/* * UNIX Tty and Process interface * Copyright * (C) 1992 Joseph H. Allen * * This file is part of JOE (Joe's Own Editor) */ #include "types.h" /* not needed: ioctl() moved to utils.c #ifdef GWINSZ_IN_SYS_IOCTL #ifdef HAVE_SYS_IOCTL_H #include #endif #endif */ #ifdef HAVE_SYS_WAIT_H #include #endif #ifdef HAVE_SYS_PARAM_H #include #endif #ifdef HAVE_OPENPTY #ifdef HAVE_PTY_H #include #endif #ifdef HAVE_LIBUTIL_H #include #endif #endif #ifdef HAVE_LOGIN_TTY #ifdef HAVE_UTMP_H #include #endif #endif int idleout = 1; #ifdef __amigaos #undef SIGTSTP #endif /* We use the defines in sys/ioctl to determine what type * tty interface the system uses and what type of system * we actually have. */ #ifdef HAVE_POSIX_TERMIOS # include #else # ifdef HAVE_SYSV_TERMIO # include # include # else # include # endif #endif #ifdef HAVE_SETITIMER #ifdef HAVE_SYS_TIME_H #include #endif #endif /* I'm not sure if SCO_UNIX and ISC have __svr4__ defined, but I think they might */ #ifdef M_SYS5 #ifndef M_XENIX #include #include #ifndef __svr4__ #define __svr4__ 1 #endif #endif #endif #ifdef ISC #ifndef __svr4__ #define __svr4__ 1 #endif #endif #ifdef __svr4__ #include #endif /** Aliased defines **/ /* O_NDELAY, O_NONBLOCK, and FNDELAY are all synonyms for placing a descriptor * in non-blocking mode; we make whichever one we have look like O_NDELAY */ #ifndef O_NDELAY #ifdef O_NONBLOCK #define O_NDELAY O_NONBLOCK #endif #ifdef FNDELAY #define O_NDELAY FNDELAY #endif #endif /* Some systems define this, some don't */ #ifndef sigmask #define sigmask(x) (1<<((x)-1)) #endif /* Some BSDs don't have TILDE */ #ifndef TILDE #define TILDE 0 #endif /* Global configuration variables */ int noxon = 0; /* Set if ^S/^Q processing should be disabled */ int Baud = 0; /* Baud rate from joerc, cmd line or environment */ /* The terminal */ FILE *termin = NULL; FILE *termout = NULL; /* Original state of tty */ #ifdef HAVE_POSIX_TERMIOS struct termios oldterm; #else /* HAVE_POSIX_TERMIOS */ #ifdef HAVE_SYSV_TERMIO static struct termio oldterm; #else /* HAVE_SYSV_TERMIO */ static struct sgttyb oarg; static struct tchars otarg; static struct ltchars oltarg; #endif /* HAVE_SYSV_TERMIO */ #endif /* HAVE_POSIX_TERMIOS */ /* Output buffer, index and size */ unsigned char *obuf = NULL; int obufp = 0; int obufsiz; /* The baud rate */ unsigned baud; /* Bits per second */ unsigned long upc; /* Microseconds per character */ /* TTY Speed code to baud-rate conversion table (this is dumb- is it really * too much to ask for them to just use an integer for the baud-rate?) */ static int speeds[] = { B50, 50, B75, 75, B110, 110, B134, 134, B150, 150, B200, 200, B300, 300, B600, 600, B1200, 1200, B1800, 1800, B2400, 2400, B4800, 4800, B9600, 9600 #ifdef EXTA , EXTA, 19200 #endif #ifdef EXTB , EXTB, 38400 #endif #ifdef B19200 , B19200, 19200 #endif #ifdef B38400 , B38400, 38400 #endif }; /* Input buffer */ int have = 0; /* Set if we have pending input */ static unsigned char havec; /* Character read in during pending input check */ int leave = 0; /* When set, typeahead checking is disabled */ /* TTY mode flag. 1 for open, 0 for closed */ static int ttymode = 0; /* Signal state flag. 1 for joe, 0 for normal */ static int ttysig = 0; /* Stuff for shell windows */ static pid_t kbdpid; /* PID of