8209345: Merge SATBMarkQueueFilter into SATBMarkQueueSet
Summary: Move filter extension protocol to SATBMarkQueueSet.
Reviewed-by: shade, tschatzl, rkennke
/*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#include "precompiled.hpp"
#include "jvm.h"
#include "gc/g1/satbMarkQueue.hpp"
#include "gc/shared/collectedHeap.hpp"
#include "logging/log.hpp"
#include "memory/allocation.inline.hpp"
#include "oops/oop.inline.hpp"
#include "runtime/mutexLocker.hpp"
#include "runtime/safepoint.hpp"
#include "runtime/thread.hpp"
#include "runtime/threadSMR.hpp"
#include "runtime/vmThread.hpp"
SATBMarkQueue::SATBMarkQueue(SATBMarkQueueSet* qset, bool permanent) :
// SATB queues are only active during marking cycles. We create
// them with their active field set to false. If a thread is
// created during a cycle and its SATB queue needs to be activated
// before the thread starts running, we'll need to set its active
// field to true. This is done in G1SBarrierSet::on_thread_attach().
PtrQueue(qset, permanent, false /* active */)
{ }
void SATBMarkQueue::flush() {
// Filter now to possibly save work later. If filtering empties the
// buffer then flush_impl can deallocate the buffer.
filter();
flush_impl();
}
// This method will first apply filtering to the buffer. If filtering
// retains a small enough collection in the buffer, we can continue to
// use the buffer as-is, instead of enqueueing and replacing it.
bool SATBMarkQueue::should_enqueue_buffer() {
assert(_lock == NULL || _lock->owned_by_self(),
"we should have taken the lock before calling this");
// If G1SATBBufferEnqueueingThresholdPercent == 0 we could skip filtering.
// This method should only be called if there is a non-NULL buffer
// that is full.
assert(index() == 0, "pre-condition");
assert(_buf != NULL, "pre-condition");
filter();
size_t cap = capacity();
size_t percent_used = ((cap - index()) * 100) / cap;
bool should_enqueue = percent_used > G1SATBBufferEnqueueingThresholdPercent;
return should_enqueue;
}
void SATBMarkQueue::apply_closure_and_empty(SATBBufferClosure* cl) {
assert(SafepointSynchronize::is_at_safepoint(),
"SATB queues must only be processed at safepoints");
if (_buf != NULL) {
cl->do_buffer(&_buf[index()], size());
reset();
}
}
#ifndef PRODUCT
// Helpful for debugging
static void print_satb_buffer(const char* name,
void** buf,
size_t index,
size_t capacity) {
tty->print_cr(" SATB BUFFER [%s] buf: " PTR_FORMAT " index: " SIZE_FORMAT
" capacity: " SIZE_FORMAT,
name, p2i(buf), index, capacity);
}
void SATBMarkQueue::print(const char* name) {
print_satb_buffer(name, _buf, index(), capacity());
}
#endif // PRODUCT
SATBMarkQueueSet::SATBMarkQueueSet() :
PtrQueueSet(),
_shared_satb_queue(this, true /* permanent */)
{}
void SATBMarkQueueSet::initialize(Monitor* cbl_mon, Mutex* fl_lock,
int process_completed_threshold,
Mutex* lock) {
PtrQueueSet::initialize(cbl_mon, fl_lock, process_completed_threshold, -1);
_shared_satb_queue.set_lock(lock);
}
#ifdef ASSERT
void SATBMarkQueueSet::dump_active_states(bool expected_active) {
log_error(gc, verify)("Expected SATB active state: %s", expected_active ? "ACTIVE" : "INACTIVE");
log_error(gc, verify)("Actual SATB active states:");
log_error(gc, verify)(" Queue set: %s", is_active() ? "ACTIVE" : "INACTIVE");
for (JavaThreadIteratorWithHandle jtiwh; JavaThread *t = jtiwh.next(); ) {
log_error(gc, verify)(" Thread \"%s\" queue: %s", t->name(), satb_queue_for_thread(t).is_active() ? "ACTIVE" : "INACTIVE");
}
log_error(gc, verify)(" Shared queue: %s", shared_satb_queue()->is_active() ? "ACTIVE" : "INACTIVE");
}
void SATBMarkQueueSet::verify_active_states(bool expected_active) {
