author | phh |
Wed, 28 Oct 2009 16:25:51 -0400 | |
changeset 4434 | 4b41e5b42f81 |
parent 3261 | c7d5aae8d3f7 |
child 5242 | 85cf92183e39 |
permissions | -rw-r--r-- |
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/* |
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* Copyright 1997-2009 Sun Microsystems, Inc. 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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, |
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* CA 95054 USA or visit www.sun.com if you need additional information or |
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* have any questions. |
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* |
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*/ |
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// Mutexes used in the VM. |
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extern Mutex* Patching_lock; // a lock used to guard code patching of compiled code |
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extern Monitor* SystemDictionary_lock; // a lock on the system dictonary |
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extern Mutex* PackageTable_lock; // a lock on the class loader package table |
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extern Mutex* CompiledIC_lock; // a lock used to guard compiled IC patching and access |
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extern Mutex* InlineCacheBuffer_lock; // a lock used to guard the InlineCacheBuffer |
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extern Mutex* VMStatistic_lock; // a lock used to guard statistics count increment |
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extern Mutex* JNIGlobalHandle_lock; // a lock on creating JNI global handles |
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extern Mutex* JNIHandleBlockFreeList_lock; // a lock on the JNI handle block free list |
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extern Mutex* JNICachedItableIndex_lock; // a lock on caching an itable index during JNI invoke |
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extern Mutex* JmethodIdCreation_lock; // a lock on creating JNI method identifiers |
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extern Mutex* JfieldIdCreation_lock; // a lock on creating JNI static field identifiers |
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extern Monitor* JNICritical_lock; // a lock used while entering and exiting JNI critical regions, allows GC to sometimes get in |
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extern Mutex* JvmtiThreadState_lock; // a lock on modification of JVMTI thread data |
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extern Monitor* JvmtiPendingEvent_lock; // a lock on the JVMTI pending events list |
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extern Monitor* Heap_lock; // a lock on the heap |
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extern Mutex* ExpandHeap_lock; // a lock on expanding the heap |
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extern Mutex* AdapterHandlerLibrary_lock; // a lock on the AdapterHandlerLibrary |
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extern Mutex* SignatureHandlerLibrary_lock; // a lock on the SignatureHandlerLibrary |
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extern Mutex* VtableStubs_lock; // a lock on the VtableStubs |
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extern Mutex* SymbolTable_lock; // a lock on the symbol table |
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extern Mutex* StringTable_lock; // a lock on the interned string table |
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extern Mutex* CodeCache_lock; // a lock on the CodeCache, rank is special, use MutexLockerEx |
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extern Mutex* MethodData_lock; // a lock on installation of method data |
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extern Mutex* RetData_lock; // a lock on installation of RetData inside method data |
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extern Mutex* DerivedPointerTableGC_lock; // a lock to protect the derived pointer table |
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extern Monitor* VMOperationQueue_lock; // a lock on queue of vm_operations waiting to execute |
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extern Monitor* VMOperationRequest_lock; // a lock on Threads waiting for a vm_operation to terminate |
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extern Monitor* Safepoint_lock; // a lock used by the safepoint abstraction |
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extern Monitor* Threads_lock; // a lock on the Threads table of active Java threads |
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// (also used by Safepoints too to block threads creation/destruction) |
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extern Monitor* CGC_lock; // used for coordination between |
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// fore- & background GC threads. |
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extern Mutex* STS_init_lock; // coordinate initialization of SuspendibleThreadSets. |
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extern Monitor* SLT_lock; // used in CMS GC for acquiring PLL |
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extern Monitor* iCMS_lock; // CMS incremental mode start/stop notification |
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extern Monitor* FullGCCount_lock; // in support of "concurrent" full gc |
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extern Monitor* CMark_lock; // used for concurrent mark thread coordination |
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extern Monitor* ZF_mon; // used for G1 conc zero-fill. |
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extern Monitor* Cleanup_mon; // used for G1 conc cleanup. |
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extern Mutex* SATB_Q_FL_lock; // Protects SATB Q |
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// buffer free list. |
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extern Monitor* SATB_Q_CBL_mon; // Protects SATB Q |
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// completed buffer queue. |
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extern Mutex* Shared_SATB_Q_lock; // Lock protecting SATB |
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// queue shared by |
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// non-Java threads. |
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extern Mutex* DirtyCardQ_FL_lock; // Protects dirty card Q |
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// buffer free list. |
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extern Monitor* DirtyCardQ_CBL_mon; // Protects dirty card Q |
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// completed buffer queue. |
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extern Mutex* Shared_DirtyCardQ_lock; // Lock protecting dirty card |
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// queue shared by |
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// non-Java threads. |
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// (see option ExplicitGCInvokesConcurrent) |
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extern Mutex* ParGCRareEvent_lock; // Synchronizes various (rare) parallel GC ops. |
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extern Mutex* EvacFailureStack_lock; // guards the evac failure scan stack |
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extern Mutex* Compile_lock; // a lock held when Compilation is updating code (used to block CodeCache traversal, CHA updates, etc) |
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extern Monitor* MethodCompileQueue_lock; // a lock held when method compilations are enqueued, dequeued |
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#ifdef TIERED |
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extern Monitor* C1_lock; // a lock to ensure on single c1 compile is ever active |
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#endif // TIERED |
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extern Monitor* CompileThread_lock; // a lock held by compile threads during compilation system initialization |
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extern Mutex* CompileTaskAlloc_lock; // a lock held when CompileTasks are allocated |
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extern Mutex* CompileStatistics_lock; // a lock held when updating compilation statistics |
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extern Mutex* MultiArray_lock; // a lock used to guard allocation of multi-dim arrays |
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extern Monitor* Terminator_lock; // a lock used to guard termination of the vm |
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extern Monitor* BeforeExit_lock; // a lock used to guard cleanups and shutdown hooks |
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extern Monitor* Notify_lock; // a lock used to synchronize the start-up of the vm |
