/* Copyright (c) 1997-1999 Miller Puckette. * For information on usage and redistribution, and for a DISCLAIMER OF ALL * WARRANTIES, see the file, "LICENSE.txt," in this distribution. */ /* Pd side of the Pd/Pd-gui interface. Also, some system interface routines that didn't really belong anywhere. */ #include "m_pd.h" #include "s_stuff.h" #include "m_imp.h" #include "g_canvas.h" /* for GUI queueing stuff */ #ifndef MSW #include #include #include #include #include #include #include #include #include #endif #ifdef HAVE_BSTRING_H #include #endif #ifdef _WIN32 #include #include #include #include #include # ifdef _MSC_VER typedef int pid_t; # endif typedef int socklen_t; #define EADDRINUSE WSAEADDRINUSE #endif #include #include #include #include #include #include #ifdef __APPLE__ #include #include #include #include #else #include #endif #define DEBUG_MESSUP 1 /* messages up from pd to pd-gui */ #define DEBUG_MESSDOWN 2 /* messages down from pd-gui to pd */ #ifndef PDBINDIR #define PDBINDIR "bin/" #endif #ifndef PDTCLDIR #define PDTCLDIR "tcl/" #endif #ifndef WISHAPP #define WISHAPP "wish84.exe" #endif #ifdef __linux__ #define LOCALHOST "127.0.0.1" #else #define LOCALHOST "localhost" #endif typedef struct _fdpoll { int fdp_fd; t_fdpollfn fdp_fn; void *fdp_ptr; } t_fdpoll; #define INBUFSIZE 4096 struct _socketreceiver { char *sr_inbuf; int sr_inhead; int sr_intail; void *sr_owner; int sr_udp; t_socketnotifier sr_notifier; t_socketreceivefn sr_socketreceivefn; }; extern char *pd_version; extern int sys_guisetportnumber; static int sys_nfdpoll; static t_fdpoll *sys_fdpoll; static int sys_maxfd; static int sys_guisock; static t_binbuf *inbinbuf; static t_socketreceiver *sys_socketreceiver; extern int sys_addhist(int phase); /* ----------- functions for timing, signals, priorities, etc --------- */ #ifdef MSW static LARGE_INTEGER nt_inittime; static double nt_freq = 0; static void sys_initntclock(void) { LARGE_INTEGER f1; LARGE_INTEGER now; QueryPerformanceCounter(&now); if (!QueryPerformanceFrequency(&f1)) { fprintf(stderr, "pd: QueryPerformanceFrequency failed\n"); f1.QuadPart = 1; } nt_freq = f1.QuadPart; nt_inittime = now; } #if 0 /* this is a version you can call if you did the QueryPerformanceCounter call yourself. Necessary for time tagging incoming MIDI at interrupt level, for instance; but we're not doing that just now. */ double nt_tixtotime(LARGE_INTEGER *dumbass) { if (nt_freq == 0) sys_initntclock(); return (((double)(dumbass->QuadPart - nt_inittime.QuadPart)) / nt_freq); } #endif #endif /* MSW */ /* get "real time" in seconds; take the first time we get called as a reference time of zero. */ double sys_getrealtime(void) { #ifndef MSW static struct timeval then; struct timeval now; gettimeofday(&now, 0); if (then.tv_sec == 0 && then.tv_usec == 0) then = now; return ((now.tv_sec - then.tv_sec) + (1./1000000.) * (now.tv_usec - then.tv_usec)); #else LARGE_INTEGER now; QueryPerformanceCounter(&now); if (nt_freq == 0) sys_initntclock(); return (((double)(now.QuadPart - nt_inittime.QuadPart)) / nt_freq); #endif } extern int sys_nosleep; static int sys_domicrosleep(int microsec, int pollem) { struct timeval timout; int i, didsomething = 0; t_fdpoll *fp; timout.tv_sec = 0; timout.tv_usec = (sys_nosleep ? 