os_bsd.cpp 143.3 KB
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/*
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 * Copyright (c) 1999, 2013, Oracle and/or its affiliates. All rights reserved.
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 * 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.
 *
 * 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.
 *
 */

// no precompiled headers
#include "classfile/classLoader.hpp"
#include "classfile/systemDictionary.hpp"
#include "classfile/vmSymbols.hpp"
#include "code/icBuffer.hpp"
#include "code/vtableStubs.hpp"
#include "compiler/compileBroker.hpp"
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#include "compiler/disassembler.hpp"
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#include "interpreter/interpreter.hpp"
#include "jvm_bsd.h"
#include "memory/allocation.inline.hpp"
#include "memory/filemap.hpp"
#include "mutex_bsd.inline.hpp"
#include "oops/oop.inline.hpp"
#include "os_share_bsd.hpp"
#include "prims/jniFastGetField.hpp"
#include "prims/jvm.h"
#include "prims/jvm_misc.hpp"
#include "runtime/arguments.hpp"
#include "runtime/extendedPC.hpp"
#include "runtime/globals.hpp"
#include "runtime/interfaceSupport.hpp"
#include "runtime/java.hpp"
#include "runtime/javaCalls.hpp"
#include "runtime/mutexLocker.hpp"
#include "runtime/objectMonitor.hpp"
#include "runtime/osThread.hpp"
#include "runtime/perfMemory.hpp"
#include "runtime/sharedRuntime.hpp"
#include "runtime/statSampler.hpp"
#include "runtime/stubRoutines.hpp"
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#include "runtime/thread.inline.hpp"
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#include "runtime/threadCritical.hpp"
#include "runtime/timer.hpp"
#include "services/attachListener.hpp"
#include "services/runtimeService.hpp"
#include "utilities/decoder.hpp"
#include "utilities/defaultStream.hpp"
#include "utilities/events.hpp"
#include "utilities/growableArray.hpp"
#include "utilities/vmError.hpp"

// put OS-includes here
# include <sys/types.h>
# include <sys/mman.h>
# include <sys/stat.h>
# include <sys/select.h>
# include <pthread.h>
# include <signal.h>
# include <errno.h>
# include <dlfcn.h>
# include <stdio.h>
# include <unistd.h>
# include <sys/resource.h>
# include <pthread.h>
# include <sys/stat.h>
# include <sys/time.h>
# include <sys/times.h>
# include <sys/utsname.h>
# include <sys/socket.h>
# include <sys/wait.h>
# include <time.h>
# include <pwd.h>
# include <poll.h>
# include <semaphore.h>
# include <fcntl.h>
# include <string.h>
# include <sys/param.h>
# include <sys/sysctl.h>
# include <sys/ipc.h>
# include <sys/shm.h>
#ifndef __APPLE__
# include <link.h>
#endif
# include <stdint.h>
# include <inttypes.h>
# include <sys/ioctl.h>

#if defined(__FreeBSD__) || defined(__NetBSD__)
# include <elf.h>
#endif

#ifdef __APPLE__
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# include <mach/mach.h> // semaphore_* API
# include <mach-o/dyld.h>
# include <sys/proc_info.h>
# include <objc/objc-auto.h>
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#endif

#ifndef MAP_ANONYMOUS
#define MAP_ANONYMOUS MAP_ANON
#endif

#define MAX_PATH    (2 * K)

// for timer info max values which include all bits
#define ALL_64_BITS CONST64(0xFFFFFFFFFFFFFFFF)

#define LARGEPAGES_BIT (1 << 6)
////////////////////////////////////////////////////////////////////////////////
// global variables
julong os::Bsd::_physical_memory = 0;


int (*os::Bsd::_clock_gettime)(clockid_t, struct timespec *) = NULL;
pthread_t os::Bsd::_main_thread;
int os::Bsd::_page_size = -1;

static jlong initial_time_count=0;

static int clock_tics_per_sec = 100;

// For diagnostics to print a message once. see run_periodic_checks
static sigset_t check_signal_done;
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static bool check_signals = true;
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static pid_t _initial_pid = 0;

/* Signal number used to suspend/resume a thread */

/* do not use any signal number less than SIGSEGV, see 4355769 */
static int SR_signum = SIGUSR2;
sigset_t SR_sigset;


////////////////////////////////////////////////////////////////////////////////
// utility functions

static int SR_initialize();
static int SR_finalize();

julong os::available_memory() {
  return Bsd::available_memory();
}

julong os::Bsd::available_memory() {
  // XXXBSD: this is just a stopgap implementation
  return physical_memory() >> 2;
}

julong os::physical_memory() {
  return Bsd::physical_memory();
}

julong os::allocatable_physical_memory(julong size) {
#ifdef _LP64
  return size;
#else
  julong result = MIN2(size, (julong)3800*M);
   if (!is_allocatable(result)) {
     // See comments under solaris for alignment considerations
     julong reasonable_size = (julong)2*G - 2 * os::vm_page_size();
     result =  MIN2(size, reasonable_size);
   }
   return result;
#endif // _LP64
}

////////////////////////////////////////////////////////////////////////////////
// environment support

bool os::getenv(const char* name, char* buf, int len) {
  const char* val = ::getenv(name);
  if (val != NULL && strlen(val) < (size_t)len) {
    strcpy(buf, val);
    return true;
  }
  if (len > 0) buf[0] = 0;  // return a null string
  return false;
}


// Return true if user is running as root.

bool os::have_special_privileges() {
  static bool init = false;
  static bool privileges = false;
  if (!init) {
    privileges = (getuid() != geteuid()) || (getgid() != getegid());
    init = true;
  }
  return privileges;
}



// Cpu architecture string
#if   defined(ZERO)
static char cpu_arch[] = ZERO_LIBARCH;
#elif defined(IA64)
static char cpu_arch[] = "ia64";
#elif defined(IA32)
static char cpu_arch[] = "i386";
#elif defined(AMD64)
static char cpu_arch[] = "amd64";
#elif defined(ARM)
static char cpu_arch[] = "arm";
#elif defined(PPC)
static char cpu_arch[] = "ppc";
#elif defined(SPARC)
#  ifdef _LP64
static char cpu_arch[] = "sparcv9";
#  else
static char cpu_arch[] = "sparc";
#  endif
#else
#error Add appropriate cpu_arch setting
#endif

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// Compiler variant
#ifdef COMPILER2
#define COMPILER_VARIANT "server"
#else
#define COMPILER_VARIANT "client"
#endif
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void os::Bsd::initialize_system_info() {
  int mib[2];
  size_t len;
  int cpu_val;
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  julong mem_val;
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  /* get processors count via hw.ncpus sysctl */
  mib[0] = CTL_HW;
  mib[1] = HW_NCPU;
  len = sizeof(cpu_val);
  if (sysctl(mib, 2, &cpu_val, &len, NULL, 0) != -1 && cpu_val >= 1) {
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       assert(len == sizeof(cpu_val), "unexpected data size");
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       set_processor_count(cpu_val);
  }
  else {
       set_processor_count(1);   // fallback
  }

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  /* get physical memory via hw.memsize sysctl (hw.memsize is used
   * since it returns a 64 bit value)
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   */
  mib[0] = CTL_HW;
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  mib[1] = HW_MEMSIZE;
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  len = sizeof(mem_val);
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  if (sysctl(mib, 2, &mem_val, &len, NULL, 0) != -1) {
       assert(len == sizeof(mem_val), "unexpected data size");
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       _physical_memory = mem_val;
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  } else {
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       _physical_memory = 256*1024*1024;       // fallback (XXXBSD?)
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  }
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#ifdef __OpenBSD__
  {
       // limit _physical_memory memory view on OpenBSD since
       // datasize rlimit restricts us anyway.
       struct rlimit limits;
       getrlimit(RLIMIT_DATA, &limits);
       _physical_memory = MIN2(_physical_memory, (julong)limits.rlim_cur);
  }
#endif
}

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#ifdef __APPLE__
static const char *get_home() {
  const char *home_dir = ::getenv("HOME");
  if ((home_dir == NULL) || (*home_dir == '\0')) {
    struct passwd *passwd_info = getpwuid(geteuid());
    if (passwd_info != NULL) {
      home_dir = passwd_info->pw_dir;
    }
  }

  return home_dir;
}
#endif

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void os::init_system_properties_values() {
//  char arch[12];
//  sysinfo(SI_ARCHITECTURE, arch, sizeof(arch));

  // The next steps are taken in the product version:
  //
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  // Obtain the JAVA_HOME value from the location of libjvm.so.
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  // This library should be located at:
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  // <JAVA_HOME>/jre/lib/<arch>/{client|server}/libjvm.so.
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  //
  // If "/jre/lib/" appears at the right place in the path, then we
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  // assume libjvm.so is installed in a JDK and we use this path.
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  //
  // Otherwise exit with message: "Could not create the Java virtual machine."
  //
  // The following extra steps are taken in the debugging version:
  //
  // If "/jre/lib/" does NOT appear at the right place in the path
  // instead of exit check for $JAVA_HOME environment variable.
  //
  // If it is defined and we are able to locate $JAVA_HOME/jre/lib/<arch>,
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  // then we append a fake suffix "hotspot/libjvm.so" to this path so
  // it looks like libjvm.so is installed there
  // <JAVA_HOME>/jre/lib/<arch>/hotspot/libjvm.so.
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  //
  // Otherwise exit.
  //
  // Important note: if the location of libjvm.so changes this
  // code needs to be changed accordingly.

  // The next few definitions allow the code to be verbatim:
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#define malloc(n) (char*)NEW_C_HEAP_ARRAY(char, (n), mtInternal)
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#define getenv(n) ::getenv(n)

/*
 * See ld(1):
 *      The linker uses the following search paths to locate required
 *      shared libraries:
 *        1: ...
 *        ...
 *        7: The default directories, normally /lib and /usr/lib.
 */
#ifndef DEFAULT_LIBPATH
#define DEFAULT_LIBPATH "/lib:/usr/lib"
#endif

#define EXTENSIONS_DIR  "/lib/ext"
#define ENDORSED_DIR    "/lib/endorsed"
#define REG_DIR         "/usr/java/packages"

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#ifdef __APPLE__
#define SYS_EXTENSIONS_DIR   "/Library/Java/Extensions"
#define SYS_EXTENSIONS_DIRS  SYS_EXTENSIONS_DIR ":/Network" SYS_EXTENSIONS_DIR ":/System" SYS_EXTENSIONS_DIR ":/usr/lib/java"
        const char *user_home_dir = get_home();
        // the null in SYS_EXTENSIONS_DIRS counts for the size of the colon after user_home_dir
        int system_ext_size = strlen(user_home_dir) + sizeof(SYS_EXTENSIONS_DIR) +
            sizeof(SYS_EXTENSIONS_DIRS);
#endif

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  {
    /* sysclasspath, java_home, dll_dir */
    {
        char *home_path;
        char *dll_path;
        char *pslash;
        char buf[MAXPATHLEN];
        os::jvm_path(buf, sizeof(buf));

        // Found the full path to libjvm.so.
        // Now cut the path to <java_home>/jre if we can.
        *(strrchr(buf, '/')) = '\0';  /* get rid of /libjvm.so */
        pslash = strrchr(buf, '/');
        if (pslash != NULL)
            *pslash = '\0';           /* get rid of /{client|server|hotspot} */
        dll_path = malloc(strlen(buf) + 1);
        if (dll_path == NULL)
            return;
        strcpy(dll_path, buf);
        Arguments::set_dll_dir(dll_path);

        if (pslash != NULL) {
            pslash = strrchr(buf, '/');
            if (pslash != NULL) {
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                *pslash = '\0';       /* get rid of /<arch> (/lib on macosx) */
#ifndef __APPLE__
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                pslash = strrchr(buf, '/');
                if (pslash != NULL)
                    *pslash = '\0';   /* get rid of /lib */
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#endif
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            }
        }

        home_path = malloc(strlen(buf) + 1);
        if (home_path == NULL)
            return;
        strcpy(home_path, buf);
        Arguments::set_java_home(home_path);

        if (!set_boot_path('/', ':'))
            return;
    }

    /*
     * Where to look for native libraries
     *
     * Note: Due to a legacy implementation, most of the library path
     * is set in the launcher.  This was to accomodate linking restrictions
     * on legacy Bsd implementations (which are no longer supported).
     * Eventually, all the library path setting will be done here.
     *
     * However, to prevent the proliferation of improperly built native
     * libraries, the new path component /usr/java/packages is added here.
     * Eventually, all the library path setting will be done here.
     */
    {
        char *ld_library_path;

        /*
         * Construct the invariant part of ld_library_path. Note that the
         * space for the colon and the trailing null are provided by the
         * nulls included by the sizeof operator (so actually we allocate
         * a byte more than necessary).
         */
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#ifdef __APPLE__
        ld_library_path = (char *) malloc(system_ext_size);
        sprintf(ld_library_path, "%s" SYS_EXTENSIONS_DIR ":" SYS_EXTENSIONS_DIRS, user_home_dir);
#else
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        ld_library_path = (char *) malloc(sizeof(REG_DIR) + sizeof("/lib/") +
            strlen(cpu_arch) + sizeof(DEFAULT_LIBPATH));
        sprintf(ld_library_path, REG_DIR "/lib/%s:" DEFAULT_LIBPATH, cpu_arch);
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#endif
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        /*
         * Get the user setting of LD_LIBRARY_PATH, and prepended it.  It
         * should always exist (until the legacy problem cited above is
         * addressed).
         */
#ifdef __APPLE__
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        // Prepend the default path with the JAVA_LIBRARY_PATH so that the app launcher code can specify a directory inside an app wrapper
        char *l = getenv("JAVA_LIBRARY_PATH");
        if (l != NULL) {
            char *t = ld_library_path;
            /* That's +1 for the colon and +1 for the trailing '\0' */
            ld_library_path = (char *) malloc(strlen(l) + 1 + strlen(t) + 1);
            sprintf(ld_library_path, "%s:%s", l, t);
            free(t);
        }

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        char *v = getenv("DYLD_LIBRARY_PATH");
#else
        char *v = getenv("LD_LIBRARY_PATH");
#endif
        if (v != NULL) {
            char *t = ld_library_path;
            /* That's +1 for the colon and +1 for the trailing '\0' */
            ld_library_path = (char *) malloc(strlen(v) + 1 + strlen(t) + 1);
            sprintf(ld_library_path, "%s:%s", v, t);
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            free(t);
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        }
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#ifdef __APPLE__
        // Apple's Java6 has "." at the beginning of java.library.path.
        // OpenJDK on Windows has "." at the end of java.library.path.
        // OpenJDK on Linux and Solaris don't have "." in java.library.path
        // at all. To ease the transition from Apple's Java6 to OpenJDK7,
        // "." is appended to the end of java.library.path. Yes, this
        // could cause a change in behavior, but Apple's Java6 behavior
        // can be achieved by putting "." at the beginning of the
        // JAVA_LIBRARY_PATH environment variable.
        {
            char *t = ld_library_path;
            // that's +3 for appending ":." and the trailing '\0'
            ld_library_path = (char *) malloc(strlen(t) + 3);
            sprintf(ld_library_path, "%s:%s", t, ".");
            free(t);
        }
#endif

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        Arguments::set_library_path(ld_library_path);
    }

    /*
     * Extensions directories.
     *
     * Note that the space for the colon and the trailing null are provided
     * by the nulls included by the sizeof operator (so actually one byte more
     * than necessary is allocated).
     */
    {
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#ifdef __APPLE__
        char *buf = malloc(strlen(Arguments::get_java_home()) +
            sizeof(EXTENSIONS_DIR) + system_ext_size);
        sprintf(buf, "%s" SYS_EXTENSIONS_DIR ":%s" EXTENSIONS_DIR ":"
            SYS_EXTENSIONS_DIRS, user_home_dir, Arguments::get_java_home());
#else
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        char *buf = malloc(strlen(Arguments::get_java_home()) +
            sizeof(EXTENSIONS_DIR) + sizeof(REG_DIR) + sizeof(EXTENSIONS_DIR));
        sprintf(buf, "%s" EXTENSIONS_DIR ":" REG_DIR EXTENSIONS_DIR,
            Arguments::get_java_home());
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#endif

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        Arguments::set_ext_dirs(buf);
    }

    /* Endorsed standards default directory. */
    {
        char * buf;
        buf = malloc(strlen(Arguments::get_java_home()) + sizeof(ENDORSED_DIR));
        sprintf(buf, "%s" ENDORSED_DIR, Arguments::get_java_home());
        Arguments::set_endorsed_dirs(buf);
    }
  }

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#ifdef __APPLE__
#undef SYS_EXTENSIONS_DIR
#endif
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#undef malloc
#undef getenv
#undef EXTENSIONS_DIR
#undef ENDORSED_DIR

  // Done
  return;
}

////////////////////////////////////////////////////////////////////////////////
// breakpoint support

void os::breakpoint() {
  BREAKPOINT;
}

extern "C" void breakpoint() {
  // use debugger to set breakpoint here
}

////////////////////////////////////////////////////////////////////////////////
// signal support

debug_only(static bool signal_sets_initialized = false);
static sigset_t unblocked_sigs, vm_sigs, allowdebug_blocked_sigs;

bool os::Bsd::is_sig_ignored(int sig) {
      struct sigaction oact;
      sigaction(sig, (struct sigaction*)NULL, &oact);
      void* ohlr = oact.sa_sigaction ? CAST_FROM_FN_PTR(void*,  oact.sa_sigaction)
                                     : CAST_FROM_FN_PTR(void*,  oact.sa_handler);
      if (ohlr == CAST_FROM_FN_PTR(void*, SIG_IGN))
           return true;
      else
           return false;
}

void os::Bsd::signal_sets_init() {
  // Should also have an assertion stating we are still single-threaded.
  assert(!signal_sets_initialized, "Already initialized");
  // Fill in signals that are necessarily unblocked for all threads in
  // the VM. Currently, we unblock the following signals:
  // SHUTDOWN{1,2,3}_SIGNAL: for shutdown hooks support (unless over-ridden
  //                         by -Xrs (=ReduceSignalUsage));
  // BREAK_SIGNAL which is unblocked only by the VM thread and blocked by all
  // other threads. The "ReduceSignalUsage" boolean tells us not to alter
  // the dispositions or masks wrt these signals.
  // Programs embedding the VM that want to use the above signals for their
  // own purposes must, at this time, use the "-Xrs" option to prevent
  // interference with shutdown hooks and BREAK_SIGNAL thread dumping.
  // (See bug 4345157, and other related bugs).
  // In reality, though, unblocking these signals is really a nop, since
  // these signals are not blocked by default.
  sigemptyset(&unblocked_sigs);
  sigemptyset(&allowdebug_blocked_sigs);
  sigaddset(&unblocked_sigs, SIGILL);
  sigaddset(&unblocked_sigs, SIGSEGV);
  sigaddset(&unblocked_sigs, SIGBUS);
  sigaddset(&unblocked_sigs, SIGFPE);
  sigaddset(&unblocked_sigs, SR_signum);

  if (!ReduceSignalUsage) {
   if (!os::Bsd::is_sig_ignored(SHUTDOWN1_SIGNAL)) {
      sigaddset(&unblocked_sigs, SHUTDOWN1_SIGNAL);
      sigaddset(&allowdebug_blocked_sigs, SHUTDOWN1_SIGNAL);
   }
   if (!os::Bsd::is_sig_ignored(SHUTDOWN2_SIGNAL)) {
      sigaddset(&unblocked_sigs, SHUTDOWN2_SIGNAL);
      sigaddset(&allowdebug_blocked_sigs, SHUTDOWN2_SIGNAL);
   }
   if (!os::Bsd::is_sig_ignored(SHUTDOWN3_SIGNAL)) {
      sigaddset(&unblocked_sigs, SHUTDOWN3_SIGNAL);
      sigaddset(&allowdebug_blocked_sigs, SHUTDOWN3_SIGNAL);
   }
  }
  // Fill in signals that are blocked by all but the VM thread.
  sigemptyset(&vm_sigs);
  if (!ReduceSignalUsage)
    sigaddset(&vm_sigs, BREAK_SIGNAL);
  debug_only(signal_sets_initialized = true);

