mirror of
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388 lines
14 KiB
C++
388 lines
14 KiB
C++
// Copyright 2015 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/trace_event/malloc_dump_provider.h"
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#include <stddef.h>
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#include <unordered_map>
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#include "base/allocator/allocator_extension.h"
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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/debug/profiler.h"
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#include "base/trace_event/heap_profiler_allocation_context.h"
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#include "base/trace_event/heap_profiler_allocation_context_tracker.h"
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#include "base/trace_event/heap_profiler_heap_dump_writer.h"
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#include "base/trace_event/process_memory_dump.h"
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#include "base/trace_event/trace_event_argument.h"
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#include "build/build_config.h"
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#if defined(OS_MACOSX)
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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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#if defined(OS_WIN)
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#include <windows.h>
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#endif
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namespace base {
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namespace trace_event {
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namespace {
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#if BUILDFLAG(USE_ALLOCATOR_SHIM)
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using allocator::AllocatorDispatch;
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void* HookAlloc(const AllocatorDispatch* self, size_t size, void* context) {
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const AllocatorDispatch* const next = self->next;
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void* ptr = next->alloc_function(next, size, context);
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if (ptr)
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MallocDumpProvider::GetInstance()->InsertAllocation(ptr, size);
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return ptr;
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}
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void* HookZeroInitAlloc(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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const AllocatorDispatch* const next = self->next;
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void* ptr = next->alloc_zero_initialized_function(next, n, size, context);
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if (ptr)
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MallocDumpProvider::GetInstance()->InsertAllocation(ptr, n * size);
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return ptr;
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}
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void* HookAllocAligned(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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const AllocatorDispatch* const next = self->next;
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void* ptr = next->alloc_aligned_function(next, alignment, size, context);
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if (ptr)
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MallocDumpProvider::GetInstance()->InsertAllocation(ptr, size);
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return ptr;
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}
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void* HookRealloc(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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const AllocatorDispatch* const next = self->next;
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void* ptr = next->realloc_function(next, address, size, context);
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MallocDumpProvider::GetInstance()->RemoveAllocation(address);
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if (size > 0) // realloc(size == 0) means free().
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MallocDumpProvider::GetInstance()->InsertAllocation(ptr, size);
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return ptr;
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}
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void HookFree(const AllocatorDispatch* self, void* address, void* context) {
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if (address)
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MallocDumpProvider::GetInstance()->RemoveAllocation(address);
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const AllocatorDispatch* const next = self->next;
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next->free_function(next, address, context);
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}
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size_t HookGetSizeEstimate(const AllocatorDispatch* self,
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void* address,
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void* context) {
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const AllocatorDispatch* const next = self->next;
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return next->get_size_estimate_function(next, address, context);
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}
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unsigned HookBatchMalloc(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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const AllocatorDispatch* const next = self->next;
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unsigned count =
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next->batch_malloc_function(next, size, results, num_requested, context);
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for (unsigned i = 0; i < count; ++i) {
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MallocDumpProvider::GetInstance()->InsertAllocation(results[i], size);
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}
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return count;
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}
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void HookBatchFree(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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const AllocatorDispatch* const next = self->next;
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for (unsigned i = 0; i < num_to_be_freed; ++i) {
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MallocDumpProvider::GetInstance()->RemoveAllocation(to_be_freed[i]);
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}
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next->batch_free_function(next, to_be_freed, num_to_be_freed, context);
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}
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void HookFreeDefiniteSize(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)
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MallocDumpProvider::GetInstance()->RemoveAllocation(ptr);
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const AllocatorDispatch* const next = self->next;
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next->free_definite_size_function(next, ptr, size, context);
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}
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AllocatorDispatch g_allocator_hooks = {
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&HookAlloc, /* alloc_function */
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&HookZeroInitAlloc, /* alloc_zero_initialized_function */
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&HookAllocAligned, /* alloc_aligned_function */
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&HookRealloc, /* realloc_function */
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&HookFree, /* free_function */
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&HookGetSizeEstimate, /* get_size_estimate_function */
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&HookBatchMalloc, /* batch_malloc_function */
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&HookBatchFree, /* batch_free_function */
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&HookFreeDefiniteSize, /* free_definite_size_function */
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nullptr, /* next */
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};
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#endif // BUILDFLAG(USE_ALLOCATOR_SHIM)
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#if defined(OS_WIN)
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// A structure containing some information about a given heap.
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struct WinHeapInfo {
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size_t committed_size;
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size_t uncommitted_size;
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size_t allocated_size;
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size_t block_count;
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};
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// NOTE: crbug.com/665516
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// Unfortunately, there is no safe way to collect information from secondary
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// heaps due to limitations and racy nature of this piece of WinAPI.
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void WinHeapMemoryDumpImpl(WinHeapInfo* crt_heap_info) {
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#if defined(SYZYASAN)
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if (base::debug::IsBinaryInstrumented())
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return;
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#endif
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// Iterate through whichever heap our CRT is using.