0 : microsec); if (pollem) { fd_set readset, writeset, exceptset; FD_ZERO(&writeset); FD_ZERO(&readset); FD_ZERO(&exceptset); for (fp = sys_fdpoll, i = sys_nfdpoll; i--; fp++) FD_SET(fp->fdp_fd, &readset); #ifdef MSW if (sys_maxfd == 0) Sleep(microsec/1000); else #endif select(sys_maxfd+1, &readset, &writeset, &exceptset, &timout); for (i = 0; i < sys_nfdpoll; i++) if (FD_ISSET(sys_fdpoll[i].fdp_fd, &readset)) { #ifdef THREAD_LOCKING sys_lock(); #endif (*sys_fdpoll[i].fdp_fn)(sys_fdpoll[i].fdp_ptr, sys_fdpoll[i].fdp_fd); #ifdef THREAD_LOCKING sys_unlock(); #endif didsomething = 1; } return (didsomething); } else { #ifdef MSW if (sys_maxfd == 0) Sleep(microsec/1000); else #endif select(0, 0, 0, 0, &timout); return (0); } } void sys_microsleep(int microsec) { sys_domicrosleep(microsec, 1); } #ifdef HAVE_UNISTD_H typedef void (*sighandler_t)(int); static void sys_signal(int signo, sighandler_t sigfun) { struct sigaction action; action.sa_flags = 0; action.sa_handler = sigfun; memset(&action.sa_mask, 0, sizeof(action.sa_mask)); #if 0 /* GG says: don't use that */ action.sa_restorer = 0; #endif if (sigaction(signo, &action, 0) < 0) perror("sigaction"); } static void sys_exithandler(int n) { static int trouble = 0; if (!trouble) { trouble = 1; fprintf(stderr, "Pd: signal %d\n", n); sys_bail(1); } else _exit(1); } static void sys_alarmhandler(int n) { fprintf(stderr, "Pd: system call timed out\n"); } static void sys_huphandler(int n) { struct timeval timout; timout.tv_sec = 0; timout.tv_usec = 30000; select(1, 0, 0, 0, &timout); } void sys_setalarm(int microsec) { struct itimerval gonzo; int sec = (int)(microsec/1000000); microsec %= 1000000; #if 0 fprintf(stderr, "timer %d:%d\n", sec, microsec); #endif gonzo.it_interval.tv_sec = 0; gonzo.it_interval.tv_usec = 0; gonzo.it_value.tv_sec = sec; gonzo.it_value.tv_usec = microsec; if (microsec) sys_signal(SIGALRM, sys_alarmhandler); else sys_signal(SIGALRM, SIG_IGN); setitimer(ITIMER_REAL, &gonzo, 0); } #endif #ifdef __linux__ #if defined(_POSIX_PRIORITY_SCHEDULING) || defined(_POSIX_MEMLOCK) #include #endif void sys_set_priority(int higher) { #ifdef _POSIX_PRIORITY_SCHEDULING struct sched_param par; int p1 ,p2, p3; p1 = sched_get_priority_min(SCHED_FIFO); p2 = sched_get_priority_max(SCHED_FIFO); #ifdef USEAPI_JACK p3 = (higher ? p1 + 7 : p1 + 5); #else p3 = (higher ? p2 - 1 : p2 - 3); #endif par.sched_priority = p3; if (sched_setscheduler(0,SCHED_FIFO,&par) != -1) fprintf(stderr, "priority %d scheduling enabled.\n", p3); #endif #ifdef REALLY_POSIX_MEMLOCK /* this doesn't work on Fedora 4, for example. */ #ifdef _POSIX_MEMLOCK /* tb: force memlock to physical memory { */ { struct rlimit mlock_limit; mlock_limit.rlim_cur=0; mlock_limit.rlim_max=0; setrlimit(RLIMIT_MEMLOCK,&mlock_limit); } /* } tb */ if (mlockall(MCL_FUTURE) != -1) fprintf(stderr, "memory locking enabled.\n"); #endif #endif } #endif /* __linux__ */ #ifdef IRIX /* hack by at 2003/09/21 */ #if defined(_POSIX_PRIORITY_SCHEDULING) || defined(_POSIX_MEMLOCK) #include #endif void sys_set_priority(int higher) { #ifdef _POSIX_PRIORITY_SCHEDULING struct sched_param par; /* Bearing the table found in 'man realtime' in mind, I found it a */ /* good idea to use 192 as the priority setting for Pd. Any thoughts? */ if (higher) par.sched_priority = 250; /* priority for watchdog */ else par.sched_priority = 192; /* priority for pd (DSP) */ if (sched_setscheduler(0, SCHED_FIFO, &par) != -1) fprintf(stderr, "priority %d scheduling enabled.\n", par.sched_priority); #endif #ifdef _POSIX_MEMLOCK if (mlockall(MCL_FUTURE) != -1) fprintf(stderr, "memory locking enabled.\n"); #endif } /* end of hack */ #endif /* IRIX */ /* ------------------ receiving incoming messages over sockets ------------- */ void sys_sockerror(char *s) { #ifdef MSW int err = WSAGetLastError(); if (err == 10054) return; else if (err == 10044) { fprintf(stderr, "Warning: you might not have TCP/IP \"networking\" turned on\n"); fprintf(stderr, "which is needed for Pd to talk to its GUI layer.