vm/alloc/HeapInternal.h - platform/dalvik - Gitiles

 /*
  * Copyright (C) 2008 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 /*
  * Types and macros used internally by the heap.
  */
 #ifndef _DALVIK_ALLOC_HEAP_INTERNAL
 #define _DALVIK_ALLOC_HEAP_INTERNAL

 #include <time.h>  // for struct timespec

 #include "HeapTable.h"
 #include "MarkSweep.h"

 #define SCHEDULED_REFERENCE_MAGIC   ((Object*)0x87654321)

 #define ptr2chunk(p)    (((DvmHeapChunk *)(p)) - 1)
 #define chunk2ptr(p)    ((void *)(((DvmHeapChunk *)(p)) + 1))

 #define WITH_OBJECT_HEADERS 0
 #if WITH_OBJECT_HEADERS
 #define OBJECT_HEADER   0x11335577
 extern u2 gGeneration;
 #endif

 typedef struct DvmHeapChunk {
 #if WITH_OBJECT_HEADERS
     u4 header;
     const Object *parent;
     const Object *parentOld;
     const Object *markFinger;
     const Object *markFingerOld;
     u2 birthGeneration;
     u2 markCount;
     u2 scanCount;
     u2 oldMarkGeneration;
     u2 markGeneration;
     u2 oldScanGeneration;
     u2 scanGeneration;
 #endif
 #if WITH_HPROF && WITH_HPROF_STACK
     u4 stackTraceSerialNumber;
 #endif
     u8 data[0];
 } DvmHeapChunk;

 struct GcHeap {
     HeapSource      *heapSource;

     /* List of heap objects that the GC should never collect.
      * These should be included in the root set of objects.
      */
     HeapRefTable    nonCollectableRefs;

     /* List of heap objects that will require finalization when
      * collected.  I.e., instance objects
      *
      *     a) whose class definitions override java.lang.Object.finalize()
      *
      * *** AND ***
      *
      *     b) that have never been finalized.
      *
      * Note that this does not exclude non-garbage objects;  this
      * is not the list of pending finalizations, but of objects that
      * potentially have finalization in their futures.
      */
     LargeHeapRefTable  *finalizableRefs;

     /* The list of objects that need to have finalize() called
      * on themselves.  These references are part of the root set.
      *
      * This table is protected by gDvm.heapWorkerListLock, which must
      * be acquired after the heap lock.
      */
     LargeHeapRefTable  *pendingFinalizationRefs;

     /* Linked lists of subclass instances of java/lang/ref/Reference
      * that we find while recursing.  The "next" pointers are hidden
      * in the objects' <code>int Reference.vmData</code> fields.
      * These lists are cleared and rebuilt each time the GC runs.
      */
     Object         *softReferences;
     Object         *weakReferences;
     Object         *phantomReferences;

     /* The list of Reference objects that need to be cleared and/or
      * enqueued.  The bottom two bits of the object pointers indicate
      * whether they should be cleared and/or enqueued.
      *
      * This table is protected by gDvm.heapWorkerListLock, which must
      * be acquired after the heap lock.
      */
     LargeHeapRefTable  *referenceOperations;

     /* If non-null, the method that the HeapWorker is currently
      * executing.
      */
     Object *heapWorkerCurrentObject;
     Method *heapWorkerCurrentMethod;

     /* If heapWorkerCurrentObject is non-null, this gives the time when
      * HeapWorker started executing that method.  The time value must come
      * from dvmGetRelativeTimeUsec().
      *
      * The "Cpu" entry tracks the per-thread CPU timer (when available).
      */
     u8 heapWorkerInterpStartTime;
     u8 heapWorkerInterpCpuStartTime;

     /* If any fields are non-zero, indicates the next (absolute) time that
      * the HeapWorker thread should call dvmHeapSourceTrim().
      */
     struct timespec heapWorkerNextTrim;

