src/java.base/unix/native/libjava/ProcessImpl_md.c - platform/libcore - Git at Google

 /*
  * Copyright (c) 1995, 2018, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.  Oracle designates this
  * particular file as subject to the "Classpath" exception as provided
  * by Oracle in the LICENSE file that accompanied this code.
  *
  * This code 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
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 #undef  _LARGEFILE64_SOURCE
 #define _LARGEFILE64_SOURCE 1

 #include "jni.h"
 #include "jvm.h"
 #include "jvm_md.h"
 #include "jni_util.h"
 #include "io_util.h"

 /*
  * Platform-specific support for java.lang.Process
  */
 #include <assert.h>
 #include <stddef.h>
 #include <stdlib.h>
 #include <sys/types.h>
 #include <ctype.h>
 #include <sys/wait.h>
 #include <signal.h>
 #include <string.h>

 #include <spawn.h>

 #include "childproc.h"

 /*
  * There are 4 possible strategies we might use to "fork":
  *
  * - fork(2).  Very portable and reliable but subject to
  *   failure due to overcommit (see the documentation on
  *   /proc/sys/vm/overcommit_memory in Linux proc(5)).
  *   This is the ancient problem of spurious failure whenever a large
  *   process starts a small subprocess.
  *
  * - vfork().  Using this is scary because all relevant man pages
  *   contain dire warnings, e.g. Linux vfork(2).  But at least it's
  *   documented in the glibc docs and is standardized by XPG4.
  *   http://www.opengroup.org/onlinepubs/000095399/functions/vfork.html
  *   On Linux, one might think that vfork() would be implemented using
  *   the clone system call with flag CLONE_VFORK, but in fact vfork is
  *   a separate system call (which is a good sign, suggesting that
  *   vfork will continue to be supported at least on Linux).
  *   Another good sign is that glibc implements posix_spawn using
  *   vfork whenever possible.  Note that we cannot use posix_spawn
  *   ourselves because there's no reliable way to close all inherited
  *   file descriptors.
  *
  * - clone() with flags CLONE_VM but not CLONE_THREAD.  clone() is
  *   Linux-specific, but this ought to work - at least the glibc
  *   sources contain code to handle different combinations of CLONE_VM
  *   and CLONE_THREAD.  However, when this was implemented, it
  *   appeared to fail on 32-bit i386 (but not 64-bit x86_64) Linux with
  *   the simple program
  *     Runtime.getRuntime().exec("/bin/true").waitFor();
  *   with:
  *     #  Internal Error (os_linux_x86.cpp:683), pid=19940, tid=2934639536
  *     #  Error: pthread_getattr_np failed with errno = 3 (ESRCH)
  *   We believe this is a glibc bug, reported here:
  *     http://sources.redhat.com/bugzilla/show_bug.cgi?id=10311
  *   but the glibc maintainers closed it as WONTFIX.
  *
  * - posix_spawn(). While posix_spawn() is a fairly elaborate and
  *   complicated system call, it can't quite do everything that the old
  *   fork()/exec() combination can do, so the only feasible way to do
  *   this, is to use posix_spawn to launch a new helper executable
  *   "jprochelper", which in turn execs the target (after cleaning
  *   up file-descriptors etc.) The end result is the same as before,
  *   a child process linked to the parent in the same way, but it
  *   avoids the problem of duplicating the parent (VM) process
  *   address space temporarily, before launching the target command.
  *
  * Based on the above analysis, we are currently using vfork() on
  * Linux and posix_spawn() on other Unix systems.
  */


 static void
 setSIGCHLDHandler(JNIEnv *env)
 {
     /* There is a subtle difference between having the signal handler
      * for SIGCHLD be SIG_DFL and SIG_IGN.  We cannot obtain process
      * termination information for child processes if the signal
      * handler is SIG_IGN.  It must be SIG_DFL.
      *
      * We used to set the SIGCHLD handler only on Linux, but it's
      * safest to set it unconditionally.
      *
      * Consider what happens if java's parent process sets the SIGCHLD
      * handler to SIG_IGN.  Normally signal handlers are inherited by
      * children, but SIGCHLD is a controversial case.  Solaris appears
      * to always reset it to SIG_DFL, but this behavior may be
      * non-standard-compliant, and we shouldn't rely on it.
      *
      * References:
      * http://www.opengroup.org/onlinepubs/7908799/xsh/exec.html
      * http://www.pasc.org/interps/unofficial/db/p1003.1/pasc-1003.1-132.html
      */
     struct sigaction sa;
     sa.sa_handler = SIG_DFL;
     sigemptyset(&sa.sa_mask);
     sa.sa_flags = SA_NOCLDSTOP | SA_RESTART;
     if (sigaction(SIGCHLD, &sa, NULL) < 0)
         JNU_ThrowInternalError(env, "Can't set SIGCHLD handler");
 }

 static void*
 xmalloc(JNIEnv *env, size_t size)
 {
     void *p = malloc(size);
     if (p == NULL)
         JNU_ThrowOutOfMemoryError(env, NULL);
     return p;
 }

 #define NEW(type, n) ((type *) xmalloc(env, (n) * sizeof(type)))