\n"); } #else int err = errno; #endif fprintf(stderr, "%s: %s (%d)\n", s, strerror(err), err); } void sys_addpollfn(int fd, t_fdpollfn fn, void *ptr) { int nfd = sys_nfdpoll; int size = nfd * sizeof(t_fdpoll); t_fdpoll *fp; sys_fdpoll = (t_fdpoll *)t_resizebytes(sys_fdpoll, size, size + sizeof(t_fdpoll)); fp = sys_fdpoll + nfd; fp->fdp_fd = fd; fp->fdp_fn = fn; fp->fdp_ptr = ptr; sys_nfdpoll = nfd + 1; if (fd >= sys_maxfd) sys_maxfd = fd + 1; } void sys_rmpollfn(int fd) { int nfd = sys_nfdpoll; int i, size = nfd * sizeof(t_fdpoll); t_fdpoll *fp; for (i = nfd, fp = sys_fdpoll; i--; fp++) { if (fp->fdp_fd == fd) { while (i--) { fp[0] = fp[1]; fp++; } sys_fdpoll = (t_fdpoll *)t_resizebytes(sys_fdpoll, size, size - sizeof(t_fdpoll)); sys_nfdpoll = nfd - 1; return; } } post("warning: %d removed from poll list but not found", fd); } t_socketreceiver *socketreceiver_new(void *owner, t_socketnotifier notifier, t_socketreceivefn socketreceivefn, int udp) { t_socketreceiver *x = (t_socketreceiver *)getbytes(sizeof(*x)); x->sr_inhead = x->sr_intail = 0; x->sr_owner = owner; x->sr_notifier = notifier; x->sr_socketreceivefn = socketreceivefn; x->sr_udp = udp; if (!(x->sr_inbuf = malloc(INBUFSIZE))) bug("t_socketreceiver");; return (x); } void socketreceiver_free(t_socketreceiver *x) { free(x->sr_inbuf); freebytes(x, sizeof(*x)); } /* this is in a separately called subroutine so that the buffer isn't sitting on the stack while the messages are getting passed. */ static int socketreceiver_doread(t_socketreceiver *x) { char messbuf[INBUFSIZE], *bp = messbuf; int indx, first = 1; int inhead = x->sr_inhead; int intail = x->sr_intail; char *inbuf = x->sr_inbuf; for (indx = intail; first || (indx != inhead); first = 0, (indx = (indx+1)&(INBUFSIZE-1))) { /* if we hit a semi that isn't preceeded by a \, it's a message boundary. LATER we should deal with the possibility that the preceeding \ might itself be escaped! */ char c = *bp++ = inbuf[indx]; if (c == ';' && (!indx || inbuf[indx-1] != '\\')) { intail = (indx+1)&(INBUFSIZE-1); binbuf_text(inbinbuf, messbuf, bp - messbuf); if (sys_debuglevel & DEBUG_MESSDOWN) { write(2, messbuf, bp - messbuf); write(2, "\n", 1); } x->sr_inhead = inhead; x->sr_intail = intail; return (1); } } return (0); } static void socketreceiver_getudp(t_socketreceiver *x, int fd) { char buf[INBUFSIZE+1]; int ret = recv(fd, buf, INBUFSIZE, 0); if (ret < 0) { sys_sockerror("recv"); sys_rmpollfn(fd); sys_closesocket(fd); } else if (ret > 0) { buf[ret] = 0; #if 0 post("%s", buf); #endif if (buf[ret-1] != '\n') { #if 0 buf[ret] = 0; error("dropped bad buffer %s\n", buf); #endif } else { char *semi = strchr(buf, ';'); if (semi) *semi = 0; binbuf_text(inbinbuf, buf, strlen(buf)); outlet_setstacklim(); if (x->sr_socketreceivefn) (*x->sr_socketreceivefn)(x->sr_owner, inbinbuf); else bug("socketreceiver_getudp"); } } } void sys_exit(void); void socketreceiver_read(t_socketreceiver *x, int fd) { if (x->sr_udp) /* UDP ("datagram") socket protocol */ socketreceiver_getudp(x, fd); else /* TCP ("streaming") socket protocol */ { char *semi; int readto = (x->sr_inhead >= x->sr_intail ? INBUFSIZE : x->sr_intail-1); int ret; /* the input buffer might be full. If so, drop the whole thing */ if (readto == x->sr_inhead) { fprintf(stderr, "pd: dropped message from gui\n"); x->sr_inhead = x->sr_intail = 0; readto = INBUFSIZE; } else { ret = recv(fd, x->sr_inbuf + x->sr_inhead, readto - x->sr_inhead, 0); if (ret < 0) { sys_sockerror("recv"); if (x == sys_socketreceiver) sys_bail(1); else { if (x->sr_notifier) (*x->sr_notifier)(x->sr_owner); sys_rmpollfn(fd); sys_closesocket(fd); } } else if (ret == 0) { if (x == sys_socketreceiver) { fprintf(stderr, "pd: exiting\n"); sys_exit(); return; } else { post("EOF on socket %d\n", fd); if (x->sr_notifier) (*x->sr_notifier)(x->sr_owner); sys_rmpollfn(fd); sys_closesocket(fd); } } else { x->sr_inhead += ret; if (x->sr_inhead >= INBUFSIZE) x->sr_inhead = 0; while (socketreceiver_doread(x)) { outlet_setstacklim(); if (x->sr_socketreceivefn) (*x->sr_socketreceivefn)(x->sr_owner, inbinbuf); else binbuf_eval(inbinbuf, 0, 0, 0); if (x->sr_inhead == x->sr_intail) break; } } } } } void sys_closesocket(int fd) { #ifdef HAVE_UNISTD_H close(fd); #endif #ifdef MSW closesocket(fd); #endif } /* ---------------------- sending messages to the GUI ------------------ */ #define GUI_ALLOCCHUNK 8192 #define GUI_UPDATESLICE 512 /* how much we try to do in one idle period */ #define GUI_BYTESPERPING 1024 /* how much we send up per ping */ typedef struct _guiqueue { void *gq_client; t_glist *gq_glist; t_guicallbackfn gq_fn; struct _guiqueue *gq_next; } t_guiqueue; static t_guiqueue *sys_guiqueuehead; static char *sys_guibuf; static int sys_guibufhead; static int sys_guibuftail; static int sys_guibufsize; static int sys_waitingforping; static int sys_bytessincelastping; static void sys_trytogetmoreguibuf(int newsize) { char *newbuf = realloc(sys_guibuf, newsize); #if 0 static int sizewas; if (newsize > 70000 && sizewas < 70000) { int i; for (i = sys_guibuftail; i < sys_guibufhead; i++) fputc(sys_guibuf[i], stderr); } sizewas = newsize; #endif #if 0 fprintf(stderr, "new size %d (head %d, tail %d)\n", newsize, sys_guibufhead, sys_guibuftail); #endif /* if realloc fails, make a last-ditch attempt to stay alive by synchronously writing out the existing contents. LATER test this by intentionally setting newbuf to zero */ if (!newbuf) { int bytestowrite = sys_guibuftail - sys_guibufhead; int written = 0; while (1) { int res = send(sys_guisock, sys_guibuf + sys_guibuftail + written, bytestowrite, 0); if (res < 0) { perror("pd output pipe"); sys_bail(1); } else { written += res; if (written >= bytestowrite) break; } } sys_guibufhead = sys_guibuftail = 0; } else { sys_guibufsize = newsize; sys_guibuf = newbuf; } } void sys_vgui(char *fmt, ...) { int msglen, bytesleft, headwas, nwrote; va_list ap; if (sys_nogui) return; if (!sys_guibuf) { if (!(sys_guibuf = malloc(GUI_ALLOCCHUNK))) { fprintf(stderr, "Pd: couldn't allocate GUI buffer\n"); sys_bail(1); } sys_guibufsize = GUI_ALLOCCHUNK; sys_guibufhead = sys_guibuftail = 0; } if (sys_guibufhead > sys_guibufsize - (GUI_ALLOCCHUNK/2)) sys_trytogetmoreguibuf(sys_guibufsize + GUI_ALLOCCHUNK); va_start(ap, fmt); msglen = vsnprintf(sys_guibuf + sys_guibufhead, sys_guibufsize - sys_guibufhead, fmt, ap); va_end(ap); if(msglen < 0) { fprintf(stderr, "Pd: buffer space wasn't sufficient for long GUI string\n"); return; } if (msglen >= sys_guibufsize - sys_guibufhead) { int msglen2, newsize = sys_guibufsize + 1 + (msglen > GUI_ALLOCCHUNK ? msglen : GUI_ALLOCCHUNK); sys_trytogetmoreguibuf(newsize); va_start(ap, fmt); msglen2 = vsnprintf(sys_guibuf + sys_guibufhead, sys_guibufsize - sys_guibufhead, fmt, ap); va_end(ap); if (msglen2 != msglen) bug("sys_vgui"); if (msglen >= sys_guibufsize - sys_guibufhead) msglen = sys_guibufsize - sys_guibufhead; } if (sys_debuglevel & DEBUG_MESSUP) fprintf(stderr, "%s", sys_guibuf + sys_guibufhead); sys_guibufhead += msglen; sys_bytessincelastping += msglen; } void sys_gui(char *s) { sys_vgui("%s", s); } static int sys_flushtogui( void) { int writesize = sys_guibufhead - sys_guibuftail, nwrote = 0; if (writesize > 0) nwrote = send(sys_guisock, sys_guibuf + sys_guibuftail, writesize, 0); #if 0 if (writesize) fprintf(stderr, "wrote %d of %d\n", nwrote, writesize); #endif if (nwrote < 0) { perror("pd-to-gui socket"); sys_bail(1); } else if (!nwrote) return (0); else if (nwrote >= sys_guibufhead - sys_guibuftail) sys_guibufhead = sys_guibuftail = 0; else if (nwrote) { sys_guibuftail += nwrote; if (sys_guibuftail > (sys_guibufsize >> 2)) { memmove(sys_guibuf, sys_guibuf + sys_guibuftail, sys_guibufhead - sys_guibuftail); sys_guibufhead = sys_guibufhead - sys_guibuftail; sys_guibuftail = 0; } } return (1); } void glob_ping(t_pd *dummy) { sys_waitingforping = 0; } static int sys_flushqueue(void ) { int wherestop = sys_bytessincelastping + GUI_UPDATESLICE; if (wherestop + (GUI_UPDATESLICE >> 1) > GUI_BYTESPERPING) wherestop = 0x7fffffff; if (sys_waitingforping) return (0); if (!sys_guiqueuehead) return (0); while (1) { if (sys_bytessincelastping >= GUI_BYTESPERPING) { sys_gui("pdtk_ping\n"); sys_bytessincelastping = 0; sys_waitingforping = 1; return (1); } if (sys_guiqueuehead) { t_guiqueue *headwas = sys_guiqueuehead; sys_guiqueuehead = headwas->gq_next; (*headwas->gq_fn)(headwas->gq_client, headwas->gq_glist); t_freebytes(headwas, sizeof(*headwas)); if (sys_bytessincelastping >= wherestop) break; } else break; } sys_flushtogui(); return (1); } /* flush output buffer and update queue to gui in small time slices */ static int sys_poll_togui(void) /* returns 1 if did anything */ { if (sys_nogui) return (0); /* see if there is stuff still in the buffer, if so we must have fallen behind, so just try to clear that. */ if (sys_flushtogui()) return (1); /* if the flush wasn't complete, wait. */ if (sys_guibufhead > sys_guibuftail) return (0); /* check for queued updates */ if (sys_flushqueue()) return (1); return (0); } /* if some GUI object is having to do heavy computations, it can tell us to back off from doing more updates by faking a big one itself. */ void sys_pretendguibytes(int n) { sys_bytessincelastping += n; } void sys_queuegui(void *client, t_glist *glist, t_guicallbackfn f) { t_guiqueue **gqnextptr, *gq; if (!sys_guiqueuehead) gqnextptr = &sys_guiqueuehead; else { for (gq = sys_guiqueuehead; gq->gq_next; gq = gq->gq_next) if (gq->gq_client == client) return; if (gq->gq_client == client) return; gqnextptr = &gq->gq_next; } gq = t_getbytes(sizeof(*gq)); gq->gq_next = 0; gq->gq_client = client; gq->gq_glist = glist; gq->gq_fn = f; gq->gq_next = 0; *gqnextptr = gq; } void sys_unqueuegui(void *client) { t_guiqueue *gq, *gq2; if (!sys_guiqueuehead) return; if (sys_guiqueuehead->gq_client == client) { t_freebytes(sys_guiqueuehead, sizeof(*sys_guiqueuehead)); sys_guiqueuehead = 0; } else for (gq = sys_guiqueuehead; gq2 = gq->gq_next; gq = gq2) if (gq2->gq_client == client) { gq->gq_next = gq2->gq_next; t_freebytes(gq2, sizeof(*gq2)); break; } } int sys_pollgui(void) { return (sys_domicrosleep(0, 1) || sys_poll_togui()); } /* --------------------- starting up the GUI connection ------------- */ static int sys_watchfd; #ifdef __linux__ void glob_watchdog(t_pd *dummy) { if (write(sys_watchfd, "\n", 1) < 1) { fprintf(stderr, "pd: watchdog process died\n"); sys_bail(1); } } #endif #define FIRSTPORTNUM 5400 #define