}

// These are signals that are unblocked while a thread is running Java.
// (For some reason, they get blocked by default.)
sigset_t* os::Bsd::unblocked_signals() {
  assert(signal_sets_initialized, "Not initialized");
  return &unblocked_sigs;
}

// These are the signals that are blocked while a (non-VM) thread is
// running Java. Only the VM thread handles these signals.
sigset_t* os::Bsd::vm_signals() {
  assert(signal_sets_initialized, "Not initialized");
  return &vm_sigs;
}

// These are signals that are blocked during cond_wait to allow debugger in
sigset_t* os::Bsd::allowdebug_blocked_signals() {
  assert(signal_sets_initialized, "Not initialized");
  return &allowdebug_blocked_sigs;
}

void os::Bsd::hotspot_sigmask(Thread* thread) {

  //Save caller's signal mask before setting VM signal mask
  sigset_t caller_sigmask;
  pthread_sigmask(SIG_BLOCK, NULL, &caller_sigmask);

  OSThread* osthread = thread->osthread();
  osthread->set_caller_sigmask(caller_sigmask);

  pthread_sigmask(SIG_UNBLOCK, os::Bsd::unblocked_signals(), NULL);

  if (!ReduceSignalUsage) {
    if (thread->is_VM_thread()) {
      // Only the VM thread handles BREAK_SIGNAL ...
      pthread_sigmask(SIG_UNBLOCK, vm_signals(), NULL);
    } else {
      // ... all other threads block BREAK_SIGNAL
      pthread_sigmask(SIG_BLOCK, vm_signals(), NULL);
    }
  }
}


//////////////////////////////////////////////////////////////////////////////
// create new thread

static address highest_vm_reserved_address();

// check if it's safe to start a new thread
static bool _thread_safety_check(Thread* thread) {
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  return true;
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}

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#ifdef __APPLE__
// library handle for calling objc_registerThreadWithCollector()
// without static linking to the libobjc library
#define OBJC_LIB "/usr/lib/libobjc.dylib"
#define OBJC_GCREGISTER "objc_registerThreadWithCollector"
typedef void (*objc_registerThreadWithCollector_t)();
extern "C" objc_registerThreadWithCollector_t objc_registerThreadWithCollectorFunction;
objc_registerThreadWithCollector_t objc_registerThreadWithCollectorFunction = NULL;
#endif

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#ifdef __APPLE__
static uint64_t locate_unique_thread_id() {
  // Additional thread_id used to correlate threads in SA
  thread_identifier_info_data_t     m_ident_info;
  mach_msg_type_number_t            count = THREAD_IDENTIFIER_INFO_COUNT;

  thread_info(::mach_thread_self(), THREAD_IDENTIFIER_INFO,
              (thread_info_t) &m_ident_info, &count);
  return m_ident_info.thread_id;
}
#endif

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// Thread start routine for all newly created threads
static void *java_start(Thread *thread) {
  // Try to randomize the cache line index of hot stack frames.
  // This helps when threads of the same stack traces evict each other's
  // cache lines. The threads can be either from the same JVM instance, or
  // from different JVM instances. The benefit is especially true for
  // processors with hyperthreading technology.
  static int counter = 0;
  int pid = os::current_process_id();
  alloca(((pid ^ counter++) & 7) * 128);

  ThreadLocalStorage::set_thread(thread);

  OSThread* osthread = thread->osthread();
  Monitor* sync = osthread->startThread_lock();

  // non floating stack BsdThreads needs extra check, see above
  if (!_thread_safety_check(thread)) {
    // notify parent thread
    MutexLockerEx ml(sync, Mutex::_no_safepoint_check_flag);
    osthread->set_state(ZOMBIE);
    sync->notify_all();
    return NULL;
  }

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#ifdef __APPLE__
  // thread_id is mach thread on macos
  osthread->set_thread_id(::mach_thread_self());
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  osthread->set_unique_thread_id(locate_unique_thread_id());
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#else
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  // thread_id is pthread_id on BSD
  osthread->set_thread_id(::pthread_self());
#endif
  // initialize signal mask for this thread
  os::Bsd::hotspot_sigmask(thread);

  // initialize floating point control register
  os::Bsd::init_thread_fpu_state();

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#ifdef __APPLE__
  // register thread with objc gc
  if (objc_registerThreadWithCollectorFunction != NULL) {
    objc_registerThreadWithCollectorFunction();
  }
#endif

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  // handshaking with parent thread
  {
    MutexLockerEx ml(sync, Mutex::_no_safepoint_check_flag);

    // notify parent thread
    osthread->set_state(INITIALIZED);
    sync->notify_all();

    // wait until os::start_thread()
    while (osthread->get_state() == INITIALIZED) {
      sync->wait(Mutex::_no_safepoint_check_flag);
    }
  }

  // call one more level start routine
  thread->run();

  return 0;
}

bool os::create_thread(Thread* thread, ThreadType thr_type, size_t stack_size) {
  assert(thread->osthread() == NULL, "caller responsible");

  // Allocate the OSThread object
  OSThread* osthread = new OSThread(NULL, NULL);
  if (osthread == NULL) {
    return false;
  }

  // set the correct thread state
  osthread->set_thread_type(thr_type);

  // Initial state is ALLOCATED but not INITIALIZED
  osthread->set_state(ALLOCATED);

  thread->set_osthread(osthread);

  // init thread attributes
  pthread_attr_t attr;
  pthread_attr_init(&attr);
  pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED);

  // stack size
  if (os::Bsd::supports_variable_stack_size()) {
    // calculate stack size if it's not specified by caller
    if (stack_size == 0) {
      stack_size = os::Bsd::default_stack_size(thr_type);

      switch (thr_type) {
      case os::java_thread:
        // Java threads use ThreadStackSize which default value can be
        // changed with the flag -Xss
        assert (JavaThread::stack_size_at_create() > 0, "this should be set");
        stack_size = JavaThread::stack_size_at_create();
        break;
      case os::compiler_thread:
        if (CompilerThreadStackSize > 0) {
          stack_size = (size_t)(CompilerThreadStackSize * K);
          break;
        } // else fall through:
          // use VMThreadStackSize if CompilerThreadStackSize is not defined
      case os::vm_thread:
      case os::pgc_thread:
      case os::cgc_thread:
      case os::watcher_thread:
        if (VMThreadStackSize > 0) stack_size = (size_t)(VMThreadStackSize * K);
        break;
      }
    }

    stack_size = MAX2(stack_size, os::Bsd::min_stack_allowed);
    pthread_attr_setstacksize(&attr, stack_size);
  } else {
    // let pthread_create() pick the default value.
  }

  ThreadState state;

  {
    pthread_t tid;
    int ret = pthread_create(&tid, &attr, (void* (*)(void*)) java_start, thread);

    pthread_attr_destroy(&attr);

    if (ret != 0) {
      if (PrintMiscellaneous && (Verbose || WizardMode)) {
        perror("pthread_create()");
      }
      // Need to clean up stuff we've allocated so far
      thread->set_osthread(NULL);
      delete osthread;
      return false;
    }

    // Store pthread info into the OSThread
    osthread->set_pthread_id(tid);

    // Wait until child thread is either initialized or aborted
    {
      Monitor* sync_with_child = osthread->startThread_lock();
      MutexLockerEx ml(sync_with_child, Mutex::_no_safepoint_check_flag);
      while ((state = osthread->get_state()) == ALLOCATED) {
        sync_with_child->wait(Mutex::_no_safepoint_check_flag);
      }
    }

  }

  // Aborted due to thread limit being reached
  if (state == ZOMBIE) {
      thread->set_osthread(NULL);
      delete osthread;
      return false;
  }

  // The thread is returned suspended (in state INITIALIZED),
  // and is started higher up in the call chain
  assert(state == INITIALIZED, "race condition");
  return true;
}

/////////////////////////////////////////////////////////////////////////////
// attach existing thread

// bootstrap the main thread
bool os::create_main_thread(JavaThread* thread) {
  assert(os::Bsd::_main_thread == pthread_self(), "should be called inside main thread");
  return create_attached_thread(thread);
}

bool os::create_attached_thread(JavaThread* thread) {
#ifdef ASSERT
    thread->verify_not_published();
#endif

  // Allocate the OSThread object
  OSThread* osthread = new OSThread(NULL, NULL);

  if (osthread == NULL) {
    return false;
  }

  // Store pthread info into the OSThread
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#ifdef __APPLE__
  osthread->set_thread_id(::mach_thread_self());
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  osthread->set_unique_thread_id(locate_unique_thread_id());
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#else
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  osthread->set_thread_id(::pthread_self());
#endif
  osthread->set_pthread_id(::pthread_self());

  // initialize floating point control register
  os::Bsd::init_thread_fpu_state();

  // Initial thread state is RUNNABLE
  osthread->set_state(RUNNABLE);

  thread->set_osthread(osthread);

  // initialize signal mask for this thread
  // and save the caller's signal mask
  os::Bsd::hotspot_sigmask(thread);

  return true;
}

void os::pd_start_thread(Thread* thread) {
  OSThread * osthread = thread->osthread();
  assert(osthread->get_state() != INITIALIZED, "just checking");
  Monitor* sync_with_child = osthread->startThread_lock();
  MutexLockerEx ml(sync_with_child, Mutex::_no_safepoint_check_flag);
  sync_with_child->notify();
}

// Free Bsd resources related to the OSThread
void os::free_thread(OSThread* osthread) {
  assert(osthread != NULL, "osthread not set");

  if (Thread::current()->osthread() == osthread) {
    // Restore caller's signal mask
    sigset_t sigmask = osthread->caller_sigmask();
    pthread_sigmask(SIG_SETMASK, &sigmask, NULL);
   }

  delete osthread;
}

//////////////////////////////////////////////////////////////////////////////
// thread local storage

int os::allocate_thread_local_storage() {
  pthread_key_t key;
  int rslt = pthread_key_create(&key, NULL);
  assert(rslt == 0, "cannot allocate thread local storage");
  return (int)key;
}

// Note: This is currently not used by VM, as we don't destroy TLS key
// on VM exit.
void os::free_thread_local_storage(int index) {
  int rslt = pthread_key_delete((pthread_key_t)index);
  assert(rslt == 0, "invalid index");
}

void os::thread_local_storage_at_put(int index, void* value) {
  int rslt = pthread_setspecific((pthread_key_t)index, value);
  assert(rslt == 0, "pthread_setspecific failed");
}

extern "C" Thread* get_thread() {
  return ThreadLocalStorage::thread();
}


////////////////////////////////////////////////////////////////////////////////
// time support

// Time since start-up in seconds to a fine granularity.
// Used by VMSelfDestructTimer and the MemProfiler.
double os::elapsedTime() {

  return (double)(os::elapsed_counter()) * 0.000001;
}

jlong os::elapsed_counter() {
  timeval time;
  int status = gettimeofday(&time, NULL);
  return jlong(time.tv_sec) * 1000 * 1000 + jlong(time.tv_usec) - initial_time_count;
}

jlong os::elapsed_frequency() {
  return (1000 * 1000);
}

// XXX: For now, code this as if BSD does not support vtime.
bool os::supports_vtime() { return false; }
bool os::enable_vtime()   { return false; }
bool os::vtime_enabled()  { return false; }
double os::elapsedVTime() {
  // better than nothing, but not much
  return elapsedTime();
}

jlong os::javaTimeMillis() {
  timeval time;
  int status = gettimeofday(&time, NULL);
  assert(status != -1, "bsd error");
  return jlong(time.tv_sec) * 1000  +  jlong(time.tv_usec / 1000);
}

#ifndef CLOCK_MONOTONIC
#define CLOCK_MONOTONIC (1)
#endif

#ifdef __APPLE__
void os::Bsd::clock_init() {
        // XXXDARWIN: Investigate replacement monotonic clock
}
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#else
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void os::Bsd::clock_init() {
  struct timespec res;
  struct timespec tp;
  if (::clock_getres(CLOCK_MONOTONIC, &res) == 0 &&
      ::clock_gettime(CLOCK_MONOTONIC, &tp)  == 0) {
    // yes, monotonic clock is supported
    _clock_gettime = ::clock_gettime;
  }
}
#endif


jlong os::javaTimeNanos() {
  if (Bsd::supports_monotonic_clock()) {
    struct timespec tp;
    int status = Bsd::clock_gettime(CLOCK_MONOTONIC, &tp);
    assert(status == 0, "gettime error");
    jlong result = jlong(tp.tv_sec) * (1000 * 1000 * 1000) + jlong(tp.tv_nsec);
    return result;
  } else {
    timeval time;
    int status = gettimeofday(&time, NULL);
    assert(status != -1, "bsd error");
    jlong usecs = jlong(time.tv_sec) * (1000 * 1000) + jlong(time.tv_usec);
    return 1000 * usecs;
  }
}

void os::javaTimeNanos_info(jvmtiTimerInfo *info_ptr) {
  if (Bsd::supports_monotonic_clock()) {
    info_ptr->max_value = ALL_64_BITS;

    // CLOCK_MONOTONIC - amount of time since some arbitrary point in the past
    info_ptr->may_skip_backward = false;      // not subject to resetting or drifting
    info_ptr->may_skip_forward = false;       // not subject to resetting or drifting
  } else {
    // gettimeofday - based on time in seconds since the Epoch thus does not wrap
    info_ptr->max_value = ALL_64_BITS;

    // gettimeofday is a real time clock so it skips
    info_ptr->may_skip_backward = true;
    info_ptr->may_skip_forward = true;
  }

  info_ptr->kind = JVMTI_TIMER_ELAPSED;                // elapsed not CPU time
}

// Return the real, user, and system times in seconds from an
// arbitrary fixed point in the past.
bool os::getTimesSecs(double* process_real_time,
                      double* process_user_time,
                      double* process_system_time) {
  struct tms ticks;
  clock_t real_ticks = times(&ticks);

  if (real_ticks == (clock_t) (-1)) {
    return false;
  } else {
    double ticks_per_second = (double) clock_tics_per_sec;
    *process_user_time = ((double) ticks.tms_utime) / ticks_per_second;
    *process_system_time = ((double) ticks.tms_stime) / ticks_per_second;
    *process_real_time = ((double) real_ticks) / ticks_per_second;

    return true;
  }
}


char * os::local_time_string(char *buf, size_t buflen) {
  struct tm t;
  time_t long_time;
  time(&long_time);
  localtime_r(&long_time, &t);
  jio_snprintf(buf, buflen, "%d-%02d-%02d %02d:%02d:%02d",
               t.tm_year + 1900, t.tm_mon + 1, t.tm_mday,
               t.tm_hour, t.tm_min, t.tm_sec);
  return buf;
}

struct tm* os::localtime_pd(const time_t* clock, struct tm*  res) {
  return localtime_r(clock, res);
}

////////////////////////////////////////////////////////////////////////////////
// runtime exit support

// Note: os::shutdown() might be called very early during initialization, or
// called from signal handler. Before adding something to os::shutdown(), make
// sure it is async-safe and can handle partially initialized VM.
void os::shutdown() {

  // allow PerfMemory to attempt cleanup of any persistent resources
  perfMemory_exit();

  // needs to remove object in file system
  AttachListener::abort();

  // flush buffered output, finish log files
  ostream_abort();

  // Check for abort hook
  abort_hook_t abort_hook = Arguments::abort_hook();
  if (abort_hook != NULL) {
    abort_hook();
  }

}

// Note: os::abort() might be called very early during initialization, or
// called from signal handler. Before adding something to os::abort(), make
// sure it is async-safe and can handle partially initialized VM.
void os::abort(bool dump_core) {
  os::shutdown();
  if (dump_core) {
#ifndef PRODUCT
    fdStream out(defaultStream::output_fd());
    out.print_raw("Current thread is ");
    char buf[16];
    jio_snprintf(buf, sizeof(buf), UINTX_FORMAT, os::current_thread_id());
    out.print_raw_cr(buf);
    out.print_raw_cr("Dumping core ...");
#endif
    ::abort(); // dump core
  }

  ::exit(1);
}

// Die immediately, no exit hook, no abort hook, no cleanup.
void os::die() {
  // _exit() on BsdThreads only kills current thread
  ::abort();
}

// unused on bsd for now.
void os::set_error_file(const char *logfile) {}


// This method is a copy of JDK's sysGetLastErrorString
// from src/solaris/hpi/src/system_md.c

size_t os::lasterror(char *buf, size_t len) {

  if (errno == 0)  return 0;

  const char *s = ::strerror(errno);
  size_t n = ::strlen(s);
  if (n >= len) {
    n = len - 1;
  }
  ::strncpy(buf, s, n);
  buf[n] = '\0';
  return n;
}

1132 1133 1134 1135 1136 1137 1138
intx os::current_thread_id() {
#ifdef __APPLE__
  return (intx)::mach_thread_self();
#else
  return (intx)::pthread_self();
#endif
}
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int os::current_process_id() {

  // Under the old bsd thread library, bsd gives each thread
  // its own process id. Because of this each thread will return
  // a different pid if this method were to return the result
  // of getpid(2). Bsd provides no api that returns the pid
  // of the launcher thread for the vm. This implementation
  // returns a unique pid, the pid of the launcher thread
  // that starts the vm 'process'.

  // Under the NPTL, getpid() returns the same pid as the
  // launcher thread rather than a unique pid per thread.
  // Use gettid() if you want the old pre NPTL behaviour.

  // if you are looking for the result of a call to getpid() that
  // returns a unique pid for the calling thread, then look at the
  // OSThread::thread_id() method in osThread_bsd.hpp file

  return (int)(_initial_pid ? _initial_pid : getpid());
}

// DLL functions

#define JNI_LIB_PREFIX "lib"
#ifdef __APPLE__
#define JNI_LIB_SUFFIX ".dylib"
#else
#define JNI_LIB_SUFFIX ".so"
#endif

const char* os::dll_file_extension() { return JNI_LIB_SUFFIX; }

// This must be hard coded because it's the system's temporary
// directory not the java application's temp directory, ala java.io.tmpdir.
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#ifdef __APPLE__
// macosx has a secure per-user temporary directory
char temp_path_storage[PATH_MAX];
const char* os::get_temp_directory() {
  static char *temp_path = NULL;
  if (temp_path == NULL) {
    int pathSize = confstr(_CS_DARWIN_USER_TEMP_DIR, temp_path_storage, PATH_MAX);
    if (pathSize == 0 || pathSize > PATH_MAX) {
      strlcpy(temp_path_storage, "/tmp/", sizeof(temp_path_storage));
    }
    temp_path = temp_path_storage;
  }
  return temp_path;
}
#else /* __APPLE__ */
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const char* os::get_temp_directory() { return "/tmp"; }
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#endif /* __APPLE__ */
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static bool file_exists(const char* filename) {
  struct stat statbuf;
  if (filename == NULL || strlen(filename) == 0) {
    return false;
  }
  return os::stat(filename, &statbuf) == 0;
}

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bool os::dll_build_name(char* buffer, size_t buflen,
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                        const char* pname, const char* fname) {
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  bool retval = false;
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  // Copied from libhpi
  const size_t pnamelen = pname ? strlen(pname) : 0;

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  // Return error on buffer overflow.
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  if (pnamelen + strlen(fname) + strlen(JNI_LIB_PREFIX) + strlen(JNI_LIB_SUFFIX) + 2 > buflen) {
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    return retval;
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  }

  if (pnamelen == 0) {
    snprintf(buffer, buflen, JNI_LIB_PREFIX "%s" JNI_LIB_SUFFIX, fname);
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    retval = true;
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  } else if (strchr(pname, *os::path_separator()) != NULL) {
    int n;
    char** pelements = split_path(pname, &n);
    for (int i = 0 ; i < n ; i++) {
      // Really shouldn't be NULL, but check can't hurt
      if (pelements[i] == NULL || strlen(pelements[i]) == 0) {
        continue; // skip the empty path values
      }
      snprintf(buffer, buflen, "%s/" JNI_LIB_PREFIX "%s" JNI_LIB_SUFFIX,
          pelements[i], fname);
      if (file_exists(buffer)) {
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        retval = true;
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        break;
      }
    }
    // release the storage
    for (int i = 0 ; i < n ; i++) {
      if (pelements[i] != NULL) {
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        FREE_C_HEAP_ARRAY(char, pelements[i], mtInternal);
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      }
    }
    if (pelements != NULL) {
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      FREE_C_HEAP_ARRAY(char*, pelements, mtInternal);
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    }
  } else {
    snprintf(buffer, buflen, "%s/" JNI_LIB_PREFIX "%s" JNI_LIB_SUFFIX, pname, fname);
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    retval = true;
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  }
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  return retval;
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}

const char* os::get_current_directory(char *buf, int buflen) {
  return getcwd(buf, buflen);
}

