src/hotspot/share/gc/z/zDriver.cpp - platform/libcore - Git at Google

 /*
  * Copyright (c) 2015, 2018, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 #include "precompiled.hpp"
 #include "gc/shared/gcId.hpp"
 #include "gc/shared/gcLocker.hpp"
 #include "gc/shared/isGCActiveMark.hpp"
 #include "gc/shared/vmGCOperations.hpp"
 #include "gc/z/zCollectedHeap.hpp"
 #include "gc/z/zDriver.hpp"
 #include "gc/z/zHeap.inline.hpp"
 #include "gc/z/zMessagePort.inline.hpp"
 #include "gc/z/zServiceability.hpp"
 #include "gc/z/zStat.hpp"
 #include "logging/log.hpp"
 #include "runtime/vmOperations.hpp"
 #include "runtime/vmThread.hpp"

 static const ZStatPhaseCycle      ZPhaseCycle("Garbage Collection Cycle");
 static const ZStatPhasePause      ZPhasePauseMarkStart("Pause Mark Start");
 static const ZStatPhaseConcurrent ZPhaseConcurrentMark("Concurrent Mark");
 static const ZStatPhaseConcurrent ZPhaseConcurrentMarkContinue("Concurrent Mark Continue");
 static const ZStatPhasePause      ZPhasePauseMarkEnd("Pause Mark End");
 static const ZStatPhaseConcurrent ZPhaseConcurrentProcessNonStrongReferences("Concurrent Process Non-Strong References");
 static const ZStatPhaseConcurrent ZPhaseConcurrentResetRelocationSet("Concurrent Reset Relocation Set");
 static const ZStatPhaseConcurrent ZPhaseConcurrentDestroyDetachedPages("Concurrent Destroy Detached Pages");
 static const ZStatPhaseConcurrent ZPhaseConcurrentSelectRelocationSet("Concurrent Select Relocation Set");
 static const ZStatPhaseConcurrent ZPhaseConcurrentPrepareRelocationSet("Concurrent Prepare Relocation Set");
 static const ZStatPhasePause      ZPhasePauseRelocateStart("Pause Relocate Start");
 static const ZStatPhaseConcurrent ZPhaseConcurrentRelocated("Concurrent Relocate");
 static const ZStatCriticalPhase   ZCriticalPhaseGCLockerStall("GC Locker Stall", false /* verbose */);
 static const ZStatSampler         ZSamplerJavaThreads("System", "Java Threads", ZStatUnitThreads);

 class ZOperationClosure : public StackObj {
 public:
   virtual const char* name() const = 0;

   virtual bool needs_inactive_gc_locker() const {
     // An inactive GC locker is needed in operations where we change the good
     // mask or move objects. Changing the good mask will invalidate all oops,
     // which makes it conceptually the same thing as moving all objects.
     return false;
   }

   virtual bool do_operation() = 0;
 };

 class VM_ZOperation : public VM_Operation {
 private:
   ZOperationClosure* _cl;
   uint               _gc_id;
   bool               _gc_locked;
   bool               _success;

 public:
   VM_ZOperation(ZOperationClosure* cl) :
       _cl(cl),
       _gc_id(GCId::current()),
       _gc_locked(false),
       _success(false) {}

   virtual VMOp_Type type() const {
     return VMOp_ZOperation;
   }

   virtual const char* name() const {
     return _cl->name();
   }

   virtual bool doit_prologue() {
     Heap_lock->lock();
     return true;
   }

   virtual void doit() {
     assert(SafepointSynchronize::is_at_safepoint(), "Should be at safepoint");

     ZStatSample(ZSamplerJavaThreads, Threads::number_of_threads());

     // JVMTI support
     SvcGCMarker sgcm(SvcGCMarker::OTHER);

     // Setup GC id
     GCIdMark gcid(_gc_id);

     if (_cl->needs_inactive_gc_locker() && GCLocker::check_active_before_gc()) {
       // GC locker is active, bail out
       _gc_locked = true;
     } else {
       // Execute operation
       IsGCActiveMark mark;
       _success = _cl->do_operation();
     }
   }

   virtual void doit_epilogue() {
     Heap_lock->unlock();
   }

   bool gc_locked() {
     return _gc_locked;
   }

   bool success() const {
     return _success;
   }
 };

 static bool should_clear_soft_references() {
   // Clear if one or more allocations have stalled
   const bool stalled = ZHeap::heap()->is_alloc_stalled();
   if (stalled) {
     // Clear
     return true;
   }