     /* The current state of the mark step.
      * Only valid during a GC.
      */
     GcMarkContext   markContext;

     /* Set to dvmGetRelativeTimeUsec() whenever a GC begins.
      * The value is preserved between GCs, so it can be used
      * to determine the time between successive GCs.
      * Initialized to zero before the first GC.
      */
     u8              gcStartTime;

     /* Is the GC running?  Used to avoid recursive calls to GC.
      */
     bool            gcRunning;

     /* Set at the end of a GC to indicate the collection policy
      * for SoftReferences during the following GC.
      */
     enum { SR_COLLECT_NONE, SR_COLLECT_SOME, SR_COLLECT_ALL }
                     softReferenceCollectionState;

     /* The size of the heap is compared against this value
      * to determine when to start collecting SoftReferences.
      */
     size_t          softReferenceHeapSizeThreshold;

     /* A value that will increment every time we see a SoftReference
      * whose referent isn't marked (during SR_COLLECT_SOME).
      * The absolute value is meaningless, and does not need to
      * be reset or initialized at any point.
      */
     int             softReferenceColor;

     /* Indicates whether or not the object scanner should bother
      * keeping track of any references.  If markAllReferents is
      * true, referents will be hard-marked.  If false, normal
      * reference following is used.
      */
     bool            markAllReferents;

 #if DVM_TRACK_HEAP_MARKING
     /* Every time an unmarked object becomes marked, markCount
      * is incremented and markSize increases by the size of
      * that object.
      */
     size_t          markCount;
     size_t          markSize;
 #endif

     /*
      * Debug control values
      */

     int             ddmHpifWhen;
     int             ddmHpsgWhen;
     int             ddmHpsgWhat;
     int             ddmNhsgWhen;
     int             ddmNhsgWhat;

 #if WITH_HPROF
     bool            hprofDumpOnGc;
     const char*     hprofFileName;
     hprof_context_t *hprofContext;
     int             hprofResult;
 #endif
 };

 bool dvmLockHeap(void);
 void dvmUnlockHeap(void);
 void dvmLogGcStats(size_t numFreed, size_t sizeFreed, size_t gcTimeMs);
 void dvmLogMadviseStats(size_t madvisedSizes[], size_t arrayLen);
 void dvmHeapSizeChanged(void);

 /*
  * Logging helpers
  */

 #define HEAP_LOG_TAG      LOG_TAG "-heap"

 #if LOG_NDEBUG
 #define LOGV_HEAP(...)    ((void)0)
 #define LOGD_HEAP(...)    ((void)0)
 #else
 #define LOGV_HEAP(...)    LOG(LOG_VERBOSE, HEAP_LOG_TAG, __VA_ARGS__)
 #define LOGD_HEAP(...)    LOG(LOG_DEBUG, HEAP_LOG_TAG, __VA_ARGS__)
 #endif
 #define LOGI_HEAP(...)    LOG(LOG_INFO, HEAP_LOG_TAG, __VA_ARGS__)
 #define LOGW_HEAP(...)    LOG(LOG_WARN, HEAP_LOG_TAG, __VA_ARGS__)
 #define LOGE_HEAP(...)    LOG(LOG_ERROR, HEAP_LOG_TAG, __VA_ARGS__)

 #define QUIET_ZYGOTE_GC 1
 #if QUIET_ZYGOTE_GC
 #undef LOGI_HEAP
 #define LOGI_HEAP(...) \
     do { \
         if (!gDvm.zygote) { \
             LOG(LOG_INFO, HEAP_LOG_TAG, __VA_ARGS__); \
         } \
     } while (false)
 #endif

 #define FRACTIONAL_MB(n)    (n) / (1024 * 1024), \
                             ((((n) % (1024 * 1024)) / 1024) * 1000) / 1024
 #define FRACTIONAL_PCT(n,max)    ((n) * 100) / (max), \
                                  (((n) * 1000) / (max)) % 10

