVE_ConvertTimeFormatToByte [internal]
*/
static DWORD WAVE_ConvertTimeFormatToByte(WINE_MCIWAVE* wmw, DWORD val)
{
DWORD ret = 0;
switch (wmw->dwMciTimeFormat) {
case MCI_FORMAT_MILLISECONDS:
ret = (val * wmw->lpWaveFormat->nAvgBytesPerSec) / 1000;
break;
case MCI_FORMAT_BYTES:
ret = val;
break;
case MCI_FORMAT_SAMPLES: /* FIXME: is this correct ? */
ret = (val * wmw->lpWaveFormat->wBitsPerSample) / 8;
break;
default:
WARN("Bad time format %lu!\n", wmw->dwMciTimeFormat);
}
TRACE("val=%lu=0x%08lx [tf=%lu] => ret=%lu\n", val, val, wmw->dwMciTimeFormat, ret);
return ret;
}
/**************************************************************************
* WAVE_mciReadFmt [internal]
*/
static DWORD WAVE_mciReadFmt(WINE_MCIWAVE* wmw, MMCKINFO* pckMainRIFF)
{
MMCKINFO mmckInfo;
long r;
mmckInfo.ckid = mmioFOURCC('f', 'm', 't', ' ');
if (mmioDescend(wmw->hFile, &mmckInfo, pckMainRIFF, MMIO_FINDCHUNK) != 0)
return MCIERR_INVALID_FILE;
TRACE("Chunk Found ckid=%.4s fccType=%.4s cksize=%08lX \n",
(LPSTR)&mmckInfo.ckid, (LPSTR)&mmckInfo.fccType, mmckInfo.cksize);
wmw->lpWaveFormat = HeapAlloc(GetProcessHeap(), 0, mmckInfo.cksize);
r = mmioRead(wmw->hFile, (HPSTR)wmw->lpWaveFormat, mmckInfo.cksize);
if (r < sizeof(WAVEFORMAT))
return MCIERR_INVALID_FILE;
TRACE("wFormatTag=%04X !\n", wmw->lpWaveFormat->wFormatTag);
TRACE("nChannels=%d \n", wmw->lpWaveFormat->nChannels);
TRACE("nSamplesPerSec=%ld\n", wmw->lpWaveFormat->nSamplesPerSec);
TRACE("nAvgBytesPerSec=%ld\n", wmw->lpWaveFormat->nAvgBytesPerSec);
TRACE("nBlockAlign=%d \n", wmw->lpWaveFormat->nBlockAlign);
TRACE("wBitsPerSample=%u !\n", wmw->lpWaveFormat->wBitsPerSample);
if (r >= (long)sizeof(WAVEFORMATEX))
TRACE("cbSize=%u !\n", wmw->lpWaveFormat->cbSize);
mmioAscend(wmw->hFile, &mmckInfo, 0);
wmw->ckWaveData.ckid = mmioFOURCC('d', 'a', 't', 'a');
if (mmioDescend(wmw->hFile, &wmw->ckWaveData, pckMainRIFF, MMIO_FINDCHUNK) != 0) {
TRACE("can't find data chunk\n");
return MCIERR_INVALID_FILE;
}
TRACE("Chunk Found ckid=%.4s fccType=%.4s cksize=%08lX \n",
(LPSTR)&wmw->ckWaveData.ckid, (LPSTR)&wmw->ckWaveData.fccType, wmw->ckWaveData.cksize);
TRACE("nChannels=%d nSamplesPerSec=%ld\n",
wmw->lpWaveFormat->nChannels, wmw->lpWaveFormat->nSamplesPerSec);
return 0;
}
/**************************************************************************
* WAVE_mciCreateRIFFSkeleton [internal]
*/
static DWORD WAVE_mciCreateRIFFSkeleton(WINE_MCIWAVE* wmw)
{
MMCKINFO ckWaveFormat;
LPMMCKINFO lpckRIFF = &(wmw->ckMainRIFF);
LPMMCKINFO lpckWaveData = &(wmw->ckWaveData);
LPWAVEFORMATEX lpWaveFormat = wmw->lpWaveFormat;
HMMIO hmmio = wmw->hFile;
lpckRIFF->ckid = FOURCC_RIFF;
lpckRIFF->fccType = mmioFOURCC('W', 'A', 'V', 'E');
lpckRIFF->cksize = 0;
if (MMSYSERR_NOERROR != mmioCreateChunk(hmmio, lpckRIFF, MMIO_CREATERIFF))
goto err;
ckWaveFormat.fccType = 0;
ckWaveFormat.ckid = mmioFOURCC('f', 'm', 't', ' ');
ckWaveFormat.cksize = 16;
if (!lpWaveFormat)
{
/* FIXME: for non PCM formats, the size of the waveFormat has to be
* gotten
*/
lpWaveFormat = wmw->lpWaveFormat = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*lpWaveFormat));
memcpy(lpWaveFormat, &wmw->wfxRef, sizeof(wmw->wfxRef));
}
if (MMSYSERR_NOERROR != mmioCreateChunk(hmmio, &ckWaveFormat, 0))
goto err;
/* only the first 16 bytes are serialized */
/* wrong... for non PCM, the whole waveFormat is stored
*/
if (-1 == mmioWrite(hmmio, (HPCSTR) lpWaveFormat, 16))
goto err;
if (MMSYSERR_NOERROR != mmioAscend(hmmio, &ckWaveFormat, 0))
goto err;
lpckWaveData->cksize = 0;
lpckWaveData->fccType = 0;
lpckWaveData->ckid = mmioFOURCC('d', 'a', 't', 'a');
/* create data chunk */
if (MMSYSERR_NOERROR != mmioCreateChunk(hmmio, lpckWaveData, 0))
goto err;
return 0;
err:
HeapFree(GetProcessHeap(), 0, wmw->lpWaveFormat);
return MCIERR_INVALID_FILE;
}
/**************************************************************************
* WAVE_mciOpen [internal]
*/
static DWORD WAVE_mciOpen(UINT wDevID, DWORD dwFlags, LPMCI_WAVE_OPEN_PARMSA lpOpenParms)
{
DWORD dwRet = 0;
WINE_MCIWAVE* wmw = (WINE_MCIWAVE*)mciGetDriverData(wDevID);
CHAR* pszTmpFileName = 0;
TRACE("(%04X, %08lX, %p)\n", wDevID, dwFlags, lpOpenParms);
if (lpOpenParms == NULL) return MCIERR_NULL_PARAMETER_BLOCK;
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (dwFlags & MCI_OPEN_SHAREABLE)
return MCIERR_HARDWARE;
if (wmw->nUseCount > 0) {
/* The driver is already opened on this channel
* Wave driver cannot be shared
*/
return MCIERR_DEVICE_OPEN;
}
wmw->nUseCount++;
wmw->fInput = FALSE;
wmw->hWave = 0;
wmw->dwStatus = MCI_MODE_NOT_READY;
TRACE("wDevID=%04X (lpParams->wDeviceID=%08X)\n", wDevID, lpOpenParms->wDeviceID);
if (dwFlags & MCI_OPEN_ELEMENT) {
if (dwFlags & MCI_OPEN_ELEMENT_ID) {
/* could it be that (DWORD)lpOpenParms->lpstrElementName
* contains the hFile value ?
