mirror of
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490 lines
18 KiB
C++
490 lines
18 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/process_memory_dump.h"
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#include <errno.h>
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#include <vector>
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#include "base/memory/ptr_util.h"
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#include "base/memory/shared_memory.h"
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#include "base/memory/shared_memory_tracker.h"
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#include "base/process/process_metrics.h"
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#include "base/strings/stringprintf.h"
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#include "base/trace_event/heap_profiler_heap_dump_writer.h"
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#include "base/trace_event/heap_profiler_serialization_state.h"
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#include "base/trace_event/memory_infra_background_whitelist.h"
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#include "base/trace_event/trace_event_argument.h"
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#include "base/unguessable_token.h"
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#include "build/build_config.h"
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#if defined(OS_IOS)
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#include <mach/vm_page_size.h>
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#endif
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#if defined(OS_POSIX)
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#include <sys/mman.h>
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#endif
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#if defined(OS_WIN)
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#include <Psapi.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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const char kEdgeTypeOwnership[] = "ownership";
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std::string GetSharedGlobalAllocatorDumpName(
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const MemoryAllocatorDumpGuid& guid) {
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return "global/" + guid.ToString();
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}
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#if defined(COUNT_RESIDENT_BYTES_SUPPORTED)
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size_t GetSystemPageCount(size_t mapped_size, size_t page_size) {
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return (mapped_size + page_size - 1) / page_size;
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}
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#endif
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} // namespace
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// static
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bool ProcessMemoryDump::is_black_hole_non_fatal_for_testing_ = false;
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#if defined(COUNT_RESIDENT_BYTES_SUPPORTED)
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// static
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size_t ProcessMemoryDump::GetSystemPageSize() {
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#if defined(OS_IOS)
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// On iOS, getpagesize() returns the user page sizes, but for allocating
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// arrays for mincore(), kernel page sizes is needed. Use vm_kernel_page_size
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// as recommended by Apple, https://forums.developer.apple.com/thread/47532/.
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// Refer to http://crbug.com/542671 and Apple rdar://23651782
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return vm_kernel_page_size;
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#else
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return base::GetPageSize();
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#endif // defined(OS_IOS)
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}
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// static
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size_t ProcessMemoryDump::CountResidentBytes(void* start_address,
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size_t mapped_size) {
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const size_t page_size = GetSystemPageSize();
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const uintptr_t start_pointer = reinterpret_cast<uintptr_t>(start_address);
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DCHECK_EQ(0u, start_pointer % page_size);
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size_t offset = 0;
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size_t total_resident_size = 0;
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bool failure = false;
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// An array as large as number of pages in memory segment needs to be passed
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// to the query function. To avoid allocating a large array, the given block
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// of memory is split into chunks of size |kMaxChunkSize|.
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const size_t kMaxChunkSize = 8 * 1024 * 1024;
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size_t max_vec_size =
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GetSystemPageCount(std::min(mapped_size, kMaxChunkSize), page_size);
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#if defined(OS_MACOSX)
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std::unique_ptr<char[]> vec(new char[max_vec_size]);
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#elif defined(OS_WIN)
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std::unique_ptr<PSAPI_WORKING_SET_EX_INFORMATION[]> vec(
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new PSAPI_WORKING_SET_EX_INFORMATION[max_vec_size]);
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#elif defined(OS_POSIX)
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std::unique_ptr<unsigned char[]> vec(new unsigned char[max_vec_size]);
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#endif
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while (offset < mapped_size) {
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uintptr_t chunk_start = (start_pointer + offset);
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const size_t chunk_size = std::min(mapped_size - offset, kMaxChunkSize);
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const size_t page_count = GetSystemPageCount(chunk_size, page_size);
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size_t resident_page_count = 0;
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#if defined(OS_MACOSX)
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// mincore in MAC does not fail with EAGAIN.
