6995781: Native Memory Tracking (Phase 1)
7151532: DCmd for hotspot native memory tracking
Summary: Implementation of native memory tracking phase 1, which tracks VM native memory usage, and related DCmd
Reviewed-by: acorn, coleenp, fparain
/*
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#ifndef SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONREMSET_HPP
#define SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONREMSET_HPP
#include "gc_implementation/g1/sparsePRT.hpp"
// Remembered set for a heap region. Represent a set of "cards" that
// contain pointers into the owner heap region. Cards are defined somewhat
// abstractly, in terms of what the "BlockOffsetTable" in use can parse.
class G1CollectedHeap;
class G1BlockOffsetSharedArray;
class HeapRegion;
class HeapRegionRemSetIterator;
class PosParPRT;
class SparsePRT;
// Essentially a wrapper around SparsePRTCleanupTask. See
// sparsePRT.hpp for more details.
class HRRSCleanupTask : public SparsePRTCleanupTask {
};
// The "_coarse_map" is a bitmap with one bit for each region, where set
// bits indicate that the corresponding region may contain some pointer
// into the owning region.
// The "_fine_grain_entries" array is an open hash table of PerRegionTables
// (PRTs), indicating regions for which we're keeping the RS as a set of
// cards. The strategy is to cap the size of the fine-grain table,
// deleting an entry and setting the corresponding coarse-grained bit when
// we would overflow this cap.
// We use a mixture of locking and lock-free techniques here. We allow
// threads to locate PRTs without locking, but threads attempting to alter
// a bucket list obtain a lock. This means that any failing attempt to
// find a PRT must be retried with the lock. It might seem dangerous that
// a read can find a PRT that is concurrently deleted. This is all right,
// because:
//
// 1) We only actually free PRT's at safe points (though we reuse them at
// other times).
// 2) We find PRT's in an attempt to add entries. If a PRT is deleted,
// it's _coarse_map bit is set, so the that we were attempting to add
// is represented. If a deleted PRT is re-used, a thread adding a bit,
// thinking the PRT is for a different region, does no harm.
class OtherRegionsTable VALUE_OBJ_CLASS_SPEC {
friend class HeapRegionRemSetIterator;
G1CollectedHeap* _g1h;
Mutex _m;
HeapRegion* _hr;
// These are protected by "_m".
BitMap _coarse_map;
size_t _n_coarse_entries;
static jint _n_coarsenings;
PosParPRT** _fine_grain_regions;
size_t _n_fine_entries;
#define SAMPLE_FOR_EVICTION 1
#if SAMPLE_FOR_EVICTION
size_t _fine_eviction_start;
static size_t _fine_eviction_stride;
static size_t _fine_eviction_sample_size;
#endif
SparsePRT _sparse_table;
// These are static after init.
static size_t _max_fine_entries;
static size_t _mod_max_fine_entries_mask;
// Requires "prt" to be the first element of the bucket list appropriate
// for "hr". If this list contains an entry for "hr", return it,
// otherwise return "NULL".
PosParPRT* find_region_table(size_t ind, HeapRegion* hr) const;
// Find, delete, and return a candidate PosParPRT, if any exists,
// adding the deleted region to the coarse bitmap. Requires the caller
// to hold _m, and the fine-grain table to be full.
PosParPRT* delete_region_table();
// If a PRT for "hr" is in the bucket list indicated by "ind" (which must
// be the correct index for "hr"), delete it and return true; else return
// false.
bool del_single_region_table(size_t ind, HeapRegion* hr);
static jint _cache_probes;
static jint _cache_hits;
// Indexed by thread X heap region, to minimize thread contention.
static int** _from_card_cache;
static size_t _from_card_cache_max_regions;
static size_t _from_card_cache_mem_size;
public:
OtherRegionsTable(HeapRegion* hr);
HeapRegion* hr() const { return _hr; }
// For now. Could "expand" some tables in the future, so that this made
// sense.
void add_reference(OopOrNarrowOopStar from, int tid);
void add_reference(OopOrNarrowOopStar from) {
return add_reference(from, 0);
}
// Removes any entries shown by the given bitmaps to contain only dead
// objects.
void scrub(CardTableModRefBS* ctbs, BitMap* region_bm, BitMap* card_bm);
// Not const because it takes a lock.
size_t occupied() const;
size_t occ_fine() const;
size_t occ_coarse() const;
size_t occ_sparse() const;
static jint n_coarsenings() { return _n_coarsenings; }
// Returns size in bytes.