kbd client */ static int ackkbd = -1; /* Editor acks keyboard client to this */ static int mpxfd; /* Editor reads packets from this fd */ static int mpxsfd; /* Clients send packets to this fd */ static int nmpx = 0; static int acceptch = NO_MORE_DATA; /* =-1 if we have last packet */ struct packet { MPX *who; int size; int ch; unsigned char data[1024]; } pack; MPX asyncs[NPROC]; /* Set signals for JOE */ void sigjoe(void) { if (ttysig) return; ttysig = 1; joe_set_signal(SIGHUP, ttsig); joe_set_signal(SIGTERM, ttsig); joe_set_signal(SIGABRT, ttsig); joe_set_signal(SIGINT, SIG_IGN); joe_set_signal(SIGPIPE, SIG_IGN); } /* Restore signals for exiting */ void signrm(void) { if (!ttysig) return; ttysig = 0; joe_set_signal(SIGABRT, SIG_DFL); joe_set_signal(SIGHUP, SIG_DFL); joe_set_signal(SIGTERM, SIG_DFL); joe_set_signal(SIGINT, SIG_DFL); joe_set_signal(SIGPIPE, SIG_DFL); } /* Open terminal and set signals */ void ttopen(void) { sigjoe(); ttopnn(); } /* Close terminal and restore signals */ void ttclose(void) { ttclsn(); signrm(); } static int winched = 0; #ifdef SIGWINCH /* Window size interrupt handler */ static RETSIGTYPE winchd(int unused) { ++winched; REINSTALL_SIGHANDLER(SIGWINCH, winchd); } #endif /* Second ticker */ int ticked = 0; static RETSIGTYPE dotick(int unused) { ticked = 1; } void tickoff(void) { #ifdef HAVE_SETITIMER struct itimerval val; val.it_value.tv_sec = 0; val.it_value.tv_usec = 0; val.it_interval.tv_sec = 0; val.it_interval.tv_usec = 0; setitimer(ITIMER_REAL,&val,NULL); #else alarm(0); #endif } void tickon(void) { #ifdef HAVE_SETITIMER struct itimerval val; val.it_interval.tv_sec = 0; val.it_interval.tv_usec = 0; if (auto_scroll) { int tim = auto_trig_time - mnow(); if (tim < 0) tim = 1; tim *= 1000; val.it_value.tv_sec = 0; val.it_value.tv_usec = tim; } else { val.it_value.tv_sec = 1; val.it_value.tv_usec = 0; } ticked = 0; joe_set_signal(SIGALRM, dotick); setitimer(ITIMER_REAL,&val,NULL); #else ticked = 0; joe_set_signal(SIGALRM, dotick); alarm(1); #endif } /* Open terminal */ void ttopnn(void) { int x, bbaud; #ifdef HAVE_POSIX_TERMIOS struct termios newterm; #else #ifdef HAVE_SYSV_TERMIO struct termio newterm; #else struct sgttyb arg; struct tchars targ; struct ltchars ltarg; #endif #endif if (!termin) { if (idleout ? (!(termin = stdin) || !(termout = stdout)) : (!(termin = fopen("/dev/tty", "r")) || !(termout = fopen("/dev/tty", "w")))) { fprintf(stderr, (char *)joe_gettext(_("Couldn\'t open /dev/tty\n"))); exit(1); } else { #ifdef SIGWINCH joe_set_signal(SIGWINCH, winchd); #endif } } if (ttymode) return; ttymode = 1; fflush(termout); #ifdef HAVE_POSIX_TERMIOS tcgetattr(fileno(termin), &oldterm); newterm = oldterm; newterm.c_lflag = 0; if (noxon) newterm.c_iflag &= ~(ICRNL | IGNCR | INLCR | IXON | IXOFF); else newterm.c_iflag &= ~(ICRNL | IGNCR | INLCR); newterm.c_oflag = 0; newterm.c_cc[VMIN] = 1; newterm.c_cc[VTIME] = 0; tcsetattr(fileno(termin), TCSADRAIN, &newterm); bbaud = cfgetospeed(&newterm); #else #ifdef HAVE_SYSV_TERMIO joe_ioctl(fileno(termin), TCGETA, &oldterm); newterm = oldterm; newterm.c_lflag = 0; if (noxon) newterm.c_iflag &= ~(ICRNL | IGNCR | INLCR | IXON | IXOFF); else newterm.c_iflag &= ~(ICRNL | IGNCR | INLCR); newterm.c_oflag = 0; newterm.c_cc[VMIN] = 1; newterm.c_cc[VTIME] = 