   // Clear if implied by the GC cause
   const GCCause::Cause cause = ZCollectedHeap::heap()->gc_cause();
   if (cause == GCCause::_wb_full_gc ||
       cause == GCCause::_metadata_GC_clear_soft_refs) {
     // Clear
     return true;
   }

   // Don't clear
   return false;
 }

 static bool should_boost_worker_threads() {
   // Boost worker threads if one or more allocations have stalled
   const bool stalled = ZHeap::heap()->is_alloc_stalled();
   if (stalled) {
     // Boost
     return true;
   }

   // Boost worker threads if implied by the GC cause
   const GCCause::Cause cause = ZCollectedHeap::heap()->gc_cause();
   if (cause == GCCause::_wb_full_gc ||
       cause == GCCause::_java_lang_system_gc ||
       cause == GCCause::_metadata_GC_clear_soft_refs) {
     // Boost
     return true;
   }

   // Don't boost
   return false;
 }

 class ZMarkStartClosure : public ZOperationClosure {
 public:
   virtual const char* name() const {
     return "ZMarkStart";
   }

   virtual bool needs_inactive_gc_locker() const {
     return true;
   }

   virtual bool do_operation() {
     ZStatTimer timer(ZPhasePauseMarkStart);
     ZServiceabilityMarkStartTracer tracer;

     // Set up soft reference policy
     const bool clear = should_clear_soft_references();
     ZHeap::heap()->set_soft_reference_policy(clear);

     // Set up boost mode
     const bool boost = should_boost_worker_threads();
     ZHeap::heap()->set_boost_worker_threads(boost);

     ZCollectedHeap::heap()->increment_total_collections(true /* full */);

     ZHeap::heap()->mark_start();
     return true;
   }
 };

 class ZMarkEndClosure : public ZOperationClosure {
 public:
   virtual const char* name() const {
     return "ZMarkEnd";
   }

   virtual bool do_operation() {
     ZStatTimer timer(ZPhasePauseMarkEnd);
     ZServiceabilityMarkEndTracer tracer;

     return ZHeap::heap()->mark_end();
   }
 };

 class ZRelocateStartClosure : public ZOperationClosure {
 public:
   virtual const char* name() const {
     return "ZRelocateStart";
   }

   virtual bool needs_inactive_gc_locker() const {
     return true;
   }

   virtual bool do_operation() {
     ZStatTimer timer(ZPhasePauseRelocateStart);
     ZServiceabilityRelocateStartTracer tracer;

     ZHeap::heap()->relocate_start();
     return true;
   }
 };

 ZDriver::ZDriver() :
     _gc_cycle_port(),
     _gc_locker_port() {
   set_name("ZDriver");
   create_and_start();
 }

 bool ZDriver::vm_operation(ZOperationClosure* cl) {
   for (;;) {
     VM_ZOperation op(cl);
     VMThread::execute(&op);
     if (op.gc_locked()) {
       // Wait for GC to become unlocked and restart the VM operation
       ZStatTimer timer(ZCriticalPhaseGCLockerStall);
       _gc_locker_port.wait();
       continue;
     }

     // Notify VM operation completed
     _gc_locker_port.ack();

     return op.success();
   }
 }

 void ZDriver::collect(GCCause::Cause cause) {
   switch (cause) {
   case GCCause::_wb_young_gc:
   case GCCause::_wb_conc_mark:
   case GCCause::_wb_full_gc:
   case GCCause::_dcmd_gc_run:
   case GCCause::_java_lang_system_gc:
   case GCCause::_full_gc_alot:
   case GCCause::_scavenge_alot:
   case GCCause::_jvmti_force_gc:
   case GCCause::_metadata_GC_clear_soft_refs:
     // Start synchronous GC
     _gc_cycle_port.send_sync(cause);
     break;

   case GCCause::_z_timer:
   case GCCause::_z_warmup:
   case GCCause::_z_allocation_rate:
   case GCCause::_z_allocation_stall:
   case GCCause::_z_proactive:
   case GCCause::_metadata_GC_threshold:
     // Start asynchronous GC
     _gc_cycle_port.send_async(cause);
     break;

   case GCCause::_gc_locker:
     // Restart VM operation previously blocked by the GC locker
     _gc_locker_port.signal();
     break;

   default:
     // Other causes not supported
     fatal("Unsupported GC cause (%s)", GCCause::to_string(cause));
     break;
   }
 }

