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/* Job execution and handling for GNU Make.
Copyright (C) 1988-2012 Free Software Foundation, Inc.
This file is part of GNU Make.

GNU Make 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 3 of the License, or (at your option) any later
version.

GNU Make 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.

You should have received a copy of the GNU General Public License along with
this program.  If not, see <http://www.gnu.org/licenses/>.  */

#include "makeint.h"

#include <assert.h>

#include "job.h"
#include "debug.h"
#include "filedef.h"
#include "commands.h"
#include "variable.h"
#include "debug.h"

#include <string.h>

/* Default shell to use.  */
#ifdef WINDOWS32
#include <windows.h>

char *default_shell = "sh.exe";
int no_default_sh_exe = 1;
int batch_mode_shell = 1;
HANDLE main_thread;

#elif defined (_AMIGA)

char default_shell[] = "";
extern int MyExecute (char **);
int batch_mode_shell = 0;

#elif defined (__MSDOS__)

/* The default shell is a pointer so we can change it if Makefile
   says so.  It is without an explicit path so we get a chance
   to search the $PATH for it (since MSDOS doesn't have standard
   directories we could trust).  */
char *default_shell = "command.com";
int batch_mode_shell = 0;

#elif defined (__EMX__)

char *default_shell = "/bin/sh";
int batch_mode_shell = 0;

#elif defined (VMS)

# include <descrip.h>
char default_shell[] = "";
int batch_mode_shell = 0;

#elif defined (__riscos__)

char default_shell[] = "";
int batch_mode_shell = 0;

#else

char default_shell[] = "/bin/sh";
int batch_mode_shell = 0;

#endif

#ifdef __MSDOS__
# include <process.h>
static int execute_by_shell;
static int dos_pid = 123;
int dos_status;
int dos_command_running;
#endif /* __MSDOS__ */

#ifdef _AMIGA
# include <proto/dos.h>
static int amiga_pid = 123;
static int amiga_status;
static char amiga_bname[32];
static int amiga_batch_file;
#endif /* Amiga.  */

#ifdef VMS
# ifndef __GNUC__
#   include <processes.h>
# endif
# include <starlet.h>
# include <lib$routines.h>
static void vmsWaitForChildren (int *);
#endif

#ifdef WINDOWS32
# include <windows.h>
# include <io.h>
# include <process.h>
# include "sub_proc.h"
# include "w32err.h"
# include "pathstuff.h"
# define WAIT_NOHANG 1
#endif /* WINDOWS32 */

#ifdef __EMX__
# include <process.h>
#endif

#if defined (HAVE_SYS_WAIT_H) || defined (HAVE_UNION_WAIT)
# include <sys/wait.h>
#endif

#ifdef HAVE_WAITPID
# define WAIT_NOHANG(status)	waitpid (-1, (status), WNOHANG)
#else	/* Don't have waitpid.  */
# ifdef HAVE_WAIT3
#  ifndef wait3
extern int wait3 ();
#  endif
#  define WAIT_NOHANG(status)	wait3 ((status), WNOHANG, (struct rusage *) 0)
# endif /* Have wait3.  */
#endif /* Have waitpid.  */

#if !defined (wait) && !defined (POSIX)
int wait ();
#endif

#ifndef	HAVE_UNION_WAIT

# define WAIT_T int

# ifndef WTERMSIG
#  define WTERMSIG(x) ((x) & 0x7f)
# endif
# ifndef WCOREDUMP
#  define WCOREDUMP(x) ((x) & 0x80)
# endif
# ifndef WEXITSTATUS
#  define WEXITSTATUS(x) (((x) >> 8) & 0xff)
# endif
# ifndef WIFSIGNALED
#  define WIFSIGNALED(x) (WTERMSIG (x) != 0)
# endif
# ifndef WIFEXITED
#  define WIFEXITED(x) (WTERMSIG (x) == 0)
# endif

#else	/* Have 'union wait'.  */

# define WAIT_T union wait
# ifndef WTERMSIG
#  define WTERMSIG(x) ((x).w_termsig)
# endif
# ifndef WCOREDUMP
#  define WCOREDUMP(x) ((x).w_coredump)
# endif
# ifndef WEXITSTATUS
#  define WEXITSTATUS(x) ((x).w_retcode)
# endif
# ifndef WIFSIGNALED
#  define WIFSIGNALED(x) (WTERMSIG(x) != 0)
# endif
# ifndef WIFEXITED
#  define WIFEXITED(x) (WTERMSIG(x) == 0)
# endif

#endif	/* Don't have 'union wait'.  */

#if !defined(HAVE_UNISTD_H) && !defined(WINDOWS32)
int dup2 ();
int execve ();
void _exit ();
# ifndef VMS
int geteuid ();
int getegid ();
int setgid ();
int getgid ();
# endif
#endif

/* Different systems have different requirements for pid_t.
   Plus we have to support gettext string translation... Argh.  */
static const char *
pid2str (pid_t pid)
{
  static char pidstring[100];
#if defined(WINDOWS32) && (__GNUC__ > 3 || _MSC_VER > 1300)
  /* %Id is only needed for 64-builds, which were not supported by
      older versions of Windows compilers.  */
  sprintf (pidstring, "%Id", pid);
#else
  sprintf (pidstring, "%lu", (unsigned long) pid);
#endif
  return pidstring;
}

int getloadavg (double loadavg[], int nelem);
int start_remote_job (char **argv, char **envp, int stdin_fd, int *is_remote,
                      int *id_ptr, int *used_stdin);
int start_remote_job_p (int);
int remote_status (int *exit_code_ptr, int *signal_ptr, int *coredump_ptr,
                   int block);

RETSIGTYPE child_handler (int);
static void free_child (struct child *);
static void start_job_command (struct child *child);
static int load_too_high (void);
static int job_next_command (struct child *);
static int start_waiting_job (struct child *);

/* Chain of all live (or recently deceased) children.  */

struct child *children = 0;

/* Number of children currently running.  */

unsigned int job_slots_used = 0;

/* Nonzero if the 'good' standard input is in use.  */

static int good_stdin_used = 0;

/* Chain of children waiting to run until the load average goes down.  */

static struct child *waiting_jobs = 0;

/* Non-zero if we use a *real* shell (always so on Unix).  */

int unixy_shell = 1;

/* Number of jobs started in the current second.  */

unsigned long job_counter = 0;

/* Number of jobserver tokens this instance is currently using.  */

unsigned int jobserver_tokens = 0;

#ifdef OUTPUT_SYNC

/* Semaphore for use in -j mode with output_sync. */
static sync_handle_t sync_handle = -1;

/* Is make's stdout going to the same place as stderr?  */
static int combined_output = 0;

#define STREAM_OK(_s)       ((fcntl (fileno (_s), F_GETFD) != -1) || (errno != EBADF))

#define FD_NOT_EMPTY(_f)    ((_f) >= 0 && lseek ((_f), 0, SEEK_END) > 0)
#endif /* OUTPUT_SYNC */

#ifdef WINDOWS32
/*
 * The macro which references this function is defined in makeint.h.
 */
int
w32_kill(pid_t pid, int sig)
{
  return ((process_kill((HANDLE)pid, sig) == TRUE) ? 0 : -1);
}

/* This function creates a temporary file name with an extension specified
 * by the unixy arg.
 * Return an xmalloc'ed string of a newly created temp file and its
 * file descriptor, or die.  */
static char *
create_batch_file (char const *base, int unixy, int *fd)
{
  const char *const ext = unixy ? "sh" : "bat";
  const char *error_string = NULL;
  char temp_path[MAXPATHLEN]; /* need to know its length */
  unsigned path_size = GetTempPath(sizeof temp_path, temp_path);
  int path_is_dot = 0;
  /* The following variable is static so we won't try to reuse a name
     that was generated a little while ago, because that file might
     not be on disk yet, since we use FILE_ATTRIBUTE_TEMPORARY below,
     which tells the OS it doesn't need to flush the cache to disk.
     If the file is not yet on disk, we might think the name is
     available, while it really isn't.  This happens in parallel
     builds, where Make doesn't wait for one job to finish before it
     launches the next one.  */
  static unsigned uniq = 0;
  static int second_loop = 0;
  const unsigned sizemax = strlen (base) + strlen (ext) + 10;

  if (path_size == 0)
    {
      path_size = GetCurrentDirectory (sizeof temp_path, temp_path);
      path_is_dot = 1;
    }

  ++uniq;
  if (uniq >= 0x10000 && !second_loop)
    {
      /* If we already had 64K batch files in this
	 process, make a second loop through the numbers,
	 looking for free slots, i.e. files that were
	 deleted in the meantime.  */
      second_loop = 1;
      uniq = 1;
    }
  while (path_size > 0 &&
         path_size + sizemax < sizeof temp_path &&
         !(uniq >= 0x10000 && second_loop))
    {
      unsigned size = sprintf (temp_path + path_size,
                               "%s%s-%x.%s",
                               temp_path[path_size - 1] == '\\' ? "" : "\\",
                               base, uniq, ext);
      HANDLE h = CreateFile (temp_path,  /* file name */
                             GENERIC_READ | GENERIC_WRITE, /* desired access */
                             0,                            /* no share mode */
                             NULL,                         /* default security attributes */
                             CREATE_NEW,                   /* creation disposition */
                             FILE_ATTRIBUTE_NORMAL |       /* flags and attributes */
                             FILE_ATTRIBUTE_TEMPORARY,     /* we'll delete it */
                             NULL);                        /* no template file */

      if (h == INVALID_HANDLE_VALUE)
        {
          const DWORD er = GetLastError();

          if (er == ERROR_FILE_EXISTS || er == ERROR_ALREADY_EXISTS)
	    {
	      ++uniq;
	      if (uniq == 0x10000 && !second_loop)
		{
		  second_loop = 1;
		  uniq = 1;
		}
	    }

          /* the temporary path is not guaranteed to exist */
          else if (path_is_dot == 0)
            {
              path_size = GetCurrentDirectory (sizeof temp_path, temp_path);
              path_is_dot = 1;
            }

          else
            {
              error_string = map_windows32_error_to_string (er);
              break;
            }
        }
      else
        {
          const unsigned final_size = path_size + size + 1;
          char *const path = xmalloc (final_size);
          memcpy (path, temp_path, final_size);
          *fd = _open_osfhandle ((intptr_t)h, 0);
          if (unixy)
            {
              char *p;
              int ch;
              for (p = path; (ch = *p) != 0; ++p)
                if (ch == '\\')
                  *p = '/';
            }
          return path; /* good return */
        }
    }

  *fd = -1;
  if (error_string == NULL)
    error_string = _("Cannot create a temporary file\n");
  fatal (NILF, error_string);

  /* not reached */
  return NULL;
}
#endif /* WINDOWS32 */

#ifdef __EMX__
/* returns whether path is assumed to be a unix like shell. */
int
_is_unixy_shell (const char *path)
{
  /* list of non unix shells */
  const char *known_os2shells[] = {
    "cmd.exe",
    "cmd",
    "4os2.exe",
    "4os2",
    "4dos.exe",
    "4dos",
    "command.com",
    "command",
    NULL
  };

  /* find the rightmost '/' or '\\' */
  const char *name = strrchr (path, '/');
  const char *p = strrchr (path, '\\');
  unsigned i;

  if (name && p)    /* take the max */
    name = (name > p) ? name : p;
  else if (p)       /* name must be 0 */
    name = p;
  else if (!name)   /* name and p must be 0 */
    name = path;

  if (*name == '/' || *name == '\\') name++;

  i = 0;
  while (known_os2shells[i] != NULL) {
    if (strcasecmp (name, known_os2shells[i]) == 0)
      return 0; /* not a unix shell */
    i++;
  }

  /* in doubt assume a unix like shell */
  return 1;
}
#endif /* __EMX__ */

/* determines whether path looks to be a Bourne-like shell. */
int
is_bourne_compatible_shell (const char *path)
{
  /* list of known unix (Bourne-like) shells */
  const char *unix_shells[] = {
    "sh",
    "bash",
    "ksh",
    "rksh",
    "zsh",
    "ash",
    "dash",
    NULL
  };
  unsigned i, len;

  /* find the rightmost '/' or '\\' */
  const char *name = strrchr (path, '/');
  char *p = strrchr (path, '\\');

  if (name && p)    /* take the max */
    name = (name > p) ? name : p;
  else if (p)       /* name must be 0 */
    name = p;
  else if (!name)   /* name and p must be 0 */
    name = path;

  if (*name == '/' || *name == '\\') name++;

  /* this should be able to deal with extensions on Windows-like systems */
  for (i = 0; unix_shells[i] != NULL; i++) {
    len = strlen(unix_shells[i]);
#if defined(WINDOWS32) || defined(__MSDOS__)
    if ((strncasecmp (name, unix_shells[i], len) == 0) &&
      (strlen(name) >= len && (name[len] == '\0' || name[len] == '.')))
#else
    if ((strncmp (name, unix_shells[i], len) == 0) &&
      (strlen(name) >= len && name[len] == '\0'))
#endif
	return 1; /* a known unix-style shell */
  }

  /* if not on the list, assume it's not a Bourne-like shell */
  return 0;
}


/* Write a message in the child's context.  Write it to the child's output
   sync file if present, otherwise to the terminal.  */

static void
child_out (const struct child *child, const char *msg, int out)
{
  int fd = out ? child->outfd : child->errfd;

  if (!msg || msg[0] == '\0')
    return;

  if (fd >= 0)
    {
      int len = strlen (msg);
      int b;

      lseek (fd, 0, SEEK_END);
      while (1)
        {
          EINTRLOOP (b, write (fd, msg, len));
          if (b == len)
            break;
          if (b <= 0)
            return;
          len -= b;
          msg += b;
        }
      EINTRLOOP (b, write (fd, "\n", 1));
    }
  else
    {
      FILE *f = out ? stdout : stderr;
      fputs (msg, f);
      putc ('\n', f);
      fflush (f);
    }
}

/* Write an error message describing the exit status given in
   EXIT_CODE, EXIT_SIG, and COREDUMP, for the target TARGET_NAME.
   Append "(ignored)" if IGNORED is nonzero.  */

static void
child_error (const struct child *child,
             int exit_code, int exit_sig, int coredump, int ignored)
{
  const char *pre = "*** ";
  const char *post = "";
  const char *dump = "";
  const struct file *f = child->file;
  const gmk_floc *flocp = &f->cmds->fileinfo;
  const char *msg;
  const char *nm;
  unsigned int l;

  if (ignored && silent_flag)
    return;

  if (exit_sig && coredump)
    dump = _(" (core dumped)");

  if (ignored)
    {
      pre = "";
      post = _(" (ignored)");
    }

  if (! flocp->filenm)
    nm = _("<builtin>");
  else
    {
      char *a = alloca (strlen (flocp->filenm) + 1 + 11 + 1);
      sprintf (a, "%s:%lu", flocp->filenm, flocp->lineno);
      nm = a;
    }

  msg = message_s (strlen (nm) + strlen (f->name), 0,
                   _("%s: recipe for target '%s' failed"), nm, f->name);
  child_out (child, msg, 1);

  l = strlen (pre) + strlen (f->name) + strlen (post);

#ifdef VMS
  if ((exit_code & 1) != 0)
    return;

  msg = error_s (l + INTEGER_LENGTH, NILF,
                 _("%s[%s] Error 0x%x%s"), pre, f->name, exit_code, post);
#else
  if (exit_sig == 0)
    msg = error_s (l + INTEGER_LENGTH, NILF,
                   _("%s[%s] Error %d%s"), pre, f->name, exit_code, post);
  else
    {
      const char *s = strsignal (exit_sig);
      msg = error_s (l + strlen (s) + strlen (dump), NILF,
                     _("%s[%s] %s%s%s"), pre, f->name, s, dump, post);
    }
#endif /* VMS */

  child_out (child, msg, 0);
}


/* Handle a dead child.  This handler may or may not ever be installed.

