1 /*
  2  * Copyright (c) 2013, 2021, Red Hat, Inc. All rights reserved.
  3  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  4  *
  5  * This code is free software; you can redistribute it and/or modify it
  6  * under the terms of the GNU General Public License version 2 only, as
  7  * published by the Free Software Foundation.
  8  *
  9  * This code is distributed in the hope that it will be useful, but WITHOUT
 10  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 11  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 12  * version 2 for more details (a copy is included in the LICENSE file that
 13  * accompanied this code).
 14  *
 15  * You should have received a copy of the GNU General Public License version
 16  * 2 along with this work; if not, write to the Free Software Foundation,
 17  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 18  *
 19  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 20  * or visit www.oracle.com if you need additional information or have any
 21  * questions.
 22  *
 23  */
 24 
 25 #ifndef SHARE_GC_SHENANDOAH_SHENANDOAHHEAP_HPP
 26 #define SHARE_GC_SHENANDOAH_SHENANDOAHHEAP_HPP
 27 
 28 #include "gc/shared/markBitMap.hpp"
 29 #include "gc/shared/softRefPolicy.hpp"
 30 #include "gc/shared/collectedHeap.hpp"
 31 #include "gc/shenandoah/shenandoahAsserts.hpp"
 32 #include "gc/shenandoah/shenandoahAllocRequest.hpp"
 33 #include "gc/shenandoah/shenandoahLock.hpp"
 34 #include "gc/shenandoah/shenandoahEvacOOMHandler.hpp"
 35 #include "gc/shenandoah/shenandoahPadding.hpp"
 36 #include "gc/shenandoah/shenandoahSharedVariables.hpp"
 37 #include "gc/shenandoah/shenandoahUnload.hpp"
 38 #include "memory/metaspace.hpp"
 39 #include "services/memoryManager.hpp"
 40 #include "utilities/globalDefinitions.hpp"
 41 #include "utilities/stack.hpp"
 42 
 43 class ConcurrentGCTimer;
 44 class ObjectIterateScanRootClosure;
 45 class ShenandoahCollectorPolicy;
 46 class ShenandoahControlThread;
 47 class ShenandoahGCSession;
 48 class ShenandoahGCStateResetter;
 49 class ShenandoahHeuristics;
 50 class ShenandoahMarkingContext;
 51 class ShenandoahMode;
 52 class ShenandoahPhaseTimings;
 53 class ShenandoahHeap;
 54 class ShenandoahHeapRegion;
 55 class ShenandoahHeapRegionClosure;
 56 class ShenandoahCollectionSet;
 57 class ShenandoahFreeSet;
 58 class ShenandoahConcurrentMark;
 59 class ShenandoahFullGC;
 60 class ShenandoahMonitoringSupport;
 61 class ShenandoahPacer;
 62 class ShenandoahReferenceProcessor;
 63 class ShenandoahVerifier;
 64 class ShenandoahWorkerThreads;
 65 class VMStructs;
 66 
 67 // Used for buffering per-region liveness data.
 68 // Needed since ShenandoahHeapRegion uses atomics to update liveness.
 69 // The ShenandoahHeap array has max-workers elements, each of which is an array of
 70 // uint16_t * max_regions. The choice of uint16_t is not accidental:
 71 // there is a tradeoff between static/dynamic footprint that translates
 72 // into cache pressure (which is already high during marking), and
 73 // too many atomic updates. uint32_t is too large, uint8_t is too small.
 74 typedef uint16_t ShenandoahLiveData;
 75 #define SHENANDOAH_LIVEDATA_MAX ((ShenandoahLiveData)-1)
 76 
 77 class ShenandoahRegionIterator : public StackObj {
 78 private:
 79   ShenandoahHeap* _heap;
 80 
 81   shenandoah_padding(0);
 82   volatile size_t _index;
 83   shenandoah_padding(1);
 84 
 85   // No implicit copying: iterators should be passed by reference to capture the state
 86   NONCOPYABLE(ShenandoahRegionIterator);
 87 
 88 public:
 89   ShenandoahRegionIterator();
 90   ShenandoahRegionIterator(ShenandoahHeap* heap);
 91 
 92   // Reset iterator to default state
 93   void reset();
 94 
 95   // Returns next region, or NULL if there are no more regions.
 96   // This is multi-thread-safe.
 97   inline ShenandoahHeapRegion* next();
 98 
 99   // This is *not* MT safe. However, in the absence of multithreaded access, it
100   // can be used to determine if there is more work to do.
