// Copyright 2015 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/trace_event/trace_log.h" #include #include #include #include #include "base/base_switches.h" #include "base/bind.h" #include "base/command_line.h" #include "base/debug/leak_annotations.h" #include "base/location.h" #include "base/macros.h" #include "base/memory/ptr_util.h" #include "base/memory/ref_counted_memory.h" #include "base/message_loop/message_loop.h" #include "base/message_loop/message_loop_current.h" #include "base/no_destructor.h" #include "base/process/process_info.h" #include "base/process/process_metrics.h" #include "base/stl_util.h" #include "base/strings/string_piece.h" #include "base/strings/string_split.h" #include "base/strings/string_tokenizer.h" #include "base/strings/stringprintf.h" #include "base/sys_info.h" #include "base/task/post_task.h" #include "base/threading/platform_thread.h" #include "base/threading/sequenced_task_runner_handle.h" #include "base/threading/thread_id_name_manager.h" #include "base/threading/thread_task_runner_handle.h" #include "base/time/time.h" #include "base/trace_event/category_registry.h" #include "base/trace_event/event_name_filter.h" #include "base/trace_event/heap_profiler.h" #include "base/trace_event/heap_profiler_allocation_context_tracker.h" #include "base/trace_event/heap_profiler_event_filter.h" #include "base/trace_event/memory_dump_manager.h" #include "base/trace_event/memory_dump_provider.h" #include "base/trace_event/process_memory_dump.h" #include "base/trace_event/trace_buffer.h" #include "base/trace_event/trace_event.h" #include "build/build_config.h" #if defined(OS_WIN) #include "base/trace_event/trace_event_etw_export_win.h" #endif #if defined(OS_ANDROID) // The linker assigns the virtual address of the start of current library to // this symbol. extern char __executable_start; #endif namespace base { namespace trace_event { namespace { // Controls the number of trace events we will buffer in-memory // before throwing them away. const size_t kTraceBufferChunkSize = TraceBufferChunk::kTraceBufferChunkSize; const size_t kTraceEventVectorBigBufferChunks = 512000000 / kTraceBufferChunkSize; static_assert( kTraceEventVectorBigBufferChunks <= TraceBufferChunk::kMaxChunkIndex, "Too many big buffer chunks"); const size_t kTraceEventVectorBufferChunks = 256000 / kTraceBufferChunkSize; static_assert( kTraceEventVectorBufferChunks <= TraceBufferChunk::kMaxChunkIndex, "Too many vector buffer chunks"); const size_t kTraceEventRingBufferChunks = kTraceEventVectorBufferChunks / 4; // ECHO_TO_CONSOLE needs a small buffer to hold the unfinished COMPLETE events. const size_t kEchoToConsoleTraceEventBufferChunks = 256; const size_t kTraceEventBufferSizeInBytes = 100 * 1024; const int kThreadFlushTimeoutMs = 3000; TraceLog* g_trace_log_for_testing = nullptr; #define MAX_TRACE_EVENT_FILTERS 32 // List of TraceEventFilter objects from the most recent tracing session. std::vector>& GetCategoryGroupFilters() { static auto* filters = new std::vector>(); return *filters; } ThreadTicks ThreadNow() { return ThreadTicks::IsSupported() ? base::subtle::ThreadTicksNowIgnoringOverride() : ThreadTicks(); } template void InitializeMetadataEvent(TraceEvent* trace_event, int thread_id, const char* metadata_name, const char* arg_name, const T& value) { if (!trace_event) return; int num_args = 1; unsigned char arg_type; unsigned long long arg_value; ::trace_event_internal::SetTraceValue(value, &arg_type, &arg_value); trace_event->Initialize( thread_id, TimeTicks(), ThreadTicks(), TRACE_EVENT_PHASE_METADATA, CategoryRegistry::kCategoryMetadata->state_ptr(), metadata_name, trace_event_internal::kGlobalScope, // scope trace_event_internal::kNoId, // id trace_event_internal::kNoId, // bind_id num_args, &arg_name, &arg_type, &arg_value, nullptr, TRACE_EVENT_FLAG_NONE); } class AutoThreadLocalBoolean { public: explicit AutoThreadLocalBoolean(ThreadLocalBoolean* thread_local_boolean) : thread_local_boolean_(thread_local_boolean) { DCHECK(!thread_local_boolean_->Get()); thread_local_boolean_->Set(true); } ~AutoThreadLocalBoolean() { thread_local_boolean_->Set(false); } private: ThreadLocalBoolean* thread_local_boolean_; DISALLOW_COPY_AND_ASSIGN(AutoThreadLocalBoolean); }; // Use this function instead of TraceEventHandle constructor to keep the // overhead of ScopedTracer (trace_event.h) constructor minimum. void MakeHandle(uint32_t chunk_seq, size_t chunk_index, size_t event_index, TraceEventHandle* handle) { DCHECK(chunk_seq); DCHECK(chunk_index <= TraceBufferChunk::kMaxChunkIndex); DCHECK(event_index < TraceBufferChunk::kTraceBufferChunkSize); DCHECK(chunk_index <= std::numeric_limits::max()); handle->chunk_seq = chunk_seq; handle->chunk_index = static_cast(chunk_index); handle->event_index = static_cast(event_index); } template void ForEachCategoryFilter(const unsigned char* category_group_enabled, Function filter_fn) { const TraceCategory* category = CategoryRegistry::GetCategoryByStatePtr(category_group_enabled); uint32_t filter_bitmap = category->enabled_filters(); for (int index = 0; filter_bitmap != 0; filter_bitmap >>= 1, index++) { if (filter_bitmap & 1 && GetCategoryGroupFilters()[index]) filter_fn(GetCategoryGroupFilters()[index].get()); } } } // namespace // A helper class that allows the lock to be acquired in the middle of the scope // and unlocks at the end of scope if locked. class TraceLog::OptionalAutoLock { public: explicit OptionalAutoLock(Lock* lock) : lock_(lock), locked_(false) {} ~OptionalAutoLock() { if (locked_) lock_->Release(); } void EnsureAcquired() { if (!locked_) { lock_->Acquire(); locked_ = true; } } private: Lock* lock_; bool locked_; DISALLOW_COPY_AND_ASSIGN(OptionalAutoLock); }; class TraceLog::ThreadLocalEventBuffer : public MessageLoopCurrent::DestructionObserver, public MemoryDumpProvider { public: explicit ThreadLocalEventBuffer(TraceLog* trace_log); ~ThreadLocalEventBuffer() override; TraceEvent* AddTraceEvent(TraceEventHandle* handle); TraceEvent* GetEventByHandle(TraceEventHandle handle) { if (!chunk_ || handle.chunk_seq != chunk_->seq() || handle.chunk_index != chunk_index_) { return nullptr; } return chunk_->GetEventAt(handle.event_index); } int generation() const { return generation_; } private: // MessageLoopCurrent::DestructionObserver void WillDestroyCurrentMessageLoop() override; // MemoryDumpProvider implementation. bool OnMemoryDump(const MemoryDumpArgs& args, ProcessMemoryDump* pmd) override; void FlushWhileLocked(); void CheckThisIsCurrentBuffer() const { DCHECK(trace_log_->thread_local_event_buffer_.Get() == this); } // Since TraceLog is a leaky singleton, trace_log_ will always be valid // as long as the thread exists. TraceLog* trace_log_; std::unique_ptr