base/allocator/allocator_shim.h - aosp/platform/external/libchrome - Git at Google

 // Copyright 2016 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_ALLOCATOR_ALLOCATOR_SHIM_H_
 #define BASE_ALLOCATOR_ALLOCATOR_SHIM_H_

 #include <stddef.h>

 #include "base/base_export.h"

 namespace base {
 namespace allocator {

 // Allocator Shim API. Allows to to:
 //  - Configure the behavior of the allocator (what to do on OOM failures).
 //  - Install new hooks (AllocatorDispatch) in the allocator chain.

 // When this shim layer is enabled, the route of an allocation is as-follows:
 //
 // [allocator_shim_override_*.h] Intercept malloc() / operator new calls:
 //   The override_* headers define the symbols required to intercept calls to
 //   malloc() and operator new (if not overridden by specific C++ classes).
 //
 // [allocator_shim.cc] Routing allocation calls to the shim:
 //   The headers above route the calls to the internal ShimMalloc(), ShimFree(),
 //   ShimCppNew() etc. methods defined in allocator_shim.cc.
 //   These methods will: (1) forward the allocation call to the front of the
 //   AllocatorDispatch chain. (2) perform security hardenings (e.g., might
 //   call std::new_handler on OOM failure).
 //
 // [allocator_shim_default_dispatch_to_*.cc] The AllocatorDispatch chain:
 //   It is a singly linked list where each element is a struct with function
 //   pointers (|malloc_function|, |free_function|, etc). Normally the chain
 //   consists of a single AllocatorDispatch element, herein called
 //   the "default dispatch", which is statically defined at build time and
 //   ultimately routes the calls to the actual allocator defined by the build
 //   config (tcmalloc, glibc, ...).
 //
 // It is possible to dynamically insert further AllocatorDispatch stages
 // to the front of the chain, for debugging / profiling purposes.
 //
 // All the functions must be thred safe. The shim does not enforce any
 // serialization. This is to route to thread-aware allocators (e.g, tcmalloc)
 // wihout introducing unnecessary perf hits.

 struct AllocatorDispatch {
   using AllocFn = void*(const AllocatorDispatch* self, size_t size);
   using AllocZeroInitializedFn = void*(const AllocatorDispatch* self,
                                        size_t n,
                                        size_t size);
   using AllocAlignedFn = void*(const AllocatorDispatch* self,
                                size_t alignment,
                                size_t size);
   using ReallocFn = void*(const AllocatorDispatch* self,
                           void* address,
                           size_t size);
   using FreeFn = void(const AllocatorDispatch* self, void* address);

   AllocFn* const alloc_function;
   AllocZeroInitializedFn* const alloc_zero_initialized_function;
   AllocAlignedFn* const alloc_aligned_function;
   ReallocFn* const realloc_function;
   FreeFn* const free_function;

   const AllocatorDispatch* next;

   // |default_dispatch| is statically defined by one (and only one) of the
   // allocator_shim_default_dispatch_to_*.cc files, depending on the build
   // configuration.
   static const AllocatorDispatch default_dispatch;
 };

 // When true makes malloc behave like new, w.r.t calling the new_handler if
 // the allocation fails (see set_new_mode() in Windows).
 BASE_EXPORT void SetCallNewHandlerOnMallocFailure(bool value);

 // Allocates |size| bytes or returns nullptr. It does NOT call the new_handler,
 // regardless of SetCallNewHandlerOnMallocFailure().
 BASE_EXPORT void* UncheckedAlloc(size_t size);

 // Inserts |dispatch| in front of the allocator chain. This method is NOT
 // thread-safe w.r.t concurrent invocations of InsertAllocatorDispatch().
 // The callers have the responsibility of linearizing the changes to the chain
 // (or more likely call these always on the same thread).
 BASE_EXPORT void InsertAllocatorDispatch(AllocatorDispatch* dispatch);

 // Test-only. Rationale: (1) lack of use cases; (2) dealing safely with a
 // removal of arbitrary elements from a singly linked list would require a lock
 // in malloc(), which we really don't want.
 BASE_EXPORT void RemoveAllocatorDispatchForTesting(AllocatorDispatch* dispatch);

 }  // namespace allocator
 }  // namespace base

 #endif  // BASE_ALLOCATOR_ALLOCATOR_SHIM_H_
	// Copyright 2016 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_ALLOCATOR_ALLOCATOR_SHIM_H_
	#define BASE_ALLOCATOR_ALLOCATOR_SHIM_H_

	#include <stddef.h>

	#include "base/base_export.h"

	namespace base {
	namespace allocator {

	// Allocator Shim API. Allows to to:
	// - Configure the behavior of the allocator (what to do on OOM failures).
	// - Install new hooks (AllocatorDispatch) in the allocator chain.

