src/hotspot/share/jfr/leakprofiler/checkpoint/objectSampleCheckpoint.cpp - platform/libcore - Git at Google

 /*
  * Copyright (c) 2014, 2019, 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 "jfr/jfrEvents.hpp"
 #include "jfr/leakprofiler/chains/edgeStore.hpp"
 #include "jfr/leakprofiler/chains/objectSampleMarker.hpp"
 #include "jfr/leakprofiler/checkpoint/objectSampleCheckpoint.hpp"
 #include "jfr/leakprofiler/checkpoint/objectSampleWriter.hpp"
 #include "jfr/leakprofiler/leakProfiler.hpp"
 #include "jfr/leakprofiler/sampling/objectSample.hpp"
 #include "jfr/leakprofiler/sampling/objectSampler.hpp"
 #include "jfr/recorder/checkpoint/jfrCheckpointWriter.hpp"
 #include "jfr/recorder/checkpoint/types/traceid/jfrTraceId.inline.hpp"
 #include "jfr/recorder/service/jfrOptionSet.hpp"
 #include "jfr/recorder/stacktrace/jfrStackTraceRepository.hpp"
 #include "jfr/utilities/jfrHashtable.hpp"
 #include "jfr/utilities/jfrTypes.hpp"
 #include "runtime/mutexLocker.hpp"
 #include "runtime/safepoint.hpp"
 #include "runtime/thread.hpp"
 #include "utilities/growableArray.hpp"

 static bool predicate(GrowableArray<traceid>* set, traceid id) {
   assert(set != NULL, "invariant");
   bool found = false;
   set->find_sorted<traceid, compare_traceid>(id, found);
   return found;
 }

 static bool mutable_predicate(GrowableArray<traceid>* set, traceid id) {
   assert(set != NULL, "invariant");
   bool found = false;
   const int location = set->find_sorted<traceid, compare_traceid>(id, found);
   if (!found) {
     set->insert_before(location, id);
   }
   return found;
 }

 static bool add(GrowableArray<traceid>* set, traceid id) {
   assert(set != NULL, "invariant");
   return mutable_predicate(set, id);
 }

 const int initial_array_size = 64;

 template <typename T>
 static GrowableArray<T>* c_heap_allocate_array(int size = initial_array_size) {
   return new (ResourceObj::C_HEAP, mtTracing) GrowableArray<T>(size, true, mtTracing);
 }

 static GrowableArray<traceid>* unloaded_thread_id_set = NULL;

 class ThreadIdExclusiveAccess : public StackObj {
  private:
   static Semaphore _mutex_semaphore;
  public:
   ThreadIdExclusiveAccess() { _mutex_semaphore.wait(); }
   ~ThreadIdExclusiveAccess() { _mutex_semaphore.signal(); }
 };

 Semaphore ThreadIdExclusiveAccess::_mutex_semaphore(1);

 static bool has_thread_exited(traceid tid) {
   assert(tid != 0, "invariant");
   return unloaded_thread_id_set != NULL && predicate(unloaded_thread_id_set, tid);
 }

 static void add_to_unloaded_thread_set(traceid tid) {
   ThreadIdExclusiveAccess lock;
   if (unloaded_thread_id_set == NULL) {
     unloaded_thread_id_set = c_heap_allocate_array<traceid>();
   }
   add(unloaded_thread_id_set, tid);
 }

 void ObjectSampleCheckpoint::on_thread_exit(JavaThread* jt) {
   assert(jt != NULL, "invariant");
   if (LeakProfiler::is_running()) {
     add_to_unloaded_thread_set(jt->jfr_thread_local()->thread_id());
   }
 }

 // Track the set of unloaded klasses during a chunk / epoch.
 // Methods in stacktraces belonging to unloaded klasses must not be accessed.
 static GrowableArray<traceid>* unloaded_klass_set = NULL;

 static void add_to_unloaded_klass_set(traceid klass_id) {
   if (unloaded_klass_set == NULL) {
     unloaded_klass_set = c_heap_allocate_array<traceid>();
   }
   unloaded_klass_set->append(klass_id);
 }

 static void sort_unloaded_klass_set() {
   if (unloaded_klass_set != NULL && unloaded_klass_set->length() > 1) {
     unloaded_klass_set->sort(sort_traceid);
   }
 }

 void ObjectSampleCheckpoint::on_klass_unload(const Klass* k) {
   assert(k != NULL, "invariant");
   add_to_unloaded_klass_set(TRACE_ID(k));
 }

