8195142: Refactor out card table from CardTableModRefBS to flatten the BarrierSet hierarchy
Reviewed-by: stefank, coleenp, kvn, ehelin
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#ifndef SHARE_VM_GC_G1_G1REMSET_HPP
#define SHARE_VM_GC_G1_G1REMSET_HPP
#include "gc/g1/dirtyCardQueue.hpp"
#include "gc/g1/g1CardLiveData.hpp"
#include "gc/g1/g1CardTable.hpp"
#include "gc/g1/g1RemSetSummary.hpp"
#include "gc/g1/heapRegion.hpp"
#include "memory/allocation.hpp"
#include "memory/iterator.hpp"
// A G1RemSet provides ways of iterating over pointers into a selected
// collection set.
class BitMap;
class CardTableModRefBS;
class G1BlockOffsetTable;
class CodeBlobClosure;
class G1CollectedHeap;
class G1HotCardCache;
class G1RemSetScanState;
class G1ParScanThreadState;
class G1Policy;
class G1SATBCardTableModRefBS;
class G1ScanObjsDuringScanRSClosure;
class G1ScanObjsDuringUpdateRSClosure;
class HeapRegionClaimer;
// A G1RemSet in which each heap region has a rem set that records the
// external heap references into it. Uses a mod ref bs to track updates,
// so that they can be used to update the individual region remsets.
class G1RemSet: public CHeapObj<mtGC> {
private:
G1RemSetScanState* _scan_state;
G1CardLiveData _card_live_data;
G1RemSetSummary _prev_period_summary;
// Scan all remembered sets of the collection set for references into the collection
// set.
void scan_rem_set(G1ParScanThreadState* pss,
CodeBlobClosure* heap_region_codeblobs,
uint worker_i);
// Flush remaining refinement buffers for cross-region references to either evacuate references
// into the collection set or update the remembered set.
void update_rem_set(G1ParScanThreadState* pss, uint worker_i);
G1CollectedHeap* _g1;
size_t _num_conc_refined_cards; // Number of cards refined concurrently to the mutator.
G1CardTable* _ct;
G1Policy* _g1p;
G1HotCardCache* _hot_card_cache;
public:
// Gives an approximation on how many threads can be expected to add records to
// a remembered set in parallel. This can be used for sizing data structures to
// decrease performance losses due to data structure sharing.
// Examples for quantities that influence this value are the maximum number of
// mutator threads, maximum number of concurrent refinement or GC threads.
static uint num_par_rem_sets();
// Initialize data that depends on the heap size being known.
void initialize(size_t capacity, uint max_regions);
// This is called to reset dual hash tables after the gc pause
// is finished and the initial hash table is no longer being
// scanned.
void cleanupHRRS();
G1RemSet(G1CollectedHeap* g1,
G1CardTable* ct,
G1HotCardCache* hot_card_cache);
~G1RemSet();
// Process all oops in the collection set from the cards in the refinement buffers and
// remembered sets using pss.
//
// Further applies heap_region_codeblobs on the oops of the unmarked nmethods on the strong code
// roots list for each region in the collection set.
void oops_into_collection_set_do(G1ParScanThreadState* pss,
CodeBlobClosure* heap_region_codeblobs,
uint worker_i);
// Prepare for and cleanup after an oops_into_collection_set_do
// call. Must call each of these once before and after (in sequential
// code) any thread calls oops_into_collection_set_do.
void prepare_for_oops_into_collection_set_do();
void cleanup_after_oops_into_collection_set_do();
G1RemSetScanState* scan_state() const { return _scan_state; }
// Eliminates any remembered set entries that correspond to dead heap ranges.
void scrub(uint worker_num, HeapRegionClaimer* hrclaimer);
// Refine the card corresponding to "card_ptr". Safe to be called concurrently
// to the mutator.
void refine_card_concurrently(jbyte* card_ptr,
uint worker_i);
// Refine the card corresponding to "card_ptr", applying the given closure to
// all references found. Must only be called during gc.
// Returns whether the card has been scanned.
bool refine_card_during_gc(jbyte* card_ptr, G1ScanObjsDuringUpdateRSClosure* update_rs_cl);
// Print accumulated summary info from the start of the VM.
void print_summary_info();
// Print accumulated summary info from the last time called.
void print_periodic_summary_info(const char* header, uint period_count);
size_t num_conc_refined_cards() const { return _num_conc_refined_cards; }
void create_card_live_data(WorkGang* workers, G1CMBitMap* mark_bitmap);
void finalize_card_live_data(WorkGang* workers, G1CMBitMap* mark_bitmap);
// Verify that the liveness count data created concurrently matches one created
// during this safepoint.
void verify_card_live_data(WorkGang* workers, G1CMBitMap* actual_bitmap);
void clear_card_live_data(WorkGang* workers);
#ifdef ASSERT
void verify_card_live_data_is_clear();
#endif
};
class G1ScanRSForRegionClosure : public HeapRegionClosure {
G1RemSetScanState* _scan_state;
size_t _cards_scanned;
size_t _cards_claimed;
size_t _cards_skipped;
G1CollectedHeap* _g1h;
G1ScanObjsDuringScanRSClosure* _scan_objs_on_card_cl;
CodeBlobClosure* _code_root_cl;
G1BlockOffsetTable* _bot;
G1CardTable *_ct;
double _strong_code_root_scan_time_sec;
uint _worker_i;
void claim_card(size_t card_index, const uint region_idx_for_card);
void scan_card(MemRegion mr, uint region_idx_for_card);
void scan_strong_code_roots(HeapRegion* r);
public:
G1ScanRSForRegionClosure(G1RemSetScanState* scan_state,
G1ScanObjsDuringScanRSClosure* scan_obj_on_card,
CodeBlobClosure* code_root_cl,
uint worker_i);
bool do_heap_region(HeapRegion* r);
double strong_code_root_scan_time_sec() {
return _strong_code_root_scan_time_sec;
}
size_t cards_scanned() const { return _cards_scanned; }
size_t cards_claimed() const { return _cards_claimed; }
size_t cards_skipped() const { return _cards_skipped; }
};
#endif // SHARE_VM_GC_G1_G1REMSET_HPP