*/
dwRet = MCIERR_UNRECOGNIZED_COMMAND;
} else {
if (strlen(lpOpenParms->lpstrElementName) > 0) {
lpOpenParms->lpstrElementName = lpOpenParms->lpstrElementName;
/* FIXME : what should be done id wmw->hFile is already != 0, or the driver is playin' */
TRACE("MCI_OPEN_ELEMENT '%s' !\n", lpOpenParms->lpstrElementName);
if (lpOpenParms->lpstrElementName && (strlen(lpOpenParms->lpstrElementName) > 0)) {
wmw->hFile = mmioOpenA((LPSTR)lpOpenParms->lpstrElementName, NULL,
MMIO_ALLOCBUF | MMIO_DENYWRITE | MMIO_READWRITE);
if (wmw->hFile == 0) {
WARN("can't find file='%s' !\n", lpOpenParms->lpstrElementName);
dwRet = MCIERR_FILE_NOT_FOUND;
}
else
{
LPMMCKINFO lpckMainRIFF = &wmw->ckMainRIFF;
/* make sure we're are the beginning of the file */
mmioSeek(wmw->hFile, 0, SEEK_SET);
/* first reading of this file. read the waveformat chunk */
if (mmioDescend(wmw->hFile, lpckMainRIFF, NULL, 0) != 0) {
dwRet = MCIERR_INVALID_FILE;
} else {
TRACE("ParentChunk ckid=%.4s fccType=%.4s cksize=%08lX \n",
(LPSTR)&(lpckMainRIFF->ckid),
(LPSTR) &(lpckMainRIFF->fccType),
(lpckMainRIFF->cksize));
if ((lpckMainRIFF->ckid != FOURCC_RIFF) ||
lpckMainRIFF->fccType != mmioFOURCC('W', 'A', 'V', 'E')) {
dwRet = MCIERR_INVALID_FILE;
} else {
dwRet = WAVE_mciReadFmt(wmw, lpckMainRIFF);
}
}
}
}
else {
wmw->hFile = 0;
}
}
else {
CHAR szTmpPath[MAX_PATH];
CHAR szPrefix[4] = "TMP\0";
pszTmpFileName = HeapAlloc(GetProcessHeap(),
HEAP_ZERO_MEMORY,
MAX_PATH * sizeof(*pszTmpFileName));
if (!GetTempPathA(sizeof(szTmpPath), szTmpPath)) {
WARN("can't retrieve temp path!\n");
HeapFree(GetProcessHeap(), 0, pszTmpFileName);
return MCIERR_FILE_NOT_FOUND;
}
if (!GetTempFileNameA(szTmpPath, szPrefix, 0, pszTmpFileName)) {
WARN("can't retrieve temp file name!\n");
HeapFree(GetProcessHeap(), 0, pszTmpFileName);
return MCIERR_FILE_NOT_FOUND;
}
wmw->bTemporaryFile = TRUE;
TRACE("MCI_OPEN_ELEMENT '%s' !\n", pszTmpFileName);
if (pszTmpFileName && (strlen(pszTmpFileName) > 0)) {
wmw->hFile = mmioOpenA(pszTmpFileName, NULL,
MMIO_ALLOCBUF | MMIO_READWRITE | MMIO_CREATE);
if (wmw->hFile == 0) {
/* temporary file could not be created. clean filename. */
HeapFree(GetProcessHeap(), 0, pszTmpFileName);
WARN("can't create file='%s' !\n", pszTmpFileName);
dwRet = MCIERR_FILE_NOT_FOUND;
}
}
}
}
}
TRACE("hFile=%u\n", wmw->hFile);
memcpy(&wmw->openParms, lpOpenParms, sizeof(MCI_WAVE_OPEN_PARMSA));
if (wmw->bTemporaryFile == TRUE)
{
/* Additional openParms is temporary file's name */
wmw->openParms.lpstrElementName = pszTmpFileName;
}
if (dwRet == 0) {
if (wmw->lpWaveFormat) {
switch (wmw->lpWaveFormat->wFormatTag) {
case WAVE_FORMAT_PCM:
if (wmw->lpWaveFormat->nAvgBytesPerSec !=
wmw->lpWaveFormat->nSamplesPerSec * wmw->lpWaveFormat->nBlockAlign) {
WARN("Incorrect nAvgBytesPerSec (%ld), setting it to %ld\n",
wmw->lpWaveFormat->nAvgBytesPerSec,
wmw->lpWaveFormat->nSamplesPerSec *
wmw->lpWaveFormat->nBlockAlign);
wmw->lpWaveFormat->nAvgBytesPerSec =
wmw->lpWaveFormat->nSamplesPerSec *
wmw->lpWaveFormat->nBlockAlign;
}
break;
}
}
wmw->dwPosition = 0;
wmw->dwStatus = MCI_MODE_STOP;
} else {
wmw->nUseCount--;
if (wmw->hFile != 0)
mmioClose(wmw->hFile, 0);
wmw->hFile = 0;
}
return dwRet;
}
/**************************************************************************
* WAVE_mciCue [internal]
*/
static DWORD WAVE_mciCue(UINT wDevID, DWORD dwParam, LPMCI_GENERIC_PARMS lpParms)
{
/*
FIXME
This routine is far from complete. At the moment only a check is done on the
MCI_WAVE_INPUT flag. No explicit check on MCI_WAVE_OUTPUT is done since that
is the default.
The flags MCI_NOTIFY (and the callback parameter in lpParms) and MCI_WAIT
are ignored
*/
DWORD dwRet;
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
FIXME("(%u, %08lX, %p); likely to fail\n", wDevID, dwParam, lpParms);
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
/* always close elements ? */
if (wmw->hFile != 0) {
mmioClose(wmw->hFile, 0);
wmw->hFile = 0;
}
dwRet = MMSYSERR_NOERROR; /* assume success */
if ((dwParam & MCI_WAVE_INPUT) && !wmw->fInput) {
dwRet = waveOutClose(wmw->hWave);
if (dwRet != MMSYSERR_NOERROR) return MCIERR_INTERNAL;
wmw->fInput = TRUE;
} else if (wmw->fInput) {
dwRet = waveInClose(wmw->hWave);
if (dwRet != MMSYSERR_NOERROR) return MCIERR_INTERNAL;
wmw->fInput = FALSE;
}
wmw->hWave = 0;
return (dwRet == MMSYSERR_NOERROR) ? 0 : MCIERR_INTERNAL;
}
/**************************************************************************
* WAVE_mciStop [internal]
*/
static DWORD WAVE_mciStop(UINT wDevID, DWORD dwFlags, LPMCI_GENERIC_PARMS lpParms)
{
DWORD dwRet = 0;
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
/* wait for playback thread (if any) to exit before processing further */
switch (wmw->dwStatus) {
case MCI_MODE_PAUSE:
case MCI_MODE_PLAY:
case MCI_MODE_RECORD:
{
int oldStat = wmw->dwStatus;
wmw->dwStatus = MCI_MODE_NOT_READY;
if (oldStat == MCI_MODE_PAUSE)
dwRet = (wmw->fInput) ? waveInReset(wmw->hWave) : waveOutReset(wmw->hWave);
}
while (wmw->dwStatus != MCI_MODE_STOP)
Sleep(10);
break;
}
wmw->dwPosition = 0;
/* sanity resets */
wmw->dwStatus = MCI_MODE_STOP;
if ((dwFlags & MCI_NOTIFY) && lpParms) {
mciDriverNotify((HWND)LOWORD(lpParms->dwCallback),
wmw->openParms.wDeviceID, MCI_NOTIFY_SUCCESSFUL);
}
return dwRet;
}
/**************************************************************************
* WAVE_mciClose [internal]
*/
static DWORD WAVE_mciClose(UINT wDevID, DWORD dwFlags, LPMCI_GENERIC_PARMS lpParms)
{
DWORD dwRet = 0;
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (wmw->dwStatus != MCI_MODE_STOP) {
dwRet = WAVE_mciStop(wDevID, MCI_WAIT, lpParms);
}
wmw->nUseCount--;
if (wmw->nUseCount == 0) {
if (wmw->hFile != 0) {
mmioClose(wmw->hFile, 0);
wmw->hFile = 0;
}
}
/* That string got allocated in mciOpen because no filename was specified
* in MCI_OPEN_PARMS stucture. Cast-away const from string since it was
* allocated by mciOpen, *NOT* the application.
