libiberty/pexecute.c - gcc - Git at Google

 /* Utilities to execute a program in a subprocess (possibly linked by pipes
    with other subprocesses), and wait for it.
    Copyright (C) 1996, 1997 Free Software Foundation, Inc.

 This file is part of the libiberty library.
 Libiberty 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.

 Libiberty 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 libiberty; see the file COPYING.LIB.  If not,
 write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
 Boston, MA 02111-1307, USA.  */

 /* This file exports two functions: pexecute and pwait.  */

 /* This file lives in at least two places: libiberty and gcc.
    Don't change one without the other.  */

 #ifdef IN_GCC
 #include "config.h"
 #endif

 #include <stdio.h>
 #include <errno.h>

 #ifdef IN_GCC
 #include "gansidecl.h"
 /* ??? Need to find a suitable header file.  */
 #define PEXECUTE_FIRST   1
 #define PEXECUTE_LAST    2
 #define PEXECUTE_ONE     (PEXECUTE_FIRST + PEXECUTE_LAST)
 #define PEXECUTE_SEARCH  4
 #define PEXECUTE_VERBOSE 8
 #else
 #include "libiberty.h"
 #endif

 /* stdin file number.  */
 #define STDIN_FILE_NO 0

 /* stdout file number.  */
 #define STDOUT_FILE_NO 1

 /* value of `pipe': port index for reading.  */
 #define READ_PORT 0

 /* value of `pipe': port index for writing.  */
 #define WRITE_PORT 1

 static char *install_error_msg = "installation problem, cannot exec `%s'";

 /* pexecute: execute a program.

    PROGRAM and ARGV are the arguments to execv/execvp.

    THIS_PNAME is name of the calling program (i.e. argv[0]).

    TEMP_BASE is the path name, sans suffix, of a temporary file to use
    if needed.  This is currently only needed for MSDOS ports that don't use
    GO32 (do any still exist?).  Ports that don't need it can pass NULL.

    (FLAGS & PEXECUTE_SEARCH) is non-zero if $PATH should be searched
    (??? It's not clear that GCC passes this flag correctly).
    (FLAGS & PEXECUTE_FIRST) is nonzero for the first process in chain.
    (FLAGS & PEXECUTE_FIRST) is nonzero for the last process in chain.
    FIRST_LAST could be simplified to only mark the last of a chain of processes
    but that requires the caller to always mark the last one (and not give up
    early if some error occurs).  It's more robust to require the caller to
    mark both ends of the chain.

    The result is the pid on systems like Unix where we fork/exec and on systems
    like WIN32 and OS2 where we use spawn.  It is up to the caller to wait for
    the child.

    The result is the WEXITSTATUS on systems like MSDOS where we spawn and wait
    for the child here.

    Upon failure, ERRMSG_FMT and ERRMSG_ARG are set to the text of the error
    message with an optional argument (if not needed, ERRMSG_ARG is set to
    NULL), and -1 is returned.  `errno' is available to the caller to use.

    pwait: cover function for wait.

    PID is the process id of the task to wait for.
    STATUS is the `status' argument to wait.
    FLAGS is currently unused (allows future enhancement without breaking
    upward compatibility).  Pass 0 for now.

    The result is the pid of the child reaped,
    or -1 for failure (errno says why).

    On systems that don't support waiting for a particular child, PID is
    ignored.  On systems like MSDOS that don't really multitask pwait
    is just a mechanism to provide a consistent interface for the caller.

    pfinish: finish generation of script

    pfinish is necessary for systems like MPW where a script is generated that
    runs the requested programs.
 */

 #ifdef __MSDOS__

 /* MSDOS doesn't multitask, but for the sake of a consistent interface
    the code behaves like it does.  pexecute runs the program, tucks the
    exit code away, and returns a "pid".  pwait must be called to fetch the
    exit code.  */

 #include <process.h>

 /* For communicating information from pexecute to pwait.  */
 static int last_pid = 0;
 static int last_status = 0;
 static int last_reaped = 0;

 int
 pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
      const char *program;
      char * const *argv;
      const char *this_pname;
      const char *temp_base;
      char **errmsg_fmt, **errmsg_arg;
      int flags;
 {
   int rc;

   last_pid++;
   if (last_pid < 0)
     last_pid = 1;

   if ((flags & PEXECUTE_ONE) != PEXECUTE_ONE)
     abort ();

 #ifdef __GO32__
   /* ??? What are the possible return values from spawnv?  */
   rc = (flags & PEXECUTE_SEARCH ? spawnvp : spawnv) (1, program, argv);
 #else
   char *scmd, *rf;
   FILE *argfile;
   int i, el = flags & PEXECUTE_SEARCH ? 4 : 0;

   scmd = (char *) xmalloc (strlen (program) + strlen (temp_base) + 6 + el);
   rf = scmd + strlen(program) + 2 + el;
   sprintf (scmd, "%s%s @%s.gp", program,
 	   (flags & PEXECUTE_SEARCH ? ".exe" : ""), temp_base);
   argfile = fopen (rf, "w");
   if (argfile == 0)
     {
       int errno_save = errno;
       free (scmd);
       errno = errno_save;
       *errmsg_fmt = "cannot open `%s.gp'";
       *errmsg_arg = temp_base;
       return -1;
     }

   for (i=1; argv[i]; i++)
     {
       char *cp;
       for (cp = argv[i]; *cp; cp++)
 	{
 	  if (*cp == '"' || *cp == '\'' || *cp == '\\' || isspace (*cp))
 	    fputc ('\\', argfile);
 	  fputc (*cp, argfile);
 	}
       fputc ('\n', argfile);
     }
   fclose (argfile);

   rc = system (scmd);