 /**
  * If PATH is not defined, the OS provides some default value.
  * Unfortunately, there's no portable way to get this value.
  * Fortunately, it's only needed if the child has PATH while we do not.
  */
 static const char*
 defaultPath(void)
 {
 #ifdef __solaris__
     /* These really are the Solaris defaults! */
     return (geteuid() == 0 || getuid() == 0) ?
         "/usr/xpg4/bin:/usr/bin:/opt/SUNWspro/bin:/usr/sbin" :
         "/usr/xpg4/bin:/usr/bin:/opt/SUNWspro/bin:";
 #else
     return ":/bin:/usr/bin";    /* glibc */
 #endif
 }

 static const char*
 effectivePath(void)
 {
     const char *s = getenv("PATH");
     return (s != NULL) ? s : defaultPath();
 }

 static int
 countOccurrences(const char *s, char c)
 {
     int count;
     for (count = 0; *s != '\0'; s++)
         count += (*s == c);
     return count;
 }

 static const char * const *
 effectivePathv(JNIEnv *env)
 {
     char *p;
     int i;
     const char *path = effectivePath();
     int count = countOccurrences(path, ':') + 1;
     size_t pathvsize = sizeof(const char *) * (count+1);
     size_t pathsize = strlen(path) + 1;
     const char **pathv = (const char **) xmalloc(env, pathvsize + pathsize);

     if (pathv == NULL)
         return NULL;
     p = (char *) pathv + pathvsize;
     memcpy(p, path, pathsize);
     /* split PATH by replacing ':' with NULs; empty components => "." */
     for (i = 0; i < count; i++) {
         char *q = p + strcspn(p, ":");
         pathv[i] = (p == q) ? "." : p;
         *q = '\0';
         p = q + 1;
     }
     pathv[count] = NULL;
     return pathv;
 }

 JNIEXPORT void JNICALL
 Java_java_lang_ProcessImpl_init(JNIEnv *env, jclass clazz)
 {
     parentPathv = effectivePathv(env);
     CHECK_NULL(parentPathv);
     setSIGCHLDHandler(env);
 }


 #ifndef WIFEXITED
 #define WIFEXITED(status) (((status)&0xFF) == 0)
 #endif

 #ifndef WEXITSTATUS
 #define WEXITSTATUS(status) (((status)>>8)&0xFF)
 #endif

 #ifndef WIFSIGNALED
 #define WIFSIGNALED(status) (((status)&0xFF) > 0 && ((status)&0xFF00) == 0)
 #endif

 #ifndef WTERMSIG
 #define WTERMSIG(status) ((status)&0x7F)
 #endif

 static const char *
 getBytes(JNIEnv *env, jbyteArray arr)
 {
     return arr == NULL ? NULL :
         (const char*) (*env)->GetByteArrayElements(env, arr, NULL);
 }

 static void
 releaseBytes(JNIEnv *env, jbyteArray arr, const char* parr)
 {
     if (parr != NULL)
         (*env)->ReleaseByteArrayElements(env, arr, (jbyte*) parr, JNI_ABORT);
 }

 #define IOE_FORMAT "error=%d, %s"

 static void
 throwIOException(JNIEnv *env, int errnum, const char *defaultDetail)
 {
     const char *detail = defaultDetail;
     char *errmsg;
     size_t fmtsize;
     char tmpbuf[1024];
     jstring s;

     if (errnum != 0) {
         int ret = getErrorString(errnum, tmpbuf, sizeof(tmpbuf));
         if (ret != EINVAL)
             detail = tmpbuf;
     }
     /* ASCII Decimal representation uses 2.4 times as many bits as binary. */
     fmtsize = sizeof(IOE_FORMAT) + strlen(detail) + 3 * sizeof(errnum);
     errmsg = NEW(char, fmtsize);
     if (errmsg == NULL)
         return;

     snprintf(errmsg, fmtsize, IOE_FORMAT, errnum, detail);
     s = JNU_NewStringPlatform(env, errmsg);
     if (s != NULL) {
         jobject x = JNU_NewObjectByName(env, "java/io/IOException",
                                         "(Ljava/lang/String;)V", s);
         if (x != NULL)
             (*env)->Throw(env, x);
     }
     free(errmsg);
 }

 #ifdef DEBUG_PROCESS
 /* Debugging process code is difficult; where to write debug output? */
 static void
 debugPrint(char *format, ...)
 {
     FILE *tty = fopen("/dev/tty", "w");
     va_list ap;
     va_start(ap, format);
     vfprintf(tty, format, ap);
     va_end(ap);
     fclose(tty);
 }
 #endif /* DEBUG_PROCESS */

 static void
 copyPipe(int from[2], int to[2])
 {
     to[0] = from[0];
     to[1] = from[1];
 }

 /* arg is an array of pointers to 0 terminated strings. array is terminated
  * by a null element.
  *
  * *nelems and *nbytes receive the number of elements of array (incl 0)
  * and total number of bytes (incl. 0)
  * Note. An empty array will have one null element
  * But if arg is null, then *nelems set to 0, and *nbytes to 0
  */
 static void arraysize(const char * const *arg, int *nelems, int *nbytes)
 {
     int i, bytes, count;
     const char * const *a = arg;
     char *p;
     int *q;
     if (arg == 0) {
         *nelems = 0;
         *nbytes = 0;
         return;
     }
     /* count the array elements and number of bytes */
     for (count=0, bytes=0; *a != 0; count++, a++) {
         bytes += strlen(*a)+1;
     }
     *nbytes = bytes;
     *nelems = count+1;
 }

 /* copy the strings from arg[] into buf, starting at given offset
  * return new offset to next free byte
  */
 static int copystrings(char *buf, int offset, const char * const *arg) {
     char *p;
     const char * const *a;
     int count=0;

     if (arg == 0) {
         return offset;
     }
     for (p=buf+offset, a=arg; *a != 0; a++) {
         int len = strlen(*a) +1;
         memcpy(p, *a, len);
         p += len;
         count += len;
     }
     return offset+count;
 }

 /**
  * We are unusually paranoid; use of vfork is
  * especially likely to tickle gcc/glibc bugs.
  */
 #ifdef __attribute_noinline__  /* See: sys/cdefs.h */
 __attribute_noinline__
 #endif