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// check if addr is inside libjvm.so
N
never 已提交
1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265
bool os::address_is_in_vm(address addr) {
  static address libjvm_base_addr;
  Dl_info dlinfo;

  if (libjvm_base_addr == NULL) {
    dladdr(CAST_FROM_FN_PTR(void *, os::address_is_in_vm), &dlinfo);
    libjvm_base_addr = (address)dlinfo.dli_fbase;
    assert(libjvm_base_addr !=NULL, "Cannot obtain base address for libjvm");
  }

  if (dladdr((void *)addr, &dlinfo)) {
    if (libjvm_base_addr == (address)dlinfo.dli_fbase) return true;
  }

  return false;
}

1266 1267 1268

#define MACH_MAXSYMLEN 256

N
never 已提交
1269 1270 1271
bool os::dll_address_to_function_name(address addr, char *buf,
                                      int buflen, int *offset) {
  Dl_info dlinfo;
1272
  char localbuf[MACH_MAXSYMLEN];
N
never 已提交
1273

1274 1275
  // dladdr will find names of dynamic functions only, but does
  // it set dli_fbase with mach_header address when it "fails" ?
N
never 已提交
1276 1277 1278 1279 1280 1281 1282 1283 1284 1285
  if (dladdr((void*)addr, &dlinfo) && dlinfo.dli_sname != NULL) {
    if (buf != NULL) {
      if(!Decoder::demangle(dlinfo.dli_sname, buf, buflen)) {
        jio_snprintf(buf, buflen, "%s", dlinfo.dli_sname);
      }
    }
    if (offset != NULL) *offset = addr - (address)dlinfo.dli_saddr;
    return true;
  } else if (dlinfo.dli_fname != NULL && dlinfo.dli_fbase != 0) {
    if (Decoder::decode((address)(addr - (address)dlinfo.dli_fbase),
1286
       buf, buflen, offset, dlinfo.dli_fname)) {
N
never 已提交
1287 1288 1289 1290
       return true;
    }
  }

1291 1292 1293 1294 1295 1296 1297 1298
  // Handle non-dymanic manually:
  if (dlinfo.dli_fbase != NULL &&
      Decoder::decode(addr, localbuf, MACH_MAXSYMLEN, offset, dlinfo.dli_fbase)) {
    if(!Decoder::demangle(localbuf, buf, buflen)) {
      jio_snprintf(buf, buflen, "%s", localbuf);
    }
    return true;
  }
N
never 已提交
1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319
  if (buf != NULL) buf[0] = '\0';
  if (offset != NULL) *offset = -1;
  return false;
}

// ported from solaris version
bool os::dll_address_to_library_name(address addr, char* buf,
                                     int buflen, int* offset) {
  Dl_info dlinfo;

  if (dladdr((void*)addr, &dlinfo)){
     if (buf) jio_snprintf(buf, buflen, "%s", dlinfo.dli_fname);
     if (offset) *offset = addr - (address)dlinfo.dli_fbase;
     return true;
  } else {
     if (buf) buf[0] = '\0';
     if (offset) *offset = -1;
     return false;
  }
}

1320 1321 1322
// Loads .dll/.so and
// in case of error it checks if .dll/.so was built for the
// same architecture as Hotspot is running on
N
never 已提交
1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 1414 1415 1416 1417 1418 1419 1420 1421 1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585

#ifdef __APPLE__
void * os::dll_load(const char *filename, char *ebuf, int ebuflen) {
  void * result= ::dlopen(filename, RTLD_LAZY);
  if (result != NULL) {
    // Successful loading
    return result;
  }

  // Read system error message into ebuf
  ::strncpy(ebuf, ::dlerror(), ebuflen-1);
  ebuf[ebuflen-1]='\0';

  return NULL;
}
#else
void * os::dll_load(const char *filename, char *ebuf, int ebuflen)
{
  void * result= ::dlopen(filename, RTLD_LAZY);
  if (result != NULL) {
    // Successful loading
    return result;
  }

  Elf32_Ehdr elf_head;

  // Read system error message into ebuf
  // It may or may not be overwritten below
  ::strncpy(ebuf, ::dlerror(), ebuflen-1);
  ebuf[ebuflen-1]='\0';
  int diag_msg_max_length=ebuflen-strlen(ebuf);
  char* diag_msg_buf=ebuf+strlen(ebuf);

  if (diag_msg_max_length==0) {
    // No more space in ebuf for additional diagnostics message
    return NULL;
  }


  int file_descriptor= ::open(filename, O_RDONLY | O_NONBLOCK);

  if (file_descriptor < 0) {
    // Can't open library, report dlerror() message
    return NULL;
  }

  bool failed_to_read_elf_head=
    (sizeof(elf_head)!=
        (::read(file_descriptor, &elf_head,sizeof(elf_head)))) ;

  ::close(file_descriptor);
  if (failed_to_read_elf_head) {
    // file i/o error - report dlerror() msg
    return NULL;
  }

  typedef struct {
    Elf32_Half  code;         // Actual value as defined in elf.h
    Elf32_Half  compat_class; // Compatibility of archs at VM's sense
    char        elf_class;    // 32 or 64 bit
    char        endianess;    // MSB or LSB
    char*       name;         // String representation
  } arch_t;

  #ifndef EM_486
  #define EM_486          6               /* Intel 80486 */
  #endif

  #ifndef EM_MIPS_RS3_LE
  #define EM_MIPS_RS3_LE  10              /* MIPS */
  #endif

  #ifndef EM_PPC64
  #define EM_PPC64        21              /* PowerPC64 */
  #endif

  #ifndef EM_S390
  #define EM_S390         22              /* IBM System/390 */
  #endif

  #ifndef EM_IA_64
  #define EM_IA_64        50              /* HP/Intel IA-64 */
  #endif

  #ifndef EM_X86_64
  #define EM_X86_64       62              /* AMD x86-64 */
  #endif

  static const arch_t arch_array[]={
    {EM_386,         EM_386,     ELFCLASS32, ELFDATA2LSB, (char*)"IA 32"},
    {EM_486,         EM_386,     ELFCLASS32, ELFDATA2LSB, (char*)"IA 32"},
    {EM_IA_64,       EM_IA_64,   ELFCLASS64, ELFDATA2LSB, (char*)"IA 64"},
    {EM_X86_64,      EM_X86_64,  ELFCLASS64, ELFDATA2LSB, (char*)"AMD 64"},
    {EM_SPARC,       EM_SPARC,   ELFCLASS32, ELFDATA2MSB, (char*)"Sparc 32"},
    {EM_SPARC32PLUS, EM_SPARC,   ELFCLASS32, ELFDATA2MSB, (char*)"Sparc 32"},
    {EM_SPARCV9,     EM_SPARCV9, ELFCLASS64, ELFDATA2MSB, (char*)"Sparc v9 64"},
    {EM_PPC,         EM_PPC,     ELFCLASS32, ELFDATA2MSB, (char*)"Power PC 32"},
    {EM_PPC64,       EM_PPC64,   ELFCLASS64, ELFDATA2MSB, (char*)"Power PC 64"},
    {EM_ARM,         EM_ARM,     ELFCLASS32,   ELFDATA2LSB, (char*)"ARM"},
    {EM_S390,        EM_S390,    ELFCLASSNONE, ELFDATA2MSB, (char*)"IBM System/390"},
    {EM_ALPHA,       EM_ALPHA,   ELFCLASS64, ELFDATA2LSB, (char*)"Alpha"},
    {EM_MIPS_RS3_LE, EM_MIPS_RS3_LE, ELFCLASS32, ELFDATA2LSB, (char*)"MIPSel"},
    {EM_MIPS,        EM_MIPS,    ELFCLASS32, ELFDATA2MSB, (char*)"MIPS"},
    {EM_PARISC,      EM_PARISC,  ELFCLASS32, ELFDATA2MSB, (char*)"PARISC"},
    {EM_68K,         EM_68K,     ELFCLASS32, ELFDATA2MSB, (char*)"M68k"}
  };

  #if  (defined IA32)
    static  Elf32_Half running_arch_code=EM_386;
  #elif   (defined AMD64)
    static  Elf32_Half running_arch_code=EM_X86_64;
  #elif  (defined IA64)
    static  Elf32_Half running_arch_code=EM_IA_64;
  #elif  (defined __sparc) && (defined _LP64)
    static  Elf32_Half running_arch_code=EM_SPARCV9;
  #elif  (defined __sparc) && (!defined _LP64)
    static  Elf32_Half running_arch_code=EM_SPARC;
  #elif  (defined __powerpc64__)
    static  Elf32_Half running_arch_code=EM_PPC64;
  #elif  (defined __powerpc__)
    static  Elf32_Half running_arch_code=EM_PPC;
  #elif  (defined ARM)
    static  Elf32_Half running_arch_code=EM_ARM;
  #elif  (defined S390)
    static  Elf32_Half running_arch_code=EM_S390;
  #elif  (defined ALPHA)
    static  Elf32_Half running_arch_code=EM_ALPHA;
  #elif  (defined MIPSEL)
    static  Elf32_Half running_arch_code=EM_MIPS_RS3_LE;
  #elif  (defined PARISC)
    static  Elf32_Half running_arch_code=EM_PARISC;
  #elif  (defined MIPS)
    static  Elf32_Half running_arch_code=EM_MIPS;
  #elif  (defined M68K)
    static  Elf32_Half running_arch_code=EM_68K;
  #else
    #error Method os::dll_load requires that one of following is defined:\
         IA32, AMD64, IA64, __sparc, __powerpc__, ARM, S390, ALPHA, MIPS, MIPSEL, PARISC, M68K
  #endif

  // Identify compatability class for VM's architecture and library's architecture
  // Obtain string descriptions for architectures

  arch_t lib_arch={elf_head.e_machine,0,elf_head.e_ident[EI_CLASS], elf_head.e_ident[EI_DATA], NULL};
  int running_arch_index=-1;

  for (unsigned int i=0 ; i < ARRAY_SIZE(arch_array) ; i++ ) {
    if (running_arch_code == arch_array[i].code) {
      running_arch_index    = i;
    }
    if (lib_arch.code == arch_array[i].code) {
      lib_arch.compat_class = arch_array[i].compat_class;
      lib_arch.name         = arch_array[i].name;
    }
  }

  assert(running_arch_index != -1,
    "Didn't find running architecture code (running_arch_code) in arch_array");
  if (running_arch_index == -1) {
    // Even though running architecture detection failed
    // we may still continue with reporting dlerror() message
    return NULL;
  }

  if (lib_arch.endianess != arch_array[running_arch_index].endianess) {
    ::snprintf(diag_msg_buf, diag_msg_max_length-1," (Possible cause: endianness mismatch)");
    return NULL;
  }

#ifndef S390
  if (lib_arch.elf_class != arch_array[running_arch_index].elf_class) {
    ::snprintf(diag_msg_buf, diag_msg_max_length-1," (Possible cause: architecture word width mismatch)");
    return NULL;
  }
#endif // !S390

  if (lib_arch.compat_class != arch_array[running_arch_index].compat_class) {
    if ( lib_arch.name!=NULL ) {
      ::snprintf(diag_msg_buf, diag_msg_max_length-1,
        " (Possible cause: can't load %s-bit .so on a %s-bit platform)",
        lib_arch.name, arch_array[running_arch_index].name);
    } else {
      ::snprintf(diag_msg_buf, diag_msg_max_length-1,
      " (Possible cause: can't load this .so (machine code=0x%x) on a %s-bit platform)",
        lib_arch.code,
        arch_array[running_arch_index].name);
    }
  }

  return NULL;
}
#endif /* !__APPLE__ */

// XXX: Do we need a lock around this as per Linux?
void* os::dll_lookup(void* handle, const char* name) {
  return dlsym(handle, name);
}


static bool _print_ascii_file(const char* filename, outputStream* st) {
  int fd = ::open(filename, O_RDONLY);
  if (fd == -1) {
     return false;
  }

  char buf[32];
  int bytes;
  while ((bytes = ::read(fd, buf, sizeof(buf))) > 0) {
    st->print_raw(buf, bytes);
  }

  ::close(fd);

  return true;
}

void os::print_dll_info(outputStream *st) {
   st->print_cr("Dynamic libraries:");
#ifdef RTLD_DI_LINKMAP
    Dl_info dli;
    void *handle;
    Link_map *map;
    Link_map *p;

    if (!dladdr(CAST_FROM_FN_PTR(void *, os::print_dll_info), &dli)) {
        st->print_cr("Error: Cannot print dynamic libraries.");
        return;
    }
    handle = dlopen(dli.dli_fname, RTLD_LAZY);
    if (handle == NULL) {
        st->print_cr("Error: Cannot print dynamic libraries.");
        return;
    }
    dlinfo(handle, RTLD_DI_LINKMAP, &map);
    if (map == NULL) {
        st->print_cr("Error: Cannot print dynamic libraries.");
        return;
    }

    while (map->l_prev != NULL)
        map = map->l_prev;

    while (map != NULL) {
        st->print_cr(PTR_FORMAT " \t%s", map->l_addr, map->l_name);
        map = map->l_next;
    }

    dlclose(handle);
#elif defined(__APPLE__)
    uint32_t count;
    uint32_t i;

    count = _dyld_image_count();
    for (i = 1; i < count; i++) {
        const char *name = _dyld_get_image_name(i);
        intptr_t slide = _dyld_get_image_vmaddr_slide(i);
        st->print_cr(PTR_FORMAT " \t%s", slide, name);
    }
#else
   st->print_cr("Error: Cannot print dynamic libraries.");
#endif
}

1586 1587 1588 1589 1590
void os::print_os_info_brief(outputStream* st) {
  st->print("Bsd");

  os::Posix::print_uname_info(st);
}
N
never 已提交
1591 1592 1593

void os::print_os_info(outputStream* st) {
  st->print("OS:");
1594
  st->print("Bsd");
N
never 已提交
1595

1596
  os::Posix::print_uname_info(st);
N
never 已提交
1597

1598
  os::Posix::print_rlimit_info(st);
N
never 已提交
1599

1600
  os::Posix::print_load_average(st);
N
never 已提交
1601 1602 1603 1604 1605 1606 1607 1608 1609 1610 1611 1612 1613 1614 1615 1616 1617 1618 1619 1620 1621 1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708
}

void os::pd_print_cpu_info(outputStream* st) {
  // Nothing to do for now.
}

void os::print_memory_info(outputStream* st) {

  st->print("Memory:");
  st->print(" %dk page", os::vm_page_size()>>10);

  st->print(", physical " UINT64_FORMAT "k",
            os::physical_memory() >> 10);
  st->print("(" UINT64_FORMAT "k free)",
            os::available_memory() >> 10);
  st->cr();

  // meminfo
  st->print("\n/proc/meminfo:\n");
  _print_ascii_file("/proc/meminfo", st);
  st->cr();
}

// Taken from /usr/include/bits/siginfo.h  Supposed to be architecture specific
// but they're the same for all the bsd arch that we support
// and they're the same for solaris but there's no common place to put this.
const char *ill_names[] = { "ILL0", "ILL_ILLOPC", "ILL_ILLOPN", "ILL_ILLADR",
                          "ILL_ILLTRP", "ILL_PRVOPC", "ILL_PRVREG",
                          "ILL_COPROC", "ILL_BADSTK" };

const char *fpe_names[] = { "FPE0", "FPE_INTDIV", "FPE_INTOVF", "FPE_FLTDIV",
                          "FPE_FLTOVF", "FPE_FLTUND", "FPE_FLTRES",
                          "FPE_FLTINV", "FPE_FLTSUB", "FPE_FLTDEN" };

const char *segv_names[] = { "SEGV0", "SEGV_MAPERR", "SEGV_ACCERR" };

const char *bus_names[] = { "BUS0", "BUS_ADRALN", "BUS_ADRERR", "BUS_OBJERR" };

void os::print_siginfo(outputStream* st, void* siginfo) {
  st->print("siginfo:");

  const int buflen = 100;
  char buf[buflen];
  siginfo_t *si = (siginfo_t*)siginfo;
  st->print("si_signo=%s: ", os::exception_name(si->si_signo, buf, buflen));
  if (si->si_errno != 0 && strerror_r(si->si_errno, buf, buflen) == 0) {
    st->print("si_errno=%s", buf);
  } else {
    st->print("si_errno=%d", si->si_errno);
  }
  const int c = si->si_code;
  assert(c > 0, "unexpected si_code");
  switch (si->si_signo) {
  case SIGILL:
    st->print(", si_code=%d (%s)", c, c > 8 ? "" : ill_names[c]);
    st->print(", si_addr=" PTR_FORMAT, si->si_addr);
    break;
  case SIGFPE:
    st->print(", si_code=%d (%s)", c, c > 9 ? "" : fpe_names[c]);
    st->print(", si_addr=" PTR_FORMAT, si->si_addr);
    break;
  case SIGSEGV:
    st->print(", si_code=%d (%s)", c, c > 2 ? "" : segv_names[c]);
    st->print(", si_addr=" PTR_FORMAT, si->si_addr);
    break;
  case SIGBUS:
    st->print(", si_code=%d (%s)", c, c > 3 ? "" : bus_names[c]);
    st->print(", si_addr=" PTR_FORMAT, si->si_addr);
    break;
  default:
    st->print(", si_code=%d", si->si_code);
    // no si_addr
  }

  if ((si->si_signo == SIGBUS || si->si_signo == SIGSEGV) &&
      UseSharedSpaces) {
    FileMapInfo* mapinfo = FileMapInfo::current_info();
    if (mapinfo->is_in_shared_space(si->si_addr)) {
      st->print("\n\nError accessing class data sharing archive."   \
                " Mapped file inaccessible during execution, "      \
                " possible disk/network problem.");
    }
  }
  st->cr();
}


static void print_signal_handler(outputStream* st, int sig,
                                 char* buf, size_t buflen);

void os::print_signal_handlers(outputStream* st, char* buf, size_t buflen) {
  st->print_cr("Signal Handlers:");
  print_signal_handler(st, SIGSEGV, buf, buflen);
  print_signal_handler(st, SIGBUS , buf, buflen);
  print_signal_handler(st, SIGFPE , buf, buflen);
  print_signal_handler(st, SIGPIPE, buf, buflen);
  print_signal_handler(st, SIGXFSZ, buf, buflen);
  print_signal_handler(st, SIGILL , buf, buflen);
  print_signal_handler(st, INTERRUPT_SIGNAL, buf, buflen);
  print_signal_handler(st, SR_signum, buf, buflen);
  print_signal_handler(st, SHUTDOWN1_SIGNAL, buf, buflen);
  print_signal_handler(st, SHUTDOWN2_SIGNAL , buf, buflen);
  print_signal_handler(st, SHUTDOWN3_SIGNAL , buf, buflen);
  print_signal_handler(st, BREAK_SIGNAL, buf, buflen);
}

static char saved_jvm_path[MAXPATHLEN] = {0};

1709
// Find the full path to the current module, libjvm
N
never 已提交
1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733
void os::jvm_path(char *buf, jint buflen) {
  // Error checking.
  if (buflen < MAXPATHLEN) {
    assert(false, "must use a large-enough buffer");
    buf[0] = '\0';
    return;
  }
  // Lazy resolve the path to current module.
  if (saved_jvm_path[0] != 0) {
    strcpy(buf, saved_jvm_path);
    return;
  }

  char dli_fname[MAXPATHLEN];
  bool ret = dll_address_to_library_name(
                CAST_FROM_FN_PTR(address, os::jvm_path),
                dli_fname, sizeof(dli_fname), NULL);
  assert(ret != 0, "cannot locate libjvm");
  char *rp = realpath(dli_fname, buf);
  if (rp == NULL)
    return;

  if (Arguments::created_by_gamma_launcher()) {
    // Support for the gamma launcher.  Typical value for buf is
1734
    // "<JAVA_HOME>/jre/lib/<arch>/<vmtype>/libjvm".  If "/jre/lib/" appears at
N
never 已提交
1735
    // the right place in the string, then assume we are installed in a JDK and
1736 1737 1738
    // we're done.  Otherwise, check for a JAVA_HOME environment variable and
    // construct a path to the JVM being overridden.