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HANDLE crt_heap = reinterpret_cast<HANDLE>(_get_heap_handle());
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::HeapLock(crt_heap);
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PROCESS_HEAP_ENTRY heap_entry;
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heap_entry.lpData = nullptr;
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// Walk over all the entries in the main heap.
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while (::HeapWalk(crt_heap, &heap_entry) != FALSE) {
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if ((heap_entry.wFlags & PROCESS_HEAP_ENTRY_BUSY) != 0) {
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crt_heap_info->allocated_size += heap_entry.cbData;
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crt_heap_info->block_count++;
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} else if ((heap_entry.wFlags & PROCESS_HEAP_REGION) != 0) {
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crt_heap_info->committed_size += heap_entry.Region.dwCommittedSize;
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crt_heap_info->uncommitted_size += heap_entry.Region.dwUnCommittedSize;
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}
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}
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CHECK(::HeapUnlock(crt_heap) == TRUE);
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}
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#endif // defined(OS_WIN)
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} // namespace
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// static
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const char MallocDumpProvider::kAllocatedObjects[] = "malloc/allocated_objects";
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// static
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MallocDumpProvider* MallocDumpProvider::GetInstance() {
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return Singleton<MallocDumpProvider,
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LeakySingletonTraits<MallocDumpProvider>>::get();
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}
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MallocDumpProvider::MallocDumpProvider()
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: tid_dumping_heap_(kInvalidThreadId) {}
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MallocDumpProvider::~MallocDumpProvider() = default;
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// Called at trace dump point time. Creates a snapshot the memory counters for
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// the current process.
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bool MallocDumpProvider::OnMemoryDump(const MemoryDumpArgs& args,
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ProcessMemoryDump* pmd) {
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{
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base::AutoLock auto_lock(emit_metrics_on_memory_dump_lock_);
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if (!emit_metrics_on_memory_dump_)
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return true;
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}
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size_t total_virtual_size = 0;
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size_t resident_size = 0;
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size_t allocated_objects_size = 0;
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size_t allocated_objects_count = 0;
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#if defined(USE_TCMALLOC)
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bool res =
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allocator::GetNumericProperty("generic.heap_size", &total_virtual_size);
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DCHECK(res);
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res = allocator::GetNumericProperty("generic.total_physical_bytes",
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&resident_size);
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DCHECK(res);
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res = allocator::GetNumericProperty("generic.current_allocated_bytes",
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&allocated_objects_size);
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DCHECK(res);
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#elif defined(OS_MACOSX) || defined(OS_IOS)
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malloc_statistics_t stats = {0};
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malloc_zone_statistics(nullptr, &stats);
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total_virtual_size = stats.size_allocated;
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allocated_objects_size = stats.size_in_use;
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// Resident size is approximated pretty well by stats.max_size_in_use.
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// However, on macOS, freed blocks are both resident and reusable, which is
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// semantically equivalent to deallocated. The implementation of libmalloc
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// will also only hold a fixed number of freed regions before actually
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// starting to deallocate them, so stats.max_size_in_use is also not
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// representative of the peak size. As a result, stats.max_size_in_use is
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// typically somewhere between actually resident [non-reusable] pages, and
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// peak size. This is not very useful, so we just use stats.size_in_use for
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// resident_size, even though it's an underestimate and fails to account for
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// fragmentation. See
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// https://bugs.chromium.org/p/chromium/issues/detail?id=695263#c1.
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resident_size = stats.size_in_use;
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#elif defined(OS_WIN)
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// This is too expensive on Windows, crbug.com/780735.
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if (args.level_of_detail == MemoryDumpLevelOfDetail::DETAILED) {
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WinHeapInfo main_heap_info = {};
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WinHeapMemoryDumpImpl(&main_heap_info);
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total_virtual_size =
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main_heap_info.committed_size + main_heap_info.uncommitted_size;
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// Resident size is approximated with committed heap size. Note that it is
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// possible to do this with better accuracy on windows by intersecting the
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// working set with the virtual memory ranges occuipied by the heap. It's
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// not clear that this is worth it, as it's fairly expensive to do.
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resident_size = main_heap_info.committed_size;
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allocated_objects_size = main_heap_info.allocated_size;
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allocated_objects_count = main_heap_info.block_count;
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}
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#elif defined(OS_FUCHSIA)
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// TODO(fuchsia): Port, see https://crbug.com/706592.
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#else
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struct mallinfo info = mallinfo();
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DCHECK_GE(info.arena + info.hblkhd, info.uordblks);
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// In case of Android's jemalloc |arena| is 0 and the outer pages size is
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// reported by |hblkhd|. In case of dlmalloc the total is given by
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// |arena| + |hblkhd|. For more details see link: http://goo.gl/fMR8lF.
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total_virtual_size = info.arena + info.hblkhd;
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resident_size = info.uordblks;
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// Total allocated space is given by |uordblks|.