*/
if (wmw->bTemporaryFile)
{
HeapFree(GetProcessHeap(), 0, (CHAR*) wmw->openParms.lpstrElementName);
wmw->openParms.lpstrElementName = NULL;
}
HeapFree(GetProcessHeap(), 0, wmw->lpWaveFormat);
wmw->lpWaveFormat = NULL;
if ((dwFlags & MCI_NOTIFY) && lpParms) {
mciDriverNotify((HWND)LOWORD(lpParms->dwCallback),
wmw->openParms.wDeviceID,
(dwRet == 0) ? MCI_NOTIFY_SUCCESSFUL : MCI_NOTIFY_FAILURE);
}
return 0;
}
/**************************************************************************
* WAVE_mciPlayCallback [internal]
*/
static void CALLBACK WAVE_mciPlayCallback(HWAVEOUT hwo, UINT uMsg,
DWORD dwInstance,
DWORD dwParam1, DWORD dwParam2)
{
WINE_MCIWAVE* wmw = (WINE_MCIWAVE*)dwInstance;
switch (uMsg) {
case WOM_OPEN:
case WOM_CLOSE:
break;
case WOM_DONE:
InterlockedIncrement(&wmw->dwEventCount);
TRACE("Returning waveHdr=%lx\n", dwParam1);
SetEvent(wmw->hEvent);
break;
default:
ERR("Unknown uMsg=%d\n", uMsg);
}
}
static void WAVE_mciPlayWaitDone(WINE_MCIWAVE* wmw)
{
for (;;) {
ResetEvent(wmw->hEvent);
if (InterlockedDecrement(&wmw->dwEventCount) >= 0) {
break;
}
InterlockedIncrement(&wmw->dwEventCount);
WaitForSingleObject(wmw->hEvent, INFINITE);
}
}
/**************************************************************************
* WAVE_mciPlay [internal]
*/
static DWORD WAVE_mciPlay(UINT wDevID, DWORD dwFlags, LPMCI_PLAY_PARMS lpParms)
{
DWORD end;
LONG bufsize, count, left;
DWORD dwRet = 0;
LPWAVEHDR waveHdr = NULL;
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
int whidx;
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (lpParms == NULL) return MCIERR_NULL_PARAMETER_BLOCK;
/* FIXME : since there is no way to determine in which mode the device is
* open (recording/playback) automatically switch from a mode to another
*/
wmw->fInput = FALSE;
if (wmw->fInput) {
WARN("cannot play on input device\n");
return MCIERR_NONAPPLICABLE_FUNCTION;
}
if (wmw->hFile == 0) {
WARN("Can't play: no file='%s' !\n", wmw->openParms.lpstrElementName);
return MCIERR_FILE_NOT_FOUND;
}
if (wmw->dwStatus == MCI_MODE_PAUSE) {
/* FIXME: parameters (start/end) in lpParams may not be used */
return WAVE_mciResume(wDevID, dwFlags, (LPMCI_GENERIC_PARMS)lpParms);
}
/** This function will be called again by a thread when async is used.
* We have to set MCI_MODE_PLAY before we do this so that the app can spin
* on MCI_STATUS, so we have to allow it here if we're not going to start this thread.
*/
if ((wmw->dwStatus != MCI_MODE_STOP) && ((wmw->dwStatus != MCI_MODE_PLAY) && (dwFlags & MCI_WAIT))) {
return MCIERR_INTERNAL;
}
wmw->dwStatus = MCI_MODE_PLAY;
if (!(dwFlags & MCI_WAIT)) {
return MCI_SendCommandAsync(wmw->openParms.wDeviceID, MCI_PLAY, dwFlags,
(DWORD)lpParms, sizeof(MCI_PLAY_PARMS));
}
end = 0xFFFFFFFF;
if (lpParms && (dwFlags & MCI_FROM)) {
wmw->dwPosition = WAVE_ConvertTimeFormatToByte(wmw, lpParms->dwFrom);
}
if (lpParms && (dwFlags & MCI_TO)) {
end = WAVE_ConvertTimeFormatToByte(wmw, lpParms->dwTo);
}
TRACE("Playing from byte=%lu to byte=%lu\n", wmw->dwPosition, end);
if (end <= wmw->dwPosition)
return TRUE;
#define WAVE_ALIGN_ON_BLOCK(wmw,v) \
((((v) + (wmw)->lpWaveFormat->nBlockAlign - 1) / (wmw)->lpWaveFormat->nBlockAlign) * (wmw)->lpWaveFormat->nBlockAlign)
wmw->dwPosition = WAVE_ALIGN_ON_BLOCK(wmw, wmw->dwPosition);
wmw->ckWaveData.cksize = WAVE_ALIGN_ON_BLOCK(wmw, wmw->ckWaveData.cksize);
if (dwRet == 0) {
if (wmw->lpWaveFormat) {
switch (wmw->lpWaveFormat->wFormatTag) {
case WAVE_FORMAT_PCM:
if (wmw->lpWaveFormat->nAvgBytesPerSec !=
wmw->lpWaveFormat->nSamplesPerSec * wmw->lpWaveFormat->nBlockAlign) {
WARN("Incorrect nAvgBytesPerSec (%ld), setting it to %ld\n",
wmw->lpWaveFormat->nAvgBytesPerSec,
wmw->lpWaveFormat->nSamplesPerSec *
wmw->lpWaveFormat->nBlockAlign);
wmw->lpWaveFormat->nAvgBytesPerSec =
wmw->lpWaveFormat->nSamplesPerSec *
wmw->lpWaveFormat->nBlockAlign;
}
break;
}
}
} else {
TRACE("can't retrieve wave format %ld\n", dwRet);
goto cleanUp;
}
/* go back to beginning of chunk plus the requested position */
/* FIXME: I'm not sure this is correct, notably because some data linked to
* the decompression state machine will not be correcly initialized.