N
never 已提交
1739 1740 1741 1742 1743 1744 1745 1746 1747 1748 1749 1750 1751
    const char *p = buf + strlen(buf) - 1;
    for (int count = 0; p > buf && count < 5; ++count) {
      for (--p; p > buf && *p != '/'; --p)
        /* empty */ ;
    }

    if (strncmp(p, "/jre/lib/", 9) != 0) {
      // Look for JAVA_HOME in the environment.
      char* java_home_var = ::getenv("JAVA_HOME");
      if (java_home_var != NULL && java_home_var[0] != 0) {
        char* jrelib_p;
        int len;

1752
        // Check the current module name "libjvm"
N
never 已提交
1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763
        p = strrchr(buf, '/');
        assert(strstr(p, "/libjvm") == p, "invalid library name");

        rp = realpath(java_home_var, buf);
        if (rp == NULL)
          return;

        // determine if this is a legacy image or modules image
        // modules image doesn't have "jre" subdirectory
        len = strlen(buf);
        jrelib_p = buf + len;
1764 1765 1766 1767 1768 1769 1770 1771 1772 1773 1774

        // Add the appropriate library subdir
        snprintf(jrelib_p, buflen-len, "/jre/lib");
        if (0 != access(buf, F_OK)) {
          snprintf(jrelib_p, buflen-len, "/lib");
        }

        // Add the appropriate client or server subdir
        len = strlen(buf);
        jrelib_p = buf + len;
        snprintf(jrelib_p, buflen-len, "/%s", COMPILER_VARIANT);
N
never 已提交
1775
        if (0 != access(buf, F_OK)) {
1776
          snprintf(jrelib_p, buflen-len, "");
N
never 已提交
1777 1778
        }

1779 1780 1781
        // If the path exists within JAVA_HOME, add the JVM library name
        // to complete the path to JVM being overridden.  Otherwise fallback
        // to the path to the current library.
N
never 已提交
1782
        if (0 == access(buf, F_OK)) {
1783
          // Use current module name "libjvm"
N
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          len = strlen(buf);
1785
          snprintf(buf + len, buflen-len, "/libjvm%s", JNI_LIB_SUFFIX);
N
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        } else {
1787
          // Fall back to path of current library
N
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          rp = realpath(dli_fname, buf);
          if (rp == NULL)
            return;
        }
      }
    }
  }

  strcpy(saved_jvm_path, buf);
}

void os::print_jni_name_prefix_on(outputStream* st, int args_size) {
  // no prefix required, not even "_"
}

void os::print_jni_name_suffix_on(outputStream* st, int args_size) {
  // no suffix required
}

////////////////////////////////////////////////////////////////////////////////
// sun.misc.Signal support

static volatile jint sigint_count = 0;

static void
UserHandler(int sig, void *siginfo, void *context) {
  // 4511530 - sem_post is serialized and handled by the manager thread. When
  // the program is interrupted by Ctrl-C, SIGINT is sent to every thread. We
  // don't want to flood the manager thread with sem_post requests.
  if (sig == SIGINT && Atomic::add(1, &sigint_count) > 1)
      return;

  // Ctrl-C is pressed during error reporting, likely because the error
  // handler fails to abort. Let VM die immediately.
  if (sig == SIGINT && is_error_reported()) {
     os::die();
  }

  os::signal_notify(sig);
}

void* os::user_handler() {
  return CAST_FROM_FN_PTR(void*, UserHandler);
}

extern "C" {
  typedef void (*sa_handler_t)(int);
  typedef void (*sa_sigaction_t)(int, siginfo_t *, void *);
}

void* os::signal(int signal_number, void* handler) {
  struct sigaction sigAct, oldSigAct;

  sigfillset(&(sigAct.sa_mask));
  sigAct.sa_flags   = SA_RESTART|SA_SIGINFO;
  sigAct.sa_handler = CAST_TO_FN_PTR(sa_handler_t, handler);

  if (sigaction(signal_number, &sigAct, &oldSigAct)) {
    // -1 means registration failed
    return (void *)-1;
  }

  return CAST_FROM_FN_PTR(void*, oldSigAct.sa_handler);
}

void os::signal_raise(int signal_number) {
  ::raise(signal_number);
}

/*
 * The following code is moved from os.cpp for making this
 * code platform specific, which it is by its very nature.
 */

// Will be modified when max signal is changed to be dynamic
int os::sigexitnum_pd() {
  return NSIG;
}

// a counter for each possible signal value
static volatile jint pending_signals[NSIG+1] = { 0 };

// Bsd(POSIX) specific hand shaking semaphore.
#ifdef __APPLE__
static semaphore_t sig_sem;
#define SEM_INIT(sem, value)    semaphore_create(mach_task_self(), &sem, SYNC_POLICY_FIFO, value)
#define SEM_WAIT(sem)           semaphore_wait(sem);
#define SEM_POST(sem)           semaphore_signal(sem);
#else
static sem_t sig_sem;
#define SEM_INIT(sem, value)    sem_init(&sem, 0, value)
#define SEM_WAIT(sem)           sem_wait(&sem);
#define SEM_POST(sem)           sem_post(&sem);
#endif

void os::signal_init_pd() {
  // Initialize signal structures
  ::memset((void*)pending_signals, 0, sizeof(pending_signals));

  // Initialize signal semaphore
  ::SEM_INIT(sig_sem, 0);
}

void os::signal_notify(int sig) {
  Atomic::inc(&pending_signals[sig]);
  ::SEM_POST(sig_sem);
}

static int check_pending_signals(bool wait) {
  Atomic::store(0, &sigint_count);
  for (;;) {
    for (int i = 0; i < NSIG + 1; i++) {
      jint n = pending_signals[i];
      if (n > 0 && n == Atomic::cmpxchg(n - 1, &pending_signals[i], n)) {
        return i;
      }
    }
    if (!wait) {
      return -1;
    }
    JavaThread *thread = JavaThread::current();
    ThreadBlockInVM tbivm(thread);

    bool threadIsSuspended;
    do {
      thread->set_suspend_equivalent();
      // cleared by handle_special_suspend_equivalent_condition() or java_suspend_self()
      ::SEM_WAIT(sig_sem);

      // were we externally suspended while we were waiting?
      threadIsSuspended = thread->handle_special_suspend_equivalent_condition();
      if (threadIsSuspended) {
        //
        // The semaphore has been incremented, but while we were waiting
        // another thread suspended us. We don't want to continue running
        // while suspended because that would surprise the thread that
        // suspended us.
        //
        ::SEM_POST(sig_sem);

        thread->java_suspend_self();
      }
    } while (threadIsSuspended);
  }
}

int os::signal_lookup() {
  return check_pending_signals(false);
}

int os::signal_wait() {
  return check_pending_signals(true);
}

////////////////////////////////////////////////////////////////////////////////
// Virtual Memory

int os::vm_page_size() {
  // Seems redundant as all get out
  assert(os::Bsd::page_size() != -1, "must call os::init");
  return os::Bsd::page_size();
}

// Solaris allocates memory by pages.
int os::vm_allocation_granularity() {
  assert(os::Bsd::page_size() != -1, "must call os::init");
  return os::Bsd::page_size();
}

// Rationale behind this function:
//  current (Mon Apr 25 20:12:18 MSD 2005) oprofile drops samples without executable
//  mapping for address (see lookup_dcookie() in the kernel module), thus we cannot get
//  samples for JITted code. Here we create private executable mapping over the code cache
//  and then we can use standard (well, almost, as mapping can change) way to provide
//  info for the reporting script by storing timestamp and location of symbol
void bsd_wrap_code(char* base, size_t size) {
  static volatile jint cnt = 0;

  if (!UseOprofile) {
    return;
  }

  char buf[PATH_MAX + 1];
  int num = Atomic::add(1, &cnt);

  snprintf(buf, PATH_MAX + 1, "%s/hs-vm-%d-%d",
           os::get_temp_directory(), os::current_process_id(), num);
  unlink(buf);

  int fd = ::open(buf, O_CREAT | O_RDWR, S_IRWXU);

  if (fd != -1) {
    off_t rv = ::lseek(fd, size-2, SEEK_SET);
    if (rv != (off_t)-1) {
      if (::write(fd, "", 1) == 1) {
        mmap(base, size,
             PROT_READ|PROT_WRITE|PROT_EXEC,
             MAP_PRIVATE|MAP_FIXED|MAP_NORESERVE, fd, 0);
      }
    }
    ::close(fd);
    unlink(buf);
  }
}

// NOTE: Bsd kernel does not really reserve the pages for us.
//       All it does is to check if there are enough free pages
//       left at the time of mmap(). This could be a potential
//       problem.
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bool os::pd_commit_memory(char* addr, size_t size, bool exec) {
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  int prot = exec ? PROT_READ|PROT_WRITE|PROT_EXEC : PROT_READ|PROT_WRITE;
#ifdef __OpenBSD__
  // XXX: Work-around mmap/MAP_FIXED bug temporarily on OpenBSD
  return ::mprotect(addr, size, prot) == 0;
#else
  uintptr_t res = (uintptr_t) ::mmap(addr, size, prot,
                                   MAP_PRIVATE|MAP_FIXED|MAP_ANONYMOUS, -1, 0);
  return res != (uintptr_t) MAP_FAILED;
#endif
}


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bool os::pd_commit_memory(char* addr, size_t size, size_t alignment_hint,
N
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                       bool exec) {
  return commit_memory(addr, size, exec);
}

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void os::pd_realign_memory(char *addr, size_t bytes, size_t alignment_hint) {
N
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}

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void os::pd_free_memory(char *addr, size_t bytes, size_t alignment_hint) {
N
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  ::madvise(addr, bytes, MADV_DONTNEED);
}

void os::numa_make_global(char *addr, size_t bytes) {
}

void os::numa_make_local(char *addr, size_t bytes, int lgrp_hint) {
}

bool os::numa_topology_changed()   { return false; }

size_t os::numa_get_groups_num() {
  return 1;
}

int os::numa_get_group_id() {
  return 0;
}

size_t os::numa_get_leaf_groups(int *ids, size_t size) {
  if (size > 0) {
    ids[0] = 0;
    return 1;
  }
  return 0;
}

bool os::get_page_info(char *start, page_info* info) {
  return false;
}

char *os::scan_pages(char *start, char* end, page_info* page_expected, page_info* page_found) {
  return end;
}


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bool os::pd_uncommit_memory(char* addr, size_t size) {
N
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#ifdef __OpenBSD__
  // XXX: Work-around mmap/MAP_FIXED bug temporarily on OpenBSD
  return ::mprotect(addr, size, PROT_NONE) == 0;
#else
  uintptr_t res = (uintptr_t) ::mmap(addr, size, PROT_NONE,
                MAP_PRIVATE|MAP_FIXED|MAP_NORESERVE|MAP_ANONYMOUS, -1, 0);
  return res  != (uintptr_t) MAP_FAILED;
#endif
}

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bool os::pd_create_stack_guard_pages(char* addr, size_t size) {
N
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  return os::commit_memory(addr, size);
}

// If this is a growable mapping, remove the guard pages entirely by
// munmap()ping them.  If not, just call uncommit_memory().
bool os::remove_stack_guard_pages(char* addr, size_t size) {
  return os::uncommit_memory(addr, size);
}

static address _highest_vm_reserved_address = NULL;

// If 'fixed' is true, anon_mmap() will attempt to reserve anonymous memory
// at 'requested_addr'. If there are existing memory mappings at the same
// location, however, they will be overwritten. If 'fixed' is false,
// 'requested_addr' is only treated as a hint, the return value may or
// may not start from the requested address. Unlike Bsd mmap(), this
// function returns NULL to indicate failure.
static char* anon_mmap(char* requested_addr, size_t bytes, bool fixed) {
  char * addr;
  int flags;

  flags = MAP_PRIVATE | MAP_NORESERVE | MAP_ANONYMOUS;
  if (fixed) {
    assert((uintptr_t)requested_addr % os::Bsd::page_size() == 0, "unaligned address");
    flags |= MAP_FIXED;
  }

  // Map uncommitted pages PROT_READ and PROT_WRITE, change access
  // to PROT_EXEC if executable when we commit the page.
  addr = (char*)::mmap(requested_addr, bytes, PROT_READ|PROT_WRITE,
                       flags, -1, 0);

  if (addr != MAP_FAILED) {
    // anon_mmap() should only get called during VM initialization,
    // don't need lock (actually we can skip locking even it can be called
    // from multiple threads, because _highest_vm_reserved_address is just a
    // hint about the upper limit of non-stack memory regions.)
    if ((address)addr + bytes > _highest_vm_reserved_address) {
      _highest_vm_reserved_address = (address)addr + bytes;
    }
  }

  return addr == MAP_FAILED ? NULL : addr;
}

// Don't update _highest_vm_reserved_address, because there might be memory
// regions above addr + size. If so, releasing a memory region only creates
// a hole in the address space, it doesn't help prevent heap-stack collision.
//
static int anon_munmap(char * addr, size_t size) {
  return ::munmap(addr, size) == 0;
}

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char* os::pd_reserve_memory(size_t bytes, char* requested_addr,
N
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                         size_t alignment_hint) {
  return anon_mmap(requested_addr, bytes, (requested_addr != NULL));
}

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bool os::pd_release_memory(char* addr, size_t size) {
N
never 已提交
2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164 2165 2166 2167 2168 2169 2170 2171 2172
  return anon_munmap(addr, size);
}

static address highest_vm_reserved_address() {
  return _highest_vm_reserved_address;
}

static bool bsd_mprotect(char* addr, size_t size, int prot) {
  // Bsd wants the mprotect address argument to be page aligned.
  char* bottom = (char*)align_size_down((intptr_t)addr, os::Bsd::page_size());

  // According to SUSv3, mprotect() should only be used with mappings
  // established by mmap(), and mmap() always maps whole pages. Unaligned
  // 'addr' likely indicates problem in the VM (e.g. trying to change
  // protection of malloc'ed or statically allocated memory). Check the
  // caller if you hit this assert.
  assert(addr == bottom, "sanity check");

  size = align_size_up(pointer_delta(addr, bottom, 1) + size, os::Bsd::page_size());
  return ::mprotect(bottom, size, prot) == 0;
}

// Set protections specified
bool os::protect_memory(char* addr, size_t bytes, ProtType prot,
                        bool is_committed) {
  unsigned int p = 0;
  switch (prot) {
  case MEM_PROT_NONE: p = PROT_NONE; break;
  case MEM_PROT_READ: p = PROT_READ; break;
  case MEM_PROT_RW:   p = PROT_READ|PROT_WRITE; break;
  case MEM_PROT_RWX:  p = PROT_READ|PROT_WRITE|PROT_EXEC; break;
  default:
    ShouldNotReachHere();
  }
  // is_committed is unused.
  return bsd_mprotect(addr, bytes, p);
}

bool os::guard_memory(char* addr, size_t size) {
  return bsd_mprotect(addr, size, PROT_NONE);
}

bool os::unguard_memory(char* addr, size_t size) {
  return bsd_mprotect(addr, size, PROT_READ|PROT_WRITE);
}

bool os::Bsd::hugetlbfs_sanity_check(bool warn, size_t page_size) {
2173
  return false;
N
never 已提交
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}

/*
* Set the coredump_filter bits to include largepages in core dump (bit 6)
*
* From the coredump_filter documentation:
*
* - (bit 0) anonymous private memory
* - (bit 1) anonymous shared memory
* - (bit 2) file-backed private memory
* - (bit 3) file-backed shared memory
* - (bit 4) ELF header pages in file-backed private memory areas (it is
*           effective only if the bit 2 is cleared)
* - (bit 5) hugetlb private memory
* - (bit 6) hugetlb shared memory
*/
static void set_coredump_filter(void) {
  FILE *f;
  long cdm;

  if ((f = fopen("/proc/self/coredump_filter", "r+")) == NULL) {
    return;
  }

  if (fscanf(f, "%lx", &cdm) != 1) {
    fclose(f);
    return;
  }

  rewind(f);

  if ((cdm & LARGEPAGES_BIT) == 0) {
    cdm |= LARGEPAGES_BIT;
    fprintf(f, "%#lx", cdm);
  }

  fclose(f);
}

// Large page support

static size_t _large_page_size = 0;

void os::large_page_init() {
}


char* os::reserve_memory_special(size_t bytes, char* req_addr, bool exec) {
  // "exec" is passed in but not used.  Creating the shared image for
  // the code cache doesn't have an SHM_X executable permission to check.
  assert(UseLargePages && UseSHM, "only for SHM large pages");

  key_t key = IPC_PRIVATE;
  char *addr;

  bool warn_on_failure = UseLargePages &&
                        (!FLAG_IS_DEFAULT(UseLargePages) ||
                         !FLAG_IS_DEFAULT(LargePageSizeInBytes)
                        );
  char msg[128];

  // Create a large shared memory region to attach to based on size.
  // Currently, size is the total size of the heap
  int shmid = shmget(key, bytes, IPC_CREAT|SHM_R|SHM_W);
  if (shmid == -1) {
     // Possible reasons for shmget failure:
     // 1. shmmax is too small for Java heap.
     //    > check shmmax value: cat /proc/sys/kernel/shmmax
     //    > increase shmmax value: echo "0xffffffff" > /proc/sys/kernel/shmmax
     // 2. not enough large page memory.
     //    > check available large pages: cat /proc/meminfo
     //    > increase amount of large pages:
     //          echo new_value > /proc/sys/vm/nr_hugepages
     //      Note 1: different Bsd may use different name for this property,
     //            e.g. on Redhat AS-3 it is "hugetlb_pool".
     //      Note 2: it's possible there's enough physical memory available but
     //            they are so fragmented after a long run that they can't
     //            coalesce into large pages. Try to reserve large pages when
     //            the system is still "fresh".
     if (warn_on_failure) {
       jio_snprintf(msg, sizeof(msg), "Failed to reserve shared memory (errno = %d).", errno);
       warning(msg);
     }
     return NULL;
  }

  // attach to the region
  addr = (char*)shmat(shmid, req_addr, 0);
  int err = errno;

  // Remove shmid. If shmat() is successful, the actual shared memory segment
  // will be deleted when it's detached by shmdt() or when the process
  // terminates. If shmat() is not successful this will remove the shared
  // segment immediately.
  shmctl(shmid, IPC_RMID, NULL);

  if ((intptr_t)addr == -1) {
     if (warn_on_failure) {
       jio_snprintf(msg, sizeof(msg), "Failed to attach shared memory (errno = %d).", err);
       warning(msg);
     }
     return NULL;
  }

  return addr;
}

bool os::release_memory_special(char* base, size_t bytes) {
  // detaching the SHM segment will also delete it, see reserve_memory_special()
  int rslt = shmdt(base);
  return rslt == 0;
}

size_t os::large_page_size() {
  return _large_page_size;
}

// HugeTLBFS allows application to commit large page memory on demand;
// with SysV SHM the entire memory region must be allocated as shared
// memory.
bool os::can_commit_large_page_memory() {
  return UseHugeTLBFS;
}

bool os::can_execute_large_page_memory() {
  return UseHugeTLBFS;
}

// Reserve memory at an arbitrary address, only if that area is
// available (and not reserved for something else).

