406 lines
14 KiB
C++
406 lines
14 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/activity_analyzer.h"
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#include <algorithm>
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#include <utility>
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#include "base/files/file.h"
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#include "base/files/file_path.h"
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#include "base/files/memory_mapped_file.h"
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#include "base/logging.h"
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#include "base/metrics/histogram_functions.h"
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#include "base/metrics/histogram_macros.h"
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#include "base/no_destructor.h"
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#include "base/stl_util.h"
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#include "base/strings/string_util.h"
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namespace base {
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namespace debug {
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namespace {
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const ActivityUserData::Snapshot& GetEmptyUserDataSnapshot() {
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// An empty snapshot that can be returned when there otherwise is none.
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static const NoDestructor<ActivityUserData::Snapshot> empty_snapshot;
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return *empty_snapshot;
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}
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// DO NOT CHANGE VALUES. This is logged persistently in a histogram.
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enum AnalyzerCreationError {
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kInvalidMemoryMappedFile,
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kPmaBadFile,
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kPmaUninitialized,
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kPmaDeleted,
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kPmaCorrupt,
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kAnalyzerCreationErrorMax // Keep this last.
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};
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void LogAnalyzerCreationError(AnalyzerCreationError error) {
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UmaHistogramEnumeration("ActivityTracker.Collect.AnalyzerCreationError",
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error, kAnalyzerCreationErrorMax);
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}
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} // namespace
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ThreadActivityAnalyzer::Snapshot::Snapshot() = default;
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ThreadActivityAnalyzer::Snapshot::~Snapshot() = default;
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ThreadActivityAnalyzer::ThreadActivityAnalyzer(
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const ThreadActivityTracker& tracker)
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: activity_snapshot_valid_(tracker.CreateSnapshot(&activity_snapshot_)) {}
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ThreadActivityAnalyzer::ThreadActivityAnalyzer(void* base, size_t size)
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: ThreadActivityAnalyzer(ThreadActivityTracker(base, size)) {}
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ThreadActivityAnalyzer::ThreadActivityAnalyzer(
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PersistentMemoryAllocator* allocator,
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PersistentMemoryAllocator::Reference reference)
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: ThreadActivityAnalyzer(allocator->GetAsArray<char>(
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reference,
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GlobalActivityTracker::kTypeIdActivityTracker,
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PersistentMemoryAllocator::kSizeAny),
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allocator->GetAllocSize(reference)) {}
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ThreadActivityAnalyzer::~ThreadActivityAnalyzer() = default;
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void ThreadActivityAnalyzer::AddGlobalInformation(
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GlobalActivityAnalyzer* global) {
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if (!IsValid())
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return;
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// User-data is held at the global scope even though it's referenced at the
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// thread scope.
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activity_snapshot_.user_data_stack.clear();
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for (auto& activity : activity_snapshot_.activity_stack) {
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// The global GetUserDataSnapshot will return an empty snapshot if the ref
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// or id is not valid.
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activity_snapshot_.user_data_stack.push_back(global->GetUserDataSnapshot(
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activity_snapshot_.process_id, activity.user_data_ref,
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activity.user_data_id));
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}
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}
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GlobalActivityAnalyzer::GlobalActivityAnalyzer(
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std::unique_ptr<PersistentMemoryAllocator> allocator)
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: allocator_(std::move(allocator)),
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analysis_stamp_(0LL),
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allocator_iterator_(allocator_.get()) {
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DCHECK(allocator_);
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}
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GlobalActivityAnalyzer::~GlobalActivityAnalyzer() = default;
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// static
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std::unique_ptr<GlobalActivityAnalyzer>
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GlobalActivityAnalyzer::CreateWithAllocator(
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std::unique_ptr<PersistentMemoryAllocator> allocator) {
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if (allocator->GetMemoryState() ==
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PersistentMemoryAllocator::MEMORY_UNINITIALIZED) {
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LogAnalyzerCreationError(kPmaUninitialized);
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return nullptr;
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}
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if (allocator->GetMemoryState() ==
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PersistentMemoryAllocator::MEMORY_DELETED) {
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LogAnalyzerCreationError(kPmaDeleted);
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return nullptr;
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}
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if (allocator->IsCorrupt()) {
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LogAnalyzerCreationError(kPmaCorrupt);
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return nullptr;
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}
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return std::make_unique<GlobalActivityAnalyzer>(std::move(allocator));
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}
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#if !defined(OS_NACL)
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// static
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std::unique_ptr<GlobalActivityAnalyzer> GlobalActivityAnalyzer::CreateWithFile(
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const FilePath& file_path) {
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// Map the file read-write so it can guarantee consistency between
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// the analyzer and any trackers that my still be active.
