8209189: Make CompiledMethod::do_unloading more concurrent
Reviewed-by: kvn, coleenp
/*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#include "precompiled.hpp"
#include "classfile/symbolTable.hpp"
#include "classfile/stringTable.hpp"
#include "code/codeCache.hpp"
#include "gc/shared/parallelCleaning.hpp"
#include "logging/log.hpp"
#include "memory/resourceArea.hpp"
#include "logging/log.hpp"
StringCleaningTask::StringCleaningTask(BoolObjectClosure* is_alive, StringDedupUnlinkOrOopsDoClosure* dedup_closure, bool process_strings) :
AbstractGangTask("String Unlinking"),
_is_alive(is_alive),
_dedup_closure(dedup_closure),
_par_state_string(StringTable::weak_storage()),
_initial_string_table_size((int) StringTable::the_table()->table_size()),
_process_strings(process_strings), _strings_processed(0), _strings_removed(0) {
if (process_strings) {
StringTable::reset_dead_counter();
}
}
StringCleaningTask::~StringCleaningTask() {
log_info(gc, stringtable)(
"Cleaned string table, "
"strings: " SIZE_FORMAT " processed, " SIZE_FORMAT " removed",
strings_processed(), strings_removed());
if (_process_strings) {
StringTable::finish_dead_counter();
}
}
void StringCleaningTask::work(uint worker_id) {
size_t strings_processed = 0;
size_t strings_removed = 0;
if (_process_strings) {
StringTable::possibly_parallel_unlink(&_par_state_string, _is_alive, &strings_processed, &strings_removed);
Atomic::add(strings_processed, &_strings_processed);
Atomic::add(strings_removed, &_strings_removed);
}
if (_dedup_closure != NULL) {
StringDedup::parallel_unlink(_dedup_closure, worker_id);
}
}
CodeCacheUnloadingTask::CodeCacheUnloadingTask(uint num_workers, BoolObjectClosure* is_alive, bool unloading_occurred) :
_unloading_scope(is_alive),
_unloading_occurred(unloading_occurred),
_num_workers(num_workers),
_first_nmethod(NULL),
_claimed_nmethod(NULL) {
// Get first alive nmethod
CompiledMethodIterator iter = CompiledMethodIterator();
if(iter.next_alive()) {
_first_nmethod = iter.method();
}
_claimed_nmethod = _first_nmethod;
}
CodeCacheUnloadingTask::~CodeCacheUnloadingTask() {
CodeCache::verify_clean_inline_caches();
guarantee(CodeCache::scavenge_root_nmethods() == NULL, "Must be");
CodeCache::verify_icholder_relocations();
}
Monitor* CodeCacheUnloadingTask::_lock = new Monitor(Mutex::leaf, "Code Cache Unload lock", false, Monitor::_safepoint_check_never);
void CodeCacheUnloadingTask::claim_nmethods(CompiledMethod** claimed_nmethods, int *num_claimed_nmethods) {
CompiledMethod* first;
CompiledMethodIterator last;
do {
*num_claimed_nmethods = 0;
first = _claimed_nmethod;
last = CompiledMethodIterator(first);
if (first != NULL) {
for (int i = 0; i < MaxClaimNmethods; i++) {
if (!last.next_alive()) {
break;
}
claimed_nmethods[i] = last.method();
(*num_claimed_nmethods)++;
}
}
} while (Atomic::cmpxchg(last.method(), &_claimed_nmethod, first) != first);
}
void CodeCacheUnloadingTask::work(uint worker_id) {
// The first nmethods is claimed by the first worker.
if (worker_id == 0 && _first_nmethod != NULL) {
_first_nmethod->do_unloading(_unloading_occurred);
_first_nmethod = NULL;
}
int num_claimed_nmethods;
CompiledMethod* claimed_nmethods[MaxClaimNmethods];
while (true) {
claim_nmethods(claimed_nmethods, &num_claimed_nmethods);
if (num_claimed_nmethods == 0) {
break;
}
for (int i = 0; i < num_claimed_nmethods; i++) {
claimed_nmethods[i]->do_unloading(_unloading_occurred);
}
}
}
KlassCleaningTask::KlassCleaningTask() :
_clean_klass_tree_claimed(0),
_klass_iterator() {
}
bool KlassCleaningTask::claim_clean_klass_tree_task() {
if (_clean_klass_tree_claimed) {
return false;
}
return Atomic::cmpxchg(1, &_clean_klass_tree_claimed, 0) == 0;
}
InstanceKlass* KlassCleaningTask::claim_next_klass() {
Klass* klass;
do {
klass =_klass_iterator.next_klass();
} while (klass != NULL && !klass->is_instance_klass());
// this can be null so don't call InstanceKlass::cast
return static_cast<InstanceKlass*>(klass);
}
void KlassCleaningTask::work() {
ResourceMark rm;
// One worker will clean the subklass/sibling klass tree.
if (claim_clean_klass_tree_task()) {
Klass::clean_subklass_tree();
}
// All workers will help cleaning the classes,
InstanceKlass* klass;
while ((klass = claim_next_klass()) != NULL) {
clean_klass(klass);
}
}
ParallelCleaningTask::ParallelCleaningTask(BoolObjectClosure* is_alive,
StringDedupUnlinkOrOopsDoClosure* dedup_closure, uint num_workers, bool unloading_occurred) :
AbstractGangTask("Parallel Cleaning"),
_unloading_occurred(unloading_occurred),
_string_task(is_alive, StringDedup::is_enabled() ? dedup_closure : NULL, true),
_code_cache_task(num_workers, is_alive, unloading_occurred),
_klass_cleaning_task() {
}
// The parallel work done by all worker threads.
void ParallelCleaningTask::work(uint worker_id) {
// Do first pass of code cache cleaning.
_code_cache_task.work(worker_id);
// Clean the Strings and Symbols.
_string_task.work(worker_id);
// Clean all klasses that were not unloaded.
// The weak metadata in klass doesn't need to be
// processed if there was no unloading.
if (_unloading_occurred) {
_klass_cleaning_task.work();
}
}