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src/hotspot/share/runtime/objectMonitor.cpp
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rev 54572 : Checkpoint latest preliminary review patches for full OpenJDK review; merge with 8222295.patch.
rev 54573 : imported patch dcubed.monitor_deflate_conc.v2.01
rev 54574 : imported patch dcubed.monitor_deflate_conc.v2.02
*** 236,271 ****
}
// -----------------------------------------------------------------------------
// Enter support
! void ObjectMonitor::enter(TRAPS) {
// The following code is ordered to check the most common cases first
// and to reduce RTS->RTO cache line upgrades on SPARC and IA32 processors.
Thread * const Self = THREAD;
void * cur = Atomic::cmpxchg(Self, &_owner, (void*)NULL);
if (cur == NULL) {
// Either ASSERT _recursions == 0 or explicitly set _recursions = 0.
assert(_recursions == 0, "invariant");
assert(_owner == Self, "invariant");
! return;
}
if (cur == Self) {
// TODO-FIXME: check for integer overflow! BUGID 6557169.
_recursions++;
! return;
}
if (Self->is_lock_owned ((address)cur)) {
assert(_recursions == 0, "internal state error");
_recursions = 1;
// Commute owner from a thread-specific on-stack BasicLockObject address to
// a full-fledged "Thread *".
_owner = Self;
! return;
}
// We've encountered genuine contention.
assert(Self->_Stalled == 0, "invariant");
Self->_Stalled = intptr_t(this);
--- 236,271 ----
}
// -----------------------------------------------------------------------------
// Enter support
! bool ObjectMonitor::enter(TRAPS) {
// The following code is ordered to check the most common cases first
// and to reduce RTS->RTO cache line upgrades on SPARC and IA32 processors.
Thread * const Self = THREAD;
void * cur = Atomic::cmpxchg(Self, &_owner, (void*)NULL);
if (cur == NULL) {
// Either ASSERT _recursions == 0 or explicitly set _recursions = 0.
assert(_recursions == 0, "invariant");
assert(_owner == Self, "invariant");
! return true;
}
if (cur == Self) {
// TODO-FIXME: check for integer overflow! BUGID 6557169.
_recursions++;
! return true;
}
if (Self->is_lock_owned ((address)cur)) {
assert(_recursions == 0, "internal state error");
_recursions = 1;
// Commute owner from a thread-specific on-stack BasicLockObject address to
// a full-fledged "Thread *".
_owner = Self;
! return true;
}
// We've encountered genuine contention.
assert(Self->_Stalled == 0, "invariant");
Self->_Stalled = intptr_t(this);
*** 282,306 ****
assert(((oop)object())->mark() == markOopDesc::encode(this),
"object mark must match encoded this: mark=" INTPTR_FORMAT
", encoded this=" INTPTR_FORMAT, p2i(((oop)object())->mark()),
p2i(markOopDesc::encode(this)));
Self->_Stalled = 0;
! return;
}
assert(_owner != Self, "invariant");
assert(_succ != Self, "invariant");
assert(Self->is_Java_thread(), "invariant");
JavaThread * jt = (JavaThread *) Self;
assert(!SafepointSynchronize::is_at_safepoint(), "invariant");
assert(jt->thread_state() != _thread_blocked, "invariant");
! assert(this->object() != NULL, "invariant");
! assert(_contentions >= 0, "invariant");
! // Prevent deflation at STW-time. See deflate_idle_monitors() and is_busy().
// Ensure the object-monitor relationship remains stable while there's contention.