   {
     int errno_save = errno;
     remove (rf);
     free (scmd);
     errno = errno_save;
   }
 #endif

   if (rc == -1)
     {
       *errmsg_fmt = install_error_msg;
       *errmsg_arg = program;
       return -1;
     }

   /* Tuck the status away for pwait, and return a "pid".  */
   last_status = rc << 8;
   return last_pid;
 }

 int
 pwait (pid, status, flags)
      int pid;
      int *status;
      int flags;
 {
   /* On MSDOS each pexecute must be followed by it's associated pwait.  */
   if (pid != last_pid
       /* Called twice for the same child?  */
       || pid == last_reaped)
     {
       /* ??? ECHILD would be a better choice.  Can we use it here?  */
       errno = EINVAL;
       return -1;
     }
   /* ??? Here's an opportunity to canonicalize the values in STATUS.
      Needed?  */
   *status = last_status;
   last_reaped = last_pid;
   return last_pid;
 }

 #endif /* MSDOS */

 #if defined (_WIN32)

 #include <process.h>

 #ifdef __CYGWIN32__

 #define fix_argv(argvec) (argvec)

 extern int _spawnv ();
 extern int _spawnvp ();

 int
 pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
      const char *program;
      char * const *argv;
      const char *this_pname;
      const char *temp_base;
      char **errmsg_fmt, **errmsg_arg;
      int flags;
 {
   int pid;

   if ((flags & PEXECUTE_ONE) != PEXECUTE_ONE)
     abort ();
   pid = (flags & PEXECUTE_SEARCH ? _spawnvp : _spawnv)
     (_P_NOWAIT, program, fix_argv(argv));
   if (pid == -1)
     {
       *errmsg_fmt = install_error_msg;
       *errmsg_arg = program;
       return -1;
     }
   return pid;
 }

 int
 pwait (pid, status, flags)
      int pid;
      int *status;
      int flags;
 {
   /* ??? Here's an opportunity to canonicalize the values in STATUS.
      Needed?  */
   return cwait (status, pid, WAIT_CHILD);
 }

 #else /* ! __CYGWIN32__ */

 /* This is a kludge to get around the Microsoft C spawn functions' propensity
    to remove the outermost set of double quotes from all arguments.  */

 const char * const *
 fix_argv (argvec)
      char **argvec;
 {
   int i;

   for (i = 1; argvec[i] != 0; i++)
     {
       int len, j;
       char *temp, *newtemp;

       temp = argvec[i];
       len = strlen (temp);
       for (j = 0; j < len; j++)
         {
           if (temp[j] == '"')
             {
               newtemp = xmalloc (len + 2);
               strncpy (newtemp, temp, j);
               newtemp [j] = '\\';
               strncpy (&newtemp [j+1], &temp [j], len-j);
               newtemp [len+1] = 0;
               temp = newtemp;
               len++;
               j++;
             }
         }

         argvec[i] = temp;
       }

   return (const char * const *) argvec;
 }

 #include <io.h>
 #include <fcntl.h>
 #include <signal.h>

 /* mingw32 headers may not define the following.  */

 #ifndef _P_WAIT
 #  define _P_WAIT	0
 #  define _P_NOWAIT	1
 #  define _P_OVERLAY	2
 #  define _P_NOWAITO	3
 #  define _P_DETACH	4

 #  define WAIT_CHILD	0
 #  define WAIT_GRANDCHILD	1
 #endif

 /* Win32 supports pipes */
 int
 pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
      const char *program;
      char * const *argv;
      const char *this_pname;
      const char *temp_base;
      char **errmsg_fmt, **errmsg_arg;
      int flags;
 {
   int pid;
   int pdes[2], org_stdin, org_stdout;
   int input_desc, output_desc;
   int retries, sleep_interval;

   /* Pipe waiting from last process, to be used as input for the next one.
      Value is STDIN_FILE_NO if no pipe is waiting
      (i.e. the next command is the first of a group).  */
   static int last_pipe_input;

   /* If this is the first process, initialize.  */
   if (flags & PEXECUTE_FIRST)
     last_pipe_input = STDIN_FILE_NO;

   input_desc = last_pipe_input;

   /* If this isn't the last process, make a pipe for its output,
      and record it as waiting to be the input to the next process.  */
   if (! (flags & PEXECUTE_LAST))
     {
       if (_pipe (pdes, 256, O_BINARY) < 0)
 	{
 	  *errmsg_fmt = "pipe";
 	  *errmsg_arg = NULL;
 	  return -1;
 	}
       output_desc = pdes[WRITE_PORT];
       last_pipe_input = pdes[READ_PORT];
     }
   else
     {
       /* Last process.  */
       output_desc = STDOUT_FILE_NO;
       last_pipe_input = STDIN_FILE_NO;
     }

   if (input_desc != STDIN_FILE_NO)
     {
       org_stdin = dup (STDIN_FILE_NO);
       dup2 (input_desc, STDIN_FILE_NO);
       close (input_desc);
     }

