author | zgu |
Fri, 25 Jan 2013 10:04:08 -0500 | |
changeset 15432 | 9d976ca484d8 |
parent 7397 | 5b173b4ca846 |
permissions | -rw-r--r-- |
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/* |
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* Copyright (c) 2005, 2010, 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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6941466: Oracle rebranding changes for Hotspot repositories
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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_BIASEDLOCKING_HPP |
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#define SHARE_VM_RUNTIME_BIASEDLOCKING_HPP |
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#include "runtime/handles.hpp" |
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#include "utilities/growableArray.hpp" |
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// This class describes operations to implement Store-Free Biased |
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// Locking. The high-level properties of the scheme are similar to |
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// IBM's lock reservation, Dice-Moir-Scherer QR locks, and other biased |
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// locking mechanisms. The principal difference is in the handling of |
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// recursive locking which is how this technique achieves a more |
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// efficient fast path than these other schemes. |
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// |
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// The basic observation is that in HotSpot's current fast locking |
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// scheme, recursive locking (in the fast path) causes no update to |
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// the object header. The recursion is described simply by stack |
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// records containing a specific value (NULL). Only the last unlock by |
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// a given thread causes an update to the object header. |
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// |
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// This observation, coupled with the fact that HotSpot only compiles |
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// methods for which monitor matching is obeyed (and which therefore |
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// can not throw IllegalMonitorStateException), implies that we can |
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// completely eliminate modifications to the object header for |
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// recursive locking in compiled code, and perform similar recursion |
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// checks and throwing of IllegalMonitorStateException in the |
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// interpreter with little or no impact on the performance of the fast |
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// path. |
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// |
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// The basic algorithm is as follows (note, see below for more details |
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// and information). A pattern in the low three bits is reserved in |
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// the object header to indicate whether biasing of a given object's |
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// lock is currently being done or is allowed at all. If the bias |
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// pattern is present, the contents of the rest of the header are |
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// either the JavaThread* of the thread to which the lock is biased, |
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// or NULL, indicating that the lock is "anonymously biased". The |
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// first thread which locks an anonymously biased object biases the |
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// lock toward that thread. If another thread subsequently attempts to |
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// lock the same object, the bias is revoked. |
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// |
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// Because there are no updates to the object header at all during |
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// recursive locking while the lock is biased, the biased lock entry |
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// code is simply a test of the object header's value. If this test |
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// succeeds, the lock has been acquired by the thread. If this test |
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// fails, a bit test is done to see whether the bias bit is still |
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// set. If not, we fall back to HotSpot's original CAS-based locking |
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// scheme. If it is set, we attempt to CAS in a bias toward this |
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// thread. The latter operation is expected to be the rarest operation |
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// performed on these locks. We optimistically expect the biased lock |
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// entry to hit most of the time, and want the CAS-based fallthrough |
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// to occur quickly in the situations where the bias has been revoked. |
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// |
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// Revocation of the lock's bias is fairly straightforward. We want to |
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// restore the object's header and stack-based BasicObjectLocks and |
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// BasicLocks to the state they would have been in had the object been |
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// locked by HotSpot's usual fast locking scheme. To do this, we bring |
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// the system to a safepoint and walk the stack of the thread toward |
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// which the lock is biased. We find all of the lock records on the |
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// stack corresponding to this object, in particular the first / |
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// "highest" record. We fill in the highest lock record with the |
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// object's displaced header (which is a well-known value given that |
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// we don't maintain an identity hash nor age bits for the object |
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// while it's in the biased state) and all other lock records with 0, |
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// the value for recursive locks. When the safepoint is released, the |
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// formerly-biased thread and all other threads revert back to |
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// HotSpot's CAS-based locking. |
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// |
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// This scheme can not handle transfers of biases of single objects |
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// from thread to thread efficiently, but it can handle bulk transfers |
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// of such biases, which is a usage pattern showing up in some |
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// applications and benchmarks. We implement "bulk rebias" and "bulk |
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// revoke" operations using a "bias epoch" on a per-data-type basis. |
