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src/share/vm/gc_implementation/g1/ptrQueue.cpp@caac22686b17 (annotated)

src/share/vm/gc_implementation/g1/ptrQueue.cpp

Mon, 29 Apr 2013 09:31:59 +0200

author

mgerdin

date

Mon, 29 Apr 2013 09:31:59 +0200

changeset 5022

caac22686b17

parent 4889

cc32ccaaf47f

child 6198

55fb97c4c58d

permissions

-rw-r--r--

Merge

ysr@777	1	/*
mikael@4153	2	* Copyright (c) 2001, 2012, Oracle and/or its affiliates. All rights reserved.
ysr@777	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
ysr@777	4	*
ysr@777	5	* This code is free software; you can redistribute it and/or modify it
ysr@777	6	* under the terms of the GNU General Public License version 2 only, as
ysr@777	7	* published by the Free Software Foundation.
ysr@777	8	*
ysr@777	9	* This code is distributed in the hope that it will be useful, but WITHOUT
ysr@777	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
ysr@777	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
ysr@777	12	* version 2 for more details (a copy is included in the LICENSE file that
ysr@777	13	* accompanied this code).
ysr@777	14	*
ysr@777	15	* You should have received a copy of the GNU General Public License version
ysr@777	16	* 2 along with this work; if not, write to the Free Software Foundation,
ysr@777	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
ysr@777	18	*
trims@1907	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907	20	* or visit www.oracle.com if you need additional information or have any
trims@1907	21	* questions.
ysr@777	22	*
ysr@777	23	*/
ysr@777	24
stefank@2314	25	#include "precompiled.hpp"
stefank@2314	26	#include "gc_implementation/g1/ptrQueue.hpp"
stefank@2314	27	#include "memory/allocation.hpp"
stefank@2314	28	#include "memory/allocation.inline.hpp"
stefank@2314	29	#include "runtime/mutex.hpp"
stefank@2314	30	#include "runtime/mutexLocker.hpp"
stefank@4299	31	#include "runtime/thread.inline.hpp"
ysr@777	32
tonyp@2469	33	PtrQueue::PtrQueue(PtrQueueSet* qset, bool perm, bool active) :
tonyp@2469	34	_qset(qset), _buf(NULL), _index(0), _active(active),
ysr@777	35	_perm(perm), _lock(NULL)
ysr@777	36	{}
ysr@777	37
iveresov@876	38	void PtrQueue::flush() {
ysr@777	39	if (!_perm && _buf != NULL) {
ysr@777	40	if (_index == _sz) {
ysr@777	41	// No work to do.
ysr@777	42	qset()->deallocate_buffer(_buf);
ysr@777	43	} else {
ysr@777	44	// We must NULL out the unused entries, then enqueue.
ysr@777	45	for (size_t i = 0; i < _index; i += oopSize) {
ysr@777	46	_buf[byte_index_to_index((int)i)] = NULL;
ysr@777	47	}
ysr@777	48	qset()->enqueue_complete_buffer(_buf);
ysr@777	49	}
iveresov@876	50	_buf = NULL;
iveresov@876	51	_index = 0;
ysr@777	52	}
ysr@777	53	}
ysr@777	54
ysr@777	55
ysr@777	56	void PtrQueue::enqueue_known_active(void* ptr) {
ysr@777	57	assert(0 <= _index && _index <= _sz, "Invariant.");
ysr@777	58	assert(_index == 0 || _buf != NULL, "invariant");
ysr@777	59
ysr@777	60	while (_index == 0) {
ysr@777	61	handle_zero_index();
ysr@777	62	}
iveresov@1546	63
ysr@777	64	assert(_index > 0, "postcondition");
ysr@777	65	_index -= oopSize;
ysr@777	66	_buf[byte_index_to_index((int)_index)] = ptr;
ysr@777	67	assert(0 <= _index && _index <= _sz, "Invariant.");
ysr@777	68	}
ysr@777	69
ysr@777	70	void PtrQueue::locking_enqueue_completed_buffer(void** buf) {
ysr@777	71	assert(_lock->owned_by_self(), "Required.");
johnc@1604	72
johnc@1604	73	// We have to unlock _lock (which may be Shared_DirtyCardQ_lock) before
johnc@1604	74	// we acquire DirtyCardQ_CBL_mon inside enqeue_complete_buffer as they