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failure =
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!!mincore(reinterpret_cast<void*>(chunk_start), chunk_size, vec.get());
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for (size_t i = 0; i < page_count; i++)
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resident_page_count += vec[i] & MINCORE_INCORE ? 1 : 0;
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#elif defined(OS_WIN)
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for (size_t i = 0; i < page_count; i++) {
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vec[i].VirtualAddress =
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reinterpret_cast<void*>(chunk_start + i * page_size);
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}
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DWORD vec_size = static_cast<DWORD>(
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page_count * sizeof(PSAPI_WORKING_SET_EX_INFORMATION));
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failure = !QueryWorkingSetEx(GetCurrentProcess(), vec.get(), vec_size);
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for (size_t i = 0; i < page_count; i++)
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resident_page_count += vec[i].VirtualAttributes.Valid;
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#elif defined(OS_FUCHSIA)
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// TODO(fuchsia): Port, see https://crbug.com/706592.
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ALLOW_UNUSED_LOCAL(chunk_start);
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ALLOW_UNUSED_LOCAL(page_count);
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#elif defined(OS_POSIX)
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int error_counter = 0;
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int result = 0;
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// HANDLE_EINTR tries for 100 times. So following the same pattern.
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do {
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result =
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#if defined(OS_AIX)
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mincore(reinterpret_cast<char*>(chunk_start), chunk_size,
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reinterpret_cast<char*>(vec.get()));
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#else
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mincore(reinterpret_cast<void*>(chunk_start), chunk_size, vec.get());
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#endif
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} while (result == -1 && errno == EAGAIN && error_counter++ < 100);
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failure = !!result;
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for (size_t i = 0; i < page_count; i++)
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resident_page_count += vec[i] & 1;
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#endif
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if (failure)
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break;
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total_resident_size += resident_page_count * page_size;
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offset += kMaxChunkSize;
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}
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DCHECK(!failure);
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if (failure) {
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total_resident_size = 0;
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LOG(ERROR) << "CountResidentBytes failed. The resident size is invalid";
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}
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return total_resident_size;
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}
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// static
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base::Optional<size_t> ProcessMemoryDump::CountResidentBytesInSharedMemory(
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const SharedMemory& shared_memory) {
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#if defined(OS_MACOSX) && !defined(OS_IOS)
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// On macOS, use mach_vm_region instead of mincore for performance
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// (crbug.com/742042).
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mach_vm_size_t dummy_size = 0;
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mach_vm_address_t address =
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reinterpret_cast<mach_vm_address_t>(shared_memory.memory());
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vm_region_top_info_data_t info;
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MachVMRegionResult result =
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GetTopInfo(mach_task_self(), &dummy_size, &address, &info);
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if (result == MachVMRegionResult::Error) {
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LOG(ERROR) << "CountResidentBytesInSharedMemory failed. The resident size "
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"is invalid";
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return base::Optional<size_t>();
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}
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size_t resident_size =
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info.private_pages_resident + info.shared_pages_resident;
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return resident_size * PAGE_SIZE;
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#else
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return CountResidentBytes(shared_memory.memory(),
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shared_memory.mapped_size());
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#endif // defined(OS_MACOSX) && !defined(OS_IOS)
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}
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#endif // defined(COUNT_RESIDENT_BYTES_SUPPORTED)
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ProcessMemoryDump::ProcessMemoryDump(
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scoped_refptr<HeapProfilerSerializationState>
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heap_profiler_serialization_state,
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const MemoryDumpArgs& dump_args)
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: heap_profiler_serialization_state_(
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std::move(heap_profiler_serialization_state)),
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dump_args_(dump_args) {}
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ProcessMemoryDump::~ProcessMemoryDump() {}
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ProcessMemoryDump::ProcessMemoryDump(ProcessMemoryDump&& other) = default;
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ProcessMemoryDump& ProcessMemoryDump::operator=(ProcessMemoryDump&& other) =
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default;
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MemoryAllocatorDump* ProcessMemoryDump::CreateAllocatorDump(
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const std::string& absolute_name) {
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return AddAllocatorDumpInternal(std::make_unique<MemoryAllocatorDump>(
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absolute_name, dump_args_.level_of_detail));
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}
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MemoryAllocatorDump* ProcessMemoryDump::CreateAllocatorDump(
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const std::string& absolute_name,
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const MemoryAllocatorDumpGuid& guid) {
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return AddAllocatorDumpInternal(std::make_unique<MemoryAllocatorDump>(
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absolute_name, dump_args_.level_of_detail, guid));
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}
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MemoryAllocatorDump* ProcessMemoryDump::AddAllocatorDumpInternal(
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std::unique_ptr<MemoryAllocatorDump> mad) {
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// In background mode return the black hole dump, if invalid dump name is
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// given.