 #endif  // _DALVIK_ALLOC_HEAP_INTERNAL
	/*
	* Copyright (C) 2008 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	/*
	* Types and macros used internally by the heap.
	*/
	#ifndef _DALVIK_ALLOC_HEAP_INTERNAL
	#define _DALVIK_ALLOC_HEAP_INTERNAL

	#include <time.h> // for struct timespec

	#include "HeapTable.h"
	#include "MarkSweep.h"

	#define SCHEDULED_REFERENCE_MAGIC ((Object*)0x87654321)

	#define ptr2chunk(p) (((DvmHeapChunk *)(p)) - 1)
	#define chunk2ptr(p) ((void )(((DvmHeapChunk )(p)) + 1))

	#define WITH_OBJECT_HEADERS 0
	#if WITH_OBJECT_HEADERS
	#define OBJECT_HEADER 0x11335577
	extern u2 gGeneration;
	#endif

	typedef struct DvmHeapChunk {
	#if WITH_OBJECT_HEADERS
	u4 header;
	const Object *parent;
	const Object *parentOld;
	const Object *markFinger;
	const Object *markFingerOld;
	u2 birthGeneration;
	u2 markCount;
	u2 scanCount;
	u2 oldMarkGeneration;
	u2 markGeneration;
	u2 oldScanGeneration;
	u2 scanGeneration;
	#endif
	#if WITH_HPROF && WITH_HPROF_STACK
	u4 stackTraceSerialNumber;
	#endif
	u8 data[0];
	} DvmHeapChunk;

	struct GcHeap {
	HeapSource *heapSource;

	/* List of heap objects that the GC should never collect.
	* These should be included in the root set of objects.
	*/
	HeapRefTable nonCollectableRefs;

	/* List of heap objects that will require finalization when
	* collected. I.e., instance objects
	*
	* a) whose class definitions override java.lang.Object.finalize()
	*
	* * AND *
	*
	* b) that have never been finalized.
	*
	* Note that this does not exclude non-garbage objects; this
	* is not the list of pending finalizations, but of objects that
	* potentially have finalization in their futures.
	*/
	LargeHeapRefTable *finalizableRefs;

	/* The list of objects that need to have finalize() called
	* on themselves. These references are part of the root set.
	*
	* This table is protected by gDvm.heapWorkerListLock, which must
	* be acquired after the heap lock.
	*/
	LargeHeapRefTable *pendingFinalizationRefs;

	/* Linked lists of subclass instances of java/lang/ref/Reference
	* that we find while recursing. The "next" pointers are hidden
	* in the objects' <code>int Reference.vmData</code> fields.
	* These lists are cleared and rebuilt each time the GC runs.
	*/
	Object *softReferences;
	Object *weakReferences;
	Object *phantomReferences;

	/* The list of Reference objects that need to be cleared and/or
	* enqueued. The bottom two bits of the object pointers indicate
	* whether they should be cleared and/or enqueued.
	*
	* This table is protected by gDvm.heapWorkerListLock, which must
	* be acquired after the heap lock.
	*/
	LargeHeapRefTable *referenceOperations;

	/* If non-null, the method that the HeapWorker is currently
	* executing.
	*/
	Object *heapWorkerCurrentObject;
	Method *heapWorkerCurrentMethod;

	/* If heapWorkerCurrentObject is non-null, this gives the time when
	* HeapWorker started executing that method. The time value must come
	* from dvmGetRelativeTimeUsec().
	*
	* The "Cpu" entry tracks the per-thread CPU timer (when available).
	*/
	u8 heapWorkerInterpStartTime;
	u8 heapWorkerInterpCpuStartTime;

	/* If any fields are non-zero, indicates the next (absolute) time that
	* the HeapWorker thread should call dvmHeapSourceTrim().
	*/
	struct timespec heapWorkerNextTrim;