   if (output_desc != STDOUT_FILE_NO)
     {
       org_stdout = dup (STDOUT_FILE_NO);
       dup2 (output_desc, STDOUT_FILE_NO);
       close (output_desc);
     }

   pid = (flags & PEXECUTE_SEARCH ? _spawnvp : _spawnv)
     (_P_NOWAIT, program, fix_argv(argv));

   if (input_desc != STDIN_FILE_NO)
     {
       dup2 (org_stdin, STDIN_FILE_NO);
       close (org_stdin);
     }

   if (output_desc != STDOUT_FILE_NO)
     {
       dup2 (org_stdout, STDOUT_FILE_NO);
       close (org_stdout);
     }

   if (pid == -1)
     {
       *errmsg_fmt = install_error_msg;
       *errmsg_arg = program;
       return -1;
     }

   return pid;
 }

 /* MS CRTDLL doesn't return enough information in status to decide if the
    child exited due to a signal or not, rather it simply returns an
    integer with the exit code of the child; eg., if the child exited with
    an abort() call and didn't have a handler for SIGABRT, it simply returns
    with status = 3. We fix the status code to conform to the usual WIF*
    macros. Note that WIFSIGNALED will never be true under CRTDLL. */

 int
 pwait (pid, status, flags)
      int pid;
      int *status;
      int flags;
 {
   int termstat;

   pid = _cwait (&termstat, pid, WAIT_CHILD);

   /* ??? Here's an opportunity to canonicalize the values in STATUS.
      Needed?  */

   /* cwait returns the child process exit code in termstat.
      A value of 3 indicates that the child caught a signal, but not
      which one.  Since only SIGABRT, SIGFPE and SIGINT do anything, we
      report SIGABRT.  */
   if (termstat == 3)
     *status = SIGABRT;
   else
     *status = (((termstat) & 0xff) << 8);

   return pid;
 }

 #endif /* ! defined (__CYGWIN32__) */

 #endif /* _WIN32 */

 #ifdef OS2

 /* ??? Does OS2 have process.h?  */
 extern int spawnv ();
 extern int spawnvp ();

 int
 pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
      const char *program;
      char * const *argv;
      const char *this_pname;
      const char *temp_base;
      char **errmsg_fmt, **errmsg_arg;
      int flags;
 {
   int pid;

   if ((flags & PEXECUTE_ONE) != PEXECUTE_ONE)
     abort ();
   /* ??? Presumably 1 == _P_NOWAIT.  */
   pid = (flags & PEXECUTE_SEARCH ? spawnvp : spawnv) (1, program, argv);
   if (pid == -1)
     {
       *errmsg_fmt = install_error_msg;
       *errmsg_arg = program;
       return -1;
     }
   return pid;
 }

 int
 pwait (pid, status, flags)
      int pid;
      int *status;
      int flags;
 {
   /* ??? Here's an opportunity to canonicalize the values in STATUS.
      Needed?  */
   int pid = wait (status);
   return pid;
 }

 #endif /* OS2 */

 #ifdef MPW

 /* MPW pexecute doesn't actually run anything; instead, it writes out
    script commands that, when run, will do the actual executing.

    For example, in GCC's case, GCC will write out several script commands:

    cpp ...
    cc1 ...
    as ...
    ld ...

    and then exit.  None of the above programs will have run yet.  The task
    that called GCC will then execute the script and cause cpp,etc. to run.
    The caller must invoke pfinish before calling exit.  This adds
    the finishing touches to the generated script.  */

 static int first_time = 1;

 int
 pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
      const char *program;
      char **argv;
      const char *this_pname;
      const char *temp_base;
      char **errmsg_fmt, **errmsg_arg;
      int flags;
 {
   char tmpprogram[255];
   char *cp, *tmpname;
   int i;

   mpwify_filename (program, tmpprogram);
   if (first_time)
     {
       printf ("Set Failed 0\n");
       first_time = 0;
     }

   fputs ("If {Failed} == 0\n", stdout);
   /* If being verbose, output a copy of the command.  It should be
      accurate enough and escaped enough to be "clickable".  */
   if (flags & PEXECUTE_VERBOSE)
     {
       fputs ("\tEcho ", stdout);
       fputc ('\'', stdout);
       fputs (tmpprogram, stdout);
       fputc ('\'', stdout);
       fputc (' ', stdout);
       for (i=1; argv[i]; i++)
 	{
 	  /* We have to quote every arg, so that when the echo is
 	     executed, the quotes are stripped and the original arg
 	     is left. */
 	  fputc ('\'', stdout);
 	  for (cp = argv[i]; *cp; cp++)
 	    {
 	      /* Write an Option-d esc char in front of special chars.  */
 	      if (strchr ("\"'+", *cp))
 		fputc ('\266', stdout);
 	      fputc (*cp, stdout);
 	    }
 	  fputc ('\'', stdout);
 	  fputc (' ', stdout);
 	}
       fputs ("\n", stdout);
     }
   fputs ("\t", stdout);
   fputs (tmpprogram, stdout);
   fputc (' ', stdout);

   for (i=1; argv[i]; i++)
     {
       if (strchr (argv[i], ' '))
 	fputc ('\'', stdout);
       for (cp = argv[i]; *cp; cp++)
 	{
 	  /* Write an Option-d esc char in front of special chars.  */
 	  if (strchr ("\"'+", *cp))
 	    {
 	      fputc ('\266', stdout);
 	    }
 	  fputc (*cp, stdout);
 	}
       if (strchr (argv[i], ' '))
 	fputc ('\'', stdout);
       fputc (' ', stdout);
     }

   fputs ("\n", stdout);

