base/trace_event/process_memory_dump.h - chromium/src - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_TRACE_EVENT_PROCESS_MEMORY_DUMP_H_
 #define BASE_TRACE_EVENT_PROCESS_MEMORY_DUMP_H_

 #include <stddef.h>

 #include <map>
 #include <unordered_map>
 #include <vector>

 #include "base/base_export.h"
 #include "base/macros.h"
 #include "base/memory/ref_counted.h"
 #include "base/trace_event/heap_profiler_allocation_context.h"
 #include "base/trace_event/memory_allocator_dump.h"
 #include "base/trace_event/memory_allocator_dump_guid.h"
 #include "base/trace_event/memory_dump_request_args.h"
 #include "build/build_config.h"

 // Define COUNT_RESIDENT_BYTES_SUPPORTED if platform supports counting of the
 // resident memory.
 #if !defined(OS_NACL)
 #define COUNT_RESIDENT_BYTES_SUPPORTED
 #endif

 namespace base {

 class UnguessableToken;

 namespace trace_event {

 class TracedValue;

 // ProcessMemoryDump is as a strongly typed container which holds the dumps
 // produced by the MemoryDumpProvider(s) for a specific process.
 class BASE_EXPORT ProcessMemoryDump {
  public:
   struct BASE_EXPORT MemoryAllocatorDumpEdge {
     bool operator==(const MemoryAllocatorDumpEdge&) const;
     bool operator!=(const MemoryAllocatorDumpEdge&) const;

     MemoryAllocatorDumpGuid source;
     MemoryAllocatorDumpGuid target;
     int importance = 0;
     bool overridable = false;
   };

   // Maps allocator dumps absolute names (allocator_name/heap/subheap) to
   // MemoryAllocatorDump instances.
   using AllocatorDumpsMap =
       std::map<std::string, std::unique_ptr<MemoryAllocatorDump>>;

   // Stores allocator dump edges indexed by source allocator dump GUID.
   using AllocatorDumpEdgesMap =
       std::map<MemoryAllocatorDumpGuid, MemoryAllocatorDumpEdge>;

 #if defined(COUNT_RESIDENT_BYTES_SUPPORTED)
   // Returns the number of bytes in a kernel memory page. Some platforms may
   // have a different value for kernel page sizes from user page sizes. It is
   // important to use kernel memory page sizes for resident bytes calculation.
   // In most cases, the two are the same.
   static size_t GetSystemPageSize();

   // Returns the total bytes resident for a virtual address range, with given
   // |start_address| and |mapped_size|. |mapped_size| is specified in bytes. The
   // value returned is valid only if the given range is currently mmapped by the
   // process. The |start_address| must be page-aligned.
   static size_t CountResidentBytes(void* start_address, size_t mapped_size);

   // The same as above, but the given mapped range should belong to the
   // shared_memory's mapped region.
   static base::Optional<size_t> CountResidentBytesInSharedMemory(
       void* start_address,
       size_t mapped_size);
 #endif

   explicit ProcessMemoryDump(const MemoryDumpArgs& dump_args);
   ProcessMemoryDump(ProcessMemoryDump&&);
   ~ProcessMemoryDump();

   ProcessMemoryDump& operator=(ProcessMemoryDump&&);

   // Creates a new MemoryAllocatorDump with the given name and returns the
   // empty object back to the caller.
   // Arguments:
   //   absolute_name: a name that uniquely identifies allocator dumps produced
   //       by this provider. It is possible to specify nesting by using a
   //       path-like string (e.g., v8/isolate1/heap1, v8/isolate1/heap2).
   //       Leading or trailing slashes are not allowed.
   //   guid: an optional identifier, unique among all processes within the
   //       scope of a global dump. This is only relevant when using
   //       AddOwnershipEdge() to express memory sharing. If omitted,
   //       it will be automatically generated.
   // ProcessMemoryDump handles the memory ownership of its MemoryAllocatorDumps.
   MemoryAllocatorDump* CreateAllocatorDump(const std::string& absolute_name);
   MemoryAllocatorDump* CreateAllocatorDump(const std::string& absolute_name,
                                            const MemoryAllocatorDumpGuid& guid);

   // Looks up a MemoryAllocatorDump given its allocator and heap names, or
   // nullptr if not found.
   MemoryAllocatorDump* GetAllocatorDump(const std::string& absolute_name) const;

