src/hotspot/share/gc/g1/g1ParScanThreadState.hpp
author kbarrett
Tue, 12 Jun 2018 18:12:59 -0400
changeset 50532 a18c60527166
parent 49911 358be4680d12
child 51292 0538a5cdb474
permissions -rw-r--r--
8204585: Remove IN_ARCHIVE_ROOT from Access API Summary: Replaced Access API with API on heap. Reviewed-by: jiangli, coleenp, tschatzl Contributed-by: stefan.karlsson@oracle.com, kim.barrett@oracle.com

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#ifndef SHARE_VM_GC_G1_G1PARSCANTHREADSTATE_HPP
#define SHARE_VM_GC_G1_G1PARSCANTHREADSTATE_HPP

#include "gc/g1/dirtyCardQueue.hpp"
#include "gc/g1/g1CardTable.hpp"
#include "gc/g1/g1CollectedHeap.hpp"
#include "gc/g1/g1OopClosures.hpp"
#include "gc/g1/g1Policy.hpp"
#include "gc/g1/g1RemSet.hpp"
#include "gc/g1/heapRegionRemSet.hpp"
#include "gc/shared/ageTable.hpp"
#include "memory/allocation.hpp"
#include "oops/oop.hpp"
#include "utilities/ticks.hpp"

class G1PLABAllocator;
class G1EvacuationRootClosures;
class HeapRegion;
class outputStream;

class G1ParScanThreadState : public CHeapObj<mtGC> {
  G1CollectedHeap* _g1h;
  RefToScanQueue*  _refs;
  DirtyCardQueue   _dcq;
  G1CardTable*     _ct;
  G1EvacuationRootClosures* _closures;

  G1PLABAllocator*  _plab_allocator;

  AgeTable          _age_table;
  InCSetState       _dest[InCSetState::Num];
  // Local tenuring threshold.
  uint              _tenuring_threshold;
  G1ScanEvacuatedObjClosure  _scanner;

  int  _hash_seed;
  uint _worker_id;

  // Upper and lower threshold to start and end work queue draining.
  uint const _stack_trim_upper_threshold;
  uint const _stack_trim_lower_threshold;

  Tickspan _trim_ticks;
  // Map from young-age-index (0 == not young, 1 is youngest) to
  // surviving words. base is what we get back from the malloc call
  size_t* _surviving_young_words_base;
  // this points into the array, as we use the first few entries for padding
  size_t* _surviving_young_words;

  // Indicates whether in the last generation (old) there is no more space
  // available for allocation.
  bool _old_gen_is_full;

#define PADDING_ELEM_NUM (DEFAULT_CACHE_LINE_SIZE / sizeof(size_t))

  DirtyCardQueue& dirty_card_queue()             { return _dcq;  }
  G1CardTable* ct()                              { return _ct; }

  InCSetState dest(InCSetState original) const {
    assert(original.is_valid(),
           "Original state invalid: " CSETSTATE_FORMAT, original.value());
    assert(_dest[original.value()].is_valid_gen(),
           "Dest state is invalid: " CSETSTATE_FORMAT, _dest[original.value()].value());
    return _dest[original.value()];
  }

public:
  G1ParScanThreadState(G1CollectedHeap* g1h, uint worker_id, size_t young_cset_length);
  virtual ~G1ParScanThreadState();

  void set_ref_discoverer(ReferenceDiscoverer* rd) { _scanner.set_ref_discoverer(rd); }

#ifdef ASSERT
  bool queue_is_empty() const { return _refs->is_empty(); }

  bool verify_ref(narrowOop* ref) const;
  bool verify_ref(oop* ref) const;
  bool verify_task(StarTask ref) const;
#endif // ASSERT

  template <class T> void do_oop_ext(T* ref);
  template <class T> void push_on_queue(T* ref);

  template <class T> void update_rs(HeapRegion* from, T* p, oop o) {
    assert(!HeapRegion::is_in_same_region(p, o), "Caller should have filtered out cross-region references already.");
    // If the field originates from the to-space, we don't need to include it
    // in the remembered set updates. Also, if we are not tracking the remembered
    // set in the destination region, do not bother either.
    if (!from->is_young() && _g1h->heap_region_containing((HeapWord*)o)->rem_set()->is_tracked()) {
      size_t card_index = ct()->index_for(p);
      // If the card hasn't been added to the buffer, do it.
      if (ct()->mark_card_deferred(card_index)) {
        dirty_card_queue().enqueue((jbyte*)ct()->byte_for_index(card_index));
      }
    }
  }