   /* Output commands that arrange to clean up and exit if a failure occurs.
      We have to be careful to collect the status from the program that was
      run, rather than some other script command.  Also, we don't exit
      immediately, since necessary cleanups are at the end of the script.  */
   fputs ("\tSet TmpStatus {Status}\n", stdout);
   fputs ("\tIf {TmpStatus} != 0\n", stdout);
   fputs ("\t\tSet Failed {TmpStatus}\n", stdout);
   fputs ("\tEnd\n", stdout);
   fputs ("End\n", stdout);

   /* We're just composing a script, can't fail here.  */
   return 0;
 }

 int
 pwait (pid, status, flags)
      int pid;
      int *status;
      int flags;
 {
   *status = 0;
   return 0;
 }

 /* Write out commands that will exit with the correct error code
    if something in the script failed.  */

 void
 pfinish ()
 {
   printf ("\tExit \"{Failed}\"\n");
 }

 #endif /* MPW */

 /* include for Unix-like environments but not for Dos-like environments */
 #if ! defined (__MSDOS__) && ! defined (OS2) && ! defined (MPW) \
     && ! defined (_WIN32)

 #ifdef VMS
 #define vfork() (decc$$alloc_vfork_blocks() >= 0 ? \
                lib$get_current_invo_context(decc$$get_vfork_jmpbuf()) : -1)
 #else
 #ifdef USG
 #define vfork fork
 #endif
 #endif

 extern int execv ();
 extern int execvp ();

 int
 pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
      const char *program;
      char * const *argv;
      const char *this_pname;
      const char *temp_base;
      char **errmsg_fmt, **errmsg_arg;
      int flags;
 {
   int (*func)() = (flags & PEXECUTE_SEARCH ? execvp : execv);
   int pid;
   int pdes[2];
   int input_desc, output_desc;
   int retries, sleep_interval;
   /* Pipe waiting from last process, to be used as input for the next one.
      Value is STDIN_FILE_NO if no pipe is waiting
      (i.e. the next command is the first of a group).  */
   static int last_pipe_input;

   /* If this is the first process, initialize.  */
   if (flags & PEXECUTE_FIRST)
     last_pipe_input = STDIN_FILE_NO;

   input_desc = last_pipe_input;

   /* If this isn't the last process, make a pipe for its output,
      and record it as waiting to be the input to the next process.  */
   if (! (flags & PEXECUTE_LAST))
     {
       if (pipe (pdes) < 0)
 	{
 	  *errmsg_fmt = "pipe";
 	  *errmsg_arg = NULL;
 	  return -1;
 	}
       output_desc = pdes[WRITE_PORT];
       last_pipe_input = pdes[READ_PORT];
     }
   else
     {
       /* Last process.  */
       output_desc = STDOUT_FILE_NO;
       last_pipe_input = STDIN_FILE_NO;
     }

   /* Fork a subprocess; wait and retry if it fails.  */
   sleep_interval = 1;
   for (retries = 0; retries < 4; retries++)
     {
       pid = vfork ();
       if (pid >= 0)
 	break;
       sleep (sleep_interval);
       sleep_interval *= 2;
     }

   switch (pid)
     {
     case -1:
       {
 #ifdef vfork
 	*errmsg_fmt = "fork";
 #else
 	*errmsg_fmt = "vfork";
 #endif
 	*errmsg_arg = NULL;
 	return -1;
       }

     case 0: /* child */
       /* Move the input and output pipes into place, if necessary.  */
       if (input_desc != STDIN_FILE_NO)
 	{
 	  close (STDIN_FILE_NO);
 	  dup (input_desc);
 	  close (input_desc);
 	}
       if (output_desc != STDOUT_FILE_NO)
 	{
 	  close (STDOUT_FILE_NO);
 	  dup (output_desc);
 	  close (output_desc);
 	}

       /* Close the parent's descs that aren't wanted here.  */
       if (last_pipe_input != STDIN_FILE_NO)
 	close (last_pipe_input);

       /* Exec the program.  */
       (*func) (program, argv);

       /* Note: Calling fprintf and exit here doesn't seem right for vfork.  */
       fprintf (stderr, "%s: ", this_pname);
       fprintf (stderr, install_error_msg, program);
 #ifdef IN_GCC
       fprintf (stderr, ": %s\n", my_strerror (errno));
 #else
       fprintf (stderr, ": %s\n", xstrerror (errno));
 #endif
       exit (-1);
       /* NOTREACHED */
       return 0;

     default:
       /* In the parent, after forking.
 	 Close the descriptors that we made for this child.  */
       if (input_desc != STDIN_FILE_NO)
 	close (input_desc);
       if (output_desc != STDOUT_FILE_NO)
 	close (output_desc);

       /* Return child's process number.  */
       return pid;
     }
 }

 int
 pwait (pid, status, flags)
      int pid;
      int *status;
      int flags;
 {
   /* ??? Here's an opportunity to canonicalize the values in STATUS.
      Needed?  */
 #ifdef VMS
   pid = waitpid (-1, status, 0);
 #else
   pid = wait (status);
 #endif
   return pid;
 }

 #endif /* ! __MSDOS__ && ! OS2 && ! MPW && ! _WIN32 */
	/* Utilities to execute a program in a subprocess (possibly linked by pipes
	with other subprocesses), and wait for it.
	Copyright (C) 1996, 1997 Free Software Foundation, Inc.