 template <typename Processor>
 static void do_samples(ObjectSample* sample, const ObjectSample* end, Processor& processor) {
   assert(sample != NULL, "invariant");
   while (sample != end) {
     processor.sample_do(sample);
     sample = sample->next();
   }
 }

 template <typename Processor>
 static void iterate_samples(Processor& processor, bool all = false) {
   ObjectSampler* const sampler = ObjectSampler::sampler();
   assert(sampler != NULL, "invariant");
   ObjectSample* const last = sampler->last();
   assert(last != NULL, "invariant");
   do_samples(last, all ? NULL : sampler->last_resolved(), processor);
 }

 class SampleMarker {
  private:
   ObjectSampleMarker& _marker;
   jlong _last_sweep;
   int _count;
  public:
   SampleMarker(ObjectSampleMarker& marker, jlong last_sweep) : _marker(marker), _last_sweep(last_sweep), _count(0) {}
   void sample_do(ObjectSample* sample) {
     if (sample->is_alive_and_older_than(_last_sweep)) {
       _marker.mark(sample->object());
       ++_count;
     }
   }
   int count() const {
     return _count;
   }
 };

 int ObjectSampleCheckpoint::save_mark_words(const ObjectSampler* sampler, ObjectSampleMarker& marker, bool emit_all) {
   assert(sampler != NULL, "invariant");
   if (sampler->last() == NULL) {
     return 0;
   }
   SampleMarker sample_marker(marker, emit_all ? max_jlong : sampler->last_sweep().value());
   iterate_samples(sample_marker, true);
   return sample_marker.count();
 }

 class BlobCache {
   typedef HashTableHost<JfrBlobHandle, traceid, JfrHashtableEntry, BlobCache> BlobTable;
   typedef BlobTable::HashEntry BlobEntry;
  private:
   BlobTable _table;
   traceid _lookup_id;
  public:
   BlobCache(size_t size) : _table(this, size), _lookup_id(0) {}
   JfrBlobHandle get(const ObjectSample* sample);
   void put(const ObjectSample* sample, const JfrBlobHandle& blob);
   // Hash table callbacks
   void on_link(const BlobEntry* entry) const;
   bool on_equals(uintptr_t hash, const BlobEntry* entry) const;
   void on_unlink(BlobEntry* entry) const;
 };

 JfrBlobHandle BlobCache::get(const ObjectSample* sample) {
   assert(sample != NULL, "invariant");
   _lookup_id = sample->stack_trace_id();
   assert(_lookup_id != 0, "invariant");
   BlobEntry* const entry = _table.lookup_only(sample->stack_trace_hash());
   return entry != NULL ? entry->literal() : JfrBlobHandle();
 }

 void BlobCache::put(const ObjectSample* sample, const JfrBlobHandle& blob) {
   assert(sample != NULL, "invariant");
   assert(_table.lookup_only(sample->stack_trace_hash()) == NULL, "invariant");
   _lookup_id = sample->stack_trace_id();
   assert(_lookup_id != 0, "invariant");
   _table.put(sample->stack_trace_hash(), blob);
 }

 inline void BlobCache::on_link(const BlobEntry* entry) const {
   assert(entry != NULL, "invariant");
   assert(entry->id() == 0, "invariant");
   entry->set_id(_lookup_id);
 }

 inline bool BlobCache::on_equals(uintptr_t hash, const BlobEntry* entry) const {
   assert(entry != NULL, "invariant");
   assert(entry->hash() == hash, "invariant");
   return entry->id() == _lookup_id;
 }

 inline void BlobCache::on_unlink(BlobEntry* entry) const {
   assert(entry != NULL, "invariant");
 }

 static GrowableArray<traceid>* id_set = NULL;

 static void prepare_for_resolution() {
   id_set = new GrowableArray<traceid>(JfrOptionSet::old_object_queue_size());
   sort_unloaded_klass_set();
 }

 static bool stack_trace_precondition(const ObjectSample* sample) {
   assert(sample != NULL, "invariant");
   return sample->has_stack_trace_id() && !sample->is_dead();
 }

 class StackTraceBlobInstaller {
  private:
   const JfrStackTraceRepository& _stack_trace_repo;
   BlobCache _cache;
   const JfrStackTrace* resolve(const ObjectSample* sample);
   void install(ObjectSample* sample);
  public:
   StackTraceBlobInstaller(const JfrStackTraceRepository& stack_trace_repo);
   void sample_do(ObjectSample* sample) {
     if (stack_trace_precondition(sample)) {
       install(sample);
     }
   }
 };