 GCCause::Cause ZDriver::start_gc_cycle() {
   // Wait for GC request
   return _gc_cycle_port.receive();
 }

 class ZDriverCycleScope : public StackObj {
 private:
   GCIdMark      _gc_id;
   GCCauseSetter _gc_cause_setter;
   ZStatTimer    _timer;

 public:
   ZDriverCycleScope(GCCause::Cause cause) :
       _gc_id(),
       _gc_cause_setter(ZCollectedHeap::heap(), cause),
       _timer(ZPhaseCycle) {
     // Update statistics
     ZStatCycle::at_start();
   }

   ~ZDriverCycleScope() {
     // Calculate boost factor
     const double boost_factor = (double)ZHeap::heap()->nconcurrent_worker_threads() /
                                 (double)ZHeap::heap()->nconcurrent_no_boost_worker_threads();

     // Update statistics
     ZStatCycle::at_end(boost_factor);

     // Update data used by soft reference policy
     Universe::update_heap_info_at_gc();
   }
 };

 void ZDriver::run_gc_cycle(GCCause::Cause cause) {
   ZDriverCycleScope scope(cause);

   // Phase 1: Pause Mark Start
   {
     ZMarkStartClosure cl;
     vm_operation(&cl);
   }

   // Phase 2: Concurrent Mark
   {
     ZStatTimer timer(ZPhaseConcurrentMark);
     ZHeap::heap()->mark();
   }

   // Phase 3: Pause Mark End
   {
     ZMarkEndClosure cl;
     while (!vm_operation(&cl)) {
       // Phase 3.5: Concurrent Mark Continue
       ZStatTimer timer(ZPhaseConcurrentMarkContinue);
       ZHeap::heap()->mark();
     }
   }

   // Phase 4: Concurrent Process Non-Strong References
   {
     ZStatTimer timer(ZPhaseConcurrentProcessNonStrongReferences);
     ZHeap::heap()->process_non_strong_references();
   }

   // Phase 5: Concurrent Reset Relocation Set
   {
     ZStatTimer timer(ZPhaseConcurrentResetRelocationSet);
     ZHeap::heap()->reset_relocation_set();
   }

   // Phase 6: Concurrent Destroy Detached Pages
   {
     ZStatTimer timer(ZPhaseConcurrentDestroyDetachedPages);
     ZHeap::heap()->destroy_detached_pages();
   }

   // Phase 7: Concurrent Select Relocation Set
   {
     ZStatTimer timer(ZPhaseConcurrentSelectRelocationSet);
     ZHeap::heap()->select_relocation_set();
   }

   // Phase 8: Concurrent Prepare Relocation Set
   {
     ZStatTimer timer(ZPhaseConcurrentPrepareRelocationSet);
     ZHeap::heap()->prepare_relocation_set();
   }

   // Phase 9: Pause Relocate Start
   {
     ZRelocateStartClosure cl;
     vm_operation(&cl);
   }

   // Phase 10: Concurrent Relocate
   {
     ZStatTimer timer(ZPhaseConcurrentRelocated);
     ZHeap::heap()->relocate();
   }
 }

 void ZDriver::end_gc_cycle() {
   // Notify GC cycle completed
   _gc_cycle_port.ack();