chunk_; size_t chunk_index_; int generation_; DISALLOW_COPY_AND_ASSIGN(ThreadLocalEventBuffer); }; TraceLog::ThreadLocalEventBuffer::ThreadLocalEventBuffer(TraceLog* trace_log) : trace_log_(trace_log), chunk_index_(0), generation_(trace_log->generation()) { // ThreadLocalEventBuffer is created only if the thread has a message loop, so // the following message_loop won't be NULL. MessageLoop* message_loop = MessageLoop::current(); message_loop->AddDestructionObserver(this); // This is to report the local memory usage when memory-infra is enabled. MemoryDumpManager::GetInstance()->RegisterDumpProvider( this, "ThreadLocalEventBuffer", ThreadTaskRunnerHandle::Get()); AutoLock lock(trace_log->lock_); trace_log->thread_message_loops_.insert(message_loop); } TraceLog::ThreadLocalEventBuffer::~ThreadLocalEventBuffer() { CheckThisIsCurrentBuffer(); MessageLoop::current()->RemoveDestructionObserver(this); MemoryDumpManager::GetInstance()->UnregisterDumpProvider(this); { AutoLock lock(trace_log_->lock_); FlushWhileLocked(); trace_log_->thread_message_loops_.erase(MessageLoop::current()); } trace_log_->thread_local_event_buffer_.Set(nullptr); } TraceEvent* TraceLog::ThreadLocalEventBuffer::AddTraceEvent( TraceEventHandle* handle) { CheckThisIsCurrentBuffer(); if (chunk_ && chunk_->IsFull()) { AutoLock lock(trace_log_->lock_); FlushWhileLocked(); chunk_.reset(); } if (!chunk_) { AutoLock lock(trace_log_->lock_); chunk_ = trace_log_->logged_events_->GetChunk(&chunk_index_); trace_log_->CheckIfBufferIsFullWhileLocked(); } if (!chunk_) return nullptr; size_t event_index; TraceEvent* trace_event = chunk_->AddTraceEvent(&event_index); if (trace_event && handle) MakeHandle(chunk_->seq(), chunk_index_, event_index, handle); return trace_event; } void TraceLog::ThreadLocalEventBuffer::WillDestroyCurrentMessageLoop() { delete this; } bool TraceLog::ThreadLocalEventBuffer::OnMemoryDump(const MemoryDumpArgs& args, ProcessMemoryDump* pmd) { if (!chunk_) return true; std::string dump_base_name = StringPrintf( "tracing/thread_%d", static_cast(PlatformThread::CurrentId())); TraceEventMemoryOverhead overhead; chunk_->EstimateTraceMemoryOverhead(&overhead); overhead.DumpInto(dump_base_name.c_str(), pmd); return true; } void TraceLog::ThreadLocalEventBuffer::FlushWhileLocked() { if (!chunk_) return; trace_log_->lock_.AssertAcquired(); if (trace_log_->CheckGeneration(generation_)) { // Return the chunk to the buffer only if the generation matches. trace_log_->logged_events_->ReturnChunk(chunk_index_, std::move(chunk_)); } // Otherwise this method may be called from the destructor, or TraceLog will // find the generation mismatch and delete this buffer soon. } void TraceLog::SetAddTraceEventOverride( const AddTraceEventOverrideCallback& override, const OnFlushCallback& on_flush_callback) { subtle::NoBarrier_Store(&trace_event_override_, reinterpret_cast(override)); subtle::NoBarrier_Store( &on_flush_callback_, reinterpret_cast(on_flush_callback)); } struct TraceLog::RegisteredAsyncObserver { explicit RegisteredAsyncObserver(WeakPtr observer) : observer(observer), task_runner(ThreadTaskRunnerHandle::Get()) {} ~RegisteredAsyncObserver() = default; WeakPtr observer; scoped_refptr task_runner; }; TraceLogStatus::TraceLogStatus() : event_capacity(0), event_count(0) {} TraceLogStatus::~TraceLogStatus() = default; // static TraceLog* TraceLog::GetInstance() { static base::NoDestructor instance; return instance.get(); } // static void TraceLog::ResetForTesting() { if (!g_trace_log_for_testing) return; CategoryRegistry::ResetForTesting(); g_trace_log_for_testing->~TraceLog(); new (g_trace_log_for_testing) TraceLog; } TraceLog::TraceLog() : enabled_modes_(0), num_traces_recorded_(0), dispatching_to_observer_list_(false), process_sort_index_(0), process_id_hash_(0), process_id_(0), trace_options_(kInternalRecordUntilFull), trace_config_(TraceConfig()), thread_shared_chunk_index_(0), generation_(0), use_worker_thread_(false), trace_event_override_(0), on_flush_callback_(0), filter_factory_for_testing_(nullptr) { CategoryRegistry::Initialize(); #if defined(OS_NACL) // NaCl shouldn't expose the process id. SetProcessID(0); #else SetProcessID(static_cast(GetCurrentProcId())); #endif // Linux renderer processes and Android O processes are not allowed to read // "proc/stat" file, crbug.com/788870. #if defined(OS_WIN) || (defined(OS_MACOSX) && !defined(OS_IOS)) process_creation_time_ = CurrentProcessInfo::CreationTime(); #else // Use approximate time when creation time is not available. process_creation_time_ = TRACE_TIME_NOW(); #endif logged_events_.reset(CreateTraceBuffer()); MemoryDumpManager::GetInstance()->RegisterDumpProvider(this, "TraceLog", nullptr); g_trace_log_for_testing = this; } TraceLog::~TraceLog() = default; void TraceLog::InitializeThreadLocalEventBufferIfSupported() { // A ThreadLocalEventBuffer needs the message loop // - to know when the thread exits; // - to handle the final flush. // For a thread without a message loop or the message loop may be blocked, the // trace events will be added into the main buffer directly. if (thread_blocks_message_loop_.Get() || !MessageLoopCurrent::IsSet()) return; HEAP_PROFILER_SCOPED_IGNORE; auto* thread_local_event_buffer = thread_local_event_buffer_.Get(); if (thread_local_event_buffer && !CheckGeneration(thread_local_event_buffer->generation())) { delete thread_local_event_buffer; thread_local_event_buffer = nullptr; } if (!thread_local_event_buffer) { thread_local_event_buffer = new ThreadLocalEventBuffer(this); thread_local_event_buffer_.Set(thread_local_event_buffer); } } bool TraceLog::OnMemoryDump(const MemoryDumpArgs& args, ProcessMemoryDump* pmd) { // TODO(ssid): Use MemoryDumpArgs to create light dumps when requested // (crbug.com/499731). TraceEventMemoryOverhead overhead; overhead.Add(TraceEventMemoryOverhead::kOther, sizeof(*this)); { AutoLock lock(lock_); if (logged_events_) logged_events_->EstimateTraceMemoryOverhead(&overhead); for (auto& metadata_event : metadata_events_) metadata_event->EstimateTraceMemoryOverhead(&overhead); } overhead.AddSelf(); overhead.DumpInto("tracing/main_trace_log", pmd); return true; } const unsigned char* TraceLog::GetCategoryGroupEnabled( const char* category_group) { TraceLog* tracelog = GetInstance(); if (!tracelog) { DCHECK(!CategoryRegistry::kCategoryAlreadyShutdown->is_enabled()); return CategoryRegistry::kCategoryAlreadyShutdown->state_ptr(); } TraceCategory* category = CategoryRegistry::GetCategoryByName(category_group); if (!category) { // Slow path: in the case of a new category we have to repeat the check // holding the lock, as multiple threads might have reached this point // at the same time. auto category_initializer = [](TraceCategory* category) { TraceLog::GetInstance()->UpdateCategoryState(category); }; AutoLock lock(tracelog->lock_); CategoryRegistry::GetOrCreateCategoryLocked( category_group, category_initializer, &category); } DCHECK(category->state_ptr()); return category->state_ptr(); } const char* TraceLog::GetCategoryGroupName( const unsigned char* category_group_enabled) { return CategoryRegistry::GetCategoryByStatePtr(category_group_enabled) ->name(); } void TraceLog::UpdateCategoryState(TraceCategory* category) { lock_.AssertAcquired(); DCHECK(category->is_valid()); unsigned char state_flags = 0; if (enabled_modes_ & RECORDING_MODE && trace_config_.IsCategoryGroupEnabled(category->name())) { state_flags |= TraceCategory::ENABLED_FOR_RECORDING; } // TODO(primiano): this is a temporary workaround for catapult:#2341, // to guarantee that metadata events are always added even if the category // filter is "-*". See crbug.com/618054 for more details and long-term fix. if (enabled_modes_ & RECORDING_MODE && category == CategoryRegistry::kCategoryMetadata) { state_flags |= TraceCategory::ENABLED_FOR_RECORDING; } #if defined(OS_WIN) if (base::trace_event::TraceEventETWExport::IsCategoryGroupEnabled( category->name())) { state_flags |= TraceCategory::ENABLED_FOR_ETW_EXPORT; } #endif uint32_t enabled_filters_bitmap = 0; int index = 0; for (const auto& event_filter : enabled_event_filters_) { if (event_filter.IsCategoryGroupEnabled(category->name())) { state_flags |= TraceCategory::ENABLED_FOR_FILTERING; DCHECK(GetCategoryGroupFilters()[index]); enabled_filters_bitmap |= 1 << index; } if (index++ >= MAX_TRACE_EVENT_FILTERS) { NOTREACHED(); break; } } category->set_enabled_filters(enabled_filters_bitmap); category->set_state(state_flags); } void TraceLog::UpdateCategoryRegistry() { lock_.AssertAcquired(); CreateFiltersForTraceConfig(); for (TraceCategory& category : CategoryRegistry::GetAllCategories()) { UpdateCategoryState(&category); } } void TraceLog::CreateFiltersForTraceConfig() { if (!(enabled_modes_ & FILTERING_MODE)) return; // Filters were already added and tracing could be enabled. Filters list // cannot be changed when trace events are using them. if (GetCategoryGroupFilters().size()) return; for (auto& filter_config : enabled_event_filters_) { if (GetCategoryGroupFilters().size() >= MAX_TRACE_EVENT_FILTERS) { NOTREACHED() << "Too many trace event filters installed in the current session"; break; } std::unique_ptr new_filter; const std::string& predicate_name = filter_config.predicate_name(); if (predicate_name == EventNameFilter::kName) { auto whitelist = std::make_unique>(); CHECK(filter_config.GetArgAsSet("event_name_whitelist", &*whitelist)); new_filter = std::make_unique(std::move(whitelist)); } else if (predicate_name == HeapProfilerEventFilter::kName) { new_filter = std::make_unique(); } else { if (filter_factory_for_testing_) new_filter = filter_factory_for_testing_(predicate_name); CHECK(new_filter) << "Unknown trace filter " << predicate_name; } GetCategoryGroupFilters().push_back(std::move(new_filter)); } } void TraceLog::GetKnownCategoryGroups( std::vector* category_groups) { for (const auto& category : CategoryRegistry::GetAllCategories()) { if (!CategoryRegistry::IsBuiltinCategory(&category)) category_groups->push_back(category.name()); } } void TraceLog::SetEnabled(const TraceConfig& trace_config, uint8_t modes_to_enable) { DCHECK(trace_config.process_filter_config().IsEnabled(process_id_)); std::vector observer_list; std::map observer_map; { AutoLock lock(lock_); // Can't enable tracing when Flush() is in progress. DCHECK(!flush_task_runner_); InternalTraceOptions new_options = GetInternalOptionsFromTraceConfig(trace_config); InternalTraceOptions old_options = trace_options(); if (dispatching_to_observer_list_) { // TODO(ssid): Change to NOTREACHED after fixing crbug.com/625170. DLOG(ERROR) << "Cannot manipulate TraceLog::Enabled state from an observer."; return; } // Clear all filters from previous tracing session. These filters are not // cleared at the end of tracing because some threads which hit trace event // when disabling, could try to use the filters. if (!enabled_modes_) GetCategoryGroupFilters().clear(); // Update trace config for recording. const bool already_recording = enabled_modes_ & RECORDING_MODE; if (modes_to_enable & RECORDING_MODE) { if (already_recording) { // TODO(ssid): Stop suporting enabling of RECODING_MODE when already // enabled crbug.com/625170. DCHECK_EQ(new_options, old_options) << "Attempting to re-enable " "tracing with a different set " "of options."; trace_config_.Merge(trace_config); } else { trace_config_ = trace_config; } } // Update event filters only if filtering was not enabled. if (modes_to_enable & FILTERING_MODE && enabled_event_filters_.empty()) { DCHECK(!trace_config.event_filters().empty()); enabled_event_filters_ = trace_config.event_filters(); } // Keep the |trace_config_| updated with only enabled filters in case anyone // tries to read it using |GetCurrentTraceConfig| (even if filters are // empty). trace_config_.SetEventFilters(enabled_event_filters_); enabled_modes_ |= modes_to_enable; UpdateCategoryRegistry(); // Do not notify observers or create trace buffer if only enabled for // filtering or if recording was already enabled. if (!(modes_to_enable & RECORDING_MODE) || already_recording) return; if (new_options != old_options) { subtle::NoBarrier_Store(&trace_options_, new_options); UseNextTraceBuffer(); } num_traces_recorded_++; UpdateCategoryRegistry(); dispatching_to_observer_list_ = true; observer_list = enabled_state_observer_list_; observer_map = async_observers_; } // Notify observers outside the lock in case they trigger trace events. for (EnabledStateObserver* observer : observer_list) observer->OnTraceLogEnabled(); for (const auto& it : observer_map) { it.second.task_runner->PostTask( FROM_HERE, BindOnce(&AsyncEnabledStateObserver::OnTraceLogEnabled, it.second.observer)); } { AutoLock lock(lock_); dispatching_to_observer_list_ = false; } } void TraceLog::SetArgumentFilterPredicate( const ArgumentFilterPredicate& argument_filter_predicate) { AutoLock lock(lock_); DCHECK(!argument_filter_predicate.is_null()); DCHECK(argument_filter_predicate_.is_null()); argument_filter_predicate_ = argument_filter_predicate; } TraceLog::InternalTraceOptions TraceLog::GetInternalOptionsFromTraceConfig( const TraceConfig& config) { InternalTraceOptions ret = config.IsArgumentFilterEnabled() ? kInternalEnableArgumentFilter : kInternalNone; switch (config.GetTraceRecordMode()) { case RECORD_UNTIL_FULL: return ret | kInternalRecordUntilFull; case RECORD_CONTINUOUSLY: return ret | kInternalRecordContinuously; case ECHO_TO_CONSOLE: return ret | kInternalEchoToConsole; case RECORD_AS_MUCH_AS_POSSIBLE: return ret | kInternalRecordAsMuchAsPossible; } NOTREACHED(); return kInternalNone; } TraceConfig TraceLog::GetCurrentTraceConfig() const { AutoLock lock(lock_); return trace_config_; } void TraceLog::SetDisabled() { AutoLock lock(lock_); SetDisabledWhileLocked(RECORDING_MODE); } void TraceLog::SetDisabled(uint8_t modes_to_disable) { AutoLock lock(lock_); SetDisabledWhileLocked(modes_to_disable); } void TraceLog::SetDisabledWhileLocked(uint8_t modes_to_disable) { lock_.AssertAcquired(); if (!