   // Do NOT use this method. All dump providers should use
   // CreateAllocatorDump(). Tries to create a new MemoryAllocatorDump only if it
   // doesn't already exist. Creating multiple dumps with same name using
   // GetOrCreateAllocatorDump() would override the existing scalars in MAD and
   // cause misreporting. This method is used only in rare cases multiple
   // components create allocator dumps with same name and only one of them adds
   // size.
   MemoryAllocatorDump* GetOrCreateAllocatorDump(
       const std::string& absolute_name);

   // Creates a shared MemoryAllocatorDump, to express cross-process sharing.
   // Shared allocator dumps are allowed to have duplicate guids within the
   // global scope, in order to reference the same dump from multiple processes.
   // See the design doc goo.gl/keU6Bf for reference usage patterns.
   MemoryAllocatorDump* CreateSharedGlobalAllocatorDump(
       const MemoryAllocatorDumpGuid& guid);

   // Creates a shared MemoryAllocatorDump as CreateSharedGlobalAllocatorDump,
   // but with a WEAK flag. A weak dump will be discarded unless a non-weak dump
   // is created using CreateSharedGlobalAllocatorDump by at least one process.
   // The WEAK flag does not apply if a non-weak dump with the same GUID already
   // exists or is created later. All owners and children of the discarded dump
   // will also be discarded transitively.
   MemoryAllocatorDump* CreateWeakSharedGlobalAllocatorDump(
       const MemoryAllocatorDumpGuid& guid);

   // Looks up a shared MemoryAllocatorDump given its guid.
   MemoryAllocatorDump* GetSharedGlobalAllocatorDump(
       const MemoryAllocatorDumpGuid& guid) const;

   // Returns the map of the MemoryAllocatorDumps added to this dump.
   const AllocatorDumpsMap& allocator_dumps() const { return allocator_dumps_; }

   AllocatorDumpsMap* mutable_allocator_dumps_for_serialization() const {
     // Mojo takes a const input argument even for move-only types that can be
     // mutate while serializing (like this one). Hence the const_cast.
     return const_cast<AllocatorDumpsMap*>(&allocator_dumps_);
   }
   void SetAllocatorDumpsForSerialization(
       std::vector<std::unique_ptr<MemoryAllocatorDump>>);

   // Only for mojo serialization.
   std::vector<MemoryAllocatorDumpEdge> GetAllEdgesForSerialization() const;
   void SetAllEdgesForSerialization(const std::vector<MemoryAllocatorDumpEdge>&);

   // Dumps heap usage with |allocator_name|.
   void DumpHeapUsage(
       const std::unordered_map<base::trace_event::AllocationContext,
                                base::trace_event::AllocationMetrics>&
           metrics_by_context,
       base::trace_event::TraceEventMemoryOverhead& overhead,
       const char* allocator_name);

   // Adds an ownership relationship between two MemoryAllocatorDump(s) with the
   // semantics: |source| owns |target|, and has the effect of attributing
   // the memory usage of |target| to |source|. |importance| is optional and
   // relevant only for the cases of co-ownership, where it acts as a z-index:
   // the owner with the highest importance will be attributed |target|'s memory.
   // If an edge is present, its importance will not be updated unless
   // |importance| is larger.
   void AddOwnershipEdge(const MemoryAllocatorDumpGuid& source,
                         const MemoryAllocatorDumpGuid& target,
                         int importance);
   void AddOwnershipEdge(const MemoryAllocatorDumpGuid& source,
                         const MemoryAllocatorDumpGuid& target);

   // Adds edges that can be overriden by a later or earlier call to
   // AddOwnershipEdge() with the same source and target with a different
   // |importance| value.
   void AddOverridableOwnershipEdge(const MemoryAllocatorDumpGuid& source,
                                    const MemoryAllocatorDumpGuid& target,
                                    int importance);