 /* vfork(2) is deprecated on Solaris */
 #ifndef __solaris__
 static pid_t
 vforkChild(ChildStuff *c) {
     volatile pid_t resultPid;

     /*
      * We separate the call to vfork into a separate function to make
      * very sure to keep stack of child from corrupting stack of parent,
      * as suggested by the scary gcc warning:
      *  warning: variable 'foo' might be clobbered by 'longjmp' or 'vfork'
      */
     resultPid = vfork();

     if (resultPid == 0) {
         childProcess(c);
     }
     assert(resultPid != 0);  /* childProcess never returns */
     return resultPid;
 }
 #endif

 static pid_t
 forkChild(ChildStuff *c) {
     pid_t resultPid;

     /*
      * From Solaris fork(2): In Solaris 10, a call to fork() is
      * identical to a call to fork1(); only the calling thread is
      * replicated in the child process. This is the POSIX-specified
      * behavior for fork().
      */
     resultPid = fork();

     if (resultPid == 0) {
         childProcess(c);
     }
     assert(resultPid != 0);  /* childProcess never returns */
     return resultPid;
 }

 static pid_t
 spawnChild(JNIEnv *env, jobject process, ChildStuff *c, const char *helperpath) {
     pid_t resultPid;
     jboolean isCopy;
     int i, offset, rval, bufsize, magic;
     char *buf, buf1[16];
     char *hlpargs[2];
     SpawnInfo sp;

     /* need to tell helper which fd is for receiving the childstuff
      * and which fd to send response back on
      */
     snprintf(buf1, sizeof(buf1), "%d:%d", c->childenv[0], c->fail[1]);
     /* put the fd string as argument to the helper cmd */
     hlpargs[0] = buf1;
     hlpargs[1] = 0;

     /* Following items are sent down the pipe to the helper
      * after it is spawned.
      * All strings are null terminated. All arrays of strings
      * have an empty string for termination.
      * - the ChildStuff struct
      * - the SpawnInfo struct
      * - the argv strings array
      * - the envv strings array
      * - the home directory string
      * - the parentPath string
      * - the parentPathv array
      */
     /* First calculate the sizes */
     arraysize(c->argv, &sp.nargv, &sp.argvBytes);
     bufsize = sp.argvBytes;
     arraysize(c->envv, &sp.nenvv, &sp.envvBytes);
     bufsize += sp.envvBytes;
     sp.dirlen = c->pdir == 0 ? 0 : strlen(c->pdir)+1;
     bufsize += sp.dirlen;
     arraysize(parentPathv, &sp.nparentPathv, &sp.parentPathvBytes);
     bufsize += sp.parentPathvBytes;
     /* We need to clear FD_CLOEXEC if set in the fds[].
      * Files are created FD_CLOEXEC in Java.
      * Otherwise, they will be closed when the target gets exec'd */
     for (i=0; i<3; i++) {
         if (c->fds[i] != -1) {
             int flags = fcntl(c->fds[i], F_GETFD);
             if (flags & FD_CLOEXEC) {
                 fcntl(c->fds[i], F_SETFD, flags & (~1));
             }
         }
     }

     rval = posix_spawn(&resultPid, helperpath, 0, 0, (char * const *) hlpargs, environ);

     if (rval != 0) {
         return -1;
     }

     /* now the lengths are known, copy the data */
     buf = NEW(char, bufsize);
     if (buf == 0) {
         return -1;
     }
     offset = copystrings(buf, 0, &c->argv[0]);
     offset = copystrings(buf, offset, &c->envv[0]);
     memcpy(buf+offset, c->pdir, sp.dirlen);
     offset += sp.dirlen;
     offset = copystrings(buf, offset, parentPathv);
     assert(offset == bufsize);

     magic = magicNumber();

     /* write the two structs and the data buffer */
     write(c->childenv[1], (char *)&magic, sizeof(magic)); // magic number first
     write(c->childenv[1], (char *)c, sizeof(*c));
     write(c->childenv[1], (char *)&sp, sizeof(sp));
     write(c->childenv[1], buf, bufsize);
     free(buf);

     /* In this mode an external main() in invoked which calls back into
      * childProcess() in this file, rather than directly
      * via the statement below */
     return resultPid;
 }

 /*
  * Start a child process running function childProcess.
  * This function only returns in the parent.
  */
 static pid_t
 startChild(JNIEnv *env, jobject process, ChildStuff *c, const char *helperpath) {
     switch (c->mode) {
 /* vfork(2) is deprecated on Solaris */
 #ifndef __solaris__
       case MODE_VFORK:
         return vforkChild(c);
 #endif
       case MODE_FORK:
         return forkChild(c);
       case MODE_POSIX_SPAWN:
         return spawnChild(env, process, c, helperpath);
       default:
         return -1;
     }
 }

 JNIEXPORT jint JNICALL
 Java_java_lang_ProcessImpl_forkAndExec(JNIEnv *env,
                                        jobject process,
                                        jint mode,
                                        jbyteArray helperpath,
                                        jbyteArray prog,
                                        jbyteArray argBlock, jint argc,
                                        jbyteArray envBlock, jint envc,
                                        jbyteArray dir,
                                        jintArray std_fds,
                                        jboolean redirectErrorStream)
 {
     int errnum;
     int resultPid = -1;
     int in[2], out[2], err[2], fail[2], childenv[2];
     jint *fds = NULL;
     const char *phelperpath = NULL;
     const char *pprog = NULL;
     const char *pargBlock = NULL;
     const char *penvBlock = NULL;
     ChildStuff *c;

     in[0] = in[1] = out[0] = out[1] = err[0] = err[1] = fail[0] = fail[1] = -1;
     childenv[0] = childenv[1] = -1;

     if ((c = NEW(ChildStuff, 1)) == NULL) return -1;
     c->argv = NULL;
     c->envv = NULL;
     c->pdir = NULL;

