vm/alloc/HeapSource.h - platform/dalvik - Git at Google

 /*
  * 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.
  */
 #ifndef _DALVIK_HEAP_SOURCE
 #define _DALVIK_HEAP_SOURCE

 #include "alloc/HeapInternal.h" // for GcHeap

 /* dlmalloc uses one size_t per allocated chunk.
  */
 #define HEAP_SOURCE_CHUNK_OVERHEAD         (1 * sizeof (size_t))
 #define HEAP_SOURCE_WORST_CHUNK_OVERHEAD   (32 * sizeof (size_t))

 /* The largest number of separate heaps we can handle.
  */
 #define HEAP_SOURCE_MAX_HEAP_COUNT 3

 /*
  * Initializes the heap source; must be called before any other
  * dvmHeapSource*() functions.
  */
 GcHeap *dvmHeapSourceStartup(size_t startSize, size_t absoluteMaxSize);

 /*
  * If the HeapSource was created while in zygote mode, this
  * will create a new heap for post-zygote allocations.
  * Having a separate heap should maximize the number of pages
  * that a given app_process shares with the zygote process.
  */
 bool dvmHeapSourceStartupAfterZygote(void);

 /*
  * If the HeapSource was created while in zygote mode, this
  * will create an additional zygote heap before the first fork().
  * Having a separate heap should reduce the number of shared
  * pages subsequently touched by the zygote process.
  */
 bool dvmHeapSourceStartupBeforeFork(void);

 /*
  * Tears down the heap source and frees any resources associated with it.
  */
 void dvmHeapSourceShutdown(GcHeap *gcHeap);

 /*
  * Writes shallow copies of the currently-used bitmaps into outBitmaps,
  * returning the number of bitmaps written.  Returns 0 if the array was
  * not long enough or if there are no heaps, either of which is an error.
  */
 size_t dvmHeapSourceGetObjectBitmaps(HeapBitmap outBitmaps[],
         size_t maxBitmaps);

 /*
  * Replaces the object location HeapBitmaps with the elements of
  * <objectBitmaps>.  The elements of <objectBitmaps> are overwritten
  * with shallow copies of the old bitmaps.
  *
  * Returns false if the number of bitmaps doesn't match the number
  * of heaps.
  */
 bool dvmHeapSourceReplaceObjectBitmaps(HeapBitmap objectBitmaps[],
         size_t nBitmaps);

 /*
  * Returns the requested value. If the per-heap stats are requested, fill
  * them as well.
  */
 enum HeapSourceValueSpec {
     HS_FOOTPRINT,
     HS_ALLOWED_FOOTPRINT,
     HS_BYTES_ALLOCATED,
     HS_OBJECTS_ALLOCATED,
     HS_EXTERNAL_BYTES_ALLOCATED,
     HS_EXTERNAL_LIMIT
 };
 size_t dvmHeapSourceGetValue(enum HeapSourceValueSpec spec,
                              size_t perHeapStats[], size_t arrayLen);

 /*
  * Allocates <n> bytes of zeroed data.
  */
 void *dvmHeapSourceAlloc(size_t n);

 /*
  * Allocates <n> bytes of zeroed data, growing up to absoluteMaxSize
  * if necessary.
  */
 void *dvmHeapSourceAllocAndGrow(size_t n);

 /*
  * Frees the memory pointed to by <ptr>, which may be NULL.
  */
 void dvmHeapSourceFree(void *ptr);

 /*
  * Frees the first numPtrs objects in the ptrs list. The list must
  * contain addresses all in the same mspace, and must be in increasing
  * order. This implies that there are no duplicates, and no entries
  * are NULL.
  */
 void dvmHeapSourceFreeList(size_t numPtrs, void **ptrs);

 /*
  * Returns true iff <ptr> was allocated from the heap source.
  */
 bool dvmHeapSourceContains(const void *ptr);

 /*
  * Returns the value of the requested flag.
  */
 enum HeapSourcePtrFlag {
     HS_CONTAINS,    // identical to dvmHeapSourceContains()
     HS_ALLOCATED_IN_ZYGOTE
 };
 bool dvmHeapSourceGetPtrFlag(const void *ptr, enum HeapSourcePtrFlag flag);

 /*
  * Returns the number of usable bytes in an allocated chunk; the size
  * may be larger than the size passed to dvmHeapSourceAlloc().
  */
 size_t dvmHeapSourceChunkSize(const void *ptr);

 /*
  * Returns the number of bytes that the heap source has allocated
  * from the system using sbrk/mmap, etc.
  */
 size_t dvmHeapSourceFootprint(void);

 /*
  * Gets the maximum number of bytes that the heap source is allowed
  * to allocate from the system.
  */
 size_t dvmHeapSourceGetIdealFootprint(void);

 /*
  * Given the current contents of the heap, increase the allowed
  * heap footprint to match the target utilization ratio.  This
  * should only be called immediately after a full mark/sweep.
  */
 void dvmHeapSourceGrowForUtilization(void);

 /*
  * Return unused memory to the system if possible.  If <bytesTrimmed>
  * is non-NULL, the number of bytes returned to the system is written to it.
  */
 void dvmHeapSourceTrim(size_t bytesTrimmed[], size_t arrayLen);

 /*
  * Walks over the heap source and passes every allocated and
  * free chunk to the callback.
  */
 void dvmHeapSourceWalk(void(*callback)(const void *chunkptr, size_t chunklen,
                                       const void *userptr, size_t userlen,
                                       void *arg),
                        void *arg);
 /*
  * Gets the number of heaps available in the heap source.
  */
 size_t dvmHeapSourceGetNumHeaps(void);

