8051837: Remove temporary G1UseParallelRSetUpdating and G1UseParallelRSetScanning flags
Reviewed-by: stefank, tschatzl
Contributed-by: marcus.larsson@oracle.com
/*
* Copyright (c) 2014, 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 "code/nmethod.hpp"
#include "gc_implementation/g1/g1CodeCacheRemSet.hpp"
#include "memory/iterator.hpp"
PRAGMA_FORMAT_MUTE_WARNINGS_FOR_GCC
G1CodeRootChunk::G1CodeRootChunk() : _top(NULL), _next(NULL), _prev(NULL), _free(NULL) {
_top = bottom();
}
void G1CodeRootChunk::reset() {
_next = _prev = NULL;
_free = NULL;
_top = bottom();
}
void G1CodeRootChunk::nmethods_do(CodeBlobClosure* cl) {
NmethodOrLink* cur = bottom();
while (cur != _top) {
if (is_nmethod(cur)) {
cl->do_code_blob(cur->_nmethod);
}
cur++;
}
}
bool G1CodeRootChunk::remove_lock_free(nmethod* method) {
NmethodOrLink* cur = bottom();
for (NmethodOrLink* cur = bottom(); cur != _top; cur++) {
if (cur->_nmethod == method) {
bool result = Atomic::cmpxchg_ptr(NULL, &cur->_nmethod, method) == method;
if (!result) {
// Someone else cleared out this entry.
return false;
}
// The method was cleared. Time to link it into the free list.
NmethodOrLink* prev_free;
do {
prev_free = (NmethodOrLink*)_free;
cur->_link = prev_free;
} while (Atomic::cmpxchg_ptr(cur, &_free, prev_free) != prev_free);
return true;
}
}
return false;
}
G1CodeRootChunkManager::G1CodeRootChunkManager() : _free_list(), _num_chunks_handed_out(0) {
_free_list.initialize();
_free_list.set_size(G1CodeRootChunk::word_size());
}
size_t G1CodeRootChunkManager::fl_mem_size() {
return _free_list.count() * _free_list.size();
}
void G1CodeRootChunkManager::free_all_chunks(FreeList<G1CodeRootChunk>* list) {
_num_chunks_handed_out -= list->count();
_free_list.prepend(list);
}
void G1CodeRootChunkManager::free_chunk(G1CodeRootChunk* chunk) {
_free_list.return_chunk_at_head(chunk);
_num_chunks_handed_out--;
}
void G1CodeRootChunkManager::purge_chunks(size_t keep_ratio) {
size_t keep = _num_chunks_handed_out * keep_ratio / 100;
if (keep >= (size_t)_free_list.count()) {
return;
}
FreeList<G1CodeRootChunk> temp;
temp.initialize();
temp.set_size(G1CodeRootChunk::word_size());
_free_list.getFirstNChunksFromList((size_t)_free_list.count() - keep, &temp);
G1CodeRootChunk* cur = temp.get_chunk_at_head();
while (cur != NULL) {
delete cur;
cur = temp.get_chunk_at_head();
}
}
size_t G1CodeRootChunkManager::static_mem_size() {
return sizeof(G1CodeRootChunkManager);
}
G1CodeRootChunk* G1CodeRootChunkManager::new_chunk() {
G1CodeRootChunk* result = _free_list.get_chunk_at_head();
if (result == NULL) {
result = new G1CodeRootChunk();
}
_num_chunks_handed_out++;
result->reset();
return result;
}
#ifndef PRODUCT
size_t G1CodeRootChunkManager::num_chunks_handed_out() const {
return _num_chunks_handed_out;
}
size_t G1CodeRootChunkManager::num_free_chunks() const {
return (size_t)_free_list.count();
}
#endif
G1CodeRootChunkManager G1CodeRootSet::_default_chunk_manager;
void G1CodeRootSet::purge_chunks(size_t keep_ratio) {
_default_chunk_manager.purge_chunks(keep_ratio);
}
size_t G1CodeRootSet::free_chunks_static_mem_size() {
return _default_chunk_manager.static_mem_size();
}
size_t G1CodeRootSet::free_chunks_mem_size() {
return _default_chunk_manager.fl_mem_size();
}
G1CodeRootSet::G1CodeRootSet(G1CodeRootChunkManager* manager) : _manager(manager), _list(), _length(0) {
if (_manager == NULL) {
_manager = &_default_chunk_manager;
}
_list.initialize();
_list.set_size(G1CodeRootChunk::word_size());
}
G1CodeRootSet::~G1CodeRootSet() {
clear();
}
void G1CodeRootSet::add(nmethod* method) {
if (!contains(method)) {
// Find the first chunk that isn't full.
