src/hotspot/share/gc/g1/g1IHOPControl.cpp - platform/libcore - Git at Google

 /*
  * Copyright (c) 2015, 2020, 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/g1/g1CollectedHeap.inline.hpp"
 #include "gc/g1/g1IHOPControl.hpp"
 #include "gc/g1/g1Predictions.hpp"
 #include "gc/shared/gcTrace.hpp"
 #include "logging/log.hpp"

 G1IHOPControl::G1IHOPControl(double initial_ihop_percent,
                              G1OldGenAllocationTracker const* old_gen_alloc_tracker) :
   _initial_ihop_percent(initial_ihop_percent),
   _target_occupancy(0),
   _last_allocation_time_s(0.0),
   _old_gen_alloc_tracker(old_gen_alloc_tracker)
 {
   assert(_initial_ihop_percent >= 0.0 && _initial_ihop_percent <= 100.0, "Initial IHOP value must be between 0 and 100 but is %.3f", initial_ihop_percent);
 }

 void G1IHOPControl::update_target_occupancy(size_t new_target_occupancy) {
   log_debug(gc, ihop)("Target occupancy update: old: " SIZE_FORMAT "B, new: " SIZE_FORMAT "B",
                       _target_occupancy, new_target_occupancy);
   _target_occupancy = new_target_occupancy;
 }

 void G1IHOPControl::update_allocation_info(double allocation_time_s, size_t additional_buffer_size) {
   assert(allocation_time_s >= 0.0, "Allocation time must be positive but is %.3f", allocation_time_s);

   _last_allocation_time_s = allocation_time_s;
 }

 void G1IHOPControl::print() {
   assert(_target_occupancy > 0, "Target occupancy still not updated yet.");
   size_t cur_conc_mark_start_threshold = get_conc_mark_start_threshold();
   log_debug(gc, ihop)("Basic information (value update), threshold: " SIZE_FORMAT "B (%1.2f), target occupancy: " SIZE_FORMAT "B, current occupancy: " SIZE_FORMAT "B, "
                       "recent allocation size: " SIZE_FORMAT "B, recent allocation duration: %1.2fms, recent old gen allocation rate: %1.2fB/s, recent marking phase length: %1.2fms",
                       cur_conc_mark_start_threshold,
                       percent_of(cur_conc_mark_start_threshold, _target_occupancy),
                       _target_occupancy,
                       G1CollectedHeap::heap()->used(),
                       _old_gen_alloc_tracker->last_period_old_gen_bytes(),
                       _last_allocation_time_s * 1000.0,
                       _last_allocation_time_s > 0.0 ? _old_gen_alloc_tracker->last_period_old_gen_bytes() / _last_allocation_time_s : 0.0,
                       last_marking_length_s() * 1000.0);
 }

 void G1IHOPControl::send_trace_event(G1NewTracer* tracer) {
   assert(_target_occupancy > 0, "Target occupancy still not updated yet.");
   tracer->report_basic_ihop_statistics(get_conc_mark_start_threshold(),
                                        _target_occupancy,
                                        G1CollectedHeap::heap()->used(),
                                        _old_gen_alloc_tracker->last_period_old_gen_bytes(),
                                        _last_allocation_time_s,
                                        last_marking_length_s());
 }

 G1StaticIHOPControl::G1StaticIHOPControl(double ihop_percent,
                                          G1OldGenAllocationTracker const* old_gen_alloc_tracker) :
   G1IHOPControl(ihop_percent, old_gen_alloc_tracker),
   _last_marking_length_s(0.0) {
 }

 G1AdaptiveIHOPControl::G1AdaptiveIHOPControl(double ihop_percent,
                                              G1OldGenAllocationTracker const* old_gen_alloc_tracker,
                                              G1Predictions const* predictor,
                                              size_t heap_reserve_percent,
                                              size_t heap_waste_percent) :
   G1IHOPControl(ihop_percent, old_gen_alloc_tracker),
   _predictor(predictor),
   _marking_times_s(10, 0.95),
   _allocation_rate_s(10, 0.95),
   _last_unrestrained_young_size(0),
   _heap_reserve_percent(heap_reserve_percent),
   _heap_waste_percent(heap_waste_percent)
 {
 }

 size_t G1AdaptiveIHOPControl::actual_target_threshold() const {
   guarantee(_target_occupancy > 0, "Target occupancy still not updated yet.");
   // The actual target threshold takes the heap reserve and the expected waste in
   // free space  into account.
   // _heap_reserve is that part of the total heap capacity that is reserved for
   // eventual promotion failure.
   // _heap_waste is the amount of space will never be reclaimed in any
   // heap, so can not be used for allocation during marking and must always be
   // considered.