* try it this way (other way would be to decompress from 0 up to dwPosition
* and to start sending to hWave when dwPosition is reached)
*/
mmioSeek(wmw->hFile, wmw->ckWaveData.dwDataOffset + wmw->dwPosition, SEEK_SET); /* >= 0 */
/* By default the device will be opened for output, the MCI_CUE function is there to
* change from output to input and back
*/
/* FIXME: how to choose between several output channels ? here mapper is forced */
dwRet = waveOutOpen(&wmw->hWave, WAVE_MAPPER, wmw->lpWaveFormat,
(DWORD)WAVE_mciPlayCallback, (DWORD)wmw, CALLBACK_FUNCTION);
if (dwRet != 0) {
TRACE("Can't open low level audio device %ld\n", dwRet);
dwRet = MCIERR_DEVICE_OPEN;
wmw->hWave = 0;
goto cleanUp;
}
/* make it so that 3 buffers per second are needed */
bufsize = WAVE_ALIGN_ON_BLOCK(wmw, wmw->lpWaveFormat->nAvgBytesPerSec / 3);
waveHdr = HeapAlloc(GetProcessHeap(), 0, 2 * sizeof(WAVEHDR) + 2 * bufsize);
waveHdr[0].lpData = (char*)waveHdr + 2 * sizeof(WAVEHDR);
waveHdr[1].lpData = (char*)waveHdr + 2 * sizeof(WAVEHDR) + bufsize;
waveHdr[0].dwUser = waveHdr[1].dwUser = 0L;
waveHdr[0].dwLoops = waveHdr[1].dwLoops = 0L;
waveHdr[0].dwFlags = waveHdr[1].dwFlags = 0L;
waveHdr[0].dwBufferLength = waveHdr[1].dwBufferLength = bufsize;
if (waveOutPrepareHeader(wmw->hWave, &waveHdr[0], sizeof(WAVEHDR)) ||
waveOutPrepareHeader(wmw->hWave, &waveHdr[1], sizeof(WAVEHDR))) {
dwRet = MCIERR_INTERNAL;
goto cleanUp;
}
whidx = 0;
left = min(wmw->ckWaveData.cksize, end - wmw->dwPosition);
wmw->hEvent = CreateEventA(NULL, FALSE, FALSE, NULL);
wmw->dwEventCount = 1L; /* for first buffer */
TRACE("Playing (normalized) from byte=%lu for %lu bytes\n", wmw->dwPosition, left);
/* FIXME: this doesn't work if wmw->dwPosition != 0 */
while (left > 0 && wmw->dwStatus != MCI_MODE_STOP && wmw->dwStatus != MCI_MODE_NOT_READY) {
count = mmioRead(wmw->hFile, waveHdr[whidx].lpData, min(bufsize, left));
TRACE("mmioRead bufsize=%ld count=%ld\n", bufsize, count);
if (count < 1)
break;
/* count is always <= bufsize, so this is correct regarding the
* waveOutPrepareHeader function
*/
waveHdr[whidx].dwBufferLength = count;
waveHdr[whidx].dwFlags &= ~WHDR_DONE;
TRACE("before WODM_WRITE lpWaveHdr=%p dwBufferLength=%lu dwBytesRecorded=%lu\n",
&waveHdr[whidx], waveHdr[whidx].dwBufferLength,
waveHdr[whidx].dwBytesRecorded);
dwRet = waveOutWrite(wmw->hWave, &waveHdr[whidx], sizeof(WAVEHDR));
left -= count;
wmw->dwPosition += count;
TRACE("after WODM_WRITE dwPosition=%lu\n", wmw->dwPosition);
WAVE_mciPlayWaitDone(wmw);
whidx ^= 1;
}
WAVE_mciPlayWaitDone(wmw); /* to balance first buffer */
/* just to get rid of some race conditions between play, stop and pause */
waveOutReset(wmw->hWave);
waveOutUnprepareHeader(wmw->hWave, &waveHdr[0], sizeof(WAVEHDR));
waveOutUnprepareHeader(wmw->hWave, &waveHdr[1], sizeof(WAVEHDR));
dwRet = 0;
cleanUp:
HeapFree(GetProcessHeap(), 0, waveHdr);
if (wmw->hWave) {
waveOutClose(wmw->hWave);
wmw->hWave = 0;
}
CloseHandle(wmw->hEvent);
if (lpParms && (dwFlags & MCI_NOTIFY)) {
mciDriverNotify((HWND)LOWORD(lpParms->dwCallback),
wmw->openParms.wDeviceID,
dwRet ? MCI_NOTIFY_FAILURE : MCI_NOTIFY_SUCCESSFUL);
}
wmw->dwStatus = MCI_MODE_STOP;
return dwRet;
}
/**************************************************************************
* WAVE_mciPlayCallback [internal]
*/
static void CALLBACK WAVE_mciRecordCallback(HWAVEOUT hwo, UINT uMsg,
DWORD dwInstance,
DWORD dwParam1, DWORD dwParam2)
{
WINE_MCIWAVE* wmw = (WINE_MCIWAVE*)dwInstance;
LPWAVEHDR lpWaveHdr = NULL;
LONG count = 0;
switch (uMsg) {
case WIM_OPEN:
case WIM_CLOSE:
break;
case WIM_DATA:
lpWaveHdr = (LPWAVEHDR) dwParam1;
InterlockedIncrement(&wmw->dwEventCount);
count = mmioWrite(wmw->hFile, lpWaveHdr->lpData, lpWaveHdr->dwBytesRecorded);
lpWaveHdr->dwFlags &= ~WHDR_DONE;
wmw->dwPosition += count;
wmw->dwRemaining -= count;
if (wmw->dwStatus == MCI_MODE_RECORD)
{
/* Only queue up another buffer if we are recording. We could receive this
message also when waveInReset() is called, since it notifies on all wave
buffers that are outstanding. Queueing up more sometimes causes waveInClose
to fail. */
waveInAddBuffer(wmw->hWave, lpWaveHdr, sizeof(*lpWaveHdr));
TRACE("after mmioWrite dwPosition=%lu\n", wmw->dwPosition);
}
SetEvent(wmw->hEvent);
break;
default:
ERR("Unknown uMsg=%d\n", uMsg);
}
}
static void WAVE_mciRecordWaitDone(WINE_MCIWAVE* wmw)
{
for (;;) {
ResetEvent(wmw->hEvent);
if (InterlockedDecrement(&wmw->dwEventCount) >= 0) {
break;
}
InterlockedIncrement(&wmw->dwEventCount);
WaitForSingleObject(wmw->hEvent, INFINITE);
}
}
/**************************************************************************
* WAVE_mciRecord [internal]
*/
static DWORD WAVE_mciRecord(UINT wDevID, DWORD dwFlags, LPMCI_RECORD_PARMS lpParms)
{
DWORD end;
DWORD dwRet = 0;
LONG bufsize;
LPWAVEHDR waveHdr = NULL;
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (lpParms == NULL) return MCIERR_NULL_PARAMETER_BLOCK;
/* FIXME : since there is no way to determine in which mode the device is
* open (recording/playback) automatically switch from a mode to another
*/
wmw->fInput = TRUE;
if (!wmw->fInput) {
WARN("cannot record on output device\n");
return MCIERR_NONAPPLICABLE_FUNCTION;
}
if (wmw->dwStatus == MCI_MODE_PAUSE) {
/* FIXME: parameters (start/end) in lpParams may not be used */
return WAVE_mciResume(wDevID, dwFlags, (LPMCI_GENERIC_PARMS)lpParms);
}
/** This function will be called again by a thread when async is used.
* We have to set MCI_MODE_PLAY before we do this so that the app can spin
* on MCI_STATUS, so we have to allow it here if we're not going to start this thread.
*/
if ((wmw->dwStatus != MCI_MODE_STOP) && ((wmw->dwStatus != MCI_MODE_RECORD) && (dwFlags & MCI_WAIT))) {
return MCIERR_INTERNAL;
}
wmw->dwStatus = MCI_MODE_RECORD;
if (!(dwFlags & MCI_WAIT)) {
return MCI_SendCommandAsync(wmw->openParms.wDeviceID, MCI_RECORD, dwFlags,
(DWORD)lpParms, sizeof(MCI_RECORD_PARMS));
}
if (!wmw->lpWaveFormat)
{
/* new RIFF file */
dwRet = WAVE_mciCreateRIFFSkeleton(wmw);
} else
{
FIXME("Should descend into data chunk. Please report.\n");
}
end = 0xFFFFFFFF;
if (lpParms && (dwFlags & MCI_FROM)) {
wmw->dwPosition = WAVE_ConvertTimeFormatToByte(wmw, lpParms->dwFrom);
}
if (lpParms && (dwFlags & MCI_TO)) {
end = WAVE_ConvertTimeFormatToByte(wmw, lpParms->dwTo);
}
TRACE("Recording from byte=%lu to byte=%lu\n", wmw->dwPosition, end);
if (end <= wmw->dwPosition)
{
return TRUE;
}
#define WAVE_ALIGN_ON_BLOCK(wmw,v) \
((((v) + (wmw)->lpWaveFormat->nBlockAlign - 1) / (wmw)->lpWaveFormat->nBlockAlign) * (wmw)->lpWaveFormat->nBlockAlign)
wmw->dwPosition = WAVE_ALIGN_ON_BLOCK(wmw, wmw->dwPosition);
wmw->ckWaveData.cksize = WAVE_ALIGN_ON_BLOCK(wmw, wmw->ckWaveData.cksize);
/* go back to beginning of chunk plus the requested position */
/* FIXME: I'm not sure this is correct, notably because some data linked to
* the decompression state machine will not be correcly initialized.