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if (dump_args_.level_of_detail == MemoryDumpLevelOfDetail::BACKGROUND &&
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!IsMemoryAllocatorDumpNameWhitelisted(mad->absolute_name())) {
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return GetBlackHoleMad();
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}
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auto insertion_result = allocator_dumps_.insert(
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std::make_pair(mad->absolute_name(), std::move(mad)));
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MemoryAllocatorDump* inserted_mad = insertion_result.first->second.get();
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DCHECK(insertion_result.second) << "Duplicate name: "
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<< inserted_mad->absolute_name();
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return inserted_mad;
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}
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MemoryAllocatorDump* ProcessMemoryDump::GetAllocatorDump(
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const std::string& absolute_name) const {
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auto it = allocator_dumps_.find(absolute_name);
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if (it != allocator_dumps_.end())
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return it->second.get();
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if (black_hole_mad_)
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return black_hole_mad_.get();
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return nullptr;
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}
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MemoryAllocatorDump* ProcessMemoryDump::GetOrCreateAllocatorDump(
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const std::string& absolute_name) {
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MemoryAllocatorDump* mad = GetAllocatorDump(absolute_name);
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return mad ? mad : CreateAllocatorDump(absolute_name);
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}
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MemoryAllocatorDump* ProcessMemoryDump::CreateSharedGlobalAllocatorDump(
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const MemoryAllocatorDumpGuid& guid) {
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// A shared allocator dump can be shared within a process and the guid could
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// have been created already.
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MemoryAllocatorDump* mad = GetSharedGlobalAllocatorDump(guid);
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if (mad && mad != black_hole_mad_.get()) {
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// The weak flag is cleared because this method should create a non-weak
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// dump.
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mad->clear_flags(MemoryAllocatorDump::Flags::WEAK);
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return mad;
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}
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return CreateAllocatorDump(GetSharedGlobalAllocatorDumpName(guid), guid);
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}
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MemoryAllocatorDump* ProcessMemoryDump::CreateWeakSharedGlobalAllocatorDump(
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const MemoryAllocatorDumpGuid& guid) {
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MemoryAllocatorDump* mad = GetSharedGlobalAllocatorDump(guid);
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if (mad && mad != black_hole_mad_.get())
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return mad;
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mad = CreateAllocatorDump(GetSharedGlobalAllocatorDumpName(guid), guid);
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mad->set_flags(MemoryAllocatorDump::Flags::WEAK);
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return mad;
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}
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MemoryAllocatorDump* ProcessMemoryDump::GetSharedGlobalAllocatorDump(
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const MemoryAllocatorDumpGuid& guid) const {
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return GetAllocatorDump(GetSharedGlobalAllocatorDumpName(guid));
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}
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void ProcessMemoryDump::DumpHeapUsage(
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const std::unordered_map<base::trace_event::AllocationContext,
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base::trace_event::AllocationMetrics>&
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metrics_by_context,
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base::trace_event::TraceEventMemoryOverhead& overhead,
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const char* allocator_name) {
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// The heap profiler serialization state can be null here if heap profiler was
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// enabled when a process dump is in progress.