   double safe_total_heap_percentage = MIN2((double)(_heap_reserve_percent + _heap_waste_percent), 100.0);

   return (size_t)MIN2(
     G1CollectedHeap::heap()->max_capacity() * (100.0 - safe_total_heap_percentage) / 100.0,
     _target_occupancy * (100.0 - _heap_waste_percent) / 100.0
     );
 }

 bool G1AdaptiveIHOPControl::have_enough_data_for_prediction() const {
   return ((size_t)_marking_times_s.num() >= G1AdaptiveIHOPNumInitialSamples) &&
          ((size_t)_allocation_rate_s.num() >= G1AdaptiveIHOPNumInitialSamples);
 }

 size_t G1AdaptiveIHOPControl::get_conc_mark_start_threshold() {
   if (have_enough_data_for_prediction()) {
     double pred_marking_time = _predictor->get_new_prediction(&_marking_times_s);
     double pred_promotion_rate = _predictor->get_new_prediction(&_allocation_rate_s);
     size_t pred_promotion_size = (size_t)(pred_marking_time * pred_promotion_rate);

     size_t predicted_needed_bytes_during_marking =
       pred_promotion_size +
       // In reality we would need the maximum size of the young gen during
       // marking. This is a conservative estimate.
       _last_unrestrained_young_size;

     size_t internal_threshold = actual_target_threshold();
     size_t predicted_initiating_threshold = predicted_needed_bytes_during_marking < internal_threshold ?
                                             internal_threshold - predicted_needed_bytes_during_marking :
                                             0;
     return predicted_initiating_threshold;
   } else {
     // Use the initial value.
     return (size_t)(_initial_ihop_percent * _target_occupancy / 100.0);
   }
 }

 double G1AdaptiveIHOPControl::last_mutator_period_old_allocation_rate() const {
   assert(_last_allocation_time_s > 0, "This should not be called when the last GC is full");

   return _old_gen_alloc_tracker->last_period_old_gen_growth() / _last_allocation_time_s;
  }

 void G1AdaptiveIHOPControl::update_allocation_info(double allocation_time_s,
                                                    size_t additional_buffer_size) {
   G1IHOPControl::update_allocation_info(allocation_time_s, additional_buffer_size);
   _allocation_rate_s.add(last_mutator_period_old_allocation_rate());

   _last_unrestrained_young_size = additional_buffer_size;
 }

 void G1AdaptiveIHOPControl::update_marking_length(double marking_length_s) {
    assert(marking_length_s >= 0.0, "Marking length must be larger than zero but is %.3f", marking_length_s);
   _marking_times_s.add(marking_length_s);
 }

 void G1AdaptiveIHOPControl::print() {
   G1IHOPControl::print();
   size_t actual_target = actual_target_threshold();
   log_debug(gc, ihop)("Adaptive IHOP information (value update), threshold: " SIZE_FORMAT "B (%1.2f), internal target occupancy: " SIZE_FORMAT "B, "
                       "occupancy: " SIZE_FORMAT "B, additional buffer size: " SIZE_FORMAT "B, predicted old gen allocation rate: %1.2fB/s, "
                       "predicted marking phase length: %1.2fms, prediction active: %s",
                       get_conc_mark_start_threshold(),
                       percent_of(get_conc_mark_start_threshold(), actual_target),
                       actual_target,
                       G1CollectedHeap::heap()->used(),
                       _last_unrestrained_young_size,
                       _predictor->get_new_prediction(&_allocation_rate_s),
                       _predictor->get_new_prediction(&_marking_times_s) * 1000.0,
                       have_enough_data_for_prediction() ? "true" : "false");
 }

 void G1AdaptiveIHOPControl::send_trace_event(G1NewTracer* tracer) {
   G1IHOPControl::send_trace_event(tracer);
   tracer->report_adaptive_ihop_statistics(get_conc_mark_start_threshold(),
                                           actual_target_threshold(),
                                           G1CollectedHeap::heap()->used(),
                                           _last_unrestrained_young_size,
                                           _predictor->get_new_prediction(&_allocation_rate_s),
                                           _predictor->get_new_prediction(&_marking_times_s),
                                           have_enough_data_for_prediction());
 }
	/*
	* Copyright (c) 2015, 2020, 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/g1/g1CollectedHeap.inline.hpp"
	#include "gc/g1/g1IHOPControl.hpp"
	#include "gc/g1/g1Predictions.hpp"
	#include "gc/shared/gcTrace.hpp"
	#include "logging/log.hpp"

