#include "i_musicinterns.h" #include "c_cvars.h" #include "cmdlib.h" #include "templates.h" #ifndef _WIN32 #include #include #include #include #include int ChildQuit; void ChildSigHandler (int signum) { ChildQuit = waitpid (-1, NULL, WNOHANG); } #endif #ifdef _WIN32 BOOL SafeTerminateProcess(HANDLE hProcess, UINT uExitCode); static char TimidityTitle[] = "TiMidity (ZDoom Launched)"; const char TimidityPPMIDIDevice::EventName[] = "TiMidity Killer"; CVAR (String, timidity_exe, "timidity.exe", CVAR_ARCHIVE|CVAR_GLOBALCONFIG) #else CVAR (String, timidity_exe, "timidity", CVAR_ARCHIVE|CVAR_GLOBALCONFIG) #endif CVAR (String, timidity_extargs, "", CVAR_ARCHIVE|CVAR_GLOBALCONFIG) // extra args to pass to Timidity CVAR (String, timidity_chorus, "0", CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR (String, timidity_reverb, "0", CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR (Bool, timidity_stereo, true, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR (Bool, timidity_8bit, false, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) CVAR (Bool, timidity_byteswap, false, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) // added because Timidity's output is rather loud. CUSTOM_CVAR (Float, timidity_mastervolume, 1.0f, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) { if (self < 0.f) self = 0.f; else if (self > 4.f) self = 4.f; if (currSong != NULL) currSong->TimidityVolumeChanged(); } CUSTOM_CVAR (Int, timidity_pipe, 90, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) { // pipe size in ms if (timidity_pipe < 0) { // a negative size makes no sense timidity_pipe = 0; } } CUSTOM_CVAR (Int, timidity_frequency, 22050, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) { // Clamp frequency to Timidity's limits if (self < 4000) self = 4000; else if (self > 65000) self = 65000; } //========================================================================== // // TimidityPPMIDIDevice Constructor // //========================================================================== TimidityPPMIDIDevice::TimidityPPMIDIDevice() : DiskName("zmid"), #ifdef _WIN32 ReadWavePipe(INVALID_HANDLE_VALUE), WriteWavePipe(INVALID_HANDLE_VALUE), ChildProcess(INVALID_HANDLE_VALUE), Validated(false) #else ChildProcess(-1) #endif { #ifndef _WIN32 WavePipe[0] = WavePipe[1] = -1; #endif if (DiskName == NULL) { Printf(PRINT_BOLD, "Could not create temp music file\n"); return; } } //========================================================================== // // TimidityPPMIDIDevice Destructor // //========================================================================== TimidityPPMIDIDevice::~TimidityPPMIDIDevice () { #if _WIN32 if (WriteWavePipe != INVALID_HANDLE_VALUE) { CloseHandle (WriteWavePipe); WriteWavePipe = INVALID_HANDLE_VALUE; } if (ReadWavePipe != INVALID_HANDLE_VALUE) { CloseHandle (ReadWavePipe); ReadWavePipe = INVALID_HANDLE_VALUE; } #else if (WavePipe[1] != -1) { close (WavePipe[1]); WavePipe[1] = -1; } if (WavePipe[0] != -1) { close (WavePipe[0]); WavePipe[0] = -1; } #endif } //========================================================================== // // TimidityPPMIDIDevice :: Preprocess // //========================================================================== bool TimidityPPMIDIDevice::Preprocess(MIDIStreamer *song, bool looping) { TArray midi; bool success; FILE *f; if (CommandLine.IsEmpty()) { return false; } // Tell TiMidity++ whether it should loop or not CommandLine.LockBuffer()[LoopPos] = looping ? 'l' : ' '; CommandLine.UnlockBuffer(); // Write MIDI song to temporary file song->CreateSMF(midi, looping ? 