	// When this shim layer is enabled, the route of an allocation is as-follows:
	//
	// [allocator_shim_override_*.h] Intercept malloc() / operator new calls:
	// The override_* headers define the symbols required to intercept calls to
	// malloc() and operator new (if not overridden by specific C++ classes).
	//
	// [allocator_shim.cc] Routing allocation calls to the shim:
	// The headers above route the calls to the internal ShimMalloc(), ShimFree(),
	// ShimCppNew() etc. methods defined in allocator_shim.cc.
	// These methods will: (1) forward the allocation call to the front of the
	// AllocatorDispatch chain. (2) perform security hardenings (e.g., might
	// call std::new_handler on OOM failure).
	//
	// [allocator_shim_default_dispatch_to_*.cc] The AllocatorDispatch chain:
	// It is a singly linked list where each element is a struct with function
	// pointers (\|malloc_function\|, \|free_function\|, etc). Normally the chain
	// consists of a single AllocatorDispatch element, herein called
	// the "default dispatch", which is statically defined at build time and
	// ultimately routes the calls to the actual allocator defined by the build
	// config (tcmalloc, glibc, ...).
	//
	// It is possible to dynamically insert further AllocatorDispatch stages
	// to the front of the chain, for debugging / profiling purposes.
	//
	// All the functions must be thred safe. The shim does not enforce any
	// serialization. This is to route to thread-aware allocators (e.g, tcmalloc)
	// wihout introducing unnecessary perf hits.

	struct AllocatorDispatch {
	using AllocFn = void(const AllocatorDispatch self, size_t size);
	using AllocZeroInitializedFn = void(const AllocatorDispatch self,
	size_t n,
	size_t size);
	using AllocAlignedFn = void(const AllocatorDispatch self,
	size_t alignment,
	size_t size);
	using ReallocFn = void(const AllocatorDispatch self,
	void* address,
	size_t size);
	using FreeFn = void(const AllocatorDispatch* self, void* address);

	AllocFn* const alloc_function;
	AllocZeroInitializedFn* const alloc_zero_initialized_function;
	AllocAlignedFn* const alloc_aligned_function;
	ReallocFn* const realloc_function;
	FreeFn* const free_function;

	const AllocatorDispatch* next;

	// \|default_dispatch\| is statically defined by one (and only one) of the
	// allocator_shim_default_dispatch_to_*.cc files, depending on the build
	// configuration.
	static const AllocatorDispatch default_dispatch;
	};

	// When true makes malloc behave like new, w.r.t calling the new_handler if
	// the allocation fails (see set_new_mode() in Windows).
	BASE_EXPORT void SetCallNewHandlerOnMallocFailure(bool value);

	// Allocates \|size\| bytes or returns nullptr. It does NOT call the new_handler,
	// regardless of SetCallNewHandlerOnMallocFailure().
	BASE_EXPORT void* UncheckedAlloc(size_t size);

	// Inserts \|dispatch\| in front of the allocator chain. This method is NOT
	// thread-safe w.r.t concurrent invocations of InsertAllocatorDispatch().
	// The callers have the responsibility of linearizing the changes to the chain
	// (or more likely call these always on the same thread).
	BASE_EXPORT void InsertAllocatorDispatch(AllocatorDispatch* dispatch);

	// Test-only. Rationale: (1) lack of use cases; (2) dealing safely with a
	// removal of arbitrary elements from a singly linked list would require a lock
	// in malloc(), which we really don't want.
	BASE_EXPORT void RemoveAllocatorDispatchForTesting(AllocatorDispatch* dispatch);

	} // namespace allocator
	} // namespace base

	#endif // BASE_ALLOCATOR_ALLOCATOR_SHIM_H_