   // Creates ownership edges for shared memory. Handles the case of cross
   // process sharing and importance of ownership for the case with and without
   // the shared memory dump provider. This handles both shared memory from both
   // legacy base::SharedMemory as well as current base::SharedMemoryMapping. The
   // weak version creates a weak global dump.
   // |client_local_dump_guid| The guid of the local dump created by the client
   // of base::SharedMemory.
   // |shared_memory_guid| The ID of the shared memory that is assigned globally,
   // used to create global dump edges in the new model.
   // |importance| Importance of the global dump edges to say if the current
   // process owns the memory segment.
   void CreateSharedMemoryOwnershipEdge(
       const MemoryAllocatorDumpGuid& client_local_dump_guid,
       const UnguessableToken& shared_memory_guid,
       int importance);
   void CreateWeakSharedMemoryOwnershipEdge(
       const MemoryAllocatorDumpGuid& client_local_dump_guid,
       const UnguessableToken& shared_memory_guid,
       int importance);

   const AllocatorDumpEdgesMap& allocator_dumps_edges() const {
     return allocator_dumps_edges_;
   }

   // Utility method to add a suballocation relationship with the following
   // semantics: |source| is suballocated from |target_node_name|.
   // This creates a child node of |target_node_name| and adds an ownership edge
   // between |source| and the new child node. As a result, the UI will not
   // account the memory of |source| in the target node.
   void AddSuballocation(const MemoryAllocatorDumpGuid& source,
                         const std::string& target_node_name);

   // Removes all the MemoryAllocatorDump(s) contained in this instance. This
   // ProcessMemoryDump can be safely reused as if it was new once this returns.
   void Clear();

   // Merges all MemoryAllocatorDump(s) contained in |other| inside this
   // ProcessMemoryDump, transferring their ownership to this instance.
   // |other| will be an empty ProcessMemoryDump after this method returns.
   // This is to allow dump providers to pre-populate ProcessMemoryDump instances
   // and later move their contents into the ProcessMemoryDump passed as argument
   // of the MemoryDumpProvider::OnMemoryDump(ProcessMemoryDump*) callback.
   void TakeAllDumpsFrom(ProcessMemoryDump* other);

   // Populate the traced value with information about the memory allocator
   // dumps.
   void SerializeAllocatorDumpsInto(TracedValue* value) const;

   const MemoryDumpArgs& dump_args() const { return dump_args_; }

  private:
   FRIEND_TEST_ALL_PREFIXES(ProcessMemoryDumpTest, BackgroundModeTest);
   FRIEND_TEST_ALL_PREFIXES(ProcessMemoryDumpTest, SharedMemoryOwnershipTest);
   FRIEND_TEST_ALL_PREFIXES(ProcessMemoryDumpTest, GuidsTest);

   MemoryAllocatorDump* AddAllocatorDumpInternal(
       std::unique_ptr<MemoryAllocatorDump> mad);

   // A per-process token, valid throughout all the lifetime of the current
   // process, used to disambiguate dumps with the same name generated in
   // different processes.
   const UnguessableToken& process_token() const { return process_token_; }
   void set_process_token_for_testing(UnguessableToken token) {
     process_token_ = token;
   }

   // Returns the Guid of the dump for the given |absolute_name| for
   // for the given process' token. |process_token| is used to disambiguate GUIDs
   // derived from the same name under different processes.
   MemoryAllocatorDumpGuid GetDumpId(const std::string& absolute_name);

   void CreateSharedMemoryOwnershipEdgeInternal(
       const MemoryAllocatorDumpGuid& client_local_dump_guid,
       const UnguessableToken& shared_memory_guid,
       int importance,
       bool is_weak);

   MemoryAllocatorDump* GetBlackHoleMad();

   UnguessableToken process_token_;
   AllocatorDumpsMap allocator_dumps_;

   // Keeps track of relationships between MemoryAllocatorDump(s).
   AllocatorDumpEdgesMap allocator_dumps_edges_;

   // Level of detail of the current dump.
   MemoryDumpArgs dump_args_;

   // This allocator dump is returned when an invalid dump is created in
   // background mode. The attributes of the dump are ignored and not added to
   // the trace.
   std::unique_ptr<MemoryAllocatorDump> black_hole_mad_;

   // When set to true, the DCHECK(s) for invalid dump creations on the
   // background mode are disabled for testing.
   static bool is_black_hole_non_fatal_for_testing_;

   DISALLOW_COPY_AND_ASSIGN(ProcessMemoryDump);
 };