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extern Monitor* Interrupt_lock; // a lock used for condition variable mediated interrupt processing |
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extern Monitor* ProfileVM_lock; // a lock used for profiling the VMThread |
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extern Mutex* ProfilePrint_lock; // a lock used to serialize the printing of profiles |
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extern Mutex* ExceptionCache_lock; // a lock used to synchronize exception cache updates |
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extern Mutex* OsrList_lock; // a lock used to serialize access to OSR queues |
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#ifndef PRODUCT |
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extern Mutex* FullGCALot_lock; // a lock to make FullGCALot MT safe |
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#endif |
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extern Mutex* Debug1_lock; // A bunch of pre-allocated locks that can be used for tracing |
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extern Mutex* Debug2_lock; // down synchronization related bugs! |
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extern Mutex* Debug3_lock; |
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extern Mutex* RawMonitor_lock; |
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extern Mutex* PerfDataMemAlloc_lock; // a lock on the allocator for PerfData memory for performance data |
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extern Mutex* PerfDataManager_lock; // a long on access to PerfDataManager resources |
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extern Mutex* ParkerFreeList_lock; |
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extern Mutex* OopMapCacheAlloc_lock; // protects allocation of oop_map caches |
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extern Mutex* MMUTracker_lock; // protects the MMU |
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// tracker data structures |
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extern Mutex* HotCardCache_lock; // protects the hot card cache |
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extern Mutex* Management_lock; // a lock used to serialize JVM management |
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extern Monitor* LowMemory_lock; // a lock used for low memory detection |
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// A MutexLocker provides mutual exclusion with respect to a given mutex |
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// for the scope which contains the locker. The lock is an OS lock, not |
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// an object lock, and the two do not interoperate. Do not use Mutex-based |
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// locks to lock on Java objects, because they will not be respected if a |
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// that object is locked using the Java locking mechanism. |
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// |
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// NOTE WELL!! |
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// |
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// See orderAccess.hpp. We assume throughout the VM that MutexLocker's |
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// and friends constructors do a fence, a lock and an acquire *in that |
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// order*. And that their destructors do a release and unlock, in *that* |
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// order. If their implementations change such that these assumptions |
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// are violated, a whole lot of code will break. |
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// Print all mutexes/monitors that are currently owned by a thread; called |
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// by fatal error handler. |
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void print_owned_locks_on_error(outputStream* st); |
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char *lock_name(Mutex *mutex); |
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class MutexLocker: StackObj { |
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private: |
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Monitor * _mutex; |
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public: |
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MutexLocker(Monitor * mutex) { |
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assert(mutex->rank() != Mutex::special, |
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"Special ranked mutex should only use MutexLockerEx"); |
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_mutex = mutex; |
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_mutex->lock(); |
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} |
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// Overloaded constructor passing current thread |
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MutexLocker(Monitor * mutex, Thread *thread) { |
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assert(mutex->rank() != Mutex::special, |
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"Special ranked mutex should only use MutexLockerEx"); |
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_mutex = mutex; |
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_mutex->lock(thread); |
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} |
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~MutexLocker() { |
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_mutex->unlock(); |
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} |
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}; |
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// for debugging: check that we're already owning this lock (or are at a safepoint) |
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#ifdef ASSERT |
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void assert_locked_or_safepoint(const Monitor * lock); |
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void assert_lock_strong(const Monitor * lock); |
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#else |
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#define assert_locked_or_safepoint(lock) |
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#define assert_lock_strong(lock) |
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#endif |
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// A MutexLockerEx behaves like a MutexLocker when its constructor is |
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// called with a Mutex. Unlike a MutexLocker, its constructor can also be |
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// called with NULL, in which case the MutexLockerEx is a no-op. There |
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// is also a corresponding MutexUnlockerEx. We want to keep the |
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// basic MutexLocker as fast as possible. MutexLockerEx can also lock |
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// without safepoint check. |
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class MutexLockerEx: public StackObj { |
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private: |
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Monitor * _mutex; |
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public: |
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MutexLockerEx(Monitor * mutex, bool no_safepoint_check = !Mutex::_no_safepoint_check_flag) { |
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_mutex = mutex; |
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if (_mutex != NULL) { |
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assert(mutex->rank() > Mutex::special || no_safepoint_check, |
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"Mutexes with rank special or lower should not do safepoint checks"); |
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if (no_safepoint_check) |
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_mutex->lock_without_safepoint_check(); |
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else |
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_mutex->lock(); |
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} |
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} |
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~MutexLockerEx() { |
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if (_mutex != NULL) { |
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_mutex->unlock(); |
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} |
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} |
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}; |
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// A MonitorLockerEx is like a MutexLockerEx above, except it takes |
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// a possibly null Monitor, and allows wait/notify as well which are |
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// delegated to the underlying Monitor. |