G1CodeRootChunk* cur = _list.head();
while (cur != NULL) {
if (!cur->is_full()) {
break;
}
cur = cur->next();
}
// All chunks are full, get a new chunk.
if (cur == NULL) {
cur = new_chunk();
_list.return_chunk_at_head(cur);
}
// Add the nmethod.
bool result = cur->add(method);
guarantee(result, err_msg("Not able to add nmethod "PTR_FORMAT" to newly allocated chunk.", method));
_length++;
}
}
void G1CodeRootSet::remove_lock_free(nmethod* method) {
G1CodeRootChunk* found = find(method);
if (found != NULL) {
bool result = found->remove_lock_free(method);
if (result) {
Atomic::dec_ptr((volatile intptr_t*)&_length);
}
}
assert(!contains(method), err_msg(PTR_FORMAT" still contains nmethod "PTR_FORMAT, this, method));
}
nmethod* G1CodeRootSet::pop() {
while (true) {
G1CodeRootChunk* cur = _list.head();
if (cur == NULL) {
assert(_length == 0, "when there are no chunks, there should be no elements");
return NULL;
}
nmethod* result = cur->pop();
if (result != NULL) {
_length--;
return result;
} else {
free(_list.get_chunk_at_head());
}
}
}
G1CodeRootChunk* G1CodeRootSet::find(nmethod* method) {
G1CodeRootChunk* cur = _list.head();
while (cur != NULL) {
if (cur->contains(method)) {
return cur;
}
cur = (G1CodeRootChunk*)cur->next();
}
return NULL;
}
void G1CodeRootSet::free(G1CodeRootChunk* chunk) {
free_chunk(chunk);
}
bool G1CodeRootSet::contains(nmethod* method) {
return find(method) != NULL;
}
void G1CodeRootSet::clear() {
free_all_chunks(&_list);
_length = 0;
}
void G1CodeRootSet::nmethods_do(CodeBlobClosure* blk) const {
G1CodeRootChunk* cur = _list.head();
while (cur != NULL) {
cur->nmethods_do(blk);
cur = (G1CodeRootChunk*)cur->next();
}
}
size_t G1CodeRootSet::static_mem_size() {
return sizeof(G1CodeRootSet);
}
size_t G1CodeRootSet::mem_size() {
return G1CodeRootSet::static_mem_size() + _list.count() * _list.size();
}
#ifndef PRODUCT
void G1CodeRootSet::test() {
G1CodeRootChunkManager mgr;
assert(mgr.num_chunks_handed_out() == 0, "Must not have handed out chunks yet");
assert(G1CodeRootChunkManager::static_mem_size() > sizeof(void*),
err_msg("The chunk manager's static memory usage seems too small, is only "SIZE_FORMAT" bytes.", G1CodeRootChunkManager::static_mem_size()));
// The number of chunks that we allocate for purge testing.
size_t const num_chunks = 10;
{
G1CodeRootSet set1(&mgr);
assert(set1.is_empty(), "Code root set must be initially empty but is not.");
assert(G1CodeRootSet::static_mem_size() > sizeof(void*),
err_msg("The code root set's static memory usage seems too small, is only "SIZE_FORMAT" bytes", G1CodeRootSet::static_mem_size()));
set1.add((nmethod*)1);
assert(mgr.num_chunks_handed_out() == 1,
err_msg("Must have allocated and handed out one chunk, but handed out "
SIZE_FORMAT" chunks", mgr.num_chunks_handed_out()));
assert(set1.length() == 1, err_msg("Added exactly one element, but set contains "
SIZE_FORMAT" elements", set1.length()));
// G1CodeRootChunk::word_size() is larger than G1CodeRootChunk::num_entries which
// we cannot access.