 }  // namespace trace_event
 }  // namespace base

 #endif  // BASE_TRACE_EVENT_PROCESS_MEMORY_DUMP_H_
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_TRACE_EVENT_PROCESS_MEMORY_DUMP_H_
	#define BASE_TRACE_EVENT_PROCESS_MEMORY_DUMP_H_

	#include <stddef.h>

	#include <map>
	#include <unordered_map>
	#include <vector>

	#include "base/base_export.h"
	#include "base/macros.h"
	#include "base/memory/ref_counted.h"
	#include "base/trace_event/heap_profiler_allocation_context.h"
	#include "base/trace_event/memory_allocator_dump.h"
	#include "base/trace_event/memory_allocator_dump_guid.h"
	#include "base/trace_event/memory_dump_request_args.h"
	#include "build/build_config.h"

	// Define COUNT_RESIDENT_BYTES_SUPPORTED if platform supports counting of the
	// resident memory.
	#if !defined(OS_NACL)
	#define COUNT_RESIDENT_BYTES_SUPPORTED
	#endif

	namespace base {

	class UnguessableToken;

	namespace trace_event {

	class TracedValue;

	// ProcessMemoryDump is as a strongly typed container which holds the dumps
	// produced by the MemoryDumpProvider(s) for a specific process.
	class BASE_EXPORT ProcessMemoryDump {
	public:
	struct BASE_EXPORT MemoryAllocatorDumpEdge {
	bool operator==(const MemoryAllocatorDumpEdge&) const;
	bool operator!=(const MemoryAllocatorDumpEdge&) const;

	MemoryAllocatorDumpGuid source;
	MemoryAllocatorDumpGuid target;
	int importance = 0;
	bool overridable = false;
	};

	// Maps allocator dumps absolute names (allocator_name/heap/subheap) to
	// MemoryAllocatorDump instances.
	using AllocatorDumpsMap =
	std::map<std::string, std::unique_ptr<MemoryAllocatorDump>>;

	// Stores allocator dump edges indexed by source allocator dump GUID.
	using AllocatorDumpEdgesMap =
	std::map<MemoryAllocatorDumpGuid, MemoryAllocatorDumpEdge>;

	#if defined(COUNT_RESIDENT_BYTES_SUPPORTED)
	// Returns the number of bytes in a kernel memory page. Some platforms may
	// have a different value for kernel page sizes from user page sizes. It is
	// important to use kernel memory page sizes for resident bytes calculation.
	// In most cases, the two are the same.
	static size_t GetSystemPageSize();

	// Returns the total bytes resident for a virtual address range, with given
	// \|start_address\| and \|mapped_size\|. \|mapped_size\| is specified in bytes. The
	// value returned is valid only if the given range is currently mmapped by the
	// process. The \|start_address\| must be page-aligned.
	static size_t CountResidentBytes(void* start_address, size_t mapped_size);

	// The same as above, but the given mapped range should belong to the
	// shared_memory's mapped region.
	static base::Optional<size_t> CountResidentBytesInSharedMemory(
	void* start_address,
	size_t mapped_size);
	#endif

	explicit ProcessMemoryDump(const MemoryDumpArgs& dump_args);
	ProcessMemoryDump(ProcessMemoryDump&&);
	~ProcessMemoryDump();

	ProcessMemoryDump& operator=(ProcessMemoryDump&&);

	// Creates a new MemoryAllocatorDump with the given name and returns the
	// empty object back to the caller.
	// Arguments:
	// absolute_name: a name that uniquely identifies allocator dumps produced
	// by this provider. It is possible to specify nesting by using a
	// path-like string (e.g., v8/isolate1/heap1, v8/isolate1/heap2).
	// Leading or trailing slashes are not allowed.
	// guid: an optional identifier, unique among all processes within the
	// scope of a global dump. This is only relevant when using
	// AddOwnershipEdge() to express memory sharing. If omitted,
	// it will be automatically generated.
	// ProcessMemoryDump handles the memory ownership of its MemoryAllocatorDumps.
	MemoryAllocatorDump* CreateAllocatorDump(const std::string& absolute_name);
	MemoryAllocatorDump* CreateAllocatorDump(const std::string& absolute_name,
	const MemoryAllocatorDumpGuid& guid);

	// Looks up a MemoryAllocatorDump given its allocator and heap names, or
	// nullptr if not found.
	MemoryAllocatorDump* GetAllocatorDump(const std::string& absolute_name) const;

