third_party/tcmalloc/vendor/src/gperftools/malloc_extension.h - mojo-tools - Git at Google

 // Copyright (c) 2005, Google Inc.
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 // notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 // copyright notice, this list of conditions and the following disclaimer
 // in the documentation and/or other materials provided with the
 // distribution.
 //     * Neither the name of Google Inc. nor the names of its
 // contributors may be used to endorse or promote products derived from
 // this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 // ---
 // Author: Sanjay Ghemawat <opensource@google.com>
 //
 // Extra extensions exported by some malloc implementations.  These
 // extensions are accessed through a virtual base class so an
 // application can link against a malloc that does not implement these
 // extensions, and it will get default versions that do nothing.
 //
 // NOTE FOR C USERS: If you wish to use this functionality from within
 // a C program, see malloc_extension_c.h.

 #ifndef BASE_MALLOC_EXTENSION_H_
 #define BASE_MALLOC_EXTENSION_H_

 #include <stddef.h>
 // I can't #include config.h in this public API file, but I should
 // really use configure (and make malloc_extension.h a .in file) to
 // figure out if the system has stdint.h or not.  But I'm lazy, so
 // for now I'm assuming it's a problem only with MSVC.
 #ifndef _MSC_VER
 #include <stdint.h>
 #endif
 #include <string>
 #include <vector>

 // Annoying stuff for windows -- makes sure clients can import these functions
 #ifndef PERFTOOLS_DLL_DECL
 # ifdef _WIN32
 #   define PERFTOOLS_DLL_DECL  __declspec(dllimport)
 # else
 #   define PERFTOOLS_DLL_DECL
 # endif
 #endif

 static const int kMallocHistogramSize = 64;

 // One day, we could support other types of writers (perhaps for C?)
 typedef std::string MallocExtensionWriter;

 namespace base {
 struct MallocRange;
 }

 // Interface to a pluggable system allocator.
 class SysAllocator {
  public:
   SysAllocator() {
   }
   virtual ~SysAllocator();

   // Allocates "size"-byte of memory from system aligned with "alignment".
   // Returns NULL if failed. Otherwise, the returned pointer p up to and
   // including (p + actual_size -1) have been allocated.
   virtual void* Alloc(size_t size, size_t *actual_size, size_t alignment) = 0;
 };

 // The default implementations of the following routines do nothing.
 // All implementations should be thread-safe; the current one
 // (TCMallocImplementation) is.
 class PERFTOOLS_DLL_DECL MallocExtension {
  public:
   virtual ~MallocExtension();

   // Call this very early in the program execution -- say, in a global
   // constructor -- to set up parameters and state needed by all
   // instrumented malloc implemenatations.  One example: this routine
   // sets environemnt variables to tell STL to use libc's malloc()
   // instead of doing its own memory management.  This is safe to call
   // multiple times, as long as each time is before threads start up.
   static void Initialize();

   // See "verify_memory.h" to see what these routines do
   virtual bool VerifyAllMemory();
   virtual bool VerifyNewMemory(const void* p);
   virtual bool VerifyArrayNewMemory(const void* p);
   virtual bool VerifyMallocMemory(const void* p);
   virtual bool MallocMemoryStats(int* blocks, size_t* total,
                                  int histogram[kMallocHistogramSize]);

   // Get a human readable description of the current state of the malloc
   // data structures.  The state is stored as a null-terminated string
   // in a prefix of "buffer[0,buffer_length-1]".
   // REQUIRES: buffer_length > 0.
   virtual void GetStats(char* buffer, int buffer_length);

   // Outputs to "writer" a sample of live objects and the stack traces
   // that allocated these objects.  The format of the returned output
   // is equivalent to the output of the heap profiler and can
   // therefore be passed to "pprof". This function is equivalent to
   // ReadStackTraces. The main difference is that this function returns
   // serialized data appropriately formatted for use by the pprof tool.
   // NOTE: by default, tcmalloc does not do any heap sampling, and this
   //       function will always return an empty sample.  To get useful
   //       data from GetHeapSample, you must also set the environment
   //       variable TCMALLOC_SAMPLE_PARAMETER to a value such as 524288.
   virtual void GetHeapSample(MallocExtensionWriter* writer);

