naiveproxy/base/sampling_heap_profiler/poisson_allocation_sampler.h

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2018-12-10 05:59:24 +03:00
// Copyright 2018 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_SAMPLING_HEAP_PROFILER_POISSON_ALLOCATION_SAMPLER_H_
#define BASE_SAMPLING_HEAP_PROFILER_POISSON_ALLOCATION_SAMPLER_H_
#include <memory>
#include <vector>
#include "base/base_export.h"
#include "base/macros.h"
#include "base/synchronization/lock.h"
#include "base/threading/thread_local.h"
namespace base {
template <typename T>
class NoDestructor;
class LockFreeAddressHashSet;
// This singleton class implements Poisson sampling of the incoming allocations
// stream. It hooks onto base::allocator and base::PartitionAlloc.
// An extra custom allocator can be hooked via SetHooksInstallCallback method.
// The only control parameter is sampling interval that controls average value
// of the sampling intervals. The actual intervals between samples are
// randomized using Poisson distribution to mitigate patterns in the allocation
// stream.
// Once accumulated allocation sizes fill up the current sample interval,
// a sample is generated and sent to the observers via |SampleAdded| call.
// When the corresponding memory that triggered the sample is freed observers
// get notified with |SampleRemoved| call.
//
class BASE_EXPORT PoissonAllocationSampler {
public:
enum AllocatorType : uint32_t { kMalloc, kPartitionAlloc, kBlinkGC, kMax };
class SamplesObserver {
public:
virtual ~SamplesObserver() = default;
virtual void SampleAdded(void* address,
size_t size,
size_t total,
AllocatorType type,
const char* context) = 0;
virtual void SampleRemoved(void* address) = 0;
};
// The instance of this class makes sampler do not report samples generated
// within the object scope for the current thread.
// It allows observers to allocate/deallocate memory while holding a lock
// without a chance to get into reentrancy problems.
class BASE_EXPORT MuteThreadSamplesScope {
public:
MuteThreadSamplesScope();
~MuteThreadSamplesScope();
};
// Must be called early during the process initialization. It creates and
// reserves a TLS slot.
static void Init();
// This is an entry point for plugging in an external allocator.
// Profiler will invoke the provided callback upon initialization.
// The callback should install hooks onto the corresponding memory allocator
// and make them invoke PoissonAllocationSampler::RecordAlloc and
// PoissonAllocationSampler::RecordFree upon corresponding allocation events.
//
// If the method is called after profiler is initialized, the callback
// is invoked right away.
static void SetHooksInstallCallback(void (*hooks_install_callback)());
void AddSamplesObserver(SamplesObserver*);
void RemoveSamplesObserver(SamplesObserver*);
void Start();
void Stop();
void SetSamplingInterval(size_t sampling_interval);
void SuppressRandomnessForTest(bool suppress);
static void RecordAlloc(void* address,
size_t,
AllocatorType,
const char* context);
static void RecordFree(void* address);
static PoissonAllocationSampler* Get();
private:
PoissonAllocationSampler();
~PoissonAllocationSampler() = delete;
static void InstallAllocatorHooksOnce();
static bool InstallAllocatorHooks();
static size_t GetNextSampleInterval(size_t base_interval);
static LockFreeAddressHashSet& sampled_addresses_set();
void DoRecordAlloc(size_t total_allocated,
size_t allocation_size,
void* address,
AllocatorType type,
const char* context);
void DoRecordFree(void* address);
void BalanceAddressesHashSet();
ThreadLocalBoolean entered_;
Lock mutex_;
std::vector<std::unique_ptr<LockFreeAddressHashSet>> sampled_addresses_stack_;
std::vector<SamplesObserver*> observers_;
static PoissonAllocationSampler* instance_;
friend class MuteThreadSamplesScope;
friend class NoDestructor<PoissonAllocationSampler>;
DISALLOW_COPY_AND_ASSIGN(PoissonAllocationSampler);
};
} // namespace base
#endif // BASE_SAMPLING_HEAP_PROFILER_POISSON_ALLOCATION_SAMPLER_H_