     /* Convert prog + argBlock into a char ** argv.
      * Add one word room for expansion of argv for use by
      * execve_as_traditional_shell_script.
      * This word is also used when using posix_spawn mode
      */
     assert(prog != NULL && argBlock != NULL);
     if ((phelperpath = getBytes(env, helperpath))   == NULL) goto Catch;
     if ((pprog       = getBytes(env, prog))         == NULL) goto Catch;
     if ((pargBlock   = getBytes(env, argBlock))     == NULL) goto Catch;
     if ((c->argv     = NEW(const char *, argc + 3)) == NULL) goto Catch;
     c->argv[0] = pprog;
     c->argc = argc + 2;
     initVectorFromBlock(c->argv+1, pargBlock, argc);

     if (envBlock != NULL) {
         /* Convert envBlock into a char ** envv */
         if ((penvBlock = getBytes(env, envBlock))   == NULL) goto Catch;
         if ((c->envv = NEW(const char *, envc + 1)) == NULL) goto Catch;
         initVectorFromBlock(c->envv, penvBlock, envc);
     }

     if (dir != NULL) {
         if ((c->pdir = getBytes(env, dir)) == NULL) goto Catch;
     }

     assert(std_fds != NULL);
     fds = (*env)->GetIntArrayElements(env, std_fds, NULL);
     if (fds == NULL) goto Catch;

     if ((fds[0] == -1 && pipe(in)  < 0) ||
         (fds[1] == -1 && pipe(out) < 0) ||
         (fds[2] == -1 && pipe(err) < 0) ||
         (pipe(childenv) < 0) ||
         (pipe(fail) < 0)) {
         throwIOException(env, errno, "Bad file descriptor");
         goto Catch;
     }
     c->fds[0] = fds[0];
     c->fds[1] = fds[1];
     c->fds[2] = fds[2];

     copyPipe(in,   c->in);
     copyPipe(out,  c->out);
     copyPipe(err,  c->err);
     copyPipe(fail, c->fail);
     copyPipe(childenv, c->childenv);

     c->redirectErrorStream = redirectErrorStream;
     c->mode = mode;

     /* In posix_spawn mode, require the child process to signal aliveness
      * right after it comes up. This is because there are implementations of
      * posix_spawn() which do not report failed exec()s back to the caller
      * (e.g. glibc, see JDK-8223777). In those cases, the fork() will have
      * worked and successfully started the child process, but the exec() will
      * have failed. There is no way for us to distinguish this from a target
      * binary just exiting right after start.
      *
      * Note that we could do this additional handshake in all modes but for
      * prudence only do it when it is needed (in posix_spawn mode). */
     c->sendAlivePing = (mode == MODE_POSIX_SPAWN) ? 1 : 0;

     resultPid = startChild(env, process, c, phelperpath);
     assert(resultPid != 0);

     if (resultPid < 0) {
         switch (c->mode) {
           case MODE_VFORK:
             throwIOException(env, errno, "vfork failed");
             break;
           case MODE_FORK:
             throwIOException(env, errno, "fork failed");
             break;
           case MODE_POSIX_SPAWN:
             throwIOException(env, errno, "posix_spawn failed");
             break;
         }
         goto Catch;
     }
     close(fail[1]); fail[1] = -1; /* See: WhyCantJohnnyExec  (childproc.c)  */

     /* If we expect the child to ping aliveness, wait for it. */
     if (c->sendAlivePing) {
         switch(readFully(fail[0], &errnum, sizeof(errnum))) {
         case 0: /* First exec failed; */
             waitpid(resultPid, NULL, 0);
             throwIOException(env, 0, "Failed to exec spawn helper.");
             goto Catch;
         case sizeof(errnum):
             assert(errnum == CHILD_IS_ALIVE);
             if (errnum != CHILD_IS_ALIVE) {
                 /* Should never happen since the first thing the spawn
                  * helper should do is to send an alive ping to the parent,
                  * before doing any subsequent work. */
                 throwIOException(env, 0, "Bad code from spawn helper "
                                          "(Failed to exec spawn helper.");
                 goto Catch;
             }
             break;
         default:
             throwIOException(env, errno, "Read failed");
             goto Catch;
         }
     }

     switch (readFully(fail[0], &errnum, sizeof(errnum))) {
     case 0: break; /* Exec succeeded */
     case sizeof(errnum):
         waitpid(resultPid, NULL, 0);
         throwIOException(env, errnum, "Exec failed");
         goto Catch;
     default:
         throwIOException(env, errno, "Read failed");
         goto Catch;
     }

     fds[0] = (in [1] != -1) ? in [1] : -1;
     fds[1] = (out[0] != -1) ? out[0] : -1;
     fds[2] = (err[0] != -1) ? err[0] : -1;

  Finally:
     /* Always clean up the child's side of the pipes */
     closeSafely(in [0]);
     closeSafely(out[1]);
     closeSafely(err[1]);

     /* Always clean up fail and childEnv descriptors */
     closeSafely(fail[0]);
     closeSafely(fail[1]);
     closeSafely(childenv[0]);
     closeSafely(childenv[1]);

     releaseBytes(env, helperpath, phelperpath);
     releaseBytes(env, prog,       pprog);
     releaseBytes(env, argBlock,   pargBlock);
     releaseBytes(env, envBlock,   penvBlock);
     releaseBytes(env, dir,        c->pdir);

     free(c->argv);
     free(c->envv);
     free(c);

     if (fds != NULL)
         (*env)->ReleaseIntArrayElements(env, std_fds, fds, 0);

     return resultPid;

