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341 lines
11 KiB
C++
341 lines
11 KiB
C++
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// Copyright 2016 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/debug/thread_heap_usage_tracker.h"
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#include <stdint.h>
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#include <algorithm>
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#include <limits>
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#include <new>
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#include <type_traits>
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#include "base/allocator/allocator_shim.h"
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#include "base/allocator/features.h"
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#include "base/logging.h"
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#include "base/threading/thread_local_storage.h"
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#include "build/build_config.h"
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#if defined(OS_MACOSX) || defined(OS_IOS)
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#include <malloc/malloc.h>
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#else
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#include <malloc.h>
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#endif
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namespace base {
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namespace debug {
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namespace {
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using base::allocator::AllocatorDispatch;
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ThreadLocalStorage::StaticSlot g_thread_allocator_usage = TLS_INITIALIZER;
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const uintptr_t kSentinelMask = std::numeric_limits<uintptr_t>::max() - 1;
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ThreadHeapUsage* const kInitializationSentinel =
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reinterpret_cast<ThreadHeapUsage*>(kSentinelMask);
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ThreadHeapUsage* const kTeardownSentinel =
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reinterpret_cast<ThreadHeapUsage*>(kSentinelMask | 1);
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bool g_heap_tracking_enabled = false;
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// Forward declared as it needs to delegate memory allocation to the next
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// lower shim.
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ThreadHeapUsage* GetOrCreateThreadUsage();
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size_t GetAllocSizeEstimate(const AllocatorDispatch* next,
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void* ptr,
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void* context) {
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if (ptr == nullptr)
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return 0U;
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return next->get_size_estimate_function(next, ptr, context);
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}
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void RecordAlloc(const AllocatorDispatch* next,
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void* ptr,
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size_t size,
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void* context) {
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ThreadHeapUsage* usage = GetOrCreateThreadUsage();
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if (usage == nullptr)
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return;
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usage->alloc_ops++;
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size_t estimate = GetAllocSizeEstimate(next, ptr, context);
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if (size && estimate) {
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// Only keep track of the net number of bytes allocated in the scope if the
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// size estimate function returns sane values, e.g. non-zero.
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usage->alloc_bytes += estimate;
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usage->alloc_overhead_bytes += estimate - size;
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// Record the max outstanding number of bytes, but only if the difference
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// is net positive (e.g. more bytes allocated than freed in the scope).
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if (usage->alloc_bytes > usage->free_bytes) {
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uint64_t allocated_bytes = usage->alloc_bytes - usage->free_bytes;
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if (allocated_bytes > usage->max_allocated_bytes)
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usage->max_allocated_bytes = allocated_bytes;
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}
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} else {
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usage->alloc_bytes += size;
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}
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}
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void RecordFree(const AllocatorDispatch* next, void* ptr, void* context) {
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ThreadHeapUsage* usage = GetOrCreateThreadUsage();
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if (usage == nullptr)
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return;
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size_t estimate = GetAllocSizeEstimate(next, ptr, context);
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usage->free_ops++;
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usage->free_bytes += estimate;
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}
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void* AllocFn(const AllocatorDispatch* self, size_t size, void* context) {
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void* ret = self->next->alloc_function(self->next, size, context);
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if (ret != nullptr)
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RecordAlloc(self->next, ret, size, context);
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return ret;
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}
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void* AllocZeroInitializedFn(const AllocatorDispatch* self,
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size_t n,
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size_t size,
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void* context) {
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void* ret =
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self->next->alloc_zero_initialized_function(self->next, n, size, context);
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if (ret != nullptr)
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RecordAlloc(self->next, ret, size, context);
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return ret;
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}
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void* AllocAlignedFn(const AllocatorDispatch* self,
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size_t alignment,
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size_t size,
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void* context) {
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void* ret =
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self->next->alloc_aligned_function(self->next, alignment, size, context);
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if (ret != nullptr)
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RecordAlloc(self->next, ret, size, context);
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return ret;
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}
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void* ReallocFn(const AllocatorDispatch* self,
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void* address,
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size_t size,