johnc@1604	75	// have the same rank and we may get the "possible deadlock" message
ysr@777	76	_lock->unlock();
johnc@1604	77
ysr@777	78	qset()->enqueue_complete_buffer(buf);
ysr@777	79	// We must relock only because the caller will unlock, for the normal
ysr@777	80	// case.
ysr@777	81	_lock->lock_without_safepoint_check();
ysr@777	82	}
ysr@777	83
ysr@777	84
ysr@777	85	PtrQueueSet::PtrQueueSet(bool notify_when_complete) :
ysr@777	86	_max_completed_queue(0),
ysr@777	87	_cbl_mon(NULL), _fl_lock(NULL),
ysr@777	88	_notify_when_complete(notify_when_complete),
ysr@777	89	_sz(0),
ysr@777	90	_completed_buffers_head(NULL),
ysr@777	91	_completed_buffers_tail(NULL),
ysr@777	92	_n_completed_buffers(0),
ysr@777	93	_process_completed_threshold(0), _process_completed(false),
ysr@777	94	_buf_free_list(NULL), _buf_free_list_sz(0)
iveresov@1051	95	{
iveresov@1051	96	_fl_owner = this;
iveresov@1051	97	}
ysr@777	98
ysr@777	99	void** PtrQueueSet::allocate_buffer() {
ysr@777	100	assert(_sz > 0, "Didn't set a buffer size.");
iveresov@1051	101	MutexLockerEx x(_fl_owner->_fl_lock, Mutex::_no_safepoint_check_flag);
iveresov@1051	102	if (_fl_owner->_buf_free_list != NULL) {
iveresov@1546	103	void** res = BufferNode::make_buffer_from_node(_fl_owner->_buf_free_list);
iveresov@1546	104	_fl_owner->_buf_free_list = _fl_owner->_buf_free_list->next();
iveresov@1051	105	_fl_owner->_buf_free_list_sz--;
ysr@777	106	return res;
ysr@777	107	} else {
iveresov@1546	108	// Allocate space for the BufferNode in front of the buffer.
zgu@3900	109	char *b = NEW_C_HEAP_ARRAY(char, _sz + BufferNode::aligned_size(), mtGC);
iveresov@1546	110	return BufferNode::make_buffer_from_block(b);
ysr@777	111	}
ysr@777	112	}
ysr@777	113
ysr@777	114	void PtrQueueSet::deallocate_buffer(void** buf) {
ysr@777	115	assert(_sz > 0, "Didn't set a buffer size.");
iveresov@1051	116	MutexLockerEx x(_fl_owner->_fl_lock, Mutex::_no_safepoint_check_flag);
iveresov@1546	117	BufferNode *node = BufferNode::make_node_from_buffer(buf);
iveresov@1546	118	node->set_next(_fl_owner->_buf_free_list);
iveresov@1546	119	_fl_owner->_buf_free_list = node;
iveresov@1051	120	_fl_owner->_buf_free_list_sz++;
ysr@777	121	}
ysr@777	122
ysr@777	123	void PtrQueueSet::reduce_free_list() {
iveresov@1546	124	assert(_fl_owner == this, "Free list reduction is allowed only for the owner");
ysr@777	125	// For now we'll adopt the strategy of deleting half.
ysr@777	126	MutexLockerEx x(_fl_lock, Mutex::_no_safepoint_check_flag);
ysr@777	127	size_t n = _buf_free_list_sz / 2;
ysr@777	128	while (n > 0) {
ysr@777	129	assert(_buf_free_list != NULL, "_buf_free_list_sz must be wrong.");
iveresov@1546	130	void* b = BufferNode::make_block_from_node(_buf_free_list);
iveresov@1546	131	_buf_free_list = _buf_free_list->next();
zgu@3900	132	FREE_C_HEAP_ARRAY(char, b, mtGC);
johnc@1519	133	_buf_free_list_sz --;
ysr@777	134	n--;
ysr@777	135	}
ysr@777	136	}
ysr@777	137
iveresov@1546	138	void PtrQueue::handle_zero_index() {
tonyp@2469	139	assert(_index == 0, "Precondition.");
tonyp@2469	140
iveresov@1546	141	// This thread records the full buffer and allocates a new one (while
iveresov@1546	142	// holding the lock if there is one).
iveresov@1546	143	if (_buf != NULL) {
tonyp@2469	144	if (!should_enqueue_buffer()) {
tonyp@2469	145	assert(_index > 0, "the buffer can only be re-used if it's not full");
tonyp@2469	146	return;
tonyp@2469	147	}
tonyp@2469	148
iveresov@1546	149	if (_lock) {
johnc@1604	150	assert(_lock->owned_by_self(), "Required.");
johnc@1604	151
johnc@1604	152	// The current PtrQ may be the shared dirty card queue and