   // Outputs to "writer" the stack traces that caused growth in the
   // address space size.  The format of the returned output is
   // equivalent to the output of the heap profiler and can therefore
   // be passed to "pprof". This function is equivalent to
   // ReadHeapGrowthStackTraces. The main difference is that this function
   // returns serialized data appropriately formatted for use by the
   // pprof tool.  (This does not depend on, or require,
   // TCMALLOC_SAMPLE_PARAMETER.)
   virtual void GetHeapGrowthStacks(MallocExtensionWriter* writer);

   // Invokes func(arg, range) for every controlled memory
   // range.  *range is filled in with information about the range.
   //
   // This is a best-effort interface useful only for performance
   // analysis.  The implementation may not call func at all.
   typedef void (RangeFunction)(void*, const base::MallocRange*);
   virtual void Ranges(void* arg, RangeFunction func);

   // -------------------------------------------------------------------
   // Control operations for getting and setting malloc implementation
   // specific parameters.  Some currently useful properties:
   //
   // generic
   // -------
   // "generic.current_allocated_bytes"
   //      Number of bytes currently allocated by application
   //      This property is not writable.
   //
   // "generic.heap_size"
   //      Number of bytes in the heap ==
   //            current_allocated_bytes +
   //            fragmentation +
   //            freed memory regions
   //      This property is not writable.
   //
   // tcmalloc
   // --------
   // "tcmalloc.max_total_thread_cache_bytes"
   //      Upper limit on total number of bytes stored across all
   //      per-thread caches.  Default: 16MB.
   //
   // "tcmalloc.current_total_thread_cache_bytes"
   //      Number of bytes used across all thread caches.
   //      This property is not writable.
   //
   // "tcmalloc.central_cache_free_bytes"
   //      Number of free bytes in the central cache that have been
   //      assigned to size classes. They always count towards virtual
   //      memory usage, and unless the underlying memory is swapped out
   //      by the OS, they also count towards physical memory usage.
   //      This property is not writable.
   //
   // "tcmalloc.transfer_cache_free_bytes"
   //      Number of free bytes that are waiting to be transfered between
   //      the central cache and a thread cache. They always count
   //      towards virtual memory usage, and unless the underlying memory
   //      is swapped out by the OS, they also count towards physical
   //      memory usage. This property is not writable.
   //
   // "tcmalloc.thread_cache_free_bytes"
   //      Number of free bytes in thread caches. They always count
   //      towards virtual memory usage, and unless the underlying memory
   //      is swapped out by the OS, they also count towards physical
   //      memory usage. This property is not writable.
   //
   // "tcmalloc.pageheap_free_bytes"
   //      Number of bytes in free, mapped pages in page heap.  These
   //      bytes can be used to fulfill allocation requests.  They
   //      always count towards virtual memory usage, and unless the
   //      underlying memory is swapped out by the OS, they also count
   //      towards physical memory usage.  This property is not writable.
   //
   // "tcmalloc.pageheap_unmapped_bytes"
   //        Number of bytes in free, unmapped pages in page heap.
   //        These are bytes that have been released back to the OS,
   //        possibly by one of the MallocExtension "Release" calls.
   //        They can be used to fulfill allocation requests, but
   //        typically incur a page fault.  They always count towards
   //        virtual memory usage, and depending on the OS, typically
   //        do not count towards physical memory usage.  This property
   //        is not writable.
   // -------------------------------------------------------------------

   // Get the named "property"'s value.  Returns true if the property
   // is known.  Returns false if the property is not a valid property
   // name for the current malloc implementation.
   // REQUIRES: property != NULL; value != NULL
   virtual bool GetNumericProperty(const char* property, size_t* value);