	This file is part of the libiberty library.
	Libiberty 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.

	Libiberty 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 libiberty; see the file COPYING.LIB. If not,
	write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
	Boston, MA 02111-1307, USA. */

	/* This file exports two functions: pexecute and pwait. */

	/* This file lives in at least two places: libiberty and gcc.
	Don't change one without the other. */

	#ifdef IN_GCC
	#include "config.h"
	#endif

	#include <stdio.h>
	#include <errno.h>

	#ifdef IN_GCC
	#include "gansidecl.h"
	/* ??? Need to find a suitable header file. */
	#define PEXECUTE_FIRST 1
	#define PEXECUTE_LAST 2
	#define PEXECUTE_ONE (PEXECUTE_FIRST + PEXECUTE_LAST)
	#define PEXECUTE_SEARCH 4
	#define PEXECUTE_VERBOSE 8
	#else
	#include "libiberty.h"
	#endif

	/* stdin file number. */
	#define STDIN_FILE_NO 0

	/* stdout file number. */
	#define STDOUT_FILE_NO 1

	/* value of `pipe': port index for reading. */
	#define READ_PORT 0

	/* value of `pipe': port index for writing. */
	#define WRITE_PORT 1

	static char *install_error_msg = "installation problem, cannot exec `%s'";

	/* pexecute: execute a program.

	PROGRAM and ARGV are the arguments to execv/execvp.

	THIS_PNAME is name of the calling program (i.e. argv[0]).

	TEMP_BASE is the path name, sans suffix, of a temporary file to use
	if needed. This is currently only needed for MSDOS ports that don't use
	GO32 (do any still exist?). Ports that don't need it can pass NULL.

	(FLAGS & PEXECUTE_SEARCH) is non-zero if $PATH should be searched
	(??? It's not clear that GCC passes this flag correctly).
	(FLAGS & PEXECUTE_FIRST) is nonzero for the first process in chain.
	(FLAGS & PEXECUTE_FIRST) is nonzero for the last process in chain.
	FIRST_LAST could be simplified to only mark the last of a chain of processes
	but that requires the caller to always mark the last one (and not give up
	early if some error occurs). It's more robust to require the caller to
	mark both ends of the chain.

	The result is the pid on systems like Unix where we fork/exec and on systems
	like WIN32 and OS2 where we use spawn. It is up to the caller to wait for
	the child.

	The result is the WEXITSTATUS on systems like MSDOS where we spawn and wait
	for the child here.

	Upon failure, ERRMSG_FMT and ERRMSG_ARG are set to the text of the error
	message with an optional argument (if not needed, ERRMSG_ARG is set to
	NULL), and -1 is returned. `errno' is available to the caller to use.

	pwait: cover function for wait.

	PID is the process id of the task to wait for.
	STATUS is the `status' argument to wait.
	FLAGS is currently unused (allows future enhancement without breaking
	upward compatibility). Pass 0 for now.

	The result is the pid of the child reaped,
	or -1 for failure (errno says why).

	On systems that don't support waiting for a particular child, PID is
	ignored. On systems like MSDOS that don't really multitask pwait
	is just a mechanism to provide a consistent interface for the caller.

	pfinish: finish generation of script

	pfinish is necessary for systems like MPW where a script is generated that
	runs the requested programs.
	*/

	#ifdef __MSDOS__

	/* MSDOS doesn't multitask, but for the sake of a consistent interface
	the code behaves like it does. pexecute runs the program, tucks the
	exit code away, and returns a "pid". pwait must be called to fetch the
	exit code. */

	#include <process.h>

	/* For communicating information from pexecute to pwait. */
	static int last_pid = 0;
	static int last_status = 0;
	static int last_reaped = 0;

	int
	pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
	const char *program;
	char * const *argv;
	const char *this_pname;
	const char *temp_base;
	char errmsg_fmt, errmsg_arg;
	int flags;
	{
	int rc;

	last_pid++;
	if (last_pid < 0)
	last_pid = 1;

	if ((flags & PEXECUTE_ONE) != PEXECUTE_ONE)
	abort ();

	#ifdef __GO32__
	/* ??? What are the possible return values from spawnv? */
	rc = (flags & PEXECUTE_SEARCH ? spawnvp : spawnv) (1, program, argv);
	#else
	char scmd, rf;
	FILE *argfile;
	int i, el = flags & PEXECUTE_SEARCH ? 4 : 0;

	scmd = (char *) xmalloc (strlen (program) + strlen (temp_base) + 6 + el);
	rf = scmd + strlen(program) + 2 + el;
	sprintf (scmd, "%s%s @%s.gp", program,
	(flags & PEXECUTE_SEARCH ? ".exe" : ""), temp_base);
	argfile = fopen (rf, "w");
	if (argfile == 0)
	{
	int errno_save = errno;
	free (scmd);
	errno = errno_save;
	*errmsg_fmt = "cannot open `%s.gp'";
	*errmsg_arg = temp_base;
	return -1;
	}

	for (i=1; argv[i]; i++)
	{
	char *cp;
	for (cp = argv[i]; *cp; cp++)
	{
	if (cp == '"' \|\| cp == '\'' \|\| cp == '\\' \|\| isspace (cp))
	fputc ('\\', argfile);
	fputc (*cp, argfile);
	}
	fputc ('\n', argfile);
	}
	fclose (argfile);

	rc = system (scmd);

