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Current File : //compat/linux/proc/68247/cwd/usr/src/contrib/cvs/src/run.c |
/* run.c --- routines for executing subprocesses. This file is part of GNU CVS. GNU CVS is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program 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 General Public License for more details. */ #include "cvs.h" #ifndef HAVE_UNISTD_H extern int execvp PROTO((char *file, char **argv)); #endif static void run_add_arg PROTO((const char *s)); extern char *strtok (); /* * To exec a program under CVS, first call run_setup() to setup initial * arguments. The argument to run_setup will be parsed into whitespace * separated words and added to the global run_argv list. * * Then, optionally call run_arg() for each additional argument that you'd like * to pass to the executed program. * * Finally, call run_exec() to execute the program with the specified arguments. * The execvp() syscall will be used, so that the PATH is searched correctly. * File redirections can be performed in the call to run_exec(). */ static char **run_argv; static int run_argc; static size_t run_argc_allocated; void run_arg_free_p (int argc, char **argv) { int i; for (i = 0; i < argc; i++) free (argv[i]); } /* VARARGS */ void run_setup (prog) const char *prog; { char *cp; char *run_prog; /* clean out any malloc'ed values from run_argv */ run_arg_free_p (run_argc, run_argv); run_argc = 0; run_prog = xstrdup (prog); /* put each word into run_argv, allocating it as we go */ for (cp = strtok (run_prog, " \t"); cp; cp = strtok ((char *) NULL, " \t")) run_add_arg (cp); free (run_prog); } void run_arg (s) const char *s; { run_add_arg (s); } void run_add_arg_p (iargc, iarg_allocated, iargv, s) int *iargc; size_t *iarg_allocated; char ***iargv; const char *s; { /* allocate more argv entries if we've run out */ if (*iargc >= *iarg_allocated) { *iarg_allocated += 50; *iargv = xrealloc (*iargv, *iarg_allocated * sizeof (char **)); } if (s) (*iargv)[(*iargc)++] = xstrdup (s); else (*iargv)[*iargc] = NULL; /* not post-incremented on purpose! */ } static void run_add_arg (s) const char *s; { run_add_arg_p (&run_argc, &run_argc_allocated, &run_argv, s); } int run_exec (stin, stout, sterr, flags) const char *stin; const char *stout; const char *sterr; int flags; { int shin, shout, sherr; int mode_out, mode_err; int status; int rc = -1; int rerrno = 0; int pid, w; #ifdef POSIX_SIGNALS sigset_t sigset_mask, sigset_omask; struct sigaction act, iact, qact; #else #ifdef BSD_SIGNALS int mask; struct sigvec vec, ivec, qvec; #else RETSIGTYPE (*istat) (), (*qstat) (); #endif #endif if (trace) { #ifdef SERVER_SUPPORT cvs_outerr (server_active ? "S" : " ", 1); #endif cvs_outerr ("-> system(", 0); run_print (stderr); cvs_outerr (")\n", 0); } if (noexec && (flags & RUN_REALLY) == 0) return 0; /* make sure that we are null terminated, since we didn't calloc */ run_add_arg ((char *)0); /* setup default file descriptor numbers */ shin = 0; shout = 1; sherr = 2; /* set the file modes for stdout and stderr */ mode_out = mode_err = O_WRONLY | O_CREAT; mode_out |= ((flags & RUN_STDOUT_APPEND) ? O_APPEND : O_TRUNC); mode_err |= ((flags & RUN_STDERR_APPEND) ? O_APPEND : O_TRUNC); if (stin && (shin = open (stin, O_RDONLY)) == -1) { rerrno = errno; error (0, errno, "cannot open %s for reading (prog %s)", stin, run_argv[0]); goto out0; } if (stout && (shout = open (stout, mode_out, 0666)) == -1) { rerrno = errno; error (0, errno, "cannot open %s for writing (prog %s)", stout, run_argv[0]); goto out1; } if (sterr && (flags & RUN_COMBINED) == 0) { if ((sherr = open (sterr, mode_err, 0666)) == -1) { rerrno = errno; error (0, errno, "cannot open %s for writing (prog %s)", sterr, run_argv[0]); goto out2; } } /* Make sure we don't flush this twice, once in the subprocess. */ cvs_flushout(); cvs_flusherr(); /* The output files, if any, are now created. Do the fork and dups. We use vfork not so