0 : 1); f = fopen(DiskName, "wb"); if (f == NULL) { Printf(PRINT_BOLD, "Could not open temp music file\n"); return false; } success = (fwrite(&midi[0], 1, midi.Size(), f) == (size_t)midi.Size()); fclose (f); if (!success) { Printf(PRINT_BOLD, "Could not write temp music file\n"); } return false; } //========================================================================== // // TimidityPPMIDIDevice :: Open // //========================================================================== int TimidityPPMIDIDevice::Open(void (*callback)(unsigned int, void *, DWORD, DWORD), void *userdata) { int pipeSize; #ifdef _WIN32 static SECURITY_ATTRIBUTES inheritable = { sizeof(inheritable), NULL, TRUE }; if (!Validated && !ValidateTimidity ()) { return 101; } Validated = true; #endif // WIN32 CommandLine.Format("%s %s -EFchorus=%s -EFreverb=%s -s%d ", *timidity_exe, *timidity_extargs, *timidity_chorus, *timidity_reverb, *timidity_frequency); pipeSize = (timidity_pipe * timidity_frequency / 1000) << (timidity_stereo + !timidity_8bit); { #ifdef _WIN32 // Round pipe size up to nearest power of 2 to try and avoid partial // buffer reads in FillStream() under NT. This does not seem to be an // issue under 9x. int bitmask = pipeSize & -pipeSize; while (bitmask < pipeSize) bitmask <<= 1; pipeSize = bitmask; if (!CreatePipe(&ReadWavePipe, &WriteWavePipe, &inheritable, pipeSize)) #else // WIN32 if (pipe (WavePipe) == -1) #endif { Printf(PRINT_BOLD, "Could not create a data pipe for TiMidity++.\n"); pipeSize = 0; } else { Stream = GSnd->CreateStream(FillStream, pipeSize, (timidity_stereo ? 0 : SoundStream::Mono) | (timidity_8bit ? SoundStream::Bits8 : 0), timidity_frequency, this); if (Stream == NULL) { Printf(PRINT_BOLD, "Could not create music stream.\n"); pipeSize = 0; #ifdef _WIN32 CloseHandle(WriteWavePipe); CloseHandle(ReadWavePipe); ReadWavePipe = WriteWavePipe = INVALID_HANDLE_VALUE; #else close(WavePipe[1]); close(WavePipe[0]); WavePipe[0] = WavePipe[1] = -1; #endif } } if (pipeSize == 0) { Printf(PRINT_BOLD, "If your soundcard cannot play more than one\n" "wave at a time, you will hear no music.\n"); } else { CommandLine += "-o - -Ors"; } } if (pipeSize == 0) { CommandLine += "-Od"; } CommandLine += timidity_stereo ? 'S' : 'M'; CommandLine += timidity_8bit ? '8' : '1'; if (timidity_byteswap) { CommandLine += 'x'; } LoopPos = CommandLine.Len() + 4; CommandLine += " -idl "; CommandLine += DiskName.GetName(); return 0; } //========================================================================== // // TimidityPPMIDIDevice :: ValidateTimidity // // Check that this TiMidity++ knows about the TiMidity Killer event. // If not, then we can't use it, because Win32 provides no other way // to conveniently signal it to quit. The check is done by simply // searching for the event's name somewhere in the executable. // //========================================================================== #ifdef _WIN32 bool TimidityPPMIDIDevice::ValidateTimidity() { char foundPath[MAX_PATH]; char *filePart; DWORD pathLen; DWORD fileLen; HANDLE diskFile; HANDLE mapping; const BYTE *exeBase; const BYTE *exeEnd; const BYTE *exe; bool good; pathLen = SearchPath (NULL, timidity_exe, NULL, MAX_PATH, foundPath, &filePart); if (pathLen == 0) { Printf(PRINT_BOLD, "Please set the timidity_exe cvar to the location of TiMidity++\n"); return false; } if (pathLen > MAX_PATH) { Printf(PRINT_BOLD, "The path to TiMidity++ is too long\n"); return false; } diskFile = CreateFile (foundPath, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_FLAG_SEQUENTIAL_SCAN, NULL); if (diskFile == INVALID_HANDLE_VALUE) { Printf(PRINT_BOLD, "Could not access %s\n", foundPath); return false; } fileLen = GetFileSize (diskFile, NULL); mapping = CreateFileMapping (diskFile, NULL, PAGE_READONLY, 0, 0, NULL); if (mapping == NULL) { Printf(PRINT_BOLD, "Could not create mapping for %s\n", foundPath); CloseHandle (diskFile); return false; } exeBase = (const BYTE *)MapViewOfFile (mapping, FILE_MAP_READ, 0, 0, 0); if (exeBase == NULL) { Printf(PRINT_BOLD, "Could not map %s\n", foundPath); CloseHandle (mapping); CloseHandle (diskFile); return false; } good = false; try { for (exe = exeBase, exeEnd = exeBase+fileLen; exe < exeEnd; ) { const char *tSpot = (const char *)memchr(exe, 'T', exeEnd - exe); if (tSpot == NULL) { break; } if (memcmp(tSpot+1, EventName+1, sizeof(EventName)-1) == 0) { good = true; break; } exe = (const BYTE *)tSpot + 1; } } catch (...) { Printf(PRINT_BOLD, "Error