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std::unique_ptr<MemoryMappedFile> mmfile(new MemoryMappedFile());
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if (!mmfile->Initialize(file_path, MemoryMappedFile::READ_WRITE)) {
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LogAnalyzerCreationError(kInvalidMemoryMappedFile);
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return nullptr;
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}
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if (!FilePersistentMemoryAllocator::IsFileAcceptable(*mmfile, true)) {
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LogAnalyzerCreationError(kPmaBadFile);
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return nullptr;
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}
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return CreateWithAllocator(std::make_unique<FilePersistentMemoryAllocator>(
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std::move(mmfile), 0, 0, StringPiece(), /*readonly=*/true));
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}
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#endif // !defined(OS_NACL)
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// static
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std::unique_ptr<GlobalActivityAnalyzer>
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GlobalActivityAnalyzer::CreateWithSharedMemory(
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base::ReadOnlySharedMemoryMapping mapping) {
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if (!mapping.IsValid() ||
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!ReadOnlySharedPersistentMemoryAllocator::IsSharedMemoryAcceptable(
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mapping)) {
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return nullptr;
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}
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return CreateWithAllocator(
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std::make_unique<ReadOnlySharedPersistentMemoryAllocator>(
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std::move(mapping), 0, StringPiece()));
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}
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int64_t GlobalActivityAnalyzer::GetFirstProcess() {
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PrepareAllAnalyzers();
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return GetNextProcess();
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}
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int64_t GlobalActivityAnalyzer::GetNextProcess() {
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if (process_ids_.empty())
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return 0;
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int64_t pid = process_ids_.back();
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process_ids_.pop_back();
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return pid;
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}
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ThreadActivityAnalyzer* GlobalActivityAnalyzer::GetFirstAnalyzer(int64_t pid) {
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analyzers_iterator_ = analyzers_.begin();
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analyzers_iterator_pid_ = pid;
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if (analyzers_iterator_ == analyzers_.end())
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return nullptr;
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int64_t create_stamp;
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if (analyzers_iterator_->second->GetProcessId(&create_stamp) == pid &&
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create_stamp <= analysis_stamp_) {
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return analyzers_iterator_->second.get();
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}
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return GetNextAnalyzer();
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}
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ThreadActivityAnalyzer* GlobalActivityAnalyzer::GetNextAnalyzer() {
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DCHECK(analyzers_iterator_ != analyzers_.end());
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int64_t create_stamp;
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do {
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++analyzers_iterator_;
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if (analyzers_iterator_ == analyzers_.end())
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return nullptr;
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} while (analyzers_iterator_->second->GetProcessId(&create_stamp) !=
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analyzers_iterator_pid_ ||
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create_stamp > analysis_stamp_);
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return analyzers_iterator_->second.get();
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}
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ThreadActivityAnalyzer* GlobalActivityAnalyzer::GetAnalyzerForThread(
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const ThreadKey& key) {
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auto found = analyzers_.find(key);
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if (found == analyzers_.end())
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return nullptr;
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return found->second.get();
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}
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ActivityUserData::Snapshot GlobalActivityAnalyzer::GetUserDataSnapshot(
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int64_t pid,
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uint32_t ref,
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uint32_t id) {
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ActivityUserData::Snapshot snapshot;
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void* memory = allocator_->GetAsArray<char>(
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ref, GlobalActivityTracker::kTypeIdUserDataRecord,
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PersistentMemoryAllocator::kSizeAny);
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if (memory) {
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size_t size = allocator_->GetAllocSize(ref);
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const ActivityUserData user_data(memory, size);
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user_data.CreateSnapshot(&snapshot);
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int64_t process_id;
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int64_t create_stamp;
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if (!ActivityUserData::GetOwningProcessId(memory, &process_id,
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&create_stamp) ||
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process_id != pid || user_data.id() != id) {
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// This allocation has been overwritten since it was created. Return an
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// empty snapshot because whatever was captured is incorrect.