  Catch:
     /* Clean up the parent's side of the pipes in case of failure only */
     closeSafely(in [1]); in[1] = -1;
     closeSafely(out[0]); out[0] = -1;
     closeSafely(err[0]); err[0] = -1;
     goto Finally;
 }
	/*
	* Copyright (c) 1995, 2018, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation. Oracle designates this
	* particular file as subject to the "Classpath" exception as provided
	* by Oracle in the LICENSE file that accompanied this code.
	*
	* This code 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
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	#undef _LARGEFILE64_SOURCE
	#define _LARGEFILE64_SOURCE 1

	#include "jni.h"
	#include "jvm.h"
	#include "jvm_md.h"
	#include "jni_util.h"
	#include "io_util.h"

	/*
	* Platform-specific support for java.lang.Process
	*/
	#include <assert.h>
	#include <stddef.h>
	#include <stdlib.h>
	#include <sys/types.h>
	#include <ctype.h>
	#include <sys/wait.h>
	#include <signal.h>
	#include <string.h>

	#include <spawn.h>

	#include "childproc.h"

	/*
	* There are 4 possible strategies we might use to "fork":
	*
	* - fork(2). Very portable and reliable but subject to
	* failure due to overcommit (see the documentation on
	* /proc/sys/vm/overcommit_memory in Linux proc(5)).
	* This is the ancient problem of spurious failure whenever a large
	* process starts a small subprocess.
	*
	* - vfork(). Using this is scary because all relevant man pages
	* contain dire warnings, e.g. Linux vfork(2). But at least it's
	* documented in the glibc docs and is standardized by XPG4.
	* http://www.opengroup.org/onlinepubs/000095399/functions/vfork.html
	* On Linux, one might think that vfork() would be implemented using
	* the clone system call with flag CLONE_VFORK, but in fact vfork is
	* a separate system call (which is a good sign, suggesting that
	* vfork will continue to be supported at least on Linux).
	* Another good sign is that glibc implements posix_spawn using
	* vfork whenever possible. Note that we cannot use posix_spawn
	* ourselves because there's no reliable way to close all inherited
	* file descriptors.
	*
	* - clone() with flags CLONE_VM but not CLONE_THREAD. clone() is
	* Linux-specific, but this ought to work - at least the glibc
	* sources contain code to handle different combinations of CLONE_VM
	* and CLONE_THREAD. However, when this was implemented, it
	* appeared to fail on 32-bit i386 (but not 64-bit x86_64) Linux with
	* the simple program
	* Runtime.getRuntime().exec("/bin/true").waitFor();
	* with:
	* # Internal Error (os_linux_x86.cpp:683), pid=19940, tid=2934639536
	* # Error: pthread_getattr_np failed with errno = 3 (ESRCH)
	* We believe this is a glibc bug, reported here:
	* http://sources.redhat.com/bugzilla/show_bug.cgi?id=10311
	* but the glibc maintainers closed it as WONTFIX.
	*
	* - posix_spawn(). While posix_spawn() is a fairly elaborate and
	* complicated system call, it can't quite do everything that the old
	* fork()/exec() combination can do, so the only feasible way to do
	* this, is to use posix_spawn to launch a new helper executable
	* "jprochelper", which in turn execs the target (after cleaning
	* up file-descriptors etc.) The end result is the same as before,
	* a child process linked to the parent in the same way, but it
	* avoids the problem of duplicating the parent (VM) process
	* address space temporarily, before launching the target command.
	*
	* Based on the above analysis, we are currently using vfork() on
	* Linux and posix_spawn() on other Unix systems.
	*/


	static void
	setSIGCHLDHandler(JNIEnv *env)
	{
	/* There is a subtle difference between having the signal handler
	* for SIGCHLD be SIG_DFL and SIG_IGN. We cannot obtain process
	* termination information for child processes if the signal
	* handler is SIG_IGN. It must be SIG_DFL.
	*
	* We used to set the SIGCHLD handler only on Linux, but it's
	* safest to set it unconditionally.
	*
	* Consider what happens if java's parent process sets the SIGCHLD
	* handler to SIG_IGN. Normally signal handlers are inherited by
	* children, but SIGCHLD is a controversial case. Solaris appears
	* to always reset it to SIG_DFL, but this behavior may be
	* non-standard-compliant, and we shouldn't rely on it.
	*
	* References:
	* http://www.opengroup.org/onlinepubs/7908799/xsh/exec.html
	* http://www.pasc.org/interps/unofficial/db/p1003.1/pasc-1003.1-132.html
	*/
	struct sigaction sa;
	sa.sa_handler = SIG_DFL;
	sigemptyset(&sa.sa_mask);
	sa.sa_flags = SA_NOCLDSTOP \| SA_RESTART;
	if (sigaction(SIGCHLD, &sa, NULL) < 0)
	JNU_ThrowInternalError(env, "Can't set SIGCHLD handler");
	}

	static void*
	xmalloc(JNIEnv *env, size_t size)
	{
	void *p = malloc(size);
	if (p == NULL)
	JNU_ThrowOutOfMemoryError(env, NULL);
	return p;
	}

	#define NEW(type, n) ((type ) xmalloc(env, (n) sizeof(type)))