 StackTraceBlobInstaller::StackTraceBlobInstaller(const JfrStackTraceRepository& stack_trace_repo) :
   _stack_trace_repo(stack_trace_repo), _cache(JfrOptionSet::old_object_queue_size()) {
   prepare_for_resolution();
 }

 const JfrStackTrace* StackTraceBlobInstaller::resolve(const ObjectSample* sample) {
   return _stack_trace_repo.lookup(sample->stack_trace_hash(), sample->stack_trace_id());
 }

 #ifdef ASSERT
 static void validate_stack_trace(const ObjectSample* sample, const JfrStackTrace* stack_trace) {
   assert(!sample->has_stacktrace(), "invariant");
   assert(stack_trace != NULL, "invariant");
   assert(stack_trace->hash() == sample->stack_trace_hash(), "invariant");
   assert(stack_trace->id() == sample->stack_trace_id(), "invariant");
 }
 #endif

 void StackTraceBlobInstaller::install(ObjectSample* sample) {
   JfrBlobHandle blob = _cache.get(sample);
   if (blob.valid()) {
     sample->set_stacktrace(blob);
     return;
   }
   const JfrStackTrace* const stack_trace = resolve(sample);
   DEBUG_ONLY(validate_stack_trace(sample, stack_trace));
   JfrCheckpointWriter writer;
   writer.write_type(TYPE_STACKTRACE);
   writer.write_count(1);
   ObjectSampleCheckpoint::write_stacktrace(stack_trace, writer);
   blob = writer.move();
   _cache.put(sample, blob);
   sample->set_stacktrace(blob);
 }

 static void install_stack_traces(const ObjectSampler* sampler, JfrStackTraceRepository& stack_trace_repo) {
   assert(sampler != NULL, "invariant");
   const ObjectSample* const last = sampler->last();
   if (last != sampler->last_resolved()) {
     StackTraceBlobInstaller installer(stack_trace_repo);
     iterate_samples(installer);
   }
 }

 // caller needs ResourceMark
 void ObjectSampleCheckpoint::on_rotation(const ObjectSampler* sampler, JfrStackTraceRepository& stack_trace_repo) {
   assert(JfrStream_lock->owned_by_self(), "invariant");
   assert(sampler != NULL, "invariant");
   assert(LeakProfiler::is_running(), "invariant");
   install_stack_traces(sampler, stack_trace_repo);
 }

 static traceid get_klass_id(traceid method_id) {
   assert(method_id != 0, "invariant");
   return method_id >> TRACE_ID_SHIFT;
 }

 static bool is_klass_unloaded(traceid method_id) {
   return unloaded_klass_set != NULL && predicate(unloaded_klass_set, get_klass_id(method_id));
 }

 static bool is_processed(traceid id) {
   assert(id != 0, "invariant");
   assert(id_set != NULL, "invariant");
   return mutable_predicate(id_set, id);
 }

 void ObjectSampleCheckpoint::add_to_leakp_set(const Method* method, traceid method_id) {
   if (is_processed(method_id) || is_klass_unloaded(method_id)) {
     return;
   }
   JfrTraceId::set_leakp(method);
 }

 void ObjectSampleCheckpoint::write_stacktrace(const JfrStackTrace* trace, JfrCheckpointWriter& writer) {
   assert(trace != NULL, "invariant");
   // JfrStackTrace
   writer.write(trace->id());
   writer.write((u1)!trace->_reached_root);
   writer.write(trace->_nr_of_frames);
   // JfrStackFrames
   for (u4 i = 0; i < trace->_nr_of_frames; ++i) {
     const JfrStackFrame& frame = trace->_frames[i];
     frame.write(writer);
     add_to_leakp_set(frame._method, frame._methodid);
   }
 }

 static void write_blob(const JfrBlobHandle& blob, JfrCheckpointWriter& writer, bool reset) {
   if (reset) {
     blob->reset_write_state();
     return;
   }
   blob->exclusive_write(writer);
 }

 static void write_type_set_blob(const ObjectSample* sample, JfrCheckpointWriter& writer, bool reset) {
   if (sample->has_type_set()) {
     write_blob(sample->type_set(), writer, reset);
   }
 }

 static void write_thread_blob(const ObjectSample* sample, JfrCheckpointWriter& writer, bool reset) {
   assert(sample->has_thread(), "invariant");
   if (has_thread_exited(sample->thread_id())) {
     write_blob(sample->thread(), writer, reset);
   }
 }