	{
	int errno_save = errno;
	remove (rf);
	free (scmd);
	errno = errno_save;
	}
	#endif

	if (rc == -1)
	{
	*errmsg_fmt = install_error_msg;
	*errmsg_arg = program;
	return -1;
	}

	/* Tuck the status away for pwait, and return a "pid". */
	last_status = rc << 8;
	return last_pid;
	}

	int
	pwait (pid, status, flags)
	int pid;
	int *status;
	int flags;
	{
	/* On MSDOS each pexecute must be followed by it's associated pwait. */
	if (pid != last_pid
	/* Called twice for the same child? */
	\|\| pid == last_reaped)
	{
	/* ??? ECHILD would be a better choice. Can we use it here? */
	errno = EINVAL;
	return -1;
	}
	/* ??? Here's an opportunity to canonicalize the values in STATUS.
	Needed? */
	*status = last_status;
	last_reaped = last_pid;
	return last_pid;
	}

	#endif /* MSDOS */

	#if defined (_WIN32)

	#include <process.h>

	#ifdef __CYGWIN32__

	#define fix_argv(argvec) (argvec)

	extern int _spawnv ();
	extern int _spawnvp ();

	int
	pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
	const char *program;
	char * const *argv;
	const char *this_pname;
	const char *temp_base;
	char errmsg_fmt, errmsg_arg;
	int flags;
	{
	int pid;

	if ((flags & PEXECUTE_ONE) != PEXECUTE_ONE)
	abort ();
	pid = (flags & PEXECUTE_SEARCH ? _spawnvp : _spawnv)
	(_P_NOWAIT, program, fix_argv(argv));
	if (pid == -1)
	{
	*errmsg_fmt = install_error_msg;
	*errmsg_arg = program;
	return -1;
	}
	return pid;
	}

	int
	pwait (pid, status, flags)
	int pid;
	int *status;
	int flags;
	{
	/* ??? Here's an opportunity to canonicalize the values in STATUS.
	Needed? */
	return cwait (status, pid, WAIT_CHILD);
	}

	#else /* ! __CYGWIN32__ */

	/* This is a kludge to get around the Microsoft C spawn functions' propensity
	to remove the outermost set of double quotes from all arguments. */

	const char * const *
	fix_argv (argvec)
	char **argvec;
	{
	int i;

	for (i = 1; argvec[i] != 0; i++)
	{
	int len, j;
	char temp, newtemp;

	temp = argvec[i];
	len = strlen (temp);
	for (j = 0; j < len; j++)
	{
	if (temp[j] == '"')
	{
	newtemp = xmalloc (len + 2);
	strncpy (newtemp, temp, j);
	newtemp [j] = '\\';
	strncpy (&newtemp [j+1], &temp [j], len-j);
	newtemp [len+1] = 0;
	temp = newtemp;
	len++;
	j++;
	}
	}

	argvec[i] = temp;
	}

	return (const char * const *) argvec;
	}

	#include <io.h>
	#include <fcntl.h>
	#include <signal.h>

	/* mingw32 headers may not define the following. */

	#ifndef _P_WAIT
	# define _P_WAIT 0
	# define _P_NOWAIT 1
	# define _P_OVERLAY 2
	# define _P_NOWAITO 3
	# define _P_DETACH 4

	# define WAIT_CHILD 0
	# define WAIT_GRANDCHILD 1
	#endif

	/* Win32 supports pipes */
	int
	pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
	const char *program;
	char * const *argv;
	const char *this_pname;
	const char *temp_base;
	char errmsg_fmt, errmsg_arg;
	int flags;
	{
	int pid;
	int pdes[2], org_stdin, org_stdout;
	int input_desc, output_desc;
	int retries, sleep_interval;

	/* Pipe waiting from last process, to be used as input for the next one.
	Value is STDIN_FILE_NO if no pipe is waiting
	(i.e. the next command is the first of a group). */
	static int last_pipe_input;

	/* If this is the first process, initialize. */
	if (flags & PEXECUTE_FIRST)
	last_pipe_input = STDIN_FILE_NO;

	input_desc = last_pipe_input;

	/* If this isn't the last process, make a pipe for its output,
	and record it as waiting to be the input to the next process. */
	if (! (flags & PEXECUTE_LAST))
	{
	if (_pipe (pdes, 256, O_BINARY) < 0)
	{
	*errmsg_fmt = "pipe";
	*errmsg_arg = NULL;
	return -1;
	}
	output_desc = pdes[WRITE_PORT];
	last_pipe_input = pdes[READ_PORT];
	}
	else
	{
	/* Last process. */
	output_desc = STDOUT_FILE_NO;
	last_pipe_input = STDIN_FILE_NO;
	}

	if (input_desc != STDIN_FILE_NO)
	{
	org_stdin = dup (STDIN_FILE_NO);
	dup2 (input_desc, STDIN_FILE_NO);
	close (input_desc);
	}