0; joe_ioctl(fileno(termin), TCSETAW, &newterm); bbaud = (newterm.c_cflag & CBAUD); #else joe_ioctl(fileno(termin), TIOCGETP, &arg); joe_ioctl(fileno(termin), TIOCGETC, &targ); joe_ioctl(fileno(termin), TIOCGLTC, <arg); oarg = arg; otarg = targ; oltarg = ltarg; arg.sg_flags = ((arg.sg_flags & ~(ECHO | CRMOD | XTABS | ALLDELAY | TILDE)) | CBREAK); if (noxon) { targ.t_startc = -1; targ.t_stopc = -1; } targ.t_intrc = -1; targ.t_quitc = -1; targ.t_eofc = -1; targ.t_brkc = -1; ltarg.t_suspc = -1; ltarg.t_dsuspc = -1; ltarg.t_rprntc = -1; ltarg.t_flushc = -1; ltarg.t_werasc = -1; ltarg.t_lnextc = -1; joe_ioctl(fileno(termin), TIOCSETN, &arg); joe_ioctl(fileno(termin), TIOCSETC, &targ); joe_ioctl(fileno(termin), TIOCSLTC, <arg); bbaud = arg.sg_ospeed; #endif #endif baud = 9600; upc = 0; for (x = 0; x != 30; x += 2) if (bbaud == speeds[x]) { baud = speeds[x + 1]; break; } if (Baud) baud = Baud; upc = DIVIDEND / baud; if (obuf) joe_free(obuf); if (!(TIMES * upc)) obufsiz = 4096; else { obufsiz = 1000000 / (TIMES * upc); if (obufsiz > 4096) obufsiz = 4096; } if (!obufsiz) obufsiz = 1; obuf = (unsigned char *) joe_malloc(obufsiz); } /* Close terminal */ void ttclsn(void) { int oleave; if (ttymode) ttymode = 0; else return; oleave = leave; leave = 1; ttflsh(); #ifdef HAVE_POSIX_TERMIOS tcsetattr(fileno(termin), TCSADRAIN, &oldterm); #else #ifdef HAVE_SYSV_TERMIO joe_ioctl(fileno(termin), TCSETAW, &oldterm); #else joe_ioctl(fileno(termin), TIOCSETN, &oarg); joe_ioctl(fileno(termin), TIOCSETC, &otarg); joe_ioctl(fileno(termin), TIOCSLTC, &oltarg); #endif #endif leave = oleave; } /* Timer interrupt handler */ static int yep; static RETSIGTYPE dosig(int unused) { yep = 1; } /* FLush output and check for typeahead */ #ifdef HAVE_SETITIMER #ifdef SIG_SETMASK static void maskit(void) { sigset_t set; sigemptyset(&set); sigaddset(&set, SIGALRM); sigprocmask(SIG_SETMASK, &set, NULL); } static void unmaskit(void) { sigset_t set; sigemptyset(&set); sigprocmask(SIG_SETMASK, &set, NULL); } static void pauseit(void) { sigset_t set; sigemptyset(&set); sigsuspend(&set); } #else static void maskit(void) { sigsetmask(sigmask(SIGALRM)); } static void unmaskit(void) { sigsetmask(0); } static void pauseit(void) { sigpause(0); } #endif #endif int ttflsh(void) { /* Flush output */ if (obufp) { unsigned long usec = obufp * upc; /* No. usecs this write should take */ #ifdef HAVE_SETITIMER if (usec >= 50000 && baud < 9600) { struct itimerval a, b; a.it_value.tv_sec = usec / 1000000; a.it_value.tv_usec = usec % 1000000; a.it_interval.tv_usec = 0; a.it_interval.tv_sec = 0; alarm(0); joe_set_signal(SIGALRM, dosig); yep = 0; maskit(); setitimer(ITIMER_REAL, &a, &b); joe_write(fileno(termout), obuf, obufp); while (!yep) pauseit(); unmaskit(); } else joe_write(fileno(termout), obuf, obufp); #else joe_write(fileno(termout), obuf, obufp); #ifdef FIORDCHK if (baud < 9600 && usec / 1000) nap(usec / 1000); #endif #endif obufp = 0; } /* Ack previous packet */ if (ackkbd != -1 && acceptch != NO_MORE_DATA && !have) { unsigned char c = 0; if (pack.who && pack.who->func) joe_write(pack.who->ackfd, &c, 1); else joe_write(ackkbd, &c, 1); acceptch = NO_MORE_DATA; } /* Check for typeahead or next packet */ if (!have && !leave) { if (ackkbd != -1) { fcntl(mpxfd, F_SETFL, O_NDELAY); if (read(mpxfd, &pack, sizeof(struct packet) - 1024) > 0) { fcntl(mpxfd, F_SETFL, 0); joe_read(mpxfd, pack.data, pack.size); have = 1; acceptch = pack.ch; } else fcntl(mpxfd, F_SETFL, 0); } else { /* Set terminal input to non-blocking */ fcntl(fileno(termin), F_SETFL, O_NDELAY); /* Try to read */ if (read(fileno(termin), &havec, 1) == 1) have = 1; /* Set terminal back to blocking */ fcntl(fileno(termin), F_SETFL, 0); } } return 0; } /* Read next character from input */ void mpxdied(MPX *m); long last_time; int ttgetc(void) { int stat; long new_time; int flg; tickon(); loop: flg = 0; /* Status line clock */ new_time = time(NULL); if (new_time != last_time) { last_time = new_time; dostaupd = 1; ticked = 1; } /* Autoscroller */ if (auto_scroll && mnow() >= auto_trig_time) { do_auto_scroll(); ticked = 1; flg = 1; } ttflsh(); while (winched) { winched = 0; edupd(1); ttflsh(); } if (ticked) { edupd(flg); ttflsh(); tickon(); } if (ackkbd != -1) { if (!have) { /* Wait for input */ stat = read(mpxfd, &pack, sizeof(struct packet) - 1024); if (pack.size && stat > 0) { joe_read(mpxfd, pack.data, pack.size); } else if (stat < 1) { if (winched || ticked) goto loop; else ttsig(0); } acceptch = pack.ch; } have = 0; if (pack.who) { /* Got bknd input */ if (acceptch != NO_MORE_DATA) { if (pack.who->func) { pack.who->func(pack.who->object, pack.data, pack.size); edupd(1); } } else mpxdied(pack.who); goto loop; } else { if (acceptch != NO_MORE_DATA) { tickoff(); return acceptch; } else { tickoff(); ttsig(0); return 0; } } } if (have) { have = 0; } else { if (read(fileno(termin), &havec, 1) < 1) { if (winched || ticked) goto loop; else ttsig(0); } } tickoff(); return havec; } /* Write string to output */ void ttputs(unsigned char *s) { while (*s) { obuf[obufp++] = *s++; if (obufp == obufsiz) ttflsh(); } } /* Get window size */ void ttgtsz(int *x, int *y) { #ifdef TIOCGSIZE struct ttysize getit; #else #ifdef TIOCGWINSZ struct winsize getit; #endif #endif *x = 0; *y = 0; #ifdef TIOCGSIZE if (joe_ioctl(fileno(termout), TIOCGSIZE, &getit) != -1) { *x = getit.ts_cols; *y = getit.ts_lines; } #else #ifdef TIOCGWINSZ if (joe_ioctl(fileno(termout), TIOCGWINSZ, &getit) != -1) { *x = getit.ws_col; *y = getit.ws_row; } #endif #endif } int ttshell(unsigned char *cmd) { int x, omode = ttymode; int stat= -1; unsigned char *s = (unsigned char *)getenv("SHELL"); if (!s) { s = USTR "/bin/sh"; /* return; */ } ttclsn(); #ifdef HAVE_FORK if ((x = fork()) != 0) { #else if ((x = vfork()) != 0) { /* For AMIGA only */ #endif if (x != -1) wait(&stat); if (omode) ttopnn(); return stat; } else { signrm(); if (cmd) execl((char *)s, (char *)s, "-c", cmd, NULL); else { fprintf(stderr, (char *)joe_gettext(_("You are at the command shell. Type 'exit' to return\n"))); execl((char *)s, (char *)s, NULL); } _exit(0); return 0; } } /* Create keyboard task */ static void mpxresume(void) { int fds[2]; pipe(fds); acceptch = NO_MORE_DATA; have = 0; if (!(kbdpid = fork())) { close(fds[1]); do { unsigned char c; int sta; pack.who = 0; sta = joe_read(fileno(termin), &c, 1); if (sta == 0) pack.ch = NO_MORE_DATA; else pack.ch = c; pack.size = 0; joe_write(mpxsfd, &pack, sizeof(struct packet) - 1024); } while (joe_read(fds[0], &pack, 1) == 1); _exit(0); } close(fds[0]); ackkbd = fds[1]; } /* Kill keyboard task */ static void mpxsusp(void) { if (ackkbd!