author | jlaskey |
Tue, 23 Jul 2013 12:00:29 -0300 | |
changeset 19089 | 51cfdcf21d35 |
parent 13963 | e5b53c306fb5 |
child 22551 | 9bf46d16dcc6 |
permissions | -rw-r--r-- |
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/* |
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* Copyright (c) 1998, 2012, Oracle and/or its affiliates. All rights reserved. |
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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* published by the Free Software Foundation. |
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* |
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* This code is distributed in the hope that it will be useful, but WITHOUT |
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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* version 2 for more details (a copy is included in the LICENSE file that |
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* accompanied this code). |
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* |
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* You should have received a copy of the GNU General Public License version |
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
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* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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* or visit www.oracle.com if you need additional information or have any |
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* questions. |
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* |
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*/ |
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#ifndef SHARE_VM_RUNTIME_MUTEX_HPP |
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#define SHARE_VM_RUNTIME_MUTEX_HPP |
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#include "memory/allocation.hpp" |
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#include "runtime/os.hpp" |
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#include "utilities/histogram.hpp" |
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// The SplitWord construct allows us to colocate the contention queue |
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// (cxq) with the lock-byte. The queue elements are ParkEvents, which are |
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// always aligned on 256-byte addresses - the least significant byte of |
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// a ParkEvent is always 0. Colocating the lock-byte with the queue |
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// allows us to easily avoid what would otherwise be a race in lock() |
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// if we were to use two completely separate fields for the contention queue |
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// and the lock indicator. Specifically, colocation renders us immune |
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// from the race where a thread might enqueue itself in the lock() slow-path |
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// immediately after the lock holder drops the outer lock in the unlock() |
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// fast-path. |
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// |
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// Colocation allows us to use a fast-path unlock() form that uses |
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// A MEMBAR instead of a CAS. MEMBAR has lower local latency than CAS |
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// on many platforms. |
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// |
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// See: |
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// + http://blogs.sun.com/dave/entry/biased_locking_in_hotspot |
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// + http://blogs.sun.com/dave/resource/synchronization-public2.pdf |
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// |
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// Note that we're *not* using word-tearing the classic sense. |
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// The lock() fast-path will CAS the lockword and the unlock() |
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// fast-path will store into the lock-byte colocated within the lockword. |
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// We depend on the fact that all our reference platforms have |
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// coherent and atomic byte accesses. More precisely, byte stores |
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// interoperate in a safe, sane, and expected manner with respect to |
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// CAS, ST and LDs to the full-word containing the byte. |
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// If you're porting HotSpot to a platform where that isn't the case |
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// then you'll want change the unlock() fast path from: |
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// STB;MEMBAR #storeload; LDN |
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// to a full-word CAS of the lockword. |
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union SplitWord { // full-word with separately addressable LSB |
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volatile intptr_t FullWord ; |
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volatile void * Address ; |
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volatile jbyte Bytes [sizeof(intptr_t)] ; |
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} ; |
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// Endian-ness ... index of least-significant byte in SplitWord.Bytes[] |
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#ifdef VM_LITTLE_ENDIAN |
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#define _LSBINDEX 0 |
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#else |
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#define _LSBINDEX (sizeof(intptr_t)-1) |
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#endif |
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class ParkEvent ; |
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// See orderAccess.hpp. We assume throughout the VM that mutex lock and |
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// try_lock do fence-lock-acquire, and that unlock does a release-unlock, |
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// *in that order*. If their implementations change such that these |
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// assumptions are violated, a whole lot of code will break. |
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// The default length of monitor name is chosen to be 64 to avoid false sharing. |
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static const int MONITOR_NAME_LEN = 64; |
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class Monitor : public CHeapObj<mtInternal> { |
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public: |
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// A special lock: Is a lock where you are guaranteed not to block while you are |
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// holding it, i.e., no vm operation can happen, taking other locks, etc. |
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// NOTE: It is critical that the rank 'special' be the lowest (earliest) |