(enabled_modes_ & modes_to_disable)) return; if (dispatching_to_observer_list_) { // TODO(ssid): Change to NOTREACHED after fixing crbug.com/625170. DLOG(ERROR) << "Cannot manipulate TraceLog::Enabled state from an observer."; return; } bool is_recording_mode_disabled = (enabled_modes_ & RECORDING_MODE) && (modes_to_disable & RECORDING_MODE); enabled_modes_ &= ~modes_to_disable; if (modes_to_disable & FILTERING_MODE) enabled_event_filters_.clear(); if (modes_to_disable & RECORDING_MODE) trace_config_.Clear(); UpdateCategoryRegistry(); // Add metadata events and notify observers only if recording mode was // disabled now. if (!is_recording_mode_disabled) return; AddMetadataEventsWhileLocked(); // Remove metadata events so they will not get added to a subsequent trace. metadata_events_.clear(); dispatching_to_observer_list_ = true; std::vector observer_list = enabled_state_observer_list_; std::map observer_map = async_observers_; { // Dispatch to observers outside the lock in case the observer triggers a // trace event. AutoUnlock unlock(lock_); for (EnabledStateObserver* observer : observer_list) observer->OnTraceLogDisabled(); for (const auto& it : observer_map) { it.second.task_runner->PostTask( FROM_HERE, BindOnce(&AsyncEnabledStateObserver::OnTraceLogDisabled, it.second.observer)); } } dispatching_to_observer_list_ = false; } int TraceLog::GetNumTracesRecorded() { AutoLock lock(lock_); if (!IsEnabled()) return -1; return num_traces_recorded_; } void TraceLog::AddEnabledStateObserver(EnabledStateObserver* listener) { AutoLock lock(lock_); enabled_state_observer_list_.push_back(listener); } void TraceLog::RemoveEnabledStateObserver(EnabledStateObserver* listener) { AutoLock lock(lock_); std::vector::iterator it = std::find(enabled_state_observer_list_.begin(), enabled_state_observer_list_.end(), listener); if (it != enabled_state_observer_list_.end()) enabled_state_observer_list_.erase(it); } bool TraceLog::HasEnabledStateObserver(EnabledStateObserver* listener) const { AutoLock lock(lock_); return ContainsValue(enabled_state_observer_list_, listener); } TraceLogStatus TraceLog::GetStatus() const { AutoLock lock(lock_); TraceLogStatus result; result.event_capacity = static_cast(logged_events_->Capacity()); result.event_count = static_cast(logged_events_->Size()); return result; } bool TraceLog::BufferIsFull() const { AutoLock lock(lock_); return logged_events_->IsFull(); } TraceEvent* TraceLog::AddEventToThreadSharedChunkWhileLocked( TraceEventHandle* handle, bool check_buffer_is_full) { lock_.AssertAcquired(); if (thread_shared_chunk_ && thread_shared_chunk_->IsFull()) { logged_events_->ReturnChunk(thread_shared_chunk_index_, std::move(thread_shared_chunk_)); } if (!thread_shared_chunk_) { thread_shared_chunk_ = logged_events_->GetChunk(&thread_shared_chunk_index_); if (check_buffer_is_full) CheckIfBufferIsFullWhileLocked(); } if (!thread_shared_chunk_) return nullptr; size_t event_index; TraceEvent* trace_event = thread_shared_chunk_->AddTraceEvent(&event_index); if (trace_event && handle) { MakeHandle(thread_shared_chunk_->seq(), thread_shared_chunk_index_, event_index, handle); } return trace_event; } void TraceLog::CheckIfBufferIsFullWhileLocked() { lock_.AssertAcquired(); if (logged_events_->IsFull()) { if (buffer_limit_reached_timestamp_.is_null()) { buffer_limit_reached_timestamp_ = OffsetNow(); } SetDisabledWhileLocked(RECORDING_MODE); } } // Flush() works as the following: // 1. Flush() is called in thread A whose task runner is saved in // flush_task_runner_; // 2. If thread_message_loops_ is not empty, thread A posts task to each message // loop to flush the thread local buffers; otherwise finish the flush; // 3. FlushCurrentThread() deletes the thread local event buffer: // - The last batch of events of the thread are flushed into the main buffer; // - The message loop will be removed from thread_message_loops_; // If this is the last message loop, finish the flush; // 4. If any thread hasn't finish its flush in time, finish the flush. void TraceLog::Flush(const TraceLog::OutputCallback& cb, bool use_worker_thread) { FlushInternal(cb, use_worker_thread, false); } void TraceLog::CancelTracing(const OutputCallback& cb) { SetDisabled(); FlushInternal(cb, false, true); } void TraceLog::FlushInternal(const TraceLog::OutputCallback& cb, bool use_worker_thread, bool discard_events) { use_worker_thread_ = use_worker_thread; if (IsEnabled()) { // Can't flush when tracing is enabled because otherwise PostTask would // - generate more trace events; // - deschedule the calling thread on some platforms causing inaccurate // timing of the trace events. scoped_refptr empty_result = new RefCountedString; if (!cb.is_null()) cb.Run(empty_result, false); LOG(WARNING) << "Ignored TraceLog::Flush called when tracing is enabled"; return; } int gen = generation(); // Copy of thread_message_loops_ to be used without locking. std::vector> thread_message_loop_task_runners; { AutoLock lock(lock_); DCHECK(!flush_task_runner_); flush_task_runner_ = SequencedTaskRunnerHandle::IsSet() ? SequencedTaskRunnerHandle::Get() : nullptr; DCHECK(thread_message_loops_.empty() || flush_task_runner_); flush_output_callback_ = cb; if (thread_shared_chunk_) { logged_events_->ReturnChunk(thread_shared_chunk_index_, std::move(thread_shared_chunk_)); } for (MessageLoop* loop : thread_message_loops_) thread_message_loop_task_runners.push_back(loop->task_runner()); } if (!thread_message_loop_task_runners.empty()) { for (auto& task_runner : thread_message_loop_task_runners) { task_runner->PostTask( FROM_HERE, BindOnce(&TraceLog::FlushCurrentThread, Unretained(this), gen, discard_events)); } flush_task_runner_->PostDelayedTask( FROM_HERE, BindOnce(&TraceLog::OnFlushTimeout, Unretained(this), gen, discard_events), TimeDelta::FromMilliseconds(kThreadFlushTimeoutMs)); return; } FinishFlush(gen, discard_events); } // Usually it runs on a different thread. void TraceLog::ConvertTraceEventsToTraceFormat( std::unique_ptr logged_events, const OutputCallback& flush_output_callback, const ArgumentFilterPredicate& argument_filter_predicate) { if (flush_output_callback.is_null()) return; HEAP_PROFILER_SCOPED_IGNORE; // The callback need to be called at least once even if there is no events // to let the caller know the completion of flush. scoped_refptr json_events_str_ptr = new RefCountedString(); const size_t kReserveCapacity = kTraceEventBufferSizeInBytes * 5 / 4; json_events_str_ptr->data().reserve(kReserveCapacity); while (const TraceBufferChunk* chunk = logged_events->NextChunk()) { for (size_t j = 0; j < chunk->size(); ++j) { size_t size = json_events_str_ptr->size(); if (size > kTraceEventBufferSizeInBytes) { flush_output_callback.Run(json_events_str_ptr, true); json_events_str_ptr = new RefCountedString(); json_events_str_ptr->data().reserve(kReserveCapacity); } else if (size) { json_events_str_ptr->data().append(",\n"); } chunk->GetEventAt(j)->AppendAsJSON(&(json_events_str_ptr->data()), argument_filter_predicate); } } flush_output_callback.Run(json_events_str_ptr, false); } void TraceLog::FinishFlush(int generation, bool discard_events) { std::unique_ptr previous_logged_events; OutputCallback flush_output_callback; ArgumentFilterPredicate argument_filter_predicate; if (!CheckGeneration(generation)) return; { AutoLock lock(lock_); previous_logged_events.swap(logged_events_); UseNextTraceBuffer(); thread_message_loops_.clear(); flush_task_runner_ = nullptr; flush_output_callback = flush_output_callback_; flush_output_callback_.Reset(); if (trace_options() & kInternalEnableArgumentFilter) { CHECK(!argument_filter_predicate_.is_null()); argument_filter_predicate = argument_filter_predicate_; } } if (discard_events) { if (!flush_output_callback.is_null()) { scoped_refptr empty_result = new RefCountedString; flush_output_callback.Run(empty_result, false); } return; } if (use_worker_thread_) { base::PostTaskWithTraits( FROM_HERE, {MayBlock(), TaskPriority::BEST_EFFORT, TaskShutdownBehavior::CONTINUE_ON_SHUTDOWN}, BindOnce(&TraceLog::ConvertTraceEventsToTraceFormat, std::move(previous_logged_events), flush_output_callback, argument_filter_predicate)); return; } ConvertTraceEventsToTraceFormat(std::move(previous_logged_events), flush_output_callback, argument_filter_predicate); } // Run in each thread holding a local event buffer. void TraceLog::FlushCurrentThread(int generation, bool discard_events) { { AutoLock lock(lock_); if (!CheckGeneration(generation) || !flush_task_runner_) { // This is late. The corresponding flush has finished. return; } } // This will flush the thread local buffer. delete thread_local_event_buffer_.Get(); auto on_flush_callback = reinterpret_cast( subtle::NoBarrier_Load(&on_flush_callback_)); if (on_flush_callback) { on_flush_callback(); } // Scheduler uses TRACE_EVENT macros when posting a task, which can lead // to acquiring a tracing lock. Given that posting a task requires grabbing // a scheduler lock, we need to post this task outside tracing lock to avoid // deadlocks. scoped_refptr cached_flush_task_runner; { AutoLock lock(lock_); cached_flush_task_runner = flush_task_runner_; if (!CheckGeneration(generation) || !flush_task_runner_ || !thread_message_loops_.empty()) return; } cached_flush_task_runner->PostTask( FROM_HERE, BindOnce(&TraceLog::FinishFlush, Unretained(this), generation, discard_events)); } void TraceLog::OnFlushTimeout(int generation, bool discard_events) { { AutoLock lock(lock_); if (!CheckGeneration(generation) || !flush_task_runner_) { // Flush has finished before timeout. return; } LOG(WARNING) << "The following threads haven't finished flush in time. " "If this happens stably for some thread, please call " "TraceLog::GetInstance()->SetCurrentThreadBlocksMessageLoop() from " "the thread to avoid its trace events from being lost."; for (hash_set::const_iterator it = thread_message_loops_.begin(); it != thread_message_loops_.end(); ++it) { LOG(WARNING) << "Thread: " << (*it)->GetThreadName(); } } FinishFlush(generation, discard_events); } void TraceLog::UseNextTraceBuffer() { logged_events_.reset(CreateTraceBuffer()); subtle::NoBarrier_AtomicIncrement(&generation_, 1); thread_shared_chunk_.reset(); thread_shared_chunk_index_ = 0; } TraceEventHandle TraceLog::AddTraceEvent( char phase, const unsigned char* category_group_enabled, const char* name, const char* scope, unsigned long long id, int num_args, const char* const* arg_names, const unsigned char* arg_types, const unsigned long long* arg_values, std::unique_ptr* convertable_values, unsigned int flags) { int thread_id = static_cast(base::PlatformThread::CurrentId()); base::TimeTicks now = TRACE_TIME_TICKS_NOW(); return AddTraceEventWithThreadIdAndTimestamp( phase, category_group_enabled, name, scope, id, trace_event_internal::kNoId, // bind_id thread_id, now, num_args, arg_names, arg_types, arg_values, convertable_values, flags); } TraceEventHandle TraceLog::AddTraceEventWithBindId( char phase, const unsigned char* category_group_enabled, const char* name, const char* scope, unsigned long long id, unsigned long long bind_id, int num_args, const char* const* arg_names, const unsigned char* arg_types, const unsigned long long* arg_values, std::unique_ptr* convertable_values, unsigned int flags) { int thread_id = static_cast(base::PlatformThread::CurrentId()); base::TimeTicks now = TRACE_TIME_TICKS_NOW(); return AddTraceEventWithThreadIdAndTimestamp( phase, category_group_enabled, name, scope, id, bind_id, thread_id, now, num_args, arg_names, arg_types, arg_values, convertable_values, flags | TRACE_EVENT_FLAG_HAS_CONTEXT_ID); } TraceEventHandle TraceLog::AddTraceEventWithProcessId( char phase, const unsigned char* category_group_enabled, const char* name, const char* scope, unsigned long long id, int process_id, int num_args, const char* const* arg_names, const unsigned char* arg_types, const unsigned long long* arg_values, std::unique_ptr* convertable_values, unsigned int flags) { base::TimeTicks now = TRACE_TIME_TICKS_NOW(); return AddTraceEventWithThreadIdAndTimestamp( phase, category_group_enabled, name, scope, id, trace_event_internal::kNoId, // bind_id process_id, now, num_args, arg_names, arg_types, arg_values, convertable_values, flags | TRACE_EVENT_FLAG_HAS_PROCESS_ID); } // Handle legacy calls to AddTraceEventWithThreadIdAndTimestamp // with kNoId as bind_id TraceEventHandle TraceLog::AddTraceEventWithThreadIdAndTimestamp( char phase, const unsigned char* category_group_enabled, const char* name, const char* scope, unsigned long long id, int thread_id, const TimeTicks& timestamp, int num_args, const char* const* arg_names, const unsigned char* arg_types, const unsigned long long* arg_values, std::unique_ptr* convertable_values, unsigned int flags) { return AddTraceEventWithThreadIdAndTimestamp( phase, category_group_enabled, name, scope, id, trace_event_internal::kNoId, // bind_id thread_id, timestamp, num_args, arg_names, arg_types, arg_values, convertable_values, flags); } TraceEventHandle TraceLog::AddTraceEventWithThreadIdAndTimestamp( char phase, const unsigned char* category_group_enabled, const char* name, const char* scope, unsigned long long id, unsigned long long bind_id, int thread_id, const TimeTicks& timestamp, int num_args, const char* const* arg_names, const unsigned char* arg_types, const unsigned long long* arg_values, std::unique_ptr* convertable_values, unsigned int flags) { TraceEventHandle handle = {0, 0, 0}; if (!