! Atomic::inc(&_contentions);
JFR_ONLY(JfrConditionalFlushWithStacktrace<EventJavaMonitorEnter> flush(jt);)
EventJavaMonitorEnter event;
if (event.should_commit()) {
event.set_monitorClass(((oop)this->object())->klass());
--- 282,316 ----
assert(((oop)object())->mark() == markOopDesc::encode(this),
"object mark must match encoded this: mark=" INTPTR_FORMAT
", encoded this=" INTPTR_FORMAT, p2i(((oop)object())->mark()),
p2i(markOopDesc::encode(this)));
Self->_Stalled = 0;
! return true;
}
assert(_owner != Self, "invariant");
assert(_succ != Self, "invariant");
assert(Self->is_Java_thread(), "invariant");
JavaThread * jt = (JavaThread *) Self;
assert(!SafepointSynchronize::is_at_safepoint(), "invariant");
assert(jt->thread_state() != _thread_blocked, "invariant");
! assert(AsyncDeflateIdleMonitors || this->object() != NULL, "invariant");
! assert(AsyncDeflateIdleMonitors || _contentions >= 0, "invariant");
! // Prevent deflation. See ObjectSynchronizer::deflate_monitor() and is_busy().
// Ensure the object-monitor relationship remains stable while there's contention.
! const jint contentions = Atomic::add(1, &_contentions);
! if (contentions <= 0 && _owner == DEFLATER_MARKER) {
! // Async deflation is in progress. Attempt to restore the
! // header/dmw to the object's header so that we only retry once
! // if the deflater thread happens to be slow.
! const oop obj = (oop) object();
! install_displaced_markword_in_object(obj);
! Self->_Stalled = 0;
! return false; // Caller should retry. Never mind about _contentions as this monitor has been deflated.
! }
! // The deflater thread will not deflate this monitor and the monitor is contended, continue.
JFR_ONLY(JfrConditionalFlushWithStacktrace<EventJavaMonitorEnter> flush(jt);)
EventJavaMonitorEnter event;
if (event.should_commit()) {
event.set_monitorClass(((oop)this->object())->klass());
*** 358,368 ****
// states will still report that the thread is blocked trying to
// acquire it.
}
Atomic::dec(&_contentions);
! assert(_contentions >= 0, "invariant");
Self->_Stalled = 0;
// Must either set _recursions = 0 or ASSERT _recursions == 0.
assert(_recursions == 0, "invariant");
assert(_owner == Self, "invariant");
--- 368,378 ----
// states will still report that the thread is blocked trying to
// acquire it.
}
Atomic::dec(&_contentions);
! assert(AsyncDeflateIdleMonitors || _contentions >= 0, "invariant");
Self->_Stalled = 0;
// Must either set _recursions = 0 or ASSERT _recursions == 0.
assert(_recursions == 0, "invariant");
assert(_owner == Self, "invariant");
*** 394,403 ****
--- 404,414 ----
if (event.should_commit()) {
event.set_previousOwner((uintptr_t)_previous_owner_tid);
event.commit();
}
OM_PERFDATA_OP(ContendedLockAttempts, inc());
+ return true;
}
// Caveat: TryLock() is not necessarily serializing if it returns failure.
// Callers must compensate as needed.
*** 415,424 ****
--- 426,514 ----
// We can either return -1 or retry.
// Retry doesn't make as much sense because the lock was just acquired.
return -1;
}
+ // Install the displaced mark word (dmw) of a deflating ObjectMonitor
+ // into the header of the object associated with the monitor. This
+ // idempotent method is called by a thread that is deflating a
+ // monitor and by other threads that have detected a race with the
+ // deflation process.
+ void ObjectMonitor::install_displaced_markword_in_object(const oop obj) {
+ // This function must only be called when (owner == DEFLATER_MARKER
+ // && contentions <= 0), but we can't guarantee that here because
+ // those values could change when the ObjectMonitor gets moved from
+ // the global free list to a per-thread free list.
+
+ guarantee(obj != NULL, "must be non-NULL");
+ if (object() != obj) {
+ // ObjectMonitor's object ref no longer refers to the target object
+ // so the object's header has already been restored.
+ return;
+ }
+
+ markOop dmw = header();
+ if (dmw == NULL) {
+ // ObjectMonitor's header/dmw has been cleared by the deflating
+ // thread so the object's header has already been restored.
+ return;
+ }
+
+ // A non-NULL dmw has to be either neutral (not locked and not marked)
+ // or is already participating in this restoration protocol.