   // Set the named "property"'s value.  Returns true if the property
   // is known and writable.  Returns false if the property is not a
   // valid property name for the current malloc implementation, or
   // is not writable.
   // REQUIRES: property != NULL
   virtual bool SetNumericProperty(const char* property, size_t value);

   // Mark the current thread as "idle".  This routine may optionally
   // be called by threads as a hint to the malloc implementation that
   // any thread-specific resources should be released.  Note: this may
   // be an expensive routine, so it should not be called too often.
   //
   // Also, if the code that calls this routine will go to sleep for
   // a while, it should take care to not allocate anything between
   // the call to this routine and the beginning of the sleep.
   //
   // Most malloc implementations ignore this routine.
   virtual void MarkThreadIdle();

   // Mark the current thread as "busy".  This routine should be
   // called after MarkThreadIdle() if the thread will now do more
   // work.  If this method is not called, performance may suffer.
   //
   // Most malloc implementations ignore this routine.
   virtual void MarkThreadBusy();

   // Gets the system allocator used by the malloc extension instance. Returns
   // NULL for malloc implementations that do not support pluggable system
   // allocators.
   virtual SysAllocator* GetSystemAllocator();

   // Sets the system allocator to the specified.
   //
   // Users could register their own system allocators for malloc implementation
   // that supports pluggable system allocators, such as TCMalloc, by doing:
   //   alloc = new MyOwnSysAllocator();
   //   MallocExtension::instance()->SetSystemAllocator(alloc);
   // It's up to users whether to fall back (recommended) to the default
   // system allocator (use GetSystemAllocator() above) or not. The caller is
   // responsible to any necessary locking.
   // See tcmalloc/system-alloc.h for the interface and
   //     tcmalloc/memfs_malloc.cc for the examples.
   //
   // It's a no-op for malloc implementations that do not support pluggable
   // system allocators.
   virtual void SetSystemAllocator(SysAllocator *a);

   // Try to release num_bytes of free memory back to the operating
   // system for reuse.  Use this extension with caution -- to get this
   // memory back may require faulting pages back in by the OS, and
   // that may be slow.  (Currently only implemented in tcmalloc.)
   virtual void ReleaseToSystem(size_t num_bytes);

   // Same as ReleaseToSystem() but release as much memory as possible.
   virtual void ReleaseFreeMemory();

   // Sets the rate at which we release unused memory to the system.
   // Zero means we never release memory back to the system.  Increase
   // this flag to return memory faster; decrease it to return memory
   // slower.  Reasonable rates are in the range [0,10].  (Currently
   // only implemented in tcmalloc).
   virtual void SetMemoryReleaseRate(double rate);

   // Gets the release rate.  Returns a value < 0 if unknown.
   virtual double GetMemoryReleaseRate();

   // Returns the estimated number of bytes that will be allocated for
   // a request of "size" bytes.  This is an estimate: an allocation of
   // SIZE bytes may reserve more bytes, but will never reserve less.
   // (Currently only implemented in tcmalloc, other implementations
   // always return SIZE.)
   // This is equivalent to malloc_good_size() in OS X.
   virtual size_t GetEstimatedAllocatedSize(size_t size);

   // Returns the actual number N of bytes reserved by tcmalloc for the
   // pointer p.  The client is allowed to use the range of bytes
   // [p, p+N) in any way it wishes (i.e. N is the "usable size" of this
   // allocation).  This number may be equal to or greater than the number
   // of bytes requested when p was allocated.
   // p must have been allocated by this malloc implementation,
   // must not be an interior pointer -- that is, must be exactly
   // the pointer returned to by malloc() et al., not some offset
   // from that -- and should not have been freed yet.  p may be NULL.
   // (Currently only implemented in tcmalloc; other implementations
   // will return 0.)
   // This is equivalent to malloc_size() in OS X, malloc_usable_size()
   // in glibc, and _msize() for windows.
   virtual size_t GetAllocatedSize(const void* p);