 static void write_stacktrace_blob(const ObjectSample* sample, JfrCheckpointWriter& writer, bool reset) {
   if (sample->has_stacktrace()) {
     write_blob(sample->stacktrace(), writer, reset);
   }
 }

 static void write_blobs(const ObjectSample* sample, JfrCheckpointWriter& writer, bool reset) {
   assert(sample != NULL, "invariant");
   write_stacktrace_blob(sample, writer, reset);
   write_thread_blob(sample, writer, reset);
   write_type_set_blob(sample, writer, reset);
 }

 class BlobWriter {
  private:
   const ObjectSampler* _sampler;
   JfrCheckpointWriter& _writer;
   const jlong _last_sweep;
   bool _reset;
  public:
   BlobWriter(const ObjectSampler* sampler, JfrCheckpointWriter& writer, jlong last_sweep) :
     _sampler(sampler), _writer(writer), _last_sweep(last_sweep), _reset(false)  {}
   void sample_do(ObjectSample* sample) {
     if (sample->is_alive_and_older_than(_last_sweep)) {
       write_blobs(sample, _writer, _reset);
     }
   }
   void set_reset() {
     _reset = true;
   }
 };

 static void write_sample_blobs(const ObjectSampler* sampler, bool emit_all, Thread* thread) {
   // sample set is predicated on time of last sweep
   const jlong last_sweep = emit_all ? max_jlong : sampler->last_sweep().value();
   JfrCheckpointWriter writer(thread, false);
   BlobWriter cbw(sampler, writer, last_sweep);
   iterate_samples(cbw, true);
   // reset blob write states
   cbw.set_reset();
   iterate_samples(cbw, true);
 }

 void ObjectSampleCheckpoint::write(const ObjectSampler* sampler, EdgeStore* edge_store, bool emit_all, Thread* thread) {
   assert_locked_or_safepoint(JfrStream_lock);
   assert(sampler != NULL, "invariant");
   assert(edge_store != NULL, "invariant");
   assert(thread != NULL, "invariant");
   write_sample_blobs(sampler, emit_all, thread);
   // write reference chains
   if (!edge_store->is_empty()) {
     JfrCheckpointWriter writer(thread);
     ObjectSampleWriter osw(writer, edge_store);
     edge_store->iterate(osw);
   }
 }

 static void clear_unloaded_klass_set() {
   if (unloaded_klass_set != NULL && unloaded_klass_set->is_nonempty()) {
     unloaded_klass_set->clear();
   }
 }

 // A linked list of saved type set blobs for the epoch.
 // The link consist of a reference counted handle.
 static JfrBlobHandle saved_type_set_blobs;

 static void release_state_for_previous_epoch() {
   // decrements the reference count and the list is reinitialized
   saved_type_set_blobs = JfrBlobHandle();
   clear_unloaded_klass_set();
 }

 class BlobInstaller {
  public:
   ~BlobInstaller() {
     release_state_for_previous_epoch();
   }
   void sample_do(ObjectSample* sample) {
     if (!sample->is_dead()) {
       sample->set_type_set(saved_type_set_blobs);
     }
   }
 };

 static void install_type_set_blobs() {
   BlobInstaller installer;
   iterate_samples(installer);
 }

 static void save_type_set_blob(JfrCheckpointWriter& writer, bool copy = false) {
   assert(writer.has_data(), "invariant");
   const JfrBlobHandle blob = copy ? writer.copy() : writer.move();
   if (saved_type_set_blobs.valid()) {
     saved_type_set_blobs->set_next(blob);
   } else {
     saved_type_set_blobs = blob;
   }
 }

 void ObjectSampleCheckpoint::on_type_set(JfrCheckpointWriter& writer) {
   assert(LeakProfiler::is_running(), "invariant");
   const ObjectSample* last = ObjectSampler::sampler()->last();
   if (writer.has_data() && last != NULL) {
     save_type_set_blob(writer);
     install_type_set_blobs();
     ObjectSampler::sampler()->set_last_resolved(last);
   }
 }