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// (except for "event"?) for the deadlock dection to work correctly. |
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// The rank native is only for use in Mutex's created by JVM_RawMonitorCreate, |
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// which being external to the VM are not subject to deadlock detection. |
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// The rank safepoint is used only for synchronization in reaching a |
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// safepoint and leaving a safepoint. It is only used for the Safepoint_lock |
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// currently. While at a safepoint no mutexes of rank safepoint are held |
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// by any thread. |
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// The rank named "leaf" is probably historical (and should |
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// be changed) -- mutexes of this rank aren't really leaf mutexes |
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// at all. |
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enum lock_types { |
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event, |
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special, |
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suspend_resume, |
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leaf = suspend_resume + 2, |
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safepoint = leaf + 10, |
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barrier = safepoint + 1, |
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nonleaf = barrier + 1, |
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max_nonleaf = nonleaf + 900, |
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native = max_nonleaf + 1 |
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}; |
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// The WaitSet and EntryList linked lists are composed of ParkEvents. |
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// I use ParkEvent instead of threads as ParkEvents are immortal and |
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// type-stable, meaning we can safely unpark() a possibly stale |
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// list element in the unlock()-path. |
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protected: // Monitor-Mutex metadata |
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SplitWord _LockWord ; // Contention queue (cxq) colocated with Lock-byte |
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enum LockWordBits { _LBIT=1 } ; |
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Thread * volatile _owner; // The owner of the lock |
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// Consider sequestering _owner on its own $line |
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// to aid future synchronization mechanisms. |
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ParkEvent * volatile _EntryList ; // List of threads waiting for entry |
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ParkEvent * volatile _OnDeck ; // heir-presumptive |
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volatile intptr_t _WaitLock [1] ; // Protects _WaitSet |
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ParkEvent * volatile _WaitSet ; // LL of ParkEvents |
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volatile bool _snuck; // Used for sneaky locking (evil). |
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int NotifyCount ; // diagnostic assist |
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char _name[MONITOR_NAME_LEN]; // Name of mutex |
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// Debugging fields for naming, deadlock detection, etc. (some only used in debug mode) |
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#ifndef PRODUCT |
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bool _allow_vm_block; |
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debug_only(int _rank;) // rank (to avoid/detect potential deadlocks) |
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debug_only(Monitor * _next;) // Used by a Thread to link up owned locks |
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debug_only(Thread* _last_owner;) // the last thread to own the lock |
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debug_only(static bool contains(Monitor * locks, Monitor * lock);) |
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debug_only(static Monitor * get_least_ranked_lock(Monitor * locks);) |
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debug_only(Monitor * get_least_ranked_lock_besides_this(Monitor * locks);) |
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#endif |
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void set_owner_implementation(Thread* owner) PRODUCT_RETURN; |
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void check_prelock_state (Thread* thread) PRODUCT_RETURN; |
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void check_block_state (Thread* thread) PRODUCT_RETURN; |
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// platform-dependent support code can go here (in os_<os_family>.cpp) |
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public: |
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enum { |
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_no_safepoint_check_flag = true, |
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_allow_vm_block_flag = true, |
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_as_suspend_equivalent_flag = true |
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}; |
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enum WaitResults { |
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CONDVAR_EVENT, // Wait returned because of condition variable notification |
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INTERRUPT_EVENT, // Wait returned because waiting thread was interrupted |
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NUMBER_WAIT_RESULTS |
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}; |
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private: |
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int TrySpin (Thread * Self) ; |
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int TryLock () ; |
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int TryFast () ; |
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int AcquireOrPush (ParkEvent * ev) ; |
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void IUnlock (bool RelaxAssert) ; |
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void ILock (Thread * Self) ; |
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int IWait (Thread * Self, jlong timo); |
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int ILocked () ; |
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protected: |
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static void ClearMonitor (Monitor * m, const char* name = NULL) ; |
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Monitor() ; |
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public: |
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Monitor(int rank, const char *name, bool allow_vm_block=false); |
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~Monitor(); |
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// Wait until monitor is notified (or times out). |
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// Defaults are to make safepoint checks, wait time is forever (i.e., |
