/* SDL - Simple DirectMedia Layer Copyright (C) 1997, 1998, 1999, 2000, 2001, 2002 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Sam Lantinga slouken@libsdl.org */ #include "CDPlayer.h" #include "AudioFilePlayer.h" #include "CAGuard.h" // we're exporting these functions into C land for SDL_syscdrom.c extern "C" { //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // Constants //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ #define kAudioCDFilesystemID (UInt16)(('J' << 8) | 'H') // 'JH'; this avoids compiler warning // XML PList keys #define kRawTOCDataString "Format 0x02 TOC Data" #define kSessionsString "Sessions" #define kSessionTypeString "Session Type" #define kTrackArrayString "Track Array" #define kFirstTrackInSessionString "First Track" #define kLastTrackInSessionString "Last Track" #define kLeadoutBlockString "Leadout Block" #define kDataKeyString "Data" #define kPointKeyString "Point" #define kSessionNumberKeyString "Session Number" #define kStartBlockKeyString "Start Block" //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // Globals //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ #pragma mark -- Globals -- static bool playBackWasInit = false; static AudioUnit theUnit; static AudioFilePlayer* thePlayer = NULL; static CDPlayerCompletionProc completionProc = NULL; static pthread_mutex_t apiMutex; static pthread_t callbackThread; static pthread_mutex_t callbackMutex; static volatile int runCallBackThread; static int initMutex = SDL_TRUE; static SDL_CD* theCDROM; //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // Prototypes //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ #pragma mark -- Prototypes -- OSStatus CheckInit (); OSStatus MatchAUFormats (AudioUnit theUnit, UInt32 theInputBus); void FilePlayNotificationHandler (void* inRefCon, OSStatus inStatus); void* RunCallBackThread (void* inRefCon); #pragma mark -- Public Functions -- void Lock () { if (initMutex) { pthread_mutexattr_t attr; pthread_mutexattr_init (&attr); pthread_mutex_init (&apiMutex, &attr); pthread_mutexattr_destroy (&attr); initMutex = SDL_FALSE; } pthread_mutex_lock (&apiMutex); } void Unlock () { pthread_mutex_unlock (&apiMutex); } //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // DetectAudioCDVolumes //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ int DetectAudioCDVolumes(FSVolumeRefNum *volumes, int numVolumes) { int volumeIndex; int cdVolumeCount = 0; OSStatus result = noErr; for (volumeIndex = 1; result == noErr || result != nsvErr; volumeIndex++) { FSVolumeRefNum actualVolume; FSVolumeInfo volumeInfo; memset (&volumeInfo, 0, sizeof(volumeInfo)); result = FSGetVolumeInfo (kFSInvalidVolumeRefNum, volumeIndex, &actualVolume, kFSVolInfoFSInfo, &volumeInfo, NULL, NULL); if (result == noErr) { if (volumeInfo.filesystemID == kAudioCDFilesystemID) // It's an audio CD { if (volumes != NULL && cdVolumeCount < numVolumes) volumes[cdVolumeCount] = actualVolume; cdVolumeCount++; } } else { // I'm commenting this out because it seems to be harmless //SDL_SetError ("DetectAudioCDVolumes: FSGetVolumeInfo returned %d", result); } } return cdVolumeCount; } //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // ReadTOCData //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ int ReadTOCData (FSVolumeRefNum theVolume, SDL_CD *theCD) { HFSUniStr255 dataForkName; OSStatus theErr; SInt16 forkRefNum; SInt64 forkSize; Ptr forkData = 0; ByteCount actualRead; CFDataRef dataRef = 0; CFPropertyListRef propertyListRef = 0; FSRefParam fsRefPB; FSRef tocPlistFSRef; const char* error = "Unspecified Error"; // get stuff from .TOC.plist fsRefPB.ioCompletion = NULL; fsRefPB.ioNamePtr = "\p.TOC.plist"; fsRefPB.ioVRefNum = theVolume; fsRefPB.ioDirID = 0; fsRefPB.newRef = &tocPlistFSRef; theErr = PBMakeFSRefSync (&fsRefPB); if(theErr != noErr) { error = "PBMakeFSRefSync"; goto bail; } // Load and parse the TOC XML data theErr = FSGetDataForkName (&dataForkName); if (theErr != noErr) { error = "FSGetDataForkName"; goto bail; } theErr = FSOpenFork (&tocPlistFSRef, dataForkName.length, dataForkName.unicode, fsRdPerm, &forkRefNum); if (theErr != noErr) { error = "FSOpenFork"; goto bail; } theErr = FSGetForkSize (forkRefNum, &forkSize); if (theErr != noErr) { error = "FSGetForkSize"; goto bail; } // Allocate some memory for the XML data forkData = NewPtr (forkSize); if(forkData == NULL) { error = "NewPtr"; goto bail; } theErr = FSReadFork (forkRefNum, fsFromStart, 0 /* offset location */, forkSize, forkData, &actualRead); if(theErr != noErr) { error = "FSReadFork"; goto bail; } dataRef = CFDataCreate (kCFAllocatorDefault, (UInt8 *)forkData, forkSize); if(dataRef == 0) { error = "CFDataCreate"; goto bail; } propertyListRef = CFPropertyListCreateFromXMLData (kCFAllocatorDefault, dataRef, kCFPropertyListImmutable, NULL); if (propertyListRef == NULL) { error = "CFPropertyListCreateFromXMLData"; goto bail; } // Now we got the Property List in memory. Parse it. // First, make sure the root item is a CFDictionary. If not, release and bail. if(CFGetTypeID(propertyListRef)== CFDictionaryGetTypeID()) { CFDictionaryRef dictRef = (CFDictionaryRef)propertyListRef; CFDataRef theRawTOCDataRef; CFArrayRef theSessionArrayRef; CFIndex numSessions; CFIndex index; // This is how we get the Raw TOC Data theRawTOCDataRef = (CFDataRef)CFDictionaryGetValue (dictRef, CFSTR(kRawTOCDataString)); // Get the session array info. theSessionArrayRef = (CFArrayRef)CFDictionaryGetValue (dictRef, CFSTR(kSessionsString)); // Find out how many sessions there are. numSessions = CFArrayGetCount (theSessionArrayRef); // Initialize the total number of tracks to 0 theCD->numtracks = 0; // Iterate over all sessions, collecting the track data for(index = 0; index < numSessions; index++) { CFDictionaryRef theSessionDict; CFNumberRef leadoutBlock; CFArrayRef trackArray; CFIndex numTracks; CFIndex trackIndex; UInt32 value = 0; theSessionDict = (CFDictionaryRef) CFArrayGetValueAtIndex (theSessionArrayRef, index); leadoutBlock = (CFNumberRef) CFDictionaryGetValue (theSessionDict, CFSTR(kLeadoutBlockString)); trackArray = (CFArrayRef)CFDictionaryGetValue (theSessionDict, CFSTR(kTrackArrayString)); numTracks = CFArrayGetCount (trackArray); for(trackIndex = 0; trackIndex < numTracks; trackIndex++) { CFDictionaryRef theTrackDict; CFNumberRef trackNumber; CFNumberRef sessionNumber; CFNumberRef startBlock; CFBooleanRef isDataTrack; UInt32 value; theTrackDict = (CFDictionaryRef) CFArrayGetValueAtIndex (trackArray, trackIndex); trackNumber = (CFNumberRef) CFDictionaryGetValue (theTrackDict, CFSTR(kPointKeyString)); sessionNumber = (CFNumberRef) CFDictionaryGetValue (theTrackDict, CFSTR(kSessionNumberKeyString)); startBlock = (CFNumberRef) CFDictionaryGetValue (theTrackDict, CFSTR(kStartBlockKeyString)); isDataTrack = (CFBooleanRef) CFDictionaryGetValue (theTrackDict, CFSTR(kDataKeyString)); // Fill in the SDL_CD struct int idx = theCD->numtracks++; CFNumberGetValue (trackNumber, kCFNumberSInt32Type, &value); theCD->track[idx].id = value; CFNumberGetValue (startBlock, kCFNumberSInt32Type, &value); theCD->track[idx].offset = value; theCD->track[idx].type = (isDataTrack == kCFBooleanTrue) ? SDL_DATA_TRACK : SDL_AUDIO_TRACK; // Since the track lengths are not stored in .TOC.plist we compute them. if (trackIndex > 0) { theCD->track[idx-1].length = theCD->track[idx].offset - theCD->track[idx-1].offset; } } // Compute the length of the last track CFNumberGetValue (leadoutBlock, kCFNumberSInt32Type, &value); theCD->track[theCD->numtracks-1].length = value - theCD->track[theCD->numtracks-1].offset; // Set offset to leadout track