// Verify queue set state
if (is_active() != expected_active) {
dump_active_states(expected_active);
guarantee(false, "SATB queue set has an unexpected active state");
}
// Verify thread queue states
for (JavaThreadIteratorWithHandle jtiwh; JavaThread *t = jtiwh.next(); ) {
if (satb_queue_for_thread(t).is_active() != expected_active) {
dump_active_states(expected_active);
guarantee(false, "Thread SATB queue has an unexpected active state");
}
}
// Verify shared queue state
if (shared_satb_queue()->is_active() != expected_active) {
dump_active_states(expected_active);
guarantee(false, "Shared SATB queue has an unexpected active state");
}
}
#endif // ASSERT
void SATBMarkQueueSet::set_active_all_threads(bool active, bool expected_active) {
assert(SafepointSynchronize::is_at_safepoint(), "Must be at safepoint.");
#ifdef ASSERT
verify_active_states(expected_active);
#endif // ASSERT
_all_active = active;
for (JavaThreadIteratorWithHandle jtiwh; JavaThread *t = jtiwh.next(); ) {
satb_queue_for_thread(t).set_active(active);
}
shared_satb_queue()->set_active(active);
}
void SATBMarkQueueSet::filter_thread_buffers() {
for (JavaThreadIteratorWithHandle jtiwh; JavaThread *t = jtiwh.next(); ) {
satb_queue_for_thread(t).filter();
}
shared_satb_queue()->filter();
}
bool SATBMarkQueueSet::apply_closure_to_completed_buffer(SATBBufferClosure* cl) {
BufferNode* nd = NULL;
{
MutexLockerEx x(_cbl_mon, Mutex::_no_safepoint_check_flag);
if (_completed_buffers_head != NULL) {
nd = _completed_buffers_head;
_completed_buffers_head = nd->next();
if (_completed_buffers_head == NULL) _completed_buffers_tail = NULL;
_n_completed_buffers--;
if (_n_completed_buffers == 0) _process_completed = false;
}
}
if (nd != NULL) {
void **buf = BufferNode::make_buffer_from_node(nd);
size_t index = nd->index();
size_t size = buffer_size();
assert(index <= size, "invariant");
cl->do_buffer(buf + index, size - index);
deallocate_buffer(nd);
return true;
} else {
return false;
}
}
#ifndef PRODUCT
// Helpful for debugging
#define SATB_PRINTER_BUFFER_SIZE 256
void SATBMarkQueueSet::print_all(const char* msg) {
char buffer[SATB_PRINTER_BUFFER_SIZE];
assert(SafepointSynchronize::is_at_safepoint(), "Must be at safepoint.");
tty->cr();
tty->print_cr("SATB BUFFERS [%s]", msg);
BufferNode* nd = _completed_buffers_head;
int i = 0;
while (nd != NULL) {
void** buf = BufferNode::make_buffer_from_node(nd);
jio_snprintf(buffer, SATB_PRINTER_BUFFER_SIZE, "Enqueued: %d", i);
print_satb_buffer(buffer, buf, nd->index(), buffer_size());
nd = nd->next();
i += 1;
}
for (JavaThreadIteratorWithHandle jtiwh; JavaThread *t = jtiwh.next(); ) {
jio_snprintf(buffer, SATB_PRINTER_BUFFER_SIZE, "Thread: %s", t->name());
satb_queue_for_thread(t).print(buffer);
}
shared_satb_queue()->print("Shared");
tty->cr();
}
#endif // PRODUCT
void SATBMarkQueueSet::abandon_partial_marking() {
BufferNode* buffers_to_delete = NULL;
{
MutexLockerEx x(_cbl_mon, Mutex::_no_safepoint_check_flag);
while (_completed_buffers_head != NULL) {
BufferNode* nd = _completed_buffers_head;
_completed_buffers_head = nd->next();
nd->set_next(buffers_to_delete);
buffers_to_delete = nd;
}
_completed_buffers_tail = NULL;
_n_completed_buffers = 0;
DEBUG_ONLY(assert_completed_buffer_list_len_correct_locked());
}
while (buffers_to_delete != NULL) {
BufferNode* nd = buffers_to_delete;
buffers_to_delete = nd->next();
deallocate_buffer(nd);
}
assert(SafepointSynchronize::is_at_safepoint(), "Must be at safepoint.");
// So we can safely manipulate these queues.
for (JavaThreadIteratorWithHandle jtiwh; JavaThread *t = jtiwh.next(); ) {
satb_queue_for_thread(t).reset();
}
shared_satb_queue()->reset();
}