 void ObjectSampleCheckpoint::on_type_set_unload(JfrCheckpointWriter& writer) {
   assert(SafepointSynchronize::is_at_safepoint(), "invariant");
   assert(LeakProfiler::is_running(), "invariant");
   if (writer.has_data() && ObjectSampler::sampler()->last() != NULL) {
     save_type_set_blob(writer, true);
   }
 }
	/*
	* Copyright (c) 2014, 2019, 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 "jfr/jfrEvents.hpp"
	#include "jfr/leakprofiler/chains/edgeStore.hpp"
	#include "jfr/leakprofiler/chains/objectSampleMarker.hpp"
	#include "jfr/leakprofiler/checkpoint/objectSampleCheckpoint.hpp"
	#include "jfr/leakprofiler/checkpoint/objectSampleWriter.hpp"
	#include "jfr/leakprofiler/leakProfiler.hpp"
	#include "jfr/leakprofiler/sampling/objectSample.hpp"
	#include "jfr/leakprofiler/sampling/objectSampler.hpp"
	#include "jfr/recorder/checkpoint/jfrCheckpointWriter.hpp"
	#include "jfr/recorder/checkpoint/types/traceid/jfrTraceId.inline.hpp"
	#include "jfr/recorder/service/jfrOptionSet.hpp"
	#include "jfr/recorder/stacktrace/jfrStackTraceRepository.hpp"
	#include "jfr/utilities/jfrHashtable.hpp"
	#include "jfr/utilities/jfrTypes.hpp"
	#include "runtime/mutexLocker.hpp"
	#include "runtime/safepoint.hpp"
	#include "runtime/thread.hpp"
	#include "utilities/growableArray.hpp"

	static bool predicate(GrowableArray<traceid>* set, traceid id) {
	assert(set != NULL, "invariant");
	bool found = false;
	set->find_sorted<traceid, compare_traceid>(id, found);
	return found;
	}

	static bool mutable_predicate(GrowableArray<traceid>* set, traceid id) {
	assert(set != NULL, "invariant");
	bool found = false;
	const int location = set->find_sorted<traceid, compare_traceid>(id, found);
	if (!found) {
	set->insert_before(location, id);
	}
	return found;
	}

	static bool add(GrowableArray<traceid>* set, traceid id) {
	assert(set != NULL, "invariant");
	return mutable_predicate(set, id);
	}

	const int initial_array_size = 64;

	template <typename T>
	static GrowableArray<T>* c_heap_allocate_array(int size = initial_array_size) {
	return new (ResourceObj::C_HEAP, mtTracing) GrowableArray<T>(size, true, mtTracing);
	}

	static GrowableArray<traceid>* unloaded_thread_id_set = NULL;

	class ThreadIdExclusiveAccess : public StackObj {
	private:
	static Semaphore _mutex_semaphore;
	public:
	ThreadIdExclusiveAccess() { _mutex_semaphore.wait(); }
	~ThreadIdExclusiveAccess() { _mutex_semaphore.signal(); }
	};

	Semaphore ThreadIdExclusiveAccess::_mutex_semaphore(1);

	static bool has_thread_exited(traceid tid) {
	assert(tid != 0, "invariant");
	return unloaded_thread_id_set != NULL && predicate(unloaded_thread_id_set, tid);
	}

	static void add_to_unloaded_thread_set(traceid tid) {
	ThreadIdExclusiveAccess lock;
	if (unloaded_thread_id_set == NULL) {
	unloaded_thread_id_set = c_heap_allocate_array<traceid>();
	}
	add(unloaded_thread_id_set, tid);
	}

	void ObjectSampleCheckpoint::on_thread_exit(JavaThread* jt) {
	assert(jt != NULL, "invariant");
	if (LeakProfiler::is_running()) {
	add_to_unloaded_thread_set(jt->jfr_thread_local()->thread_id());
	}
	}

	// Track the set of unloaded klasses during a chunk / epoch.
	// Methods in stacktraces belonging to unloaded klasses must not be accessed.
	static GrowableArray<traceid>* unloaded_klass_set = NULL;

	static void add_to_unloaded_klass_set(traceid klass_id) {
	if (unloaded_klass_set == NULL) {
	unloaded_klass_set = c_heap_allocate_array<traceid>();
	}
	unloaded_klass_set->append(klass_id);
	}

	static void sort_unloaded_klass_set() {
	if (unloaded_klass_set != NULL && unloaded_klass_set->length() > 1) {
	unloaded_klass_set->sort(sort_traceid);
	}
	}

	void ObjectSampleCheckpoint::on_klass_unload(const Klass* k) {
	assert(k != NULL, "invariant");
	add_to_unloaded_klass_set(TRACE_ID(k));
	}