much for a performance boost (the performance boost, if any, is modest on most modern unices), but for the sake of systems without a memory management unit, which find it difficult or impossible to implement fork at all (e.g. Amiga). The other solution is spawn (see windows-NT/run.c). */ #ifdef HAVE_VFORK pid = vfork (); #else pid = fork (); #endif if (pid == 0) { if (shin != 0) { (void) dup2 (shin, 0); (void) close (shin); } if (shout != 1) { (void) dup2 (shout, 1); (void) close (shout); } if (flags & RUN_COMBINED) (void) dup2 (1, 2); else if (sherr != 2) { (void) dup2 (sherr, 2); (void) close (sherr); } #ifdef SETXID_SUPPORT /* ** This prevents a user from creating a privileged shell ** from the text editor when the SETXID_SUPPORT option is selected. */ if (!strcmp (run_argv[0], Editor) && setegid (getgid ())) { error (0, errno, "cannot set egid to gid"); _exit (127); } #endif /* dup'ing is done. try to run it now */ (void) execvp (run_argv[0], run_argv); error (0, errno, "cannot exec %s", run_argv[0]); _exit (127); } else if (pid == -1) { rerrno = errno; goto out; } /* the parent. Ignore some signals for now */ #ifdef POSIX_SIGNALS if (flags & RUN_SIGIGNORE) { act.sa_handler = SIG_IGN; (void) sigemptyset (&act.sa_mask); act.sa_flags = 0; (void) sigaction (SIGINT, &act, &iact); (void) sigaction (SIGQUIT, &act, &qact); } else { (void) sigemptyset (&sigset_mask); (void) sigaddset (&sigset_mask, SIGINT); (void) sigaddset (&sigset_mask, SIGQUIT); (void) sigprocmask (SIG_SETMASK, &sigset_mask, &sigset_omask); } #else #ifdef BSD_SIGNALS if (flags & RUN_SIGIGNORE) { memset ((char *)&vec, 0, sizeof (vec)); vec.sv_handler = SIG_IGN; (void) sigvec (SIGINT, &vec, &ivec); (void) sigvec (SIGQUIT, &vec, &qvec); } else mask = sigblock (sigmask (SIGINT) | sigmask (SIGQUIT)); #else istat = signal (SIGINT, SIG_IGN); qstat = signal (SIGQUIT, SIG_IGN); #endif #endif /* wait for our process to die and munge return status */ #ifdef POSIX_SIGNALS while ((w = waitpid (pid, &status, 0)) == -1 && errno == EINTR) ; #else while ((w = wait (&status)) != pid) { if (w == -1 && errno != EINTR) break; } #endif if (w == -1) { rc = -1; rerrno = errno; } #ifndef VMS /* status is return status */ else if (WIFEXITED (status)) rc = WEXITSTATUS (status); else if (WIFSIGNALED (status)) { if (WTERMSIG (status) == SIGPIPE) error (1, 0, "broken pipe"); rc = 2; } else rc = 1; #else /* VMS */ rc = WEXITSTATUS (status); #endif /* VMS */ /* restore the signals */ #ifdef POSIX_SIGNALS if (flags & RUN_SIGIGNORE) { (void) sigaction (SIGINT, &iact, (struct sigaction *)NULL); (void) sigaction (SIGQUIT, &qact, (struct sigaction *)NULL); } else (void) sigprocmask (SIG_SETMASK, &sigset_omask, (sigset_t *)NULL); #else #ifdef BSD_SIGNALS if (flags & RUN_SIGIGNORE) { (void) sigvec (SIGINT, &ivec, (struct sigvec *)NULL); (void) sigvec (SIGQUIT, &qvec, (struct sigvec *)NULL); } else (void) sigsetmask (mask); #else (void) signal (SIGINT, istat); (void) signal (SIGQUIT, qstat); #endif #endif /* cleanup the open file descriptors */ out: if (sterr) (void) close (sherr); else /* ensure things are received by the parent in the correct order * relative to the protocol pipe */ cvs_flusherr(); out2: if (stout) (void) close (shout); else /* ensure things are received by the parent in the correct order * relative to the protocol pipe */ cvs_flushout(); out1: if (stin) (void) close (shin); out0: if (rerrno) errno = rerrno; return rc; } void run_print (fp) FILE *fp; { int i; void (*outfn) PROTO ((const char *, size_t)); if (fp == stderr) outfn = cvs_outerr; else if (fp == stdout) outfn = cvs_output; else { error (1, 0, "internal error: bad argument to run_print"); /* Solely to placate gcc -Wall. FIXME: it'd be better to use a function named `fatal' that is known never to return. Then kludges wouldn't be necessary. */ outfn = NULL; } for (i = 0; i < run_argc; i++) { (*outfn) ("'", 1); (*outfn) (run_argv[i], 0); (*outfn) ("'", 1); if (i != run_argc - 1) (*outfn) (" ", 