=-1) { kill(kbdpid, 9); while (wait(NULL) < 0 && errno == EINTR) /* do nothing */; close(ackkbd); } } /* We used to leave the keyboard copy task around during suspend, but Cygwin gets confused when two processes are waiting for input and you change the tty from raw to cooked (on the call to ttopnn()): the keyboard process was stuck in cooked until he got a carriage return- then he switched back to raw (he's supposed to switch to raw without waiting for the end of line). Probably this should be done for ttshell() as well. */ void ttsusp(void) { int omode; #ifdef SIGTSTP omode = ttymode; mpxsusp(); ttclsn(); fprintf(stderr, (char *)joe_gettext(_("You have suspended the program. Type 'fg' to return\n"))); kill(0, SIGTSTP); #ifdef junk /* Hmmm... this should not have been necessary */ if (ackkbd != -1) kill(kbdpid, SIGCONT); #endif if (omode) ttopnn(); if (ackkbd!= -1) mpxresume(); #else ttshell(NULL); #endif } /* Stuff for asynchronous I/O multiplexing. We do not use streams or select() because joe needs to work on versions of UNIX which predate these calls. Instead, when there is multiple async sources, we use helper processes which packetize data from the sources. A header on each packet indicates the source. There is no guarentee that packets getting written to the same pipe don't get interleaved, but you can reasonable rely on it with small packets. */ static void mpxstart(void) { int fds[2]; pipe(fds); mpxfd = fds[0]; mpxsfd = fds[1]; mpxresume(); } static void mpxend(void) { mpxsusp(); ackkbd = -1; close(mpxfd); close(mpxsfd); if (have) havec = pack.ch; } /* Get a pty/tty pair. Returns open pty in 'ptyfd' and returns tty name * string in static buffer or NULL if couldn't get a pair. */ #ifdef __svr4__ #define USEPTMX 1 #else #ifdef __CYGWIN__ #define USEPTMX 1 #endif #endif #ifdef sgi /* Newer sgi machines can do it the __svr4__ way, but old ones can't */ extern char *_getpty(); static unsigned char *getpty(int *ptyfd) { return (unsigned char *)_getpty(ptyfd, O_RDWR, 0600, 0); } #else #ifdef USEPTMX /* Strange streams way */ extern char *ptsname(); static unsigned char *getpty(int *ptyfd) { int fdm; *ptyfd = fdm = open("/dev/ptmx", O_RDWR); grantpt(fdm); unlockpt(fdm); return (unsigned char *)ptsname(fdm); } #else #ifdef HAVE_OPENPTY /* BSD function, present in libc5 and glibc2 */ static unsigned char *getpty(int *ptyfd) { static unsigned char name[32]; int ttyfd; if (openpty(ptyfd, &ttyfd, (char *)name, NULL, NULL) == 0) return(name); else return (NULL); } #else /* The normal way: for each possible pty/tty pair, try to open the pty and * then the corresponding tty. If both could be opened, close them both and * then re-open the pty. If that succeeded, return with the opened pty and the * name of the tty. * * Logically you should only have to succeed in opening the pty- but the * permissions may be set wrong on the tty, so we have to try that too. * We close them both and re-open the pty because we want the forked process * to open the tty- that way it gets to be the controlling tty for that * process and the process gets to be the session leader. */ static unsigned char *getpty(int *ptyfd) { int x, fd; unsigned char *orgpwd = pwd(); static unsigned char **ptys = NULL; static unsigned char *ttydir; static unsigned char *ptydir; static unsigned char ttyname[32]; if (!ptys) { ttydir = USTR "/dev/pty/"; ptydir = USTR "/dev/ptym/"; /* HPUX systems */ if (chpwd(ptydir) || !