   // Check for out of memory condition
   ZHeap::heap()->check_out_of_memory();
 }

 void ZDriver::run_service() {
   // Main loop
   while (!should_terminate()) {
     const GCCause::Cause cause = start_gc_cycle();
     if (cause != GCCause::_no_gc) {
       run_gc_cycle(cause);
       end_gc_cycle();
     }
   }
 }

 void ZDriver::stop_service() {
   _gc_cycle_port.send_async(GCCause::_no_gc);
 }
	/*
	* Copyright (c) 2015, 2018, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	#include "precompiled.hpp"
	#include "gc/shared/gcId.hpp"
	#include "gc/shared/gcLocker.hpp"
	#include "gc/shared/isGCActiveMark.hpp"
	#include "gc/shared/vmGCOperations.hpp"
	#include "gc/z/zCollectedHeap.hpp"
	#include "gc/z/zDriver.hpp"
	#include "gc/z/zHeap.inline.hpp"
	#include "gc/z/zMessagePort.inline.hpp"
	#include "gc/z/zServiceability.hpp"
	#include "gc/z/zStat.hpp"
	#include "logging/log.hpp"
	#include "runtime/vmOperations.hpp"
	#include "runtime/vmThread.hpp"

	static const ZStatPhaseCycle ZPhaseCycle("Garbage Collection Cycle");
	static const ZStatPhasePause ZPhasePauseMarkStart("Pause Mark Start");
	static const ZStatPhaseConcurrent ZPhaseConcurrentMark("Concurrent Mark");
	static const ZStatPhaseConcurrent ZPhaseConcurrentMarkContinue("Concurrent Mark Continue");
	static const ZStatPhasePause ZPhasePauseMarkEnd("Pause Mark End");
	static const ZStatPhaseConcurrent ZPhaseConcurrentProcessNonStrongReferences("Concurrent Process Non-Strong References");
	static const ZStatPhaseConcurrent ZPhaseConcurrentResetRelocationSet("Concurrent Reset Relocation Set");
	static const ZStatPhaseConcurrent ZPhaseConcurrentDestroyDetachedPages("Concurrent Destroy Detached Pages");
	static const ZStatPhaseConcurrent ZPhaseConcurrentSelectRelocationSet("Concurrent Select Relocation Set");
	static const ZStatPhaseConcurrent ZPhaseConcurrentPrepareRelocationSet("Concurrent Prepare Relocation Set");
	static const ZStatPhasePause ZPhasePauseRelocateStart("Pause Relocate Start");
	static const ZStatPhaseConcurrent ZPhaseConcurrentRelocated("Concurrent Relocate");
	static const ZStatCriticalPhase ZCriticalPhaseGCLockerStall("GC Locker Stall", false /* verbose */);
	static const ZStatSampler ZSamplerJavaThreads("System", "Java Threads", ZStatUnitThreads);

	class ZOperationClosure : public StackObj {
	public:
	virtual const char* name() const = 0;

	virtual bool needs_inactive_gc_locker() const {
	// An inactive GC locker is needed in operations where we change the good
	// mask or move objects. Changing the good mask will invalidate all oops,
	// which makes it conceptually the same thing as moving all objects.
	return false;
	}

	virtual bool do_operation() = 0;
	};

	class VM_ZOperation : public VM_Operation {
	private:
	ZOperationClosure* _cl;
	uint _gc_id;
	bool _gc_locked;
	bool _success;

	public:
	VM_ZOperation(ZOperationClosure* cl) :
	_cl(cl),
	_gc_id(GCId::current()),
	_gc_locked(false),
	_success(false) {}

	virtual VMOp_Type type() const {
	return VMOp_ZOperation;
	}

	virtual const char* name() const {
	return _cl->name();
	}

	virtual bool doit_prologue() {
	Heap_lock->lock();
	return true;
	}

	virtual void doit() {
	assert(SafepointSynchronize::is_at_safepoint(), "Should be at safepoint");

	ZStatSample(ZSamplerJavaThreads, Threads::number_of_threads());

	// JVMTI support
	SvcGCMarker sgcm(SvcGCMarker::OTHER);

	// Setup GC id
	GCIdMark gcid(_gc_id);

	if (_cl->needs_inactive_gc_locker() && GCLocker::check_active_before_gc()) {
	// GC locker is active, bail out
	_gc_locked = true;
	} else {
	// Execute operation
	IsGCActiveMark mark;
	_success = _cl->do_operation();
	}
	}

	virtual void doit_epilogue() {
	Heap_lock->unlock();
	}

	bool gc_locked() {
	return _gc_locked;
	}

	bool success() const {
	return _success;
	}
	};

	static bool should_clear_soft_references() {
	// Clear if one or more allocations have stalled
	const bool stalled = ZHeap::heap()->is_alloc_stalled();
	if (stalled) {
	// Clear
	return true;
	}