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allocated_objects_size = info.uordblks;
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#endif
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MemoryAllocatorDump* outer_dump = pmd->CreateAllocatorDump("malloc");
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outer_dump->AddScalar("virtual_size", MemoryAllocatorDump::kUnitsBytes,
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total_virtual_size);
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outer_dump->AddScalar(MemoryAllocatorDump::kNameSize,
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MemoryAllocatorDump::kUnitsBytes, resident_size);
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MemoryAllocatorDump* inner_dump = pmd->CreateAllocatorDump(kAllocatedObjects);
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inner_dump->AddScalar(MemoryAllocatorDump::kNameSize,
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MemoryAllocatorDump::kUnitsBytes,
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allocated_objects_size);
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if (allocated_objects_count != 0) {
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inner_dump->AddScalar(MemoryAllocatorDump::kNameObjectCount,
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MemoryAllocatorDump::kUnitsObjects,
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allocated_objects_count);
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}
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if (resident_size > allocated_objects_size) {
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// Explicitly specify why is extra memory resident. In tcmalloc it accounts
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// for free lists and caches. In mac and ios it accounts for the
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// fragmentation and metadata.
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MemoryAllocatorDump* other_dump =
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pmd->CreateAllocatorDump("malloc/metadata_fragmentation_caches");
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other_dump->AddScalar(MemoryAllocatorDump::kNameSize,
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MemoryAllocatorDump::kUnitsBytes,
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resident_size - allocated_objects_size);
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}
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// Heap profiler dumps.
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if (!allocation_register_.is_enabled())
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return true;
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tid_dumping_heap_ = PlatformThread::CurrentId();
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// At this point the Insert/RemoveAllocation hooks will ignore this thread.
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// Enclosing all the temporary data structures in a scope, so that the heap
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// profiler does not see unbalanced malloc/free calls from these containers.
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{
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TraceEventMemoryOverhead overhead;
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std::unordered_map<AllocationContext, AllocationMetrics> metrics_by_context;
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if (AllocationContextTracker::capture_mode() !=
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AllocationContextTracker::CaptureMode::DISABLED) {
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ShardedAllocationRegister::OutputMetrics shim_metrics =
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allocation_register_.UpdateAndReturnsMetrics(metrics_by_context);
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// Aggregate data for objects allocated through the shim.
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inner_dump->AddScalar("shim_allocated_objects_size",
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MemoryAllocatorDump::kUnitsBytes,
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shim_metrics.size);
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inner_dump->AddScalar("shim_allocator_object_count",
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MemoryAllocatorDump::kUnitsObjects,
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shim_metrics.count);
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}
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allocation_register_.EstimateTraceMemoryOverhead(&overhead);
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pmd->DumpHeapUsage(metrics_by_context, overhead, "malloc");
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}
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tid_dumping_heap_ = kInvalidThreadId;
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return true;
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}
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void MallocDumpProvider::OnHeapProfilingEnabled(bool enabled) {
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#if BUILDFLAG(USE_ALLOCATOR_SHIM)
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if (enabled) {
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allocation_register_.SetEnabled();
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allocator::InsertAllocatorDispatch(&g_allocator_hooks);
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} else {
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allocation_register_.SetDisabled();
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}
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#endif
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}
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void MallocDumpProvider::InsertAllocation(void* address, size_t size) {
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// CurrentId() can be a slow operation (crbug.com/497226). This apparently
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// redundant condition short circuits the CurrentID() calls when unnecessary.
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if (tid_dumping_heap_ != kInvalidThreadId &&
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tid_dumping_heap_ == PlatformThread::CurrentId())
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return;
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// AllocationContextTracker will return nullptr when called re-reentrantly.
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// This is the case of GetInstanceForCurrentThread() being called for the
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// first time, which causes a new() inside the tracker which re-enters the
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// heap profiler, in which case we just want to early out.
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auto* tracker = AllocationContextTracker::GetInstanceForCurrentThread();
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if (!tracker)
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return;
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AllocationContext context;
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if (!tracker->GetContextSnapshot(&context))
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return;
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if (!allocation_register_.is_enabled())
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return;
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allocation_register_.Insert(address, size, context);
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}
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void MallocDumpProvider::RemoveAllocation(void* address) {
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// No re-entrancy is expected here as none of the calls below should
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// cause a free()-s (|allocation_register_| does its own heap management).
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if (tid_dumping_heap_ != kInvalidThreadId &&
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tid_dumping_heap_ == PlatformThread::CurrentId())
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return;
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if (!allocation_register_.is_enabled())
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return;
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allocation_register_.Remove(address);
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}
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void MallocDumpProvider::EnableMetrics() {
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base::AutoLock auto_lock(emit_metrics_on_memory_dump_lock_);
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emit_metrics_on_memory_dump_ = true;
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}
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void MallocDumpProvider::DisableMetrics() {
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base::AutoLock auto_lock(emit_metrics_on_memory_dump_lock_);
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emit_metrics_on_memory_dump_ = false;
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}
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} // namespace trace_event
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} // namespace base
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