(ptys = rexpnd(USTR "pty*"))) if (!ptys) { ttydir = ptydir = USTR "/dev/"; /* Everyone else */ if (!chpwd(ptydir)) ptys = rexpnd(USTR "pty*"); } } chpwd(orgpwd); if (ptys) for (fd = 0; ptys[fd]; ++fd) { zcpy(ttyname, ptydir); zcat(ttyname, ptys[fd]); if ((*ptyfd = open((char *)ttyname, O_RDWR)) >= 0) { ptys[fd][0] = 't'; zcpy(ttyname, ttydir); zcat(ttyname, ptys[fd]); ptys[fd][0] = 'p'; x = open((char *)ttyname, O_RDWR); if (x >= 0) { close(x); close(*ptyfd); zcpy(ttyname, ptydir); zcat(ttyname, ptys[fd]); *ptyfd = open((char *)ttyname, O_RDWR); ptys[fd][0] = 't'; zcpy(ttyname, ttydir); zcat(ttyname, ptys[fd]); ptys[fd][0] = 'p'; return ttyname; } else close(*ptyfd); } } return NULL; } #endif #endif #endif /* Shell dies signal handler. Puts pty in non-block mode so * that read returns with <1 when all data from process has * been read. */ int dead = 0; int death_fd; static RETSIGTYPE death(int unused) { fcntl(death_fd,F_SETFL,O_NDELAY); wait(NULL); dead = 1; } #ifndef SIGCHLD #define SIGCHLD SIGCLD #endif /* Build a new environment, but replace one variable */ static unsigned char **newenv(unsigned char **old, unsigned char *s) { unsigned char **new; int x, y, z; for (x = 0; old[x]; ++x) ; new = (unsigned char **) joe_malloc((x + 2) * sizeof(unsigned char *)); for (x = 0, y = 0; old[x]; ++x) { for (z = 0; s[z] != '='; ++z) if (s[z] != old[x][z]) break; if (s[z] == '=') { if (s[z + 1]) new[y++] = s; } else new[y++] = old[x]; } if (x == y) new[y++] = s; new[y] = 0; return new; } /* Create a shell process */ /* If out_only is set, leave program's stdin attached to JOE's stdin */ MPX *mpxmk(int *ptyfd, unsigned char *cmd, unsigned char **args, void (*func) (/* ??? */), void *object, void (*die) (/* ??? */), void *dieobj, int out_only) { unsigned char buf[80]; int fds[2]; int comm[2]; pid_t pid; int x; MPX *m = 0; unsigned char *name; /* Get pty/tty pair */ if (!(name = getpty(ptyfd))) return NULL; /* Find free slot */ for (x = 0; x != NPROC; ++x) if (!asyncs[x].func) { m = asyncs + x; break; } if (x==NPROC) return NULL; /* Fixes cygwin console bug: if you fork() with inverse video he assumes you want * ESC [ 0 m to keep it in inverse video from then on. */ set_attr(maint->t,0); /* Flush output */ ttflsh(); /* Bump no. current async inputs to joe */ ++nmpx; /* Start input multiplexer */ if (ackkbd == -1) mpxstart(); /* Remember callback function */ m->func = func; m->object = object; m->die = die; m->dieobj = dieobj; /* Acknowledgement pipe */ pipe(fds); m->ackfd = fds[1]; /* PID number pipe */ pipe(comm); /* Create processes... */ if (!(m->kpid = fork())) { /* This process copies data from shell to joe */ /* After each packet it sends to joe it waits for an acknowledgement from joe so that it can not get too far ahead with buffering */ /* Close joe side of pipes */ close(fds[1]); close(comm[0]); /* Flag which indicates child died */ dead = 0; death_fd = *ptyfd; joe_set_signal(SIGCHLD, death); if (!