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char* os::pd_attempt_reserve_memory_at(size_t bytes, char* requested_addr) {
N
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2306 2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 2318 2319 2320 2321 2322 2323 2324 2325 2326 2327 2328 2329 2330 2331 2332 2333 2334 2335 2336 2337 2338 2339 2340 2341 2342 2343 2344 2345 2346 2347 2348 2349 2350 2351 2352 2353 2354 2355 2356 2357 2358 2359 2360 2361 2362 2363 2364 2365 2366 2367 2368 2369 2370 2371 2372 2373 2374 2375 2376 2377 2378 2379 2380 2381 2382 2383 2384 2385 2386 2387 2388 2389 2390 2391 2392 2393 2394 2395 2396 2397 2398 2399 2400 2401 2402 2403 2404 2405 2406 2407 2408 2409 2410 2411 2412 2413 2414 2415 2416 2417 2418 2419 2420
  const int max_tries = 10;
  char* base[max_tries];
  size_t size[max_tries];
  const size_t gap = 0x000000;

  // Assert only that the size is a multiple of the page size, since
  // that's all that mmap requires, and since that's all we really know
  // about at this low abstraction level.  If we need higher alignment,
  // we can either pass an alignment to this method or verify alignment
  // in one of the methods further up the call chain.  See bug 5044738.
  assert(bytes % os::vm_page_size() == 0, "reserving unexpected size block");

  // Repeatedly allocate blocks until the block is allocated at the
  // right spot. Give up after max_tries. Note that reserve_memory() will
  // automatically update _highest_vm_reserved_address if the call is
  // successful. The variable tracks the highest memory address every reserved
  // by JVM. It is used to detect heap-stack collision if running with
  // fixed-stack BsdThreads. Because here we may attempt to reserve more
  // space than needed, it could confuse the collision detecting code. To
  // solve the problem, save current _highest_vm_reserved_address and
  // calculate the correct value before return.
  address old_highest = _highest_vm_reserved_address;

  // Bsd mmap allows caller to pass an address as hint; give it a try first,
  // if kernel honors the hint then we can return immediately.
  char * addr = anon_mmap(requested_addr, bytes, false);
  if (addr == requested_addr) {
     return requested_addr;
  }

  if (addr != NULL) {
     // mmap() is successful but it fails to reserve at the requested address
     anon_munmap(addr, bytes);
  }

  int i;
  for (i = 0; i < max_tries; ++i) {
    base[i] = reserve_memory(bytes);

    if (base[i] != NULL) {
      // Is this the block we wanted?
      if (base[i] == requested_addr) {
        size[i] = bytes;
        break;
      }

      // Does this overlap the block we wanted? Give back the overlapped
      // parts and try again.

      size_t top_overlap = requested_addr + (bytes + gap) - base[i];
      if (top_overlap >= 0 && top_overlap < bytes) {
        unmap_memory(base[i], top_overlap);
        base[i] += top_overlap;
        size[i] = bytes - top_overlap;
      } else {
        size_t bottom_overlap = base[i] + bytes - requested_addr;
        if (bottom_overlap >= 0 && bottom_overlap < bytes) {
          unmap_memory(requested_addr, bottom_overlap);
          size[i] = bytes - bottom_overlap;
        } else {
          size[i] = bytes;
        }
      }
    }
  }

  // Give back the unused reserved pieces.

  for (int j = 0; j < i; ++j) {
    if (base[j] != NULL) {
      unmap_memory(base[j], size[j]);
    }
  }

  if (i < max_tries) {
    _highest_vm_reserved_address = MAX2(old_highest, (address)requested_addr + bytes);
    return requested_addr;
  } else {
    _highest_vm_reserved_address = old_highest;
    return NULL;
  }
}

size_t os::read(int fd, void *buf, unsigned int nBytes) {
  RESTARTABLE_RETURN_INT(::read(fd, buf, nBytes));
}

// TODO-FIXME: reconcile Solaris' os::sleep with the bsd variation.
// Solaris uses poll(), bsd uses park().
// Poll() is likely a better choice, assuming that Thread.interrupt()
// generates a SIGUSRx signal. Note that SIGUSR1 can interfere with
// SIGSEGV, see 4355769.

int os::sleep(Thread* thread, jlong millis, bool interruptible) {
  assert(thread == Thread::current(),  "thread consistency check");

  ParkEvent * const slp = thread->_SleepEvent ;
  slp->reset() ;
  OrderAccess::fence() ;

  if (interruptible) {
    jlong prevtime = javaTimeNanos();

    for (;;) {
      if (os::is_interrupted(thread, true)) {
        return OS_INTRPT;
      }

      jlong newtime = javaTimeNanos();

      if (newtime - prevtime < 0) {
        // time moving backwards, should only happen if no monotonic clock
        // not a guarantee() because JVM should not abort on kernel/glibc bugs
        assert(!Bsd::supports_monotonic_clock(), "time moving backwards");
      } else {
2421
        millis -= (newtime - prevtime) / NANOSECS_PER_MILLISEC;
N
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      }

      if(millis <= 0) {
        return OS_OK;
      }

      prevtime = newtime;

      {
        assert(thread->is_Java_thread(), "sanity check");
        JavaThread *jt = (JavaThread *) thread;
        ThreadBlockInVM tbivm(jt);
        OSThreadWaitState osts(jt->osthread(), false /* not Object.wait() */);

        jt->set_suspend_equivalent();
        // cleared by handle_special_suspend_equivalent_condition() or
        // java_suspend_self() via check_and_wait_while_suspended()

        slp->park(millis);

        // were we externally suspended while we were waiting?
        jt->check_and_wait_while_suspended();
      }
    }
  } else {
    OSThreadWaitState osts(thread->osthread(), false /* not Object.wait() */);
    jlong prevtime = javaTimeNanos();

    for (;;) {
      // It'd be nice to avoid the back-to-back javaTimeNanos() calls on
      // the 1st iteration ...
      jlong newtime = javaTimeNanos();

      if (newtime - prevtime < 0) {
        // time moving backwards, should only happen if no monotonic clock
        // not a guarantee() because JVM should not abort on kernel/glibc bugs
        assert(!Bsd::supports_monotonic_clock(), "time moving backwards");
      } else {
2460
        millis -= (newtime - prevtime) / NANOSECS_PER_MILLISEC;
N
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      }

      if(millis <= 0) break ;

      prevtime = newtime;
      slp->park(millis);
    }
    return OS_OK ;
  }
}

int os::naked_sleep() {
  // %% make the sleep time an integer flag. for now use 1 millisec.
  return os::sleep(Thread::current(), 1, false);
}

// Sleep forever; naked call to OS-specific sleep; use with CAUTION
void os::infinite_sleep() {
  while (true) {    // sleep forever ...
    ::sleep(100);   // ... 100 seconds at a time
  }
}

// Used to convert frequent JVM_Yield() to nops
bool os::dont_yield() {
  return DontYieldALot;
}

void os::yield() {
  sched_yield();
}

os::YieldResult os::NakedYield() { sched_yield(); return os::YIELD_UNKNOWN ;}

void os::yield_all(int attempts) {
  // Yields to all threads, including threads with lower priorities
  // Threads on Bsd are all with same priority. The Solaris style
  // os::yield_all() with nanosleep(1ms) is not necessary.
  sched_yield();
}

// Called from the tight loops to possibly influence time-sharing heuristics
void os::loop_breaker(int attempts) {
  os::yield_all(attempts);
}

////////////////////////////////////////////////////////////////////////////////
// thread priority support

// Note: Normal Bsd applications are run with SCHED_OTHER policy. SCHED_OTHER
// only supports dynamic priority, static priority must be zero. For real-time
// applications, Bsd supports SCHED_RR which allows static priority (1-99).
// However, for large multi-threaded applications, SCHED_RR is not only slower
// than SCHED_OTHER, but also very unstable (my volano tests hang hard 4 out
// of 5 runs - Sep 2005).
//
// The following code actually changes the niceness of kernel-thread/LWP. It
// has an assumption that setpriority() only modifies one kernel-thread/LWP,
// not the entire user process, and user level threads are 1:1 mapped to kernel
// threads. It has always been the case, but could change in the future. For
// this reason, the code should not be used as default (ThreadPriorityPolicy=0).
// It is only used when ThreadPriorityPolicy=1 and requires root privilege.

2524
#if !defined(__APPLE__)
2525
int os::java_to_os_priority[CriticalPriority + 1] = {
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  19,              // 0 Entry should never be used

   0,              // 1 MinPriority
   3,              // 2
   6,              // 3

2532 2533 2534
  10,              // 4
  15,              // 5 NormPriority
  18,              // 6
N
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2536 2537 2538
  21,              // 7
  25,              // 8
  28,              // 9 NearMaxPriority
N
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2540 2541 2542
  31,              // 10 MaxPriority

  31               // 11 CriticalPriority
N
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};
2544
#else
N
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/* Using Mach high-level priority assignments */
2546
int os::java_to_os_priority[CriticalPriority + 1] = {
N
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   0,              // 0 Entry should never be used (MINPRI_USER)

  27,              // 1 MinPriority
  28,              // 2
  29,              // 3

  30,              // 4
  31,              // 5 NormPriority (BASEPRI_DEFAULT)
  32,              // 6

  33,              // 7
  34,              // 8
  35,              // 9 NearMaxPriority

2561 2562 2563
  36,              // 10 MaxPriority

  36               // 11 CriticalPriority
N
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};
#endif

static int prio_init() {
  if (ThreadPriorityPolicy == 1) {
    // Only root can raise thread priority. Don't allow ThreadPriorityPolicy=1
    // if effective uid is not root. Perhaps, a more elegant way of doing
    // this is to test CAP_SYS_NICE capability, but that will require libcap.so
    if (geteuid() != 0) {
      if (!FLAG_IS_DEFAULT(ThreadPriorityPolicy)) {
        warning("-XX:ThreadPriorityPolicy requires root privilege on Bsd");
      }
      ThreadPriorityPolicy = 0;
    }
  }
2579 2580 2581
  if (UseCriticalJavaThreadPriority) {
    os::java_to_os_priority[MaxPriority] = os::java_to_os_priority[CriticalPriority];
  }
N
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  return 0;
}

OSReturn os::set_native_priority(Thread* thread, int newpri) {
  if ( !UseThreadPriorities || ThreadPriorityPolicy == 0 ) return OS_OK;

#ifdef __OpenBSD__
  // OpenBSD pthread_setprio starves low priority threads
  return OS_OK;
#elif defined(__FreeBSD__)
  int ret = pthread_setprio(thread->osthread()->pthread_id(), newpri);
#elif defined(__APPLE__) || defined(__NetBSD__)
  struct sched_param sp;
  int policy;
  pthread_t self = pthread_self();

  if (pthread_getschedparam(self, &policy, &sp) != 0)
    return OS_ERR;

  sp.sched_priority = newpri;
  if (pthread_setschedparam(self, policy, &sp) != 0)
    return OS_ERR;

  return OS_OK;
#else
  int ret = setpriority(PRIO_PROCESS, thread->osthread()->thread_id(), newpri);
  return (ret == 0) ? OS_OK : OS_ERR;
#endif
}

OSReturn os::get_native_priority(const Thread* const thread, int *priority_ptr) {
  if ( !UseThreadPriorities || ThreadPriorityPolicy == 0 ) {
    *priority_ptr = java_to_os_priority[NormPriority];
    return OS_OK;
  }

  errno = 0;
#if defined(__OpenBSD__) || defined(__FreeBSD__)
  *priority_ptr = pthread_getprio(thread->osthread()->pthread_id());
#elif defined(__APPLE__) || defined(__NetBSD__)
  int policy;
  struct sched_param sp;

  pthread_getschedparam(pthread_self(), &policy, &sp);
  *priority_ptr = sp.sched_priority;
#else
  *priority_ptr = getpriority(PRIO_PROCESS, thread->osthread()->thread_id());
#endif
  return (*priority_ptr != -1 || errno == 0 ? OS_OK : OS_ERR);
}

// Hint to the underlying OS that a task switch would not be good.
// Void return because it's a hint and can fail.
void os::hint_no_preempt() {}

////////////////////////////////////////////////////////////////////////////////
// suspend/resume support

//  the low-level signal-based suspend/resume support is a remnant from the
//  old VM-suspension that used to be for java-suspension, safepoints etc,
//  within hotspot. Now there is a single use-case for this:
//    - calling get_thread_pc() on the VMThread by the flat-profiler task
//      that runs in the watcher thread.
//  The remaining code is greatly simplified from the more general suspension
//  code that used to be used.
//
//  The protocol is quite simple:
//  - suspend:
//      - sends a signal to the target thread
//      - polls the suspend state of the osthread using a yield loop
//      - target thread signal handler (SR_handler) sets suspend state
//        and blocks in sigsuspend until continued
//  - resume:
//      - sets target osthread state to continue
//      - sends signal to end the sigsuspend loop in the SR_handler
//
//  Note that the SR_lock plays no role in this suspend/resume protocol.
//

static void resume_clear_context(OSThread *osthread) {
  osthread->set_ucontext(NULL);
  osthread->set_siginfo(NULL);

  // notify the suspend action is completed, we have now resumed
  osthread->sr.clear_suspended();
}

static void suspend_save_context(OSThread *osthread, siginfo_t* siginfo, ucontext_t* context) {
  osthread->set_ucontext(context);
  osthread->set_siginfo(siginfo);
}

//
// Handler function invoked when a thread's execution is suspended or
// resumed. We have to be careful that only async-safe functions are
// called here (Note: most pthread functions are not async safe and
// should be avoided.)
//
// Note: sigwait() is a more natural fit than sigsuspend() from an
// interface point of view, but sigwait() prevents the signal hander
// from being run. libpthread would get very confused by not having
// its signal handlers run and prevents sigwait()'s use with the
// mutex granting granting signal.
//
// Currently only ever called on the VMThread
//
static void SR_handler(int sig, siginfo_t* siginfo, ucontext_t* context) {
  // Save and restore errno to avoid confusing native code with EINTR
  // after sigsuspend.
  int old_errno = errno;

  Thread* thread = Thread::current();
  OSThread* osthread = thread->osthread();
  assert(thread->is_VM_thread(), "Must be VMThread");
  // read current suspend action
  int action = osthread->sr.suspend_action();
2698
  if (action == os::Bsd::SuspendResume::SR_SUSPEND) {
N
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    suspend_save_context(osthread, siginfo, context);

    // Notify the suspend action is about to be completed. do_suspend()
    // waits until SR_SUSPENDED is set and then returns. We will wait
    // here for a resume signal and that completes the suspend-other
    // action. do_suspend/do_resume is always called as a pair from
    // the same thread - so there are no races

    // notify the caller
    osthread->sr.set_suspended();

    sigset_t suspend_set;  // signals for sigsuspend()

    // get current set of blocked signals and unblock resume signal
    pthread_sigmask(SIG_BLOCK, NULL, &suspend_set);
    sigdelset(&suspend_set, SR_signum);

    // wait here until we are resumed
    do {
      sigsuspend(&suspend_set);
      // ignore all returns until we get a resume signal
2720
    } while (osthread->sr.suspend_action() != os::Bsd::SuspendResume::SR_CONTINUE);
N
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    resume_clear_context(osthread);

  } else {
2725
    assert(action == os::Bsd::SuspendResume::SR_CONTINUE, "unexpected sr action");
N
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    // nothing special to do - just leave the handler
  }

  errno = old_errno;
}


static int SR_initialize() {
  struct sigaction act;
  char *s;
  /* Get signal number to use for suspend/resume */
  if ((s = ::getenv("_JAVA_SR_SIGNUM")) != 0) {
    int sig = ::strtol(s, 0, 10);
    if (sig > 0 || sig < NSIG) {
        SR_signum = sig;
    }
  }

  assert(SR_signum > SIGSEGV && SR_signum > SIGBUS,
        "SR_signum must be greater than max(SIGSEGV, SIGBUS), see 4355769");

  sigemptyset(&SR_sigset);
  sigaddset(&SR_sigset, SR_signum);

  /* Set up signal handler for suspend/resume */
  act.sa_flags = SA_RESTART|SA_SIGINFO;
  act.sa_handler = (void (*)(int)) SR_handler;

  // SR_signum is blocked by default.
  // 4528190 - We also need to block pthread restart signal (32 on all
  // supported Bsd platforms). Note that BsdThreads need to block
  // this signal for all threads to work properly. So we don't have
  // to use hard-coded signal number when setting up the mask.
  pthread_sigmask(SIG_BLOCK, NULL, &act.sa_mask);

  if (sigaction(SR_signum, &act, 0) == -1) {
    return -1;
  }

  // Save signal flag
  os::Bsd::set_our_sigflags(SR_signum, act.sa_flags);
  return 0;
}

static int SR_finalize() {
  return 0;
}


// returns true on success and false on error - really an error is fatal
// but this seems the normal response to library errors
static bool do_suspend(OSThread* osthread) {
  // mark as suspended and send signal
2779
  osthread->sr.set_suspend_action(os::Bsd::SuspendResume::SR_SUSPEND);
N
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  int status = pthread_kill(osthread->pthread_id(), SR_signum);
  assert_status(status == 0, status, "pthread_kill");

  // check status and wait until notified of suspension
  if (status == 0) {
    for (int i = 0; !osthread->sr.is_suspended(); i++) {
      os::yield_all(i);
    }
2788
    osthread->sr.set_suspend_action(os::Bsd::SuspendResume::SR_NONE);
N
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2789 2790 2791
    return true;
  }
  else {
2792
    osthread->sr.set_suspend_action(os::Bsd::SuspendResume::SR_NONE);
N
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    return false;
  }
}

static void do_resume(OSThread* osthread) {
  assert(osthread->sr.is_suspended(), "thread should be suspended");
2799
  osthread->sr.set_suspend_action(os::Bsd::SuspendResume::SR_CONTINUE);
N
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  int status = pthread_kill(osthread->pthread_id(), SR_signum);
  assert_status(status == 0, status, "pthread_kill");
  // check status and wait unit notified of resumption
  if (status == 0) {
    for (int i = 0; osthread->sr.is_suspended(); i++) {
      os::yield_all(i);
    }
  }
2809
  osthread->sr.set_suspend_action(os::Bsd::SuspendResume::SR_NONE);
N
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}

////////////////////////////////////////////////////////////////////////////////
// interrupt support

void os::interrupt(Thread* thread) {
  assert(Thread::current() == thread || Threads_lock->owned_by_self(),
    "possibility of dangling Thread pointer");

  OSThread* osthread = thread->osthread();

  if (!osthread->interrupted()) {
    osthread->set_interrupted(true);
    // More than one thread can get here with the same value of osthread,
    // resulting in multiple notifications.  We do, however, want the store
    // to interrupted() to be visible to other threads before we execute unpark().
    OrderAccess::fence();
    ParkEvent * const slp = thread->_SleepEvent ;
    if (slp != NULL) slp->unpark() ;
  }

  // For JSR166. Unpark even if interrupt status already was set
  if (thread->is_Java_thread())
    ((JavaThread*)thread)->parker()->unpark();

  ParkEvent * ev = thread->_ParkEvent ;
  if (ev != NULL) ev->unpark() ;

}

bool os::is_interrupted(Thread* thread, bool clear_interrupted) {
  assert(Thread::current() == thread || Threads_lock->owned_by_self(),
    "possibility of dangling Thread pointer");

  OSThread* osthread = thread->osthread();

  bool interrupted = osthread->interrupted();

  if (interrupted && clear_interrupted) {
    osthread->set_interrupted(false);
    // consider thread->_SleepEvent->reset() ... optional optimization
  }

  return interrupted;
}

///////////////////////////////////////////////////////////////////////////////////
// signal handling (except suspend/resume)

// This routine may be used by user applications as a "hook" to catch signals.
// The user-defined signal handler must pass unrecognized signals to this
// routine, and if it returns true (non-zero), then the signal handler must
// return immediately.  If the flag "abort_if_unrecognized" is true, then this
// routine will never retun false (zero), but instead will execute a VM panic
// routine kill the process.
//
// If this routine returns false, it is OK to call it again.  This allows
// the user-defined signal handler to perform checks either before or after
// the VM performs its own checks.  Naturally, the user code would be making
// a serious error if it tried to handle an exception (such as a null check
// or breakpoint) that the VM was generating for its own correct operation.
//
// This routine may recognize any of the following kinds of signals:
//    SIGBUS, SIGSEGV, SIGILL, SIGFPE, SIGQUIT, SIGPIPE, SIGXFSZ, SIGUSR1.
// It should be consulted by handlers for any of those signals.
//
// The caller of this routine must pass in the three arguments supplied
// to the function referred to in the "sa_sigaction" (not the "sa_handler")
// field of the structure passed to sigaction().  This routine assumes that
// the sa_flags field passed to sigaction() includes SA_SIGINFO and SA_RESTART.
//
// Note that the VM will print warnings if it detects conflicting signal
// handlers, unless invoked with the option "-XX:+AllowUserSignalHandlers".
//
extern "C" JNIEXPORT int
JVM_handle_bsd_signal(int signo, siginfo_t* siginfo,
                        void* ucontext, int abort_if_unrecognized);

void signalHandler(int sig, siginfo_t* info, void* uc) {
  assert(info != NULL && uc != NULL, "it must be old kernel");
2890
  int orig_errno = errno;  // Preserve errno value over signal handler.
N
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2891
  JVM_handle_bsd_signal(sig, info, uc, true);
2892
  errno = orig_errno;
N
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}