*category_group_enabled) return handle; // Avoid re-entrance of AddTraceEvent. This may happen in GPU process when // ECHO_TO_CONSOLE is enabled: AddTraceEvent -> LOG(ERROR) -> // GpuProcessLogMessageHandler -> PostPendingTask -> TRACE_EVENT ... if (thread_is_in_trace_event_.Get()) return handle; AutoThreadLocalBoolean thread_is_in_trace_event(&thread_is_in_trace_event_); DCHECK(name); DCHECK(!timestamp.is_null()); if (flags & TRACE_EVENT_FLAG_MANGLE_ID) { if ((flags & TRACE_EVENT_FLAG_FLOW_IN) || (flags & TRACE_EVENT_FLAG_FLOW_OUT)) bind_id = MangleEventId(bind_id); id = MangleEventId(id); } TimeTicks offset_event_timestamp = OffsetTimestamp(timestamp); ThreadTicks thread_now = ThreadNow(); ThreadLocalEventBuffer* thread_local_event_buffer = nullptr; if (*category_group_enabled & RECORDING_MODE) { // |thread_local_event_buffer_| can be null if the current thread doesn't // have a message loop or the message loop is blocked. InitializeThreadLocalEventBufferIfSupported(); thread_local_event_buffer = thread_local_event_buffer_.Get(); } // Check and update the current thread name only if the event is for the // current thread to avoid locks in most cases. if (thread_id == static_cast(PlatformThread::CurrentId())) { const char* new_name = ThreadIdNameManager::GetInstance()->GetName(thread_id); // Check if the thread name has been set or changed since the previous // call (if any), but don't bother if the new name is empty. Note this will // not detect a thread name change within the same char* buffer address: we // favor common case performance over corner case correctness. static auto* current_thread_name = new ThreadLocalPointer(); if (new_name != current_thread_name->Get() && new_name && *new_name) { current_thread_name->Set(new_name); AutoLock thread_info_lock(thread_info_lock_); auto existing_name = thread_names_.find(thread_id); if (existing_name == thread_names_.end()) { // This is a new thread id, and a new name. thread_names_[thread_id] = new_name; } else { // This is a thread id that we've seen before, but potentially with a // new name. std::vector existing_names = base::SplitStringPiece( existing_name->second, ",", base::KEEP_WHITESPACE, base::SPLIT_WANT_NONEMPTY); if (!ContainsValue(existing_names, new_name)) { if (!existing_names.empty()) existing_name->second.push_back(','); existing_name->second.append(new_name); } } } } #if defined(OS_WIN) // This is done sooner rather than later, to avoid creating the event and // acquiring the lock, which is not needed for ETW as it's already threadsafe. if (*category_group_enabled & TraceCategory::ENABLED_FOR_ETW_EXPORT) TraceEventETWExport::AddEvent(phase, category_group_enabled, name, id, num_args, arg_names, arg_types, arg_values, convertable_values); #endif // OS_WIN AddTraceEventOverrideCallback trace_event_override = reinterpret_cast( subtle::NoBarrier_Load(&trace_event_override_)); if (trace_event_override) { TraceEvent new_trace_event; // If we have an override in place for events, rather than sending // them to the tracelog, we don't have a way of going back and updating // the duration of _COMPLETE events. Instead, we emit separate _BEGIN // and _END events. if (phase == TRACE_EVENT_PHASE_COMPLETE) phase = TRACE_EVENT_PHASE_BEGIN; new_trace_event.Initialize(thread_id, offset_event_timestamp, thread_now, phase, category_group_enabled, name, scope, id, bind_id, num_args, arg_names, arg_types, arg_values, convertable_values, flags); trace_event_override(new_trace_event); return handle; } std::string console_message; std::unique_ptr filtered_trace_event; bool disabled_by_filters = false; if (*category_group_enabled & TraceCategory::ENABLED_FOR_FILTERING) { std::unique_ptr new_trace_event(new TraceEvent); new_trace_event->Initialize(thread_id, offset_event_timestamp, thread_now, phase, category_group_enabled, name, scope, id, bind_id, num_args, arg_names, arg_types, arg_values, convertable_values, flags); disabled_by_filters = true; ForEachCategoryFilter( category_group_enabled, [&new_trace_event, &disabled_by_filters]( TraceEventFilter* trace_event_filter) { if (trace_event_filter->FilterTraceEvent(*new_trace_event)) disabled_by_filters = false; }); if (!disabled_by_filters) filtered_trace_event = std::move(new_trace_event); } // If enabled for recording, the event should be added only if one of the // filters indicates or category is not enabled for filtering. if ((*category_group_enabled & TraceCategory::ENABLED_FOR_RECORDING) && !disabled_by_filters) { OptionalAutoLock lock(&lock_); TraceEvent* trace_event = nullptr; if (thread_local_event_buffer) { trace_event = thread_local_event_buffer->AddTraceEvent(&handle); } else { lock.EnsureAcquired(); trace_event = AddEventToThreadSharedChunkWhileLocked(&handle, true); } if (trace_event) { if (filtered_trace_event) { trace_event->MoveFrom(std::move(filtered_trace_event)); } else { trace_event->Initialize(thread_id, offset_event_timestamp, thread_now, phase, category_group_enabled, name, scope, id, bind_id, num_args, arg_names, arg_types, arg_values, convertable_values, flags); } #if defined(OS_ANDROID) trace_event->SendToATrace(); #endif } if (trace_options() & kInternalEchoToConsole) { console_message = EventToConsoleMessage( phase == TRACE_EVENT_PHASE_COMPLETE ? TRACE_EVENT_PHASE_BEGIN : phase, timestamp, trace_event); } } if (!console_message.empty()) LOG(ERROR) << console_message; return handle; } void TraceLog::AddMetadataEvent( const unsigned char* category_group_enabled, const char* name, int num_args, const char* const* arg_names, const unsigned char* arg_types, const unsigned long long* arg_values, std::unique_ptr* convertable_values, unsigned int flags) { HEAP_PROFILER_SCOPED_IGNORE; std::unique_ptr trace_event(new TraceEvent); int thread_id = static_cast(base::PlatformThread::CurrentId()); ThreadTicks thread_now = ThreadNow(); TimeTicks now = OffsetNow(); AutoLock lock(lock_); trace_event->Initialize( thread_id, now, thread_now, TRACE_EVENT_PHASE_METADATA, category_group_enabled, name, trace_event_internal::kGlobalScope, // scope trace_event_internal::kNoId, // id trace_event_internal::kNoId, // bind_id