	// Do NOT use this method. All dump providers should use
	// CreateAllocatorDump(). Tries to create a new MemoryAllocatorDump only if it
	// doesn't already exist. Creating multiple dumps with same name using
	// GetOrCreateAllocatorDump() would override the existing scalars in MAD and
	// cause misreporting. This method is used only in rare cases multiple
	// components create allocator dumps with same name and only one of them adds
	// size.
	MemoryAllocatorDump* GetOrCreateAllocatorDump(
	const std::string& absolute_name);

	// Creates a shared MemoryAllocatorDump, to express cross-process sharing.
	// Shared allocator dumps are allowed to have duplicate guids within the
	// global scope, in order to reference the same dump from multiple processes.
	// See the design doc goo.gl/keU6Bf for reference usage patterns.
	MemoryAllocatorDump* CreateSharedGlobalAllocatorDump(
	const MemoryAllocatorDumpGuid& guid);

	// Creates a shared MemoryAllocatorDump as CreateSharedGlobalAllocatorDump,
	// but with a WEAK flag. A weak dump will be discarded unless a non-weak dump
	// is created using CreateSharedGlobalAllocatorDump by at least one process.
	// The WEAK flag does not apply if a non-weak dump with the same GUID already
	// exists or is created later. All owners and children of the discarded dump
	// will also be discarded transitively.
	MemoryAllocatorDump* CreateWeakSharedGlobalAllocatorDump(
	const MemoryAllocatorDumpGuid& guid);

	// Looks up a shared MemoryAllocatorDump given its guid.
	MemoryAllocatorDump* GetSharedGlobalAllocatorDump(
	const MemoryAllocatorDumpGuid& guid) const;

	// Returns the map of the MemoryAllocatorDumps added to this dump.
	const AllocatorDumpsMap& allocator_dumps() const { return allocator_dumps_; }

	AllocatorDumpsMap* mutable_allocator_dumps_for_serialization() const {
	// Mojo takes a const input argument even for move-only types that can be
	// mutate while serializing (like this one). Hence the const_cast.
	return const_cast<AllocatorDumpsMap*>(&allocator_dumps_);
	}
	void SetAllocatorDumpsForSerialization(
	std::vector<std::unique_ptr<MemoryAllocatorDump>>);

	// Only for mojo serialization.
	std::vector<MemoryAllocatorDumpEdge> GetAllEdgesForSerialization() const;
	void SetAllEdgesForSerialization(const std::vector<MemoryAllocatorDumpEdge>&);

	// Dumps heap usage with \|allocator_name\|.
	void DumpHeapUsage(
	const std::unordered_map<base::trace_event::AllocationContext,
	base::trace_event::AllocationMetrics>&
	metrics_by_context,
	base::trace_event::TraceEventMemoryOverhead& overhead,
	const char* allocator_name);

	// Adds an ownership relationship between two MemoryAllocatorDump(s) with the
	// semantics: \|source\| owns \|target\|, and has the effect of attributing
	// the memory usage of \|target\| to \|source\|. \|importance\| is optional and
	// relevant only for the cases of co-ownership, where it acts as a z-index:
	// the owner with the highest importance will be attributed \|target\|'s memory.
	// If an edge is present, its importance will not be updated unless
	// \|importance\| is larger.
	void AddOwnershipEdge(const MemoryAllocatorDumpGuid& source,
	const MemoryAllocatorDumpGuid& target,
	int importance);
	void AddOwnershipEdge(const MemoryAllocatorDumpGuid& source,
	const MemoryAllocatorDumpGuid& target);

	// Adds edges that can be overriden by a later or earlier call to
	// AddOwnershipEdge() with the same source and target with a different
	// \|importance\| value.
	void AddOverridableOwnershipEdge(const MemoryAllocatorDumpGuid& source,
	const MemoryAllocatorDumpGuid& target,
	int importance);

