7176479: G1: JVM crashes on T5-8 system with 1.5 TB heap
Summary: Refactor G1's hot card cache and card counts table into their own files. Simplify the card counts table, including removing the encoding of the card index in each entry. The card counts table now has a 1:1 correspondence with the cards spanned by heap. Space for the card counts table is reserved from virtual memory (rather than C heap) during JVM startup and is committed/expanded when the heap is expanded. Changes were also reviewed-by Vitaly Davidovich.
Reviewed-by: tschatzl, jmasa
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#include "precompiled.hpp"
#include "gc_implementation/g1/concurrentG1Refine.hpp"
#include "gc_implementation/g1/concurrentG1RefineThread.hpp"
#include "gc_implementation/g1/g1CollectedHeap.inline.hpp"
#include "gc_implementation/g1/g1HotCardCache.hpp"
ConcurrentG1Refine::ConcurrentG1Refine(G1CollectedHeap* g1h) :
_threads(NULL), _n_threads(0),
_hot_card_cache(g1h)
{
// Ergomonically select initial concurrent refinement parameters
if (FLAG_IS_DEFAULT(G1ConcRefinementGreenZone)) {
FLAG_SET_DEFAULT(G1ConcRefinementGreenZone, MAX2<int>(ParallelGCThreads, 1));
}
set_green_zone(G1ConcRefinementGreenZone);
if (FLAG_IS_DEFAULT(G1ConcRefinementYellowZone)) {
FLAG_SET_DEFAULT(G1ConcRefinementYellowZone, green_zone() * 3);
}
set_yellow_zone(MAX2<int>(G1ConcRefinementYellowZone, green_zone()));
if (FLAG_IS_DEFAULT(G1ConcRefinementRedZone)) {
FLAG_SET_DEFAULT(G1ConcRefinementRedZone, yellow_zone() * 2);
}
set_red_zone(MAX2<int>(G1ConcRefinementRedZone, yellow_zone()));
_n_worker_threads = thread_num();
// We need one extra thread to do the young gen rset size sampling.
_n_threads = _n_worker_threads + 1;
reset_threshold_step();
_threads = NEW_C_HEAP_ARRAY(ConcurrentG1RefineThread*, _n_threads, mtGC);
int worker_id_offset = (int)DirtyCardQueueSet::num_par_ids();
ConcurrentG1RefineThread *next = NULL;
for (int i = _n_threads - 1; i >= 0; i--) {
ConcurrentG1RefineThread* t = new ConcurrentG1RefineThread(this, next, worker_id_offset, i);
assert(t != NULL, "Conc refine should have been created");
assert(t->cg1r() == this, "Conc refine thread should refer to this");
_threads[i] = t;
next = t;
}
}
void ConcurrentG1Refine::reset_threshold_step() {
if (FLAG_IS_DEFAULT(G1ConcRefinementThresholdStep)) {
_thread_threshold_step = (yellow_zone() - green_zone()) / (worker_thread_num() + 1);
} else {
_thread_threshold_step = G1ConcRefinementThresholdStep;
}
}
void ConcurrentG1Refine::init() {
_hot_card_cache.initialize();
}
void ConcurrentG1Refine::stop() {
if (_threads != NULL) {
for (int i = 0; i < _n_threads; i++) {
_threads[i]->stop();
}
}
}
void ConcurrentG1Refine::reinitialize_threads() {
reset_threshold_step();
if (_threads != NULL) {
for (int i = 0; i < _n_threads; i++) {
_threads[i]->initialize();
}
}
}
ConcurrentG1Refine::~ConcurrentG1Refine() {
if (_threads != NULL) {
for (int i = 0; i < _n_threads; i++) {
delete _threads[i];
}
FREE_C_HEAP_ARRAY(ConcurrentG1RefineThread*, _threads, mtGC);
}
}
void ConcurrentG1Refine::threads_do(ThreadClosure *tc) {
if (_threads != NULL) {
for (int i = 0; i < _n_threads; i++) {
tc->do_thread(_threads[i]);
}
}
}
int ConcurrentG1Refine::thread_num() {
int n_threads = (G1ConcRefinementThreads > 0) ? G1ConcRefinementThreads
: ParallelGCThreads;
return MAX2<int>(n_threads, 1);
}
void ConcurrentG1Refine::print_worker_threads_on(outputStream* st) const {
for (int i = 0; i < _n_threads; ++i) {
_threads[i]->print_on(st);
st->cr();
}
}