   If we're using the jobserver feature, we need it.  First, installing it
   ensures the read will interrupt on SIGCHLD.  Second, we close the dup'd
   read FD to ensure we don't enter another blocking read without reaping all
   the dead children.  In this case we don't need the dead_children count.

   If we don't have either waitpid or wait3, then make is unreliable, but we
   use the dead_children count to reap children as best we can.  */

static unsigned int dead_children = 0;

RETSIGTYPE
child_handler (int sig UNUSED)
{
  ++dead_children;

  if (job_rfd >= 0)
    {
      close (job_rfd);
      job_rfd = -1;
    }

#ifdef __EMX__
  /* The signal handler must called only once! */
  signal (SIGCHLD, SIG_DFL);
#endif

  /* This causes problems if the SIGCHLD interrupts a printf().
  DB (DB_JOBS, (_("Got a SIGCHLD; %u unreaped children.\n"), dead_children));
  */
}

#ifdef OUTPUT_SYNC

/* Set up the sync handle and configure combined_output.
   Disables output_sync on error.  */
static void
sync_init ()
{
#ifdef WINDOWS32
  if ((!STREAM_OK (stdout) && !STREAM_OK (stderr))
      || (sync_handle = create_mutex ()) == -1)
    {
      perror_with_name ("output-sync suppressed: ", "stderr");
      output_sync = 0;
    }
  else
    {
      combined_output = same_stream (stdout, stderr);
      prepare_mutex_handle_string (sync_handle);
    }

#else
  if (STREAM_OK (stdout))
    {
      struct stat stbuf_o, stbuf_e;

      sync_handle = fileno (stdout);
      combined_output =
        fstat (fileno (stdout), &stbuf_o) == 0 &&
        fstat (fileno (stderr), &stbuf_e) == 0 &&
        stbuf_o.st_dev == stbuf_e.st_dev &&
        stbuf_o.st_ino == stbuf_e.st_ino;
    }
  else if (STREAM_OK (stderr))
    sync_handle = fileno (stderr);
  else
    {
      perror_with_name ("output-sync suppressed: ", "stderr");
      output_sync = 0;
    }
#endif
}

/* Adds file descriptors to the child structure to support output_sync; one
   for stdout and one for stderr as long as they are open.  If stdout and
   stderr share a device they can share a temp file too.
   Will reset output_sync on error.  */
static void
assign_child_tempfiles (struct child *c)
{
  /* If we don't have a temp file, get one.  */
  if (c->outfd < 0 && c->errfd < 0)
    {
      if (STREAM_OK (stdout))
        {
          c->outfd = open_tmpfd ();
          if (c->outfd < 0)
            goto error;
          CLOSE_ON_EXEC (c->outfd);
        }

      if (STREAM_OK (stderr))
        {
          if (c->outfd >= 0 && combined_output)
            c->errfd = c->outfd;
          else
            {
              c->errfd = open_tmpfd ();
              if (c->errfd < 0)
                goto error;
              CLOSE_ON_EXEC (c->errfd);
            }
        }
    }

  return;

 error:
  if (c->outfd >= 0)
    close (c->outfd);
  output_sync = 0;
}

/* Support routine for sync_output() */
static void
pump_from_tmp (int from, FILE *to)
{
  static char buffer[8192];

#ifdef WINDOWS32
  int prev_mode;

  /* from_fd is opened by open_tmpfd, which does it in binary mode, so
     we need the mode of to_fd to match that.  */
  prev_mode = _setmode (fileno(to), _O_BINARY);
#endif

  if (lseek (from, 0, SEEK_SET) == -1)
    perror ("lseek()");

  while (1)
    {
      int len;
      EINTRLOOP (len, read (from, buffer, sizeof (buffer)));
      if (len < 0)
        perror ("read()");
      if (len <= 0)
        break;
      if (fwrite (buffer, len, 1, to) < 1)
        perror ("fwrite()");
    }

#ifdef WINDOWS32
  /* Switch to_fd back to its original mode, so that log messages by
     Make have the same EOL format as without --output-sync.  */
  _setmode (fileno (to), prev_mode);
#endif
}

/* Support routine for sync_output() */
static void *
acquire_semaphore (void)
{
  static struct flock fl;

  fl.l_type = F_WRLCK;
  fl.l_whence = SEEK_SET;
  fl.l_start = 0;
  fl.l_len = 1;
  if (fcntl (sync_handle, F_SETLKW, &fl) != -1)
    return &fl;
  perror ("fcntl()");
  return NULL;
}

/* Support routine for sync_output() */
static void
release_semaphore (void *sem)
{
  struct flock *flp = (struct flock *)sem;
  flp->l_type = F_UNLCK;
  if (fcntl (sync_handle, F_SETLKW, flp) == -1)
    perror ("fcntl()");
}

/* Synchronize the output of jobs in -j mode to keep the results of
   each job together. This is done by holding the results in temp files,
   one for stdout and potentially another for stderr, and only releasing
   them to "real" stdout/stderr when a semaphore can be obtained. */

static void
sync_output (struct child *c)
{
  int outfd_not_empty = FD_NOT_EMPTY (c->outfd);
  int errfd_not_empty = FD_NOT_EMPTY (c->errfd);

  if (outfd_not_empty || errfd_not_empty)
    {
      /* Try to acquire the semaphore.  If it fails, dump the output
         unsynchronized; still better than silently discarding it.  */
      void *sem = acquire_semaphore ();

      /* We've entered the "critical section" during which a lock is held.  We
         want to keep it as short as possible.  */

      /* Log the working directory.  Force it if we're doing dir tracing.  */
      log_working_directory (1, (trace_flag & TRACE_DIRECTORY));

      if (outfd_not_empty)
        pump_from_tmp (c->outfd, stdout);
      if (errfd_not_empty && c->errfd != c->outfd)
        pump_from_tmp (c->errfd, stderr);

      /* If we're doing dir tracing, force the leave message.  */
      if (trace_flag & TRACE_DIRECTORY)
        log_working_directory (0, 1);

      /* Exit the critical section.  */
      if (sem)
        release_semaphore (sem);

      /* Truncate and reset the output, in case we use it again.  */
      if (c->outfd >= 0)
        {
          int e;
          lseek(c->outfd, 0, SEEK_SET);
          EINTRLOOP (e, ftruncate(c->outfd, 0));
        }
      if (c->errfd >= 0 && c->errfd != c->outfd)
        {
          int e;
          lseek(c->errfd, 0, SEEK_SET);
          EINTRLOOP (e, ftruncate(c->errfd, 0));
        }
    }
}
#endif /* OUTPUT_SYNC */

extern int shell_function_pid, shell_function_completed;

/* Reap all dead children, storing the returned status and the new command
   state ('cs_finished') in the 'file' member of the 'struct child' for the
   dead child, and removing the child from the chain.  In addition, if BLOCK
   nonzero, we block in this function until we've reaped at least one
   complete child, waiting for it to die if necessary.  If ERR is nonzero,
   print an error message first.  */

void
reap_children (int block, int err)
{
#ifndef WINDOWS32
  WAIT_T status;
#endif
  /* Initially, assume we have some.  */
  int reap_more = 1;

#ifdef WAIT_NOHANG
# define REAP_MORE reap_more
#else
# define REAP_MORE dead_children
#endif

  /* As long as:

       We have at least one child outstanding OR a shell function in progress,
         AND
       We're blocking for a complete child OR there are more children to reap

     we'll keep reaping children.  */

  while ((children != 0 || shell_function_pid != 0)
         && (block || REAP_MORE))
    {
      int remote = 0;
      pid_t pid;
      int exit_code, exit_sig, coredump;
      struct child *lastc, *c;
      int child_failed;
      int any_remote, any_local;
      int dontcare;

      if (err && block)
	{
          static int printed = 0;

	  /* We might block for a while, so let the user know why.
             Only print this message once no matter how many jobs are left.  */
	  fflush (stdout);
          if (!printed)
            error (NILF, _("*** Waiting for unfinished jobs...."));
          printed = 1;
	}

      /* We have one less dead child to reap.  As noted in
	 child_handler() above, this count is completely unimportant for
	 all modern, POSIX-y systems that support wait3() or waitpid().
	 The rest of this comment below applies only to early, broken
	 pre-POSIX systems.  We keep the count only because... it's there...

	 The test and decrement are not atomic; if it is compiled into:
		register = dead_children - 1;
		dead_children = register;
	 a SIGCHLD could come between the two instructions.
	 child_handler increments dead_children.
	 The second instruction here would lose that increment.  But the
	 only effect of dead_children being wrong is that we might wait
	 longer than necessary to reap a child, and lose some parallelism;
	 and we might print the "Waiting for unfinished jobs" message above
	 when not necessary.  */

      if (dead_children > 0)
	--dead_children;

      any_remote = 0;
      any_local = shell_function_pid != 0;
      for (c = children; c != 0; c = c->next)
	{
	  any_remote |= c->remote;
	  any_local |= ! c->remote;
	  DB (DB_JOBS, (_("Live child %p (%s) PID %s %s\n"),
                        c, c->file->name, pid2str (c->pid),
                        c->remote ? _(" (remote)") : ""));
#ifdef VMS
	  break;
#endif
	}

      /* First, check for remote children.  */
      if (any_remote)
	pid = remote_status (&exit_code, &exit_sig, &coredump, 0);
      else
	pid = 0;

      if (pid > 0)
	/* We got a remote child.  */
	remote = 1;
      else if (pid < 0)
	{
          /* A remote status command failed miserably.  Punt.  */
	remote_status_lose:
	  pfatal_with_name ("remote_status");
	}
      else
	{
	  /* No remote children.  Check for local children.  */
#if !defined(__MSDOS__) && !defined(_AMIGA) && !defined(WINDOWS32)
	  if (any_local)
	    {
#ifdef VMS
	      vmsWaitForChildren (&status);
	      pid = c->pid;
#else
#ifdef WAIT_NOHANG
	      if (!block)
		pid = WAIT_NOHANG (&status);
	      else
#endif
		EINTRLOOP(pid, wait (&status));
#endif /* !VMS */
	    }
	  else
	    pid = 0;

	  if (pid < 0)
	    {
              /* The wait*() failed miserably.  Punt.  */
	      pfatal_with_name ("wait");
	    }
	  else if (pid > 0)
	    {
	      /* We got a child exit; chop the status word up.  */
	      exit_code = WEXITSTATUS (status);
	      exit_sig = WIFSIGNALED (status) ? WTERMSIG (status) : 0;
	      coredump = WCOREDUMP (status);

              /* If we have started jobs in this second, remove one.  */
              if (job_counter)
                --job_counter;
	    }
	  else
	    {
	      /* No local children are dead.  */
              reap_more = 0;

	      if (!block || !any_remote)
                break;

              /* Now try a blocking wait for a remote child.  */
              pid = remote_status (&exit_code, &exit_sig, &coredump, 1);
              if (pid < 0)
                goto remote_status_lose;
              else if (pid == 0)
                /* No remote children either.  Finally give up.  */
                break;

              /* We got a remote child.  */
              remote = 1;
	    }
#endif /* !__MSDOS__, !Amiga, !WINDOWS32.  */

#ifdef __MSDOS__
	  /* Life is very different on MSDOS.  */
	  pid = dos_pid - 1;
	  status = dos_status;
	  exit_code = WEXITSTATUS (status);
	  if (exit_code == 0xff)
	    exit_code = -1;
	  exit_sig = WIFSIGNALED (status) ? WTERMSIG (status) : 0;
	  coredump = 0;
#endif /* __MSDOS__ */
#ifdef _AMIGA
	  /* Same on Amiga */
	  pid = amiga_pid - 1;
	  status = amiga_status;
	  exit_code = amiga_status;
	  exit_sig = 0;
	  coredump = 0;
#endif /* _AMIGA */
#ifdef WINDOWS32
          {
            HANDLE hPID;
            int werr;
            HANDLE hcTID, hcPID;
            DWORD dwWaitStatus = 0;
            exit_code = 0;
            exit_sig = 0;
            coredump = 0;

            /* Record the thread ID of the main process, so that we
               could suspend it in the signal handler.  */
            if (!main_thread)
              {
                hcTID = GetCurrentThread ();
                hcPID = GetCurrentProcess ();
                if (!DuplicateHandle (hcPID, hcTID, hcPID, &main_thread, 0,
                                      FALSE, DUPLICATE_SAME_ACCESS))
                  {
                    DWORD e = GetLastError ();
                    fprintf (stderr,
                             "Determine main thread ID (Error %ld: %s)\n",
                             e, map_windows32_error_to_string(e));
                  }
                else
                  DB (DB_VERBOSE, ("Main thread handle = %p\n", main_thread));
              }

            /* wait for anything to finish */
            hPID = process_wait_for_any(block, &dwWaitStatus);
            if (hPID)
              {

                /* was an error found on this process? */
                werr = process_last_err(hPID);