johnc@1604	153	// may be being manipulated by more than one worker thread
johnc@1604	154	// during a pause. Since the enqueuing of the completed
johnc@1604	155	// buffer unlocks the Shared_DirtyCardQ_lock more than one
johnc@1604	156	// worker thread can 'race' on reading the shared queue attributes
johnc@1604	157	// (_buf and _index) and multiple threads can call into this
johnc@1604	158	// routine for the same buffer. This will cause the completed
johnc@1604	159	// buffer to be added to the CBL multiple times.
johnc@1604	160
johnc@1604	161	// We "claim" the current buffer by caching value of _buf in
johnc@1604	162	// a local and clearing the field while holding _lock. When
johnc@1604	163	// _lock is released (while enqueueing the completed buffer)
johnc@1604	164	// the thread that acquires _lock will skip this code,
johnc@1604	165	// preventing the subsequent the multiple enqueue, and
johnc@1604	166	// install a newly allocated buffer below.
johnc@1604	167
johnc@1604	168	void** buf = _buf; // local pointer to completed buffer
johnc@1604	169	_buf = NULL; // clear shared _buf field
johnc@1604	170
johnc@1604	171	locking_enqueue_completed_buffer(buf); // enqueue completed buffer
johnc@1604	172
johnc@1604	173	// While the current thread was enqueuing the buffer another thread
johnc@1604	174	// may have a allocated a new buffer and inserted it into this pointer
johnc@1604	175	// queue. If that happens then we just return so that the current
johnc@1604	176	// thread doesn't overwrite the buffer allocated by the other thread
johnc@1604	177	// and potentially losing some dirtied cards.
johnc@1604	178
johnc@1604	179	if (_buf != NULL) return;
iveresov@1546	180	} else {
iveresov@1546	181	if (qset()->process_or_enqueue_complete_buffer(_buf)) {
iveresov@1546	182	// Recycle the buffer. No allocation.
iveresov@1546	183	_sz = qset()->buffer_size();
iveresov@1546	184	_index = _sz;
iveresov@1546	185	return;
iveresov@1546	186	}
iveresov@1546	187	}
iveresov@1546	188	}
iveresov@1546	189	// Reallocate the buffer
iveresov@1546	190	_buf = qset()->allocate_buffer();
iveresov@1546	191	_sz = qset()->buffer_size();
iveresov@1546	192	_index = _sz;
iveresov@1546	193	assert(0 <= _index && _index <= _sz, "Invariant.");
iveresov@1546	194	}
ysr@777	195
iveresov@1546	196	bool PtrQueueSet::process_or_enqueue_complete_buffer(void** buf) {
iveresov@1546	197	if (Thread::current()->is_Java_thread()) {
iveresov@1546	198	// We don't lock. It is fine to be epsilon-precise here.
iveresov@1546	199	if (_max_completed_queue == 0 || _max_completed_queue > 0 &&
iveresov@1546	200	_n_completed_buffers >= _max_completed_queue + _completed_queue_padding) {
iveresov@1546	201	bool b = mut_process_buffer(buf);
iveresov@1546	202	if (b) {
iveresov@1546	203	// True here means that the buffer hasn't been deallocated and the caller may reuse it.
iveresov@1546	204	return true;
iveresov@1546	205	}
iveresov@1546	206	}
iveresov@1546	207	}
iveresov@1546	208	// The buffer will be enqueued. The caller will have to get a new one.
iveresov@1546	209	enqueue_complete_buffer(buf);
iveresov@1546	210	return false;
iveresov@1546	211	}
ysr@777	212
iveresov@1546	213	void PtrQueueSet::enqueue_complete_buffer(void** buf, size_t index) {
iveresov@1546	214	MutexLockerEx x(_cbl_mon, Mutex::_no_safepoint_check_flag);
iveresov@1546	215	BufferNode* cbn = BufferNode::new_from_buffer(buf);
iveresov@1546	216	cbn->set_index(index);
ysr@777	217	if (_completed_buffers_tail == NULL) {
ysr@777	218	assert(_completed_buffers_head == NULL, "Well-formedness");
ysr@777	219	_completed_buffers_head = cbn;