101   bool has_next() const;
102 };
103 
104 class ShenandoahHeapRegionClosure : public StackObj {
105 public:
106   virtual void heap_region_do(ShenandoahHeapRegion* r) = 0;
107   virtual bool is_thread_safe() { return false; }
108 };
109 
110 typedef ShenandoahLock    ShenandoahHeapLock;
111 typedef ShenandoahLocker  ShenandoahHeapLocker;
112 typedef Stack<oop, mtGC>  ShenandoahScanObjectStack;
113 
114 // Shenandoah GC is low-pause concurrent GC that uses Brooks forwarding pointers
115 // to encode forwarding data. See BrooksPointer for details on forwarding data encoding.
116 // See ShenandoahControlThread for GC cycle structure.
117 //
118 class ShenandoahHeap : public CollectedHeap {
119   friend class ShenandoahAsserts;
120   friend class VMStructs;
121   friend class ShenandoahGCSession;
122   friend class ShenandoahGCStateResetter;
123   friend class ShenandoahParallelObjectIterator;
124   friend class ShenandoahSafepoint;
125   // Supported GC
126   friend class ShenandoahConcurrentGC;
127   friend class ShenandoahDegenGC;
128   friend class ShenandoahFullGC;
129   friend class ShenandoahUnload;
130 
131 // ---------- Locks that guard important data structures in Heap
132 //
133 private:
134   ShenandoahHeapLock _lock;
135 
136 public:
137   ShenandoahHeapLock* lock() {
138     return &_lock;
139   }
140 
141 // ---------- Initialization, termination, identification, printing routines
142 //
143 public:
144   static ShenandoahHeap* heap();
145 
146   const char* name()          const { return "Shenandoah"; }
147   ShenandoahHeap::Name kind() const { return CollectedHeap::Shenandoah; }
148 
149   ShenandoahHeap(ShenandoahCollectorPolicy* policy);
150   jint initialize();
151   void post_initialize();
152   void initialize_mode();
153   void initialize_heuristics();
154 
155   void initialize_serviceability();
156 
157   void print_on(outputStream* st)              const;
158   void print_extended_on(outputStream *st)     const;
159   void print_tracing_info()                    const;
160   void print_heap_regions_on(outputStream* st) const;
161 
162   void stop();
163 
164   void prepare_for_verify();
165   void verify(VerifyOption vo);
166 
167 // WhiteBox testing support.
168   bool supports_concurrent_gc_breakpoints() const {
169     return true;
170   }
171 
172 // ---------- Heap counters and metrics
173 //
174 private:
175            size_t _initial_size;
176            size_t _minimum_size;
177   volatile size_t _soft_max_size;
178   shenandoah_padding(0);
179   volatile size_t _used;
180   volatile size_t _committed;
181   volatile size_t _bytes_allocated_since_gc_start;
182   shenandoah_padding(1);
183 
184 public:
185   void increase_used(size_t bytes);
186   void decrease_used(size_t bytes);
187   void set_used(size_t bytes);
188 
189   void increase_committed(size_t bytes);
190   void decrease_committed(size_t bytes);
191   void increase_allocated(size_t bytes);
192 
193   size_t bytes_allocated_since_gc_start();
194   void reset_bytes_allocated_since_gc_start();
195 
196   size_t min_capacity()      const;
197   size_t max_capacity()      const;
198   size_t soft_max_capacity() const;
199   size_t initial_capacity()  const;
200   size_t capacity()          const;
201   size_t used()              const;
202   size_t committed()         const;
203 
204   void set_soft_max_capacity(size_t v);
205 
206 // ---------- Workers handling
207 //
208 private:
209   uint _max_workers;
210   ShenandoahWorkerThreads* _workers;
211   ShenandoahWorkerThreads* _safepoint_workers;
212 
213 public:
214   uint max_workers();
215   void assert_gc_workers(uint nworker) NOT_DEBUG_RETURN;
216 
217   WorkerThreads* workers() const;
218   WorkerThreads* safepoint_workers();
219 
220   void gc_threads_do(ThreadClosure* tcl) const;
221 
222 // ---------- Heap regions handling machinery
223 //
224 private:
225   MemRegion _heap_region;
226   bool      _heap_region_special;
227   size_t    _num_regions;
228   ShenandoahHeapRegion** _regions;
229   ShenandoahRegionIterator _update_refs_iterator;
230 
231 public:
232 
233   inline HeapWord* base() const { return _heap_region.start(); }
234 
235   inline size_t num_regions() const { return _num_regions; }
236   inline bool is_heap_region_special() { return _heap_region_special; }
237 
238   inline ShenandoahHeapRegion* const heap_region_containing(const void* addr) const;
239   inline size_t heap_region_index_containing(const void* addr) const;
240 
241   inline ShenandoahHeapRegion* const get_region(size_t region_idx) const;
242 
243   void heap_region_iterate(ShenandoahHeapRegionClosure* blk) const;
244   void parallel_heap_region_iterate(ShenandoahHeapRegionClosure* blk) const;
245 
246 // ---------- GC state machinery
247 //
248 // GC state describes the important parts of collector state, that may be
249 // used to make barrier selection decisions in the native and generated code.