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// If too many bias revocations are occurring for a particular data |
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// type, the bias epoch for the data type is incremented at a |
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// safepoint, effectively meaning that all previous biases are |
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// invalid. The fast path locking case checks for an invalid epoch in |
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// the object header and attempts to rebias the object with a CAS if |
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// found, avoiding safepoints or bulk heap sweeps (the latter which |
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// was used in a prior version of this algorithm and did not scale |
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// well). If too many bias revocations persist, biasing is completely |
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// disabled for the data type by resetting the prototype header to the |
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// unbiased markOop. The fast-path locking code checks to see whether |
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// the instance's bias pattern differs from the prototype header's and |
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// causes the bias to be revoked without reaching a safepoint or, |
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// again, a bulk heap sweep. |
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// Biased locking counters |
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class BiasedLockingCounters VALUE_OBJ_CLASS_SPEC { |
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private: |
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int _total_entry_count; |
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int _biased_lock_entry_count; |
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int _anonymously_biased_lock_entry_count; |
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int _rebiased_lock_entry_count; |
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int _revoked_lock_entry_count; |
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int _fast_path_entry_count; |
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int _slow_path_entry_count; |
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public: |
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BiasedLockingCounters() : |
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_total_entry_count(0), |
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_biased_lock_entry_count(0), |
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_anonymously_biased_lock_entry_count(0), |
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_rebiased_lock_entry_count(0), |
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_revoked_lock_entry_count(0), |
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_fast_path_entry_count(0), |
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_slow_path_entry_count(0) {} |
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int slow_path_entry_count(); // Compute this field if necessary |
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int* total_entry_count_addr() { return &_total_entry_count; } |
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int* biased_lock_entry_count_addr() { return &_biased_lock_entry_count; } |
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int* anonymously_biased_lock_entry_count_addr() { return &_anonymously_biased_lock_entry_count; } |
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int* rebiased_lock_entry_count_addr() { return &_rebiased_lock_entry_count; } |
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int* revoked_lock_entry_count_addr() { return &_revoked_lock_entry_count; } |
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int* fast_path_entry_count_addr() { return &_fast_path_entry_count; } |
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int* slow_path_entry_count_addr() { return &_slow_path_entry_count; } |
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bool nonzero() { return _total_entry_count > 0; } |
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void print_on(outputStream* st); |
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void print() { print_on(tty); } |
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}; |
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class BiasedLocking : AllStatic { |
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private: |
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static BiasedLockingCounters _counters; |
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public: |
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static int* total_entry_count_addr(); |
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static int* biased_lock_entry_count_addr(); |
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static int* anonymously_biased_lock_entry_count_addr(); |
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static int* rebiased_lock_entry_count_addr(); |
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static int* revoked_lock_entry_count_addr(); |
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static int* fast_path_entry_count_addr(); |
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static int* slow_path_entry_count_addr(); |
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enum Condition { |
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NOT_BIASED = 1, |
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BIAS_REVOKED = 2, |
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BIAS_REVOKED_AND_REBIASED = 3 |
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}; |
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// This initialization routine should only be called once and |
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// schedules a PeriodicTask to turn on biased locking a few seconds |
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// into the VM run to avoid startup time regressions |
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static void init(); |
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// This provides a global switch for leaving biased locking disabled |
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// for the first part of a run and enabling it later |
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static bool enabled(); |
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// This should be called by JavaThreads to revoke the bias of an object |
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static Condition revoke_and_rebias(Handle obj, bool attempt_rebias, TRAPS); |
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// These do not allow rebiasing; they are used by deoptimization to |
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// ensure that monitors on the stack can be migrated |
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static void revoke(GrowableArray<Handle>* objs); |
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static void revoke_at_safepoint(Handle obj); |
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static void revoke_at_safepoint(GrowableArray<Handle>* objs); |
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static void print_counters() { _counters.print(); } |
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static BiasedLockingCounters* counters() { return &_counters; } |
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// These routines are GC-related and should not be called by end |
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// users. GCs which do not do preservation of mark words do not need |
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// to call these routines. |
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static void preserve_marks(); |
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static void restore_marks(); |
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}; |
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#endif // SHARE_VM_RUNTIME_BIASEDLOCKING_HPP |