+ assert(dmw->is_neutral() || (dmw->is_marked() && dmw->hash() == 0),
+ "failed precondition: dmw=" INTPTR_FORMAT, p2i(dmw));
+
+ markOop marked_dmw = NULL;
+ if (!dmw->is_marked() && dmw->hash() == 0) {
+ // This dmw has not yet started the restoration protocol so we
+ // mark a copy of the dmw to begin the protocol.
+ // Note: A dmw with a hashcode does not take this code path.
+ marked_dmw = dmw->set_marked();
+
+ // All of the callers to this function can be racing with each
+ // other trying to update the _header field.
+ dmw = (markOop) Atomic::cmpxchg(marked_dmw, &_header, dmw);
+ if (dmw == NULL) {
+ // ObjectMonitor's header/dmw has been cleared by the deflating
+ // thread so the object's header has already been restored.
+ return;
+ }
+ // The _header field is now marked. The winner's 'dmw' variable
+ // contains the original, unmarked header/dmw value and any
+ // losers have a marked header/dmw value that will be cleaned
+ // up below.
+ }
+
+ if (dmw->is_marked()) {
+ // Clear the mark from the header/dmw copy in preparation for
+ // possible restoration from this thread.
+ assert(dmw->hash() == 0, "hashcode must be 0: dmw=" INTPTR_FORMAT,
+ p2i(dmw));
+ dmw = dmw->set_unmarked();
+ }
+ assert(dmw->is_neutral(), "must be neutral: dmw=" INTPTR_FORMAT, p2i(dmw));
+
+ // Install displaced mark word if the object's header still points
+ // to this ObjectMonitor. All racing callers to this function will
+ // reach this point, but only one can win.
+ obj->cas_set_mark(dmw, markOopDesc::encode(this));
+
+ // Note: It does not matter which thread restored the header/dmw
+ // into the object's header. The thread deflating the monitor just
+ // wanted the object's header restored and it is. The threads that
+ // detected a race with the deflation process also wanted the
+ // object's header restored before they retry their operation and
+ // because it is restored they will only retry once.
+
+ if (marked_dmw != NULL) {
+ // Clear _header to NULL if it is still marked_dmw so a racing
+ // install_displaced_markword_in_object() can bail out sooner.
+ Atomic::cmpxchg((markOop)NULL, &_header, marked_dmw);
+ }
+ }
+
#define MAX_RECHECK_INTERVAL 1000
void ObjectMonitor::EnterI(TRAPS) {
Thread * const Self = THREAD;
assert(Self->is_Java_thread(), "invariant");
*** 430,439 ****
--- 520,544 ----
assert(_owner == Self, "invariant");
assert(_Responsible != Self, "invariant");
return;
}
+ if (_owner == DEFLATER_MARKER) {
+ // The deflation protocol finished the first part (setting _owner), but
+ // it failed the second part (making _contentions negative) and bailed.
+ // Because we're called from enter() we have at least one contention.
+ guarantee(_contentions > 0, "owner == DEFLATER_MARKER && contentions <= 0 "
+ "should have been handled by the caller: contentions=%d",
+ _contentions);
+ if (Atomic::cmpxchg(Self, &_owner, DEFLATER_MARKER) == DEFLATER_MARKER) {
+ // Acquired the monitor.
+ assert(_succ != Self, "invariant");
+ assert(_Responsible != Self, "invariant");
+ return;
+ }
+ }
+
assert(InitDone, "Unexpectedly not initialized");
// We try one round of spinning *before* enqueueing Self.
//
// If the _owner is ready but OFFPROC we could use a YieldTo()
*** 546,555 ****
--- 651,673 ----
Self->_ParkEvent->park();
}
if (TryLock(Self) > 0) break;
+ if (_owner == DEFLATER_MARKER) {
+ // The deflation protocol finished the first part (setting _owner), but
+ // it failed the second part (making _contentions negative) and bailed.
+ // Because we're called from enter() we have at least one contention.
+ guarantee(_contentions > 0, "owner == DEFLATER_MARKER && contentions <= 0 "
+ "should have been handled by the caller: contentions=%d",
+ _contentions);
+ if (Atomic::cmpxchg(Self, &_owner, DEFLATER_MARKER) == DEFLATER_MARKER) {
+ // Acquired the monitor.