1); } } /* Return value is NULL for error, or if noexec was set. If there was an error, return NULL and I'm not sure whether errno was set (the Red Hat Linux 4.1 popen manpage was kind of vague but discouraging; and the noexec case complicates this even aside from popen behavior). */ FILE * run_popen (cmd, mode) const char *cmd; const char *mode; { if (trace) (void) fprintf (stderr, "%s-> run_popen(%s,%s)\n", CLIENT_SERVER_STR, cmd, mode); if (noexec) return (NULL); return (popen (cmd, mode)); } /* Work around an OpenSSH problem: it can put its standard file descriptors into nonblocking mode, which will mess us up if we share file descriptions with it. The simplest workaround is to create an intervening process between OpenSSH and the actual stderr. */ static void work_around_openssh_glitch (void) { pid_t pid; int stderr_pipe[2]; struct stat sb; /* Do nothing unless stderr is a file that is affected by nonblocking mode. */ if (!(fstat (STDERR_FILENO, &sb) == 0 && (S_ISFIFO (sb.st_mode) || S_ISSOCK (sb.st_mode) || S_ISCHR (sb.st_mode) || S_ISBLK (sb.st_mode)))) return; if (pipe (stderr_pipe) < 0) error (1, errno, "cannot create pipe"); pid = fork (); if (pid < 0) error (1, errno, "cannot fork"); if (pid != 0) { /* Still in child of original process. Act like "cat -u". */ char buf[1 << 13]; ssize_t inbytes; pid_t w; int status; if (close (stderr_pipe[1]) < 0) error (1, errno, "cannot close pipe"); while ((inbytes = read (stderr_pipe[0], buf, sizeof buf)) != 0) { size_t outbytes = 0; if (inbytes < 0) { if (errno == EINTR) continue; error (1, errno, "reading from pipe"); } do { ssize_t w = write (STDERR_FILENO, buf + outbytes, inbytes - outbytes); if (w < 0) { if (errno == EINTR) w = 0; if (w < 0) _exit (1); } outbytes += w; } while (inbytes != outbytes); } /* Done processing output from grandchild. Propagate its exit status back to the parent. */ while ((w = waitpid (pid, &status, 0)) == -1 && errno == EINTR) continue; if (w < 0) error (1, errno, "waiting for child"); if (!WIFEXITED (status)) { if (WIFSIGNALED (status)) raise (WTERMSIG (status)); error (1, errno, "child did not exit cleanly"); } _exit (WEXITSTATUS (status)); } /* Grandchild of original process. */ if (close (stderr_pipe[0]) < 0) error (1, errno, "cannot close pipe"); if (stderr_pipe[1] != STDERR_FILENO) { if (dup2 (stderr_pipe[1], STDERR_FILENO) < 0) error (1, errno, "cannot dup2 pipe"); if (close (stderr_pipe[1]) < 0) error (1, errno, "cannot close pipe"); } } int piped_child (command, tofdp, fromfdp, fix_stderr) const char **command; int *tofdp; int *fromfdp; int fix_stderr; { int pid; int to_child_pipe[2]; int from_child_pipe[2]; if (pipe (to_child_pipe) < 0) error (1, errno, "cannot create pipe"); if (pipe (from_child_pipe) < 0) error (1, errno, "cannot create pipe"); #ifdef USE_SETMODE_BINARY setmode (to_child_pipe[0], O_BINARY); setmode (to_child_pipe[1], O_BINARY); setmode (from_child_pipe[0], O_BINARY); setmode (from_child_pipe[1], O_BINARY); #endif pid = fork (); if (pid < 0) error (1, errno, "cannot fork"); if (pid == 0) { if (dup2 (to_child_pipe[0], STDIN_FILENO) < 0) error (1, errno, "cannot dup2 pipe"); if (close (to_child_pipe[1]) < 0) error (1, errno, "cannot close pipe"); if (close (from_child_pipe[0]) < 0) error (1, errno, "cannot close pipe"); if (dup2 (from_child_pipe[1], STDOUT_FILENO) < 0) error (1, errno, "cannot dup2 pipe"); if (fix_stderr) work_around_openssh_glitch (); /* Okay to cast out const below - execvp don't return nohow. */ execvp ((char *)command[0], (char **)command); error (1, errno, "cannot exec %s", command[0]); } if (close (to_child_pipe[0]) < 0) error (1, errno, "cannot close pipe"); if (close (from_child_pipe[1]) < 0) error (1, errno, "cannot close pipe"); *tofdp = to_child_pipe[1]; *fromfdp = from_child_pipe[0]; return pid; } void close_on_exec (fd) int fd; { #ifdef F_SETFD if (fcntl (fd, F_SETFD, 1) == -1) error (1, errno, "can't set close-on-exec flag on %d", fd); #endif }