  G1EvacuationRootClosures* closures() { return _closures; }
  uint worker_id() { return _worker_id; }

  // Returns the current amount of waste due to alignment or not being able to fit
  // objects within LABs and the undo waste.
  virtual void waste(size_t& wasted, size_t& undo_wasted);

  size_t* surviving_young_words() {
    // We add one to hide entry 0 which accumulates surviving words for
    // age -1 regions (i.e. non-young ones)
    return _surviving_young_words + 1;
  }

  void flush(size_t* surviving_young_words);

private:
  #define G1_PARTIAL_ARRAY_MASK 0x2

  inline bool has_partial_array_mask(oop* ref) const {
    return ((uintptr_t)ref & G1_PARTIAL_ARRAY_MASK) == G1_PARTIAL_ARRAY_MASK;
  }

  // We never encode partial array oops as narrowOop*, so return false immediately.
  // This allows the compiler to create optimized code when popping references from
  // the work queue.
  inline bool has_partial_array_mask(narrowOop* ref) const {
    assert(((uintptr_t)ref & G1_PARTIAL_ARRAY_MASK) != G1_PARTIAL_ARRAY_MASK, "Partial array oop reference encoded as narrowOop*");
    return false;
  }

  // Only implement set_partial_array_mask() for regular oops, not for narrowOops.
  // We always encode partial arrays as regular oop, to allow the
  // specialization for has_partial_array_mask() for narrowOops above.
  // This means that unintentional use of this method with narrowOops are caught
  // by the compiler.
  inline oop* set_partial_array_mask(oop obj) const {
    assert(((uintptr_t)(void *)obj & G1_PARTIAL_ARRAY_MASK) == 0, "Information loss!");
    return (oop*) ((uintptr_t)(void *)obj | G1_PARTIAL_ARRAY_MASK);
  }

  inline oop clear_partial_array_mask(oop* ref) const {
    return cast_to_oop((intptr_t)ref & ~G1_PARTIAL_ARRAY_MASK);
  }

  inline void do_oop_partial_array(oop* p);

  // This method is applied to the fields of the objects that have just been copied.
  template <class T> inline void do_oop_evac(T* p);

  inline void deal_with_reference(oop* ref_to_scan);
  inline void deal_with_reference(narrowOop* ref_to_scan);

  inline void dispatch_reference(StarTask ref);

  // Tries to allocate word_sz in the PLAB of the next "generation" after trying to
  // allocate into dest. State is the original (source) cset state for the object
  // that is allocated for. Previous_plab_refill_failed indicates whether previously
  // a PLAB refill into "state" failed.
  // Returns a non-NULL pointer if successful, and updates dest if required.
  // Also determines whether we should continue to try to allocate into the various
  // generations or just end trying to allocate.
  HeapWord* allocate_in_next_plab(InCSetState const state,
                                  InCSetState* dest,
                                  size_t word_sz,
                                  bool previous_plab_refill_failed);

  inline InCSetState next_state(InCSetState const state, markOop const m, uint& age);

  void report_promotion_event(InCSetState const dest_state,
                              oop const old, size_t word_sz, uint age,
                              HeapWord * const obj_ptr) const;

  inline bool needs_partial_trimming() const;
  inline bool is_partially_trimmed() const;

  inline void trim_queue_to_threshold(uint threshold);
public:
  oop copy_to_survivor_space(InCSetState const state, oop const obj, markOop const old_mark);

  void trim_queue();
  void trim_queue_partially();

  Tickspan trim_ticks() const;
  void reset_trim_ticks();

  inline void steal_and_trim_queue(RefToScanQueueSet *task_queues);

  // An attempt to evacuate "obj" has failed; take necessary steps.
  oop handle_evacuation_failure_par(oop obj, markOop m);
};

class G1ParScanThreadStateSet : public StackObj {
  G1CollectedHeap* _g1h;
  G1ParScanThreadState** _states;
  size_t* _surviving_young_words_total;
  size_t _young_cset_length;
  uint _n_workers;
  bool _flushed;

 public:
  G1ParScanThreadStateSet(G1CollectedHeap* g1h, uint n_workers, size_t young_cset_length);
  ~G1ParScanThreadStateSet();

  void flush();

  G1ParScanThreadState* state_for_worker(uint worker_id);

  const size_t* surviving_young_words() const;

 private:
  G1ParScanThreadState* new_par_scan_state(uint worker_id, size_t young_cset_length);
};

#endif // SHARE_VM_GC_G1_G1PARSCANTHREADSTATE_HPP