   // Returns kOwned if this malloc implementation allocated the memory
   // pointed to by p, or kNotOwned if some other malloc implementation
   // allocated it or p is NULL.  May also return kUnknownOwnership if
   // the malloc implementation does not keep track of ownership.
   // REQUIRES: p must be a value returned from a previous call to
   // malloc(), calloc(), realloc(), memalign(), posix_memalign(),
   // valloc(), pvalloc(), new, or new[], and must refer to memory that
   // is currently allocated (so, for instance, you should not pass in
   // a pointer after having called free() on it).
   enum Ownership {
     // NOTE: Enum values MUST be kept in sync with the version in
     // malloc_extension_c.h
     kUnknownOwnership = 0,
     kOwned,
     kNotOwned
   };
   virtual Ownership GetOwnership(const void* p);

   // The current malloc implementation.  Always non-NULL.
   static MallocExtension* instance();

   // Change the malloc implementation.  Typically called by the
   // malloc implementation during initialization.
   static void Register(MallocExtension* implementation);

   // Returns detailed information about malloc's freelists. For each list,
   // return a FreeListInfo:
   struct FreeListInfo {
     size_t min_object_size;
     size_t max_object_size;
     size_t total_bytes_free;
     const char* type;
   };
   // Each item in the vector refers to a different freelist. The lists
   // are identified by the range of allocations that objects in the
   // list can satisfy ([min_object_size, max_object_size]) and the
   // type of freelist (see below). The current size of the list is
   // returned in total_bytes_free (which count against a processes
   // resident and virtual size).
   //
   // Currently supported types are:
   //
   // "tcmalloc.page{_unmapped}" - tcmalloc's page heap. An entry for each size
   //          class in the page heap is returned. Bytes in "page_unmapped"
   //          are no longer backed by physical memory and do not count against
   //          the resident size of a process.
   //
   // "tcmalloc.large{_unmapped}" - tcmalloc's list of objects larger
   //          than the largest page heap size class. Only one "large"
   //          entry is returned. There is no upper-bound on the size
   //          of objects in the large free list; this call returns
   //          kint64max for max_object_size.  Bytes in
   //          "large_unmapped" are no longer backed by physical memory
   //          and do not count against the resident size of a process.
   //
   // "tcmalloc.central" - tcmalloc's central free-list. One entry per
   //          size-class is returned. Never unmapped.
   //
   // "debug.free_queue" - free objects queued by the debug allocator
   //                      and not returned to tcmalloc.
   //
   // "tcmalloc.thread" - tcmalloc's per-thread caches. Never unmapped.
   virtual void GetFreeListSizes(std::vector<FreeListInfo>* v);

   // Get a list of stack traces of sampled allocation points.  Returns
   // a pointer to a "new[]-ed" result array, and stores the sample
   // period in "sample_period".
   //
   // The state is stored as a sequence of adjacent entries
   // in the returned array.  Each entry has the following form:
   //    uintptr_t count;        // Number of objects with following trace
   //    uintptr_t size;         // Total size of objects with following trace
   //    uintptr_t depth;        // Number of PC values in stack trace
   //    void*     stack[depth]; // PC values that form the stack trace
   //
   // The list of entries is terminated by a "count" of 0.
   //
   // It is the responsibility of the caller to "delete[]" the returned array.
   //
   // May return NULL to indicate no results.
   //
   // This is an internal extension.  Callers should use the more
   // convenient "GetHeapSample(string*)" method defined above.
   virtual void** ReadStackTraces(int* sample_period);

   // Like ReadStackTraces(), but returns stack traces that caused growth
   // in the address space size.
   virtual void** ReadHeapGrowthStackTraces();
 };

 namespace base {

 // Information passed per range.  More fields may be added later.
 struct MallocRange {
   enum Type {
     INUSE,                // Application is using this range
     FREE,                 // Range is currently free
     UNMAPPED,             // Backing physical memory has been returned to the OS
     UNKNOWN,
     // More enum values may be added in the future
   };

   uintptr_t address;    // Address of range
   size_t length;        // Byte length of range
   Type type;            // Type of this range
   double fraction;      // Fraction of range that is being used (0 if !INUSE)