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void* context) {
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if (address != nullptr)
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RecordFree(self->next, address, context);
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void* ret = self->next->realloc_function(self->next, address, size, context);
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if (ret != nullptr && size != 0)
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RecordAlloc(self->next, ret, size, context);
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return ret;
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}
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void FreeFn(const AllocatorDispatch* self, void* address, void* context) {
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if (address != nullptr)
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RecordFree(self->next, address, context);
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self->next->free_function(self->next, address, context);
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}
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size_t GetSizeEstimateFn(const AllocatorDispatch* self,
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void* address,
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void* context) {
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return self->next->get_size_estimate_function(self->next, address, context);
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}
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unsigned BatchMallocFn(const AllocatorDispatch* self,
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size_t size,
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void** results,
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unsigned num_requested,
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void* context) {
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unsigned count = self->next->batch_malloc_function(self->next, size, results,
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num_requested, context);
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for (unsigned i = 0; i < count; ++i) {
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RecordAlloc(self->next, results[i], size, context);
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}
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return count;
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}
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void BatchFreeFn(const AllocatorDispatch* self,
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void** to_be_freed,
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unsigned num_to_be_freed,
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void* context) {
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for (unsigned i = 0; i < num_to_be_freed; ++i) {
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if (to_be_freed[i] != nullptr) {
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RecordFree(self->next, to_be_freed[i], context);
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}
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}
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self->next->batch_free_function(self->next, to_be_freed, num_to_be_freed,
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context);
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}
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void FreeDefiniteSizeFn(const AllocatorDispatch* self,
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void* ptr,
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size_t size,
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void* context) {
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if (ptr != nullptr)
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RecordFree(self->next, ptr, context);
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self->next->free_definite_size_function(self->next, ptr, size, context);
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}
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// The allocator dispatch used to intercept heap operations.
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AllocatorDispatch allocator_dispatch = {&AllocFn,
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&AllocZeroInitializedFn,
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&AllocAlignedFn,
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&ReallocFn,
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&FreeFn,
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&GetSizeEstimateFn,
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&BatchMallocFn,
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&BatchFreeFn,
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&FreeDefiniteSizeFn,
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nullptr};
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ThreadHeapUsage* GetOrCreateThreadUsage() {
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auto tls_ptr = reinterpret_cast<uintptr_t>(g_thread_allocator_usage.Get());
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if ((tls_ptr & kSentinelMask) == kSentinelMask)
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return nullptr; // Re-entrancy case.
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auto* allocator_usage = reinterpret_cast<ThreadHeapUsage*>(tls_ptr);
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if (allocator_usage == nullptr) {
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// Prevent reentrancy due to the allocation below.
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g_thread_allocator_usage.Set(kInitializationSentinel);
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allocator_usage = new ThreadHeapUsage();
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static_assert(std::is_pod<ThreadHeapUsage>::value,
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"AllocatorDispatch must be POD");
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memset(allocator_usage, 0, sizeof(*allocator_usage));
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g_thread_allocator_usage.Set(allocator_usage);
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}
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return allocator_usage;
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}
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} // namespace
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ThreadHeapUsageTracker::ThreadHeapUsageTracker() : thread_usage_(nullptr) {
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static_assert(std::is_pod<ThreadHeapUsage>::value, "Must be POD.");
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}
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ThreadHeapUsageTracker::~ThreadHeapUsageTracker() {
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DCHECK(thread_checker_.CalledOnValidThread());
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if (thread_usage_ != nullptr) {
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// If this tracker wasn't stopped, make it inclusive so that the
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// usage isn't lost.
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Stop(false);
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}
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}
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void ThreadHeapUsageTracker::Start() {
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DCHECK(thread_checker_.CalledOnValidThread());
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DCHECK(g_thread_allocator_usage.initialized());
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thread_usage_ = GetOrCreateThreadUsage();
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usage_ = *thread_usage_;
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// Reset the stats for our current scope.
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// The per-thread usage instance now tracks this scope's usage, while this
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// instance persists the outer scope's usage stats. On destruction, this
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// instance will restore the outer scope's usage stats with this scope's
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// usage added.