	G1IHOPControl::G1IHOPControl(double initial_ihop_percent,
	G1OldGenAllocationTracker const* old_gen_alloc_tracker) :
	_initial_ihop_percent(initial_ihop_percent),
	_target_occupancy(0),
	_last_allocation_time_s(0.0),
	_old_gen_alloc_tracker(old_gen_alloc_tracker)
	{
	assert(_initial_ihop_percent >= 0.0 && _initial_ihop_percent <= 100.0, "Initial IHOP value must be between 0 and 100 but is %.3f", initial_ihop_percent);
	}

	void G1IHOPControl::update_target_occupancy(size_t new_target_occupancy) {
	log_debug(gc, ihop)("Target occupancy update: old: " SIZE_FORMAT "B, new: " SIZE_FORMAT "B",
	_target_occupancy, new_target_occupancy);
	_target_occupancy = new_target_occupancy;
	}

	void G1IHOPControl::update_allocation_info(double allocation_time_s, size_t additional_buffer_size) {
	assert(allocation_time_s >= 0.0, "Allocation time must be positive but is %.3f", allocation_time_s);

	_last_allocation_time_s = allocation_time_s;
	}

	void G1IHOPControl::print() {
	assert(_target_occupancy > 0, "Target occupancy still not updated yet.");
	size_t cur_conc_mark_start_threshold = get_conc_mark_start_threshold();
	log_debug(gc, ihop)("Basic information (value update), threshold: " SIZE_FORMAT "B (%1.2f), target occupancy: " SIZE_FORMAT "B, current occupancy: " SIZE_FORMAT "B, "
	"recent allocation size: " SIZE_FORMAT "B, recent allocation duration: %1.2fms, recent old gen allocation rate: %1.2fB/s, recent marking phase length: %1.2fms",
	cur_conc_mark_start_threshold,
	percent_of(cur_conc_mark_start_threshold, _target_occupancy),
	_target_occupancy,
	G1CollectedHeap::heap()->used(),
	_old_gen_alloc_tracker->last_period_old_gen_bytes(),
	_last_allocation_time_s * 1000.0,
	_last_allocation_time_s > 0.0 ? _old_gen_alloc_tracker->last_period_old_gen_bytes() / _last_allocation_time_s : 0.0,
	last_marking_length_s() * 1000.0);
	}

	void G1IHOPControl::send_trace_event(G1NewTracer* tracer) {
	assert(_target_occupancy > 0, "Target occupancy still not updated yet.");
	tracer->report_basic_ihop_statistics(get_conc_mark_start_threshold(),
	_target_occupancy,
	G1CollectedHeap::heap()->used(),
	_old_gen_alloc_tracker->last_period_old_gen_bytes(),
	_last_allocation_time_s,
	last_marking_length_s());
	}

	G1StaticIHOPControl::G1StaticIHOPControl(double ihop_percent,
	G1OldGenAllocationTracker const* old_gen_alloc_tracker) :
	G1IHOPControl(ihop_percent, old_gen_alloc_tracker),
	_last_marking_length_s(0.0) {
	}

	G1AdaptiveIHOPControl::G1AdaptiveIHOPControl(double ihop_percent,
	G1OldGenAllocationTracker const* old_gen_alloc_tracker,
	G1Predictions const* predictor,
	size_t heap_reserve_percent,
	size_t heap_waste_percent) :
	G1IHOPControl(ihop_percent, old_gen_alloc_tracker),
	_predictor(predictor),
	_marking_times_s(10, 0.95),
	_allocation_rate_s(10, 0.95),
	_last_unrestrained_young_size(0),
	_heap_reserve_percent(heap_reserve_percent),
	_heap_waste_percent(heap_waste_percent)
	{
	}

	size_t G1AdaptiveIHOPControl::actual_target_threshold() const {
	guarantee(_target_occupancy > 0, "Target occupancy still not updated yet.");
	// The actual target threshold takes the heap reserve and the expected waste in
	// free space into account.
	// _heap_reserve is that part of the total heap capacity that is reserved for
	// eventual promotion failure.
	// _heap_waste is the amount of space will never be reclaimed in any
	// heap, so can not be used for allocation during marking and must always be
	// considered.