	// Clear if implied by the GC cause
	const GCCause::Cause cause = ZCollectedHeap::heap()->gc_cause();
	if (cause == GCCause::_wb_full_gc \|\|
	cause == GCCause::_metadata_GC_clear_soft_refs) {
	// Clear
	return true;
	}

	// Don't clear
	return false;
	}

	static bool should_boost_worker_threads() {
	// Boost worker threads if one or more allocations have stalled
	const bool stalled = ZHeap::heap()->is_alloc_stalled();
	if (stalled) {
	// Boost
	return true;
	}

	// Boost worker threads if implied by the GC cause
	const GCCause::Cause cause = ZCollectedHeap::heap()->gc_cause();
	if (cause == GCCause::_wb_full_gc \|\|
	cause == GCCause::_java_lang_system_gc \|\|
	cause == GCCause::_metadata_GC_clear_soft_refs) {
	// Boost
	return true;
	}

	// Don't boost
	return false;
	}

	class ZMarkStartClosure : public ZOperationClosure {
	public:
	virtual const char* name() const {
	return "ZMarkStart";
	}

	virtual bool needs_inactive_gc_locker() const {
	return true;
	}

	virtual bool do_operation() {
	ZStatTimer timer(ZPhasePauseMarkStart);
	ZServiceabilityMarkStartTracer tracer;

	// Set up soft reference policy
	const bool clear = should_clear_soft_references();
	ZHeap::heap()->set_soft_reference_policy(clear);

	// Set up boost mode
	const bool boost = should_boost_worker_threads();
	ZHeap::heap()->set_boost_worker_threads(boost);

	ZCollectedHeap::heap()->increment_total_collections(true /* full */);

	ZHeap::heap()->mark_start();
	return true;
	}
	};

	class ZMarkEndClosure : public ZOperationClosure {
	public:
	virtual const char* name() const {
	return "ZMarkEnd";
	}

	virtual bool do_operation() {
	ZStatTimer timer(ZPhasePauseMarkEnd);
	ZServiceabilityMarkEndTracer tracer;

	return ZHeap::heap()->mark_end();
	}
	};

	class ZRelocateStartClosure : public ZOperationClosure {
	public:
	virtual const char* name() const {
	return "ZRelocateStart";
	}

	virtual bool needs_inactive_gc_locker() const {
	return true;
	}

	virtual bool do_operation() {
	ZStatTimer timer(ZPhasePauseRelocateStart);
	ZServiceabilityRelocateStartTracer tracer;

	ZHeap::heap()->relocate_start();
	return true;
	}
	};

	ZDriver::ZDriver() :
	_gc_cycle_port(),
	_gc_locker_port() {
	set_name("ZDriver");
	create_and_start();
	}

	bool ZDriver::vm_operation(ZOperationClosure* cl) {
	for (;;) {
	VM_ZOperation op(cl);
	VMThread::execute(&op);
	if (op.gc_locked()) {
	// Wait for GC to become unlocked and restart the VM operation
	ZStatTimer timer(ZCriticalPhaseGCLockerStall);
	_gc_locker_port.wait();
	continue;
	}

	// Notify VM operation completed
	_gc_locker_port.ack();

	return op.success();
	}
	}

	void ZDriver::collect(GCCause::Cause cause) {
	switch (cause) {
	case GCCause::_wb_young_gc:
	case GCCause::_wb_conc_mark:
	case GCCause::_wb_full_gc:
	case GCCause::_dcmd_gc_run:
	case GCCause::_java_lang_system_gc:
	case GCCause::_full_gc_alot:
	case GCCause::_scavenge_alot:
	case GCCause::_jvmti_force_gc:
	case GCCause::_metadata_GC_clear_soft_refs:
	// Start synchronous GC
	_gc_cycle_port.send_sync(cause);
	break;

	case GCCause::_z_timer:
	case GCCause::_z_warmup:
	case GCCause::_z_allocation_rate:
	case GCCause::_z_allocation_stall:
	case GCCause::_z_proactive:
	case GCCause::_metadata_GC_threshold:
	// Start asynchronous GC
	_gc_cycle_port.send_async(cause);
	break;

	case GCCause::_gc_locker:
	// Restart VM operation previously blocked by the GC locker
	_gc_locker_port.signal();
	break;

	default:
	// Other causes not supported
	fatal("Unsupported GC cause (%s)", GCCause::to_string(cause));
	break;
	}
	}