	/**
	* If PATH is not defined, the OS provides some default value.
	* Unfortunately, there's no portable way to get this value.
	* Fortunately, it's only needed if the child has PATH while we do not.
	*/
	static const char*
	defaultPath(void)
	{
	#ifdef __solaris__
	/* These really are the Solaris defaults! */
	return (geteuid() == 0 \|\| getuid() == 0) ?
	"/usr/xpg4/bin:/usr/bin:/opt/SUNWspro/bin:/usr/sbin" :
	"/usr/xpg4/bin:/usr/bin:/opt/SUNWspro/bin:";
	#else
	return ":/bin:/usr/bin"; /* glibc */
	#endif
	}

	static const char*
	effectivePath(void)
	{
	const char *s = getenv("PATH");
	return (s != NULL) ? s : defaultPath();
	}

	static int
	countOccurrences(const char *s, char c)
	{
	int count;
	for (count = 0; *s != '\0'; s++)
	count += (*s == c);
	return count;
	}

	static const char * const *
	effectivePathv(JNIEnv *env)
	{
	char *p;
	int i;
	const char *path = effectivePath();
	int count = countOccurrences(path, ':') + 1;
	size_t pathvsize = sizeof(const char ) (count+1);
	size_t pathsize = strlen(path) + 1;
	const char pathv = (const char ) xmalloc(env, pathvsize + pathsize);

	if (pathv == NULL)
	return NULL;
	p = (char *) pathv + pathvsize;
	memcpy(p, path, pathsize);
	/* split PATH by replacing ':' with NULs; empty components => "." */
	for (i = 0; i < count; i++) {
	char *q = p + strcspn(p, ":");
	pathv[i] = (p == q) ? "." : p;
	*q = '\0';
	p = q + 1;
	}
	pathv[count] = NULL;
	return pathv;
	}

	JNIEXPORT void JNICALL
	Java_java_lang_ProcessImpl_init(JNIEnv *env, jclass clazz)
	{
	parentPathv = effectivePathv(env);
	CHECK_NULL(parentPathv);
	setSIGCHLDHandler(env);
	}


	#ifndef WIFEXITED
	#define WIFEXITED(status) (((status)&0xFF) == 0)
	#endif

	#ifndef WEXITSTATUS
	#define WEXITSTATUS(status) (((status)>>8)&0xFF)
	#endif

	#ifndef WIFSIGNALED
	#define WIFSIGNALED(status) (((status)&0xFF) > 0 && ((status)&0xFF00) == 0)
	#endif

	#ifndef WTERMSIG
	#define WTERMSIG(status) ((status)&0x7F)
	#endif

	static const char *
	getBytes(JNIEnv *env, jbyteArray arr)
	{
	return arr == NULL ? NULL :
	(const char) (env)->GetByteArrayElements(env, arr, NULL);
	}

	static void
	releaseBytes(JNIEnv env, jbyteArray arr, const char parr)
	{
	if (parr != NULL)
	(env)->ReleaseByteArrayElements(env, arr, (jbyte) parr, JNI_ABORT);
	}

	#define IOE_FORMAT "error=%d, %s"

	static void
	throwIOException(JNIEnv env, int errnum, const char defaultDetail)
	{
	const char *detail = defaultDetail;
	char *errmsg;
	size_t fmtsize;
	char tmpbuf[1024];
	jstring s;

	if (errnum != 0) {
	int ret = getErrorString(errnum, tmpbuf, sizeof(tmpbuf));
	if (ret != EINVAL)
	detail = tmpbuf;
	}
	/* ASCII Decimal representation uses 2.4 times as many bits as binary. */
	fmtsize = sizeof(IOE_FORMAT) + strlen(detail) + 3 * sizeof(errnum);
	errmsg = NEW(char, fmtsize);
	if (errmsg == NULL)
	return;

	snprintf(errmsg, fmtsize, IOE_FORMAT, errnum, detail);
	s = JNU_NewStringPlatform(env, errmsg);
	if (s != NULL) {
	jobject x = JNU_NewObjectByName(env, "java/io/IOException",
	"(Ljava/lang/String;)V", s);
	if (x != NULL)
	(*env)->Throw(env, x);
	}
	free(errmsg);
	}

	#ifdef DEBUG_PROCESS
	/* Debugging process code is difficult; where to write debug output? */
	static void
	debugPrint(char *format, ...)
	{
	FILE *tty = fopen("/dev/tty", "w");
	va_list ap;
	va_start(ap, format);
	vfprintf(tty, format, ap);
	va_end(ap);
	fclose(tty);
	}
	#endif /* DEBUG_PROCESS */

	static void
	copyPipe(int from[2], int to[2])
	{
	to[0] = from[0];
	to[1] = from[1];
	}

	/* arg is an array of pointers to 0 terminated strings. array is terminated
	* by a null element.
	*
	* nelems and nbytes receive the number of elements of array (incl 0)
	* and total number of bytes (incl. 0)
	* Note. An empty array will have one null element
	* But if arg is null, then nelems set to 0, and nbytes to 0
	*/
	static void arraysize(const char * const arg, int nelems, int *nbytes)
	{
	int i, bytes, count;
	const char * const *a = arg;
	char *p;
	int *q;
	if (arg == 0) {
	*nelems = 0;
	*nbytes = 0;
	return;
	}
	/* count the array elements and number of bytes */
	for (count=0, bytes=0; *a != 0; count++, a++) {
	bytes += strlen(*a)+1;
	}
	*nbytes = bytes;
	*nelems = count+1;
	}

	/* copy the strings from arg[] into buf, starting at given offset
	* return new offset to next free byte
	*/
	static int copystrings(char buf, int offset, const char const *arg) {
	char *p;
	const char * const *a;
	int count=0;

	if (arg == 0) {
	return offset;
	}
	for (p=buf+offset, a=arg; *a != 0; a++) {
	int len = strlen(*a) +1;
	memcpy(p, *a, len);
	p += len;
	count += len;
	}
	return offset+count;
	}

	/**
	* We are unusually paranoid; use of vfork is
	* especially likely to tickle gcc/glibc bugs.
	*/
	#ifdef __attribute_noinline__ /* See: sys/cdefs.h */
	__attribute_noinline__
	#endif

	/* vfork(2) is deprecated on Solaris */
	#ifndef __solaris__
	static pid_t
	vforkChild(ChildStuff *c) {
	volatile pid_t resultPid;