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if (heap_profiler_serialization_state() && !metrics_by_context.empty()) {
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DCHECK_EQ(0ul, heap_dumps_.count(allocator_name));
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std::unique_ptr<TracedValue> heap_dump = ExportHeapDump(
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metrics_by_context, *heap_profiler_serialization_state());
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heap_dumps_[allocator_name] = std::move(heap_dump);
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}
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std::string base_name = base::StringPrintf("tracing/heap_profiler_%s",
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allocator_name);
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overhead.DumpInto(base_name.c_str(), this);
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}
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void ProcessMemoryDump::SetAllocatorDumpsForSerialization(
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std::vector<std::unique_ptr<MemoryAllocatorDump>> dumps) {
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DCHECK(allocator_dumps_.empty());
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for (std::unique_ptr<MemoryAllocatorDump>& dump : dumps)
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AddAllocatorDumpInternal(std::move(dump));
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}
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std::vector<ProcessMemoryDump::MemoryAllocatorDumpEdge>
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ProcessMemoryDump::GetAllEdgesForSerialization() const {
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std::vector<MemoryAllocatorDumpEdge> edges;
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edges.reserve(allocator_dumps_edges_.size());
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for (const auto& it : allocator_dumps_edges_)
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edges.push_back(it.second);
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return edges;
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}
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void ProcessMemoryDump::SetAllEdgesForSerialization(
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const std::vector<ProcessMemoryDump::MemoryAllocatorDumpEdge>& edges) {
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DCHECK(allocator_dumps_edges_.empty());
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for (const MemoryAllocatorDumpEdge& edge : edges) {
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auto it_and_inserted = allocator_dumps_edges_.emplace(edge.source, edge);
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DCHECK(it_and_inserted.second);
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}
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}
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void ProcessMemoryDump::Clear() {
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allocator_dumps_.clear();
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allocator_dumps_edges_.clear();
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heap_dumps_.clear();
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}
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void ProcessMemoryDump::TakeAllDumpsFrom(ProcessMemoryDump* other) {
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// Moves the ownership of all MemoryAllocatorDump(s) contained in |other|
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// into this ProcessMemoryDump, checking for duplicates.
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for (auto& it : other->allocator_dumps_)
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AddAllocatorDumpInternal(std::move(it.second));
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other->allocator_dumps_.clear();
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// Move all the edges.
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allocator_dumps_edges_.insert(other->allocator_dumps_edges_.begin(),
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other->allocator_dumps_edges_.end());
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other->allocator_dumps_edges_.clear();
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for (auto& it : other->heap_dumps_) {
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DCHECK_EQ(0ul, heap_dumps_.count(it.first));
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heap_dumps_.insert(std::make_pair(it.first, std::move(it.second)));
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}
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other->heap_dumps_.clear();
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}
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void ProcessMemoryDump::SerializeAllocatorDumpsInto(TracedValue* value) const {
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if (allocator_dumps_.size() > 0) {
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value->BeginDictionary("allocators");
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for (const auto& allocator_dump_it : allocator_dumps_)
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allocator_dump_it.second->AsValueInto(value);
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value->EndDictionary();
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}
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value->BeginArray("allocators_graph");
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for (const auto& it : allocator_dumps_edges_) {
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const MemoryAllocatorDumpEdge& edge = it.second;
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value->BeginDictionary();
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value->SetString("source", edge.source.ToString());
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value->SetString("target", edge.target.ToString());
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value->SetInteger("importance", edge.importance);
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value->SetString("type", kEdgeTypeOwnership);
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value->EndDictionary();
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}
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value->EndArray();
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}
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void ProcessMemoryDump::SerializeHeapProfilerDumpsInto(
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TracedValue* value) const {
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if (heap_dumps_.size() == 0)
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return;
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value->BeginDictionary("heaps");
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for (const auto& name_and_dump : heap_dumps_)
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value->SetValueWithCopiedName(name_and_dump.first, *name_and_dump.second);
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value->EndDictionary(); // "heaps"
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}
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void ProcessMemoryDump::AddOwnershipEdge(const MemoryAllocatorDumpGuid& source,
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const MemoryAllocatorDumpGuid& target,
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int importance) {
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// This will either override an existing edge or create a new one.
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auto it = allocator_dumps_edges_.find(source);
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if (it != allocator_dumps_edges_.end()) {
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DCHECK_EQ(target.ToUint64(),
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allocator_dumps_edges_[source].target.ToUint64());
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}
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allocator_dumps_edges_[source] = {source, target, importance,
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false /* overridable */};
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}
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void ProcessMemoryDump::AddOwnershipEdge(
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const MemoryAllocatorDumpGuid& source,
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const MemoryAllocatorDumpGuid& target) {
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AddOwnershipEdge(source, target, 0 /* importance */);
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}
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void ProcessMemoryDump::AddOverridableOwnershipEdge(
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const MemoryAllocatorDumpGuid& source,
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const MemoryAllocatorDumpGuid& target,
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int importance) {
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if (allocator_dumps_edges_.count(source) == 0) {
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allocator_dumps_edges_[source] = {source, target, importance,
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true /* overridable */};
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} else {
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// An edge between the source and target already exits. So, do nothing here
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// since the new overridable edge is implicitly overridden by a strong edge
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// which was created earlier.
