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/*
* Copyright (c) 2001, 2010, 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 "incls/_precompiled.incl"
#include "incls/_concurrentG1RefineThread.cpp.incl"
ConcurrentG1RefineThread::
ConcurrentG1RefineThread(ConcurrentG1Refine* cg1r, ConcurrentG1RefineThread *next,
int worker_id_offset, int worker_id) :
ConcurrentGCThread(),
_worker_id_offset(worker_id_offset),
_worker_id(worker_id),
_active(false),
_next(next),
_monitor(NULL),
_cg1r(cg1r),
_vtime_accum(0.0)
{
// Each thread has its own monitor. The i-th thread is responsible for signalling
// to thread i+1 if the number of buffers in the queue exceeds a threashold for this
// thread. Monitors are also used to wake up the threads during termination.
// The 0th worker in notified by mutator threads and has a special monitor.
// The last worker is used for young gen rset size sampling.
if (worker_id > 0) {
_monitor = new Monitor(Mutex::nonleaf, "Refinement monitor", true);
} else {
_monitor = DirtyCardQ_CBL_mon;
}
initialize();
create_and_start();
}
void ConcurrentG1RefineThread::initialize() {
if (_worker_id < cg1r()->worker_thread_num()) {
// Current thread activation threshold
_threshold = MIN2<int>(cg1r()->thread_threshold_step() * (_worker_id + 1) + cg1r()->green_zone(),
cg1r()->yellow_zone());
// A thread deactivates once the number of buffer reached a deactivation threshold
_deactivation_threshold = MAX2<int>(_threshold - cg1r()->thread_threshold_step(), cg1r()->green_zone());
} else {
set_active(true);
}
}
void ConcurrentG1RefineThread::sample_young_list_rs_lengths() {
G1CollectedHeap* g1h = G1CollectedHeap::heap();
G1CollectorPolicy* g1p = g1h->g1_policy();
if (g1p->adaptive_young_list_length()) {
int regions_visited = 0;
g1h->young_list()->rs_length_sampling_init();
while (g1h->young_list()->rs_length_sampling_more()) {
g1h->young_list()->rs_length_sampling_next();
++regions_visited;
// we try to yield every time we visit 10 regions
if (regions_visited == 10) {
if (_sts.should_yield()) {
_sts.yield("G1 refine");
// we just abandon the iteration
break;
}
regions_visited = 0;
}
}
g1p->check_prediction_validity();
}
}
void ConcurrentG1RefineThread::run_young_rs_sampling() {
DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
_vtime_start = os::elapsedVTime();
while(!_should_terminate) {
_sts.join();
sample_young_list_rs_lengths();
_sts.leave();
if (os::supports_vtime()) {
_vtime_accum = (os::elapsedVTime() - _vtime_start);
} else {
_vtime_accum = 0.0;
}
MutexLockerEx x(_monitor, Mutex::_no_safepoint_check_flag);
if (_should_terminate) {
break;
}
_monitor->wait(Mutex::_no_safepoint_check_flag, G1ConcRefinementServiceIntervalMillis);
}
}
void ConcurrentG1RefineThread::wait_for_completed_buffers() {
DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
MutexLockerEx x(_monitor, Mutex::_no_safepoint_check_flag);
while (!_should_terminate && !is_active()) {
_monitor->wait(Mutex::_no_safepoint_check_flag);
}
}
bool ConcurrentG1RefineThread::is_active() {
DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
return _worker_id > 0 ? _active : dcqs.process_completed_buffers();
}
void ConcurrentG1RefineThread::activate() {
MutexLockerEx x(_monitor, Mutex::_no_safepoint_check_flag);
if (_worker_id > 0) {
if (G1TraceConcRefinement) {
DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
gclog_or_tty->print_cr("G1-Refine-activated worker %d, on threshold %d, current %d",
_worker_id, _threshold, (int)dcqs.completed_buffers_num());
}
set_active(true);
} else {
DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
dcqs.set_process_completed(true);
}
_monitor->notify();
}
void ConcurrentG1RefineThread::deactivate() {
MutexLockerEx x(_monitor, Mutex::_no_safepoint_check_flag);
if (_worker_id > 0) {
if (G1TraceConcRefinement) {
DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
gclog_or_tty->print_cr("G1-Refine-deactivated worker %d, off threshold %d, current %d",
_worker_id, _deactivation_threshold, (int)dcqs.completed_buffers_num());
}
set_active(false);
} else {
DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
dcqs.set_process_completed(false);
}
}
void ConcurrentG1RefineThread::run() {
initialize_in_thread();
wait_for_universe_init();
if (_worker_id >= cg1r()->worker_thread_num()) {
run_young_rs_sampling();
terminate();
return;
}
_vtime_start = os::elapsedVTime();
while (!_should_terminate) {
DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
// Wait for work
wait_for_completed_buffers();
if (_should_terminate) {
break;
}
_sts.join();
do {
int curr_buffer_num = (int)dcqs.completed_buffers_num();
// If the number of the buffers falls down into the yellow zone,
// that means that the transition period after the evacuation pause has ended.
if (dcqs.completed_queue_padding() > 0 && curr_buffer_num <= cg1r()->yellow_zone()) {
dcqs.set_completed_queue_padding(0);
}
if (_worker_id > 0 && curr_buffer_num <= _deactivation_threshold) {
// If the number of the buffer has fallen below our threshold
// we should deactivate. The predecessor will reactivate this
// thread should the number of the buffers cross the threshold again.
deactivate();
break;
}
// Check if we need to activate the next thread.
if (_next != NULL && !_next->is_active() && curr_buffer_num > _next->_threshold) {
_next->activate();
}
} while (dcqs.apply_closure_to_completed_buffer(_worker_id + _worker_id_offset, cg1r()->green_zone()));
// We can exit the loop above while being active if there was a yield request.
if (is_active()) {
deactivate();
}
_sts.leave();
if (os::supports_vtime()) {
_vtime_accum = (os::elapsedVTime() - _vtime_start);
} else {
_vtime_accum = 0.0;
}
}
assert(_should_terminate, "just checking");
terminate();
}
void ConcurrentG1RefineThread::yield() {
if (G1TraceConcRefinement) {
gclog_or_tty->print_cr("G1-Refine-yield");
}
_sts.yield("G1 refine");
if (G1TraceConcRefinement) {
gclog_or_tty->print_cr("G1-Refine-yield-end");
}
}
void ConcurrentG1RefineThread::stop() {
// it is ok to take late safepoints here, if needed
{
MutexLockerEx mu(Terminator_lock);
_should_terminate = true;
}
{
MutexLockerEx x(_monitor, Mutex::_no_safepoint_check_flag);
_monitor->notify();
}
{
MutexLockerEx mu(Terminator_lock);
while (!_has_terminated) {
Terminator_lock->wait();
}
}
if (G1TraceConcRefinement) {
gclog_or_tty->print_cr("G1-Refine-stop");
}
}
void ConcurrentG1RefineThread::print() const {
print_on(tty);
}
void ConcurrentG1RefineThread::print_on(outputStream* st) const {
st->print("\"G1 Concurrent Refinement Thread#%d\" ", _worker_id);
Thread::print_on(st);
st->cr();
}
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