	/* The current state of the mark step.
	* Only valid during a GC.
	*/
	GcMarkContext markContext;

	/* Set to dvmGetRelativeTimeUsec() whenever a GC begins.
	* The value is preserved between GCs, so it can be used
	* to determine the time between successive GCs.
	* Initialized to zero before the first GC.
	*/
	u8 gcStartTime;

	/* Is the GC running? Used to avoid recursive calls to GC.
	*/
	bool gcRunning;

	/* Set at the end of a GC to indicate the collection policy
	* for SoftReferences during the following GC.
	*/
	enum { SR_COLLECT_NONE, SR_COLLECT_SOME, SR_COLLECT_ALL }
	softReferenceCollectionState;

	/* The size of the heap is compared against this value
	* to determine when to start collecting SoftReferences.
	*/
	size_t softReferenceHeapSizeThreshold;

	/* A value that will increment every time we see a SoftReference
	* whose referent isn't marked (during SR_COLLECT_SOME).
	* The absolute value is meaningless, and does not need to
	* be reset or initialized at any point.
	*/
	int softReferenceColor;

	/* Indicates whether or not the object scanner should bother
	* keeping track of any references. If markAllReferents is
	* true, referents will be hard-marked. If false, normal
	* reference following is used.
	*/
	bool markAllReferents;

	#if DVM_TRACK_HEAP_MARKING
	/* Every time an unmarked object becomes marked, markCount
	* is incremented and markSize increases by the size of
	* that object.
	*/
	size_t markCount;
	size_t markSize;
	#endif

	/*
	* Debug control values
	*/

	int ddmHpifWhen;
	int ddmHpsgWhen;
	int ddmHpsgWhat;
	int ddmNhsgWhen;
	int ddmNhsgWhat;

	#if WITH_HPROF
	bool hprofDumpOnGc;
	const char* hprofFileName;
	hprof_context_t *hprofContext;
	int hprofResult;
	#endif
	};

	bool dvmLockHeap(void);
	void dvmUnlockHeap(void);
	void dvmLogGcStats(size_t numFreed, size_t sizeFreed, size_t gcTimeMs);
	void dvmLogMadviseStats(size_t madvisedSizes[], size_t arrayLen);
	void dvmHeapSizeChanged(void);

	/*
	* Logging helpers
	*/

	#define HEAP_LOG_TAG LOG_TAG "-heap"

	#if LOG_NDEBUG
	#define LOGV_HEAP(...) ((void)0)
	#define LOGD_HEAP(...) ((void)0)
	#else
	#define LOGV_HEAP(...) LOG(LOG_VERBOSE, HEAP_LOG_TAG, __VA_ARGS__)
	#define LOGD_HEAP(...) LOG(LOG_DEBUG, HEAP_LOG_TAG, __VA_ARGS__)
	#endif
	#define LOGI_HEAP(...) LOG(LOG_INFO, HEAP_LOG_TAG, __VA_ARGS__)
	#define LOGW_HEAP(...) LOG(LOG_WARN, HEAP_LOG_TAG, __VA_ARGS__)
	#define LOGE_HEAP(...) LOG(LOG_ERROR, HEAP_LOG_TAG, __VA_ARGS__)

	#define QUIET_ZYGOTE_GC 1
	#if QUIET_ZYGOTE_GC
	#undef LOGI_HEAP
	#define LOGI_HEAP(...) \
	do { \
	if (!gDvm.zygote) { \
	LOG(LOG_INFO, HEAP_LOG_TAG, __VA_ARGS__); \
	} \
	} while (false)
	#endif

	#define FRACTIONAL_MB(n) (n) / (1024 * 1024), \
	((((n) % (1024 * 1024)) / 1024) * 1000) / 1024
	#define FRACTIONAL_PCT(n,max) ((n) * 100) / (max), \
	(((n) * 1000) / (max)) % 10

	#endif // _DALVIK_ALLOC_HEAP_INTERNAL