// This boolean allows users to forward their own non-matching signals
// to JVM_handle_bsd_signal, harmlessly.
bool os::Bsd::signal_handlers_are_installed = false;

// For signal-chaining
struct sigaction os::Bsd::sigact[MAXSIGNUM];
unsigned int os::Bsd::sigs = 0;
bool os::Bsd::libjsig_is_loaded = false;
typedef struct sigaction *(*get_signal_t)(int);
get_signal_t os::Bsd::get_signal_action = NULL;

struct sigaction* os::Bsd::get_chained_signal_action(int sig) {
  struct sigaction *actp = NULL;

  if (libjsig_is_loaded) {
    // Retrieve the old signal handler from libjsig
    actp = (*get_signal_action)(sig);
  }
  if (actp == NULL) {
    // Retrieve the preinstalled signal handler from jvm
    actp = get_preinstalled_handler(sig);
  }

  return actp;
}

static bool call_chained_handler(struct sigaction *actp, int sig,
                                 siginfo_t *siginfo, void *context) {
  // Call the old signal handler
  if (actp->sa_handler == SIG_DFL) {
    // It's more reasonable to let jvm treat it as an unexpected exception
    // instead of taking the default action.
    return false;
  } else if (actp->sa_handler != SIG_IGN) {
    if ((actp->sa_flags & SA_NODEFER) == 0) {
      // automaticlly block the signal
      sigaddset(&(actp->sa_mask), sig);
    }

    sa_handler_t hand;
    sa_sigaction_t sa;
    bool siginfo_flag_set = (actp->sa_flags & SA_SIGINFO) != 0;
    // retrieve the chained handler
    if (siginfo_flag_set) {
      sa = actp->sa_sigaction;
    } else {
      hand = actp->sa_handler;
    }

    if ((actp->sa_flags & SA_RESETHAND) != 0) {
      actp->sa_handler = SIG_DFL;
    }

    // try to honor the signal mask
    sigset_t oset;
    pthread_sigmask(SIG_SETMASK, &(actp->sa_mask), &oset);

    // call into the chained handler
    if (siginfo_flag_set) {
      (*sa)(sig, siginfo, context);
    } else {
      (*hand)(sig);
    }

    // restore the signal mask
    pthread_sigmask(SIG_SETMASK, &oset, 0);
  }
  // Tell jvm's signal handler the signal is taken care of.
  return true;
}

bool os::Bsd::chained_handler(int sig, siginfo_t* siginfo, void* context) {
  bool chained = false;
  // signal-chaining
  if (UseSignalChaining) {
    struct sigaction *actp = get_chained_signal_action(sig);
    if (actp != NULL) {
      chained = call_chained_handler(actp, sig, siginfo, context);
    }
  }
  return chained;
}

struct sigaction* os::Bsd::get_preinstalled_handler(int sig) {
  if ((( (unsigned int)1 << sig ) & sigs) != 0) {
    return &sigact[sig];
  }
  return NULL;
}

void os::Bsd::save_preinstalled_handler(int sig, struct sigaction& oldAct) {
  assert(sig > 0 && sig < MAXSIGNUM, "vm signal out of expected range");
  sigact[sig] = oldAct;
  sigs |= (unsigned int)1 << sig;
}

// for diagnostic
int os::Bsd::sigflags[MAXSIGNUM];

int os::Bsd::get_our_sigflags(int sig) {
  assert(sig > 0 && sig < MAXSIGNUM, "vm signal out of expected range");
  return sigflags[sig];
}

void os::Bsd::set_our_sigflags(int sig, int flags) {
  assert(sig > 0 && sig < MAXSIGNUM, "vm signal out of expected range");
  sigflags[sig] = flags;
}

void os::Bsd::set_signal_handler(int sig, bool set_installed) {
  // Check for overwrite.
  struct sigaction oldAct;
  sigaction(sig, (struct sigaction*)NULL, &oldAct);

  void* oldhand = oldAct.sa_sigaction
                ? CAST_FROM_FN_PTR(void*,  oldAct.sa_sigaction)
                : CAST_FROM_FN_PTR(void*,  oldAct.sa_handler);
  if (oldhand != CAST_FROM_FN_PTR(void*, SIG_DFL) &&
      oldhand != CAST_FROM_FN_PTR(void*, SIG_IGN) &&
      oldhand != CAST_FROM_FN_PTR(void*, (sa_sigaction_t)signalHandler)) {
    if (AllowUserSignalHandlers || !set_installed) {
      // Do not overwrite; user takes responsibility to forward to us.
      return;
    } else if (UseSignalChaining) {
      // save the old handler in jvm
      save_preinstalled_handler(sig, oldAct);
      // libjsig also interposes the sigaction() call below and saves the
      // old sigaction on it own.
    } else {
      fatal(err_msg("Encountered unexpected pre-existing sigaction handler "
                    "%#lx for signal %d.", (long)oldhand, sig));
    }
  }

  struct sigaction sigAct;
  sigfillset(&(sigAct.sa_mask));
  sigAct.sa_handler = SIG_DFL;
  if (!set_installed) {
    sigAct.sa_flags = SA_SIGINFO|SA_RESTART;
  } else {
    sigAct.sa_sigaction = signalHandler;
    sigAct.sa_flags = SA_SIGINFO|SA_RESTART;
  }
  // Save flags, which are set by ours
  assert(sig > 0 && sig < MAXSIGNUM, "vm signal out of expected range");
  sigflags[sig] = sigAct.sa_flags;

  int ret = sigaction(sig, &sigAct, &oldAct);
  assert(ret == 0, "check");

  void* oldhand2  = oldAct.sa_sigaction
                  ? CAST_FROM_FN_PTR(void*, oldAct.sa_sigaction)
                  : CAST_FROM_FN_PTR(void*, oldAct.sa_handler);
  assert(oldhand2 == oldhand, "no concurrent signal handler installation");
}

// install signal handlers for signals that HotSpot needs to
// handle in order to support Java-level exception handling.

void os::Bsd::install_signal_handlers() {
  if (!signal_handlers_are_installed) {
    signal_handlers_are_installed = true;

    // signal-chaining
    typedef void (*signal_setting_t)();
    signal_setting_t begin_signal_setting = NULL;
    signal_setting_t end_signal_setting = NULL;
    begin_signal_setting = CAST_TO_FN_PTR(signal_setting_t,
                             dlsym(RTLD_DEFAULT, "JVM_begin_signal_setting"));
    if (begin_signal_setting != NULL) {
      end_signal_setting = CAST_TO_FN_PTR(signal_setting_t,
                             dlsym(RTLD_DEFAULT, "JVM_end_signal_setting"));
      get_signal_action = CAST_TO_FN_PTR(get_signal_t,
                            dlsym(RTLD_DEFAULT, "JVM_get_signal_action"));
      libjsig_is_loaded = true;
      assert(UseSignalChaining, "should enable signal-chaining");
    }
    if (libjsig_is_loaded) {
      // Tell libjsig jvm is setting signal handlers
      (*begin_signal_setting)();
    }

    set_signal_handler(SIGSEGV, true);
    set_signal_handler(SIGPIPE, true);
    set_signal_handler(SIGBUS, true);
    set_signal_handler(SIGILL, true);
    set_signal_handler(SIGFPE, true);
    set_signal_handler(SIGXFSZ, true);

#if defined(__APPLE__)
    // In Mac OS X 10.4, CrashReporter will write a crash log for all 'fatal' signals, including
    // signals caught and handled by the JVM. To work around this, we reset the mach task
    // signal handler that's placed on our process by CrashReporter. This disables
    // CrashReporter-based reporting.
    //
    // This work-around is not necessary for 10.5+, as CrashReporter no longer intercedes
    // on caught fatal signals.
    //
    // Additionally, gdb installs both standard BSD signal handlers, and mach exception
    // handlers. By replacing the existing task exception handler, we disable gdb's mach
    // exception handling, while leaving the standard BSD signal handlers functional.
    kern_return_t kr;
    kr = task_set_exception_ports(mach_task_self(),
        EXC_MASK_BAD_ACCESS | EXC_MASK_ARITHMETIC,
        MACH_PORT_NULL,
        EXCEPTION_STATE_IDENTITY,
        MACHINE_THREAD_STATE);

    assert(kr == KERN_SUCCESS, "could not set mach task signal handler");
#endif

    if (libjsig_is_loaded) {
      // Tell libjsig jvm finishes setting signal handlers
      (*end_signal_setting)();
    }

    // We don't activate signal checker if libjsig is in place, we trust ourselves
    // and if UserSignalHandler is installed all bets are off
    if (CheckJNICalls) {
      if (libjsig_is_loaded) {
        tty->print_cr("Info: libjsig is activated, all active signal checking is disabled");
        check_signals = false;
      }
      if (AllowUserSignalHandlers) {
        tty->print_cr("Info: AllowUserSignalHandlers is activated, all active signal checking is disabled");
        check_signals = false;
      }
    }
  }
}


/////
// glibc on Bsd platform uses non-documented flag
// to indicate, that some special sort of signal
// trampoline is used.
// We will never set this flag, and we should
// ignore this flag in our diagnostic
#ifdef SIGNIFICANT_SIGNAL_MASK
#undef SIGNIFICANT_SIGNAL_MASK
#endif
#define SIGNIFICANT_SIGNAL_MASK (~0x04000000)

static const char* get_signal_handler_name(address handler,
                                           char* buf, int buflen) {
  int offset;
  bool found = os::dll_address_to_library_name(handler, buf, buflen, &offset);
  if (found) {
    // skip directory names
    const char *p1, *p2;
    p1 = buf;
    size_t len = strlen(os::file_separator());
    while ((p2 = strstr(p1, os::file_separator())) != NULL) p1 = p2 + len;
    jio_snprintf(buf, buflen, "%s+0x%x", p1, offset);
  } else {
    jio_snprintf(buf, buflen, PTR_FORMAT, handler);
  }
  return buf;
}

static void print_signal_handler(outputStream* st, int sig,
                                 char* buf, size_t buflen) {
  struct sigaction sa;

  sigaction(sig, NULL, &sa);

  // See comment for SIGNIFICANT_SIGNAL_MASK define
  sa.sa_flags &= SIGNIFICANT_SIGNAL_MASK;

  st->print("%s: ", os::exception_name(sig, buf, buflen));

  address handler = (sa.sa_flags & SA_SIGINFO)
    ? CAST_FROM_FN_PTR(address, sa.sa_sigaction)
    : CAST_FROM_FN_PTR(address, sa.sa_handler);

  if (handler == CAST_FROM_FN_PTR(address, SIG_DFL)) {
    st->print("SIG_DFL");
  } else if (handler == CAST_FROM_FN_PTR(address, SIG_IGN)) {
    st->print("SIG_IGN");
  } else {
    st->print("[%s]", get_signal_handler_name(handler, buf, buflen));
  }

  st->print(", sa_mask[0]=" PTR32_FORMAT, *(uint32_t*)&sa.sa_mask);

  address rh = VMError::get_resetted_sighandler(sig);
  // May be, handler was resetted by VMError?
  if(rh != NULL) {
    handler = rh;
    sa.sa_flags = VMError::get_resetted_sigflags(sig) & SIGNIFICANT_SIGNAL_MASK;
  }

  st->print(", sa_flags="   PTR32_FORMAT, sa.sa_flags);

  // Check: is it our handler?
  if(handler == CAST_FROM_FN_PTR(address, (sa_sigaction_t)signalHandler) ||
     handler == CAST_FROM_FN_PTR(address, (sa_sigaction_t)SR_handler)) {
    // It is our signal handler
    // check for flags, reset system-used one!
    if((int)sa.sa_flags != os::Bsd::get_our_sigflags(sig)) {
      st->print(
                ", flags was changed from " PTR32_FORMAT ", consider using jsig library",
                os::Bsd::get_our_sigflags(sig));
    }
  }
  st->cr();
}


#define DO_SIGNAL_CHECK(sig) \
  if (!sigismember(&check_signal_done, sig)) \
    os::Bsd::check_signal_handler(sig)

// This method is a periodic task to check for misbehaving JNI applications
// under CheckJNI, we can add any periodic checks here

void os::run_periodic_checks() {

  if (check_signals == false) return;

  // SEGV and BUS if overridden could potentially prevent
  // generation of hs*.log in the event of a crash, debugging
  // such a case can be very challenging, so we absolutely
  // check the following for a good measure:
  DO_SIGNAL_CHECK(SIGSEGV);
  DO_SIGNAL_CHECK(SIGILL);
  DO_SIGNAL_CHECK(SIGFPE);
  DO_SIGNAL_CHECK(SIGBUS);
  DO_SIGNAL_CHECK(SIGPIPE);
  DO_SIGNAL_CHECK(SIGXFSZ);


  // ReduceSignalUsage allows the user to override these handlers
  // see comments at the very top and jvm_solaris.h
  if (!ReduceSignalUsage) {
    DO_SIGNAL_CHECK(SHUTDOWN1_SIGNAL);
    DO_SIGNAL_CHECK(SHUTDOWN2_SIGNAL);
    DO_SIGNAL_CHECK(SHUTDOWN3_SIGNAL);
    DO_SIGNAL_CHECK(BREAK_SIGNAL);
  }

  DO_SIGNAL_CHECK(SR_signum);
  DO_SIGNAL_CHECK(INTERRUPT_SIGNAL);
}

typedef int (*os_sigaction_t)(int, const struct sigaction *, struct sigaction *);

static os_sigaction_t os_sigaction = NULL;

void os::Bsd::check_signal_handler(int sig) {
  char buf[O_BUFLEN];
  address jvmHandler = NULL;


  struct sigaction act;
  if (os_sigaction == NULL) {
    // only trust the default sigaction, in case it has been interposed
    os_sigaction = (os_sigaction_t)dlsym(RTLD_DEFAULT, "sigaction");
    if (os_sigaction == NULL) return;
  }

  os_sigaction(sig, (struct sigaction*)NULL, &act);


  act.sa_flags &= SIGNIFICANT_SIGNAL_MASK;

  address thisHandler = (act.sa_flags & SA_SIGINFO)
    ? CAST_FROM_FN_PTR(address, act.sa_sigaction)
    : CAST_FROM_FN_PTR(address, act.sa_handler) ;


  switch(sig) {
  case SIGSEGV:
  case SIGBUS:
  case SIGFPE:
  case SIGPIPE:
  case SIGILL:
  case SIGXFSZ:
    jvmHandler = CAST_FROM_FN_PTR(address, (sa_sigaction_t)signalHandler);
    break;

  case SHUTDOWN1_SIGNAL:
  case SHUTDOWN2_SIGNAL:
  case SHUTDOWN3_SIGNAL:
  case BREAK_SIGNAL:
    jvmHandler = (address)user_handler();
    break;

  case INTERRUPT_SIGNAL:
    jvmHandler = CAST_FROM_FN_PTR(address, SIG_DFL);
    break;

  default:
    if (sig == SR_signum) {
      jvmHandler = CAST_FROM_FN_PTR(address, (sa_sigaction_t)SR_handler);
    } else {
      return;
    }
    break;
  }

  if (thisHandler != jvmHandler) {
    tty->print("Warning: %s handler ", exception_name(sig, buf, O_BUFLEN));
    tty->print("expected:%s", get_signal_handler_name(jvmHandler, buf, O_BUFLEN));
    tty->print_cr("  found:%s", get_signal_handler_name(thisHandler, buf, O_BUFLEN));
    // No need to check this sig any longer
    sigaddset(&check_signal_done, sig);
  } else if(os::Bsd::get_our_sigflags(sig) != 0 && (int)act.sa_flags != os::Bsd::get_our_sigflags(sig)) {
    tty->print("Warning: %s handler flags ", exception_name(sig, buf, O_BUFLEN));
    tty->print("expected:" PTR32_FORMAT, os::Bsd::get_our_sigflags(sig));
    tty->print_cr("  found:" PTR32_FORMAT, act.sa_flags);
    // No need to check this sig any longer
    sigaddset(&check_signal_done, sig);
  }

  // Dump all the signal
  if (sigismember(&check_signal_done, sig)) {
    print_signal_handlers(tty, buf, O_BUFLEN);
  }
}

extern void report_error(char* file_name, int line_no, char* title, char* format, ...);

extern bool signal_name(int signo, char* buf, size_t len);

const char* os::exception_name(int exception_code, char* buf, size_t size) {
  if (0 < exception_code && exception_code <= SIGRTMAX) {
    // signal
    if (!signal_name(exception_code, buf, size)) {
      jio_snprintf(buf, size, "SIG%d", exception_code);
    }
    return buf;
  } else {
    return NULL;
  }
}

// this is called _before_ the most of global arguments have been parsed
void os::init(void) {
  char dummy;   /* used to get a guess on initial stack address */
//  first_hrtime = gethrtime();

  // With BsdThreads the JavaMain thread pid (primordial thread)
  // is different than the pid of the java launcher thread.
  // So, on Bsd, the launcher thread pid is passed to the VM
  // via the sun.java.launcher.pid property.
  // Use this property instead of getpid() if it was correctly passed.
  // See bug 6351349.
  pid_t java_launcher_pid = (pid_t) Arguments::sun_java_launcher_pid();

  _initial_pid = (java_launcher_pid > 0) ? java_launcher_pid : getpid();

  clock_tics_per_sec = CLK_TCK;

  init_random(1234567);

  ThreadCritical::initialize();

  Bsd::set_page_size(getpagesize());
  if (Bsd::page_size() == -1) {
    fatal(err_msg("os_bsd.cpp: os::init: sysconf failed (%s)",
                  strerror(errno)));
  }
  init_page_sizes((size_t) Bsd::page_size());

  Bsd::initialize_system_info();

  // main_thread points to the aboriginal thread
  Bsd::_main_thread = pthread_self();

  Bsd::clock_init();
  initial_time_count = os::elapsed_counter();

#ifdef __APPLE__
  // XXXDARWIN
  // Work around the unaligned VM callbacks in hotspot's
  // sharedRuntime. The callbacks don't use SSE2 instructions, and work on
  // Linux, Solaris, and FreeBSD. On Mac OS X, dyld (rightly so) enforces
  // alignment when doing symbol lookup. To work around this, we force early
  // binding of all symbols now, thus binding when alignment is known-good.
  _dyld_bind_fully_image_containing_address((const void *) &os::init);
#endif
}

// To install functions for atexit system call
extern "C" {
  static void perfMemory_exit_helper() {
    perfMemory_exit();
  }
}

// this is called _after_ the global arguments have been parsed
jint os::init_2(void)
{
  // Allocate a single page and mark it as readable for safepoint polling
  address polling_page = (address) ::mmap(NULL, Bsd::page_size(), PROT_READ, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
  guarantee( polling_page != MAP_FAILED, "os::init_2: failed to allocate polling page" );

  os::set_polling_page( polling_page );

#ifndef PRODUCT
  if(Verbose && PrintMiscellaneous)
    tty->print("[SafePoint Polling address: " INTPTR_FORMAT "]\n", (intptr_t)polling_page);
#endif

  if (!UseMembar) {
    address mem_serialize_page = (address) ::mmap(NULL, Bsd::page_size(), PROT_READ | PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
    guarantee( mem_serialize_page != NULL, "mmap Failed for memory serialize page");
    os::set_memory_serialize_page( mem_serialize_page );

#ifndef PRODUCT
    if(Verbose && PrintMiscellaneous)
      tty->print("[Memory Serialize  Page address: " INTPTR_FORMAT "]\n", (intptr_t)mem_serialize_page);
#endif
  }

  os::large_page_init();

  // initialize suspend/resume support - must do this before signal_sets_init()
  if (SR_initialize() != 0) {
    perror("SR_initialize failed");
    return JNI_ERR;
  }

  Bsd::signal_sets_init();
  Bsd::install_signal_handlers();

  // Check minimum allowable stack size for thread creation and to initialize
  // the java system classes, including StackOverflowError - depends on page
  // size.  Add a page for compiler2 recursion in main thread.
  // Add in 2*BytesPerWord times page size to account for VM stack during
  // class initialization depending on 32 or 64 bit VM.
  os::Bsd::min_stack_allowed = MAX2(os::Bsd::min_stack_allowed,
            (size_t)(StackYellowPages+StackRedPages+StackShadowPages+
                    2*BytesPerWord COMPILER2_PRESENT(+1)) * Bsd::page_size());

  size_t threadStackSizeInBytes = ThreadStackSize * K;
  if (threadStackSizeInBytes != 0 &&
      threadStackSizeInBytes < os::Bsd::min_stack_allowed) {
        tty->print_cr("\nThe stack size specified is too small, "
                      "Specify at least %dk",
                      os::Bsd::min_stack_allowed/ K);
        return JNI_ERR;
  }

  // Make the stack size a multiple of the page size so that
  // the yellow/red zones can be guarded.
  JavaThread::set_stack_size_at_create(round_to(threadStackSizeInBytes,
        vm_page_size()));

  if (MaxFDLimit) {
    // set the number of file descriptors to max. print out error
    // if getrlimit/setrlimit fails but continue regardless.
    struct rlimit nbr_files;
    int status = getrlimit(RLIMIT_NOFILE, &nbr_files);
    if (status != 0) {
      if (PrintMiscellaneous && (Verbose || WizardMode))
        perror("os::init_2 getrlimit failed");
    } else {
      nbr_files.rlim_cur = nbr_files.rlim_max;

#ifdef __APPLE__
      // Darwin returns RLIM_INFINITY for rlim_max, but fails with EINVAL if
      // you attempt to use RLIM_INFINITY. As per setrlimit(2), OPEN_MAX must
      // be used instead
      nbr_files.rlim_cur = MIN(OPEN_MAX, nbr_files.rlim_cur);
#endif

      status = setrlimit(RLIMIT_NOFILE, &nbr_files);
      if (status != 0) {
        if (PrintMiscellaneous && (Verbose || WizardMode))
          perror("os::init_2 setrlimit failed");
      }
    }
  }

  // at-exit methods are called in the reverse order of their registration.
  // atexit functions are called on return from main or as a result of a
  // call to exit(3C). There can be only 32 of these functions registered
  // and atexit() does not set errno.

  if (PerfAllowAtExitRegistration) {
    // only register atexit functions if PerfAllowAtExitRegistration is set.
    // atexit functions can be delayed until process exit time, which
    // can be problematic for embedded VM situations. Embedded VMs should
    // call DestroyJavaVM() to assure that VM resources are released.