	double safe_total_heap_percentage = MIN2((double)(_heap_reserve_percent + _heap_waste_percent), 100.0);

	return (size_t)MIN2(
	G1CollectedHeap::heap()->max_capacity() * (100.0 - safe_total_heap_percentage) / 100.0,
	_target_occupancy * (100.0 - _heap_waste_percent) / 100.0
	);
	}

	bool G1AdaptiveIHOPControl::have_enough_data_for_prediction() const {
	return ((size_t)_marking_times_s.num() >= G1AdaptiveIHOPNumInitialSamples) &&
	((size_t)_allocation_rate_s.num() >= G1AdaptiveIHOPNumInitialSamples);
	}

	size_t G1AdaptiveIHOPControl::get_conc_mark_start_threshold() {
	if (have_enough_data_for_prediction()) {
	double pred_marking_time = _predictor->get_new_prediction(&_marking_times_s);
	double pred_promotion_rate = _predictor->get_new_prediction(&_allocation_rate_s);
	size_t pred_promotion_size = (size_t)(pred_marking_time * pred_promotion_rate);

	size_t predicted_needed_bytes_during_marking =
	pred_promotion_size +
	// In reality we would need the maximum size of the young gen during
	// marking. This is a conservative estimate.
	_last_unrestrained_young_size;

	size_t internal_threshold = actual_target_threshold();
	size_t predicted_initiating_threshold = predicted_needed_bytes_during_marking < internal_threshold ?
	internal_threshold - predicted_needed_bytes_during_marking :
	0;
	return predicted_initiating_threshold;
	} else {
	// Use the initial value.
	return (size_t)(_initial_ihop_percent * _target_occupancy / 100.0);
	}
	}

	double G1AdaptiveIHOPControl::last_mutator_period_old_allocation_rate() const {
	assert(_last_allocation_time_s > 0, "This should not be called when the last GC is full");

	return _old_gen_alloc_tracker->last_period_old_gen_growth() / _last_allocation_time_s;
	}

	void G1AdaptiveIHOPControl::update_allocation_info(double allocation_time_s,
	size_t additional_buffer_size) {
	G1IHOPControl::update_allocation_info(allocation_time_s, additional_buffer_size);
	_allocation_rate_s.add(last_mutator_period_old_allocation_rate());

	_last_unrestrained_young_size = additional_buffer_size;
	}

	void G1AdaptiveIHOPControl::update_marking_length(double marking_length_s) {
	assert(marking_length_s >= 0.0, "Marking length must be larger than zero but is %.3f", marking_length_s);
	_marking_times_s.add(marking_length_s);
	}

	void G1AdaptiveIHOPControl::print() {
	G1IHOPControl::print();
	size_t actual_target = actual_target_threshold();
	log_debug(gc, ihop)("Adaptive IHOP information (value update), threshold: " SIZE_FORMAT "B (%1.2f), internal target occupancy: " SIZE_FORMAT "B, "
	"occupancy: " SIZE_FORMAT "B, additional buffer size: " SIZE_FORMAT "B, predicted old gen allocation rate: %1.2fB/s, "
	"predicted marking phase length: %1.2fms, prediction active: %s",
	get_conc_mark_start_threshold(),
	percent_of(get_conc_mark_start_threshold(), actual_target),
	actual_target,
	G1CollectedHeap::heap()->used(),
	_last_unrestrained_young_size,
	_predictor->get_new_prediction(&_allocation_rate_s),
	_predictor->get_new_prediction(&_marking_times_s) * 1000.0,
	have_enough_data_for_prediction() ? "true" : "false");
	}

	void G1AdaptiveIHOPControl::send_trace_event(G1NewTracer* tracer) {
	G1IHOPControl::send_trace_event(tracer);
	tracer->report_adaptive_ihop_statistics(get_conc_mark_start_threshold(),
	actual_target_threshold(),
	G1CollectedHeap::heap()->used(),
	_last_unrestrained_young_size,
	_predictor->get_new_prediction(&_allocation_rate_s),
	_predictor->get_new_prediction(&_marking_times_s),
	have_enough_data_for_prediction());
	}