250 // Multiple bits can be set at once.
251 //
252 // Important invariant: when GC state is zero, the heap is stable, and no barriers
253 // are required.
254 //
255 public:
256   enum GCStateBitPos {
257     // Heap has forwarded objects: needs LRB barriers.
258     HAS_FORWARDED_BITPOS   = 0,
259 
260     // Heap is under marking: needs SATB barriers.
261     MARKING_BITPOS    = 1,
262 
263     // Heap is under evacuation: needs LRB barriers. (Set together with HAS_FORWARDED)
264     EVACUATION_BITPOS = 2,
265 
266     // Heap is under updating: needs no additional barriers.
267     UPDATEREFS_BITPOS = 3,
268 
269     // Heap is under weak-reference/roots processing: needs weak-LRB barriers.
270     WEAK_ROOTS_BITPOS  = 4,
271   };
272 
273   enum GCState {
274     STABLE        = 0,
275     HAS_FORWARDED = 1 << HAS_FORWARDED_BITPOS,
276     MARKING       = 1 << MARKING_BITPOS,
277     EVACUATION    = 1 << EVACUATION_BITPOS,
278     UPDATEREFS    = 1 << UPDATEREFS_BITPOS,
279     WEAK_ROOTS    = 1 << WEAK_ROOTS_BITPOS,
280   };
281 
282 private:
283   ShenandoahSharedBitmap _gc_state;
284   ShenandoahSharedFlag   _degenerated_gc_in_progress;
285   ShenandoahSharedFlag   _full_gc_in_progress;
286   ShenandoahSharedFlag   _full_gc_move_in_progress;
287   ShenandoahSharedFlag   _progress_last_gc;
288   ShenandoahSharedFlag   _concurrent_strong_root_in_progress;
289 
290   void set_gc_state_all_threads(char state);
291   void set_gc_state_mask(uint mask, bool value);
292 
293 public:
294   char gc_state() const;
295   static address gc_state_addr();
296 
297   void set_concurrent_mark_in_progress(bool in_progress);
298   void set_evacuation_in_progress(bool in_progress);
299   void set_update_refs_in_progress(bool in_progress);
300   void set_degenerated_gc_in_progress(bool in_progress);
301   void set_full_gc_in_progress(bool in_progress);
302   void set_full_gc_move_in_progress(bool in_progress);
303   void set_has_forwarded_objects(bool cond);
304   void set_concurrent_strong_root_in_progress(bool cond);
305   void set_concurrent_weak_root_in_progress(bool cond);
306 
307   inline bool is_stable() const;
308   inline bool is_idle() const;
309   inline bool is_concurrent_mark_in_progress() const;
310   inline bool is_update_refs_in_progress() const;
311   inline bool is_evacuation_in_progress() const;
312   inline bool is_degenerated_gc_in_progress() const;
313   inline bool is_full_gc_in_progress() const;
314   inline bool is_full_gc_move_in_progress() const;
315   inline bool has_forwarded_objects() const;
316   inline bool is_gc_in_progress_mask(uint mask) const;
317   inline bool is_stw_gc_in_progress() const;
318   inline bool is_concurrent_strong_root_in_progress() const;
319   inline bool is_concurrent_weak_root_in_progress() const;
320 
321 private:
322   enum CancelState {
323     // Normal state. GC has not been cancelled and is open for cancellation.
324     // Worker threads can suspend for safepoint.
325     CANCELLABLE,
326 
327     // GC has been cancelled. Worker threads can not suspend for
328     // safepoint but must finish their work as soon as possible.
329     CANCELLED,
330 
331     // GC has not been cancelled and must not be cancelled. At least
332     // one worker thread checks for pending safepoint and may suspend
333     // if a safepoint is pending.