    // note: perfMemory_exit_helper atexit function may be removed in
    // the future if the appropriate cleanup code can be added to the
    // VM_Exit VMOperation's doit method.
    if (atexit(perfMemory_exit_helper) != 0) {
      warning("os::init2 atexit(perfMemory_exit_helper) failed");
    }
  }

  // initialize thread priority policy
  prio_init();

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#ifdef __APPLE__
  // dynamically link to objective c gc registration
  void *handleLibObjc = dlopen(OBJC_LIB, RTLD_LAZY);
  if (handleLibObjc != NULL) {
    objc_registerThreadWithCollectorFunction = (objc_registerThreadWithCollector_t) dlsym(handleLibObjc, OBJC_GCREGISTER);
  }
#endif

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  return JNI_OK;
}

// this is called at the end of vm_initialization
void os::init_3(void) { }

// Mark the polling page as unreadable
void os::make_polling_page_unreadable(void) {
  if( !guard_memory((char*)_polling_page, Bsd::page_size()) )
    fatal("Could not disable polling page");
};

// Mark the polling page as readable
void os::make_polling_page_readable(void) {
  if( !bsd_mprotect((char *)_polling_page, Bsd::page_size(), PROT_READ)) {
    fatal("Could not enable polling page");
  }
};

int os::active_processor_count() {
  return _processor_count;
}

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void os::set_native_thread_name(const char *name) {
#if defined(__APPLE__) && MAC_OS_X_VERSION_MIN_REQUIRED > MAC_OS_X_VERSION_10_5
  // This is only supported in Snow Leopard and beyond
  if (name != NULL) {
    // Add a "Java: " prefix to the name
    char buf[MAXTHREADNAMESIZE];
    snprintf(buf, sizeof(buf), "Java: %s", name);
    pthread_setname_np(buf);
  }
#endif
}

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bool os::distribute_processes(uint length, uint* distribution) {
  // Not yet implemented.
  return false;
}

bool os::bind_to_processor(uint processor_id) {
  // Not yet implemented.
  return false;
}

///

// Suspends the target using the signal mechanism and then grabs the PC before
// resuming the target. Used by the flat-profiler only
ExtendedPC os::get_thread_pc(Thread* thread) {
  // Make sure that it is called by the watcher for the VMThread
  assert(Thread::current()->is_Watcher_thread(), "Must be watcher");
  assert(thread->is_VM_thread(), "Can only be called for VMThread");

  ExtendedPC epc;

  OSThread* osthread = thread->osthread();
  if (do_suspend(osthread)) {
    if (osthread->ucontext() != NULL) {
      epc = os::Bsd::ucontext_get_pc(osthread->ucontext());
    } else {
      // NULL context is unexpected, double-check this is the VMThread
      guarantee(thread->is_VM_thread(), "can only be called for VMThread");
    }
    do_resume(osthread);
  }
  // failure means pthread_kill failed for some reason - arguably this is
  // a fatal problem, but such problems are ignored elsewhere

  return epc;
}

int os::Bsd::safe_cond_timedwait(pthread_cond_t *_cond, pthread_mutex_t *_mutex, const struct timespec *_abstime)
{
  return pthread_cond_timedwait(_cond, _mutex, _abstime);
}

////////////////////////////////////////////////////////////////////////////////
// debug support

static address same_page(address x, address y) {
  int page_bits = -os::vm_page_size();
  if ((intptr_t(x) & page_bits) == (intptr_t(y) & page_bits))
    return x;
  else if (x > y)
    return (address)(intptr_t(y) | ~page_bits) + 1;
  else
    return (address)(intptr_t(y) & page_bits);
}

bool os::find(address addr, outputStream* st) {
  Dl_info dlinfo;
  memset(&dlinfo, 0, sizeof(dlinfo));
  if (dladdr(addr, &dlinfo)) {
    st->print(PTR_FORMAT ": ", addr);
    if (dlinfo.dli_sname != NULL) {
      st->print("%s+%#x", dlinfo.dli_sname,
                 addr - (intptr_t)dlinfo.dli_saddr);
    } else if (dlinfo.dli_fname) {
      st->print("<offset %#x>", addr - (intptr_t)dlinfo.dli_fbase);
    } else {
      st->print("<absolute address>");
    }
    if (dlinfo.dli_fname) {
      st->print(" in %s", dlinfo.dli_fname);
    }
    if (dlinfo.dli_fbase) {
      st->print(" at " PTR_FORMAT, dlinfo.dli_fbase);
    }
    st->cr();

    if (Verbose) {
      // decode some bytes around the PC
      address begin = same_page(addr-40, addr);
      address end   = same_page(addr+40, addr);
      address       lowest = (address) dlinfo.dli_sname;
      if (!lowest)  lowest = (address) dlinfo.dli_fbase;
      if (begin < lowest)  begin = lowest;
      Dl_info dlinfo2;
      if (dladdr(end, &dlinfo2) && dlinfo2.dli_saddr != dlinfo.dli_saddr
          && end > dlinfo2.dli_saddr && dlinfo2.dli_saddr > begin)
        end = (address) dlinfo2.dli_saddr;
      Disassembler::decode(begin, end, st);
    }
    return true;
  }
  return false;
}

////////////////////////////////////////////////////////////////////////////////
// misc

// This does not do anything on Bsd. This is basically a hook for being
// able to use structured exception handling (thread-local exception filters)
// on, e.g., Win32.
void
os::os_exception_wrapper(java_call_t f, JavaValue* value, methodHandle* method,
                         JavaCallArguments* args, Thread* thread) {
  f(value, method, args, thread);
}

void os::print_statistics() {
}

int os::message_box(const char* title, const char* message) {
  int i;
  fdStream err(defaultStream::error_fd());
  for (i = 0; i < 78; i++) err.print_raw("=");
  err.cr();
  err.print_raw_cr(title);
  for (i = 0; i < 78; i++) err.print_raw("-");
  err.cr();
  err.print_raw_cr(message);
  for (i = 0; i < 78; i++) err.print_raw("=");
  err.cr();

  char buf[16];
  // Prevent process from exiting upon "read error" without consuming all CPU
  while (::read(0, buf, sizeof(buf)) <= 0) { ::sleep(100); }

  return buf[0] == 'y' || buf[0] == 'Y';
}

int os::stat(const char *path, struct stat *sbuf) {
  char pathbuf[MAX_PATH];
  if (strlen(path) > MAX_PATH - 1) {
    errno = ENAMETOOLONG;
    return -1;
  }
  os::native_path(strcpy(pathbuf, path));
  return ::stat(pathbuf, sbuf);
}

bool os::check_heap(bool force) {
  return true;
}

int local_vsnprintf(char* buf, size_t count, const char* format, va_list args) {
  return ::vsnprintf(buf, count, format, args);
}

// Is a (classpath) directory empty?
bool os::dir_is_empty(const char* path) {
  DIR *dir = NULL;
  struct dirent *ptr;

  dir = opendir(path);
  if (dir == NULL) return true;

  /* Scan the directory */
  bool result = true;
  char buf[sizeof(struct dirent) + MAX_PATH];
  while (result && (ptr = ::readdir(dir)) != NULL) {
    if (strcmp(ptr->d_name, ".") != 0 && strcmp(ptr->d_name, "..") != 0) {
      result = false;
    }
  }
  closedir(dir);
  return result;
}

// This code originates from JDK's sysOpen and open64_w
// from src/solaris/hpi/src/system_md.c

#ifndef O_DELETE
#define O_DELETE 0x10000
#endif

// Open a file. Unlink the file immediately after open returns
// if the specified oflag has the O_DELETE flag set.
// O_DELETE is used only in j2se/src/share/native/java/util/zip/ZipFile.c

int os::open(const char *path, int oflag, int mode) {

  if (strlen(path) > MAX_PATH - 1) {
    errno = ENAMETOOLONG;
    return -1;
  }
  int fd;
  int o_delete = (oflag & O_DELETE);
  oflag = oflag & ~O_DELETE;

  fd = ::open(path, oflag, mode);
  if (fd == -1) return -1;

  //If the open succeeded, the file might still be a directory
  {
    struct stat buf;
    int ret = ::fstat(fd, &buf);
    int st_mode = buf.st_mode;

    if (ret != -1) {
      if ((st_mode & S_IFMT) == S_IFDIR) {
        errno = EISDIR;
        ::close(fd);
        return -1;
      }
    } else {
      ::close(fd);
      return -1;
    }
  }

    /*
     * All file descriptors that are opened in the JVM and not
     * specifically destined for a subprocess should have the
     * close-on-exec flag set.  If we don't set it, then careless 3rd
     * party native code might fork and exec without closing all
     * appropriate file descriptors (e.g. as we do in closeDescriptors in
     * UNIXProcess.c), and this in turn might:
     *
     * - cause end-of-file to fail to be detected on some file
     *   descriptors, resulting in mysterious hangs, or
     *
     * - might cause an fopen in the subprocess to fail on a system
     *   suffering from bug 1085341.
     *
     * (Yes, the default setting of the close-on-exec flag is a Unix
     * design flaw)
     *
     * See:
     * 1085341: 32-bit stdio routines should support file descriptors >255
     * 4843136: (process) pipe file descriptor from Runtime.exec not being closed
     * 6339493: (process) Runtime.exec does not close all file descriptors on Solaris 9
     */
#ifdef FD_CLOEXEC
    {
        int flags = ::fcntl(fd, F_GETFD);
        if (flags != -1)
            ::fcntl(fd, F_SETFD, flags | FD_CLOEXEC);
    }
#endif

  if (o_delete != 0) {
    ::unlink(path);
  }
  return fd;
}


// create binary file, rewriting existing file if required
int os::create_binary_file(const char* path, bool rewrite_existing) {
  int oflags = O_WRONLY | O_CREAT;
  if (!rewrite_existing) {
    oflags |= O_EXCL;
  }
  return ::open(path, oflags, S_IREAD | S_IWRITE);
}

// return current position of file pointer
jlong os::current_file_offset(int fd) {
  return (jlong)::lseek(fd, (off_t)0, SEEK_CUR);
}

// move file pointer to the specified offset
jlong os::seek_to_file_offset(int fd, jlong offset) {
  return (jlong)::lseek(fd, (off_t)offset, SEEK_SET);
}

// This code originates from JDK's sysAvailable
// from src/solaris/hpi/src/native_threads/src/sys_api_td.c

int os::available(int fd, jlong *bytes) {
  jlong cur, end;
  int mode;
  struct stat buf;

  if (::fstat(fd, &buf) >= 0) {
    mode = buf.st_mode;
    if (S_ISCHR(mode) || S_ISFIFO(mode) || S_ISSOCK(mode)) {
      /*
      * XXX: is the following call interruptible? If so, this might
      * need to go through the INTERRUPT_IO() wrapper as for other
      * blocking, interruptible calls in this file.
      */
      int n;
      if (::ioctl(fd, FIONREAD, &n) >= 0) {
        *bytes = n;
        return 1;
      }
    }
  }
  if ((cur = ::lseek(fd, 0L, SEEK_CUR)) == -1) {
    return 0;
  } else if ((end = ::lseek(fd, 0L, SEEK_END)) == -1) {
    return 0;
  } else if (::lseek(fd, cur, SEEK_SET) == -1) {
    return 0;
  }
  *bytes = end - cur;
  return 1;
}

int os::socket_available(int fd, jint *pbytes) {
   if (fd < 0)
     return OS_OK;

   int ret;

   RESTARTABLE(::ioctl(fd, FIONREAD, pbytes), ret);

   //%% note ioctl can return 0 when successful, JVM_SocketAvailable
   // is expected to return 0 on failure and 1 on success to the jdk.

   return (ret == OS_ERR) ? 0 : 1;
}

// Map a block of memory.
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char* os::pd_map_memory(int fd, const char* file_name, size_t file_offset,
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                     char *addr, size_t bytes, bool read_only,
                     bool allow_exec) {
  int prot;
  int flags;

  if (read_only) {
    prot = PROT_READ;
    flags = MAP_SHARED;
  } else {
    prot = PROT_READ | PROT_WRITE;
    flags = MAP_PRIVATE;
  }

  if (allow_exec) {
    prot |= PROT_EXEC;
  }

  if (addr != NULL) {
    flags |= MAP_FIXED;
  }

  char* mapped_address = (char*)mmap(addr, (size_t)bytes, prot, flags,
                                     fd, file_offset);
  if (mapped_address == MAP_FAILED) {
    return NULL;
  }
  return mapped_address;
}


// Remap a block of memory.
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char* os::pd_remap_memory(int fd, const char* file_name, size_t file_offset,
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                       char *addr, size_t bytes, bool read_only,
                       bool allow_exec) {
  // same as map_memory() on this OS
  return os::map_memory(fd, file_name, file_offset, addr, bytes, read_only,
                        allow_exec);
}


// Unmap a block of memory.
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bool os::pd_unmap_memory(char* addr, size_t bytes) {
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  return munmap(addr, bytes) == 0;
}

// current_thread_cpu_time(bool) and thread_cpu_time(Thread*, bool)
// are used by JVM M&M and JVMTI to get user+sys or user CPU time
// of a thread.
//
// current_thread_cpu_time() and thread_cpu_time(Thread*) returns
// the fast estimate available on the platform.

jlong os::current_thread_cpu_time() {
#ifdef __APPLE__
  return os::thread_cpu_time(Thread::current(), true /* user + sys */);
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#else
  Unimplemented();
  return 0;
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#endif
}

jlong os::thread_cpu_time(Thread* thread) {
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#ifdef __APPLE__
  return os::thread_cpu_time(thread, true /* user + sys */);
#else
  Unimplemented();
  return 0;
#endif
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}

jlong os::current_thread_cpu_time(bool user_sys_cpu_time) {
#ifdef __APPLE__
  return os::thread_cpu_time(Thread::current(), user_sys_cpu_time);
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#else
  Unimplemented();
  return 0;
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#endif
}

jlong os::thread_cpu_time(Thread *thread, bool user_sys_cpu_time) {
#ifdef __APPLE__
  struct thread_basic_info tinfo;
  mach_msg_type_number_t tcount = THREAD_INFO_MAX;
  kern_return_t kr;
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  thread_t mach_thread;
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  mach_thread = thread->osthread()->thread_id();
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  kr = thread_info(mach_thread, THREAD_BASIC_INFO, (thread_info_t)&tinfo, &tcount);
  if (kr != KERN_SUCCESS)
    return -1;

  if (user_sys_cpu_time) {
    jlong nanos;
    nanos = ((jlong) tinfo.system_time.seconds + tinfo.user_time.seconds) * (jlong)1000000000;
    nanos += ((jlong) tinfo.system_time.microseconds + (jlong) tinfo.user_time.microseconds) * (jlong)1000;
    return nanos;
  } else {
    return ((jlong)tinfo.user_time.seconds * 1000000000) + ((jlong)tinfo.user_time.microseconds * (jlong)1000);
  }
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#else
  Unimplemented();
  return 0;
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#endif
}


void os::current_thread_cpu_time_info(jvmtiTimerInfo *info_ptr) {
  info_ptr->max_value = ALL_64_BITS;       // will not wrap in less than 64 bits
  info_ptr->may_skip_backward = false;     // elapsed time not wall time
  info_ptr->may_skip_forward = false;      // elapsed time not wall time
  info_ptr->kind = JVMTI_TIMER_TOTAL_CPU;  // user+system time is returned
}

void os::thread_cpu_time_info(jvmtiTimerInfo *info_ptr) {
  info_ptr->max_value = ALL_64_BITS;       // will not wrap in less than 64 bits
  info_ptr->may_skip_backward = false;     // elapsed time not wall time
  info_ptr->may_skip_forward = false;      // elapsed time not wall time
  info_ptr->kind = JVMTI_TIMER_TOTAL_CPU;  // user+system time is returned
}

bool os::is_thread_cpu_time_supported() {
#ifdef __APPLE__
  return true;
#else
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  return false;
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#endif
}

// System loadavg support.  Returns -1 if load average cannot be obtained.
// Bsd doesn't yet have a (official) notion of processor sets,
// so just return the system wide load average.
int os::loadavg(double loadavg[], int nelem) {
  return ::getloadavg(loadavg, nelem);
}

void os::pause() {
  char filename[MAX_PATH];
  if (PauseAtStartupFile && PauseAtStartupFile[0]) {
    jio_snprintf(filename, MAX_PATH, PauseAtStartupFile);
  } else {
    jio_snprintf(filename, MAX_PATH, "./vm.paused.%d", current_process_id());
  }

  int fd = ::open(filename, O_WRONLY | O_CREAT | O_TRUNC, 0666);
  if (fd != -1) {
    struct stat buf;
    ::close(fd);
    while (::stat(filename, &buf) == 0) {
      (void)::poll(NULL, 0, 100);
    }
  } else {
    jio_fprintf(stderr,
      "Could not open pause file '%s', continuing immediately.\n", filename);
  }
}


// Refer to the comments in os_solaris.cpp park-unpark.
//
// Beware -- Some versions of NPTL embody a flaw where pthread_cond_timedwait() can
// hang indefinitely.  For instance NPTL 0.60 on 2.4.21-4ELsmp is vulnerable.
// For specifics regarding the bug see GLIBC BUGID 261237 :
//    http://www.mail-archive.com/debian-glibc@lists.debian.org/msg10837.html.
// Briefly, pthread_cond_timedwait() calls with an expiry time that's not in the future
// will either hang or corrupt the condvar, resulting in subsequent hangs if the condvar
// is used.  (The simple C test-case provided in the GLIBC bug report manifests the
// hang).  The JVM is vulernable via sleep(), Object.wait(timo), LockSupport.parkNanos()
// and monitorenter when we're using 1-0 locking.  All those operations may result in
// calls to pthread_cond_timedwait().  Using LD_ASSUME_KERNEL to use an older version
// of libpthread avoids the problem, but isn't practical.
//
// Possible remedies:
//
// 1.   Establish a minimum relative wait time.  50 to 100 msecs seems to work.
//      This is palliative and probabilistic, however.  If the thread is preempted
//      between the call to compute_abstime() and pthread_cond_timedwait(), more
//      than the minimum period may have passed, and the abstime may be stale (in the
//      past) resultin in a hang.   Using this technique reduces the odds of a hang
//      but the JVM is still vulnerable, particularly on heavily loaded systems.
//
// 2.   Modify park-unpark to use per-thread (per ParkEvent) pipe-pairs instead
//      of the usual flag-condvar-mutex idiom.  The write side of the pipe is set
//      NDELAY. unpark() reduces to write(), park() reduces to read() and park(timo)
//      reduces to poll()+read().  This works well, but consumes 2 FDs per extant
//      thread.
//
// 3.   Embargo pthread_cond_timedwait() and implement a native "chron" thread
//      that manages timeouts.  We'd emulate pthread_cond_timedwait() by enqueuing
//      a timeout request to the chron thread and then blocking via pthread_cond_wait().
//      This also works well.  In fact it avoids kernel-level scalability impediments
//      on certain platforms that don't handle lots of active pthread_cond_timedwait()
//      timers in a graceful fashion.
//
// 4.   When the abstime value is in the past it appears that control returns
//      correctly from pthread_cond_timedwait(), but the condvar is left corrupt.
//      Subsequent timedwait/wait calls may hang indefinitely.  Given that, we
//      can avoid the problem by reinitializing the condvar -- by cond_destroy()
//      followed by cond_init() -- after all calls to pthread_cond_timedwait().
//      It may be possible to avoid reinitialization by checking the return
//      value from pthread_cond_timedwait().  In addition to reinitializing the
//      condvar we must establish the invariant that cond_signal() is only called
//      within critical sections protected by the adjunct mutex.  This prevents
//      cond_signal() from "seeing" a condvar that's in the midst of being
//      reinitialized or that is corrupt.  Sadly, this invariant obviates the
//      desirable signal-after-unlock optimization that avoids futile context switching.
//
//      I'm also concerned that some versions of NTPL might allocate an auxilliary
//      structure when a condvar is used or initialized.  cond_destroy()  would
//      release the helper structure.  Our reinitialize-after-timedwait fix
//      put excessive stress on malloc/free and locks protecting the c-heap.
//
// We currently use (4).  See the WorkAroundNTPLTimedWaitHang flag.
// It may be possible to refine (4) by checking the kernel and NTPL verisons
// and only enabling the work-around for vulnerable environments.

