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* version 2 for more details (a copy is included in the LICENSE file that
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#ifndef SHARE_VM_RUNTIME_SYNCHRONIZER_HPP
#define SHARE_VM_RUNTIME_SYNCHRONIZER_HPP
#include "oops/markOop.hpp"
#include "runtime/basicLock.hpp"
#include "runtime/handles.hpp"
#include "runtime/perfData.hpp"
class ObjectMonitor;
class ObjectSynchronizer : AllStatic {
friend class VMStructs;
public:
typedef enum {
owner_self,
owner_none,
owner_other
} LockOwnership;
typedef enum {
inflate_cause_vm_internal = 0,
inflate_cause_monitor_enter = 1,
inflate_cause_wait = 2,
inflate_cause_notify = 3,
inflate_cause_hash_code = 4,
inflate_cause_jni_enter = 5,
inflate_cause_jni_exit = 6,
inflate_cause_nof = 7 // Number of causes
} InflateCause;
// exit must be implemented non-blocking, since the compiler cannot easily handle
// deoptimization at monitor exit. Hence, it does not take a Handle argument.
// This is full version of monitor enter and exit. I choose not
// to use enter() and exit() in order to make sure user be ware
// of the performance and semantics difference. They are normally
// used by ObjectLocker etc. The interpreter and compiler use
// assembly copies of these routines. Please keep them synchronized.
//
// attempt_rebias flag is used by UseBiasedLocking implementation
static void fast_enter(Handle obj, BasicLock* lock, bool attempt_rebias,
TRAPS);
static void fast_exit(oop obj, BasicLock* lock, Thread* THREAD);
// WARNING: They are ONLY used to handle the slow cases. They should
// only be used when the fast cases failed. Use of these functions
// without previous fast case check may cause fatal error.
static void slow_enter(Handle obj, BasicLock* lock, TRAPS);
static void slow_exit(oop obj, BasicLock* lock, Thread* THREAD);
// Used only to handle jni locks or other unmatched monitor enter/exit
// Internally they will use heavy weight monitor.
static void jni_enter(Handle obj, TRAPS);
static void jni_exit(oop obj, Thread* THREAD);
// Handle all interpreter, compiler and jni cases
static int wait(Handle obj, jlong millis, TRAPS);
static void notify(Handle obj, TRAPS);
static void notifyall(Handle obj, TRAPS);
static bool quick_notify(oopDesc* obj, Thread* Self, bool All);
static bool quick_enter(oop obj, Thread* Self, BasicLock* Lock);
// Special internal-use-only method for use by JVM infrastructure
// that needs to wait() on a java-level object but that can't risk
// throwing unexpected InterruptedExecutionExceptions.
static void waitUninterruptibly(Handle obj, jlong Millis, Thread * THREAD);
// used by classloading to free classloader object lock,
// wait on an internal lock, and reclaim original lock
// with original recursion count
static intptr_t complete_exit(Handle obj, TRAPS);
static void reenter (Handle obj, intptr_t recursion, TRAPS);
// thread-specific and global objectMonitor free list accessors
static void verifyInUse(Thread * Self);
static ObjectMonitor * omAlloc(Thread * Self);
static void omRelease(Thread * Self, ObjectMonitor * m,
bool FromPerThreadAlloc);
static void omFlush(Thread * Self);
// Inflate light weight monitor to heavy weight monitor
static ObjectMonitor* inflate(Thread * Self, oop obj, const InflateCause cause);
// This version is only for internal use
static ObjectMonitor* inflate_helper(oop obj);
static const char* inflate_cause_name(const InflateCause cause);
// Returns the identity hash value for an oop
// NOTE: It may cause monitor inflation
static intptr_t identity_hash_value_for(Handle obj);
static intptr_t FastHashCode(Thread * Self, oop obj);
// java.lang.Thread support
static bool current_thread_holds_lock(JavaThread* thread, Handle h_obj);
static LockOwnership query_lock_ownership(JavaThread * self, Handle h_obj);
static JavaThread* get_lock_owner(Handle h_obj, bool doLock);
// JNI detach support
static void release_monitors_owned_by_thread(TRAPS);
static void monitors_iterate(MonitorClosure* m);
// GC: we current use aggressive monitor deflation policy
// Basically we deflate all monitors that are not busy.
// An adaptive profile-based deflation policy could be used if needed
static void deflate_idle_monitors();
// For a given monitor list: global or per-thread, deflate idle monitors
static int deflate_monitor_list(ObjectMonitor** listheadp,
ObjectMonitor** freeHeadp,
ObjectMonitor** freeTailp);
static bool deflate_monitor(ObjectMonitor* mid, oop obj,
ObjectMonitor** freeHeadp,
ObjectMonitor** freeTailp);
static void oops_do(OopClosure* f);
// debugging
static void sanity_checks(const bool verbose,
const unsigned int cache_line_size,
int *error_cnt_ptr, int *warning_cnt_ptr);
static void verify() PRODUCT_RETURN;
static int verify_objmon_isinpool(ObjectMonitor *addr) PRODUCT_RETURN0;
private:
enum { _BLOCKSIZE = 128 };
// global list of blocks of monitors
// gBlockList is really PaddedEnd<ObjectMonitor> *, but we don't
// want to expose the PaddedEnd template more than necessary.
static ObjectMonitor * volatile gBlockList;
// global monitor free list
static ObjectMonitor * volatile gFreeList;
// global monitor in-use list, for moribund threads,
// monitors they inflated need to be scanned for deflation
static ObjectMonitor * volatile gOmInUseList;
// count of entries in gOmInUseList
static int gOmInUseCount;
};
// ObjectLocker enforced balanced locking and can never thrown an
// IllegalMonitorStateException. However, a pending exception may
// have to pass through, and we must also be able to deal with
// asynchronous exceptions. The caller is responsible for checking
// the threads pending exception if needed.
// doLock was added to support classloading with UnsyncloadClass which
// requires flag based choice of locking the classloader lock.
class ObjectLocker : public StackObj {
private:
Thread* _thread;
Handle _obj;
BasicLock _lock;
bool _dolock; // default true
public:
ObjectLocker(Handle obj, Thread* thread, bool doLock = true);
~ObjectLocker();
// Monitor behavior
void wait(TRAPS) { ObjectSynchronizer::wait(_obj, 0, CHECK); } // wait forever
void notify_all(TRAPS) { ObjectSynchronizer::notifyall(_obj, CHECK); }
void waitUninterruptibly(TRAPS) { ObjectSynchronizer::waitUninterruptibly(_obj, 0, CHECK); }
// complete_exit gives up lock completely, returning recursion count
// reenter reclaims lock with original recursion count
intptr_t complete_exit(TRAPS) { return ObjectSynchronizer::complete_exit(_obj, THREAD); }
void reenter(intptr_t recursion, TRAPS) { ObjectSynchronizer::reenter(_obj, recursion, CHECK); }
};
#endif // SHARE_VM_RUNTIME_SYNCHRONIZER_HPP