* try it this way (other way would be to decompress from 0 up to dwPosition
* and to start sending to hWave when dwPosition is reached)
*/
mmioSeek(wmw->hFile, wmw->ckWaveData.dwDataOffset + wmw->dwPosition, SEEK_SET); /* >= 0 */
/* By default the device will be opened for output, the MCI_CUE function is there to
* change from output to input and back
*/
/* FIXME: how to choose between several output channels ? here mapper is forced */
dwRet = waveInOpen(&wmw->hWave, WAVE_MAPPER, wmw->lpWaveFormat,
(DWORD)WAVE_mciRecordCallback, (DWORD)wmw, CALLBACK_FUNCTION);
if (dwRet != 0) {
TRACE("Can't open low level audio device %ld\n", dwRet);
dwRet = MCIERR_DEVICE_OPEN;
wmw->hWave = 0;
goto cleanUp;
}
/* make it so that 3 buffers per second are needed */
bufsize = WAVE_ALIGN_ON_BLOCK(wmw, wmw->lpWaveFormat->nAvgBytesPerSec / 3);
waveHdr = HeapAlloc(GetProcessHeap(), 0, 2 * sizeof(WAVEHDR) + 2 * bufsize);
waveHdr[0].lpData = (char*)waveHdr + 2 * sizeof(WAVEHDR);
waveHdr[1].lpData = (char*)waveHdr + 2 * sizeof(WAVEHDR) + bufsize;
waveHdr[0].dwUser = waveHdr[1].dwUser = 0L;
waveHdr[0].dwLoops = waveHdr[1].dwLoops = 0L;
waveHdr[0].dwFlags = waveHdr[1].dwFlags = 0L;
waveHdr[0].dwBufferLength = waveHdr[1].dwBufferLength = bufsize;
if (waveInPrepareHeader(wmw->hWave, &waveHdr[0], sizeof(WAVEHDR)) ||
waveInPrepareHeader(wmw->hWave, &waveHdr[1], sizeof(WAVEHDR))) {
dwRet = MCIERR_INTERNAL;
goto cleanUp;
}
if (waveInAddBuffer(wmw->hWave, &waveHdr[0], sizeof(WAVEHDR)) ||
waveInAddBuffer(wmw->hWave, &waveHdr[1], sizeof(WAVEHDR))) {
dwRet = MCIERR_INTERNAL;
goto cleanUp;
}
wmw->hEvent = CreateEventA(NULL, FALSE, FALSE, NULL);
wmw->dwEventCount = 1L; /* for first buffer */
wmw->dwRemaining = end - wmw->dwPosition;
TRACE("Recording (normalized) from byte=%lu for %lu bytes\n", wmw->dwPosition, wmw->dwRemaining);
dwRet = waveInStart(wmw->hWave);
while ( wmw->dwRemaining > 0 && wmw->dwStatus != MCI_MODE_STOP && wmw->dwStatus != MCI_MODE_NOT_READY) {
WAVE_mciRecordWaitDone(wmw);
}
/* needed so that the callback above won't add again the buffers returned by the reset */
wmw->dwStatus = MCI_MODE_STOP;
waveInReset(wmw->hWave);
waveInUnprepareHeader(wmw->hWave, &waveHdr[0], sizeof(WAVEHDR));
waveInUnprepareHeader(wmw->hWave, &waveHdr[1], sizeof(WAVEHDR));
dwRet = 0;
cleanUp:
HeapFree(GetProcessHeap(), 0, waveHdr);
if (wmw->hWave) {
waveInClose(wmw->hWave);
wmw->hWave = 0;
}
CloseHandle(wmw->hEvent);
/* need to update the size of the data chunk */
if (mmioAscend(wmw->hFile, &wmw->ckWaveData, 0) != MMSYSERR_NOERROR) {
TRACE("failed on ascend\n");
}
if (lpParms && (dwFlags & MCI_NOTIFY)) {
mciDriverNotify((HWND)LOWORD(lpParms->dwCallback),
wmw->openParms.wDeviceID,
dwRet ? MCI_NOTIFY_FAILURE : MCI_NOTIFY_SUCCESSFUL);
}
wmw->dwStatus = MCI_MODE_STOP;
return dwRet;
}
/**************************************************************************
* WAVE_mciPause [internal]
*/
static DWORD WAVE_mciPause(UINT wDevID, DWORD dwFlags, LPMCI_GENERIC_PARMS lpParms)
{
DWORD dwRet;
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (lpParms == NULL) return MCIERR_NULL_PARAMETER_BLOCK;
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (wmw->dwStatus == MCI_MODE_PLAY) {
wmw->dwStatus = MCI_MODE_PAUSE;
}
if (wmw->fInput) dwRet = waveInStop(wmw->hWave);
else dwRet = waveOutPause(wmw->hWave);
return (dwRet == MMSYSERR_NOERROR) ? 0 : MCIERR_INTERNAL;
}
/**************************************************************************
* WAVE_mciResume [internal]
*/
static DWORD WAVE_mciResume(UINT wDevID, DWORD dwFlags, LPMCI_GENERIC_PARMS lpParms)
{
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
DWORD dwRet = 0;
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (wmw->dwStatus == MCI_MODE_PAUSE) {
wmw->dwStatus = MCI_MODE_PLAY;
}
if (wmw->fInput) dwRet = waveInStart(wmw->hWave);
else dwRet = waveOutRestart(wmw->hWave);
return (dwRet == MMSYSERR_NOERROR) ? 0 : MCIERR_INTERNAL;
}
/**************************************************************************
* WAVE_mciSeek [internal]
*/
static DWORD WAVE_mciSeek(UINT wDevID, DWORD dwFlags, LPMCI_SEEK_PARMS lpParms)
{
DWORD ret = 0;
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
TRACE("(%04X, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (lpParms == NULL) {
ret = MCIERR_NULL_PARAMETER_BLOCK;
} else if (wmw == NULL) {
ret = MCIERR_INVALID_DEVICE_ID;
} else {
WAVE_mciStop(wDevID, MCI_WAIT, 0);
if (dwFlags & MCI_SEEK_TO_START) {
wmw->dwPosition = 0;
} else if (dwFlags & MCI_SEEK_TO_END) {
wmw->dwPosition = wmw->ckWaveData.cksize;
} else if (dwFlags & MCI_TO) {