reading %s\n", foundPath); } if (!good) { Printf(PRINT_BOLD, "ZDoom requires a special version of TiMidity++\n"); } UnmapViewOfFile((LPVOID)exeBase); CloseHandle(mapping); CloseHandle(diskFile); return good; } #endif // _WIN32 //========================================================================== // // TimidityPPMIDIDevice :: LaunchTimidity // //========================================================================== bool TimidityPPMIDIDevice::LaunchTimidity () { if (CommandLine.IsEmpty()) { return false; } DPrintf ("cmd: \x1cG%s\n", CommandLine.GetChars()); #ifdef _WIN32 STARTUPINFO startup = { sizeof(startup), }; PROCESS_INFORMATION procInfo; startup.dwFlags = STARTF_USESTDHANDLES | STARTF_USESHOWWINDOW; startup.hStdInput = INVALID_HANDLE_VALUE; startup.hStdOutput = WriteWavePipe != INVALID_HANDLE_VALUE ? WriteWavePipe : GetStdHandle (STD_OUTPUT_HANDLE); startup.hStdError = GetStdHandle (STD_ERROR_HANDLE); startup.lpTitle = TimidityTitle; startup.wShowWindow = SW_SHOWMINNOACTIVE; if (CreateProcess(NULL, CommandLine.LockBuffer(), NULL, NULL, TRUE, DETACHED_PROCESS, NULL, NULL, &startup, &procInfo)) { ChildProcess = procInfo.hProcess; //SetThreadPriority (procInfo.hThread, THREAD_PRIORITY_HIGHEST); CloseHandle(procInfo.hThread); // Don't care about the created thread CommandLine.UnlockBuffer(); return true; } CommandLine.UnlockBuffer(); char hres[9]; LPTSTR msgBuf; HRESULT err = GetLastError(); if (!FormatMessage (FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, err, 0, (LPTSTR)&msgBuf, 0, NULL)) { mysnprintf(hres, countof(hres), "%08lx", err); msgBuf = hres; } Printf(PRINT_BOLD, "Could not run timidity with the command line:\n%s\n" "Reason: %s\n", CommandLine.GetChars(), msgBuf); if (msgBuf != hres) { LocalFree (msgBuf); } return false; #else if (WavePipe[0] != -1 && WavePipe[1] == -1 && Stream != NULL) { // Timidity was previously launched, so the write end of the pipe // is closed, and the read end is still open. Close the pipe // completely and reopen it. close (WavePipe[0]); WavePipe[0] = -1; delete Stream; Stream = NULL; Open (NULL, NULL); } int forkres; wordexp_t words; switch (wordexp (CommandLine.GetChars(), &words, 0)) { case 0: // all good break; case WRDE_NOSPACE: wordfree (&words); default: return false; } forkres = fork (); if (forkres == 0) { close (WavePipe[0]); dup2 (WavePipe[1], STDOUT_FILENO); freopen ("/dev/null", "r", stdin); // freopen ("/dev/null", "w", stderr); close (WavePipe[1]); execvp (words.we_wordv[0], words.we_wordv); fprintf(stderr,"execvp failed\n"); _exit (0); // if execvp succeeds, we never get here } else if (forkres < 0) { Printf (PRINT_BOLD, "Could not fork when trying to start timidity\n"); } else { // printf ("child is %d\n", forkres); ChildProcess = forkres; close (WavePipe[1]); WavePipe[1] = -1; /* usleep(1000000); if (waitpid(ChildProcess, NULL, WNOHANG) == ChildProcess) { fprintf(stderr,"Launching timidity failed\n"); }*/ } wordfree (&words); return ChildProcess != -1; #endif // _WIN32 } //========================================================================== // // TimidityPPMIDIDevice :: FillStream // //========================================================================== bool TimidityPPMIDIDevice::FillStream(SoundStream *stream, void *buff, int len, void *userdata) { TimidityPPMIDIDevice *song = (TimidityPPMIDIDevice *)userdata; #ifdef _WIN32 DWORD avail, got, didget; if (!PeekNamedPipe(song->ReadWavePipe, NULL, 0, NULL, &avail, NULL) || avail == 0) { // If nothing is available from the pipe, play silence. memset (buff, 0, len); } else { didget = 0; for (;;) { ReadFile(song->ReadWavePipe, (BYTE *)buff+didget, len-didget, &got, NULL); didget += got; if (didget >= (DWORD)len) break; // Give TiMidity++ a chance to output something more to the pipe Sleep (10); if (!PeekNamedPipe(song->ReadWavePipe, NULL, 0, NULL, &avail, NULL) || avail == 0) { memset ((BYTE *)buff+didget, 0, len-didget); break; } } } #else ssize_t got; fd_set rfds; struct timeval tv; if (ChildQuit == song->ChildProcess) { ChildQuit = 