MAXFONTS 21 static int defaultfontshit[MAXFONTS] = { 8, 5, 9, 10, 6, 10, 12, 7, 13, 14, 9, 17, 16, 10, 19, 24, 15, 28, 24, 15, 28}; #define NDEFAULTFONT (sizeof(defaultfontshit)/sizeof(*defaultfontshit)) int sys_startgui(const char *libdir) { pid_t childpid; char cmdbuf[4*MAXPDSTRING]; struct sockaddr_in server; int msgsock; char buf[15]; int len = sizeof(server); int ntry = 0, portno = FIRSTPORTNUM; int xsock = -1; #ifdef MSW short version = MAKEWORD(2, 0); WSADATA nobby; #endif #ifdef HAVE_UNISTD_H int stdinpipe[2]; #endif /* create an empty FD poll list */ sys_fdpoll = (t_fdpoll *)t_getbytes(0); sys_nfdpoll = 0; inbinbuf = binbuf_new(); #ifdef HAVE_UNISTD_H signal(SIGHUP, sys_huphandler); signal(SIGINT, sys_exithandler); signal(SIGQUIT, sys_exithandler); signal(SIGILL, sys_exithandler); signal(SIGIOT, sys_exithandler); signal(SIGFPE, SIG_IGN); /* signal(SIGILL, sys_exithandler); signal(SIGBUS, sys_exithandler); signal(SIGSEGV, sys_exithandler); */ signal(SIGPIPE, SIG_IGN); signal(SIGALRM, SIG_IGN); #if 0 /* GG says: don't use that */ signal(SIGSTKFLT, sys_exithandler); #endif #endif #ifdef MSW if (WSAStartup(version, &nobby)) sys_sockerror("WSAstartup"); #endif if (sys_nogui) { /* fake the GUI's message giving cwd and font sizes; then skip starting the GUI up. */ t_atom zz[NDEFAULTFONT+2]; int i; #ifdef MSW if (GetCurrentDirectory(MAXPDSTRING, cmdbuf) == 0) strcpy(cmdbuf, "."); #endif #ifdef HAVE_UNISTD_H if (!getcwd(cmdbuf, MAXPDSTRING)) strcpy(cmdbuf, "."); #endif SETSYMBOL(zz, gensym(cmdbuf)); for (i = 0; i < (int)NDEFAULTFONT; i++) SETFLOAT(zz+i+1, defaultfontshit[i]); SETFLOAT(zz+NDEFAULTFONT+1,0); glob_initfromgui(0, 0, 23, zz); } else if (sys_guisetportnumber) /* GUI exists and sent us a port number */ { struct sockaddr_in server; struct hostent *hp; /* create a socket */ sys_guisock = socket(AF_INET, SOCK_STREAM, 0); if (sys_guisock < 0) sys_sockerror("socket"); /* connect socket using hostname provided in command line */ server.sin_family = AF_INET; hp = gethostbyname(LOCALHOST); if (hp == 0) { fprintf(stderr, "localhost not found (inet protocol not installed?)\n"); exit(1); } memcpy((char *)&server.sin_addr, (char *)hp->h_addr, hp->h_length); /* assign client port number */ server.sin_port = htons((unsigned short)sys_guisetportnumber); /* try to connect */ if (connect(sys_guisock, (struct sockaddr *) &server, sizeof (server)) < 0) { sys_sockerror("connecting stream socket"); exit(1); } } else /* default behavior: start up the GUI ourselves. */ { #ifdef MSW char scriptbuf[MAXPDSTRING+30], wishbuf[MAXPDSTRING+30], portbuf[80]; int spawnret; #endif #ifdef MSW char intarg; #else int intarg; #endif /* create a socket */ xsock = socket(AF_INET, SOCK_STREAM, 0); if (xsock < 0) sys_sockerror("socket"); #if 0 intarg = 0; if (setsockopt(xsock, SOL_SOCKET, SO_SNDBUF, &intarg, sizeof(intarg)) < 0) post("setsockopt (SO_RCVBUF) failed\n"); intarg = 0; if (setsockopt(xsock, SOL_SOCKET, SO_RCVBUF, &intarg, sizeof(intarg)) < 0) post("setsockopt (SO_RCVBUF) failed\n"); #endif intarg = 1; if (setsockopt(xsock, IPPROTO_TCP, TCP_NODELAY, &intarg, sizeof(intarg)) < 0) #ifndef MSW post("setsockopt (TCP_NODELAY) failed\n") #endif ; server.sin_family = AF_INET; server.sin_addr.s_addr = INADDR_ANY; /* assign server port number */ server.sin_port = htons((unsigned short)portno); /* name the socket */ while (bind(xsock, (struct sockaddr *)&server, sizeof(server)) < 0) { #ifdef MSW int err = WSAGetLastError(); #else int err = errno; #endif if ((ntry++ > 20) || (err != EADDRINUSE)) { perror("bind"); fprintf(stderr, "Pd needs your machine to be configured with\n"); fprintf(stderr, "'networking' turned on (see Pd's html doc for details.)