	/*
	* We separate the call to vfork into a separate function to make
	* very sure to keep stack of child from corrupting stack of parent,
	* as suggested by the scary gcc warning:
	* warning: variable 'foo' might be clobbered by 'longjmp' or 'vfork'
	*/
	resultPid = vfork();

	if (resultPid == 0) {
	childProcess(c);
	}
	assert(resultPid != 0); /* childProcess never returns */
	return resultPid;
	}
	#endif

	static pid_t
	forkChild(ChildStuff *c) {
	pid_t resultPid;

	/*
	* From Solaris fork(2): In Solaris 10, a call to fork() is
	* identical to a call to fork1(); only the calling thread is
	* replicated in the child process. This is the POSIX-specified
	* behavior for fork().
	*/
	resultPid = fork();

	if (resultPid == 0) {
	childProcess(c);
	}
	assert(resultPid != 0); /* childProcess never returns */
	return resultPid;
	}

	static pid_t
	spawnChild(JNIEnv env, jobject process, ChildStuff c, const char *helperpath) {
	pid_t resultPid;
	jboolean isCopy;
	int i, offset, rval, bufsize, magic;
	char *buf, buf1[16];
	char *hlpargs[2];
	SpawnInfo sp;

	/* need to tell helper which fd is for receiving the childstuff
	* and which fd to send response back on
	*/
	snprintf(buf1, sizeof(buf1), "%d:%d", c->childenv[0], c->fail[1]);
	/* put the fd string as argument to the helper cmd */
	hlpargs[0] = buf1;
	hlpargs[1] = 0;

	/* Following items are sent down the pipe to the helper
	* after it is spawned.
	* All strings are null terminated. All arrays of strings
	* have an empty string for termination.
	* - the ChildStuff struct
	* - the SpawnInfo struct
	* - the argv strings array
	* - the envv strings array
	* - the home directory string
	* - the parentPath string
	* - the parentPathv array
	*/
	/* First calculate the sizes */
	arraysize(c->argv, &sp.nargv, &sp.argvBytes);
	bufsize = sp.argvBytes;
	arraysize(c->envv, &sp.nenvv, &sp.envvBytes);
	bufsize += sp.envvBytes;
	sp.dirlen = c->pdir == 0 ? 0 : strlen(c->pdir)+1;
	bufsize += sp.dirlen;
	arraysize(parentPathv, &sp.nparentPathv, &sp.parentPathvBytes);
	bufsize += sp.parentPathvBytes;
	/* We need to clear FD_CLOEXEC if set in the fds[].
	* Files are created FD_CLOEXEC in Java.
	* Otherwise, they will be closed when the target gets exec'd */
	for (i=0; i<3; i++) {
	if (c->fds[i] != -1) {
	int flags = fcntl(c->fds[i], F_GETFD);
	if (flags & FD_CLOEXEC) {
	fcntl(c->fds[i], F_SETFD, flags & (~1));
	}
	}
	}

	rval = posix_spawn(&resultPid, helperpath, 0, 0, (char * const *) hlpargs, environ);

	if (rval != 0) {
	return -1;
	}

	/* now the lengths are known, copy the data */
	buf = NEW(char, bufsize);
	if (buf == 0) {
	return -1;
	}
	offset = copystrings(buf, 0, &c->argv[0]);
	offset = copystrings(buf, offset, &c->envv[0]);
	memcpy(buf+offset, c->pdir, sp.dirlen);
	offset += sp.dirlen;
	offset = copystrings(buf, offset, parentPathv);
	assert(offset == bufsize);

	magic = magicNumber();

	/* write the two structs and the data buffer */
	write(c->childenv[1], (char *)&magic, sizeof(magic)); // magic number first
	write(c->childenv[1], (char )c, sizeof(c));
	write(c->childenv[1], (char *)&sp, sizeof(sp));
	write(c->childenv[1], buf, bufsize);
	free(buf);

	/* In this mode an external main() in invoked which calls back into
	* childProcess() in this file, rather than directly
	* via the statement below */
	return resultPid;
	}

	/*
	* Start a child process running function childProcess.
	* This function only returns in the parent.
	*/
	static pid_t
	startChild(JNIEnv env, jobject process, ChildStuff c, const char *helperpath) {
	switch (c->mode) {
	/* vfork(2) is deprecated on Solaris */
	#ifndef __solaris__
	case MODE_VFORK:
	return vforkChild(c);
	#endif
	case MODE_FORK:
	return forkChild(c);
	case MODE_POSIX_SPAWN:
	return spawnChild(env, process, c, helperpath);
	default:
	return -1;
	}
	}

	JNIEXPORT jint JNICALL
	Java_java_lang_ProcessImpl_forkAndExec(JNIEnv *env,
	jobject process,
	jint mode,
	jbyteArray helperpath,
	jbyteArray prog,
	jbyteArray argBlock, jint argc,
	jbyteArray envBlock, jint envc,
	jbyteArray dir,
	jintArray std_fds,
	jboolean redirectErrorStream)
	{
	int errnum;
	int resultPid = -1;
	int in[2], out[2], err[2], fail[2], childenv[2];
	jint *fds = NULL;
	const char *phelperpath = NULL;
	const char *pprog = NULL;
	const char *pargBlock = NULL;
	const char *penvBlock = NULL;
	ChildStuff *c;

	in[0] = in[1] = out[0] = out[1] = err[0] = err[1] = fail[0] = fail[1] = -1;
	childenv[0] = childenv[1] = -1;

	if ((c = NEW(ChildStuff, 1)) == NULL) return -1;
	c->argv = NULL;
	c->envv = NULL;
	c->pdir = NULL;