                /* get exit data */
                exit_code = process_exit_code(hPID);

                if (werr)
                  fprintf(stderr, "make (e=%d): %s",
                          exit_code, map_windows32_error_to_string(exit_code));

                /* signal */
                exit_sig = process_signal(hPID);

                /* cleanup process */
                process_cleanup(hPID);

                coredump = 0;
              }
            else if (dwWaitStatus == WAIT_FAILED)
              {
                /* The WaitForMultipleObjects() failed miserably.  Punt.  */
                pfatal_with_name ("WaitForMultipleObjects");
              }
            else if (dwWaitStatus == WAIT_TIMEOUT)
              {
                /* No child processes are finished.  Give up waiting. */
                reap_more = 0;
                break;
              }

            pid = (pid_t) hPID;
          }
#endif /* WINDOWS32 */
	}

      /* Check if this is the child of the 'shell' function.  */
      if (!remote && pid == shell_function_pid)
	{
	  /* It is.  Leave an indicator for the 'shell' function.  */
	  if (exit_sig == 0 && exit_code == 127)
	    shell_function_completed = -1;
	  else
	    shell_function_completed = 1;
	  break;
	}

      child_failed = exit_sig != 0 || exit_code != 0;

      /* Search for a child matching the deceased one.  */
      lastc = 0;
      for (c = children; c != 0; lastc = c, c = c->next)
	if (c->pid == pid && c->remote == remote)
	  break;

      if (c == 0)
        /* An unknown child died.
           Ignore it; it was inherited from our invoker.  */
        continue;

      DB (DB_JOBS, (child_failed
                    ? _("Reaping losing child %p PID %s %s\n")
                    : _("Reaping winning child %p PID %s %s\n"),
                    c, pid2str (c->pid), c->remote ? _(" (remote)") : ""));

      if (c->sh_batch_file) {
	int rm_status;

        DB (DB_JOBS, (_("Cleaning up temp batch file %s\n"),
                      c->sh_batch_file));

	errno = 0;
        rm_status = remove (c->sh_batch_file);
	if (rm_status)
	  DB (DB_JOBS, (_("Cleaning up temp batch file %s failed (%d)\n"),
			c->sh_batch_file, errno));

        /* all done with memory */
        free (c->sh_batch_file);
        c->sh_batch_file = NULL;
      }

      /* If this child had the good stdin, say it is now free.  */
      if (c->good_stdin)
        good_stdin_used = 0;

      dontcare = c->dontcare;

      if (child_failed && !c->noerror && !ignore_errors_flag)
        {
          /* The commands failed.  Write an error message,
             delete non-precious targets, and abort.  */
          static int delete_on_error = -1;

          if (!dontcare)
            child_error (c, exit_code, exit_sig, coredump, 0);

          c->file->update_status = 2;
          if (delete_on_error == -1)
            {
              struct file *f = lookup_file (".DELETE_ON_ERROR");
              delete_on_error = f != 0 && f->is_target;
            }
          if (exit_sig != 0 || delete_on_error)
            delete_child_targets (c);
        }
      else
        {
          if (child_failed)
            {
              /* The commands failed, but we don't care.  */
              child_error (c, exit_code, exit_sig, coredump, 1);
              child_failed = 0;
            }

          /* If there are more commands to run, try to start them.  */
          if (job_next_command (c))
            {
              if (handling_fatal_signal)
                {
                  /* Never start new commands while we are dying.
                     Since there are more commands that wanted to be run,
                     the target was not completely remade.  So we treat
                     this as if a command had failed.  */
                  c->file->update_status = 2;
                }
              else
                {
#ifdef OUTPUT_SYNC
                  /* If we're sync'ing per line, write the previous line's
                     output before starting the next one.  */
                  if (output_sync == OUTPUT_SYNC_LINE)
                    sync_output (c);
#endif
                  /* Check again whether to start remotely.
                     Whether or not we want to changes over time.
                     Also, start_remote_job may need state set up
                     by start_remote_job_p.  */
                  c->remote = start_remote_job_p (0);
                  start_job_command (c);
                  /* Fatal signals are left blocked in case we were
                     about to put that child on the chain.  But it is
                     already there, so it is safe for a fatal signal to
                     arrive now; it will clean up this child's targets.  */
                  unblock_sigs ();
                  if (c->file->command_state == cs_running)
                    /* We successfully started the new command.
                       Loop to reap more children.  */
                    continue;
                }

              if (c->file->update_status != 0)
                /* We failed to start the commands.  */
                delete_child_targets (c);
            }
          else
            /* There are no more commands.  We got through them all
               without an unignored error.  Now the target has been
               successfully updated.  */
            c->file->update_status = 0;
        }

      /* When we get here, all the commands for c->file are finished.  */

#ifdef OUTPUT_SYNC
      /* Synchronize any remaining parallel output.  */
      sync_output (c);
#endif /* OUTPUT_SYNC */

      /* At this point c->file->update_status contains 0 or 2.  But
         c->file->command_state is still cs_running if all the commands
         ran; notice_finish_file looks for cs_running to tell it that
         it's interesting to check the file's modtime again now.  */

      if (! handling_fatal_signal)
        /* Notice if the target of the commands has been changed.
           This also propagates its values for command_state and
           update_status to its also_make files.  */
        notice_finished_file (c->file);

      DB (DB_JOBS, (_("Removing child %p PID %s%s from chain.\n"),
                    c, pid2str (c->pid), c->remote ? _(" (remote)") : ""));

      /* Block fatal signals while frobnicating the list, so that
         children and job_slots_used are always consistent.  Otherwise
         a fatal signal arriving after the child is off the chain and
         before job_slots_used is decremented would believe a child was
         live and call reap_children again.  */
      block_sigs ();

      /* There is now another slot open.  */
      if (job_slots_used > 0)
        --job_slots_used;

      /* Remove the child from the chain and free it.  */
      if (lastc == 0)
        children = c->next;
      else
        lastc->next = c->next;

      free_child (c);

      unblock_sigs ();

      /* If the job failed, and the -k flag was not given, die,
         unless we are already in the process of dying.  */
      if (!err && child_failed && !dontcare && !keep_going_flag &&
          /* fatal_error_signal will die with the right signal.  */
          !handling_fatal_signal)
        die (2);

      /* Only block for one child.  */
      block = 0;
    }

  return;
}

/* Free the storage allocated for CHILD.  */

static void
free_child (struct child *child)
{
  if (child->outfd >= 0)
    close (child->outfd);
  if (child->errfd >= 0 && child->errfd != child->outfd)
    close (child->errfd);

  if (!jobserver_tokens)
    fatal (NILF, "INTERNAL: Freeing child %p (%s) but no tokens left!\n",
           child, child->file->name);

  /* If we're using the jobserver and this child is not the only outstanding
     job, put a token back into the pipe for it.  */

#ifdef WINDOWS32
  if (has_jobserver_semaphore() && jobserver_tokens > 1)
    {
      if (! release_jobserver_semaphore())
        {
          DWORD err = GetLastError();
          fatal (NILF, _("release jobserver semaphore: (Error %ld: %s)"),
                 err, map_windows32_error_to_string(err));
        }

      DB (DB_JOBS, (_("Released token for child %p (%s).\n"), child, child->file->name));
    }
#else
  if (job_fds[1] >= 0 && jobserver_tokens > 1)
    {
      char token = '+';
      int r;

      /* Write a job token back to the pipe.  */

      EINTRLOOP (r, write (job_fds[1], &token, 1));
      if (r != 1)
	pfatal_with_name (_("write jobserver"));

      DB (DB_JOBS, (_("Released token for child %p (%s).\n"),
                    child, child->file->name));
    }
#endif

  --jobserver_tokens;

  if (handling_fatal_signal) /* Don't bother free'ing if about to die.  */
    return;

  if (child->command_lines != 0)
    {
      register unsigned int i;
      for (i = 0; i < child->file->cmds->ncommand_lines; ++i)
	free (child->command_lines[i]);
      free (child->command_lines);
    }

  if (child->environment != 0)
    {
      register char **ep = child->environment;
      while (*ep != 0)
	free (*ep++);
      free (child->environment);
    }

  free (child);
}

#ifdef POSIX
extern sigset_t fatal_signal_set;
#endif

void
block_sigs (void)
{
#ifdef POSIX
  (void) sigprocmask (SIG_BLOCK, &fatal_signal_set, (sigset_t *) 0);
#else
# ifdef HAVE_SIGSETMASK
  (void) sigblock (fatal_signal_mask);
# endif
#endif
}

#ifdef POSIX
void
unblock_sigs (void)
{
  sigset_t empty;
  sigemptyset (&empty);
  sigprocmask (SIG_SETMASK, &empty, (sigset_t *) 0);
}
#endif

#if defined(MAKE_JOBSERVER) && !defined(WINDOWS32)
RETSIGTYPE
job_noop (int sig UNUSED)
{
}
/* Set the child handler action flags to FLAGS.  */
static void
set_child_handler_action_flags (int set_handler, int set_alarm)
{
  struct sigaction sa;

#ifdef __EMX__
  /* The child handler must be turned off here.  */
  signal (SIGCHLD, SIG_DFL);
#endif

  memset (&sa, '\0', sizeof sa);
  sa.sa_handler = child_handler;
  sa.sa_flags = set_handler ? 0 : SA_RESTART;
#if defined SIGCHLD
  sigaction (SIGCHLD, &sa, NULL);
#endif
#if defined SIGCLD && SIGCLD != SIGCHLD
  sigaction (SIGCLD, &sa, NULL);
#endif
#if defined SIGALRM
  if (set_alarm)
    {
      /* If we're about to enter the read(), set an alarm to wake up in a
         second so we can check if the load has dropped and we can start more
         work.  On the way out, turn off the alarm and set SIG_DFL.  */
      alarm (set_handler ? 1 : 0);
      sa.sa_handler = set_handler ? job_noop : SIG_DFL;
      sa.sa_flags = 0;
      sigaction (SIGALRM, &sa, NULL);
    }
#endif
}
#endif


/* Start a job to run the commands specified in CHILD.
   CHILD is updated to reflect the commands and ID of the child process.

   NOTE: On return fatal signals are blocked!  The caller is responsible
   for calling 'unblock_sigs', once the new child is safely on the chain so
   it can be cleaned up in the event of a fatal signal.  */

static void
start_job_command (struct child *child)
{
#if !defined(_AMIGA) && !defined(WINDOWS32)
  static int bad_stdin = -1;
#endif
  int print_cmd;
  int sync_cmd;
  int flags;
  char *p;
#ifdef VMS
  char *argv;
#else
  char **argv;
#endif

  /* If we have a completely empty commandset, stop now.  */
  if (!child->command_ptr)
    goto next_command;

  /* Combine the flags parsed for the line itself with
     the flags specified globally for this target.  */
  flags = (child->file->command_flags
	   | child->file->cmds->lines_flags[child->command_line - 1]);

  p = child->command_ptr;
  child->noerror = ((flags & COMMANDS_NOERROR) != 0);

  while (*p != '\0')
    {
      if (*p == '@')
	flags |= COMMANDS_SILENT;
      else if (*p == '+')
	flags |= COMMANDS_RECURSE;
      else if (*p == '-')
	child->noerror = 1;
      else if (!isblank ((unsigned char)*p))
	break;
      ++p;
    }

  /* Update the file's command flags with any new ones we found.  We only
     keep the COMMANDS_RECURSE setting.  Even this isn't 100% correct; we are
     now marking more commands recursive than should be in the case of
     multiline define/endef scripts where only one line is marked "+".  In
     order to really fix this, we'll have to keep a lines_flags for every
     actual line, after expansion.  */
  child->file->cmds->lines_flags[child->command_line - 1]
    |= flags & COMMANDS_RECURSE;

  /* POSIX requires that a recipe prefix after a backslash-newline should
     be ignored.  Remove it now so the output is correct.  */
  {
    char prefix = child->file->cmds->recipe_prefix;
    char *p1, *p2;
    p1 = p2 = p;
    while (*p1 != '\0')
      {
        *(p2++) = *p1;
        if (p1[0] == '\n' && p1[1] == prefix)
          ++p1;
        ++p1;
      }
    *p2 = *p1;
  }

  /* Figure out an argument list from this command line.  */
  {
    char *end = 0;
#ifdef VMS
    argv = p;
#else
    argv = construct_command_argv (p, &end, child->file,
				   child->file->cmds->lines_flags[child->command_line - 1],
                                   &child->sh_batch_file);
#endif
    if (end == NULL)
      child->command_ptr = NULL;
    else
      {
	*end++ = '\0';
	child->command_ptr = end;
      }
  }

  /* If -q was given, say that updating 'failed' if there was any text on the
     command line, or 'succeeded' otherwise.  The exit status of 1 tells the
     user that -q is saying 'something to do'; the exit status for a random
     error is 2.  */
  if (argv != 0 && question_flag && !(flags & COMMANDS_RECURSE))
    {
#ifndef VMS
      free (argv[0]);
      free (argv);
#endif
      child->file->update_status = 1;
      notice_finished_file (child->file);
      return;
    }

  if (touch_flag && !(flags & COMMANDS_RECURSE))
    {
      /* Go on to the next command.  It might be the recursive one.
	 We construct ARGV only to find the end of the command line.  */
#ifndef VMS
      if (argv)
        {
          free (argv[0]);
          free (argv);
        }
#endif
      argv = 0;
    }

  if (argv == 0)
    {
    next_command:
#ifdef __MSDOS__
      execute_by_shell = 0;   /* in case construct_command_argv sets it */
#endif
      /* This line has no commands.  Go to the next.  */
      if (job_next_command (child))
	start_job_command (child);
      else
	{
	  /* No more commands.  Make sure we're "running"; we might not be if
             (e.g.) all commands were skipped due to -n.  */
          set_command_state (child->file, cs_running);
	  child->file->update_status = 0;
	  notice_finished_file (child->file);
	}
      return;
    }

  print_cmd = (just_print_flag || (trace_flag & TRACE_RULE)
               || (!(flags & COMMANDS_SILENT) && !silent_flag));

#ifdef OUTPUT_SYNC
  if (output_sync && sync_handle == -1)
    sync_init();
#endif

  /* Are we going to synchronize this command's output?  Do so if either we're
     in SYNC_MAKE mode or this command is not recursive.  We'll also check
     output_sync separately below in case it changes due to error.  */
  sync_cmd = output_sync && (output_sync == OUTPUT_SYNC_RECURSE
                             || !(flags & COMMANDS_RECURSE));