	if (output_desc != STDOUT_FILE_NO)
	{
	org_stdout = dup (STDOUT_FILE_NO);
	dup2 (output_desc, STDOUT_FILE_NO);
	close (output_desc);
	}

	pid = (flags & PEXECUTE_SEARCH ? _spawnvp : _spawnv)
	(_P_NOWAIT, program, fix_argv(argv));

	if (input_desc != STDIN_FILE_NO)
	{
	dup2 (org_stdin, STDIN_FILE_NO);
	close (org_stdin);
	}

	if (output_desc != STDOUT_FILE_NO)
	{
	dup2 (org_stdout, STDOUT_FILE_NO);
	close (org_stdout);
	}

	if (pid == -1)
	{
	*errmsg_fmt = install_error_msg;
	*errmsg_arg = program;
	return -1;
	}

	return pid;
	}

	/* MS CRTDLL doesn't return enough information in status to decide if the
	child exited due to a signal or not, rather it simply returns an
	integer with the exit code of the child; eg., if the child exited with
	an abort() call and didn't have a handler for SIGABRT, it simply returns
	with status = 3. We fix the status code to conform to the usual WIF*
	macros. Note that WIFSIGNALED will never be true under CRTDLL. */

	int
	pwait (pid, status, flags)
	int pid;
	int *status;
	int flags;
	{
	int termstat;

	pid = _cwait (&termstat, pid, WAIT_CHILD);

	/* ??? Here's an opportunity to canonicalize the values in STATUS.
	Needed? */

	/* cwait returns the child process exit code in termstat.
	A value of 3 indicates that the child caught a signal, but not
	which one. Since only SIGABRT, SIGFPE and SIGINT do anything, we
	report SIGABRT. */
	if (termstat == 3)
	*status = SIGABRT;
	else
	*status = (((termstat) & 0xff) << 8);

	return pid;
	}

	#endif /* ! defined (__CYGWIN32__) */

	#endif /* _WIN32 */

	#ifdef OS2

	/* ??? Does OS2 have process.h? */
	extern int spawnv ();
	extern int spawnvp ();

	int
	pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
	const char *program;
	char * const *argv;
	const char *this_pname;
	const char *temp_base;
	char errmsg_fmt, errmsg_arg;
	int flags;
	{
	int pid;

	if ((flags & PEXECUTE_ONE) != PEXECUTE_ONE)
	abort ();
	/* ??? Presumably 1 == _P_NOWAIT. */
	pid = (flags & PEXECUTE_SEARCH ? spawnvp : spawnv) (1, program, argv);
	if (pid == -1)
	{
	*errmsg_fmt = install_error_msg;
	*errmsg_arg = program;
	return -1;
	}
	return pid;
	}

	int
	pwait (pid, status, flags)
	int pid;
	int *status;
	int flags;
	{
	/* ??? Here's an opportunity to canonicalize the values in STATUS.
	Needed? */
	int pid = wait (status);
	return pid;
	}

	#endif /* OS2 */

	#ifdef MPW

	/* MPW pexecute doesn't actually run anything; instead, it writes out
	script commands that, when run, will do the actual executing.

	For example, in GCC's case, GCC will write out several script commands:

	cpp ...
	cc1 ...
	as ...
	ld ...

	and then exit. None of the above programs will have run yet. The task
	that called GCC will then execute the script and cause cpp,etc. to run.
	The caller must invoke pfinish before calling exit. This adds
	the finishing touches to the generated script. */

	static int first_time = 1;

	int
	pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
	const char *program;
	char **argv;
	const char *this_pname;
	const char *temp_base;
	char errmsg_fmt, errmsg_arg;
	int flags;
	{
	char tmpprogram[255];
	char cp, tmpname;
	int i;

	mpwify_filename (program, tmpprogram);
	if (first_time)
	{
	printf ("Set Failed 0\n");
	first_time = 0;
	}

	fputs ("If {Failed} == 0\n", stdout);
	/* If being verbose, output a copy of the command. It should be
	accurate enough and escaped enough to be "clickable". */
	if (flags & PEXECUTE_VERBOSE)
	{
	fputs ("\tEcho ", stdout);
	fputc ('\'', stdout);
	fputs (tmpprogram, stdout);
	fputc ('\'', stdout);
	fputc (' ', stdout);
	for (i=1; argv[i]; i++)
	{
	/* We have to quote every arg, so that when the echo is
	executed, the quotes are stripped and the original arg
	is left. */
	fputc ('\'', stdout);
	for (cp = argv[i]; *cp; cp++)
	{
	/* Write an Option-d esc char in front of special chars. */
	if (strchr ("\"'+", *cp))
	fputc ('\266', stdout);
	fputc (*cp, stdout);
	}
	fputc ('\'', stdout);
	fputc (' ', stdout);
	}
	fputs ("\n", stdout);
	}
	fputs ("\t", stdout);
	fputs (tmpprogram, stdout);
	fputc (' ', stdout);

	for (i=1; argv[i]; i++)
	{
	if (strchr (argv[i], ' '))
	fputc ('\'', stdout);
	for (cp = argv[i]; *cp; cp++)
	{
	/* Write an Option-d esc char in front of special chars. */
	if (strchr ("\"'+", *cp))
	{
	fputc ('\266', stdout);
	}
	fputc (*cp, stdout);
	}
	if (strchr (argv[i], ' '))
	fputc ('\'', stdout);
	fputc (' ', stdout);
	}

	fputs ("\n", stdout);