wmw->dwPosition = WAVE_ConvertTimeFormatToByte(wmw, lpParms->dwTo);
} else {
WARN("dwFlag doesn't tell where to seek to...\n");
return MCIERR_MISSING_PARAMETER;
}
TRACE("Seeking to position=%lu bytes\n", wmw->dwPosition);
if (dwFlags & MCI_NOTIFY) {
mciDriverNotify((HWND)LOWORD(lpParms->dwCallback),
wmw->openParms.wDeviceID, MCI_NOTIFY_SUCCESSFUL);
}
}
return ret;
}
/**************************************************************************
* WAVE_mciSet [internal]
*/
static DWORD WAVE_mciSet(UINT wDevID, DWORD dwFlags, LPMCI_SET_PARMS lpParms)
{
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (lpParms == NULL) return MCIERR_NULL_PARAMETER_BLOCK;
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (dwFlags & MCI_SET_TIME_FORMAT) {
switch (lpParms->dwTimeFormat) {
case MCI_FORMAT_MILLISECONDS:
TRACE("MCI_FORMAT_MILLISECONDS !\n");
wmw->dwMciTimeFormat = MCI_FORMAT_MILLISECONDS;
break;
case MCI_FORMAT_BYTES:
TRACE("MCI_FORMAT_BYTES !\n");
wmw->dwMciTimeFormat = MCI_FORMAT_BYTES;
break;
case MCI_FORMAT_SAMPLES:
TRACE("MCI_FORMAT_SAMPLES !\n");
wmw->dwMciTimeFormat = MCI_FORMAT_SAMPLES;
break;
default:
WARN("Bad time format %lu!\n", lpParms->dwTimeFormat);
return MCIERR_BAD_TIME_FORMAT;
}
}
if (dwFlags & MCI_SET_VIDEO) {
TRACE("No support for video !\n");
return MCIERR_UNSUPPORTED_FUNCTION;
}
if (dwFlags & MCI_SET_DOOR_OPEN) {
TRACE("No support for door open !\n");
return MCIERR_UNSUPPORTED_FUNCTION;
}
if (dwFlags & MCI_SET_DOOR_CLOSED) {
TRACE("No support for door close !\n");
return MCIERR_UNSUPPORTED_FUNCTION;
}
if (dwFlags & MCI_SET_AUDIO) {
if (dwFlags & MCI_SET_ON) {
TRACE("MCI_SET_ON audio !\n");
} else if (dwFlags & MCI_SET_OFF) {
TRACE("MCI_SET_OFF audio !\n");
} else {
WARN("MCI_SET_AUDIO without SET_ON or SET_OFF\n");
return MCIERR_BAD_INTEGER;
}
if (lpParms->dwAudio & MCI_SET_AUDIO_ALL)
TRACE("MCI_SET_AUDIO_ALL !\n");
if (lpParms->dwAudio & MCI_SET_AUDIO_LEFT)
TRACE("MCI_SET_AUDIO_LEFT !\n");
if (lpParms->dwAudio & MCI_SET_AUDIO_RIGHT)
TRACE("MCI_SET_AUDIO_RIGHT !\n");
}
if (dwFlags & MCI_WAVE_INPUT)
TRACE("MCI_WAVE_INPUT !\n");
if (dwFlags & MCI_WAVE_OUTPUT)
TRACE("MCI_WAVE_OUTPUT !\n");
if (dwFlags & MCI_WAVE_SET_ANYINPUT)
TRACE("MCI_WAVE_SET_ANYINPUT !\n");
if (dwFlags & MCI_WAVE_SET_ANYOUTPUT)
TRACE("MCI_WAVE_SET_ANYOUTPUT !\n");
if (dwFlags & MCI_WAVE_SET_AVGBYTESPERSEC) {
wmw->wfxRef.nAvgBytesPerSec = ((LPMCI_WAVE_SET_PARMS)lpParms)->nAvgBytesPerSec;
TRACE("MCI_WAVE_SET_AVGBYTESPERSEC = %ld\n", wmw->wfxRef.nAvgBytesPerSec);
}
if (dwFlags & MCI_WAVE_SET_BITSPERSAMPLE) {
wmw->wfxRef.wBitsPerSample = ((LPMCI_WAVE_SET_PARMS)lpParms)->wBitsPerSample;
TRACE("MCI_WAVE_SET_BITSPERSAMPLE = %d\n", wmw->wfxRef.wBitsPerSample);
}
if (dwFlags & MCI_WAVE_SET_BLOCKALIGN) {
wmw->wfxRef.nBlockAlign = ((LPMCI_WAVE_SET_PARMS)lpParms)->nBlockAlign;
TRACE("MCI_WAVE_SET_BLOCKALIGN = %d\n", wmw->wfxRef.nBlockAlign);
}
if (dwFlags & MCI_WAVE_SET_CHANNELS) {
wmw->wfxRef.nChannels = ((LPMCI_WAVE_SET_PARMS)lpParms)->nChannels;
TRACE("MCI_WAVE_SET_CHANNELS = %d\n", wmw->wfxRef.nChannels);
}
if (dwFlags & MCI_WAVE_SET_FORMATTAG) {
wmw->wfxRef.wFormatTag = ((LPMCI_WAVE_SET_PARMS)lpParms)->wFormatTag;
TRACE("MCI_WAVE_SET_FORMATTAG = %d\n", wmw->wfxRef.wFormatTag);
}
if (dwFlags & MCI_WAVE_SET_SAMPLESPERSEC) {
wmw->wfxRef.nSamplesPerSec = ((LPMCI_WAVE_SET_PARMS)lpParms)->nSamplesPerSec;
TRACE("MCI_WAVE_SET_SAMPLESPERSEC = %ld\n", wmw->wfxRef.nSamplesPerSec);
}
return 0;
}
/**************************************************************************
* WAVE_mciSave [internal]
*/
static DWORD WAVE_mciSave(UINT wDevID, DWORD dwFlags, LPMCI_SAVE_PARMS lpParms)
{
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
DWORD ret = MCIERR_FILE_NOT_SAVED, tmpRet;
WPARAM wparam = MCI_NOTIFY_FAILURE;
TRACE("%d, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (lpParms == NULL) return MCIERR_NULL_PARAMETER_BLOCK;
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (dwFlags & MCI_WAIT)
{
FIXME("MCI_WAIT not implemented\n");
}
ret = mmioAscend(wmw->hFile, &wmw->ckWaveData, 0);
ret = mmioAscend(wmw->hFile, &wmw->ckMainRIFF, 0);
ret = mmioClose(wmw->hFile, 0);
/*
If the destination file already exists, it has to be overwritten. (Behaviour
verified in Windows (2000)). If it doesn't overwrite, it is breaking one of
my applications. We are making use of mmioRename, which WILL NOT overwrite
the destination file (which is what Windows does, also verified in Win2K)
So, lets delete the destination file before calling mmioRename. If the
destination file DOESN'T exist, the delete will fail silently. Let's also be
careful not to lose our previous error code.