#ifdef OUTPUT_SYNC
  if (sync_cmd)
    {
      /* If syncing, make sure we have temp files.
         Write the command to the temp file so it's output in order.  */
      assign_child_tempfiles (child);
      if (print_cmd)
        child_out (child, p, 1);
    }
  else
    /* We don't want to sync this command: to avoid misordered
       output ensure any already-synced content is written.  */
    sync_output (child);
#endif /* OUTPUT_SYNC */

  /* If we're not syncing, print out the command.  If silent, we call
     'message' with null so it can log the working directory before the
     command's own error messages appear.  */
  if (! sync_cmd)
    message (0, print_cmd ? "%s" : NULL, p);

  /* Tell update_goal_chain that a command has been started on behalf of
     this target.  It is important that this happens here and not in
     reap_children (where we used to do it), because reap_children might be
     reaping children from a different target.  We want this increment to
     guaranteedly indicate that a command was started for the dependency
     chain (i.e., update_file recursion chain) we are processing.  */

  ++commands_started;

  /* Optimize an empty command.  People use this for timestamp rules,
     so avoid forking a useless shell.  Do this after we increment
     commands_started so make still treats this special case as if it
     performed some action (makes a difference as to what messages are
     printed, etc.  */

#if !defined(VMS) && !defined(_AMIGA)
  if (
#if defined __MSDOS__ || defined (__EMX__)
      unixy_shell	/* the test is complicated and we already did it */
#else
      (argv[0] && is_bourne_compatible_shell(argv[0]))
#endif
      && (argv[1] && argv[1][0] == '-'
	&&
	    ((argv[1][1] == 'c' && argv[1][2] == '\0')
	  ||
	     (argv[1][1] == 'e' && argv[1][2] == 'c' && argv[1][3] == '\0')))
      && (argv[2] && argv[2][0] == ':' && argv[2][1] == '\0')
      && argv[3] == NULL)
    {
      free (argv[0]);
      free (argv);
      goto next_command;
    }
#endif  /* !VMS && !_AMIGA */

  /* If -n was given, recurse to get the next line in the sequence.  */

  if (just_print_flag && !(flags & COMMANDS_RECURSE))
    {
#ifndef VMS
      free (argv[0]);
      free (argv);
#endif
      goto next_command;
    }

  /* Flush the output streams so they won't have things written twice.  */

  fflush (stdout);
  fflush (stderr);

#ifndef VMS
#if !defined(WINDOWS32) && !defined(_AMIGA) && !defined(__MSDOS__)

  /* Set up a bad standard input that reads from a broken pipe.  */

  if (bad_stdin == -1)
    {
      /* Make a file descriptor that is the read end of a broken pipe.
	 This will be used for some children's standard inputs.  */
      int pd[2];
      if (pipe (pd) == 0)
	{
	  /* Close the write side.  */
	  (void) close (pd[1]);
	  /* Save the read side.  */
	  bad_stdin = pd[0];

	  /* Set the descriptor to close on exec, so it does not litter any
	     child's descriptor table.  When it is dup2'd onto descriptor 0,
	     that descriptor will not close on exec.  */
	  CLOSE_ON_EXEC (bad_stdin);
	}
    }

#endif /* !WINDOWS32 && !_AMIGA && !__MSDOS__ */

  /* Decide whether to give this child the 'good' standard input
     (one that points to the terminal or whatever), or the 'bad' one
     that points to the read side of a broken pipe.  */

  child->good_stdin = !good_stdin_used;
  if (child->good_stdin)
    good_stdin_used = 1;

#endif /* !VMS */

  child->deleted = 0;

#ifndef _AMIGA
  /* Set up the environment for the child.  */
  if (child->environment == 0)
    child->environment = target_environment (child->file);
#endif

#if !defined(__MSDOS__) && !defined(_AMIGA) && !defined(WINDOWS32)

#ifndef VMS
  /* start_waiting_job has set CHILD->remote if we can start a remote job.  */
  if (child->remote)
    {
      int is_remote, id, used_stdin;
      if (start_remote_job (argv, child->environment,
			    child->good_stdin ? 0 : bad_stdin,
			    &is_remote, &id, &used_stdin))
        /* Don't give up; remote execution may fail for various reasons.  If
           so, simply run the job locally.  */
	goto run_local;
      else
	{
	  if (child->good_stdin && !used_stdin)
	    {
	      child->good_stdin = 0;
	      good_stdin_used = 0;
	    }
	  child->remote = is_remote;
	  child->pid = id;
	}
    }
  else
#endif /* !VMS */
    {
      /* Fork the child process.  */

      char **parent_environ;

    run_local:
      block_sigs ();

      child->remote = 0;

#ifdef VMS
      if (!child_execute_job (argv, child)) {
        /* Fork failed!  */
        perror_with_name ("fork", "");
        goto error;
      }

#else

      parent_environ = environ;

# ifdef __EMX__
      /* If we aren't running a recursive command and we have a jobserver
         pipe, close it before exec'ing.  */
      if (!(flags & COMMANDS_RECURSE) && job_fds[0] >= 0)
	{
	  CLOSE_ON_EXEC (job_fds[0]);
	  CLOSE_ON_EXEC (job_fds[1]);
	}
      if (job_rfd >= 0)
	CLOSE_ON_EXEC (job_rfd);

      /* Never use fork()/exec() here! Use spawn() instead in exec_command() */
      child->pid = child_execute_job (child->good_stdin ? 0 : bad_stdin, 1,
                                      argv, child->environment);
      if (child->pid < 0)
	{
	  /* spawn failed!  */
	  unblock_sigs ();
	  perror_with_name ("spawn", "");
	  goto error;
	}

      /* undo CLOSE_ON_EXEC() after the child process has been started */
      if (!(flags & COMMANDS_RECURSE) && job_fds[0] >= 0)
	{
	  fcntl (job_fds[0], F_SETFD, 0);
	  fcntl (job_fds[1], F_SETFD, 0);
	}
      if (job_rfd >= 0)
	fcntl (job_rfd, F_SETFD, 0);

#else  /* !__EMX__ */

      child->pid = fork ();
      environ = parent_environ;	/* Restore value child may have clobbered.  */
      if (child->pid == 0)
	{
	  /* We are the child side.  */
	  unblock_sigs ();

          /* If we aren't running a recursive command and we have a jobserver
             pipe, close it before exec'ing.  */
          if (!(flags & COMMANDS_RECURSE) && job_fds[0] >= 0)
            {
              close (job_fds[0]);
              close (job_fds[1]);
            }
          if (job_rfd >= 0)
            close (job_rfd);

#ifdef SET_STACK_SIZE
          /* Reset limits, if necessary.  */
          if (stack_limit.rlim_cur)
            setrlimit (RLIMIT_STACK, &stack_limit);
#endif

#ifdef OUTPUT_SYNC
          /* Divert child output if output_sync in use.  Don't capture
             recursive make output unless we are synchronizing "make" mode.  */
          if (output_sync && sync_cmd)
            {
              int outfd = fileno (stdout);
              int errfd = fileno (stderr);

              if ((child->outfd >= 0 && (close (outfd) == -1
                                         || dup2 (child->outfd, outfd) == -1))
                  || (child->errfd >= 0 && (close (errfd) == -1
                                            || dup2 (child->errfd, errfd) == -1)))
                perror_with_name ("output-sync: ", "dup2()");
            }
#endif /* OUTPUT_SYNC */

	  child_execute_job (child->good_stdin ? 0 : bad_stdin, 1,
                             argv, child->environment);
	}
      else if (child->pid < 0)
	{
	  /* Fork failed!  */
	  unblock_sigs ();
	  perror_with_name ("fork", "");
	  goto error;
	}
# endif  /* !__EMX__ */
#endif /* !VMS */
    }

#else	/* __MSDOS__ or Amiga or WINDOWS32 */
#ifdef __MSDOS__
  {
    int proc_return;

    block_sigs ();
    dos_status = 0;

    /* We call 'system' to do the job of the SHELL, since stock DOS
       shell is too dumb.  Our 'system' knows how to handle long
       command lines even if pipes/redirection is needed; it will only
       call COMMAND.COM when its internal commands are used.  */
    if (execute_by_shell)
      {
	char *cmdline = argv[0];
	/* We don't have a way to pass environment to 'system',
	   so we need to save and restore ours, sigh...  */
	char **parent_environ = environ;

	environ = child->environment;

	/* If we have a *real* shell, tell 'system' to call
	   it to do everything for us.  */
	if (unixy_shell)
	  {
	    /* A *real* shell on MSDOS may not support long
	       command lines the DJGPP way, so we must use 'system'.  */
	    cmdline = argv[2];	/* get past "shell -c" */
	  }

	dos_command_running = 1;
	proc_return = system (cmdline);
	environ = parent_environ;
	execute_by_shell = 0;	/* for the next time */
      }
    else
      {
	dos_command_running = 1;
	proc_return = spawnvpe (P_WAIT, argv[0], argv, child->environment);
      }

    /* Need to unblock signals before turning off
       dos_command_running, so that child's signals
       will be treated as such (see fatal_error_signal).  */
    unblock_sigs ();
    dos_command_running = 0;

    /* If the child got a signal, dos_status has its
       high 8 bits set, so be careful not to alter them.  */
    if (proc_return == -1)
      dos_status |= 0xff;
    else
      dos_status |= (proc_return & 0xff);
    ++dead_children;
    child->pid = dos_pid++;
  }
#endif /* __MSDOS__ */
#ifdef _AMIGA
  amiga_status = MyExecute (argv);

  ++dead_children;
  child->pid = amiga_pid++;
  if (amiga_batch_file)
  {
     amiga_batch_file = 0;
     DeleteFile (amiga_bname);        /* Ignore errors.  */
  }
#endif	/* Amiga */
#ifdef WINDOWS32
  {
      HANDLE hPID;
      char* arg0;

      /* make UNC paths safe for CreateProcess -- backslash format */
      arg0 = argv[0];
      if (arg0 && arg0[0] == '/' && arg0[1] == '/')
        for ( ; arg0 && *arg0; arg0++)
          if (*arg0 == '/')
            *arg0 = '\\';

      /* make sure CreateProcess() has Path it needs */
      sync_Path_environment();

#ifdef OUTPUT_SYNC
          /* Divert child output if output_sync in use.  Don't capture
             recursive make output unless we are synchronizing "make" mode.  */
          if (output_sync && sync_cmd)
	    hPID = process_easy(argv, child->environment,
				child->outfd, child->errfd);
	  else
#endif
	    hPID = process_easy(argv, child->environment, -1, -1);

      if (hPID != INVALID_HANDLE_VALUE)
        child->pid = (pid_t) hPID;
      else {
        int i;
        unblock_sigs();
        fprintf(stderr,
                _("process_easy() failed to launch process (e=%ld)\n"),
                process_last_err(hPID));
        for (i = 0; argv[i]; i++)
          fprintf(stderr, "%s ", argv[i]);
        fprintf(stderr, _("\nCounted %d args in failed launch\n"), i);
        goto error;
      }
  }
#endif /* WINDOWS32 */
#endif	/* __MSDOS__ or Amiga or WINDOWS32 */

  /* Bump the number of jobs started in this second.  */
  ++job_counter;

  /* We are the parent side.  Set the state to
     say the commands are running and return.  */

  set_command_state (child->file, cs_running);

  /* Free the storage used by the child's argument list.  */
#ifndef VMS
  free (argv[0]);
  free (argv);
#endif

  return;

 error:
  child->file->update_status = 2;
  notice_finished_file (child->file);
  return;
}

/* Try to start a child running.
   Returns nonzero if the child was started (and maybe finished), or zero if
   the load was too high and the child was put on the 'waiting_jobs' chain.  */

static int
start_waiting_job (struct child *c)
{
  struct file *f = c->file;

  /* If we can start a job remotely, we always want to, and don't care about
     the local load average.  We record that the job should be started
     remotely in C->remote for start_job_command to test.  */

  c->remote = start_remote_job_p (1);

  /* If we are running at least one job already and the load average
     is too high, make this one wait.  */
  if (!c->remote
      && ((job_slots_used > 0 && load_too_high ())
#ifdef WINDOWS32
	  || (process_used_slots () >= MAXIMUM_WAIT_OBJECTS)
#endif
	  ))
    {
      /* Put this child on the chain of children waiting for the load average
         to go down.  */
      set_command_state (f, cs_running);
      c->next = waiting_jobs;
      waiting_jobs = c;
      return 0;
    }

  /* Start the first command; reap_children will run later command lines.  */
  start_job_command (c);

  switch (f->command_state)
    {
    case cs_running:
      c->next = children;
      DB (DB_JOBS, (_("Putting child %p (%s) PID %s%s on the chain.\n"),
                    c, c->file->name, pid2str (c->pid),
                    c->remote ? _(" (remote)") : ""));
      children = c;
      /* One more job slot is in use.  */
      ++job_slots_used;
      unblock_sigs ();
      break;

    case cs_not_started:
      /* All the command lines turned out to be empty.  */
      f->update_status = 0;
      /* FALLTHROUGH */

    case cs_finished:
      notice_finished_file (f);
      free_child (c);
      break;

    default:
      assert (f->command_state == cs_finished);
      break;
    }

  return 1;
}

/* Create a 'struct child' for FILE and start its commands running.  */

void
new_job (struct file *file)
{
  struct commands *cmds = file->cmds;
  struct child *c;
  char **lines;
  unsigned int i;

  /* Let any previously decided-upon jobs that are waiting
     for the load to go down start before this new one.  */
  start_waiting_jobs ();

  /* Reap any children that might have finished recently.  */
  reap_children (0, 0);

  /* Chop the commands up into lines if they aren't already.  */
  chop_commands (cmds);

  /* Expand the command lines and store the results in LINES.  */
  lines = xmalloc (cmds->ncommand_lines * sizeof (char *));
  for (i = 0; i < cmds->ncommand_lines; ++i)
    {
      /* Collapse backslash-newline combinations that are inside variable
	 or function references.  These are left alone by the parser so
	 that they will appear in the echoing of commands (where they look
	 nice); and collapsed by construct_command_argv when it tokenizes.
	 But letting them survive inside function invocations loses because
	 we don't want the functions to see them as part of the text.  */

      char *in, *out, *ref;