(pid = fork())) { /* This process becomes the shell */ signrm(); /* Close pty (we only need tty) */ close(*ptyfd); /* All of this stuff is for disassociating ourself from controlling tty (session leader) and starting a new session. This is the most non-portable part of UNIX- second only to pty/tty pair creation. */ #ifndef HAVE_LOGIN_TTY #ifdef TIOCNOTTY x = open("/dev/tty", O_RDWR); joe_ioctl(x, TIOCNOTTY, 0); #endif setsid(); /* I think you do setprgp(0,0) on systems with no setsid() */ #ifndef SETPGRP_VOID setpgrp(0, 0); #else setpgrp(); #endif #endif /* Close all fds */ for (x = (out_only ? 1 : 0); x != 32; ++x) close(x); /* Yes, this is quite a kludge... all in the name of portability */ /* Open the TTY */ if ((x = open((char *)name, O_RDWR)) != -1) { /* Standard input */ unsigned char **env = newenv(mainenv, USTR "TERM="); if (!out_only) { #ifdef HAVE_LOGIN_TTY login_tty(x); #else /* This tells the fd that it's a tty (I think) */ #ifdef __svr4__ joe_ioctl(x, I_PUSH, "ptem"); joe_ioctl(x, I_PUSH, "ldterm"); #endif /* Open stdout, stderr */ dup(x); dup(x); /* Standard output, standard error */ /* (yes, stdin, stdout, and stderr must all be open for reading and * writing. On some systems the shell assumes this */ #endif #ifdef HAVE_POSIX_TERMIOS tcsetattr(0, TCSADRAIN, &oldterm); #else #ifdef HAVE_SYSV_TERMIO joe_ioctl(0, TCSETAW, &oldterm); #else joe_ioctl(0, TIOCSETN, &oarg); joe_ioctl(0, TIOCSETC, &otarg); joe_ioctl(0, TIOCSLTC, &oltarg); #endif #endif /* We could probably have a special TTY set-up for JOE, but for now * we'll just use the TTY setup for the TTY was was run on */ /* Execute the shell */ execve((char *)cmd, (char **)args, (char **)env); /* If shell didn't execute */ joe_snprintf_1(buf,sizeof(buf),joe_gettext(_("Couldn't execute shell '%s'\n")),cmd); write(1,(char *)buf,zlen(buf)); sleep(1); } else { unsigned char buf[1024]; int len; dup(x); /* Standard error */ for (;;) { len = read(0, buf, sizeof(buf)); if (len > 0) write(1, buf, len); else break; } } } _exit(0); } /* Tell JOE PID of shell */ joe_write(comm[1], &pid, sizeof(pid)); /* sigpipe should be ignored here. */ /* This process copies data from shell to JOE until EOF. It creates a packet for each data */ /* We don't really get EOF from a pty- it would just wait forever until someone else writes to the tty. So: when the shell dies, the child died signal handler death() puts pty in non-block mode. This allows us to read any remaining data- then read returns 0 and we know we're done. */ loop: pack.who = m; pack.ch = 0; /* Read data from process */ pack.size = joe_read(*ptyfd, pack.data, 1024); /* On SUNOS 5.8, the very first read from the pty returns 0 for some reason */ if (!pack.size) pack.size = joe_read(*ptyfd, pack.data, 1024); if (pack.size > 0) { /* Send data to JOE, wait for ack */ joe_write(mpxsfd, &pack, sizeof(struct packet) - 1024 + pack.size); joe_read(fds[0], &pack, 1); goto loop; } else { /* Shell died: return */ pack.ch = NO_MORE_DATA; pack.size = 0; joe_write(mpxsfd, &pack, sizeof(struct packet) - 1024); _exit(0); } } joe_read(comm[0], &m->pid, sizeof(m->pid)); /* We only need comm once */ close(comm[0]); close(comm[1]); /* Close other side of copy process pipe */ close(fds[0]); return m; } void mpxdied(MPX *m) { if (!--nmpx) mpxend(); while (wait(NULL) < 0 && errno == EINTR) /* do nothing */; if (m->die) m->die(m->dieobj); m->func = NULL; edupd(1); }