   // Perhaps add the following:
   // - stack trace if this range was sampled
   // - heap growth stack trace if applicable to this range
   // - age when allocated (for inuse) or freed (if not in use)
 };

 } // namespace base

 #endif  // BASE_MALLOC_EXTENSION_H_
	// Copyright (c) 2005, Google Inc.
	// All rights reserved.
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following disclaimer
	// in the documentation and/or other materials provided with the
	// distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	// ---
	// Author: Sanjay Ghemawat <opensource@google.com>
	//
	// Extra extensions exported by some malloc implementations. These
	// extensions are accessed through a virtual base class so an
	// application can link against a malloc that does not implement these
	// extensions, and it will get default versions that do nothing.
	//
	// NOTE FOR C USERS: If you wish to use this functionality from within
	// a C program, see malloc_extension_c.h.

	#ifndef BASE_MALLOC_EXTENSION_H_
	#define BASE_MALLOC_EXTENSION_H_

	#include <stddef.h>
	// I can't #include config.h in this public API file, but I should
	// really use configure (and make malloc_extension.h a .in file) to
	// figure out if the system has stdint.h or not. But I'm lazy, so
	// for now I'm assuming it's a problem only with MSVC.
	#ifndef _MSC_VER
	#include <stdint.h>
	#endif
	#include <string>
	#include <vector>

	// Annoying stuff for windows -- makes sure clients can import these functions
	#ifndef PERFTOOLS_DLL_DECL
	# ifdef _WIN32
	# define PERFTOOLS_DLL_DECL __declspec(dllimport)
	# else
	# define PERFTOOLS_DLL_DECL
	# endif
	#endif

	static const int kMallocHistogramSize = 64;

	// One day, we could support other types of writers (perhaps for C?)
	typedef std::string MallocExtensionWriter;

	namespace base {
	struct MallocRange;
	}

	// Interface to a pluggable system allocator.
	class SysAllocator {
	public:
	SysAllocator() {
	}
	virtual ~SysAllocator();

	// Allocates "size"-byte of memory from system aligned with "alignment".
	// Returns NULL if failed. Otherwise, the returned pointer p up to and
	// including (p + actual_size -1) have been allocated.
	virtual void* Alloc(size_t size, size_t *actual_size, size_t alignment) = 0;
	};

	// The default implementations of the following routines do nothing.
	// All implementations should be thread-safe; the current one
	// (TCMallocImplementation) is.
	class PERFTOOLS_DLL_DECL MallocExtension {
	public:
	virtual ~MallocExtension();

	// Call this very early in the program execution -- say, in a global
	// constructor -- to set up parameters and state needed by all
	// instrumented malloc implemenatations. One example: this routine
	// sets environemnt variables to tell STL to use libc's malloc()
	// instead of doing its own memory management. This is safe to call
	// multiple times, as long as each time is before threads start up.
	static void Initialize();

	// See "verify_memory.h" to see what these routines do
	virtual bool VerifyAllMemory();
	virtual bool VerifyNewMemory(const void* p);
	virtual bool VerifyArrayNewMemory(const void* p);
	virtual bool VerifyMallocMemory(const void* p);
	virtual bool MallocMemoryStats(int* blocks, size_t* total,
	int histogram[kMallocHistogramSize]);

	// Get a human readable description of the current state of the malloc
	// data structures. The state is stored as a null-terminated string
	// in a prefix of "buffer[0,buffer_length-1]".
	// REQUIRES: buffer_length > 0.
	virtual void GetStats(char* buffer, int buffer_length);

	// Outputs to "writer" a sample of live objects and the stack traces
	// that allocated these objects. The format of the returned output
	// is equivalent to the output of the heap profiler and can
	// therefore be passed to "pprof". This function is equivalent to
	// ReadStackTraces. The main difference is that this function returns
	// serialized data appropriately formatted for use by the pprof tool.
	// NOTE: by default, tcmalloc does not do any heap sampling, and this
	// function will always return an empty sample. To get useful
	// data from GetHeapSample, you must also set the environment
	// variable TCMALLOC_SAMPLE_PARAMETER to a value such as 524288.
	virtual void GetHeapSample(MallocExtensionWriter* writer);