      /* IN points to where in the line we are scanning.
	 OUT points to where in the line we are writing.
	 When we collapse a backslash-newline combination,
	 IN gets ahead of OUT.  */

      in = out = cmds->command_lines[i];
      while ((ref = strchr (in, '$')) != 0)
	{
	  ++ref;		/* Move past the $.  */

	  if (out != in)
	    /* Copy the text between the end of the last chunk
	       we processed (where IN points) and the new chunk
	       we are about to process (where REF points).  */
	    memmove (out, in, ref - in);

	  /* Move both pointers past the boring stuff.  */
	  out += ref - in;
	  in = ref;

	  if (*ref == '(' || *ref == '{')
	    {
	      char openparen = *ref;
	      char closeparen = openparen == '(' ? ')' : '}';
	      int count;
	      char *p;

	      *out++ = *in++;	/* Copy OPENPAREN.  */
	      /* IN now points past the opening paren or brace.
		 Count parens or braces until it is matched.  */
	      count = 0;
	      while (*in != '\0')
		{
		  if (*in == closeparen && --count < 0)
		    break;
		  else if (*in == '\\' && in[1] == '\n')
		    {
		      /* We have found a backslash-newline inside a
			 variable or function reference.  Eat it and
			 any following whitespace.  */

		      int quoted = 0;
		      for (p = in - 1; p > ref && *p == '\\'; --p)
			quoted = !quoted;

		      if (quoted)
			/* There were two or more backslashes, so this is
			   not really a continuation line.  We don't collapse
			   the quoting backslashes here as is done in
			   collapse_continuations, because the line will
			   be collapsed again after expansion.  */
			*out++ = *in++;
		      else
			{
			  /* Skip the backslash, newline and
			     any following whitespace.  */
			  in = next_token (in + 2);

			  /* Discard any preceding whitespace that has
			     already been written to the output.  */
			  while (out > ref
				 && isblank ((unsigned char)out[-1]))
			    --out;

			  /* Replace it all with a single space.  */
			  *out++ = ' ';
			}
		    }
		  else
		    {
		      if (*in == openparen)
			++count;

		      *out++ = *in++;
		    }
		}
	    }
	}

      /* There are no more references in this line to worry about.
	 Copy the remaining uninteresting text to the output.  */
      if (out != in)
	memmove (out, in, strlen (in) + 1);

      /* Finally, expand the line.  */
      lines[i] = allocated_variable_expand_for_file (cmds->command_lines[i],
						     file);
    }

  /* Start the command sequence, record it in a new
     'struct child', and add that to the chain.  */

  c = xcalloc (sizeof (struct child));
  c->file = file;
  c->command_lines = lines;
  c->sh_batch_file = NULL;
  c->outfd = c->errfd = -1;

  /* Cache dontcare flag because file->dontcare can be changed once we
     return. Check dontcare inheritance mechanism for details.  */
  c->dontcare = file->dontcare;

  /* Fetch the first command line to be run.  */
  job_next_command (c);

  /* Wait for a job slot to be freed up.  If we allow an infinite number
     don't bother; also job_slots will == 0 if we're using the jobserver.  */

  if (job_slots != 0)
    while (job_slots_used == job_slots)
      reap_children (1, 0);

#ifdef MAKE_JOBSERVER
  /* If we are controlling multiple jobs make sure we have a token before
     starting the child. */

  /* This can be inefficient.  There's a decent chance that this job won't
     actually have to run any subprocesses: the command script may be empty
     or otherwise optimized away.  It would be nice if we could defer
     obtaining a token until just before we need it, in start_job_command.
     To do that we'd need to keep track of whether we'd already obtained a
     token (since start_job_command is called for each line of the job, not
     just once).  Also more thought needs to go into the entire algorithm;
     this is where the old parallel job code waits, so...  */

#ifdef WINDOWS32
  else if (has_jobserver_semaphore())
#else
  else if (job_fds[0] >= 0)
#endif
    while (1)
      {
	int got_token;
#ifndef WINDOWS32
        char token;
	int saved_errno;
#endif

        DB (DB_JOBS, ("Need a job token; we %shave children\n",
                      children ? "" : "don't "));

        /* If we don't already have a job started, use our "free" token.  */
        if (!jobserver_tokens)
          break;

#ifndef WINDOWS32
        /* Read a token.  As long as there's no token available we'll block.
           We enable interruptible system calls before the read(2) so that if
           we get a SIGCHLD while we're waiting, we'll return with EINTR and
           we can process the death(s) and return tokens to the free pool.

           Once we return from the read, we immediately reinstate restartable
           system calls.  This allows us to not worry about checking for
           EINTR on all the other system calls in the program.

           There is one other twist: there is a span between the time
           reap_children() does its last check for dead children and the time
           the read(2) call is entered, below, where if a child dies we won't
           notice.  This is extremely serious as it could cause us to
           deadlock, given the right set of events.

           To avoid this, we do the following: before we reap_children(), we
           dup(2) the read FD on the jobserver pipe.  The read(2) call below
           uses that new FD.  In the signal handler, we close that FD.  That
           way, if a child dies during the section mentioned above, the
           read(2) will be invoked with an invalid FD and will return
           immediately with EBADF.  */

        /* Make sure we have a dup'd FD.  */
        if (job_rfd < 0)
          {
            DB (DB_JOBS, ("Duplicate the job FD\n"));
            job_rfd = dup (job_fds[0]);
          }
#endif

        /* Reap anything that's currently waiting.  */
        reap_children (0, 0);

        /* Kick off any jobs we have waiting for an opportunity that
           can run now (i.e., waiting for load). */
        start_waiting_jobs ();

        /* If our "free" slot has become available, use it; we don't need an
           actual token.  */
        if (!jobserver_tokens)
          break;

        /* There must be at least one child already, or we have no business
           waiting for a token. */
        if (!children)
          fatal (NILF, "INTERNAL: no children as we go to sleep on read\n");

#ifdef WINDOWS32
        /* On Windows we simply wait for the jobserver semaphore to become
         * signalled or one of our child processes to terminate.
         */
        got_token = wait_for_semaphore_or_child_process();
        if (got_token < 0)
          {
            DWORD err = GetLastError();
            fatal (NILF, _("semaphore or child process wait: (Error %ld: %s)"),
                   err, map_windows32_error_to_string(err));
          }
#else
        /* Set interruptible system calls, and read() for a job token.  */
	set_child_handler_action_flags (1, waiting_jobs != NULL);
	got_token = read (job_rfd, &token, 1);
	saved_errno = errno;
	set_child_handler_action_flags (0, waiting_jobs != NULL);
#endif

        /* If we got one, we're done here.  */
	if (got_token == 1)
          {
            DB (DB_JOBS, (_("Obtained token for child %p (%s).\n"),
                          c, c->file->name));
            break;
          }

#ifndef WINDOWS32
        /* If the error _wasn't_ expected (EINTR or EBADF), punt.  Otherwise,
           go back and reap_children(), and try again.  */
	errno = saved_errno;
        if (errno != EINTR && errno != EBADF)
          pfatal_with_name (_("read jobs pipe"));
        if (errno == EBADF)
          DB (DB_JOBS, ("Read returned EBADF.\n"));
#endif
      }
#endif

  ++jobserver_tokens;

  /* Trace the build.
     Use message here so that changes to working directories are logged.  */
  if (trace_flag & TRACE_RULE)
    {
      char *newer = allocated_variable_expand_for_file ("$?", c->file);
      const char *nm;

      if (! cmds->fileinfo.filenm)
        nm = _("<builtin>");
      else
        {
          char *n = alloca (strlen (cmds->fileinfo.filenm) + 1 + 11 + 1);
          sprintf (n, "%s:%lu", cmds->fileinfo.filenm, cmds->fileinfo.lineno);
          nm = n;
        }

      if (newer[0] == '\0')
        message (0, _("%s: target '%s' does not exist"), nm, c->file->name);
      else
        message (0, _("%s: update target '%s' due to: %s"), nm,
                 c->file->name, newer);

      free (newer);
    }


  /* The job is now primed.  Start it running.
     (This will notice if there is in fact no recipe.)  */
  start_waiting_job (c);

  if (job_slots == 1 || not_parallel)
    /* Since there is only one job slot, make things run linearly.
       Wait for the child to die, setting the state to 'cs_finished'.  */
    while (file->command_state == cs_running)
      reap_children (1, 0);

  return;
}

/* Move CHILD's pointers to the next command for it to execute.
   Returns nonzero if there is another command.  */

static int
job_next_command (struct child *child)
{
  while (child->command_ptr == 0 || *child->command_ptr == '\0')
    {
      /* There are no more lines in the expansion of this line.  */
      if (child->command_line == child->file->cmds->ncommand_lines)
	{
	  /* There are no more lines to be expanded.  */
	  child->command_ptr = 0;
	  return 0;
	}
      else
	/* Get the next line to run.  */
	child->command_ptr = child->command_lines[child->command_line++];
    }
  return 1;
}

/* Determine if the load average on the system is too high to start a new job.
   The real system load average is only recomputed once a second.  However, a
   very parallel make can easily start tens or even hundreds of jobs in a
   second, which brings the system to its knees for a while until that first
   batch of jobs clears out.

   To avoid this we use a weighted algorithm to try to account for jobs which
   have been started since the last second, and guess what the load average
   would be now if it were computed.

   This algorithm was provided by Thomas Riedl <thomas.riedl@siemens.com>,
   who writes:

!      calculate something load-oid and add to the observed sys.load,
!      so that latter can catch up:
!      - every job started increases jobctr;
!      - every dying job decreases a positive jobctr;
!      - the jobctr value gets zeroed every change of seconds,
!        after its value*weight_b is stored into the 'backlog' value last_sec
!      - weight_a times the sum of jobctr and last_sec gets
!        added to the observed sys.load.
!
!      The two weights have been tried out on 24 and 48 proc. Sun Solaris-9
!      machines, using a several-thousand-jobs-mix of cpp, cc, cxx and smallish
!      sub-shelled commands (rm, echo, sed...) for tests.
!      lowering the 'direct influence' factor weight_a (e.g. to 0.1)
!      resulted in significant excession of the load limit, raising it
!      (e.g. to 0.5) took bad to small, fast-executing jobs and didn't
!      reach the limit in most test cases.
!
!      lowering the 'history influence' weight_b (e.g. to 0.1) resulted in
!      exceeding the limit for longer-running stuff (compile jobs in
!      the .5 to 1.5 sec. range),raising it (e.g. to 0.5) overrepresented
!      small jobs' effects.

 */

#define LOAD_WEIGHT_A           0.25
#define LOAD_WEIGHT_B           0.25

static int
load_too_high (void)
{
#if defined(__MSDOS__) || defined(VMS) || defined(_AMIGA) || defined(__riscos__)
  return 1;
#else
  static double last_sec;
  static time_t last_now;
  double load, guess;
  time_t now;

#ifdef WINDOWS32
  /* sub_proc.c cannot wait for more than MAXIMUM_WAIT_OBJECTS children */
  if (process_used_slots () >= MAXIMUM_WAIT_OBJECTS)
    return 1;
#endif

  if (max_load_average < 0)
    return 0;

  /* Find the real system load average.  */
  make_access ();
  if (getloadavg (&load, 1) != 1)
    {
      static int lossage = -1;
      /* Complain only once for the same error.  */
      if (lossage == -1 || errno != lossage)
	{
	  if (errno == 0)
	    /* An errno value of zero means getloadavg is just unsupported.  */
	    error (NILF,
                   _("cannot enforce load limits on this operating system"));
	  else
	    perror_with_name (_("cannot enforce load limit: "), "getloadavg");
	}
      lossage = errno;
      load = 0;
    }
  user_access ();

  /* If we're in a new second zero the counter and correct the backlog
     value.  Only keep the backlog for one extra second; after that it's 0.  */
  now = time (NULL);
  if (last_now < now)
    {
      if (last_now == now - 1)
        last_sec = LOAD_WEIGHT_B * job_counter;
      else
        last_sec = 0.0;

      job_counter = 0;
      last_now = now;
    }

  /* Try to guess what the load would be right now.  */
  guess = load + (LOAD_WEIGHT_A * (job_counter + last_sec));

  DB (DB_JOBS, ("Estimated system load = %f (actual = %f) (max requested = %f)\n",
                guess, load, max_load_average));

  return guess >= max_load_average;
#endif
}

/* Start jobs that are waiting for the load to be lower.  */

void
start_waiting_jobs (void)
{
  struct child *job;

  if (waiting_jobs == 0)
    return;

  do
    {
      /* Check for recently deceased descendants.  */
      reap_children (0, 0);

      /* Take a job off the waiting list.  */
      job = waiting_jobs;
      waiting_jobs = job->next;

      /* Try to start that job.  We break out of the loop as soon
	 as start_waiting_job puts one back on the waiting list.  */
    }
  while (start_waiting_job (job) && waiting_jobs != 0);

  return;
}

#ifndef WINDOWS32

/* EMX: Start a child process. This function returns the new pid.  */
# if defined __EMX__
int
child_execute_job (int stdin_fd, int stdout_fd, char **argv, char **envp)
{
  int pid;
  /* stdin_fd == 0 means: nothing to do for stdin;
     stdout_fd == 1 means: nothing to do for stdout */
  int save_stdin = (stdin_fd != 0) ? dup (0) : 0;
  int save_stdout = (stdout_fd != 1) ? dup (1): 1;

  /* < 0 only if dup() failed */
  if (save_stdin < 0)
    fatal (NILF, _("no more file handles: could not duplicate stdin\n"));
  if (save_stdout < 0)
    fatal (NILF, _("no more file handles: could not duplicate stdout\n"));

  /* Close unnecessary file handles for the child.  */
  if (save_stdin != 0)
    CLOSE_ON_EXEC (save_stdin);
  if (save_stdout != 1)
    CLOSE_ON_EXEC (save_stdout);

  /* Connect the pipes to the child process.  */
  if (stdin_fd != 0)
    (void) dup2 (stdin_fd, 0);
  if (stdout_fd != 1)
    (void) dup2 (stdout_fd, 1);

  /* stdin_fd and stdout_fd must be closed on exit because we are
     still in the parent process */
  if (stdin_fd != 0)
    CLOSE_ON_EXEC (stdin_fd);
  if (stdout_fd != 1)
    CLOSE_ON_EXEC (stdout_fd);

  /* Run the command.  */
  pid = exec_command (argv, envp);