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class MonitorLockerEx: public MutexLockerEx { |
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private: |
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Monitor * _monitor; |
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public: |
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MonitorLockerEx(Monitor* monitor, |
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bool no_safepoint_check = !Mutex::_no_safepoint_check_flag): |
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MutexLockerEx(monitor, no_safepoint_check), |
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_monitor(monitor) { |
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// Superclass constructor did locking |
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} |
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~MonitorLockerEx() { |
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#ifdef ASSERT |
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if (_monitor != NULL) { |
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assert_lock_strong(_monitor); |
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} |
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#endif // ASSERT |
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// Superclass destructor will do unlocking |
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} |
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bool wait(bool no_safepoint_check = !Mutex::_no_safepoint_check_flag, |
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long timeout = 0, |
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bool as_suspend_equivalent = !Mutex::_as_suspend_equivalent_flag) { |
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if (_monitor != NULL) { |
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return _monitor->wait(no_safepoint_check, timeout, as_suspend_equivalent); |
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} |
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return false; |
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} |
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bool notify_all() { |
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if (_monitor != NULL) { |
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return _monitor->notify_all(); |
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} |
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return true; |
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} |
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bool notify() { |
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if (_monitor != NULL) { |
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return _monitor->notify(); |
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} |
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return true; |
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} |
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}; |
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// A GCMutexLocker is usually initialized with a mutex that is |
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// automatically acquired in order to do GC. The function that |
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// synchronizes using a GCMutexLocker may be called both during and between |
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// GC's. Thus, it must acquire the mutex if GC is not in progress, but not |
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// if GC is in progress (since the mutex is already held on its behalf.) |
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class GCMutexLocker: public StackObj { |
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private: |
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Monitor * _mutex; |
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bool _locked; |
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public: |
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GCMutexLocker(Monitor * mutex); |
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~GCMutexLocker() { if (_locked) _mutex->unlock(); } |
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}; |
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// A MutexUnlocker temporarily exits a previously |
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// entered mutex for the scope which contains the unlocker. |
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class MutexUnlocker: StackObj { |
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private: |
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Monitor * _mutex; |
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public: |
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MutexUnlocker(Monitor * mutex) { |
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_mutex = mutex; |
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_mutex->unlock(); |
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} |
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~MutexUnlocker() { |
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_mutex->lock(); |
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} |
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}; |
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// A MutexUnlockerEx temporarily exits a previously |
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// entered mutex for the scope which contains the unlocker. |
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class MutexUnlockerEx: StackObj { |
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private: |
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Monitor * _mutex; |
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bool _no_safepoint_check; |
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public: |
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MutexUnlockerEx(Monitor * mutex, bool no_safepoint_check = !Mutex::_no_safepoint_check_flag) { |
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_mutex = mutex; |
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_no_safepoint_check = no_safepoint_check; |
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_mutex->unlock(); |
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} |
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~MutexUnlockerEx() { |
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if (_no_safepoint_check == Mutex::_no_safepoint_check_flag) { |
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_mutex->lock_without_safepoint_check(); |
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} else { |
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_mutex->lock(); |
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} |
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} |
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}; |
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#ifndef PRODUCT |
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// |
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// A special MutexLocker that allows: |
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// - reentrant locking |
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// - locking out of order |
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// |
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// Only too be used for verify code, where we can relaxe out dead-lock |
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// dection code a bit (unsafe, but probably ok). This code is NEVER to |
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// be included in a product version. |
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// |
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class VerifyMutexLocker: StackObj { |
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private: |
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Monitor * _mutex; |
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bool _reentrant; |
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public: |
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VerifyMutexLocker(Monitor * mutex) { |
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_mutex = mutex; |
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_reentrant = mutex->owned_by_self(); |
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if (!_reentrant) { |
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// We temp. diable strict safepoint checking, while we require the lock |
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FlagSetting fs(StrictSafepointChecks, false); |
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_mutex->lock(); |
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} |
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} |
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~VerifyMutexLocker() { |
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if (!_reentrant) { |
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_mutex->unlock(); |
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} |
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} |
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}; |
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#endif |