	/* Output commands that arrange to clean up and exit if a failure occurs.
	We have to be careful to collect the status from the program that was
	run, rather than some other script command. Also, we don't exit
	immediately, since necessary cleanups are at the end of the script. */
	fputs ("\tSet TmpStatus {Status}\n", stdout);
	fputs ("\tIf {TmpStatus} != 0\n", stdout);
	fputs ("\t\tSet Failed {TmpStatus}\n", stdout);
	fputs ("\tEnd\n", stdout);
	fputs ("End\n", stdout);

	/* We're just composing a script, can't fail here. */
	return 0;
	}

	int
	pwait (pid, status, flags)
	int pid;
	int *status;
	int flags;
	{
	*status = 0;
	return 0;
	}

	/* Write out commands that will exit with the correct error code
	if something in the script failed. */

	void
	pfinish ()
	{
	printf ("\tExit \"{Failed}\"\n");
	}

	#endif /* MPW */

	/* include for Unix-like environments but not for Dos-like environments */
	#if ! defined (__MSDOS__) && ! defined (OS2) && ! defined (MPW) \
	&& ! defined (_WIN32)

	#ifdef VMS
	#define vfork() (decc$$alloc_vfork_blocks() >= 0 ? \
	lib$get_current_invo_context(decc$$get_vfork_jmpbuf()) : -1)
	#else
	#ifdef USG
	#define vfork fork
	#endif
	#endif

	extern int execv ();
	extern int execvp ();

	int
	pexecute (program, argv, this_pname, temp_base, errmsg_fmt, errmsg_arg, flags)
	const char *program;
	char * const *argv;
	const char *this_pname;
	const char *temp_base;
	char errmsg_fmt, errmsg_arg;
	int flags;
	{
	int (*func)() = (flags & PEXECUTE_SEARCH ? execvp : execv);
	int pid;
	int pdes[2];
	int input_desc, output_desc;
	int retries, sleep_interval;
	/* Pipe waiting from last process, to be used as input for the next one.
	Value is STDIN_FILE_NO if no pipe is waiting
	(i.e. the next command is the first of a group). */
	static int last_pipe_input;

	/* If this is the first process, initialize. */
	if (flags & PEXECUTE_FIRST)
	last_pipe_input = STDIN_FILE_NO;

	input_desc = last_pipe_input;

	/* If this isn't the last process, make a pipe for its output,
	and record it as waiting to be the input to the next process. */
	if (! (flags & PEXECUTE_LAST))
	{
	if (pipe (pdes) < 0)
	{
	*errmsg_fmt = "pipe";
	*errmsg_arg = NULL;
	return -1;
	}
	output_desc = pdes[WRITE_PORT];
	last_pipe_input = pdes[READ_PORT];
	}
	else
	{
	/* Last process. */
	output_desc = STDOUT_FILE_NO;
	last_pipe_input = STDIN_FILE_NO;
	}

	/* Fork a subprocess; wait and retry if it fails. */
	sleep_interval = 1;
	for (retries = 0; retries < 4; retries++)
	{
	pid = vfork ();
	if (pid >= 0)
	break;
	sleep (sleep_interval);
	sleep_interval *= 2;
	}

	switch (pid)
	{
	case -1:
	{
	#ifdef vfork
	*errmsg_fmt = "fork";
	#else
	*errmsg_fmt = "vfork";
	#endif
	*errmsg_arg = NULL;
	return -1;
	}

	case 0: /* child */
	/* Move the input and output pipes into place, if necessary. */
	if (input_desc != STDIN_FILE_NO)
	{
	close (STDIN_FILE_NO);
	dup (input_desc);
	close (input_desc);
	}
	if (output_desc != STDOUT_FILE_NO)
	{
	close (STDOUT_FILE_NO);
	dup (output_desc);
	close (output_desc);
	}

	/* Close the parent's descs that aren't wanted here. */
	if (last_pipe_input != STDIN_FILE_NO)
	close (last_pipe_input);

	/* Exec the program. */
	(*func) (program, argv);

	/* Note: Calling fprintf and exit here doesn't seem right for vfork. */
	fprintf (stderr, "%s: ", this_pname);
	fprintf (stderr, install_error_msg, program);
	#ifdef IN_GCC
	fprintf (stderr, ": %s\n", my_strerror (errno));
	#else
	fprintf (stderr, ": %s\n", xstrerror (errno));
	#endif
	exit (-1);
	/* NOTREACHED */
	return 0;

	default:
	/* In the parent, after forking.
	Close the descriptors that we made for this child. */
	if (input_desc != STDIN_FILE_NO)
	close (input_desc);
	if (output_desc != STDOUT_FILE_NO)
	close (output_desc);

	/* Return child's process number. */
	return pid;
	}
	}

	int
	pwait (pid, status, flags)
	int pid;
	int *status;
	int flags;
	{
	/* ??? Here's an opportunity to canonicalize the values in STATUS.
	Needed? */
	#ifdef VMS
	pid = waitpid (-1, status, 0);
	#else
	pid = wait (status);
	#endif
	return pid;
	}

	#endif /* ! __MSDOS__ && ! OS2 && ! MPW && ! _WIN32 */