  /* Restore stdout/stdin of the parent and close temporary FDs.  */
  if (stdin_fd != 0)
    {
      if (dup2 (save_stdin, 0) != 0)
        fatal (NILF, _("Could not restore stdin\n"));
      else
        close (save_stdin);
    }

  if (stdout_fd != 1)
    {
      if (dup2 (save_stdout, 1) != 1)
        fatal (NILF, _("Could not restore stdout\n"));
      else
        close (save_stdout);
    }

  return pid;
}

#elif !defined (_AMIGA) && !defined (__MSDOS__) && !defined (VMS)

/* UNIX:
   Replace the current process with one executing the command in ARGV.
   STDIN_FD and STDOUT_FD are used as the process's stdin and stdout; ENVP is
   the environment of the new program.  This function does not return.  */
void
child_execute_job (int stdin_fd, int stdout_fd, char **argv, char **envp)
{
  if (stdin_fd != 0)
    (void) dup2 (stdin_fd, 0);
  if (stdout_fd != 1)
    (void) dup2 (stdout_fd, 1);
  if (stdin_fd != 0)
    (void) close (stdin_fd);
  if (stdout_fd != 1)
    (void) close (stdout_fd);

  /* Run the command.  */
  exec_command (argv, envp);
}
#endif /* !AMIGA && !__MSDOS__ && !VMS */
#endif /* !WINDOWS32 */

#ifndef _AMIGA
/* Replace the current process with one running the command in ARGV,
   with environment ENVP.  This function does not return.  */

/* EMX: This function returns the pid of the child process.  */
# ifdef __EMX__
int
# else
void
# endif
exec_command (char **argv, char **envp)
{
#ifdef VMS
  /* to work around a problem with signals and execve: ignore them */
#ifdef SIGCHLD
  signal (SIGCHLD,SIG_IGN);
#endif
  /* Run the program.  */
  execve (argv[0], argv, envp);
  perror_with_name ("execve: ", argv[0]);
  _exit (EXIT_FAILURE);
#else
#ifdef WINDOWS32
  HANDLE hPID;
  HANDLE hWaitPID;
  int err = 0;
  int exit_code = EXIT_FAILURE;

  /* make sure CreateProcess() has Path it needs */
  sync_Path_environment();

  /* launch command */
  hPID = process_easy(argv, envp, -1, -1);

  /* make sure launch ok */
  if (hPID == INVALID_HANDLE_VALUE)
    {
      int i;
      fprintf(stderr,
              _("process_easy() failed to launch process (e=%ld)\n"),
              process_last_err(hPID));
      for (i = 0; argv[i]; i++)
          fprintf(stderr, "%s ", argv[i]);
      fprintf(stderr, _("\nCounted %d args in failed launch\n"), i);
      exit(EXIT_FAILURE);
    }

  /* wait and reap last child */
  hWaitPID = process_wait_for_any(1, 0);
  while (hWaitPID)
    {
      /* was an error found on this process? */
      err = process_last_err(hWaitPID);

      /* get exit data */
      exit_code = process_exit_code(hWaitPID);

      if (err)
          fprintf(stderr, "make (e=%d, rc=%d): %s",
                  err, exit_code, map_windows32_error_to_string(err));

      /* cleanup process */
      process_cleanup(hWaitPID);

      /* expect to find only last pid, warn about other pids reaped */
      if (hWaitPID == hPID)
          break;
      else
	{
	  char *pidstr = xstrdup (pid2str ((pid_t)hWaitPID));

          fprintf(stderr,
                  _("make reaped child pid %s, still waiting for pid %s\n"),
		  pidstr, pid2str ((pid_t)hPID));
	  free (pidstr);
	}
    }

  /* return child's exit code as our exit code */
  exit(exit_code);

#else  /* !WINDOWS32 */

# ifdef __EMX__
  int pid;
# endif

  /* Be the user, permanently.  */
  child_access ();

# ifdef __EMX__

  /* Run the program.  */
  pid = spawnvpe (P_NOWAIT, argv[0], argv, envp);

  if (pid >= 0)
    return pid;

  /* the file might have a strange shell extension */
  if (errno == ENOENT)
    errno = ENOEXEC;

# else

  /* Run the program.  */
  environ = envp;
  execvp (argv[0], argv);

# endif /* !__EMX__ */

  switch (errno)
    {
    case ENOENT:
      error (NILF, _("%s: Command not found"), argv[0]);
      break;
    case ENOEXEC:
      {
	/* The file is not executable.  Try it as a shell script.  */
	extern char *getenv ();
	char *shell;
	char **new_argv;
	int argc;
        int i=1;

# ifdef __EMX__
        /* Do not use $SHELL from the environment */
	struct variable *p = lookup_variable ("SHELL", 5);
	if (p)
	  shell = p->value;
        else
          shell = 0;
# else
	shell = getenv ("SHELL");
# endif
	if (shell == 0)
	  shell = default_shell;

	argc = 1;
	while (argv[argc] != 0)
	  ++argc;

# ifdef __EMX__
        if (!unixy_shell)
          ++argc;
# endif

	new_argv = alloca ((1 + argc + 1) * sizeof (char *));
	new_argv[0] = shell;

# ifdef __EMX__
        if (!unixy_shell)
          {
            new_argv[1] = "/c";
            ++i;
            --argc;
          }
# endif

        new_argv[i] = argv[0];
	while (argc > 0)
	  {
	    new_argv[i + argc] = argv[argc];
	    --argc;
	  }

# ifdef __EMX__
	pid = spawnvpe (P_NOWAIT, shell, new_argv, envp);
	if (pid >= 0)
          break;
# else
	execvp (shell, new_argv);
# endif
	if (errno == ENOENT)
	  error (NILF, _("%s: Shell program not found"), shell);
	else
	  perror_with_name ("execvp: ", shell);
	break;
      }

# ifdef __EMX__
    case EINVAL:
      /* this nasty error was driving me nuts :-( */
      error (NILF, _("spawnvpe: environment space might be exhausted"));
      /* FALLTHROUGH */
# endif

    default:
      perror_with_name ("execvp: ", argv[0]);
      break;
    }

# ifdef __EMX__
  return pid;
# else
  _exit (127);
# endif
#endif /* !WINDOWS32 */
#endif /* !VMS */
}
#else /* On Amiga */
void exec_command (char **argv)
{
  MyExecute (argv);
}

void clean_tmp (void)
{
  DeleteFile (amiga_bname);
}

#endif /* On Amiga */

#ifndef VMS
/* Figure out the argument list necessary to run LINE as a command.  Try to
   avoid using a shell.  This routine handles only ' quoting, and " quoting
   when no backslash, $ or ' characters are seen in the quotes.  Starting
   quotes may be escaped with a backslash.  If any of the characters in
   sh_chars[] is seen, or any of the builtin commands listed in sh_cmds[]
   is the first word of a line, the shell is used.

   If RESTP is not NULL, *RESTP is set to point to the first newline in LINE.
   If *RESTP is NULL, newlines will be ignored.

   SHELL is the shell to use, or nil to use the default shell.
   IFS is the value of $IFS, or nil (meaning the default).

   FLAGS is the value of lines_flags for this command line.  It is
   used in the WINDOWS32 port to check whether + or $(MAKE) were found
   in this command line, in which case the effect of just_print_flag
   is overridden.  */

static char **
construct_command_argv_internal (char *line, char **restp, char *shell,
                                 char *shellflags, char *ifs, int flags,
                                 char **batch_filename UNUSED)
{
#ifdef __MSDOS__
  /* MSDOS supports both the stock DOS shell and ports of Unixy shells.
     We call 'system' for anything that requires ''slow'' processing,
     because DOS shells are too dumb.  When $SHELL points to a real
     (unix-style) shell, 'system' just calls it to do everything.  When
     $SHELL points to a DOS shell, 'system' does most of the work
     internally, calling the shell only for its internal commands.
     However, it looks on the $PATH first, so you can e.g. have an
     external command named 'mkdir'.

     Since we call 'system', certain characters and commands below are
     actually not specific to COMMAND.COM, but to the DJGPP implementation
     of 'system'.  In particular:

       The shell wildcard characters are in DOS_CHARS because they will
       not be expanded if we call the child via 'spawnXX'.

       The ';' is in DOS_CHARS, because our 'system' knows how to run
       multiple commands on a single line.

       DOS_CHARS also include characters special to 4DOS/NDOS, so we
       won't have to tell one from another and have one more set of
       commands and special characters.  */
  static char sh_chars_dos[] = "*?[];|<>%^&()";
  static char *sh_cmds_dos[] = { "break", "call", "cd", "chcp", "chdir", "cls",
				 "copy", "ctty", "date", "del", "dir", "echo",
				 "erase", "exit", "for", "goto", "if", "md",
				 "mkdir", "path", "pause", "prompt", "rd",
				 "rmdir", "rem", "ren", "rename", "set",
				 "shift", "time", "type", "ver", "verify",
				 "vol", ":", 0 };

  static char sh_chars_sh[]  = "#;\"*?[]&|<>(){}$`^";
  static char *sh_cmds_sh[]  = { "cd", "echo", "eval", "exec", "exit", "login",
				 "logout", "set", "umask", "wait", "while",
				 "for", "case", "if", ":", ".", "break",
				 "continue", "export", "read", "readonly",
				 "shift", "times", "trap", "switch", "unset",
                                 "ulimit", 0 };

  char *sh_chars;
  char **sh_cmds;
#elif defined (__EMX__)
  static char sh_chars_dos[] = "*?[];|<>%^&()";
  static char *sh_cmds_dos[] = { "break", "call", "cd", "chcp", "chdir", "cls",
				 "copy", "ctty", "date", "del", "dir", "echo",
				 "erase", "exit", "for", "goto", "if", "md",
				 "mkdir", "path", "pause", "prompt", "rd",
				 "rmdir", "rem", "ren", "rename", "set",
				 "shift", "time", "type", "ver", "verify",
				 "vol", ":", 0 };

  static char sh_chars_os2[] = "*?[];|<>%^()\"'&";
  static char *sh_cmds_os2[] = { "call", "cd", "chcp", "chdir", "cls", "copy",
			     "date", "del", "detach", "dir", "echo",
			     "endlocal", "erase", "exit", "for", "goto", "if",
			     "keys", "md", "mkdir", "move", "path", "pause",
			     "prompt", "rd", "rem", "ren", "rename", "rmdir",
			     "set", "setlocal", "shift", "start", "time",
                             "type", "ver", "verify", "vol", ":", 0 };

  static char sh_chars_sh[]  = "#;\"*?[]&|<>(){}$`^~'";
  static char *sh_cmds_sh[]  = { "echo", "cd", "eval", "exec", "exit", "login",
				 "logout", "set", "umask", "wait", "while",
				 "for", "case", "if", ":", ".", "break",
				 "continue", "export", "read", "readonly",
				 "shift", "times", "trap", "switch", "unset",
                                 0 };
  char *sh_chars;
  char **sh_cmds;

#elif defined (_AMIGA)
  static char sh_chars[] = "#;\"|<>()?*$`";
  static char *sh_cmds[] = { "cd", "eval", "if", "delete", "echo", "copy",
			     "rename", "set", "setenv", "date", "makedir",
			     "skip", "else", "endif", "path", "prompt",
			     "unset", "unsetenv", "version",
			     0 };
#elif defined (WINDOWS32)
  /* We used to have a double quote (") in sh_chars_dos[] below, but
     that caused any command line with quoted file names be run
     through a temporary batch file, which introduces command-line
     limit of 4K charcaters imposed by cmd.exe.  Since CreateProcess
     can handle quoted file names just fine, removing the quote lifts
     the limit from a very frequent use case, because using quoted
     file names is commonplace on MS-Windows.  */
  static char sh_chars_dos[] = "|&<>";
  static char *sh_cmds_dos[] = { "assoc", "break", "call", "cd", "chcp",
				 "chdir", "cls", "color", "copy", "ctty",
				 "date", "del", "dir", "echo", "echo.",
				 "endlocal", "erase", "exit", "for", "ftype",
				 "goto", "if", "if", "md", "mkdir", "path",
				 "pause", "prompt", "rd", "rem", "ren",
				 "rename", "rmdir", "set", "setlocal",
				 "shift", "time", "title", "type", "ver",
				 "verify", "vol", ":", 0 };
  static char sh_chars_sh[] = "#;\"*?[]&|<>(){}$`^";
  static char *sh_cmds_sh[] = { "cd", "eval", "exec", "exit", "login",
			     "logout", "set", "umask", "wait", "while", "for",
			     "case", "if", ":", ".", "break", "continue",
			     "export", "read", "readonly", "shift", "times",
			     "trap", "switch", "test",
#ifdef BATCH_MODE_ONLY_SHELL
                 "echo",
#endif
                 0 };
  char*  sh_chars;
  char** sh_cmds;
#elif defined(__riscos__)
  static char sh_chars[] = "";
  static char *sh_cmds[] = { 0 };
#else  /* must be UNIX-ish */
  static char sh_chars[] = "#;\"*?[]&|<>(){}$`^~!";
  static char *sh_cmds[] = { ".", ":", "break", "case", "cd", "continue",
                             "eval", "exec", "exit", "export", "for", "if",
                             "login", "logout", "read", "readonly", "set",
                             "shift", "switch", "test", "times", "trap",
                             "ulimit", "umask", "unset", "wait", "while", 0 };
# ifdef HAVE_DOS_PATHS
  /* This is required if the MSYS/Cygwin ports (which do not define
     WINDOWS32) are compiled with HAVE_DOS_PATHS defined, which uses
     sh_chars_sh[] directly (see below).  */
  static char *sh_chars_sh = sh_chars;
# endif	 /* HAVE_DOS_PATHS */
#endif
  int i;
  char *p;
  char *ap;
  char *end;
  int instring, word_has_equals, seen_nonequals, last_argument_was_empty;
  char **new_argv = 0;
  char *argstr = 0;
#ifdef WINDOWS32
  int slow_flag = 0;

  if (!unixy_shell) {
    sh_cmds = sh_cmds_dos;
    sh_chars = sh_chars_dos;
  } else {
    sh_cmds = sh_cmds_sh;
    sh_chars = sh_chars_sh;
  }
#endif /* WINDOWS32 */

  if (restp != NULL)
    *restp = NULL;

