/*

 * Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved.

 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.

 *

 * This code is free software; you can redistribute it and/or modify it

 * under the terms of the GNU General Public License version 2 only, as

 * published by the Free Software Foundation.

 *

 * 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.

 *

 */

#ifndef OS_BSD_VM_OSTHREAD_BSD_HPP

#define OS_BSD_VM_OSTHREAD_BSD_HPP

 private:

  int _thread_type;

 public:

  int thread_type() const {

    return _thread_type;

  }

  void set_thread_type(int type) {

    _thread_type = type;

  }

 private:

#ifdef _ALLBSD_SOURCE

  // _thread_id and _pthread_id are the same on BSD

  // keep both to minimize code divergence in os_bsd.cpp

  pthread_t _thread_id;

  pthread_t _pthread_id;

#else

  // _thread_id is kernel thread id (similar to LWP id on Solaris). Each

  // thread has a unique thread_id (BsdThreads or NPTL). It can be used

  // to access /proc.

  pid_t     _thread_id;

  // _pthread_id is the pthread id, which is used by library calls

  // (e.g. pthread_kill).

  pthread_t _pthread_id;

#endif

  sigset_t _caller_sigmask; // Caller's signal mask

 public:

  // Methods to save/restore caller's signal mask

  sigset_t  caller_sigmask() const       { return _caller_sigmask; }

  void    set_caller_sigmask(sigset_t sigmask)  { _caller_sigmask = sigmask; }

#ifdef _ALLBSD_SOURCE

  pthread_t thread_id() const {

    return _thread_id;

  }

#else

  pid_t thread_id() const {

    return _thread_id;

  }

#endif

#ifndef PRODUCT

  // Used for debugging, return a unique integer for each thread.

  intptr_t thread_identifier() const   { return (intptr_t)_pthread_id; }

#endif

#ifdef ASSERT

  // We expect no reposition failures so kill vm if we get one.

  //

  bool valid_reposition_failure() {

    return false;

  }

#endif // ASSERT

#ifdef _ALLBSD_SOURCE

  void set_thread_id(pthread_t id) {

    _thread_id = id;

  }

#else

  void set_thread_id(pid_t id) {

    _thread_id = id;

  }

#endif

  pthread_t pthread_id() const {

    return _pthread_id;

  }

  void set_pthread_id(pthread_t tid) {

    _pthread_id = tid;

  }

  // ***************************************************************

  // suspension support.

  // ***************************************************************

public:

  // flags that support signal based suspend/resume on Bsd are in a

  // separate class to avoid confusion with many flags in OSThread that

  // are used by VM level suspend/resume.

  os::Bsd::SuspendResume sr;

  // _ucontext and _siginfo are used by SR_handler() to save thread context,

  // and they will later be used to walk the stack or reposition thread PC.

  // If the thread is not suspended in SR_handler() (e.g. self suspend),

  // the value in _ucontext is meaningless, so we must use the last Java

  // frame information as the frame. This will mean that for threads

  // that are parked on a mutex the profiler (and safepoint mechanism)

  // will see the thread as if it were still in the Java frame. This

  // not a problem for the profiler since the Java frame is a close

  // enough result. For the safepoint mechanism when the give it the

  // Java frame we are not at a point where the safepoint needs the

  // frame to that accurate (like for a compiled safepoint) since we

  // should be in a place where we are native and will block ourselves

  // if we transition.

private:

  void* _siginfo;

  ucontext_t* _ucontext;

  int _expanding_stack;                 /* non zero if manually expanding stack */

  address _alt_sig_stack;               /* address of base of alternate signal stack */

public:

  void* siginfo() const                   { return _siginfo;  }

  void set_siginfo(void* ptr)             { _siginfo = ptr;   }

  ucontext_t* ucontext() const            { return _ucontext; }

  void set_ucontext(ucontext_t* ptr)      { _ucontext = ptr;  }

  void set_expanding_stack(void)          { _expanding_stack = 1;  }

  void clear_expanding_stack(void)        { _expanding_stack = 0;  }

  int  expanding_stack(void)              { return _expanding_stack;  }

  void set_alt_sig_stack(address val)     { _alt_sig_stack = val; }

  address alt_sig_stack(void)             { return _alt_sig_stack; }

private:

  Monitor* _startThread_lock;     // sync parent and child in thread creation

public:

  Monitor* startThread_lock() const {

    return _startThread_lock;

  }

  // ***************************************************************

  // Platform dependent initialization and cleanup

  // ***************************************************************

private:

  void pd_initialize();

  void pd_destroy();

// Reconciliation History

// osThread_solaris.hpp 1.24 99/08/27 13:11:54

// End

#endif // OS_BSD_VM_OSTHREAD_BSD_HPP