num_args, arg_names, arg_types, arg_values, convertable_values, flags); metadata_events_.push_back(std::move(trace_event)); } // May be called when a COMPELETE event ends and the unfinished event has been // recycled (phase == TRACE_EVENT_PHASE_END and trace_event == NULL). std::string TraceLog::EventToConsoleMessage(unsigned char phase, const TimeTicks& timestamp, TraceEvent* trace_event) { HEAP_PROFILER_SCOPED_IGNORE; AutoLock thread_info_lock(thread_info_lock_); // The caller should translate TRACE_EVENT_PHASE_COMPLETE to // TRACE_EVENT_PHASE_BEGIN or TRACE_EVENT_END. DCHECK(phase != TRACE_EVENT_PHASE_COMPLETE); TimeDelta duration; int thread_id = trace_event ? trace_event->thread_id() : PlatformThread::CurrentId(); if (phase == TRACE_EVENT_PHASE_END) { duration = timestamp - thread_event_start_times_[thread_id].top(); thread_event_start_times_[thread_id].pop(); } std::string thread_name = thread_names_[thread_id]; if (thread_colors_.find(thread_name) == thread_colors_.end()) { size_t next_color = (thread_colors_.size() % 6) + 1; thread_colors_[thread_name] = next_color; } std::ostringstream log; log << base::StringPrintf("%s: \x1b[0;3%dm", thread_name.c_str(), thread_colors_[thread_name]); size_t depth = 0; auto it = thread_event_start_times_.find(thread_id); if (it != thread_event_start_times_.end()) depth = it->second.size(); for (size_t i = 0; i < depth; ++i) log << "| "; if (trace_event) trace_event->AppendPrettyPrinted(&log); if (phase == TRACE_EVENT_PHASE_END) log << base::StringPrintf(" (%.3f ms)", duration.InMillisecondsF()); log << "\x1b[0;m"; if (phase == TRACE_EVENT_PHASE_BEGIN) thread_event_start_times_[thread_id].push(timestamp); return log.str(); } void TraceLog::EndFilteredEvent(const unsigned char* category_group_enabled, const char* name, TraceEventHandle handle) { const char* category_name = GetCategoryGroupName(category_group_enabled); ForEachCategoryFilter( category_group_enabled, [name, category_name](TraceEventFilter* trace_event_filter) { trace_event_filter->EndEvent(category_name, name); }); } void TraceLog::UpdateTraceEventDuration( const unsigned char* category_group_enabled, const char* name, TraceEventHandle handle) { char category_group_enabled_local = *category_group_enabled; if (!category_group_enabled_local) return; UpdateTraceEventDurationExplicit(category_group_enabled, name, handle, OffsetNow(), ThreadNow()); } void TraceLog::UpdateTraceEventDurationExplicit( const unsigned char* category_group_enabled, const char* name, TraceEventHandle handle, const TimeTicks& now, const ThreadTicks& thread_now) { char category_group_enabled_local = *category_group_enabled; if (!category_group_enabled_local) return; // Avoid re-entrance of AddTraceEvent. This may happen in GPU process when // ECHO_TO_CONSOLE is enabled: AddTraceEvent -> LOG(ERROR) -> // GpuProcessLogMessageHandler -> PostPendingTask -> TRACE_EVENT ... if (thread_is_in_trace_event_.Get()) return; AutoThreadLocalBoolean thread_is_in_trace_event(&thread_is_in_trace_event_); #if defined(OS_WIN) // Generate an ETW event that marks the end of a complete event. if (category_group_enabled_local & TraceCategory::ENABLED_FOR_ETW_EXPORT) TraceEventETWExport::AddCompleteEndEvent(name); #endif // OS_WIN std::string console_message; if (category_group_enabled_local & TraceCategory::ENABLED_FOR_RECORDING) { AddTraceEventOverrideCallback trace_event_override = reinterpret_cast( subtle::NoBarrier_Load(&trace_event_override_)); // If we send events off to an override instead of the TraceBuffer, // we don't have way of updating the prior event so we'll emit a // separate _END event instead. if (trace_event_override) { TraceEvent new_trace_event; new_trace_event.Initialize( static_cast(base::PlatformThread::CurrentId()), now, thread_now, TRACE_EVENT_PHASE_END, category_group_enabled, name, trace_event_internal::kGlobalScope, trace_event_internal::kNoId /* id */, trace_event_internal::kNoId /* bind_id */, 0, nullptr, nullptr, nullptr, nullptr, TRACE_EVENT_FLAG_NONE); trace_event_override(new_trace_event); return; } OptionalAutoLock lock(&lock_); TraceEvent* trace_event = GetEventByHandleInternal(handle, &lock); if (trace_event) { DCHECK(trace_event->phase() == TRACE_EVENT_PHASE_COMPLETE); // TEMP(oysteine) to debug crbug.com/638744 if (trace_event->duration().ToInternalValue() != -1) { DVLOG(1) << "TraceHandle: chunk_seq " << handle.chunk_seq << ", chunk_index " << handle.chunk_index << ", event_index " << handle.event_index; std::string serialized_event; trace_event->AppendAsJSON(&serialized_event, ArgumentFilterPredicate()); DVLOG(1) << "TraceEvent: " << serialized_event; lock_.AssertAcquired(); } trace_event->UpdateDuration(now, thread_now); #if defined(OS_ANDROID) trace_event->SendToATrace(); #endif } if (trace_options() & kInternalEchoToConsole) { console_message = EventToConsoleMessage(TRACE_EVENT_PHASE_END, now, trace_event); } } if (!console_message.empty()) LOG(ERROR) << console_message; if (category_group_enabled_local & TraceCategory::ENABLED_FOR_FILTERING) EndFilteredEvent(category_group_enabled, name, handle); } uint64_t TraceLog::MangleEventId(uint64_t id) { return id ^ process_id_hash_; } template void TraceLog::AddMetadataEventWhileLocked(int thread_id, const char* metadata_name, const char* arg_name, const T& value) { auto trace_event_override = reinterpret_cast( subtle::NoBarrier_Load(&trace_event_override_)); if (trace_event_override) { TraceEvent trace_event; InitializeMetadataEvent(&trace_event, thread_id, metadata_name, arg_name, value); trace_event_override(trace_event); } else { InitializeMetadataEvent( AddEventToThreadSharedChunkWhileLocked(nullptr, false), thread_id, metadata_name, arg_name, value); } } void TraceLog::AddMetadataEventsWhileLocked() { lock_.AssertAcquired(); auto trace_event_override = reinterpret_cast( subtle::NoBarrier_Load(&trace_event_override_)); // Move metadata added by |AddMetadataEvent| into the trace log. if (trace_event_override) { while (!metadata_events_.empty()) { trace_event_override(*metadata_events_.back()); metadata_events_.pop_back(); } } else { while (!metadata_events_.empty()) { TraceEvent* event = AddEventToThreadSharedChunkWhileLocked(nullptr, false); event->MoveFrom(std::move(metadata_events_.back())); metadata_events_.pop_back(); } } #if !defined(OS_NACL) // NaCl shouldn't expose the process id. AddMetadataEventWhileLocked(0, "num_cpus", "number", base::SysInfo::NumberOfProcessors()); #endif int current_thread_id = static_cast(base::PlatformThread::CurrentId()); if (process_sort_index_ != 0) { AddMetadataEventWhileLocked(current_thread_id, "process_sort_index", "sort_index", process_sort_index_); } if (!process_name_.empty()) { AddMetadataEventWhileLocked(current_thread_id, "process_name", "name", process_name_); } TimeDelta process_uptime = TRACE_TIME_NOW() - process_creation_time_; AddMetadataEventWhileLocked(current_thread_id, "process_uptime_seconds", "uptime", process_uptime.InSeconds()); #if defined(OS_ANDROID) AddMetadataEventWhileLocked(current_thread_id, "chrome_library_address", "start_address", base::StringPrintf("%p", &__executable_start)); #endif if (!process_labels_.empty()) { std::vector labels; for (const auto& it : process_labels_) labels.push_back(it.second); AddMetadataEventWhileLocked(current_thread_id, "process_labels", "labels", base::JoinString(labels, ",")); } // Thread sort indices. for (const auto& it : thread_sort_indices_) { if (it.second == 0) continue; AddMetadataEventWhileLocked(it.first, "thread_sort_index", "sort_index", it.second); } // Thread names. AutoLock thread_info_lock(thread_info_lock_); for (const auto& it : thread_names_) { if (it.second.empty()) continue; AddMetadataEventWhileLocked(it.first, "thread_name", "name", it.second); } // If buffer is full, add a metadata record to report this. if (!buffer_limit_reached_timestamp_.is_null()) { AddMetadataEventWhileLocked(current_thread_id, "trace_buffer_overflowed", "overflowed_at_ts", buffer_limit_reached_timestamp_); } } TraceEvent* TraceLog::GetEventByHandle(TraceEventHandle handle) { return GetEventByHandleInternal(handle, nullptr); } TraceEvent* TraceLog::GetEventByHandleInternal(TraceEventHandle handle, OptionalAutoLock* lock) { if (!handle.chunk_seq) return nullptr; DCHECK(handle.chunk_seq); DCHECK(handle.chunk_index <= TraceBufferChunk::kMaxChunkIndex); DCHECK(handle.event_index <= TraceBufferChunk::kTraceBufferChunkSize - 1); if (thread_local_event_buffer_.Get()) { TraceEvent* trace_event = thread_local_event_buffer_.Get()->GetEventByHandle(handle); if (trace_event) return trace_event; } // The event has been out-of-control of the thread local buffer. // Try to get the event from the main buffer with a lock. if (lock) lock->EnsureAcquired(); if (thread_shared_chunk_ && handle.chunk_index == thread_shared_chunk_index_) { return handle.chunk_seq == thread_shared_chunk_->seq() ? thread_shared_chunk_->GetEventAt(handle.event_index) : nullptr; } return logged_events_->GetEventByHandle(handle); } void TraceLog::SetProcessID(int process_id) { process_id_ = process_id; // Create a FNV hash from the process ID for XORing. // See http://isthe.com/chongo/tech/comp/fnv/ for algorithm details. const unsigned long long kOffsetBasis = 14695981039346656037ull; const unsigned long long kFnvPrime = 1099511628211ull; const unsigned long long pid = static_cast(process_id_); process_id_hash_ = (kOffsetBasis ^ pid) * kFnvPrime; } void TraceLog::SetProcessSortIndex(int sort_index) { AutoLock lock(lock_); process_sort_index_ = sort_index; } void TraceLog::UpdateProcessLabel(int label_id, const std::string& current_label) { if (!current_label.length()) return RemoveProcessLabel(label_id); AutoLock lock(lock_); process_labels_[label_id] = current_label; } void TraceLog::RemoveProcessLabel(int label_id) { AutoLock lock(lock_); process_labels_.erase(label_id); } void TraceLog::SetThreadSortIndex(PlatformThreadId thread_id, int sort_index) { AutoLock lock(lock_); thread_sort_indices_[static_cast(thread_id)] = sort_index; } void TraceLog::SetTimeOffset(TimeDelta offset) { time_offset_ = offset; } size_t TraceLog::GetObserverCountForTest() const { return enabled_state_observer_list_.size(); } void TraceLog::SetCurrentThreadBlocksMessageLoop() { thread_blocks_message_loop_.Set(true); // This will flush the thread local buffer. delete thread_local_event_buffer_.Get(); } TraceBuffer* TraceLog::CreateTraceBuffer() { HEAP_PROFILER_SCOPED_IGNORE; InternalTraceOptions options = trace_options(); if (options & kInternalRecordContinuously) { return TraceBuffer::CreateTraceBufferRingBuffer( kTraceEventRingBufferChunks); } if (options & kInternalEchoToConsole) { return TraceBuffer::CreateTraceBufferRingBuffer( kEchoToConsoleTraceEventBufferChunks); } if (options & kInternalRecordAsMuchAsPossible) { return TraceBuffer::CreateTraceBufferVectorOfSize( kTraceEventVectorBigBufferChunks); } return TraceBuffer::CreateTraceBufferVectorOfSize( kTraceEventVectorBufferChunks); } #if defined(OS_WIN) void TraceLog::UpdateETWCategoryGroupEnabledFlags() { // Go through each category and set/clear the ETW bit depending on whether the // category is enabled. for (TraceCategory& category : CategoryRegistry::GetAllCategories()) { if (base::trace_event::TraceEventETWExport::IsCategoryGroupEnabled( category.name())) { category.set_state_flag(TraceCategory::ENABLED_FOR_ETW_EXPORT); } else { category.clear_state_flag(TraceCategory::ENABLED_FOR_ETW_EXPORT); } } } #endif // defined(OS_WIN) void TraceLog::SetTraceBufferForTesting( std::unique_ptr trace_buffer) { AutoLock lock(lock_); logged_events_ = std::move(trace_buffer); } void ConvertableToTraceFormat::EstimateTraceMemoryOverhead( TraceEventMemoryOverhead* overhead) { overhead->Add(TraceEventMemoryOverhead::kConvertableToTraceFormat, sizeof(*this)); } void TraceLog::AddAsyncEnabledStateObserver( WeakPtr listener) { AutoLock lock(lock_); async_observers_.insert( std::make_pair(listener.get(), RegisteredAsyncObserver(listener))); } void TraceLog::RemoveAsyncEnabledStateObserver( AsyncEnabledStateObserver* listener) { AutoLock lock(lock_); async_observers_.erase(listener); } bool TraceLog::HasAsyncEnabledStateObserver( AsyncEnabledStateObserver* listener) const { AutoLock lock(lock_); return ContainsKey(async_observers_, listener); } } // namespace trace_event } // namespace base namespace trace_event_internal { ScopedTraceBinaryEfficient::ScopedTraceBinaryEfficient( const char* category_group, const char* name) { // The single atom works because for now the category_group can only be "gpu". DCHECK_EQ(strcmp(category_group, "gpu"), 0); static TRACE_EVENT_API_ATOMIC_WORD atomic = 0; INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO_CUSTOM_VARIABLES( category_group, atomic, category_group_enabled_); name_ = name; if (*category_group_enabled_) { event_handle_ = TRACE_EVENT_API_ADD_TRACE_EVENT_WITH_THREAD_ID_AND_TIMESTAMP( TRACE_EVENT_PHASE_COMPLETE, category_group_enabled_, name, trace_event_internal::kGlobalScope, // scope trace_event_internal::kNoId, // id static_cast(base::PlatformThread::CurrentId()), // thread_id TRACE_TIME_TICKS_NOW(), trace_event_internal::kZeroNumArgs, nullptr, nullptr, nullptr, nullptr, TRACE_EVENT_FLAG_NONE); } } ScopedTraceBinaryEfficient::~ScopedTraceBinaryEfficient() { if (*category_group_enabled_) { TRACE_EVENT_API_UPDATE_TRACE_EVENT_DURATION(category_group_enabled_, name_, event_handle_); } } } // namespace trace_event_internal