*/
tmpRet = GetLastError();
DeleteFileA (lpParms->lpfilename);
SetLastError(tmpRet);
if (0 == mmioRenameA(wmw->openParms.lpstrElementName, lpParms->lpfilename, 0, 0 )) {
ret = ERROR_SUCCESS;
}
if (dwFlags & MCI_NOTIFY) {
if (ret == ERROR_SUCCESS) wparam = MCI_NOTIFY_SUCCESSFUL;
mciDriverNotify( (HWND) LOWORD(lpParms->dwCallback),
wmw->openParms.wDeviceID, wparam);
}
return ret;
}
/**************************************************************************
* WAVE_mciStatus [internal]
*/
static DWORD WAVE_mciStatus(UINT wDevID, DWORD dwFlags, LPMCI_STATUS_PARMS lpParms)
{
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
DWORD ret = 0;
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (lpParms == NULL) return MCIERR_NULL_PARAMETER_BLOCK;
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (dwFlags & MCI_STATUS_ITEM) {
switch (lpParms->dwItem) {
case MCI_STATUS_CURRENT_TRACK:
lpParms->dwReturn = 1;
TRACE("MCI_STATUS_CURRENT_TRACK => %lu\n", lpParms->dwReturn);
break;
case MCI_STATUS_LENGTH:
if (!wmw->hFile) {
lpParms->dwReturn = 0;
return MCIERR_UNSUPPORTED_FUNCTION;
}
/* only one track in file is currently handled, so don't take care of MCI_TRACK flag */
lpParms->dwReturn = WAVE_ConvertByteToTimeFormat(wmw, wmw->ckWaveData.cksize, &ret);
TRACE("MCI_STATUS_LENGTH => %lu\n", lpParms->dwReturn);
break;
case MCI_STATUS_MODE:
TRACE("MCI_STATUS_MODE => %u\n", wmw->dwStatus);
lpParms->dwReturn = MAKEMCIRESOURCE(wmw->dwStatus, wmw->dwStatus);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_STATUS_MEDIA_PRESENT:
TRACE("MCI_STATUS_MEDIA_PRESENT => TRUE!\n");
lpParms->dwReturn = MAKEMCIRESOURCE(TRUE, MCI_TRUE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_STATUS_NUMBER_OF_TRACKS:
/* only one track in file is currently handled, so don't take care of MCI_TRACK flag */
lpParms->dwReturn = 1;
TRACE("MCI_STATUS_NUMBER_OF_TRACKS => %lu!\n", lpParms->dwReturn);
break;
case MCI_STATUS_POSITION:
if (!wmw->hFile) {
lpParms->dwReturn = 0;
return MCIERR_UNSUPPORTED_FUNCTION;
}
/* only one track in file is currently handled, so don't take care of MCI_TRACK flag */
lpParms->dwReturn = WAVE_ConvertByteToTimeFormat(wmw,
(dwFlags & MCI_STATUS_START) ? 0 : wmw->dwPosition,
&ret);
TRACE("MCI_STATUS_POSITION %s => %lu\n",
(dwFlags & MCI_STATUS_START) ? "start" : "current", lpParms->dwReturn);
break;
case MCI_STATUS_READY:
lpParms->dwReturn = (wmw->dwStatus == MCI_MODE_NOT_READY) ?
MAKEMCIRESOURCE(FALSE, MCI_FALSE) : MAKEMCIRESOURCE(TRUE, MCI_TRUE);
TRACE("MCI_STATUS_READY => %u!\n", LOWORD(lpParms->dwReturn));
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_STATUS_TIME_FORMAT:
lpParms->dwReturn = MAKEMCIRESOURCE(wmw->dwMciTimeFormat, wmw->dwMciTimeFormat);
TRACE("MCI_STATUS_TIME_FORMAT => %lu\n", lpParms->dwReturn);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_WAVE_INPUT:
TRACE("MCI_WAVE_INPUT !\n");
lpParms->dwReturn = 0;
ret = MCIERR_WAVE_INPUTUNSPECIFIED;
break;
case MCI_WAVE_OUTPUT:
TRACE("MCI_WAVE_OUTPUT !\n");
{
UINT id;
if (waveOutGetID(wmw->hWave, &id) == MMSYSERR_NOERROR) {
lpParms->dwReturn = id;
} else {
lpParms->dwReturn = 0;
ret = MCIERR_WAVE_INPUTUNSPECIFIED;
}
}
break;
case MCI_WAVE_STATUS_AVGBYTESPERSEC:
if (!wmw->hFile) {
lpParms->dwReturn = 0;
return MCIERR_UNSUPPORTED_FUNCTION;
}
lpParms->dwReturn = wmw->lpWaveFormat->nAvgBytesPerSec;
TRACE("MCI_WAVE_STATUS_AVGBYTESPERSEC => %lu!\n", lpParms->dwReturn);
break;
case MCI_WAVE_STATUS_BITSPERSAMPLE:
if (!wmw->hFile) {
lpParms->dwReturn = 0;
return MCIERR_UNSUPPORTED_FUNCTION;
}
lpParms->dwReturn = wmw->lpWaveFormat->wBitsPerSample;
TRACE("MCI_WAVE_STATUS_BITSPERSAMPLE => %lu!\n", lpParms->dwReturn);
break;
case MCI_WAVE_STATUS_BLOCKALIGN:
if (!wmw->hFile) {
lpParms->dwReturn = 0;
return MCIERR_UNSUPPORTED_FUNCTION;
}
lpParms->dwReturn = wmw->lpWaveFormat->nBlockAlign;
TRACE("MCI_WAVE_STATUS_BLOCKALIGN => %lu!\n", lpParms->dwReturn);
break;
case MCI_WAVE_STATUS_CHANNELS:
if (!wmw->hFile) {
lpParms->dwReturn = 0;
return MCIERR_UNSUPPORTED_FUNCTION;
}
lpParms->dwReturn = wmw->lpWaveFormat->nChannels;
TRACE("MCI_WAVE_STATUS_CHANNELS => %lu!\n", lpParms->dwReturn);
break;
case MCI_WAVE_STATUS_FORMATTAG:
if (!wmw->hFile) {
lpParms->dwReturn = 0;
return MCIERR_UNSUPPORTED_FUNCTION;
}
lpParms->dwReturn = wmw->lpWaveFormat->wFormatTag;
TRACE("MCI_WAVE_FORMATTAG => %lu!\n", lpParms->dwReturn);
break;
case MCI_WAVE_STATUS_LEVEL:
TRACE("MCI_WAVE_STATUS_LEVEL !\n");
lpParms->dwReturn = 0xAAAA5555;
break;
case MCI_WAVE_STATUS_SAMPLESPERSEC:
if (!wmw->hFile) {
lpParms->dwReturn = 0;
return MCIERR_UNSUPPORTED_FUNCTION;
}
lpParms->dwReturn = wmw->lpWaveFormat->nSamplesPerSec;
TRACE("MCI_WAVE_STATUS_SAMPLESPERSEC => %lu!\n", lpParms->dwReturn);
break;
default:
WARN("unknown command %08lX !\n", lpParms->dwItem);
return MCIERR_UNRECOGNIZED_COMMAND;
}
}
if (dwFlags & MCI_NOTIFY) {
mciDriverNotify((HWND)LOWORD(lpParms->dwCallback),
wmw->openParms.wDeviceID, MCI_NOTIFY_SUCCESSFUL);
}
return ret;
}
/**************************************************************************
* WAVE_mciGetDevCaps [internal]
*/
static DWORD WAVE_mciGetDevCaps(UINT wDevID, DWORD dwFlags,
LPMCI_GETDEVCAPS_PARMS lpParms)
{
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
DWORD ret = 0;
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (lpParms == NULL) return MCIERR_NULL_PARAMETER_BLOCK;
if (wmw == NULL) return MCIERR_INVALID_DEVICE_ID;
if (dwFlags & MCI_GETDEVCAPS_ITEM) {
switch(lpParms->dwItem) {