+ break;
+ }
+ }
+
// The lock is still contested.
// Keep a tally of the # of futile wakeups.
// Note that the counter is not protected by a lock or updated by atomics.
// That is by design - we trade "lossy" counters which are exposed to
// races during updates for a lower probe effect.
*** 667,676 ****
--- 785,807 ----
assert(_owner != Self, "invariant");
if (TryLock(Self) > 0) break;
if (TrySpin(Self) > 0) break;
+ if (_owner == DEFLATER_MARKER) {
+ // The deflation protocol finished the first part (setting _owner),
+ // but it will observe _waiters != 0 and will bail out. Because we're
+ // called from wait() we may or may not have any contentions.
+ guarantee(_contentions >= 0, "owner == DEFLATER_MARKER && contentions < 0 "
+ "should have been handled by the caller: contentions=%d",
+ _contentions);
+ if (Atomic::cmpxchg(Self, &_owner, DEFLATER_MARKER) == DEFLATER_MARKER) {
+ // Acquired the monitor.
+ break;
+ }
+ }
+
// State transition wrappers around park() ...
// ReenterI() wisely defers state transitions until
// it's clear we must park the thread.
{
OSThreadContendState osts(Self->osthread());
*** 874,884 ****
// see x86_32.ad Fast_Unlock() and the I1 and I2 properties.
// Upon deeper reflection, however, in a properly run JVM the only
// way we should encounter this situation is in the presence of
// unbalanced JNI locking. TODO: CheckJNICalls.
// See also: CR4414101
! assert(false, "Non-balanced monitor enter/exit! Likely JNI locking");
return;
}
}
if (_recursions != 0) {
--- 1005,1016 ----
// see x86_32.ad Fast_Unlock() and the I1 and I2 properties.
// Upon deeper reflection, however, in a properly run JVM the only
// way we should encounter this situation is in the presence of
// unbalanced JNI locking. TODO: CheckJNICalls.
// See also: CR4414101
! assert(false, "Non-balanced monitor enter/exit! Likely JNI locking: "
! "owner=" INTPTR_FORMAT, p2i(_owner));
return;
}
}
if (_recursions != 0) {
*** 1124,1143 ****
return save;
}
// reenter() enters a lock and sets recursion count
// complete_exit/reenter operate as a wait without waiting
! void ObjectMonitor::reenter(intptr_t recursions, TRAPS) {
Thread * const Self = THREAD;
assert(Self->is_Java_thread(), "Must be Java thread!");
JavaThread *jt = (JavaThread *)THREAD;
guarantee(_owner != Self, "reenter already owner");
! enter(THREAD); // enter the monitor
guarantee(_recursions == 0, "reenter recursion");
_recursions = recursions;
! return;
}
// -----------------------------------------------------------------------------
// A macro is used below because there may already be a pending
--- 1256,1279 ----
return save;
}
// reenter() enters a lock and sets recursion count
// complete_exit/reenter operate as a wait without waiting
! bool ObjectMonitor::reenter(intptr_t recursions, TRAPS) {
Thread * const Self = THREAD;
assert(Self->is_Java_thread(), "Must be Java thread!");
JavaThread *jt = (JavaThread *)THREAD;
guarantee(_owner != Self, "reenter already owner");
! if (!enter(THREAD)) {
! // Failed to enter the monitor so return for a retry.
! return false;
! }
! // Entered the monitor.