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snapshot.clear();
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}
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}
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return snapshot;
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}
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const ActivityUserData::Snapshot&
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GlobalActivityAnalyzer::GetProcessDataSnapshot(int64_t pid) {
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auto iter = process_data_.find(pid);
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if (iter == process_data_.end())
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return GetEmptyUserDataSnapshot();
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if (iter->second.create_stamp > analysis_stamp_)
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return GetEmptyUserDataSnapshot();
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DCHECK_EQ(pid, iter->second.process_id);
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return iter->second.data;
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}
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std::vector<std::string> GlobalActivityAnalyzer::GetLogMessages() {
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std::vector<std::string> messages;
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PersistentMemoryAllocator::Reference ref;
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PersistentMemoryAllocator::Iterator iter(allocator_.get());
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while ((ref = iter.GetNextOfType(
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GlobalActivityTracker::kTypeIdGlobalLogMessage)) != 0) {
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const char* message = allocator_->GetAsArray<char>(
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ref, GlobalActivityTracker::kTypeIdGlobalLogMessage,
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PersistentMemoryAllocator::kSizeAny);
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if (message)
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messages.push_back(message);
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}
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return messages;
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}
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std::vector<GlobalActivityTracker::ModuleInfo>
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GlobalActivityAnalyzer::GetModules(int64_t pid) {
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std::vector<GlobalActivityTracker::ModuleInfo> modules;
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PersistentMemoryAllocator::Iterator iter(allocator_.get());
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const GlobalActivityTracker::ModuleInfoRecord* record;
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while (
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(record =
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iter.GetNextOfObject<GlobalActivityTracker::ModuleInfoRecord>()) !=
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nullptr) {
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int64_t process_id;
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int64_t create_stamp;
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if (!OwningProcess::GetOwningProcessId(&record->owner, &process_id,
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&create_stamp) ||
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pid != process_id || create_stamp > analysis_stamp_) {
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continue;
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}
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GlobalActivityTracker::ModuleInfo info;
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if (record->DecodeTo(&info, allocator_->GetAllocSize(
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allocator_->GetAsReference(record)))) {
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modules.push_back(std::move(info));
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}
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}
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return modules;
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}
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GlobalActivityAnalyzer::ProgramLocation
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GlobalActivityAnalyzer::GetProgramLocationFromAddress(uint64_t address) {
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// TODO(bcwhite): Implement this.
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return { 0, 0 };
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}
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bool GlobalActivityAnalyzer::IsDataComplete() const {
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DCHECK(allocator_);
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return !allocator_->IsFull();
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}
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GlobalActivityAnalyzer::UserDataSnapshot::UserDataSnapshot() = default;
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GlobalActivityAnalyzer::UserDataSnapshot::UserDataSnapshot(
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const UserDataSnapshot& rhs) = default;
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GlobalActivityAnalyzer::UserDataSnapshot::UserDataSnapshot(
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UserDataSnapshot&& rhs) = default;
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GlobalActivityAnalyzer::UserDataSnapshot::~UserDataSnapshot() = default;
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void GlobalActivityAnalyzer::PrepareAllAnalyzers() {
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// Record the time when analysis started.