case MCI_GETDEVCAPS_DEVICE_TYPE:
lpParms->dwReturn = MAKEMCIRESOURCE(MCI_DEVTYPE_WAVEFORM_AUDIO, MCI_DEVTYPE_WAVEFORM_AUDIO);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_GETDEVCAPS_HAS_AUDIO:
lpParms->dwReturn = MAKEMCIRESOURCE(TRUE, MCI_TRUE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_GETDEVCAPS_HAS_VIDEO:
lpParms->dwReturn = MAKEMCIRESOURCE(FALSE, MCI_FALSE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_GETDEVCAPS_USES_FILES:
lpParms->dwReturn = MAKEMCIRESOURCE(TRUE, MCI_TRUE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_GETDEVCAPS_COMPOUND_DEVICE:
lpParms->dwReturn = MAKEMCIRESOURCE(TRUE, MCI_TRUE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_GETDEVCAPS_CAN_RECORD:
lpParms->dwReturn = MAKEMCIRESOURCE(TRUE, MCI_TRUE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_GETDEVCAPS_CAN_EJECT:
lpParms->dwReturn = MAKEMCIRESOURCE(FALSE, MCI_FALSE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_GETDEVCAPS_CAN_PLAY:
lpParms->dwReturn = MAKEMCIRESOURCE(TRUE, MCI_TRUE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_GETDEVCAPS_CAN_SAVE:
lpParms->dwReturn = MAKEMCIRESOURCE(TRUE, MCI_TRUE);
ret = MCI_RESOURCE_RETURNED;
break;
case MCI_WAVE_GETDEVCAPS_INPUTS:
lpParms->dwReturn = 1;
break;
case MCI_WAVE_GETDEVCAPS_OUTPUTS:
lpParms->dwReturn = 1;
break;
default:
FIXME("Unknown capability (%08lx) !\n", lpParms->dwItem);
return MCIERR_UNRECOGNIZED_COMMAND;
}
} else {
WARN("No GetDevCaps-Item !\n");
return MCIERR_UNRECOGNIZED_COMMAND;
}
return ret;
}
/**************************************************************************
* WAVE_mciInfo [internal]
*/
static DWORD WAVE_mciInfo(UINT wDevID, DWORD dwFlags, LPMCI_INFO_PARMSA lpParms)
{
DWORD ret = 0;
LPCSTR str = 0;
WINE_MCIWAVE* wmw = WAVE_mciGetOpenDev(wDevID);
TRACE("(%u, %08lX, %p);\n", wDevID, dwFlags, lpParms);
if (lpParms == NULL || lpParms->lpstrReturn == NULL) {
ret = MCIERR_NULL_PARAMETER_BLOCK;
} else if (wmw == NULL) {
ret = MCIERR_INVALID_DEVICE_ID;
} else {
TRACE("buf=%p, len=%lu\n", lpParms->lpstrReturn, lpParms->dwRetSize);
switch (dwFlags & ~(MCI_WAIT|MCI_NOTIFY)) {
case MCI_INFO_PRODUCT:
str = "Wine's audio player";
break;
case MCI_INFO_FILE:
str = wmw->openParms.lpstrElementName;
break;
case MCI_WAVE_INPUT:
str = "Wine Wave In";
break;
case MCI_WAVE_OUTPUT:
str = "Wine Wave Out";
break;
default:
WARN("Don't know this info command (%lu)\n", dwFlags);
ret = MCIERR_UNRECOGNIZED_COMMAND;
}
}
if (str) {
if (strlen(str) + 1 > lpParms->dwRetSize) {
ret = MCIERR_PARAM_OVERFLOW;
} else {
lstrcpynA(lpParms->lpstrReturn, str, lpParms->dwRetSize);
}
} else {
lpParms->lpstrReturn[0] = 0;
}
return ret;
}
/**************************************************************************
* DriverProc (MCIWAVE.@)
*/
LONG CALLBACK MCIWAVE_DriverProc(DWORD dwDevID, HDRVR hDriv, DWORD wMsg,
DWORD dwParam1, DWORD dwParam2)
{
TRACE("(%08lX, %04X, %08lX, %08lX, %08lX)\n",
dwDevID, hDriv, wMsg, dwParam1, dwParam2);
switch (wMsg) {
case DRV_LOAD: return 1;
case DRV_FREE: return 1;
case DRV_OPEN: return WAVE_drvOpen((LPSTR)dwParam1, (LPMCI_OPEN_DRIVER_PARMSA)dwParam2);
case DRV_CLOSE: return WAVE_drvClose(dwDevID);
case DRV_ENABLE: return 1;
case DRV_DISABLE: return 1;
case DRV_QUERYCONFIGURE: return 1;
case DRV_CONFIGURE: MessageBoxA(0, "Sample MultiMedia Driver !", "OSS Driver", MB_OK); return 1;
case DRV_INSTALL: return DRVCNF_RESTART;
case DRV_REMOVE: return DRVCNF_RESTART;
}
if (dwDevID == 0xFFFFFFFF) return MCIERR_UNSUPPORTED_FUNCTION;
switch (wMsg) {
case MCI_OPEN_DRIVER: return WAVE_mciOpen (dwDevID, dwParam1, (LPMCI_WAVE_OPEN_PARMSA) dwParam2);
case MCI_CLOSE_DRIVER: return WAVE_mciClose (dwDevID, dwParam1, (LPMCI_GENERIC_PARMS) dwParam2);
case MCI_CUE: return WAVE_mciCue (dwDevID, dwParam1, (LPMCI_GENERIC_PARMS) dwParam2);
case MCI_PLAY: return WAVE_mciPlay (dwDevID, dwParam1, (LPMCI_PLAY_PARMS) dwParam2);
case MCI_RECORD: return WAVE_mciRecord (dwDevID, dwParam1, (LPMCI_RECORD_PARMS) dwParam2);
case MCI_STOP: return WAVE_mciStop (dwDevID, dwParam1, (LPMCI_GENERIC_PARMS) dwParam2);
case MCI_SET: return WAVE_mciSet (dwDevID, dwParam1, (LPMCI_SET_PARMS) dwParam2);
case MCI_PAUSE: return WAVE_mciPause (dwDevID, dwParam1, (LPMCI_GENERIC_PARMS) dwParam2);
case MCI_RESUME: return WAVE_mciResume (dwDevID, dwParam1, (LPMCI_GENERIC_PARMS) dwParam2);
case MCI_STATUS: return WAVE_mciStatus (dwDevID, dwParam1, (LPMCI_STATUS_PARMS) dwParam2);
case MCI_GETDEVCAPS: return WAVE_mciGetDevCaps(dwDevID, dwParam1, (LPMCI_GETDEVCAPS_PARMS) dwParam2);
case MCI_INFO: return WAVE_mciInfo (dwDevID, dwParam1, (LPMCI_INFO_PARMSA) dwParam2);
case MCI_SEEK: return WAVE_mciSeek (dwDevID, dwParam1, (LPMCI_SEEK_PARMS) dwParam2);
case MCI_SAVE: return WAVE_mciSave (dwDevID, dwParam1, (LPMCI_SAVE_PARMS) dwParam2);
/* commands that should be supported */
case MCI_LOAD:
case MCI_FREEZE:
case MCI_PUT:
case MCI_REALIZE:
case MCI_UNFREEZE:
case MCI_UPDATE:
case MCI_WHERE:
case MCI_STEP:
case MCI_SPIN:
case MCI_ESCAPE:
case MCI_COPY:
case MCI_CUT:
case MCI_DELETE:
case MCI_PASTE:
FIXME("Unsupported yet command [%lu]\n", wMsg);
break;
case MCI_WINDOW:
TRACE("Unsupported command [%lu]\n", wMsg);
break;
/* option which can be silenced */
case MCI_CONFIGURE:
return 0;
case MCI_OPEN:
case MCI_CLOSE:
ERR("Shouldn't receive a MCI_OPEN or CLOSE message\n");
break;
default:
FIXME("is probably wrong msg [%lu]\n", wMsg);
return DefDriverProc(dwDevID, hDriv, wMsg, dwParam1, dwParam2);
}
return MCIERR_UNRECOGNIZED_COMMAND;
}