334     NOT_CANCELLED
335   };
336 
337   ShenandoahSharedEnumFlag<CancelState> _cancelled_gc;
338   bool try_cancel_gc();
339 
340 public:
341   static address cancelled_gc_addr();
342 
343   inline bool cancelled_gc() const;
344   inline bool check_cancelled_gc_and_yield(bool sts_active = true);
345 
346   inline void clear_cancelled_gc();
347 
348   void cancel_gc(GCCause::Cause cause);
349 
350 public:
351   // Elastic heap support
352   void entry_uncommit(double shrink_before, size_t shrink_until);
353   void op_uncommit(double shrink_before, size_t shrink_until);
354 
355 private:
356   // GC support
357   // Reset bitmap, prepare regions for new GC cycle
358   void prepare_gc();
359   void prepare_regions_and_collection_set(bool concurrent);
360   // Evacuation
361   void prepare_evacuation(bool concurrent);
362   void evacuate_collection_set(bool concurrent);
363   // Concurrent root processing
364   void prepare_concurrent_roots();
365   void finish_concurrent_roots();
366   // Concurrent class unloading support
367   void do_class_unloading();
368   // Reference updating
369   void prepare_update_heap_references(bool concurrent);
370   void update_heap_references(bool concurrent);
371   // Final update region states
372   void update_heap_region_states(bool concurrent);
373   void rebuild_free_set(bool concurrent);
374 
375   void rendezvous_threads();
376   void recycle_trash();
377 public:
378   void notify_gc_progress()    { _progress_last_gc.set();   }
379   void notify_gc_no_progress() { _progress_last_gc.unset(); }
380 
381 //
382 // Mark support
383 private:
384   ShenandoahControlThread*   _control_thread;
385   ShenandoahCollectorPolicy* _shenandoah_policy;
386   ShenandoahMode*            _gc_mode;
387   ShenandoahHeuristics*      _heuristics;
388   ShenandoahFreeSet*         _free_set;
389   ShenandoahPacer*           _pacer;
390   ShenandoahVerifier*        _verifier;
391 
392   ShenandoahPhaseTimings*    _phase_timings;
393 
394   ShenandoahControlThread*   control_thread()          { return _control_thread;    }
395 
396 public:
397   ShenandoahCollectorPolicy* shenandoah_policy() const { return _shenandoah_policy; }
398   ShenandoahMode*            mode()              const { return _gc_mode;           }
399   ShenandoahHeuristics*      heuristics()        const { return _heuristics;        }
400   ShenandoahFreeSet*         free_set()          const { return _free_set;          }
401   ShenandoahPacer*           pacer()             const { return _pacer;             }
402 
403   ShenandoahPhaseTimings*    phase_timings()     const { return _phase_timings;     }
404 
405   ShenandoahVerifier*        verifier();
406 
407 // ---------- VM subsystem bindings
408 //
409 private:
410   ShenandoahMonitoringSupport* _monitoring_support;
411   MemoryPool*                  _memory_pool;
412   GCMemoryManager              _stw_memory_manager;
413   GCMemoryManager              _cycle_memory_manager;
414   ConcurrentGCTimer*           _gc_timer;
415   SoftRefPolicy                _soft_ref_policy;
416 
417   // For exporting to SA
418   int                          _log_min_obj_alignment_in_bytes;
419 public:
420   ShenandoahMonitoringSupport* monitoring_support() { return _monitoring_support;    }
421   GCMemoryManager* cycle_memory_manager()           { return &_cycle_memory_manager; }
422   GCMemoryManager* stw_memory_manager()             { return &_stw_memory_manager;   }
423   SoftRefPolicy* soft_ref_policy()                  { return &_soft_ref_policy;      }
424 
425   GrowableArray<GCMemoryManager*> memory_managers();
426   GrowableArray<MemoryPool*> memory_pools();
427   MemoryUsage memory_usage();
428   GCTracer* tracer();
429   ConcurrentGCTimer* gc_timer() const;
430 
431 // ---------- Reference processing
432 //
433 private:
434   ShenandoahReferenceProcessor* const _ref_processor;
435 
436 public:
437   ShenandoahReferenceProcessor* ref_processor() { return _ref_processor; }
438 
439 // ---------- Class Unloading
440 //
441 private:
442   ShenandoahSharedFlag _unload_classes;
443   ShenandoahUnload     _unloader;
444 
445 public:
446   void set_unload_classes(bool uc);
447   bool unload_classes() const;
448 
449   // Perform STW class unloading and weak root cleaning
450   void parallel_cleaning(bool full_gc);
451 
452 private:
453   void stw_unload_classes(bool full_gc);
454   void stw_process_weak_roots(bool full_gc);
455   void stw_weak_refs(bool full_gc);
456 
457   // Heap iteration support
458   void scan_roots_for_iteration(ShenandoahScanObjectStack* oop_stack, ObjectIterateScanRootClosure* oops);
459   bool prepare_aux_bitmap_for_iteration();
460   void reclaim_aux_bitmap_for_iteration();
461 
462 // ---------- Generic interface hooks
463 // Minor things that super-interface expects us to implement to play nice with
464 // the rest of runtime. Some of the things here are not required to be implemented,
465 // and can be stubbed out.