	/* Convert prog + argBlock into a char ** argv.
	* Add one word room for expansion of argv for use by
	* execve_as_traditional_shell_script.
	* This word is also used when using posix_spawn mode
	*/
	assert(prog != NULL && argBlock != NULL);
	if ((phelperpath = getBytes(env, helperpath)) == NULL) goto Catch;
	if ((pprog = getBytes(env, prog)) == NULL) goto Catch;
	if ((pargBlock = getBytes(env, argBlock)) == NULL) goto Catch;
	if ((c->argv = NEW(const char *, argc + 3)) == NULL) goto Catch;
	c->argv[0] = pprog;
	c->argc = argc + 2;
	initVectorFromBlock(c->argv+1, pargBlock, argc);

	if (envBlock != NULL) {
	/* Convert envBlock into a char ** envv */
	if ((penvBlock = getBytes(env, envBlock)) == NULL) goto Catch;
	if ((c->envv = NEW(const char *, envc + 1)) == NULL) goto Catch;
	initVectorFromBlock(c->envv, penvBlock, envc);
	}

	if (dir != NULL) {
	if ((c->pdir = getBytes(env, dir)) == NULL) goto Catch;
	}

	assert(std_fds != NULL);
	fds = (*env)->GetIntArrayElements(env, std_fds, NULL);
	if (fds == NULL) goto Catch;

	if ((fds[0] == -1 && pipe(in) < 0) \|\|
	(fds[1] == -1 && pipe(out) < 0) \|\|
	(fds[2] == -1 && pipe(err) < 0) \|\|
	(pipe(childenv) < 0) \|\|
	(pipe(fail) < 0)) {
	throwIOException(env, errno, "Bad file descriptor");
	goto Catch;
	}
	c->fds[0] = fds[0];
	c->fds[1] = fds[1];
	c->fds[2] = fds[2];

	copyPipe(in, c->in);
	copyPipe(out, c->out);
	copyPipe(err, c->err);
	copyPipe(fail, c->fail);
	copyPipe(childenv, c->childenv);

	c->redirectErrorStream = redirectErrorStream;
	c->mode = mode;

	/* In posix_spawn mode, require the child process to signal aliveness
	* right after it comes up. This is because there are implementations of
	* posix_spawn() which do not report failed exec()s back to the caller
	* (e.g. glibc, see JDK-8223777). In those cases, the fork() will have
	* worked and successfully started the child process, but the exec() will
	* have failed. There is no way for us to distinguish this from a target
	* binary just exiting right after start.
	*
	* Note that we could do this additional handshake in all modes but for
	* prudence only do it when it is needed (in posix_spawn mode). */
	c->sendAlivePing = (mode == MODE_POSIX_SPAWN) ? 1 : 0;

	resultPid = startChild(env, process, c, phelperpath);
	assert(resultPid != 0);

	if (resultPid < 0) {
	switch (c->mode) {
	case MODE_VFORK:
	throwIOException(env, errno, "vfork failed");
	break;
	case MODE_FORK:
	throwIOException(env, errno, "fork failed");
	break;
	case MODE_POSIX_SPAWN:
	throwIOException(env, errno, "posix_spawn failed");
	break;
	}
	goto Catch;
	}
	close(fail[1]); fail[1] = -1; /* See: WhyCantJohnnyExec (childproc.c) */

	/* If we expect the child to ping aliveness, wait for it. */
	if (c->sendAlivePing) {
	switch(readFully(fail[0], &errnum, sizeof(errnum))) {
	case 0: /* First exec failed; */
	waitpid(resultPid, NULL, 0);
	throwIOException(env, 0, "Failed to exec spawn helper.");
	goto Catch;
	case sizeof(errnum):
	assert(errnum == CHILD_IS_ALIVE);
	if (errnum != CHILD_IS_ALIVE) {
	/* Should never happen since the first thing the spawn
	* helper should do is to send an alive ping to the parent,
	* before doing any subsequent work. */
	throwIOException(env, 0, "Bad code from spawn helper "
	"(Failed to exec spawn helper.");
	goto Catch;
	}
	break;
	default:
	throwIOException(env, errno, "Read failed");
	goto Catch;
	}
	}

	switch (readFully(fail[0], &errnum, sizeof(errnum))) {
	case 0: break; /* Exec succeeded */
	case sizeof(errnum):
	waitpid(resultPid, NULL, 0);
	throwIOException(env, errnum, "Exec failed");
	goto Catch;
	default:
	throwIOException(env, errno, "Read failed");
	goto Catch;
	}

	fds[0] = (in [1] != -1) ? in [1] : -1;
	fds[1] = (out[0] != -1) ? out[0] : -1;
	fds[2] = (err[0] != -1) ? err[0] : -1;

	Finally:
	/* Always clean up the child's side of the pipes */
	closeSafely(in [0]);
	closeSafely(out[1]);
	closeSafely(err[1]);

	/* Always clean up fail and childEnv descriptors */
	closeSafely(fail[0]);
	closeSafely(fail[1]);
	closeSafely(childenv[0]);
	closeSafely(childenv[1]);

	releaseBytes(env, helperpath, phelperpath);
	releaseBytes(env, prog, pprog);
	releaseBytes(env, argBlock, pargBlock);
	releaseBytes(env, envBlock, penvBlock);
	releaseBytes(env, dir, c->pdir);

	free(c->argv);
	free(c->envv);
	free(c);

	if (fds != NULL)
	(*env)->ReleaseIntArrayElements(env, std_fds, fds, 0);

	return resultPid;

	Catch:
	/* Clean up the parent's side of the pipes in case of failure only */
	closeSafely(in [1]); in[1] = -1;
	closeSafely(out[0]); out[0] = -1;
	closeSafely(err[0]); err[0] = -1;
	goto Finally;
	}