0; fprintf(stderr, "child gone\n"); song->ChildProcess = -1; return false; } FD_ZERO(&rfds); FD_SET(song->WavePipe[0], &rfds); tv.tv_sec = 0; tv.tv_usec = 50; // fprintf(stderr,"select\n"); if (select(1, &rfds, NULL, NULL, &tv) <= 0 && 0) { // Nothing available, so play silence. // fprintf(stderr,"nothing\n"); // memset(buff, 0, len); return true; } // fprintf(stderr,"something\n"); got = read(song->WavePipe[0], (BYTE *)buff, len); if (got < len) { memset((BYTE *)buff+got, 0, len-got); } #endif return true; } //========================================================================== // // TimidityPPMIDIDevice :: TimidityVolumeChanged // //========================================================================== void TimidityPPMIDIDevice::TimidityVolumeChanged() { if (Stream != NULL) { Stream->SetVolume(timidity_mastervolume); } } //========================================================================== // // TimidityPPMIDIDevice :: IsOpen // //========================================================================== bool TimidityPPMIDIDevice::IsOpen() const { #ifdef _WIN32 if (ChildProcess != INVALID_HANDLE_VALUE) { if (WaitForSingleObject(ChildProcess, 0) != WAIT_TIMEOUT) { // Timidity++ has quit CloseHandle(ChildProcess); const_cast(this)->ChildProcess = INVALID_HANDLE_VALUE; #else if (ChildProcess != -1) { if (waitpid (ChildProcess, NULL, WNOHANG) == ChildProcess) { const_cast(this)->ChildProcess = -1; #endif return false; } return true; } return false; } //========================================================================== // // TimidityPPMIDIDevice :: Resume // //========================================================================== int TimidityPPMIDIDevice::Resume() { if (!Started) { if (LaunchTimidity()) { // Assume success if not mixing with the sound system if (Stream == NULL || Stream->Play(true, timidity_mastervolume)) { Started = true; return 0; } } return 1; } return 0; } //========================================================================== // // TimidityPPMIDIDevice :: Stop // //========================================================================== void TimidityPPMIDIDevice::Stop () { if (Started) { if (Stream != NULL) { Stream->Stop(); } #ifdef _WIN32 if (ChildProcess != INVALID_HANDLE_VALUE) { if (!SafeTerminateProcess(ChildProcess, 666) && GetLastError() != ERROR_PROCESS_ABORTED) { TerminateProcess(ChildProcess, 666); } CloseHandle(ChildProcess); ChildProcess = INVALID_HANDLE_VALUE; } #else if (ChildProcess != -1) { if (kill(ChildProcess, SIGTERM) != 0) { kill(ChildProcess, SIGKILL); } waitpid(ChildProcess, NULL, 0); ChildProcess = -1; } #endif } Started = false; } #ifdef _WIN32 /* Safely terminate a process by creating a remote thread in the process that calls ExitProcess Source is a Dr Dobbs article circa 1999. */ typedef HANDLE (WINAPI *CreateRemoteThreadProto)(HANDLE,LPSECURITY_ATTRIBUTES,SIZE_T,LPTHREAD_START_ROUTINE,LPVOID,DWORD,LPDWORD); BOOL SafeTerminateProcess(HANDLE hProcess, UINT uExitCode) { DWORD dwTID, dwCode; HRESULT dwErr = 0; HANDLE hRT = NULL; HINSTANCE hKernel = GetModuleHandle("Kernel32"); BOOL bSuccess = FALSE; // Detect the special case where the process is already dead... if ( GetExitCodeProcess(hProcess, &dwCode) && (dwCode == STILL_ACTIVE) ) { FARPROC pfnExitProc; CreateRemoteThreadProto pfCreateRemoteThread; pfnExitProc = GetProcAddress(hKernel, "ExitProcess"); // CreateRemoteThread does not exist on 9x systems. pfCreateRemoteThread = (CreateRemoteThreadProto)GetProcAddress(hKernel, "CreateRemoteThread"); if (pfCreateRemoteThread == NULL) { dwErr = ERROR_INVALID_FUNCTION; } else { hRT = pfCreateRemoteThread(hProcess, NULL, 0, (LPTHREAD_START_ROUTINE)pfnExitProc, (PVOID)(UINT_PTR)uExitCode, 0, &dwTID); if ( hRT == NULL ) dwErr = GetLastError(); } } else { dwErr = ERROR_PROCESS_ABORTED; } if ( hRT ) { // Must wait process to terminate to guarantee that it has exited... WaitForSingleObject(hProcess, INFINITE); CloseHandle(hRT); bSuccess = TRUE; } if ( !bSuccess ) SetLastError(dwErr); return bSuccess; } #endif