	template <typename Processor>
	static void do_samples(ObjectSample* sample, const ObjectSample* end, Processor& processor) {
	assert(sample != NULL, "invariant");
	while (sample != end) {
	processor.sample_do(sample);
	sample = sample->next();
	}
	}

	template <typename Processor>
	static void iterate_samples(Processor& processor, bool all = false) {
	ObjectSampler* const sampler = ObjectSampler::sampler();
	assert(sampler != NULL, "invariant");
	ObjectSample* const last = sampler->last();
	assert(last != NULL, "invariant");
	do_samples(last, all ? NULL : sampler->last_resolved(), processor);
	}

	class SampleMarker {
	private:
	ObjectSampleMarker& _marker;
	jlong _last_sweep;
	int _count;
	public:
	SampleMarker(ObjectSampleMarker& marker, jlong last_sweep) : _marker(marker), _last_sweep(last_sweep), _count(0) {}
	void sample_do(ObjectSample* sample) {
	if (sample->is_alive_and_older_than(_last_sweep)) {
	_marker.mark(sample->object());
	++_count;
	}
	}
	int count() const {
	return _count;
	}
	};

	int ObjectSampleCheckpoint::save_mark_words(const ObjectSampler* sampler, ObjectSampleMarker& marker, bool emit_all) {
	assert(sampler != NULL, "invariant");
	if (sampler->last() == NULL) {
	return 0;
	}
	SampleMarker sample_marker(marker, emit_all ? max_jlong : sampler->last_sweep().value());
	iterate_samples(sample_marker, true);
	return sample_marker.count();
	}

	class BlobCache {
	typedef HashTableHost<JfrBlobHandle, traceid, JfrHashtableEntry, BlobCache> BlobTable;
	typedef BlobTable::HashEntry BlobEntry;
	private:
	BlobTable _table;
	traceid _lookup_id;
	public:
	BlobCache(size_t size) : _table(this, size), _lookup_id(0) {}
	JfrBlobHandle get(const ObjectSample* sample);
	void put(const ObjectSample* sample, const JfrBlobHandle& blob);
	// Hash table callbacks
	void on_link(const BlobEntry* entry) const;
	bool on_equals(uintptr_t hash, const BlobEntry* entry) const;
	void on_unlink(BlobEntry* entry) const;
	};

	JfrBlobHandle BlobCache::get(const ObjectSample* sample) {
	assert(sample != NULL, "invariant");
	_lookup_id = sample->stack_trace_id();
	assert(_lookup_id != 0, "invariant");
	BlobEntry* const entry = _table.lookup_only(sample->stack_trace_hash());
	return entry != NULL ? entry->literal() : JfrBlobHandle();
	}

	void BlobCache::put(const ObjectSample* sample, const JfrBlobHandle& blob) {
	assert(sample != NULL, "invariant");
	assert(_table.lookup_only(sample->stack_trace_hash()) == NULL, "invariant");
	_lookup_id = sample->stack_trace_id();
	assert(_lookup_id != 0, "invariant");
	_table.put(sample->stack_trace_hash(), blob);
	}

	inline void BlobCache::on_link(const BlobEntry* entry) const {
	assert(entry != NULL, "invariant");
	assert(entry->id() == 0, "invariant");
	entry->set_id(_lookup_id);
	}

	inline bool BlobCache::on_equals(uintptr_t hash, const BlobEntry* entry) const {
	assert(entry != NULL, "invariant");
	assert(entry->hash() == hash, "invariant");
	return entry->id() == _lookup_id;
	}

	inline void BlobCache::on_unlink(BlobEntry* entry) const {
	assert(entry != NULL, "invariant");
	}

	static GrowableArray<traceid>* id_set = NULL;

	static void prepare_for_resolution() {
	id_set = new GrowableArray<traceid>(JfrOptionSet::old_object_queue_size());
	sort_unloaded_klass_set();
	}

	static bool stack_trace_precondition(const ObjectSample* sample) {
	assert(sample != NULL, "invariant");
	return sample->has_stack_trace_id() && !sample->is_dead();
	}

	class StackTraceBlobInstaller {
	private:
	const JfrStackTraceRepository& _stack_trace_repo;
	BlobCache _cache;
	const JfrStackTrace* resolve(const ObjectSample* sample);
	void install(ObjectSample* sample);
	public:
	StackTraceBlobInstaller(const JfrStackTraceRepository& stack_trace_repo);
	void sample_do(ObjectSample* sample) {
	if (stack_trace_precondition(sample)) {
	install(sample);
	}
	}
	};