	// Outputs to "writer" the stack traces that caused growth in the
	// address space size. The format of the returned output is
	// equivalent to the output of the heap profiler and can therefore
	// be passed to "pprof". This function is equivalent to
	// ReadHeapGrowthStackTraces. The main difference is that this function
	// returns serialized data appropriately formatted for use by the
	// pprof tool. (This does not depend on, or require,
	// TCMALLOC_SAMPLE_PARAMETER.)
	virtual void GetHeapGrowthStacks(MallocExtensionWriter* writer);

	// Invokes func(arg, range) for every controlled memory
	// range. *range is filled in with information about the range.
	//
	// This is a best-effort interface useful only for performance
	// analysis. The implementation may not call func at all.
	typedef void (RangeFunction)(void, const base::MallocRange);
	virtual void Ranges(void* arg, RangeFunction func);

	// -------------------------------------------------------------------
	// Control operations for getting and setting malloc implementation
	// specific parameters. Some currently useful properties:
	//
	// generic
	// -------
	// "generic.current_allocated_bytes"
	// Number of bytes currently allocated by application
	// This property is not writable.
	//
	// "generic.heap_size"
	// Number of bytes in the heap ==
	// current_allocated_bytes +
	// fragmentation +
	// freed memory regions
	// This property is not writable.
	//
	// tcmalloc
	// --------
	// "tcmalloc.max_total_thread_cache_bytes"
	// Upper limit on total number of bytes stored across all
	// per-thread caches. Default: 16MB.
	//
	// "tcmalloc.current_total_thread_cache_bytes"
	// Number of bytes used across all thread caches.
	// This property is not writable.
	//
	// "tcmalloc.central_cache_free_bytes"
	// Number of free bytes in the central cache that have been
	// assigned to size classes. They always count towards virtual
	// memory usage, and unless the underlying memory is swapped out
	// by the OS, they also count towards physical memory usage.
	// This property is not writable.
	//
	// "tcmalloc.transfer_cache_free_bytes"
	// Number of free bytes that are waiting to be transfered between
	// the central cache and a thread cache. They always count
	// towards virtual memory usage, and unless the underlying memory
	// is swapped out by the OS, they also count towards physical
	// memory usage. This property is not writable.
	//
	// "tcmalloc.thread_cache_free_bytes"
	// Number of free bytes in thread caches. They always count
	// towards virtual memory usage, and unless the underlying memory
	// is swapped out by the OS, they also count towards physical
	// memory usage. This property is not writable.
	//
	// "tcmalloc.pageheap_free_bytes"
	// Number of bytes in free, mapped pages in page heap. These
	// bytes can be used to fulfill allocation requests. They
	// always count towards virtual memory usage, and unless the
	// underlying memory is swapped out by the OS, they also count
	// towards physical memory usage. This property is not writable.
	//
	// "tcmalloc.pageheap_unmapped_bytes"
	// Number of bytes in free, unmapped pages in page heap.
	// These are bytes that have been released back to the OS,
	// possibly by one of the MallocExtension "Release" calls.
	// They can be used to fulfill allocation requests, but
	// typically incur a page fault. They always count towards
	// virtual memory usage, and depending on the OS, typically
	// do not count towards physical memory usage. This property
	// is not writable.
	// -------------------------------------------------------------------

	// Get the named "property"'s value. Returns true if the property
	// is known. Returns false if the property is not a valid property
	// name for the current malloc implementation.
	// REQUIRES: property != NULL; value != NULL
	virtual bool GetNumericProperty(const char* property, size_t* value);

	// Set the named "property"'s value. Returns true if the property
	// is known and writable. Returns false if the property is not a
	// valid property name for the current malloc implementation, or
	// is not writable.
	// REQUIRES: property != NULL
	virtual bool SetNumericProperty(const char* property, size_t value);