 #endif  // _DALVIK_HEAP_SOURCE
	/*
	* 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.
	*/
	#ifndef _DALVIK_HEAP_SOURCE
	#define _DALVIK_HEAP_SOURCE

	#include "alloc/HeapInternal.h" // for GcHeap

	/* dlmalloc uses one size_t per allocated chunk.
	*/
	#define HEAP_SOURCE_CHUNK_OVERHEAD (1 * sizeof (size_t))
	#define HEAP_SOURCE_WORST_CHUNK_OVERHEAD (32 * sizeof (size_t))

	/* The largest number of separate heaps we can handle.
	*/
	#define HEAP_SOURCE_MAX_HEAP_COUNT 3

	/*
	* Initializes the heap source; must be called before any other
	* dvmHeapSource*() functions.
	*/
	GcHeap *dvmHeapSourceStartup(size_t startSize, size_t absoluteMaxSize);

	/*
	* If the HeapSource was created while in zygote mode, this
	* will create a new heap for post-zygote allocations.
	* Having a separate heap should maximize the number of pages
	* that a given app_process shares with the zygote process.
	*/
	bool dvmHeapSourceStartupAfterZygote(void);

	/*
	* If the HeapSource was created while in zygote mode, this
	* will create an additional zygote heap before the first fork().
	* Having a separate heap should reduce the number of shared
	* pages subsequently touched by the zygote process.
	*/
	bool dvmHeapSourceStartupBeforeFork(void);

	/*
	* Tears down the heap source and frees any resources associated with it.
	*/
	void dvmHeapSourceShutdown(GcHeap *gcHeap);

	/*
	* Writes shallow copies of the currently-used bitmaps into outBitmaps,
	* returning the number of bitmaps written. Returns 0 if the array was
	* not long enough or if there are no heaps, either of which is an error.
	*/
	size_t dvmHeapSourceGetObjectBitmaps(HeapBitmap outBitmaps[],
	size_t maxBitmaps);

	/*
	* Replaces the object location HeapBitmaps with the elements of
	* <objectBitmaps>. The elements of <objectBitmaps> are overwritten
	* with shallow copies of the old bitmaps.
	*
	* Returns false if the number of bitmaps doesn't match the number
	* of heaps.
	*/
	bool dvmHeapSourceReplaceObjectBitmaps(HeapBitmap objectBitmaps[],
	size_t nBitmaps);

	/*
	* Returns the requested value. If the per-heap stats are requested, fill
	* them as well.
	*/
	enum HeapSourceValueSpec {
	HS_FOOTPRINT,
	HS_ALLOWED_FOOTPRINT,
	HS_BYTES_ALLOCATED,
	HS_OBJECTS_ALLOCATED,
	HS_EXTERNAL_BYTES_ALLOCATED,
	HS_EXTERNAL_LIMIT
	};
	size_t dvmHeapSourceGetValue(enum HeapSourceValueSpec spec,
	size_t perHeapStats[], size_t arrayLen);

	/*
	* Allocates <n> bytes of zeroed data.
	*/
	void *dvmHeapSourceAlloc(size_t n);

	/*
	* Allocates <n> bytes of zeroed data, growing up to absoluteMaxSize
	* if necessary.
	*/
	void *dvmHeapSourceAllocAndGrow(size_t n);

	/*
	* Frees the memory pointed to by <ptr>, which may be NULL.
	*/
	void dvmHeapSourceFree(void *ptr);

	/*
	* Frees the first numPtrs objects in the ptrs list. The list must
	* contain addresses all in the same mspace, and must be in increasing
	* order. This implies that there are no duplicates, and no entries
	* are NULL.
	*/
	void dvmHeapSourceFreeList(size_t numPtrs, void **ptrs);

	/*
	* Returns true iff <ptr> was allocated from the heap source.
	*/
	bool dvmHeapSourceContains(const void *ptr);

	/*
	* Returns the value of the requested flag.
	*/
	enum HeapSourcePtrFlag {
	HS_CONTAINS, // identical to dvmHeapSourceContains()
	HS_ALLOCATED_IN_ZYGOTE
	};
	bool dvmHeapSourceGetPtrFlag(const void *ptr, enum HeapSourcePtrFlag flag);

	/*
	* Returns the number of usable bytes in an allocated chunk; the size
	* may be larger than the size passed to dvmHeapSourceAlloc().
	*/
	size_t dvmHeapSourceChunkSize(const void *ptr);

	/*
	* Returns the number of bytes that the heap source has allocated
	* from the system using sbrk/mmap, etc.
	*/
	size_t dvmHeapSourceFootprint(void);

	/*
	* Gets the maximum number of bytes that the heap source is allowed
	* to allocate from the system.
	*/
	size_t dvmHeapSourceGetIdealFootprint(void);

	/*
	* Given the current contents of the heap, increase the allowed
	* heap footprint to match the target utilization ratio. This
	* should only be called immediately after a full mark/sweep.
	*/
	void dvmHeapSourceGrowForUtilization(void);

	/*
	* Return unused memory to the system if possible. If <bytesTrimmed>
	* is non-NULL, the number of bytes returned to the system is written to it.
	*/
	void dvmHeapSourceTrim(size_t bytesTrimmed[], size_t arrayLen);

	/*
	* Walks over the heap source and passes every allocated and
	* free chunk to the callback.
	*/
	void dvmHeapSourceWalk(void(callback)(const void chunkptr, size_t chunklen,
	const void *userptr, size_t userlen,
	void *arg),
	void *arg);
	/*
	* Gets the number of heaps available in the heap source.
	*/
	size_t dvmHeapSourceGetNumHeaps(void);

	#endif // _DALVIK_HEAP_SOURCE