// utility to compute the abstime argument to timedwait:
// millis is the relative timeout time
// abstime will be the absolute timeout time
// TODO: replace compute_abstime() with unpackTime()

static struct timespec* compute_abstime(struct timespec* abstime, jlong millis) {
  if (millis < 0)  millis = 0;
  struct timeval now;
  int status = gettimeofday(&now, NULL);
  assert(status == 0, "gettimeofday");
  jlong seconds = millis / 1000;
  millis %= 1000;
  if (seconds > 50000000) { // see man cond_timedwait(3T)
    seconds = 50000000;
  }
  abstime->tv_sec = now.tv_sec  + seconds;
  long       usec = now.tv_usec + millis * 1000;
  if (usec >= 1000000) {
    abstime->tv_sec += 1;
    usec -= 1000000;
  }
  abstime->tv_nsec = usec * 1000;
  return abstime;
}


// Test-and-clear _Event, always leaves _Event set to 0, returns immediately.
// Conceptually TryPark() should be equivalent to park(0).

int os::PlatformEvent::TryPark() {
  for (;;) {
    const int v = _Event ;
    guarantee ((v == 0) || (v == 1), "invariant") ;
    if (Atomic::cmpxchg (0, &_Event, v) == v) return v  ;
  }
}

void os::PlatformEvent::park() {       // AKA "down()"
  // Invariant: Only the thread associated with the Event/PlatformEvent
  // may call park().
  // TODO: assert that _Assoc != NULL or _Assoc == Self
  int v ;
  for (;;) {
      v = _Event ;
      if (Atomic::cmpxchg (v-1, &_Event, v) == v) break ;
  }
  guarantee (v >= 0, "invariant") ;
  if (v == 0) {
     // Do this the hard way by blocking ...
     int status = pthread_mutex_lock(_mutex);
     assert_status(status == 0, status, "mutex_lock");
     guarantee (_nParked == 0, "invariant") ;
     ++ _nParked ;
     while (_Event < 0) {
        status = pthread_cond_wait(_cond, _mutex);
        // for some reason, under 2.7 lwp_cond_wait() may return ETIME ...
        // Treat this the same as if the wait was interrupted
        if (status == ETIMEDOUT) { status = EINTR; }
        assert_status(status == 0 || status == EINTR, status, "cond_wait");
     }
     -- _nParked ;

    _Event = 0 ;
     status = pthread_mutex_unlock(_mutex);
     assert_status(status == 0, status, "mutex_unlock");
4131 4132 4133
    // Paranoia to ensure our locked and lock-free paths interact
    // correctly with each other.
    OrderAccess::fence();
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  }
  guarantee (_Event >= 0, "invariant") ;
}

int os::PlatformEvent::park(jlong millis) {
  guarantee (_nParked == 0, "invariant") ;

  int v ;
  for (;;) {
      v = _Event ;
      if (Atomic::cmpxchg (v-1, &_Event, v) == v) break ;
  }
  guarantee (v >= 0, "invariant") ;
  if (v != 0) return OS_OK ;

  // We do this the hard way, by blocking the thread.
  // Consider enforcing a minimum timeout value.
  struct timespec abst;
  compute_abstime(&abst, millis);

  int ret = OS_TIMEOUT;
  int status = pthread_mutex_lock(_mutex);
  assert_status(status == 0, status, "mutex_lock");
  guarantee (_nParked == 0, "invariant") ;
  ++_nParked ;

  // Object.wait(timo) will return because of
  // (a) notification
  // (b) timeout
  // (c) thread.interrupt
  //
  // Thread.interrupt and object.notify{All} both call Event::set.
  // That is, we treat thread.interrupt as a special case of notification.
  // The underlying Solaris implementation, cond_timedwait, admits
  // spurious/premature wakeups, but the JLS/JVM spec prevents the
  // JVM from making those visible to Java code.  As such, we must
  // filter out spurious wakeups.  We assume all ETIME returns are valid.
  //
  // TODO: properly differentiate simultaneous notify+interrupt.
  // In that case, we should propagate the notify to another waiter.

  while (_Event < 0) {
    status = os::Bsd::safe_cond_timedwait(_cond, _mutex, &abst);
    if (status != 0 && WorkAroundNPTLTimedWaitHang) {
      pthread_cond_destroy (_cond);
      pthread_cond_init (_cond, NULL) ;
    }
    assert_status(status == 0 || status == EINTR ||
                  status == ETIMEDOUT,
                  status, "cond_timedwait");
    if (!FilterSpuriousWakeups) break ;                 // previous semantics
    if (status == ETIMEDOUT) break ;
    // We consume and ignore EINTR and spurious wakeups.
  }
  --_nParked ;
  if (_Event >= 0) {
     ret = OS_OK;
  }
  _Event = 0 ;
  status = pthread_mutex_unlock(_mutex);
  assert_status(status == 0, status, "mutex_unlock");
  assert (_nParked == 0, "invariant") ;
4196 4197 4198
  // Paranoia to ensure our locked and lock-free paths interact
  // correctly with each other.
  OrderAccess::fence();
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  return ret;
}

void os::PlatformEvent::unpark() {
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  // Transitions for _Event:
  //    0 :=> 1
  //    1 :=> 1
  //   -1 :=> either 0 or 1; must signal target thread
  //          That is, we can safely transition _Event from -1 to either
  //          0 or 1. Forcing 1 is slightly more efficient for back-to-back
  //          unpark() calls.
  // See also: "Semaphores in Plan 9" by Mullender & Cox
  //
  // Note: Forcing a transition from "-1" to "1" on an unpark() means
  // that it will take two back-to-back park() calls for the owning
  // thread to block. This has the benefit of forcing a spurious return
  // from the first park() call after an unpark() call which will help
  // shake out uses of park() and unpark() without condition variables.

  if (Atomic::xchg(1, &_Event) >= 0) return;

  // Wait for the thread associated with the event to vacate
  int status = pthread_mutex_lock(_mutex);
  assert_status(status == 0, status, "mutex_lock");
  int AnyWaiters = _nParked;
  assert(AnyWaiters == 0 || AnyWaiters == 1, "invariant");
  if (AnyWaiters != 0 && WorkAroundNPTLTimedWaitHang) {
    AnyWaiters = 0;
    pthread_cond_signal(_cond);
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  }
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  status = pthread_mutex_unlock(_mutex);
  assert_status(status == 0, status, "mutex_unlock");
  if (AnyWaiters != 0) {
    status = pthread_cond_signal(_cond);
    assert_status(status == 0, status, "cond_signal");
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  }

  // Note that we signal() _after dropping the lock for "immortal" Events.
  // This is safe and avoids a common class of  futile wakeups.  In rare
  // circumstances this can cause a thread to return prematurely from
  // cond_{timed}wait() but the spurious wakeup is benign and the victim will
  // simply re-test the condition and re-park itself.
}


// JSR166
// -------------------------------------------------------

/*
 * The solaris and bsd implementations of park/unpark are fairly
 * conservative for now, but can be improved. They currently use a
 * mutex/condvar pair, plus a a count.
 * Park decrements count if > 0, else does a condvar wait.  Unpark
 * sets count to 1 and signals condvar.  Only one thread ever waits
 * on the condvar. Contention seen when trying to park implies that someone
 * is unparking you, so don't wait. And spurious returns are fine, so there
 * is no need to track notifications.
 */

#define MAX_SECS 100000000
/*
 * This code is common to bsd and solaris and will be moved to a
 * common place in dolphin.
 *
 * The passed in time value is either a relative time in nanoseconds
 * or an absolute time in milliseconds. Either way it has to be unpacked
 * into suitable seconds and nanoseconds components and stored in the
 * given timespec structure.
 * Given time is a 64-bit value and the time_t used in the timespec is only
 * a signed-32-bit value (except on 64-bit Bsd) we have to watch for
 * overflow if times way in the future are given. Further on Solaris versions
 * prior to 10 there is a restriction (see cond_timedwait) that the specified
 * number of seconds, in abstime, is less than current_time  + 100,000,000.
 * As it will be 28 years before "now + 100000000" will overflow we can
 * ignore overflow and just impose a hard-limit on seconds using the value
 * of "now + 100,000,000". This places a limit on the timeout of about 3.17
 * years from "now".
 */

static void unpackTime(struct timespec* absTime, bool isAbsolute, jlong time) {
  assert (time > 0, "convertTime");

  struct timeval now;
  int status = gettimeofday(&now, NULL);
  assert(status == 0, "gettimeofday");

  time_t max_secs = now.tv_sec + MAX_SECS;

  if (isAbsolute) {
    jlong secs = time / 1000;
    if (secs > max_secs) {
      absTime->tv_sec = max_secs;
    }
    else {
      absTime->tv_sec = secs;
    }
    absTime->tv_nsec = (time % 1000) * NANOSECS_PER_MILLISEC;
  }
  else {
    jlong secs = time / NANOSECS_PER_SEC;
    if (secs >= MAX_SECS) {
      absTime->tv_sec = max_secs;
      absTime->tv_nsec = 0;
    }
    else {
      absTime->tv_sec = now.tv_sec + secs;
      absTime->tv_nsec = (time % NANOSECS_PER_SEC) + now.tv_usec*1000;
      if (absTime->tv_nsec >= NANOSECS_PER_SEC) {
        absTime->tv_nsec -= NANOSECS_PER_SEC;
        ++absTime->tv_sec; // note: this must be <= max_secs
      }
    }
  }
  assert(absTime->tv_sec >= 0, "tv_sec < 0");
  assert(absTime->tv_sec <= max_secs, "tv_sec > max_secs");
  assert(absTime->tv_nsec >= 0, "tv_nsec < 0");
  assert(absTime->tv_nsec < NANOSECS_PER_SEC, "tv_nsec >= nanos_per_sec");
}

void Parker::park(bool isAbsolute, jlong time) {
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  // Ideally we'd do something useful while spinning, such
  // as calling unpackTime().

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  // Optional fast-path check:
  // Return immediately if a permit is available.
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  // We depend on Atomic::xchg() having full barrier semantics
  // since we are doing a lock-free update to _counter.
  if (Atomic::xchg(0, &_counter) > 0) return;
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  Thread* thread = Thread::current();
  assert(thread->is_Java_thread(), "Must be JavaThread");
  JavaThread *jt = (JavaThread *)thread;

  // Optional optimization -- avoid state transitions if there's an interrupt pending.
  // Check interrupt before trying to wait
  if (Thread::is_interrupted(thread, false)) {
    return;
  }

  // Next, demultiplex/decode time arguments
  struct timespec absTime;
  if (time < 0 || (isAbsolute && time == 0) ) { // don't wait at all
    return;
  }
  if (time > 0) {
    unpackTime(&absTime, isAbsolute, time);
  }


  // Enter safepoint region
  // Beware of deadlocks such as 6317397.
  // The per-thread Parker:: mutex is a classic leaf-lock.
  // In particular a thread must never block on the Threads_lock while
  // holding the Parker:: mutex.  If safepoints are pending both the
  // the ThreadBlockInVM() CTOR and DTOR may grab Threads_lock.
  ThreadBlockInVM tbivm(jt);

  // Don't wait if cannot get lock since interference arises from
  // unblocking.  Also. check interrupt before trying wait
  if (Thread::is_interrupted(thread, false) || pthread_mutex_trylock(_mutex) != 0) {
    return;
  }

  int status ;
  if (_counter > 0)  { // no wait needed
    _counter = 0;
    status = pthread_mutex_unlock(_mutex);
    assert (status == 0, "invariant") ;
4367 4368
    // Paranoia to ensure our locked and lock-free paths interact
    // correctly with each other and Java-level accesses.
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    OrderAccess::fence();
    return;
  }

#ifdef ASSERT
  // Don't catch signals while blocked; let the running threads have the signals.
  // (This allows a debugger to break into the running thread.)
  sigset_t oldsigs;
  sigset_t* allowdebug_blocked = os::Bsd::allowdebug_blocked_signals();
  pthread_sigmask(SIG_BLOCK, allowdebug_blocked, &oldsigs);
#endif

  OSThreadWaitState osts(thread->osthread(), false /* not Object.wait() */);
  jt->set_suspend_equivalent();
  // cleared by handle_special_suspend_equivalent_condition() or java_suspend_self()

  if (time == 0) {
    status = pthread_cond_wait (_cond, _mutex) ;
  } else {
    status = os::Bsd::safe_cond_timedwait (_cond, _mutex, &absTime) ;
    if (status != 0 && WorkAroundNPTLTimedWaitHang) {
      pthread_cond_destroy (_cond) ;
      pthread_cond_init    (_cond, NULL);
    }
  }
  assert_status(status == 0 || status == EINTR ||
                status == ETIMEDOUT,
                status, "cond_timedwait");

#ifdef ASSERT
  pthread_sigmask(SIG_SETMASK, &oldsigs, NULL);
#endif

  _counter = 0 ;
  status = pthread_mutex_unlock(_mutex) ;
  assert_status(status == 0, status, "invariant") ;
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  // Paranoia to ensure our locked and lock-free paths interact
  // correctly with each other and Java-level accesses.
  OrderAccess::fence();

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  // If externally suspended while waiting, re-suspend
  if (jt->handle_special_suspend_equivalent_condition()) {
    jt->java_suspend_self();
  }
}

void Parker::unpark() {
  int s, status ;
  status = pthread_mutex_lock(_mutex);
  assert (status == 0, "invariant") ;
  s = _counter;
  _counter = 1;
  if (s < 1) {
     if (WorkAroundNPTLTimedWaitHang) {
        status = pthread_cond_signal (_cond) ;
        assert (status == 0, "invariant") ;
        status = pthread_mutex_unlock(_mutex);
        assert (status == 0, "invariant") ;
     } else {
        status = pthread_mutex_unlock(_mutex);
        assert (status == 0, "invariant") ;
        status = pthread_cond_signal (_cond) ;
        assert (status == 0, "invariant") ;
     }
  } else {
    pthread_mutex_unlock(_mutex);
    assert (status == 0, "invariant") ;
  }
}


/* Darwin has no "environ" in a dynamic library. */
#ifdef __APPLE__
#include <crt_externs.h>
#define environ (*_NSGetEnviron())
#else
extern char** environ;
#endif

// Run the specified command in a separate process. Return its exit value,
// or -1 on failure (e.g. can't fork a new process).
// Unlike system(), this function can be called from signal handler. It
// doesn't block SIGINT et al.
int os::fork_and_exec(char* cmd) {
  const char * argv[4] = {"sh", "-c", cmd, NULL};

  // fork() in BsdThreads/NPTL is not async-safe. It needs to run
  // pthread_atfork handlers and reset pthread library. All we need is a
  // separate process to execve. Make a direct syscall to fork process.
  // On IA64 there's no fork syscall, we have to use fork() and hope for
  // the best...
  pid_t pid = fork();

  if (pid < 0) {
    // fork failed
    return -1;

  } else if (pid == 0) {
    // child process

    // execve() in BsdThreads will call pthread_kill_other_threads_np()
    // first to kill every thread on the thread list. Because this list is
    // not reset by fork() (see notes above), execve() will instead kill
    // every thread in the parent process. We know this is the only thread
    // in the new process, so make a system call directly.
    // IA64 should use normal execve() from glibc to match the glibc fork()
    // above.
    execve("/bin/sh", (char* const*)argv, environ);

    // execve failed
    _exit(-1);

  } else  {
    // copied from J2SE ..._waitForProcessExit() in UNIXProcess_md.c; we don't
    // care about the actual exit code, for now.

    int status;

    // Wait for the child process to exit.  This returns immediately if
    // the child has already exited. */
    while (waitpid(pid, &status, 0) < 0) {
        switch (errno) {
        case ECHILD: return 0;
        case EINTR: break;
        default: return -1;
        }
    }

    if (WIFEXITED(status)) {
       // The child exited normally; get its exit code.
       return WEXITSTATUS(status);
    } else if (WIFSIGNALED(status)) {
       // The child exited because of a signal
       // The best value to return is 0x80 + signal number,
       // because that is what all Unix shells do, and because
       // it allows callers to distinguish between process exit and
       // process death by signal.
       return 0x80 + WTERMSIG(status);
    } else {
       // Unknown exit code; pass it through
       return status;
    }
  }
}

// is_headless_jre()
//
4516
// Test for the existence of xawt/libmawt.so or libawt_xawt.so
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// in order to report if we are running in a headless jre
//
4519 4520 4521
// Since JDK8 xawt/libmawt.so was moved into the same directory
// as libawt.so, and renamed libawt_xawt.so
//
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bool os::is_headless_jre() {
    struct stat statbuf;
    char buf[MAXPATHLEN];
    char libmawtpath[MAXPATHLEN];
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    const char *xawtstr  = "/xawt/libmawt" JNI_LIB_SUFFIX;
4527
    const char *new_xawtstr = "/libawt_xawt" JNI_LIB_SUFFIX;
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    char *p;

    // Get path to libjvm.so
    os::jvm_path(buf, sizeof(buf));

    // Get rid of libjvm.so
    p = strrchr(buf, '/');
    if (p == NULL) return false;
    else *p = '\0';

    // Get rid of client or server
    p = strrchr(buf, '/');
    if (p == NULL) return false;
    else *p = '\0';

    // check xawt/libmawt.so
    strcpy(libmawtpath, buf);
    strcat(libmawtpath, xawtstr);
    if (::stat(libmawtpath, &statbuf) == 0) return false;

4548
    // check libawt_xawt.so
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    strcpy(libmawtpath, buf);
4550
    strcat(libmawtpath, new_xawtstr);
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    if (::stat(libmawtpath, &statbuf) == 0) return false;

    return true;
}
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// Get the default path to the core file
// Returns the length of the string
int os::get_core_path(char* buffer, size_t bufferSize) {
  int n = jio_snprintf(buffer, bufferSize, "/cores");

  // Truncate if theoretical string was longer than bufferSize
  n = MIN2(n, (int)bufferSize);

  return n;
}