	GCCause::Cause ZDriver::start_gc_cycle() {
	// Wait for GC request
	return _gc_cycle_port.receive();
	}

	class ZDriverCycleScope : public StackObj {
	private:
	GCIdMark _gc_id;
	GCCauseSetter _gc_cause_setter;
	ZStatTimer _timer;

	public:
	ZDriverCycleScope(GCCause::Cause cause) :
	_gc_id(),
	_gc_cause_setter(ZCollectedHeap::heap(), cause),
	_timer(ZPhaseCycle) {
	// Update statistics
	ZStatCycle::at_start();
	}

	~ZDriverCycleScope() {
	// Calculate boost factor
	const double boost_factor = (double)ZHeap::heap()->nconcurrent_worker_threads() /
	(double)ZHeap::heap()->nconcurrent_no_boost_worker_threads();

	// Update statistics
	ZStatCycle::at_end(boost_factor);

	// Update data used by soft reference policy
	Universe::update_heap_info_at_gc();
	}
	};

	void ZDriver::run_gc_cycle(GCCause::Cause cause) {
	ZDriverCycleScope scope(cause);

	// Phase 1: Pause Mark Start
	{
	ZMarkStartClosure cl;
	vm_operation(&cl);
	}

	// Phase 2: Concurrent Mark
	{
	ZStatTimer timer(ZPhaseConcurrentMark);
	ZHeap::heap()->mark();
	}

	// Phase 3: Pause Mark End
	{
	ZMarkEndClosure cl;
	while (!vm_operation(&cl)) {
	// Phase 3.5: Concurrent Mark Continue
	ZStatTimer timer(ZPhaseConcurrentMarkContinue);
	ZHeap::heap()->mark();
	}
	}

	// Phase 4: Concurrent Process Non-Strong References
	{
	ZStatTimer timer(ZPhaseConcurrentProcessNonStrongReferences);
	ZHeap::heap()->process_non_strong_references();
	}

	// Phase 5: Concurrent Reset Relocation Set
	{
	ZStatTimer timer(ZPhaseConcurrentResetRelocationSet);
	ZHeap::heap()->reset_relocation_set();
	}

	// Phase 6: Concurrent Destroy Detached Pages
	{
	ZStatTimer timer(ZPhaseConcurrentDestroyDetachedPages);
	ZHeap::heap()->destroy_detached_pages();
	}

	// Phase 7: Concurrent Select Relocation Set
	{
	ZStatTimer timer(ZPhaseConcurrentSelectRelocationSet);
	ZHeap::heap()->select_relocation_set();
	}

	// Phase 8: Concurrent Prepare Relocation Set
	{
	ZStatTimer timer(ZPhaseConcurrentPrepareRelocationSet);
	ZHeap::heap()->prepare_relocation_set();
	}

	// Phase 9: Pause Relocate Start
	{
	ZRelocateStartClosure cl;
	vm_operation(&cl);
	}

	// Phase 10: Concurrent Relocate
	{
	ZStatTimer timer(ZPhaseConcurrentRelocated);
	ZHeap::heap()->relocate();
	}
	}

	void ZDriver::end_gc_cycle() {
	// Notify GC cycle completed
	_gc_cycle_port.ack();

	// Check for out of memory condition
	ZHeap::heap()->check_out_of_memory();
	}

	void ZDriver::run_service() {
	// Main loop
	while (!should_terminate()) {
	const GCCause::Cause cause = start_gc_cycle();
	if (cause != GCCause::_no_gc) {
	run_gc_cycle(cause);
	end_gc_cycle();
	}
	}
	}

	void ZDriver::stop_service() {
	_gc_cycle_port.send_async(GCCause::_no_gc);
	}