	StackTraceBlobInstaller::StackTraceBlobInstaller(const JfrStackTraceRepository& stack_trace_repo) :
	_stack_trace_repo(stack_trace_repo), _cache(JfrOptionSet::old_object_queue_size()) {
	prepare_for_resolution();
	}

	const JfrStackTrace* StackTraceBlobInstaller::resolve(const ObjectSample* sample) {
	return _stack_trace_repo.lookup(sample->stack_trace_hash(), sample->stack_trace_id());
	}

	#ifdef ASSERT
	static void validate_stack_trace(const ObjectSample* sample, const JfrStackTrace* stack_trace) {
	assert(!sample->has_stacktrace(), "invariant");
	assert(stack_trace != NULL, "invariant");
	assert(stack_trace->hash() == sample->stack_trace_hash(), "invariant");
	assert(stack_trace->id() == sample->stack_trace_id(), "invariant");
	}
	#endif

	void StackTraceBlobInstaller::install(ObjectSample* sample) {
	JfrBlobHandle blob = _cache.get(sample);
	if (blob.valid()) {
	sample->set_stacktrace(blob);
	return;
	}
	const JfrStackTrace* const stack_trace = resolve(sample);
	DEBUG_ONLY(validate_stack_trace(sample, stack_trace));
	JfrCheckpointWriter writer;
	writer.write_type(TYPE_STACKTRACE);
	writer.write_count(1);
	ObjectSampleCheckpoint::write_stacktrace(stack_trace, writer);
	blob = writer.move();
	_cache.put(sample, blob);
	sample->set_stacktrace(blob);
	}

	static void install_stack_traces(const ObjectSampler* sampler, JfrStackTraceRepository& stack_trace_repo) {
	assert(sampler != NULL, "invariant");
	const ObjectSample* const last = sampler->last();
	if (last != sampler->last_resolved()) {
	StackTraceBlobInstaller installer(stack_trace_repo);
	iterate_samples(installer);
	}
	}

	// caller needs ResourceMark
	void ObjectSampleCheckpoint::on_rotation(const ObjectSampler* sampler, JfrStackTraceRepository& stack_trace_repo) {
	assert(JfrStream_lock->owned_by_self(), "invariant");
	assert(sampler != NULL, "invariant");
	assert(LeakProfiler::is_running(), "invariant");
	install_stack_traces(sampler, stack_trace_repo);
	}

	static traceid get_klass_id(traceid method_id) {
	assert(method_id != 0, "invariant");
	return method_id >> TRACE_ID_SHIFT;
	}

	static bool is_klass_unloaded(traceid method_id) {
	return unloaded_klass_set != NULL && predicate(unloaded_klass_set, get_klass_id(method_id));
	}

	static bool is_processed(traceid id) {
	assert(id != 0, "invariant");
	assert(id_set != NULL, "invariant");
	return mutable_predicate(id_set, id);
	}

	void ObjectSampleCheckpoint::add_to_leakp_set(const Method* method, traceid method_id) {
	if (is_processed(method_id) \|\| is_klass_unloaded(method_id)) {
	return;
	}
	JfrTraceId::set_leakp(method);
	}

	void ObjectSampleCheckpoint::write_stacktrace(const JfrStackTrace* trace, JfrCheckpointWriter& writer) {
	assert(trace != NULL, "invariant");
	// JfrStackTrace
	writer.write(trace->id());
	writer.write((u1)!trace->_reached_root);
	writer.write(trace->_nr_of_frames);
	// JfrStackFrames
	for (u4 i = 0; i < trace->_nr_of_frames; ++i) {
	const JfrStackFrame& frame = trace->_frames[i];
	frame.write(writer);
	add_to_leakp_set(frame._method, frame._methodid);
	}
	}

	static void write_blob(const JfrBlobHandle& blob, JfrCheckpointWriter& writer, bool reset) {
	if (reset) {
	blob->reset_write_state();
	return;
	}
	blob->exclusive_write(writer);
	}

	static void write_type_set_blob(const ObjectSample* sample, JfrCheckpointWriter& writer, bool reset) {
	if (sample->has_type_set()) {
	write_blob(sample->type_set(), writer, reset);
	}
	}

	static void write_thread_blob(const ObjectSample* sample, JfrCheckpointWriter& writer, bool reset) {
	assert(sample->has_thread(), "invariant");
	if (has_thread_exited(sample->thread_id())) {
	write_blob(sample->thread(), writer, reset);
	}
	}