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memset(thread_usage_, 0, sizeof(*thread_usage_));
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}
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void ThreadHeapUsageTracker::Stop(bool usage_is_exclusive) {
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DCHECK(thread_checker_.CalledOnValidThread());
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DCHECK_NE(nullptr, thread_usage_);
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ThreadHeapUsage current = *thread_usage_;
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if (usage_is_exclusive) {
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// Restore the outer scope.
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*thread_usage_ = usage_;
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} else {
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// Update the outer scope with the accrued inner usage.
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if (thread_usage_->max_allocated_bytes) {
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uint64_t outer_net_alloc_bytes = usage_.alloc_bytes - usage_.free_bytes;
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thread_usage_->max_allocated_bytes =
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std::max(usage_.max_allocated_bytes,
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outer_net_alloc_bytes + thread_usage_->max_allocated_bytes);
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}
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thread_usage_->alloc_ops += usage_.alloc_ops;
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thread_usage_->alloc_bytes += usage_.alloc_bytes;
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thread_usage_->alloc_overhead_bytes += usage_.alloc_overhead_bytes;
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thread_usage_->free_ops += usage_.free_ops;
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thread_usage_->free_bytes += usage_.free_bytes;
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}
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thread_usage_ = nullptr;
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usage_ = current;
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}
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ThreadHeapUsage ThreadHeapUsageTracker::GetUsageSnapshot() {
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DCHECK(g_thread_allocator_usage.initialized());
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ThreadHeapUsage* usage = GetOrCreateThreadUsage();
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DCHECK_NE(nullptr, usage);
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return *usage;
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}
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void ThreadHeapUsageTracker::EnableHeapTracking() {
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EnsureTLSInitialized();
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CHECK_EQ(false, g_heap_tracking_enabled) << "No double-enabling.";
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g_heap_tracking_enabled = true;
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#if BUILDFLAG(USE_ALLOCATOR_SHIM)
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base::allocator::InsertAllocatorDispatch(&allocator_dispatch);
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#else
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CHECK(false) << "Can't enable heap tracking without the shim.";
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#endif // BUILDFLAG(USE_ALLOCATOR_SHIM)
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}
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bool ThreadHeapUsageTracker::IsHeapTrackingEnabled() {
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return g_heap_tracking_enabled;
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}
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void ThreadHeapUsageTracker::DisableHeapTrackingForTesting() {
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#if BUILDFLAG(USE_ALLOCATOR_SHIM)
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base::allocator::RemoveAllocatorDispatchForTesting(&allocator_dispatch);
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#else
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CHECK(false) << "Can't disable heap tracking without the shim.";
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#endif // BUILDFLAG(USE_ALLOCATOR_SHIM)
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DCHECK_EQ(true, g_heap_tracking_enabled) << "Heap tracking not enabled.";
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g_heap_tracking_enabled = false;
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}
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base::allocator::AllocatorDispatch*
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ThreadHeapUsageTracker::GetDispatchForTesting() {
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return &allocator_dispatch;
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}
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void ThreadHeapUsageTracker::EnsureTLSInitialized() {
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if (!g_thread_allocator_usage.initialized()) {
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g_thread_allocator_usage.Initialize([](void* thread_heap_usage) {
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// This destructor will be called twice. Once to destroy the actual
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// ThreadHeapUsage instance and a second time, immediately after, for the
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// sentinel. Re-setting the TLS slow (below) does re-initialize the TLS
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// slot. The ThreadLocalStorage code is designed to deal with this use
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// case (see comments in ThreadHeapUsageTracker::EnsureTLSInitialized) and
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// will re-call the destructor with the kTeardownSentinel as arg.
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if (thread_heap_usage == kTeardownSentinel)
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return;
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DCHECK(thread_heap_usage != kInitializationSentinel);
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// Deleting the ThreadHeapUsage TLS object will re-enter the shim and hit
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// RecordFree() above. The sentinel prevents RecordFree() from re-creating
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// another ThreadHeapUsage object.
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g_thread_allocator_usage.Set(kTeardownSentinel);
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delete static_cast<ThreadHeapUsage*>(thread_heap_usage);
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});
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}
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}
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} // namespace debug
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} // namespace base
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