theCD->track[theCD->numtracks].offset = value; } } theErr = 0; goto cleanup; bail: SDL_SetError ("ReadTOCData: %s returned %d", error, theErr); theErr = -1; cleanup: if (propertyListRef != NULL) CFRelease(propertyListRef); if (dataRef != NULL) CFRelease(dataRef); if (forkData != NULL) DisposePtr(forkData); FSCloseFork (forkRefNum); return theErr; } //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // ListTrackFiles //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ int ListTrackFiles (FSVolumeRefNum theVolume, FSRef *trackFiles, int numTracks) { OSStatus result = -1; FSIterator iterator; ItemCount actualObjects; FSRef rootDirectory; FSRef ref; HFSUniStr255 nameStr; result = FSGetVolumeInfo (theVolume, 0, NULL, kFSVolInfoFSInfo, NULL, NULL, &rootDirectory); if (result != noErr) { SDL_SetError ("ListTrackFiles: FSGetVolumeInfo returned %d", result); goto bail; } result = FSOpenIterator (&rootDirectory, kFSIterateFlat, &iterator); if (result == noErr) { do { result = FSGetCatalogInfoBulk (iterator, 1, &actualObjects, NULL, kFSCatInfoNone, NULL, &ref, NULL, &nameStr); if (result == noErr) { CFStringRef name; name = CFStringCreateWithCharacters (NULL, nameStr.unicode, nameStr.length); // Look for .aiff extension if (CFStringHasSuffix (name, CFSTR(".aiff")) || CFStringHasSuffix (name, CFSTR(".cdda"))) { // Extract the track id from the filename int trackID = 0, i = 0; while (i < nameStr.length && !isdigit(nameStr.unicode[i])) { ++i; } while (i < nameStr.length && isdigit(nameStr.unicode[i])) { trackID = 10 * trackID +(nameStr.unicode[i] - '0'); ++i; } #if DEBUG_CDROM printf("Found AIFF for track %d: '%s'\n", trackID, CFStringGetCStringPtr (name, CFStringGetSystemEncoding())); #endif // Track ID's start at 1, but we want to start at 0 trackID--; assert(0 <= trackID && trackID <= SDL_MAX_TRACKS); if (trackID < numTracks) memcpy (&trackFiles[trackID], &ref, sizeof(FSRef)); } CFRelease (name); } } while(noErr == result); FSCloseIterator (iterator); } result = 0; bail: return result; } //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // LoadFile //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ int LoadFile (const FSRef *ref, int startFrame, int stopFrame) { int error = -1; if (CheckInit () < 0) goto bail; // release any currently playing file if (ReleaseFile () < 0) goto bail; #if DEBUG_CDROM printf ("LoadFile: %d %d\n", startFrame, stopFrame); #endif try { // create a new player, and attach to the audio unit thePlayer = new AudioFilePlayer(ref); if (thePlayer == NULL) { SDL_SetError ("LoadFile: Could not create player"); throw (-3); } thePlayer->SetDestination(theUnit, 0); if (startFrame >= 0) thePlayer->SetStartFrame (startFrame); if (stopFrame >= 0 && stopFrame > startFrame) thePlayer->SetStopFrame (stopFrame); // we set the notifier later //thePlayer->SetNotifier(FilePlayNotificationHandler, NULL); thePlayer->Connect(); #if DEBUG_CDROM thePlayer->Print(); fflush (stdout); #endif } catch (...) { goto bail; } error = 0; bail: return error; } //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // ReleaseFile //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ int ReleaseFile () { int error = -1; try { if (thePlayer != NULL) { thePlayer->Disconnect(); delete thePlayer; thePlayer = NULL; } } catch (...) { goto bail; } error = 0; bail: return error; } //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // PlayFile //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ int PlayFile () { OSStatus result = -1; if (CheckInit () < 0) goto bail; try { // start processing of the audio unit result = AudioOutputUnitStart (theUnit); THROW_RESULT("PlayFile: AudioOutputUnitStart") } catch (...) { goto bail; } result = 0; bail: return result; } //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // PauseFile //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ int PauseFile () { OSStatus result = -1; if (CheckInit () < 0) goto bail; try { // stop processing the audio unit result = AudioOutputUnitStop (theUnit); THROW_RESULT("PauseFile: AudioOutputUnitStop") } catch (...) { goto bail; } result = 0; bail: return result; } //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ // SetCompletionProc //ΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡΡ void SetCompletionProc (CDPlayerCompletionProc proc, SDL_CD *cdrom) { assert(thePlayer != NULL); theCDROM = cdrom; completionProc = proc; thePlayer->SetNotifier (FilePlayNotificationHandler, cdrom); } int GetCurrentFrame () { int frame; if (thePlayer == NULL) frame = 0; else frame = thePlayer->GetCurrentFrame (); return frame; } #pragma mark -- Private Functions -- OSStatus CheckInit () { if (playBackWasInit) return 0; OSStatus result = noErr; // Create the callback mutex pthread_mutexattr_t attr; pthread_mutexattr_init (&attr); pthread_mutex_init (&callbackMutex, &attr); pthread_mutexattr_destroy (&attr); pthread_mutex_lock (&callbackMutex); // Start callback thread pthread_attr_t attr1; pthread_attr_init (&attr1); pthread_create (&callbackThread, &attr1, RunCallBackThread, NULL); pthread_attr_destroy (&attr1); try { ComponentDescription desc; desc.componentType = kAudioUnitComponentType; desc.componentSubType = kAudioUnitSubType_Output; desc.componentManufacturer = kAudioUnitID_DefaultOutput; desc.componentFlags = 0; desc.componentFlagsMask = 0; Component comp = FindNextComponent (NULL, &desc); if (comp == NULL) { SDL_SetError ("CheckInit: FindNextComponent returned NULL"); throw(internalComponentErr); } result = OpenAComponent (comp, &theUnit); THROW_RESULT("CheckInit: OpenAComponent") // you need to initialize the output unit before you set it as a destination result = AudioUnitInitialize (theUnit); THROW_RESULT("CheckInit: AudioUnitInitialize") // In this case we first want to get the output format of the OutputUnit // Then we set that as the input format. Why? // So that only a single conversion process is done // when SetDestination is called it will get the input format of the // unit its supplying data to. This defaults to 44.1K, stereo, so if // the device is not that, then we lose a possibly rendering of data result = MatchAUFormats (theUnit, 0); THROW_RESULT("CheckInit: MatchAUFormats") playBackWasInit = true; } catch (...) { return -1; } return 0; } OSStatus MatchAUFormats (AudioUnit theUnit, UInt32 theInputBus) { AudioStreamBasicDescription theDesc; UInt32 size = sizeof (theDesc); OSStatus result = AudioUnitGetProperty (theUnit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Output, 0, &theDesc, &size); THROW_RESULT("MatchAUFormats: AudioUnitGetProperty") result = AudioUnitSetProperty (theUnit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Input, theInputBus, &theDesc, size); return result; } void FilePlayNotificationHandler(void * inRefCon, OSStatus inStatus) { if (inStatus == kAudioFilePlay_FileIsFinished) { // notify non-CA thread to perform the callback pthread_mutex_unlock (&callbackMutex); } else if (inStatus == kAudioFilePlayErr_FilePlayUnderrun) { SDL_SetError ("CDPlayer Notification: buffer underrun"); } else if (inStatus == kAudioFilePlay_PlayerIsUninitialized) { SDL_SetError ("CDPlayer Notification: player is uninitialized"); } else { SDL_SetError ("CDPlayer Notification: unknown error %ld", inStatus); } } void* RunCallBackThread (void *param) { runCallBackThread = 1; while (runCallBackThread) { pthread_mutex_lock (&callbackMutex); if (completionProc && theCDROM) { #if DEBUG_CDROM printf ("callback!\n"); #endif (*completionProc)(theCDROM); } else { #if DEBUG_CDROM printf ("callback?\n"); #endif } } runCallBackThread = -1; #if DEBUG_CDROM printf ("thread dying now...\n"); #endif return NULL; } }; // extern "C"