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DCHECK(!allocator_dumps_edges_[source].overridable);
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}
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}
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void ProcessMemoryDump::CreateSharedMemoryOwnershipEdge(
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const MemoryAllocatorDumpGuid& client_local_dump_guid,
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const UnguessableToken& shared_memory_guid,
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int importance) {
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CreateSharedMemoryOwnershipEdgeInternal(client_local_dump_guid,
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shared_memory_guid, importance,
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false /*is_weak*/);
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}
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void ProcessMemoryDump::CreateWeakSharedMemoryOwnershipEdge(
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const MemoryAllocatorDumpGuid& client_local_dump_guid,
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const UnguessableToken& shared_memory_guid,
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int importance) {
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CreateSharedMemoryOwnershipEdgeInternal(
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client_local_dump_guid, shared_memory_guid, importance, true /*is_weak*/);
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}
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void ProcessMemoryDump::CreateSharedMemoryOwnershipEdgeInternal(
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const MemoryAllocatorDumpGuid& client_local_dump_guid,
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const UnguessableToken& shared_memory_guid,
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int importance,
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bool is_weak) {
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DCHECK(!shared_memory_guid.is_empty());
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// New model where the global dumps created by SharedMemoryTracker are used
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// for the clients.
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// The guid of the local dump created by SharedMemoryTracker for the memory
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// segment.
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auto local_shm_guid = MemoryAllocatorDump::GetDumpIdFromName(
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SharedMemoryTracker::GetDumpNameForTracing(shared_memory_guid));
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// The dump guid of the global dump created by the tracker for the memory
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// segment.
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auto global_shm_guid =
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SharedMemoryTracker::GetGlobalDumpIdForTracing(shared_memory_guid);
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// Create an edge between local dump of the client and the local dump of the
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// SharedMemoryTracker. Do not need to create the dumps here since the tracker
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// would create them. The importance is also required here for the case of
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// single process mode.
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AddOwnershipEdge(client_local_dump_guid, local_shm_guid, importance);
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// TODO(ssid): Handle the case of weak dumps here. This needs a new function
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// GetOrCreaetGlobalDump() in PMD since we need to change the behavior of the
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// created global dump.
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// Create an edge that overrides the edge created by SharedMemoryTracker.
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AddOwnershipEdge(local_shm_guid, global_shm_guid, importance);
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}
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void ProcessMemoryDump::AddSuballocation(const MemoryAllocatorDumpGuid& source,
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const std::string& target_node_name) {
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// Do not create new dumps for suballocations in background mode.
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if (dump_args_.level_of_detail == MemoryDumpLevelOfDetail::BACKGROUND)
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return;
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std::string child_mad_name = target_node_name + "/__" + source.ToString();
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MemoryAllocatorDump* target_child_mad = CreateAllocatorDump(child_mad_name);
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AddOwnershipEdge(source, target_child_mad->guid());
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}
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MemoryAllocatorDump* ProcessMemoryDump::GetBlackHoleMad() {
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DCHECK(is_black_hole_non_fatal_for_testing_);
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|
if (!black_hole_mad_)
|
|
black_hole_mad_.reset(
|
|
new MemoryAllocatorDump("discarded", dump_args_.level_of_detail));
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|
return black_hole_mad_.get();
|
|
}
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|
|
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bool ProcessMemoryDump::MemoryAllocatorDumpEdge::operator==(
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|
const MemoryAllocatorDumpEdge& other) const {
|
|
return source == other.source && target == other.target &&
|
|
importance == other.importance && overridable == other.overridable;
|
|
}
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|
|
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bool ProcessMemoryDump::MemoryAllocatorDumpEdge::operator!=(
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|
const MemoryAllocatorDumpEdge& other) const {
|
|
return !(*this == other);
|
|
}
|
|
|
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} // namespace trace_event
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} // namespace base
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