466 //
467 public:
468   AdaptiveSizePolicy* size_policy() shenandoah_not_implemented_return(NULL);
469   bool is_maximal_no_gc() const shenandoah_not_implemented_return(false);
470 
471   bool is_in(const void* p) const;
472 



473   MemRegion reserved_region() const { return _reserved; }
474   bool is_in_reserved(const void* addr) const { return _reserved.contains(addr); }
475 
476   void collect(GCCause::Cause cause);
477   void do_full_collection(bool clear_all_soft_refs);
478 
479   // Used for parsing heap during error printing
480   HeapWord* block_start(const void* addr) const;
481   bool block_is_obj(const HeapWord* addr) const;
482   bool print_location(outputStream* st, void* addr) const;
483 
484   // Used for native heap walkers: heap dumpers, mostly
485   void object_iterate(ObjectClosure* cl);
486   // Parallel heap iteration support
487   virtual ParallelObjectIterator* parallel_object_iterator(uint workers);
488 
489   // Keep alive an object that was loaded with AS_NO_KEEPALIVE.
490   void keep_alive(oop obj);
491 
492 // ---------- Safepoint interface hooks
493 //
494 public:
495   void safepoint_synchronize_begin();
496   void safepoint_synchronize_end();
497 
498 // ---------- Code roots handling hooks
499 //
500 public:
501   void register_nmethod(nmethod* nm);
502   void unregister_nmethod(nmethod* nm);
503   void flush_nmethod(nmethod* nm);
504   void verify_nmethod(nmethod* nm) {}
505 
506 // ---------- Pinning hooks
507 //
508 public:
509   // Shenandoah supports per-object (per-region) pinning
510   bool supports_object_pinning() const { return true; }
511 
512   oop pin_object(JavaThread* thread, oop obj);
513   void unpin_object(JavaThread* thread, oop obj);
514 
515   void sync_pinned_region_status();
516   void assert_pinned_region_status() NOT_DEBUG_RETURN;
517 
518 // ---------- Concurrent Stack Processing support
519 //
520 public:
521   bool uses_stack_watermark_barrier() const { return true; }
522 
523 // ---------- Allocation support
524 //
525 private:
526   HeapWord* allocate_memory_under_lock(ShenandoahAllocRequest& request, bool& in_new_region);
527   inline HeapWord* allocate_from_gclab(Thread* thread, size_t size);
528   HeapWord* allocate_from_gclab_slow(Thread* thread, size_t size);
529   HeapWord* allocate_new_gclab(size_t min_size, size_t word_size, size_t* actual_size);
530 
531 public:
532   HeapWord* allocate_memory(ShenandoahAllocRequest& request);
533   HeapWord* mem_allocate(size_t size, bool* what);
534   MetaWord* satisfy_failed_metadata_allocation(ClassLoaderData* loader_data,
535                                                size_t size,
536                                                Metaspace::MetadataType mdtype);
537 
538   void notify_mutator_alloc_words(size_t words, bool waste);
539 
540   HeapWord* allocate_new_tlab(size_t min_size, size_t requested_size, size_t* actual_size);
541   size_t tlab_capacity(Thread *thr) const;
542   size_t unsafe_max_tlab_alloc(Thread *thread) const;
543   size_t max_tlab_size() const;
544   size_t tlab_used(Thread* ignored) const;
545 
546   void ensure_parsability(bool retire_labs);
547 
548   void labs_make_parsable();
549   void tlabs_retire(bool resize);
550   void gclabs_retire(bool resize);
551 
552 // ---------- Marking support
553 //
554 private:
555   ShenandoahMarkingContext* _marking_context;
556   MemRegion  _bitmap_region;
557   MemRegion  _aux_bitmap_region;
558   MarkBitMap _verification_bit_map;
559   MarkBitMap _aux_bit_map;
560 
561   size_t _bitmap_size;
562   size_t _bitmap_regions_per_slice;
563   size_t _bitmap_bytes_per_slice;
564 
565   size_t _pretouch_heap_page_size;
566   size_t _pretouch_bitmap_page_size;