	// Mark the current thread as "idle". This routine may optionally
	// be called by threads as a hint to the malloc implementation that
	// any thread-specific resources should be released. Note: this may
	// be an expensive routine, so it should not be called too often.
	//
	// Also, if the code that calls this routine will go to sleep for
	// a while, it should take care to not allocate anything between
	// the call to this routine and the beginning of the sleep.
	//
	// Most malloc implementations ignore this routine.
	virtual void MarkThreadIdle();

	// Mark the current thread as "busy". This routine should be
	// called after MarkThreadIdle() if the thread will now do more
	// work. If this method is not called, performance may suffer.
	//
	// Most malloc implementations ignore this routine.
	virtual void MarkThreadBusy();

	// Gets the system allocator used by the malloc extension instance. Returns
	// NULL for malloc implementations that do not support pluggable system
	// allocators.
	virtual SysAllocator* GetSystemAllocator();

	// Sets the system allocator to the specified.
	//
	// Users could register their own system allocators for malloc implementation
	// that supports pluggable system allocators, such as TCMalloc, by doing:
	// alloc = new MyOwnSysAllocator();
	// MallocExtension::instance()->SetSystemAllocator(alloc);
	// It's up to users whether to fall back (recommended) to the default
	// system allocator (use GetSystemAllocator() above) or not. The caller is
	// responsible to any necessary locking.
	// See tcmalloc/system-alloc.h for the interface and
	// tcmalloc/memfs_malloc.cc for the examples.
	//
	// It's a no-op for malloc implementations that do not support pluggable
	// system allocators.
	virtual void SetSystemAllocator(SysAllocator *a);

	// Try to release num_bytes of free memory back to the operating
	// system for reuse. Use this extension with caution -- to get this
	// memory back may require faulting pages back in by the OS, and
	// that may be slow. (Currently only implemented in tcmalloc.)
	virtual void ReleaseToSystem(size_t num_bytes);

	// Same as ReleaseToSystem() but release as much memory as possible.
	virtual void ReleaseFreeMemory();

	// Sets the rate at which we release unused memory to the system.
	// Zero means we never release memory back to the system. Increase
	// this flag to return memory faster; decrease it to return memory
	// slower. Reasonable rates are in the range [0,10]. (Currently
	// only implemented in tcmalloc).
	virtual void SetMemoryReleaseRate(double rate);

	// Gets the release rate. Returns a value < 0 if unknown.
	virtual double GetMemoryReleaseRate();

	// Returns the estimated number of bytes that will be allocated for
	// a request of "size" bytes. This is an estimate: an allocation of
	// SIZE bytes may reserve more bytes, but will never reserve less.
	// (Currently only implemented in tcmalloc, other implementations
	// always return SIZE.)
	// This is equivalent to malloc_good_size() in OS X.
	virtual size_t GetEstimatedAllocatedSize(size_t size);

	// Returns the actual number N of bytes reserved by tcmalloc for the
	// pointer p. The client is allowed to use the range of bytes
	// [p, p+N) in any way it wishes (i.e. N is the "usable size" of this
	// allocation). This number may be equal to or greater than the number
	// of bytes requested when p was allocated.
	// p must have been allocated by this malloc implementation,
	// must not be an interior pointer -- that is, must be exactly
	// the pointer returned to by malloc() et al., not some offset
	// from that -- and should not have been freed yet. p may be NULL.
	// (Currently only implemented in tcmalloc; other implementations
	// will return 0.)
	// This is equivalent to malloc_size() in OS X, malloc_usable_size()
	// in glibc, and _msize() for windows.
	virtual size_t GetAllocatedSize(const void* p);