guarantee(_recursions == 0, "reenter recursion");
_recursions = recursions;
! return true;
}
// -----------------------------------------------------------------------------
// A macro is used below because there may already be a pending
*** 1361,1371 ****
Self->_Stalled = 0;
assert(_owner != Self, "invariant");
ObjectWaiter::TStates v = node.TState;
if (v == ObjectWaiter::TS_RUN) {
! enter(Self);
} else {
guarantee(v == ObjectWaiter::TS_ENTER || v == ObjectWaiter::TS_CXQ, "invariant");
ReenterI(Self, &node);
node.wait_reenter_end(this);
}
--- 1497,1508 ----
Self->_Stalled = 0;
assert(_owner != Self, "invariant");
ObjectWaiter::TStates v = node.TState;
if (v == ObjectWaiter::TS_RUN) {
! const bool success = enter(Self);
! ADIM_guarantee(success, "enter signaled for a retry, but monitor should not have been deflated as waiters > 0");
} else {
guarantee(v == ObjectWaiter::TS_ENTER || v == ObjectWaiter::TS_CXQ, "invariant");
ReenterI(Self, &node);
node.wait_reenter_end(this);
}
*** 1924,1928 ****
--- 2061,2142 ----
#undef NEWPERFVARIABLE
}
DEBUG_ONLY(InitDone = true;)
}
+
+ // For internal used by ObjectSynchronizer::monitors_iterate().
+ ObjectMonitorHandle::ObjectMonitorHandle(ObjectMonitor * om_ptr) {
+ om_ptr->inc_ref_count();
+ _om_ptr = om_ptr;
+ }
+
+ ObjectMonitorHandle::~ObjectMonitorHandle() {
+ if (_om_ptr != NULL) {
+ _om_ptr->dec_ref_count();
+ _om_ptr = NULL;
+ }
+ }
+
+ // Save the ObjectMonitor* associated with the specified markOop and
+ // increment the ref_count. This function should only be called if
+ // the caller has verified mark->has_monitor() == true. The object
+ // parameter is needed to verify that ObjectMonitor* has not been
+ // deflated and reused for another object.
+ //
+ // This function returns true if the ObjectMonitor* has been safely
+ // saved. This function returns false if we have lost a race with
+ // async deflation; the caller should retry as appropriate.
+ //
+ bool ObjectMonitorHandle::save_om_ptr(oop object, markOop mark) {
+ guarantee(mark->has_monitor(), "sanity check: mark=" INTPTR_FORMAT,
+ p2i(mark));
+
+ ObjectMonitor * om_ptr = mark->monitor();
+ om_ptr->inc_ref_count();
+
+ if (AsyncDeflateIdleMonitors) {
+ // Race here if monitor is not owned! The above ref_count bump
+ // will cause subsequent async deflation to skip it. However,
+ // previous or concurrent async deflation is a race.
+ if (om_ptr->_owner == DEFLATER_MARKER && om_ptr->_contentions <= 0) {
+ // Async deflation is in progress.
+ if (om_ptr->ref_count() <= 0) {
+ // And our ref_count increment above lost the race to async
+ // deflation. Attempt to restore the header/dmw to the
+ // object's header so that we only retry once if the deflater
+ // thread happens to be slow.
+ om_ptr->install_displaced_markword_in_object(object);
+ om_ptr->dec_ref_count();
+ return false;
+ }
+ }
+ // The ObjectMonitor could have been deflated and reused for
+ // another object before we bumped the ref_count so make sure
+ // our object still refers to this ObjectMonitor.
+ const markOop tmp = object->mark();
+ if (!tmp->has_monitor() || tmp->monitor() != om_ptr) {
+ // Async deflation and reuse won the race so we have to retry.
+ // Skip object header restoration since that's already done.
+ om_ptr->dec_ref_count();
+ return false;
+ }
+ }
+
+ guarantee(_om_ptr == NULL, "sanity check: _om_ptr=" INTPTR_FORMAT,
+ p2i(_om_ptr));
+ _om_ptr = om_ptr;
+ return true;
+ }
+
+ // For internal use by ObjectSynchronizer::inflate().
+ void ObjectMonitorHandle::set_om_ptr(ObjectMonitor * om_ptr) {
+ if (_om_ptr == NULL) {
+ guarantee(om_ptr != NULL, "cannot clear an unset om_ptr");
+ om_ptr->inc_ref_count();
+ _om_ptr = om_ptr;
+ } else {
+ guarantee(om_ptr == NULL, "can only clear a set om_ptr");
+ _om_ptr->dec_ref_count();
+ _om_ptr = NULL;
+ }
+ }
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