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// zero), and not a suspend-equivalent condition. Returns true if wait |
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// times out; otherwise returns false. |
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bool wait(bool no_safepoint_check = !_no_safepoint_check_flag, |
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long timeout = 0, |
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bool as_suspend_equivalent = !_as_suspend_equivalent_flag); |
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bool notify(); |
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bool notify_all(); |
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void lock(); // prints out warning if VM thread blocks |
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void lock(Thread *thread); // overloaded with current thread |
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void unlock(); |
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bool is_locked() const { return _owner != NULL; } |
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bool try_lock(); // Like lock(), but unblocking. It returns false instead |
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// Lock without safepoint check. Should ONLY be used by safepoint code and other code |
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// that is guaranteed not to block while running inside the VM. |
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void lock_without_safepoint_check(); |
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void lock_without_safepoint_check (Thread * Self) ; |
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// Current owner - not not MT-safe. Can only be used to guarantee that |
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// the current running thread owns the lock |
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Thread* owner() const { return _owner; } |
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bool owned_by_self() const; |
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// Support for JVM_RawMonitorEnter & JVM_RawMonitorExit. These can be called by |
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// non-Java thread. (We should really have a RawMonitor abstraction) |
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void jvm_raw_lock(); |
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void jvm_raw_unlock(); |
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const char *name() const { return _name; } |
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void print_on_error(outputStream* st) const; |
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#ifndef PRODUCT |
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void print_on(outputStream* st) const; |
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void print() const { print_on(tty); } |
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debug_only(int rank() const { return _rank; }) |
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bool allow_vm_block() { return _allow_vm_block; } |
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debug_only(Monitor *next() const { return _next; }) |
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debug_only(void set_next(Monitor *next) { _next = next; }) |
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#endif |
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void set_owner(Thread* owner) { |
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#ifndef PRODUCT |
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set_owner_implementation(owner); |
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debug_only(void verify_Monitor(Thread* thr)); |
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#else |
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_owner = owner; |
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#endif |
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} |
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}; |
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// Normally we'd expect Monitor to extend Mutex in the sense that a monitor |
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// constructed from pthreads primitives might extend a mutex by adding |
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// a condvar and some extra metadata. In fact this was the case until J2SE7. |
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// |
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// Currently, however, the base object is a monitor. Monitor contains all the |
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// logic for wait(), notify(), etc. Mutex extends monitor and restricts the |
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// visiblity of wait(), notify(), and notify_all(). |
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// |
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// Another viable alternative would have been to have Monitor extend Mutex and |
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// implement all the normal mutex and wait()-notify() logic in Mutex base class. |
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// The wait()-notify() facility would be exposed via special protected member functions |
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// (e.g., _Wait() and _Notify()) in Mutex. Monitor would extend Mutex and expose wait() |
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// as a call to _Wait(). That is, the public wait() would be a wrapper for the protected |
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// _Wait(). |
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// |
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// An even better alternative is to simply eliminate Mutex:: and use Monitor:: instead. |
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// After all, monitors are sufficient for Java-level synchronization. At one point in time |
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// there may have been some benefit to having distinct mutexes and monitors, but that time |
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// has past. |
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// |
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// The Mutex/Monitor design parallels that of Java-monitors, being based on |
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// thread-specific park-unpark platform-specific primitives. |
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class Mutex : public Monitor { // degenerate Monitor |
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public: |
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Mutex (int rank, const char *name, bool allow_vm_block=false); |
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~Mutex () ; |
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private: |
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bool notify () { ShouldNotReachHere(); return false; } |
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bool notify_all() { ShouldNotReachHere(); return false; } |
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bool wait (bool no_safepoint_check, long timeout, bool as_suspend_equivalent) { |
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ShouldNotReachHere() ; |
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return false ; |
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} |
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}; |
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#endif // SHARE_VM_RUNTIME_MUTEX_HPP |