\n"); exit(1); } portno++; server.sin_port = htons((unsigned short)(portno)); } if (sys_verbose) fprintf(stderr, "port %d\n", portno); #ifdef HAVE_UNISTD_H if (!sys_guicmd) { #ifdef __APPLE__ int i; struct stat statbuf; glob_t glob_buffer; char *homedir = getenv("HOME"); char embed_glob[FILENAME_MAX]; char embed_filename[FILENAME_MAX], home_filename[FILENAME_MAX]; char *wish_paths[10] = { "(did not find an embedded wish)", "(did not find a home directory)", "/Applications/Utilities/Wish.app/Contents/MacOS/Wish", "/Applications/Utilities/Wish Shell.app/Contents/MacOS/Wish Shell", "/Applications/Wish.app/Contents/MacOS/Wish", "/Applications/Wish Shell.app/Contents/MacOS/Wish Shell", "/usr/bin/wish" }; /* this glob is needed so the Wish executable can have the same * filename as the Pd.app, i.e. 'Pd-0.42-3.app' should have a Wish * executable called 'Pd-0.42-3.app/Contents/MacOS/Pd-0.42-3' */ sprintf(embed_glob, "%s/../MacOS/Pd*", libdir); glob_buffer.gl_matchc = 1; /* we only need one match */ glob(embed_glob, GLOB_LIMIT, NULL, &glob_buffer); if (glob_buffer.gl_pathc > 0) { strcpy(embed_filename, glob_buffer.gl_pathv[0]); wish_paths[0] = embed_filename; } sprintf(home_filename, "%s/Applications/Wish.app/Contents/MacOS/Wish",homedir); wish_paths[1] = home_filename; for(i=0; i<10; i++) { if (sys_verbose) fprintf(stderr, "Trying Wish at \"%s\"\n", wish_paths[i]); if (stat(wish_paths[i], &statbuf) >= 0) break; } sprintf(cmdbuf,"\"%s\" %s/tcl/pd-gui.tcl %d\n", wish_paths[i], libdir, portno); #else sprintf(cmdbuf, "TCL_LIBRARY=\"%s/lib/tcl/library\" TK_LIBRARY=\"%s/lib/tk/library\" \ wish \"%s/tcl/pd-gui.tcl\" %d\n", libdir, libdir, libdir, portno); #endif sys_guicmd = cmdbuf; } if (sys_verbose) fprintf(stderr, "%s", sys_guicmd); childpid = fork(); if (childpid < 0) { if (errno) perror("sys_startgui"); else fprintf(stderr, "sys_startgui failed\n"); return (1); } else if (!childpid) /* we're the child */ { setuid(getuid()); /* lose setuid priveliges */ #ifndef __APPLE__ // TODO this seems unneeded on any platform hans@eds.org /* the wish process in Unix will make a wish shell and read/write standard in and out unless we close the file descriptors. Somehow this doesn't make the MAC OSX version of Wish happy...*/ if (pipe(stdinpipe) < 0) sys_sockerror("pipe"); else { if (stdinpipe[0] != 0) { close (0); dup2(stdinpipe[0], 0); close(stdinpipe[0]); } } #endif execl("/bin/sh", "sh", "-c", sys_guicmd, (char*)0); perror("pd: exec"); _exit(1); } #endif /* UNISTD */ #ifdef MSW /* fprintf(stderr, "%s\n", libdir); */ strcpy(scriptbuf, "\""); strcat(scriptbuf, libdir); strcat(scriptbuf, "/" PDTCLDIR "pd-gui.tcl\""); sys_bashfilename(scriptbuf, scriptbuf); sprintf(portbuf, "%d", portno); strcpy(wishbuf, libdir); strcat(wishbuf, "/" PDBINDIR WISHAPP); sys_bashfilename(wishbuf, wishbuf); spawnret = _spawnl(P_NOWAIT, wishbuf, WISHAPP, scriptbuf, portbuf, 0); if (spawnret < 0) { perror("spawnl"); fprintf(stderr, "%s: couldn't load TCL\n", wishbuf); exit(1); } #endif /* MSW */ } #if defined(__linux__) || defined(IRIX) /* now that we've spun off the child process we can promote our process's priority, if we can and want to. If not specfied (-1), we check root status. This misses the case where we might have permission from a "security module" (linux 2.6) -- I don't know how to test for that. The "-rt" flag must b eset in that case. */ if (sys_hipriority == -1) sys_hipriority = (!getuid() || !geteuid()); if (sys_hipriority) { /* To prevent lockup, we fork off a watchdog process with higher real-time priority than ours. The GUI has to send a stream of ping messages to the watchdog THROUGH the Pd process which has to pick them up from the GUI and forward them. If any of these things aren't happening the watchdog starts sending "stop" and "cont" signals to the Pd process to make it timeshare with the rest of the system. (Version 0.33P2 : if there's no GUI, the watchdog pinging is done from the scheduler idle routine in this process instead.) */ int pipe9[2], watchpid; if (pipe(pipe9) < 0) { setuid(getuid()); /* lose setuid priveliges */ sys_sockerror("pipe"); return (1); } watchpid = fork(); if (watchpid < 0) { setuid(getuid()); /* lose setuid priveliges */ if (errno) perror("sys_startgui"); else fprintf(stderr, "sys_startgui failed\n"); return (1); } else if (!watchpid) /* we're the child */ { sys_set_priority(1); setuid(getuid()); /* lose setuid priveliges */ if (pipe9[1] != 0) { dup2(pipe9[0], 0); close(pipe9[0]); } close(pipe9[1]); sprintf(cmdbuf, "%s/bin/pd-watchdog\n", libdir); if (sys_verbose) fprintf(stderr, "%s", cmdbuf); execl("/bin/sh", "sh", "-c", cmdbuf, (char*)0); perror("pd: exec"); _exit(1); } else /* we're the parent */ { sys_set_priority(0); setuid(getuid()); /* lose setuid priveliges */ close(pipe9[0]); sys_watchfd = pipe9[1]; /* We also have to start the ping loop in the GUI; this is done later when the socket is open. */ } } setuid(getuid()); /* lose setuid priveliges */ #endif /* __linux__ */ #ifdef MSW if (!SetPriorityClass(GetCurrentProcess(), HIGH_PRIORITY_CLASS)) fprintf(stderr, "pd: couldn't set high priority class\n"); #endif #ifdef __APPLE__ if (sys_hipriority) { struct sched_param param; int policy = SCHED_RR; int err; param.sched_priority = 80; /* adjust 0 : 100 */ err = pthread_setschedparam(pthread_self(), policy, ¶m); if (err) post("warning: high priority scheduling failed\n"); } #endif /* __APPLE__ */ if (!sys_nogui && !sys_guisetportnumber) { if (sys_verbose) fprintf(stderr, "Waiting for connection request... \n"); if (listen(xsock, 5) < 0) sys_sockerror("listen"); sys_guisock = accept(xsock, (struct sockaddr *) &server, (socklen_t *)&len); #ifdef OOPS sys_closesocket(xsock); #endif if (sys_guisock < 0) sys_sockerror("accept"); if (sys_verbose) fprintf(stderr, "... connected\n"); } if (!sys_nogui) { char buf[256], buf2[256]; sys_socketreceiver = socketreceiver_new(0, 0, 0, 0); sys_addpollfn(sys_guisock, (t_fdpollfn)socketreceiver_read, sys_socketreceiver); /* here is where we start the pinging. */ #if defined(__linux__) || defined(IRIX) if (sys_hipriority) sys_gui("pdtk_watchdog\n"); #endif sys_get_audio_apis(buf); sys_get_midi_apis(buf2); sys_vgui("pdtk_pd_startup {%s} %s %s {%s} %s\n", pd_version, buf, buf2, sys_font, sys_fontweight); } return (0); } extern void sys_exit(void); /* This is called when something bad has happened, like a segfault. Call glob_quit() below to exit cleanly. LATER try to save dirty documents even in the bad case. */ void sys_bail(int n) { static int reentered = 0; if (!reentered) { reentered = 1; #ifndef __linux__ /* sys_close_audio() hangs if you're in a signal? */ fprintf(stderr, "closing audio...\n"); sys_close_audio(); fprintf(stderr, "closing MIDI...\n"); sys_close_midi(); fprintf(stderr, "... done.\n"); #endif exit(n); } else _exit(1); } void glob_quit(void *dummy) { sys_vgui("exit\n"); if (!sys_nogui) { sys_closesocket(sys_guisock); sys_rmpollfn(sys_guisock); } sys_bail(0); }