	// Returns kOwned if this malloc implementation allocated the memory
	// pointed to by p, or kNotOwned if some other malloc implementation
	// allocated it or p is NULL. May also return kUnknownOwnership if
	// the malloc implementation does not keep track of ownership.
	// REQUIRES: p must be a value returned from a previous call to
	// malloc(), calloc(), realloc(), memalign(), posix_memalign(),
	// valloc(), pvalloc(), new, or new[], and must refer to memory that
	// is currently allocated (so, for instance, you should not pass in
	// a pointer after having called free() on it).
	enum Ownership {
	// NOTE: Enum values MUST be kept in sync with the version in
	// malloc_extension_c.h
	kUnknownOwnership = 0,
	kOwned,
	kNotOwned
	};
	virtual Ownership GetOwnership(const void* p);

	// The current malloc implementation. Always non-NULL.
	static MallocExtension* instance();

	// Change the malloc implementation. Typically called by the
	// malloc implementation during initialization.
	static void Register(MallocExtension* implementation);

	// Returns detailed information about malloc's freelists. For each list,
	// return a FreeListInfo:
	struct FreeListInfo {
	size_t min_object_size;
	size_t max_object_size;
	size_t total_bytes_free;
	const char* type;
	};
	// Each item in the vector refers to a different freelist. The lists
	// are identified by the range of allocations that objects in the
	// list can satisfy ([min_object_size, max_object_size]) and the
	// type of freelist (see below). The current size of the list is
	// returned in total_bytes_free (which count against a processes
	// resident and virtual size).
	//
	// Currently supported types are:
	//
	// "tcmalloc.page{_unmapped}" - tcmalloc's page heap. An entry for each size
	// class in the page heap is returned. Bytes in "page_unmapped"
	// are no longer backed by physical memory and do not count against
	// the resident size of a process.
	//
	// "tcmalloc.large{_unmapped}" - tcmalloc's list of objects larger
	// than the largest page heap size class. Only one "large"
	// entry is returned. There is no upper-bound on the size
	// of objects in the large free list; this call returns
	// kint64max for max_object_size. Bytes in
	// "large_unmapped" are no longer backed by physical memory
	// and do not count against the resident size of a process.
	//
	// "tcmalloc.central" - tcmalloc's central free-list. One entry per
	// size-class is returned. Never unmapped.
	//
	// "debug.free_queue" - free objects queued by the debug allocator
	// and not returned to tcmalloc.
	//
	// "tcmalloc.thread" - tcmalloc's per-thread caches. Never unmapped.
	virtual void GetFreeListSizes(std::vector<FreeListInfo>* v);

	// Get a list of stack traces of sampled allocation points. Returns
	// a pointer to a "new[]-ed" result array, and stores the sample
	// period in "sample_period".
	//
	// The state is stored as a sequence of adjacent entries
	// in the returned array. Each entry has the following form:
	// uintptr_t count; // Number of objects with following trace
	// uintptr_t size; // Total size of objects with following trace
	// uintptr_t depth; // Number of PC values in stack trace
	// void* stack[depth]; // PC values that form the stack trace
	//
	// The list of entries is terminated by a "count" of 0.
	//
	// It is the responsibility of the caller to "delete[]" the returned array.
	//
	// May return NULL to indicate no results.
	//
	// This is an internal extension. Callers should use the more
	// convenient "GetHeapSample(string*)" method defined above.
	virtual void** ReadStackTraces(int* sample_period);

	// Like ReadStackTraces(), but returns stack traces that caused growth
	// in the address space size.
	virtual void** ReadHeapGrowthStackTraces();
	};

	namespace base {

	// Information passed per range. More fields may be added later.
	struct MallocRange {
	enum Type {
	INUSE, // Application is using this range
	FREE, // Range is currently free
	UNMAPPED, // Backing physical memory has been returned to the OS
	UNKNOWN,
	// More enum values may be added in the future
	};

	uintptr_t address; // Address of range
	size_t length; // Byte length of range
	Type type; // Type of this range
	double fraction; // Fraction of range that is being used (0 if !INUSE)

	// Perhaps add the following:
	// - stack trace if this range was sampled
	// - heap growth stack trace if applicable to this range
	// - age when allocated (for inuse) or freed (if not in use)
	};

	} // namespace base

	#endif // BASE_MALLOC_EXTENSION_H_