// Not const because it takes a lock.
size_t mem_size() const;
static size_t static_mem_size();
static size_t fl_mem_size();
bool contains_reference(OopOrNarrowOopStar from) const;
bool contains_reference_locked(OopOrNarrowOopStar from) const;
void clear();
// Specifically clear the from_card_cache.
void clear_fcc();
// "from_hr" is being cleared; remove any entries from it.
void clear_incoming_entry(HeapRegion* from_hr);
void do_cleanup_work(HRRSCleanupTask* hrrs_cleanup_task);
// Declare the heap size (in # of regions) to the OtherRegionsTable.
// (Uses it to initialize from_card_cache).
static void init_from_card_cache(size_t max_regions);
// Declares that only regions i s.t. 0 <= i < new_n_regs are in use.
// Make sure any entries for higher regions are invalid.
static void shrink_from_card_cache(size_t new_n_regs);
static void print_from_card_cache();
};
class HeapRegionRemSet : public CHeapObj<mtGC> {
friend class VMStructs;
friend class HeapRegionRemSetIterator;
public:
enum Event {
Event_EvacStart, Event_EvacEnd, Event_RSUpdateEnd
};
private:
G1BlockOffsetSharedArray* _bosa;
G1BlockOffsetSharedArray* bosa() const { return _bosa; }
OtherRegionsTable _other_regions;
enum ParIterState { Unclaimed, Claimed, Complete };
volatile ParIterState _iter_state;
volatile jlong _iter_claimed;
// Unused unless G1RecordHRRSOops is true.
static const int MaxRecorded = 1000000;
static OopOrNarrowOopStar* _recorded_oops;
static HeapWord** _recorded_cards;
static HeapRegion** _recorded_regions;
static int _n_recorded;
static const int MaxRecordedEvents = 1000;
static Event* _recorded_events;
static int* _recorded_event_index;
static int _n_recorded_events;
static void print_event(outputStream* str, Event evnt);
public:
HeapRegionRemSet(G1BlockOffsetSharedArray* bosa,
HeapRegion* hr);
static int num_par_rem_sets();
static void setup_remset_size();
HeapRegion* hr() const {
return _other_regions.hr();
}
size_t occupied() const {
return _other_regions.occupied();
}
size_t occ_fine() const {
return _other_regions.occ_fine();
}
size_t occ_coarse() const {
return _other_regions.occ_coarse();
}
size_t occ_sparse() const {
return _other_regions.occ_sparse();
}
static jint n_coarsenings() { return OtherRegionsTable::n_coarsenings(); }
/* Used in the sequential case. Returns "true" iff this addition causes
the size limit to be reached. */
void add_reference(OopOrNarrowOopStar from) {
_other_regions.add_reference(from);
}
/* Used in the parallel case. Returns "true" iff this addition causes
the size limit to be reached. */
void add_reference(OopOrNarrowOopStar from, int tid) {
_other_regions.add_reference(from, tid);
}
// Removes any entries shown by the given bitmaps to contain only dead
// objects.
void scrub(CardTableModRefBS* ctbs, BitMap* region_bm, BitMap* card_bm);
// The region is being reclaimed; clear its remset, and any mention of
// entries for this region in other remsets.
void clear();
// Forget any entries due to pointers from "from_hr".
void clear_incoming_entry(HeapRegion* from_hr) {
_other_regions.clear_incoming_entry(from_hr);
}
#if 0
virtual void cleanup() = 0;
#endif
// Attempt to claim the region. Returns true iff this call caused an
// atomic transition from Unclaimed to Claimed.
bool claim_iter();
// Sets the iteration state to "complete".
void set_iter_complete();
// Returns "true" iff the region's iteration is complete.
bool iter_is_complete();
// Support for claiming blocks of cards during iteration
size_t iter_claimed() const { return (size_t)_iter_claimed; }
// Claim the next block of cards
size_t iter_claimed_next(size_t step) {
size_t current, next;
do {
current = iter_claimed();
next = current + step;
} while (Atomic::cmpxchg((jlong)next, &_iter_claimed, (jlong)current) != (jlong)current);
return current;
}
void reset_for_par_iteration();
bool verify_ready_for_par_iteration() {
return (_iter_state == Unclaimed) && (_iter_claimed == 0);
}
// Initialize the given iterator to iterate over this rem set.
void init_iterator(HeapRegionRemSetIterator* iter) const;
#if 0
// Apply the "do_card" method to the start address of every card in the
// rem set. Returns false if some application of the closure aborted.
virtual bool card_iterate(CardClosure* iter) = 0;
#endif
// The actual # of bytes this hr_remset takes up.
size_t mem_size() {
return _other_regions.mem_size()
// This correction is necessary because the above includes the second
// part.