567 
568   bool _bitmap_region_special;
569   bool _aux_bitmap_region_special;
570 
571   ShenandoahLiveData** _liveness_cache;
572 
573 public:
574   inline ShenandoahMarkingContext* complete_marking_context() const;
575   inline ShenandoahMarkingContext* marking_context() const;
576   inline void mark_complete_marking_context();
577   inline void mark_incomplete_marking_context();
578 
579   template<class T>
580   inline void marked_object_iterate(ShenandoahHeapRegion* region, T* cl);
581 
582   template<class T>
583   inline void marked_object_iterate(ShenandoahHeapRegion* region, T* cl, HeapWord* limit);
584 
585   template<class T>
586   inline void marked_object_oop_iterate(ShenandoahHeapRegion* region, T* cl, HeapWord* limit);
587 
588   void reset_mark_bitmap();
589 
590   // SATB barriers hooks
591   inline bool requires_marking(const void* entry) const;
592 
593   // Support for bitmap uncommits
594   bool commit_bitmap_slice(ShenandoahHeapRegion *r);
595   bool uncommit_bitmap_slice(ShenandoahHeapRegion *r);
596   bool is_bitmap_slice_committed(ShenandoahHeapRegion* r, bool skip_self = false);
597 
598   // Liveness caching support
599   ShenandoahLiveData* get_liveness_cache(uint worker_id);
600   void flush_liveness_cache(uint worker_id);
601 
602   size_t pretouch_heap_page_size() { return _pretouch_heap_page_size; }
603 
604 // ---------- Evacuation support
605 //
606 private:
607   ShenandoahCollectionSet* _collection_set;
608   ShenandoahEvacOOMHandler _oom_evac_handler;
609 
610 public:
611   static address in_cset_fast_test_addr();
612 
613   ShenandoahCollectionSet* collection_set() const { return _collection_set; }
614 
615   // Checks if object is in the collection set.
616   inline bool in_collection_set(oop obj) const;
617 
618   // Checks if location is in the collection set. Can be interior pointer, not the oop itself.
619   inline bool in_collection_set_loc(void* loc) const;
620 
621   // Evacuates object src. Returns the evacuated object, either evacuated
622   // by this thread, or by some other thread.
623   inline oop evacuate_object(oop src, Thread* thread);
624 
625   // Call before/after evacuation.
626   inline void enter_evacuation(Thread* t);
627   inline void leave_evacuation(Thread* t);
628 
629 // ---------- Helper functions
630 //
631 public:
632   template <class T>
633   inline void conc_update_with_forwarded(T* p);
634 
635   template <class T>
636   inline void update_with_forwarded(T* p);
637 
638   static inline void atomic_update_oop(oop update,       oop* addr,       oop compare);
639   static inline void atomic_update_oop(oop update, narrowOop* addr,       oop compare);
640   static inline void atomic_update_oop(oop update, narrowOop* addr, narrowOop compare);
641 
642   static inline bool atomic_update_oop_check(oop update,       oop* addr,       oop compare);
643   static inline bool atomic_update_oop_check(oop update, narrowOop* addr,       oop compare);
644   static inline bool atomic_update_oop_check(oop update, narrowOop* addr, narrowOop compare);
645 
646   static inline void atomic_clear_oop(      oop* addr,       oop compare);
647   static inline void atomic_clear_oop(narrowOop* addr,       oop compare);
648   static inline void atomic_clear_oop(narrowOop* addr, narrowOop compare);
649 
650   void trash_humongous_region_at(ShenandoahHeapRegion *r);
651 
652 private:
653   void trash_cset_regions();
654 
655 // ---------- Testing helpers functions
656 //
657 private:
658   ShenandoahSharedFlag _inject_alloc_failure;
659 
660   void try_inject_alloc_failure();
661   bool should_inject_alloc_failure();
662 };
663 
664 #endif // SHARE_GC_SHENANDOAH_SHENANDOAHHEAP_HPP
--- EOF ---