for (uint i = 0; i < G1CodeRootChunk::word_size() + 1; i++) {
set1.add((nmethod*)1);
}
assert(mgr.num_chunks_handed_out() == 1,
err_msg("Duplicate detection must have prevented allocation of further "
"chunks but allocated "SIZE_FORMAT, mgr.num_chunks_handed_out()));
assert(set1.length() == 1,
err_msg("Duplicate detection should not have increased the set size but "
"is "SIZE_FORMAT, set1.length()));
size_t num_total_after_add = G1CodeRootChunk::word_size() + 1;
for (size_t i = 0; i < num_total_after_add - 1; i++) {
set1.add((nmethod*)(uintptr_t)(2 + i));
}
assert(mgr.num_chunks_handed_out() > 1,
"After adding more code roots, more than one additional chunk should have been handed out");
assert(set1.length() == num_total_after_add,
err_msg("After adding in total "SIZE_FORMAT" distinct code roots, they "
"need to be in the set, but there are only "SIZE_FORMAT,
num_total_after_add, set1.length()));
size_t num_popped = 0;
while (set1.pop() != NULL) {
num_popped++;
}
assert(num_popped == num_total_after_add,
err_msg("Managed to pop "SIZE_FORMAT" code roots, but only "SIZE_FORMAT" "
"were added", num_popped, num_total_after_add));
assert(mgr.num_chunks_handed_out() == 0,
err_msg("After popping all elements, all chunks must have been returned "
"but there are still "SIZE_FORMAT" additional", mgr.num_chunks_handed_out()));
mgr.purge_chunks(0);
assert(mgr.num_free_chunks() == 0,
err_msg("After purging everything, the free list must be empty but still "
"contains "SIZE_FORMAT" chunks", mgr.num_free_chunks()));
// Add some more handed out chunks.
size_t i = 0;
while (mgr.num_chunks_handed_out() < num_chunks) {
set1.add((nmethod*)i);
i++;
}
{
// Generate chunks on the free list.
G1CodeRootSet set2(&mgr);
size_t i = 0;
while (mgr.num_chunks_handed_out() < (num_chunks * 2)) {
set2.add((nmethod*)i);
i++;
}
// Exit of the scope of the set2 object will call the destructor that generates
// num_chunks elements on the free list.
}
assert(mgr.num_chunks_handed_out() == num_chunks,
err_msg("Deletion of the second set must have resulted in giving back "
"those, but there are still "SIZE_FORMAT" additional handed out, expecting "
SIZE_FORMAT, mgr.num_chunks_handed_out(), num_chunks));
assert(mgr.num_free_chunks() == num_chunks,
err_msg("After freeing "SIZE_FORMAT" chunks, they must be on the free list "
"but there are only "SIZE_FORMAT, num_chunks, mgr.num_free_chunks()));
size_t const test_percentage = 50;
mgr.purge_chunks(test_percentage);
assert(mgr.num_chunks_handed_out() == num_chunks,
err_msg("Purging must not hand out chunks but there are "SIZE_FORMAT,
mgr.num_chunks_handed_out()));
assert(mgr.num_free_chunks() == (size_t)(mgr.num_chunks_handed_out() * test_percentage / 100),
err_msg("Must have purged "SIZE_FORMAT" percent of "SIZE_FORMAT" chunks"
"but there are "SIZE_FORMAT, test_percentage, num_chunks,
mgr.num_free_chunks()));
// Purge the remainder of the chunks on the free list.
mgr.purge_chunks(0);
assert(mgr.num_free_chunks() == 0, "Free List must be empty");
assert(mgr.num_chunks_handed_out() == num_chunks,
err_msg("Expected to be "SIZE_FORMAT" chunks handed out from the first set "
"but there are "SIZE_FORMAT, num_chunks, mgr.num_chunks_handed_out()));
// Exit of the scope of the set1 object will call the destructor that generates
// num_chunks additional elements on the free list.
}
assert(mgr.num_chunks_handed_out() == 0,
err_msg("Deletion of the only set must have resulted in no chunks handed "
"out, but there is still "SIZE_FORMAT" handed out", mgr.num_chunks_handed_out()));
assert(mgr.num_free_chunks() == num_chunks,
err_msg("After freeing "SIZE_FORMAT" chunks, they must be on the free list "
"but there are only "SIZE_FORMAT, num_chunks, mgr.num_free_chunks()));
// Restore initial state.
mgr.purge_chunks(0);
assert(mgr.num_free_chunks() == 0, "Free List must be empty");
assert(mgr.num_chunks_handed_out() == 0, "No additional elements must have been handed out yet");
}
void TestCodeCacheRemSet_test() {
G1CodeRootSet::test();
}
#endif