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analysis_stamp_ = base::Time::Now().ToInternalValue();
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// Fetch all the records. This will retrieve only ones created since the
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// last run since the PMA iterator will continue from where it left off.
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uint32_t type;
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PersistentMemoryAllocator::Reference ref;
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while ((ref = allocator_iterator_.GetNext(&type)) != 0) {
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switch (type) {
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case GlobalActivityTracker::kTypeIdActivityTracker:
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case GlobalActivityTracker::kTypeIdActivityTrackerFree:
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case GlobalActivityTracker::kTypeIdProcessDataRecord:
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case GlobalActivityTracker::kTypeIdProcessDataRecordFree:
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case PersistentMemoryAllocator::kTypeIdTransitioning:
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// Active, free, or transitioning: add it to the list of references
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// for later analysis.
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memory_references_.insert(ref);
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break;
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}
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}
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// Clear out any old information.
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analyzers_.clear();
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process_data_.clear();
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process_ids_.clear();
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std::set<int64_t> seen_pids;
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// Go through all the known references and create objects for them with
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// snapshots of the current state.
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for (PersistentMemoryAllocator::Reference memory_ref : memory_references_) {
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// Get the actual data segment for the tracker. Any type will do since it
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// is checked below.
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void* const base = allocator_->GetAsArray<char>(
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memory_ref, PersistentMemoryAllocator::kTypeIdAny,
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PersistentMemoryAllocator::kSizeAny);
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const size_t size = allocator_->GetAllocSize(memory_ref);
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if (!base)
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continue;
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switch (allocator_->GetType(memory_ref)) {
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case GlobalActivityTracker::kTypeIdActivityTracker: {
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// Create the analyzer on the data. This will capture a snapshot of the
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// tracker state. This can fail if the tracker is somehow corrupted or
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// is in the process of shutting down.
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std::unique_ptr<ThreadActivityAnalyzer> analyzer(
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new ThreadActivityAnalyzer(base, size));
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if (!analyzer->IsValid())
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continue;
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analyzer->AddGlobalInformation(this);
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// Track PIDs.
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int64_t pid = analyzer->GetProcessId();
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if (seen_pids.find(pid) == seen_pids.end()) {
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process_ids_.push_back(pid);
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seen_pids.insert(pid);
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}
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// Add this analyzer to the map of known ones, indexed by a unique
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// thread
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// identifier.
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DCHECK(!base::Contains(analyzers_, analyzer->GetThreadKey()));
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analyzer->allocator_reference_ = ref;
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analyzers_[analyzer->GetThreadKey()] = std::move(analyzer);
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} break;
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case GlobalActivityTracker::kTypeIdProcessDataRecord: {
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// Get the PID associated with this data record.
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int64_t process_id;
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int64_t create_stamp;
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ActivityUserData::GetOwningProcessId(base, &process_id, &create_stamp);
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DCHECK(!base::Contains(process_data_, process_id));
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// Create a snapshot of the data. This can fail if the data is somehow
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// corrupted or the process shutdown and the memory being released.
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UserDataSnapshot& snapshot = process_data_[process_id];
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snapshot.process_id = process_id;
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snapshot.create_stamp = create_stamp;
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const ActivityUserData process_data(base, size);
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if (!process_data.CreateSnapshot(&snapshot.data))
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break;
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// Check that nothing changed. If it did, forget what was recorded.
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ActivityUserData::GetOwningProcessId(base, &process_id, &create_stamp);
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if (process_id != snapshot.process_id ||
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create_stamp != snapshot.create_stamp) {
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process_data_.erase(process_id);
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break;
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}
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// Track PIDs.
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if (seen_pids.find(process_id) == seen_pids.end()) {
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process_ids_.push_back(process_id);
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seen_pids.insert(process_id);
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}
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} break;
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}
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}
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// Reverse the list of PIDs so that they get popped in the order found.
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std::reverse(process_ids_.begin(), process_ids_.end());
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}
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} // namespace debug
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} // namespace base
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