	static void write_stacktrace_blob(const ObjectSample* sample, JfrCheckpointWriter& writer, bool reset) {
	if (sample->has_stacktrace()) {
	write_blob(sample->stacktrace(), writer, reset);
	}
	}

	static void write_blobs(const ObjectSample* sample, JfrCheckpointWriter& writer, bool reset) {
	assert(sample != NULL, "invariant");
	write_stacktrace_blob(sample, writer, reset);
	write_thread_blob(sample, writer, reset);
	write_type_set_blob(sample, writer, reset);
	}

	class BlobWriter {
	private:
	const ObjectSampler* _sampler;
	JfrCheckpointWriter& _writer;
	const jlong _last_sweep;
	bool _reset;
	public:
	BlobWriter(const ObjectSampler* sampler, JfrCheckpointWriter& writer, jlong last_sweep) :
	_sampler(sampler), _writer(writer), _last_sweep(last_sweep), _reset(false) {}
	void sample_do(ObjectSample* sample) {
	if (sample->is_alive_and_older_than(_last_sweep)) {
	write_blobs(sample, _writer, _reset);
	}
	}
	void set_reset() {
	_reset = true;
	}
	};

	static void write_sample_blobs(const ObjectSampler* sampler, bool emit_all, Thread* thread) {
	// sample set is predicated on time of last sweep
	const jlong last_sweep = emit_all ? max_jlong : sampler->last_sweep().value();
	JfrCheckpointWriter writer(thread, false);
	BlobWriter cbw(sampler, writer, last_sweep);
	iterate_samples(cbw, true);
	// reset blob write states
	cbw.set_reset();
	iterate_samples(cbw, true);
	}

	void ObjectSampleCheckpoint::write(const ObjectSampler* sampler, EdgeStore* edge_store, bool emit_all, Thread* thread) {
	assert_locked_or_safepoint(JfrStream_lock);
	assert(sampler != NULL, "invariant");
	assert(edge_store != NULL, "invariant");
	assert(thread != NULL, "invariant");
	write_sample_blobs(sampler, emit_all, thread);
	// write reference chains
	if (!edge_store->is_empty()) {
	JfrCheckpointWriter writer(thread);
	ObjectSampleWriter osw(writer, edge_store);
	edge_store->iterate(osw);
	}
	}

	static void clear_unloaded_klass_set() {
	if (unloaded_klass_set != NULL && unloaded_klass_set->is_nonempty()) {
	unloaded_klass_set->clear();
	}
	}

	// A linked list of saved type set blobs for the epoch.
	// The link consist of a reference counted handle.
	static JfrBlobHandle saved_type_set_blobs;

	static void release_state_for_previous_epoch() {
	// decrements the reference count and the list is reinitialized
	saved_type_set_blobs = JfrBlobHandle();
	clear_unloaded_klass_set();
	}

	class BlobInstaller {
	public:
	~BlobInstaller() {
	release_state_for_previous_epoch();
	}
	void sample_do(ObjectSample* sample) {
	if (!sample->is_dead()) {
	sample->set_type_set(saved_type_set_blobs);
	}
	}
	};

	static void install_type_set_blobs() {
	BlobInstaller installer;
	iterate_samples(installer);
	}

	static void save_type_set_blob(JfrCheckpointWriter& writer, bool copy = false) {
	assert(writer.has_data(), "invariant");
	const JfrBlobHandle blob = copy ? writer.copy() : writer.move();
	if (saved_type_set_blobs.valid()) {
	saved_type_set_blobs->set_next(blob);
	} else {
	saved_type_set_blobs = blob;
	}
	}

	void ObjectSampleCheckpoint::on_type_set(JfrCheckpointWriter& writer) {
	assert(LeakProfiler::is_running(), "invariant");
	const ObjectSample* last = ObjectSampler::sampler()->last();
	if (writer.has_data() && last != NULL) {
	save_type_set_blob(writer);
	install_type_set_blobs();
	ObjectSampler::sampler()->set_last_resolved(last);
	}
	}

	void ObjectSampleCheckpoint::on_type_set_unload(JfrCheckpointWriter& writer) {
	assert(SafepointSynchronize::is_at_safepoint(), "invariant");
	assert(LeakProfiler::is_running(), "invariant");
	if (writer.has_data() && ObjectSampler::sampler()->last() != NULL) {
	save_type_set_blob(writer, true);
	}
	}