view src/share/vm/gc_implementation/parallelScavenge/psScavenge.hpp @ 7862:ad8ac65b4d77

8066771: Refactor VM GC operations caused by allocation failure Reviewed-by: brutisso, jmasa
author mlarsson
date Fri, 13 Feb 2015 10:31:52 +0100
parents f2110083203d
children 015fac83707e
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 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.
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 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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 * questions.


#include "gc_implementation/parallelScavenge/cardTableExtension.hpp"
#include "gc_implementation/parallelScavenge/psVirtualspace.hpp"
#include "gc_implementation/shared/collectorCounters.hpp"
#include "gc_implementation/shared/gcTrace.hpp"
#include "memory/allocation.hpp"
#include "oops/oop.hpp"
#include "utilities/stack.hpp"

class GCTaskManager;
class GCTaskQueue;
class OopStack;
class ReferenceProcessor;
class ParallelScavengeHeap;
class ParallelScavengeTracer;
class PSIsAliveClosure;
class PSRefProcTaskExecutor;
class STWGCTimer;

class PSScavenge: AllStatic {
  friend class PSIsAliveClosure;
  friend class PSKeepAliveClosure;
  friend class PSPromotionManager;

 enum ScavengeSkippedCause {
   not_skipped = 0,

  // Saved value of to_space->top(), used to prevent objects in to_space from
  // being rescanned.
  static HeapWord* _to_space_top_before_gc;

  // Number of consecutive attempts to scavenge that were skipped
  static int                _consecutive_skipped_scavenges;

  // Flags/counters
  static ReferenceProcessor*  _ref_processor;        // Reference processor for scavenging.
  static PSIsAliveClosure     _is_alive_closure;     // Closure used for reference processing
  static CardTableExtension*  _card_table;           // We cache the card table for fast access.
  static bool                 _survivor_overflow;    // Overflow this collection
  static uint                 _tenuring_threshold;   // tenuring threshold for next scavenge
  static elapsedTimer         _accumulated_time;     // total time spent on scavenge
  static STWGCTimer           _gc_timer;             // GC time book keeper
  static ParallelScavengeTracer _gc_tracer;          // GC tracing
  // The lowest address possible for the young_gen.
  // This is used to decide if an oop should be scavenged,
  // cards should be marked, etc.
  static HeapWord*            _young_generation_boundary;
  // Used to optimize compressed oops young gen boundary checking.
  static uintptr_t            _young_generation_boundary_compressed;
  static Stack<markOop, mtGC> _preserved_mark_stack; // List of marks to be restored after failed promotion
  static Stack<oop, mtGC>     _preserved_oop_stack;  // List of oops that need their mark restored.
  static CollectorCounters*   _counters;             // collector performance counters

  static void clean_up_failed_promotion();

  static bool should_attempt_scavenge();

  static HeapWord* to_space_top_before_gc() { return _to_space_top_before_gc; }
  static inline void save_to_space_top_before_gc();

  // Private accessors
  static CardTableExtension* const card_table()       { assert(_card_table != NULL, "Sanity"); return _card_table; }
  static const ParallelScavengeTracer* gc_tracer() { return &_gc_tracer; }

  // Accessors
  static uint             tenuring_threshold()  { return _tenuring_threshold; }
  static elapsedTimer*    accumulated_time()    { return &_accumulated_time; }
  static int              consecutive_skipped_scavenges()
    { return _consecutive_skipped_scavenges; }

  // Performance Counters
  static CollectorCounters* counters()           { return _counters; }

  // Used by scavenge_contents && psMarkSweep
  static ReferenceProcessor* const reference_processor() {
    assert(_ref_processor != NULL, "Sanity");
    return _ref_processor;
  // Used to add tasks
  static GCTaskManager* const gc_task_manager();
  // The promotion managers tell us if they encountered overflow
  static void set_survivor_overflow(bool state) {
    _survivor_overflow = state;
  // Adaptive size policy support.  When the young generation/old generation
  // boundary moves, _young_generation_boundary must be reset
  static void set_young_generation_boundary(HeapWord* v) {
    _young_generation_boundary = v;
    if (UseCompressedOops) {
      _young_generation_boundary_compressed = (uintptr_t)oopDesc::encode_heap_oop((oop)v);

  // Called by parallelScavengeHeap to init the tenuring threshold
  static void initialize();

  // Scavenge entry point.  This may invoke a full gc; return true if so.
  static bool invoke();
  // Return true if a collection was done; false otherwise.
  static bool invoke_no_policy();

  // If an attempt to promote fails, this method is invoked
  static void oop_promotion_failed(oop obj, markOop obj_mark);

  template <class T> static inline bool should_scavenge(T* p);

  // These call should_scavenge() above and, if it returns true, also check that
  // the object was not newly copied into to_space.  The version with the bool
  // argument is a convenience wrapper that fetches the to_space pointer from
  // the heap and calls the other version (if the arg is true).
  template <class T> static inline bool should_scavenge(T* p, MutableSpace* to_space);
  template <class T> static inline bool should_scavenge(T* p, bool check_to_space);

  template <class T, bool promote_immediately>
    inline static void copy_and_push_safe_barrier(PSPromotionManager* pm, T* p);

  static void copy_and_push_safe_barrier_from_klass(PSPromotionManager* pm, oop* p);

  // Is an object in the young generation
  // This assumes that the 'o' is in the heap,
  // so it only checks one side of the complete predicate.

  inline static bool is_obj_in_young(oop o) {
    return (HeapWord*)o >= _young_generation_boundary;

  inline static bool is_obj_in_young(narrowOop o) {
    return (uintptr_t)o >= _young_generation_boundary_compressed;

  inline static bool is_obj_in_young(HeapWord* o) {
    return o >= _young_generation_boundary;