ysr@777	220	_completed_buffers_tail = cbn;
ysr@777	221	} else {
iveresov@1546	222	_completed_buffers_tail->set_next(cbn);
ysr@777	223	_completed_buffers_tail = cbn;
ysr@777	224	}
ysr@777	225	_n_completed_buffers++;
ysr@777	226
iveresov@1546	227	if (!_process_completed && _process_completed_threshold >= 0 &&
iveresov@1229	228	_n_completed_buffers >= _process_completed_threshold) {
ysr@777	229	_process_completed = true;
ysr@777	230	if (_notify_when_complete)
iveresov@1546	231	_cbl_mon->notify();
ysr@777	232	}
ysr@777	233	debug_only(assert_completed_buffer_list_len_correct_locked());
ysr@777	234	}
ysr@777	235
ysr@777	236	int PtrQueueSet::completed_buffers_list_length() {
ysr@777	237	int n = 0;
iveresov@1546	238	BufferNode* cbn = _completed_buffers_head;
ysr@777	239	while (cbn != NULL) {
ysr@777	240	n++;
iveresov@1546	241	cbn = cbn->next();
ysr@777	242	}
ysr@777	243	return n;
ysr@777	244	}
ysr@777	245
ysr@777	246	void PtrQueueSet::assert_completed_buffer_list_len_correct() {
ysr@777	247	MutexLockerEx x(_cbl_mon, Mutex::_no_safepoint_check_flag);
ysr@777	248	assert_completed_buffer_list_len_correct_locked();
ysr@777	249	}
ysr@777	250
ysr@777	251	void PtrQueueSet::assert_completed_buffer_list_len_correct_locked() {
iveresov@1546	252	guarantee(completed_buffers_list_length() == _n_completed_buffers,
ysr@777	253	"Completed buffer length is wrong.");
ysr@777	254	}
ysr@777	255
ysr@777	256	void PtrQueueSet::set_buffer_size(size_t sz) {
ysr@777	257	assert(_sz == 0 && sz > 0, "Should be called only once.");
ysr@777	258	_sz = sz * oopSize;
ysr@777	259	}
ysr@777	260
iveresov@1546	261	// Merge lists of buffers. Notify the processing threads.
iveresov@1546	262	// The source queue is emptied as a result. The queues
iveresov@1051	263	// must share the monitor.
iveresov@1051	264	void PtrQueueSet::merge_bufferlists(PtrQueueSet *src) {
iveresov@1051	265	assert(_cbl_mon == src->_cbl_mon, "Should share the same lock");
iveresov@1051	266	MutexLockerEx x(_cbl_mon, Mutex::_no_safepoint_check_flag);
iveresov@1051	267	if (_completed_buffers_tail == NULL) {
iveresov@1051	268	assert(_completed_buffers_head == NULL, "Well-formedness");
iveresov@1051	269	_completed_buffers_head = src->_completed_buffers_head;
iveresov@1051	270	_completed_buffers_tail = src->_completed_buffers_tail;
iveresov@1051	271	} else {
iveresov@1051	272	assert(_completed_buffers_head != NULL, "Well formedness");
iveresov@1051	273	if (src->_completed_buffers_head != NULL) {
iveresov@1546	274	_completed_buffers_tail->set_next(src->_completed_buffers_head);
iveresov@1051	275	_completed_buffers_tail = src->_completed_buffers_tail;
iveresov@1051	276	}
iveresov@1051	277	}
iveresov@1051	278	_n_completed_buffers += src->_n_completed_buffers;
iveresov@1051	279
iveresov@1051	280	src->_n_completed_buffers = 0;
iveresov@1051	281	src->_completed_buffers_head = NULL;
iveresov@1051	282	src->_completed_buffers_tail = NULL;
iveresov@1051	283
iveresov@1051	284	assert(_completed_buffers_head == NULL && _completed_buffers_tail == NULL ||
iveresov@1051	285	_completed_buffers_head != NULL && _completed_buffers_tail != NULL,
iveresov@1051	286	"Sanity");
iveresov@1546	287	}
iveresov@1051	288
iveresov@1546	289	void PtrQueueSet::notify_if_necessary() {
iveresov@1546	290	MutexLockerEx x(_cbl_mon, Mutex::_no_safepoint_check_flag);
iveresov@1546	291	if (_n_completed_buffers >= _process_completed_threshold || _max_completed_queue == 0) {
iveresov@1051	292	_process_completed = true;
iveresov@1051	293	if (_notify_when_complete)
iveresov@1546	294	_cbl_mon->notify();
iveresov@1051	295	}
iveresov@1051	296	}