+ sizeof(this) - sizeof(OtherRegionsTable);
}
// Returns the memory occupancy of all static data structures associated
// with remembered sets.
static size_t static_mem_size() {
return OtherRegionsTable::static_mem_size();
}
// Returns the memory occupancy of all free_list data structures associated
// with remembered sets.
static size_t fl_mem_size() {
return OtherRegionsTable::fl_mem_size();
}
bool contains_reference(OopOrNarrowOopStar from) const {
return _other_regions.contains_reference(from);
}
void print() const;
// Called during a stop-world phase to perform any deferred cleanups.
// The second version may be called by parallel threads after then finish
// collection work.
static void cleanup();
static void par_cleanup();
// Declare the heap size (in # of regions) to the HeapRegionRemSet(s).
// (Uses it to initialize from_card_cache).
static void init_heap(uint max_regions) {
OtherRegionsTable::init_from_card_cache((size_t) max_regions);
}
// Declares that only regions i s.t. 0 <= i < new_n_regs are in use.
static void shrink_heap(uint new_n_regs) {
OtherRegionsTable::shrink_from_card_cache((size_t) new_n_regs);
}
#ifndef PRODUCT
static void print_from_card_cache() {
OtherRegionsTable::print_from_card_cache();
}
#endif
static void record(HeapRegion* hr, OopOrNarrowOopStar f);
static void print_recorded();
static void record_event(Event evnt);
// These are wrappers for the similarly-named methods on
// SparsePRT. Look at sparsePRT.hpp for more details.
static void reset_for_cleanup_tasks();
void do_cleanup_work(HRRSCleanupTask* hrrs_cleanup_task);
static void finish_cleanup_task(HRRSCleanupTask* hrrs_cleanup_task);
// Run unit tests.
#ifndef PRODUCT
static void test();
#endif
};
class HeapRegionRemSetIterator : public CHeapObj<mtGC> {
// The region over which we're iterating.
const HeapRegionRemSet* _hrrs;
// Local caching of HRRS fields.
const BitMap* _coarse_map;
PosParPRT** _fine_grain_regions;
G1BlockOffsetSharedArray* _bosa;
G1CollectedHeap* _g1h;
// The number yielded since initialization.
size_t _n_yielded_fine;
size_t _n_yielded_coarse;
size_t _n_yielded_sparse;
// If true we're iterating over the coarse table; if false the fine
// table.
enum IterState {
Sparse,
Fine,
Coarse
};
IterState _is;
// In both kinds of iteration, heap offset of first card of current
// region.
size_t _cur_region_card_offset;
// Card offset within cur region.
size_t _cur_region_cur_card;
// Coarse table iteration fields:
// Current region index;
int _coarse_cur_region_index;
size_t _coarse_cur_region_cur_card;
bool coarse_has_next(size_t& card_index);
// Fine table iteration fields:
// Index of bucket-list we're working on.
int _fine_array_index;
// Per Region Table we're doing within current bucket list.
PosParPRT* _fine_cur_prt;
/* SparsePRT::*/ SparsePRTIter _sparse_iter;
void fine_find_next_non_null_prt();
bool fine_has_next();
bool fine_has_next(size_t& card_index);
public:
// We require an iterator to be initialized before use, so the
// constructor does little.
HeapRegionRemSetIterator();
void initialize(const HeapRegionRemSet* hrrs);
// If there remains one or more cards to be yielded, returns true and
// sets "card_index" to one of those cards (which is then considered
// yielded.) Otherwise, returns false (and leaves "card_index"
// undefined.)
bool has_next(size_t& card_index);
size_t n_yielded_fine() { return _n_yielded_fine; }
size_t n_yielded_coarse() { return _n_yielded_coarse; }
size_t n_yielded_sparse() { return _n_yielded_sparse; }
size_t n_yielded() {
return n_yielded_fine() + n_yielded_coarse() + n_yielded_sparse();
}
};
#if 0
class CardClosure: public Closure {
public:
virtual void do_card(HeapWord* card_start) = 0;
};
#endif
#endif // SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONREMSET_HPP