  /* Make sure not to bother processing an empty line.  */
  while (isblank ((unsigned char)*line))
    ++line;
  if (*line == '\0')
    return 0;

  if (shellflags == 0)
    shellflags = posix_pedantic ? "-ec" : "-c";

  /* See if it is safe to parse commands internally.  */
  if (shell == 0)
    shell = default_shell;
#ifdef WINDOWS32
  else if (strcmp (shell, default_shell))
  {
    char *s1 = _fullpath (NULL, shell, 0);
    char *s2 = _fullpath (NULL, default_shell, 0);

    slow_flag = strcmp ((s1 ? s1 : ""), (s2 ? s2 : ""));

    if (s1)
      free (s1);
    if (s2)
      free (s2);
  }
  if (slow_flag)
    goto slow;
#else  /* not WINDOWS32 */
#if defined (__MSDOS__) || defined (__EMX__)
  else if (strcasecmp (shell, default_shell))
    {
      extern int _is_unixy_shell (const char *_path);

      DB (DB_BASIC, (_("$SHELL changed (was '%s', now '%s')\n"),
                     default_shell, shell));
      unixy_shell = _is_unixy_shell (shell);
      /* we must allocate a copy of shell: construct_command_argv() will free
       * shell after this function returns.  */
      default_shell = xstrdup (shell);
    }
  if (unixy_shell)
    {
      sh_chars = sh_chars_sh;
      sh_cmds  = sh_cmds_sh;
    }
  else
    {
      sh_chars = sh_chars_dos;
      sh_cmds  = sh_cmds_dos;
# ifdef __EMX__
      if (_osmode == OS2_MODE)
        {
          sh_chars = sh_chars_os2;
          sh_cmds = sh_cmds_os2;
        }
# endif
    }
#else  /* !__MSDOS__ */
  else if (strcmp (shell, default_shell))
    goto slow;
#endif /* !__MSDOS__ && !__EMX__ */
#endif /* not WINDOWS32 */

  if (ifs != 0)
    for (ap = ifs; *ap != '\0'; ++ap)
      if (*ap != ' ' && *ap != '\t' && *ap != '\n')
	goto slow;

  if (shellflags != 0)
    if (shellflags[0] != '-'
        || ((shellflags[1] != 'c' || shellflags[2] != '\0')
            && (shellflags[1] != 'e' || shellflags[2] != 'c' || shellflags[3] != '\0')))
      goto slow;

  i = strlen (line) + 1;

  /* More than 1 arg per character is impossible.  */
  new_argv = xmalloc (i * sizeof (char *));

  /* All the args can fit in a buffer as big as LINE is.   */
  ap = new_argv[0] = argstr = xmalloc (i);
  end = ap + i;

  /* I is how many complete arguments have been found.  */
  i = 0;
  instring = word_has_equals = seen_nonequals = last_argument_was_empty = 0;
  for (p = line; *p != '\0'; ++p)
    {
      assert (ap <= end);

      if (instring)
	{
	  /* Inside a string, just copy any char except a closing quote
	     or a backslash-newline combination.  */
	  if (*p == instring)
	    {
	      instring = 0;
	      if (ap == new_argv[0] || *(ap-1) == '\0')
		last_argument_was_empty = 1;
	    }
	  else if (*p == '\\' && p[1] == '\n')
            {
              /* Backslash-newline is handled differently depending on what
                 kind of string we're in: inside single-quoted strings you
                 keep them; in double-quoted strings they disappear.  For
                 DOS/Windows/OS2, if we don't have a POSIX shell, we keep the
                 pre-POSIX behavior of removing the backslash-newline.  */
              if (instring == '"'
#if defined (__MSDOS__) || defined (__EMX__) || defined (WINDOWS32)
		  || !unixy_shell
#endif
		  )
                ++p;
              else
                {
                  *(ap++) = *(p++);
                  *(ap++) = *p;
                }
            }
	  else if (*p == '\n' && restp != NULL)
	    {
	      /* End of the command line.  */
	      *restp = p;
	      goto end_of_line;
	    }
	  /* Backslash, $, and ` are special inside double quotes.
	     If we see any of those, punt.
	     But on MSDOS, if we use COMMAND.COM, double and single
	     quotes have the same effect.  */
	  else if (instring == '"' && strchr ("\\$`", *p) != 0 && unixy_shell)
	    goto slow;
#ifdef WINDOWS32
	  else if (instring == '"' && strncmp (p, "\\\"", 2) == 0)
	    *ap++ = *++p;
#endif
	  else
	    *ap++ = *p;
	}
      else if (strchr (sh_chars, *p) != 0)
	/* Not inside a string, but it's a special char.  */
	goto slow;
      else if (one_shell && *p == '\n')
	/* In .ONESHELL mode \n is a separator like ; or && */
	goto slow;
#ifdef  __MSDOS__
      else if (*p == '.' && p[1] == '.' && p[2] == '.' && p[3] != '.')
	/* '...' is a wildcard in DJGPP.  */
	goto slow;
#endif
      else
	/* Not a special char.  */
	switch (*p)
	  {
	  case '=':
	    /* Equals is a special character in leading words before the
	       first word with no equals sign in it.  This is not the case
	       with sh -k, but we never get here when using nonstandard
	       shell flags.  */
	    if (! seen_nonequals && unixy_shell)
	      goto slow;
	    word_has_equals = 1;
	    *ap++ = '=';
	    break;

	  case '\\':
	    /* Backslash-newline has special case handling, ref POSIX.
               We're in the fastpath, so emulate what the shell would do.  */
	    if (p[1] == '\n')
	      {
		/* Throw out the backslash and newline.  */
                ++p;

                /* If there's nothing in this argument yet, skip any
                   whitespace before the start of the next word.  */
                if (ap == new_argv[i])
                  p = next_token (p + 1) - 1;
	      }
#ifdef WINDOWS32
	    /* Backslash before whitespace is not special if our shell
	       is not Unixy.  */
	    else if (isspace (p[1]) && !unixy_shell)
	      {
		*ap++ = *p;
		break;
	      }
#endif
	    else if (p[1] != '\0')
              {
#ifdef HAVE_DOS_PATHS
                /* Only remove backslashes before characters special to Unixy
                   shells.  All other backslashes are copied verbatim, since
                   they are probably DOS-style directory separators.  This
                   still leaves a small window for problems, but at least it
                   should work for the vast majority of naive users.  */

#ifdef __MSDOS__
                /* A dot is only special as part of the "..."
                   wildcard.  */
                if (strneq (p + 1, ".\\.\\.", 5))
                  {
                    *ap++ = '.';
                    *ap++ = '.';
                    p += 4;
                  }
                else
#endif
                  if (p[1] != '\\' && p[1] != '\''
                      && !isspace ((unsigned char)p[1])
                      && strchr (sh_chars_sh, p[1]) == 0)
                    /* back up one notch, to copy the backslash */
                    --p;
#endif  /* HAVE_DOS_PATHS */

                /* Copy and skip the following char.  */
                *ap++ = *++p;
              }
	    break;

	  case '\'':
	  case '"':
	    instring = *p;
	    break;

	  case '\n':
	    if (restp != NULL)
	      {
		/* End of the command line.  */
		*restp = p;
		goto end_of_line;
	      }
	    else
	      /* Newlines are not special.  */
	      *ap++ = '\n';
	    break;

	  case ' ':
	  case '\t':
	    /* We have the end of an argument.
	       Terminate the text of the argument.  */
	    *ap++ = '\0';
	    new_argv[++i] = ap;
	    last_argument_was_empty = 0;

	    /* Update SEEN_NONEQUALS, which tells us if every word
	       heretofore has contained an '='.  */
	    seen_nonequals |= ! word_has_equals;
	    if (word_has_equals && ! seen_nonequals)
	      /* An '=' in a word before the first
		 word without one is magical.  */
	      goto slow;
	    word_has_equals = 0; /* Prepare for the next word.  */

	    /* If this argument is the command name,
	       see if it is a built-in shell command.
	       If so, have the shell handle it.  */
	    if (i == 1)
	      {
		register int j;
		for (j = 0; sh_cmds[j] != 0; ++j)
                  {
                    if (streq (sh_cmds[j], new_argv[0]))
                      goto slow;
# ifdef __EMX__
                    /* Non-Unix shells are case insensitive.  */
                    if (!unixy_shell
                        && strcasecmp (sh_cmds[j], new_argv[0]) == 0)
                      goto slow;
# endif
                  }
	      }

	    /* Ignore multiple whitespace chars.  */
	    p = next_token (p) - 1;
	    break;

	  default:
	    *ap++ = *p;
	    break;
	  }
    }
 end_of_line:

  if (instring)
    /* Let the shell deal with an unterminated quote.  */
    goto slow;

  /* Terminate the last argument and the argument list.  */

  *ap = '\0';
  if (new_argv[i][0] != '\0' || last_argument_was_empty)
    ++i;
  new_argv[i] = 0;

  if (i == 1)
    {
      register int j;
      for (j = 0; sh_cmds[j] != 0; ++j)
	if (streq (sh_cmds[j], new_argv[0]))
	  goto slow;
    }

  if (new_argv[0] == 0)
    {
      /* Line was empty.  */
      free (argstr);
      free (new_argv);
      return 0;
    }

  return new_argv;

 slow:;
  /* We must use the shell.  */

  if (new_argv != 0)
    {
      /* Free the old argument list we were working on.  */
      free (argstr);
      free (new_argv);
    }

#ifdef __MSDOS__
  execute_by_shell = 1;	/* actually, call 'system' if shell isn't unixy */
#endif

#ifdef _AMIGA
  {
    char *ptr;
    char *buffer;
    char *dptr;

    buffer = xmalloc (strlen (line)+1);

    ptr = line;
    for (dptr=buffer; *ptr; )
    {
      if (*ptr == '\\' && ptr[1] == '\n')
	ptr += 2;
      else if (*ptr == '@') /* Kludge: multiline commands */
      {
	ptr += 2;
	*dptr++ = '\n';
      }
      else
	*dptr++ = *ptr++;
    }
    *dptr = 0;

    new_argv = xmalloc (2 * sizeof (char *));
    new_argv[0] = buffer;
    new_argv[1] = 0;
  }
#else	/* Not Amiga  */
#ifdef WINDOWS32
  /*
   * Not eating this whitespace caused things like
   *
   *    sh -c "\n"
   *
   * which gave the shell fits. I think we have to eat
   * whitespace here, but this code should be considered
   * suspicious if things start failing....
   */

  /* Make sure not to bother processing an empty line.  */
  while (isspace ((unsigned char)*line))
    ++line;
  if (*line == '\0')
    return 0;
#endif /* WINDOWS32 */

  {
    /* SHELL may be a multi-word command.  Construct a command line
       "$(SHELL) $(.SHELLFLAGS) LINE", with all special chars in LINE escaped.
       Then recurse, expanding this command line to get the final
       argument list.  */

    unsigned int shell_len = strlen (shell);
    unsigned int line_len = strlen (line);
    unsigned int sflags_len = shellflags ? strlen (shellflags) : 0;
    char *command_ptr = NULL; /* used for batch_mode_shell mode */
    char *new_line;

# ifdef __EMX__ /* is this necessary? */
    if (!unixy_shell && shellflags)
      shellflags[0] = '/'; /* "/c" */
# endif

    /* In .ONESHELL mode we are allowed to throw the entire current
	recipe string at a single shell and trust that the user
	has configured the shell and shell flags, and formatted
	the string, appropriately. */
    if (one_shell)
      {
	/* If the shell is Bourne compatible, we must remove and ignore
	   interior special chars [@+-] because they're meaningless to
	   the shell itself. If, however, we're in .ONESHELL mode and
	   have changed SHELL to something non-standard, we should
	   leave those alone because they could be part of the
	   script. In this case we must also leave in place
	   any leading [@+-] for the same reason.  */

	/* Remove and ignore interior prefix chars [@+-] because they're
	     meaningless given a single shell. */
#if defined __MSDOS__ || defined (__EMX__)
	if (unixy_shell)     /* the test is complicated and we already did it */
#else
	if (is_bourne_compatible_shell(shell)
#ifdef WINDOWS32
	    /* If we didn't find any sh.exe, don't behave is if we did!  */
	    && !no_default_sh_exe
#endif
	    )
#endif
          {
            const char *f = line;
            char *t = line;

            /* Copy the recipe, removing and ignoring interior prefix chars
               [@+-]: they're meaningless in .ONESHELL mode.  */
            while (f[0] != '\0')
              {
                int esc = 0;

                /* This is the start of a new recipe line.
                   Skip whitespace and prefix characters.  */
                while (isblank (*f) || *f == '-' || *f == '@' || *f == '+')
                  ++f;

                /* Copy until we get to the next logical recipe line.  */
                while (*f != '\0')
                  {
                    *(t++) = *(f++);
                    if (f[-1] == '\\')
                      esc = !esc;
                    else
                      {
                        /* On unescaped newline, we're done with this line.  */
                        if (f[-1] == '\n' && ! esc)
                          break;

                        /* Something else: reset the escape sequence.  */
                        esc = 0;
                      }
                  }
              }
            *t = '\0';
          }
#ifdef WINDOWS32
	else	/* non-Posix shell (cmd.exe etc.) */
	  {
            const char *f = line;
            char *t = line;
	    char *tstart = t;
	    int temp_fd;
	    FILE* batch = NULL;
	    int id = GetCurrentProcessId();
	    PATH_VAR(fbuf);

	    /* Generate a file name for the temporary batch file.  */
	    sprintf(fbuf, "make%d", id);
	    *batch_filename = create_batch_file (fbuf, 0, &temp_fd);
	    DB (DB_JOBS, (_("Creating temporary batch file %s\n"),
			  *batch_filename));

	    /* Create a FILE object for the batch file, and write to it the
	       commands to be executed.  Put the batch file in TEXT mode.  */
	    _setmode (temp_fd, _O_TEXT);
	    batch = _fdopen (temp_fd, "wt");
	    fputs ("@echo off\n", batch);
	    DB (DB_JOBS, (_("Batch file contents:\n\t@echo off\n")));

            /* Copy the recipe, removing and ignoring interior prefix chars
               [@+-]: they're meaningless in .ONESHELL mode.  */
            while (*f != '\0')
              {
                /* This is the start of a new recipe line.
                   Skip whitespace and prefix characters.  */
                while (isblank (*f) || *f == '-' || *f == '@' || *f == '+')
                  ++f;