	// Creates ownership edges for shared memory. Handles the case of cross
	// process sharing and importance of ownership for the case with and without
	// the shared memory dump provider. This handles both shared memory from both
	// legacy base::SharedMemory as well as current base::SharedMemoryMapping. The
	// weak version creates a weak global dump.
	// \|client_local_dump_guid\| The guid of the local dump created by the client
	// of base::SharedMemory.
	// \|shared_memory_guid\| The ID of the shared memory that is assigned globally,
	// used to create global dump edges in the new model.
	// \|importance\| Importance of the global dump edges to say if the current
	// process owns the memory segment.
	void CreateSharedMemoryOwnershipEdge(
	const MemoryAllocatorDumpGuid& client_local_dump_guid,
	const UnguessableToken& shared_memory_guid,
	int importance);
	void CreateWeakSharedMemoryOwnershipEdge(
	const MemoryAllocatorDumpGuid& client_local_dump_guid,
	const UnguessableToken& shared_memory_guid,
	int importance);

	const AllocatorDumpEdgesMap& allocator_dumps_edges() const {
	return allocator_dumps_edges_;
	}

	// Utility method to add a suballocation relationship with the following
	// semantics: \|source\| is suballocated from \|target_node_name\|.
	// This creates a child node of \|target_node_name\| and adds an ownership edge
	// between \|source\| and the new child node. As a result, the UI will not
	// account the memory of \|source\| in the target node.
	void AddSuballocation(const MemoryAllocatorDumpGuid& source,
	const std::string& target_node_name);

	// Removes all the MemoryAllocatorDump(s) contained in this instance. This
	// ProcessMemoryDump can be safely reused as if it was new once this returns.
	void Clear();

	// Merges all MemoryAllocatorDump(s) contained in \|other\| inside this
	// ProcessMemoryDump, transferring their ownership to this instance.
	// \|other\| will be an empty ProcessMemoryDump after this method returns.
	// This is to allow dump providers to pre-populate ProcessMemoryDump instances
	// and later move their contents into the ProcessMemoryDump passed as argument
	// of the MemoryDumpProvider::OnMemoryDump(ProcessMemoryDump*) callback.
	void TakeAllDumpsFrom(ProcessMemoryDump* other);

	// Populate the traced value with information about the memory allocator
	// dumps.
	void SerializeAllocatorDumpsInto(TracedValue* value) const;

	const MemoryDumpArgs& dump_args() const { return dump_args_; }

	private:
	FRIEND_TEST_ALL_PREFIXES(ProcessMemoryDumpTest, BackgroundModeTest);
	FRIEND_TEST_ALL_PREFIXES(ProcessMemoryDumpTest, SharedMemoryOwnershipTest);
	FRIEND_TEST_ALL_PREFIXES(ProcessMemoryDumpTest, GuidsTest);

	MemoryAllocatorDump* AddAllocatorDumpInternal(
	std::unique_ptr<MemoryAllocatorDump> mad);

	// A per-process token, valid throughout all the lifetime of the current
	// process, used to disambiguate dumps with the same name generated in
	// different processes.
	const UnguessableToken& process_token() const { return process_token_; }
	void set_process_token_for_testing(UnguessableToken token) {
	process_token_ = token;
	}

	// Returns the Guid of the dump for the given \|absolute_name\| for
	// for the given process' token. \|process_token\| is used to disambiguate GUIDs
	// derived from the same name under different processes.
	MemoryAllocatorDumpGuid GetDumpId(const std::string& absolute_name);

	void CreateSharedMemoryOwnershipEdgeInternal(
	const MemoryAllocatorDumpGuid& client_local_dump_guid,
	const UnguessableToken& shared_memory_guid,
	int importance,
	bool is_weak);

	MemoryAllocatorDump* GetBlackHoleMad();

	UnguessableToken process_token_;
	AllocatorDumpsMap allocator_dumps_;

	// Keeps track of relationships between MemoryAllocatorDump(s).
	AllocatorDumpEdgesMap allocator_dumps_edges_;

	// Level of detail of the current dump.
	MemoryDumpArgs dump_args_;

	// This allocator dump is returned when an invalid dump is created in
	// background mode. The attributes of the dump are ignored and not added to
	// the trace.
	std::unique_ptr<MemoryAllocatorDump> black_hole_mad_;

	// When set to true, the DCHECK(s) for invalid dump creations on the
	// background mode are disabled for testing.
	static bool is_black_hole_non_fatal_for_testing_;

	DISALLOW_COPY_AND_ASSIGN(ProcessMemoryDump);
	};

	} // namespace trace_event
	} // namespace base

	#endif // BASE_TRACE_EVENT_PROCESS_MEMORY_DUMP_H_