                /* Copy until we get to the next logical recipe line.  */
                while (*f != '\0')
                  {
		    /* Remove the escaped newlines in the command, and
		       the whitespace that follows them.  Windows
		       shells cannot handle escaped newlines.  */
		    if (*f == '\\' && f[1] == '\n')
		      {
			f += 2;
			while (isblank (*f))
			  ++f;
		      }
                    *(t++) = *(f++);
		    /* On an unescaped newline, we're done with this
		       line.  */
		    if (f[-1] == '\n')
		      break;
                  }
		/* Write another line into the batch file.  */
		if (t > tstart)
		  {
		    int c = *t;
		    *t = '\0';
		    fputs (tstart, batch);
		    DB (DB_JOBS, ("\t%s", tstart));
		    tstart = t;
		    *t = c;
		  }
	      }
	    DB (DB_JOBS, ("\n"));
	    fclose (batch);

	    /* Create an argv list for the shell command line that
	       will run the batch file.  */
	    new_argv = xmalloc (2 * sizeof (char *));
	    new_argv[0] = xstrdup (*batch_filename);
	    new_argv[1] = NULL;
	    return new_argv;
	  }
#endif /* WINDOWS32 */
        /* Create an argv list for the shell command line.  */
        {
          int n = 0;

          new_argv = xmalloc ((4 + sflags_len/2) * sizeof (char *));
          new_argv[n++] = xstrdup (shell);

          /* Chop up the shellflags (if any) and assign them.  */
          if (! shellflags)
            new_argv[n++] = xstrdup ("");
          else
            {
              const char *s = shellflags;
              char *t;
              unsigned int len;
              while ((t = find_next_token (&s, &len)) != 0)
                new_argv[n++] = xstrndup (t, len);
            }

          /* Set the command to invoke.  */
          new_argv[n++] = line;
          new_argv[n++] = NULL;
        }
        return new_argv;
      }

    new_line = xmalloc ((shell_len*2) + 1 + sflags_len + 1
                        + (line_len*2) + 1);
    ap = new_line;
    /* Copy SHELL, escaping any characters special to the shell.  If
       we don't escape them, construct_command_argv_internal will
       recursively call itself ad nauseam, or until stack overflow,
       whichever happens first.  */
    for (p = shell; *p != '\0'; ++p)
      {
	if (strchr (sh_chars, *p) != 0)
	  *(ap++) = '\\';
	*(ap++) = *p;
      }
    *(ap++) = ' ';
    if (shellflags)
      memcpy (ap, shellflags, sflags_len);
    ap += sflags_len;
    *(ap++) = ' ';
    command_ptr = ap;
    for (p = line; *p != '\0'; ++p)
      {
	if (restp != NULL && *p == '\n')
	  {
	    *restp = p;
	    break;
	  }
	else if (*p == '\\' && p[1] == '\n')
	  {
	    /* POSIX says we keep the backslash-newline.  If we don't have a
               POSIX shell on DOS/Windows/OS2, mimic the pre-POSIX behavior
               and remove the backslash/newline.  */
#if defined (__MSDOS__) || defined (__EMX__) || defined (WINDOWS32)
# define PRESERVE_BSNL  unixy_shell
#else
# define PRESERVE_BSNL  1
#endif
	    if (PRESERVE_BSNL)
	      {
		*(ap++) = '\\';
		/* Only non-batch execution needs another backslash,
		   because it will be passed through a recursive
		   invocation of this function.  */
		if (!batch_mode_shell)
		  *(ap++) = '\\';
		*(ap++) = '\n';
	      }
	    ++p;
	    continue;
	  }

        /* DOS shells don't know about backslash-escaping.  */
	if (unixy_shell && !batch_mode_shell &&
            (*p == '\\' || *p == '\'' || *p == '"'
             || isspace ((unsigned char)*p)
             || strchr (sh_chars, *p) != 0))
	  *ap++ = '\\';
#ifdef __MSDOS__
        else if (unixy_shell && strneq (p, "...", 3))
          {
            /* The case of '...' wildcard again.  */
            strcpy (ap, "\\.\\.\\");
            ap += 5;
            p  += 2;
          }
#endif
	*ap++ = *p;
      }
    if (ap == new_line + shell_len + sflags_len + 2)
      {
        /* Line was empty.  */
        free (new_line);
        return 0;
      }
    *ap = '\0';

#ifdef WINDOWS32
    /* Some shells do not work well when invoked as 'sh -c xxx' to run a
       command line (e.g. Cygnus GNUWIN32 sh.exe on WIN32 systems).  In these
       cases, run commands via a script file.  */
    if (just_print_flag && !(flags & COMMANDS_RECURSE)) {
      /* Need to allocate new_argv, although it's unused, because
        start_job_command will want to free it and its 0'th element.  */
      new_argv = xmalloc(2 * sizeof (char *));
      new_argv[0] = xstrdup ("");
      new_argv[1] = NULL;
    } else if ((no_default_sh_exe || batch_mode_shell) && batch_filename) {
      int temp_fd;
      FILE* batch = NULL;
      int id = GetCurrentProcessId();
      PATH_VAR(fbuf);

      /* create a file name */
      sprintf(fbuf, "make%d", id);
      *batch_filename = create_batch_file (fbuf, unixy_shell, &temp_fd);

      DB (DB_JOBS, (_("Creating temporary batch file %s\n"),
                    *batch_filename));

      /* Create a FILE object for the batch file, and write to it the
	 commands to be executed.  Put the batch file in TEXT mode.  */
      _setmode (temp_fd, _O_TEXT);
      batch = _fdopen (temp_fd, "wt");
      if (!unixy_shell)
        fputs ("@echo off\n", batch);
      fputs (command_ptr, batch);
      fputc ('\n', batch);
      fclose (batch);
      DB (DB_JOBS, (_("Batch file contents:%s\n\t%s\n"),
		    !unixy_shell ? "\n\t@echo off" : "", command_ptr));

      /* create argv */
      new_argv = xmalloc(3 * sizeof (char *));
      if (unixy_shell) {
        new_argv[0] = xstrdup (shell);
        new_argv[1] = *batch_filename; /* only argv[0] gets freed later */
      } else {
        new_argv[0] = xstrdup (*batch_filename);
        new_argv[1] = NULL;
      }
      new_argv[2] = NULL;
    } else
#endif /* WINDOWS32 */

    if (unixy_shell)
      new_argv = construct_command_argv_internal (new_line, 0, 0, 0, 0,
                                                  flags, 0);

#ifdef __EMX__
    else if (!unixy_shell)
      {
	/* new_line is local, must not be freed therefore
           We use line here instead of new_line because we run the shell
           manually.  */
        size_t line_len = strlen (line);
        char *p = new_line;
        char *q = new_line;
        memcpy (new_line, line, line_len + 1);
        /* Replace all backslash-newline combination and also following tabs.
           Important: stop at the first '\n' because that's what the loop above
           did. The next line starting at restp[0] will be executed during the
           next call of this function. */
        while (*q != '\0' && *q != '\n')
          {
            if (q[0] == '\\' && q[1] == '\n')
              q += 2; /* remove '\\' and '\n' */
            else
              *p++ = *q++;
          }
        *p = '\0';

# ifndef NO_CMD_DEFAULT
        if (strnicmp (new_line, "echo", 4) == 0
            && (new_line[4] == ' ' || new_line[4] == '\t'))
          {
            /* the builtin echo command: handle it separately */
            size_t echo_len = line_len - 5;
            char *echo_line = new_line + 5;

            /* special case: echo 'x="y"'
               cmd works this way: a string is printed as is, i.e., no quotes
               are removed. But autoconf uses a command like echo 'x="y"' to
               determine whether make works. autoconf expects the output x="y"
               so we will do exactly that.
               Note: if we do not allow cmd to be the default shell
               we do not need this kind of voodoo */
            if (echo_line[0] == '\''
                && echo_line[echo_len - 1] == '\''
                && strncmp (echo_line + 1, "ac_maketemp=",
                            strlen ("ac_maketemp=")) == 0)
              {
                /* remove the enclosing quotes */
                memmove (echo_line, echo_line + 1, echo_len - 2);
                echo_line[echo_len - 2] = '\0';
              }
          }
# endif

        {
          /* Let the shell decide what to do. Put the command line into the
             2nd command line argument and hope for the best ;-)  */
          size_t sh_len = strlen (shell);

          /* exactly 3 arguments + NULL */
          new_argv = xmalloc (4 * sizeof (char *));
          /* Exactly strlen(shell) + strlen("/c") + strlen(line) + 3 times
             the trailing '\0' */
          new_argv[0] = xmalloc (sh_len + line_len + 5);
          memcpy (new_argv[0], shell, sh_len + 1);
          new_argv[1] = new_argv[0] + sh_len + 1;
          memcpy (new_argv[1], "/c", 3);
          new_argv[2] = new_argv[1] + 3;
          memcpy (new_argv[2], new_line, line_len + 1);
          new_argv[3] = NULL;
        }
      }
#elif defined(__MSDOS__)
    else
      {
        /* With MSDOS shells, we must construct the command line here
           instead of recursively calling ourselves, because we
           cannot backslash-escape the special characters (see above).  */
        new_argv = xmalloc (sizeof (char *));
        line_len = strlen (new_line) - shell_len - sflags_len - 2;
        new_argv[0] = xmalloc (line_len + 1);
        strncpy (new_argv[0],
                 new_line + shell_len + sflags_len + 2, line_len);
        new_argv[0][line_len] = '\0';
      }
#else
    else
      fatal (NILF, _("%s (line %d) Bad shell context (!unixy && !batch_mode_shell)\n"),
            __FILE__, __LINE__);
#endif

    free (new_line);
  }
#endif	/* ! AMIGA */

  return new_argv;
}
#endif /* !VMS */

/* Figure out the argument list necessary to run LINE as a command.  Try to
   avoid using a shell.  This routine handles only ' quoting, and " quoting
   when no backslash, $ or ' characters are seen in the quotes.  Starting
   quotes may be escaped with a backslash.  If any of the characters in
   sh_chars[] is seen, or any of the builtin commands listed in sh_cmds[]
   is the first word of a line, the shell is used.

   If RESTP is not NULL, *RESTP is set to point to the first newline in LINE.
   If *RESTP is NULL, newlines will be ignored.

   FILE is the target whose commands these are.  It is used for
   variable expansion for $(SHELL) and $(IFS).  */

char **
construct_command_argv (char *line, char **restp, struct file *file,
                        int cmd_flags, char **batch_filename)
{
  char *shell, *ifs, *shellflags;
  char **argv;

#ifdef VMS
  char *cptr;
  int argc;

  argc = 0;
  cptr = line;
  for (;;)
    {
      while ((*cptr != 0)
	     && (isspace ((unsigned char)*cptr)))
	cptr++;
      if (*cptr == 0)
	break;
      while ((*cptr != 0)
	     && (!isspace((unsigned char)*cptr)))
	cptr++;
      argc++;
    }

  argv = xmalloc (argc * sizeof (char *));
  if (argv == 0)
    abort ();

  cptr = line;
  argc = 0;
  for (;;)
    {
      while ((*cptr != 0)
	     && (isspace ((unsigned char)*cptr)))
	cptr++;
      if (*cptr == 0)
	break;
      DB (DB_JOBS, ("argv[%d] = [%s]\n", argc, cptr));
      argv[argc++] = cptr;
      while ((*cptr != 0)
	     && (!isspace((unsigned char)*cptr)))
	cptr++;
      if (*cptr != 0)
	*cptr++ = 0;
    }
#else
  {
    /* Turn off --warn-undefined-variables while we expand SHELL and IFS.  */
    int save = warn_undefined_variables_flag;
    warn_undefined_variables_flag = 0;

    shell = allocated_variable_expand_for_file ("$(SHELL)", file);
#ifdef WINDOWS32
    /*
     * Convert to forward slashes so that construct_command_argv_internal()
     * is not confused.
     */
    if (shell) {
      char *p = w32ify (shell, 0);
      strcpy (shell, p);
    }
#endif
#ifdef __EMX__
    {
      static const char *unixroot = NULL;
      static const char *last_shell = "";
      static int init = 0;
      if (init == 0)
	{
	  unixroot = getenv ("UNIXROOT");
	  /* unixroot must be NULL or not empty */
	  if (unixroot && unixroot[0] == '\0') unixroot = NULL;
	  init = 1;
	}

      /* if we have an unixroot drive and if shell is not default_shell
         (which means it's either cmd.exe or the test has already been
         performed) and if shell is an absolute path without drive letter,
         try whether it exists e.g.: if "/bin/sh" does not exist use
         "$UNIXROOT/bin/sh" instead.  */
      if (unixroot && shell && strcmp (shell, last_shell) != 0
	  && (shell[0] == '/' || shell[0] == '\\'))
	{
	  /* trying a new shell, check whether it exists */
	  size_t size = strlen (shell);
	  char *buf = xmalloc (size + 7);
	  memcpy (buf, shell, size);
	  memcpy (buf + size, ".exe", 5); /* including the trailing '\0' */
          if (access (shell, F_OK) != 0 && access (buf, F_OK) != 0)
	    {
	      /* try the same for the unixroot drive */
	      memmove (buf + 2, buf, size + 5);
	      buf[0] = unixroot[0];
	      buf[1] = unixroot[1];
	      if (access (buf, F_OK) == 0)
		/* we have found a shell! */
		/* free(shell); */
		shell = buf;
	      else
		free (buf);
	    }
	  else
            free (buf);
	}
    }
#endif /* __EMX__ */

    shellflags = allocated_variable_expand_for_file ("$(.SHELLFLAGS)", file);
    ifs = allocated_variable_expand_for_file ("$(IFS)", file);

    warn_undefined_variables_flag = save;
  }

  argv = construct_command_argv_internal (line, restp, shell, shellflags, ifs,
                                          cmd_flags, batch_filename);

  free (shell);
  free (shellflags);
  free (ifs);
#endif /* !VMS */
  return argv;
}

#if !defined(HAVE_DUP2) && !defined(_AMIGA)
int
dup2 (int old, int new)
{
  int fd;

  (void) close (new);
  fd = dup (old);
  if (fd != new)
    {
      (void) close (fd);
      errno = EMFILE;
      return -1;
    }

  return fd;
}
#endif /* !HAVE_DUP2 && !_AMIGA */

/* On VMS systems, include special VMS functions.  */

#ifdef VMS
#include "vmsjobs.c"
#endif