// Copyright 2016 the V8 project 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 #include #include "include/libplatform/v8-tracing.h" #include "src/base/platform/mutex.h" namespace v8 { namespace platform { namespace tracing { #define MAX_CATEGORY_GROUPS 200 // Parallel arrays g_category_groups and g_category_group_enabled are separate // so that a pointer to a member of g_category_group_enabled can be easily // converted to an index into g_category_groups. This allows macros to deal // only with char enabled pointers from g_category_group_enabled, and we can // convert internally to determine the category name from the char enabled // pointer. const char* g_category_groups[MAX_CATEGORY_GROUPS] = { "toplevel", "tracing already shutdown", "tracing categories exhausted; must increase MAX_CATEGORY_GROUPS", "__metadata"}; // The enabled flag is char instead of bool so that the API can be used from C. unsigned char g_category_group_enabled[MAX_CATEGORY_GROUPS] = {0}; // Indexes here have to match the g_category_groups array indexes above. const int g_category_already_shutdown = 1; const int g_category_categories_exhausted = 2; // Metadata category not used in V8. // const int g_category_metadata = 3; const int g_num_builtin_categories = 4; // Skip default categories. v8::base::AtomicWord g_category_index = g_num_builtin_categories; TracingController::TracingController() {} TracingController::~TracingController() {} void TracingController::Initialize(TraceBuffer* trace_buffer) { trace_buffer_.reset(trace_buffer); mutex_.reset(new base::Mutex()); } uint64_t TracingController::AddTraceEvent( char phase, const uint8_t* category_enabled_flag, const char* name, const char* scope, uint64_t id, uint64_t bind_id, int num_args, const char** arg_names, const uint8_t* arg_types, const uint64_t* arg_values, std::unique_ptr* arg_convertables, unsigned int flags) { uint64_t handle; TraceObject* trace_object = trace_buffer_->AddTraceEvent(&handle); if (trace_object) { trace_object->Initialize(phase, category_enabled_flag, name, scope, id, bind_id, num_args, arg_names, arg_types, arg_values, arg_convertables, flags); } return handle; } void TracingController::UpdateTraceEventDuration( const uint8_t* category_enabled_flag, const char* name, uint64_t handle) { TraceObject* trace_object = trace_buffer_->GetEventByHandle(handle); if (!trace_object) return; trace_object->UpdateDuration(); } const uint8_t* TracingController::GetCategoryGroupEnabled( const char* category_group) { if (!trace_buffer_) { DCHECK(!g_category_group_enabled[g_category_already_shutdown]); return &g_category_group_enabled[g_category_already_shutdown]; } return GetCategoryGroupEnabledInternal(category_group); } const char* TracingController::GetCategoryGroupName( const uint8_t* category_group_enabled) { // Calculate the index of the category group by finding // category_group_enabled in g_category_group_enabled array. uintptr_t category_begin = reinterpret_cast(g_category_group_enabled); uintptr_t category_ptr = reinterpret_cast(category_group_enabled); // Check for out of bounds category pointers. DCHECK(category_ptr >= category_begin && category_ptr < reinterpret_cast(g_category_group_enabled + MAX_CATEGORY_GROUPS)); uintptr_t category_index = (category_ptr - category_begin) / sizeof(g_category_group_enabled[0]); return g_category_groups[category_index]; } void TracingController::StartTracing(TraceConfig* trace_config) { trace_config_.reset(trace_config); std::unordered_set observers_copy; { base::LockGuard lock(mutex_.get()); mode_ = RECORDING_MODE; UpdateCategoryGroupEnabledFlags(); observers_copy = observers_; } for (auto o : observers_copy) { o->OnTraceEnabled(); } } void TracingController::StopTracing() { mode_ = DISABLED; UpdateCategoryGroupEnabledFlags(); std::unordered_set observers_copy; { base::LockGuard lock(mutex_.get()); observers_copy = observers_; } for (auto o : observers_copy) { o->OnTraceDisabled(); } trace_buffer_->Flush(); } void TracingController::UpdateCategoryGroupEnabledFlag(size_t category_index) { unsigned char enabled_flag = 0; const char* category_group = g_category_groups[category_index]; if (mode_ == RECORDING_MODE && trace_config_->IsCategoryGroupEnabled(category_group)) { enabled_flag |= ENABLED_FOR_RECORDING; } // TODO(fmeawad): EventCallback and ETW modes are not yet supported in V8. // 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 (mode_ == RECORDING_MODE && !strcmp(category_group, "__metadata")) { enabled_flag |= ENABLED_FOR_RECORDING; } g_category_group_enabled[category_index] = enabled_flag; } void TracingController::UpdateCategoryGroupEnabledFlags() { size_t category_index = base::NoBarrier_Load(&g_category_index); for (size_t i = 0; i < category_index; i++) UpdateCategoryGroupEnabledFlag(i); } const uint8_t* TracingController::GetCategoryGroupEnabledInternal( const char* category_group) { // Check that category groups does not contain double quote DCHECK(!strchr(category_group, '"')); // The g_category_groups is append only, avoid using a lock for the fast path. size_t current_category_index = v8::base::Acquire_Load(&g_category_index); // Search for pre-existing category group. for (size_t i = 0; i < current_category_index; ++i) { if (strcmp(g_category_groups[i], category_group) == 0) { return &g_category_group_enabled[i]; } } unsigned char* category_group_enabled = NULL; size_t category_index = base::Acquire_Load(&g_category_index); for (size_t i = 0; i < category_index; ++i) { if (strcmp(g_category_groups[i], category_group) == 0) { return &g_category_group_enabled[i]; } } // Create a new category group. // Check that there is a slot for the new category_group. DCHECK(category_index < MAX_CATEGORY_GROUPS); if (category_index < MAX_CATEGORY_GROUPS) { // Don't hold on to the category_group pointer, so that we can create // category groups with strings not known at compile time (this is // required by SetWatchEvent). const char* new_group = strdup(category_group); g_category_groups[category_index] = new_group; DCHECK(!g_category_group_enabled[category_index]); // Note that if both included and excluded patterns in the // TraceConfig are empty, we exclude nothing, // thereby enabling this category group. UpdateCategoryGroupEnabledFlag(category_index); category_group_enabled = &g_category_group_enabled[category_index]; // Update the max index now. base::Release_Store(&g_category_index, category_index + 1); } else { category_group_enabled = &g_category_group_enabled[g_category_categories_exhausted]; } return category_group_enabled; } void TracingController::AddTraceStateObserver( Platform::TraceStateObserver* observer) { { base::LockGuard lock(mutex_.get()); observers_.insert(observer); if (mode_ != RECORDING_MODE) return; } // Fire the observer if recording is already in progress. observer->OnTraceEnabled(); } void TracingController::RemoveTraceStateObserver( Platform::TraceStateObserver* observer) { base::LockGuard lock(mutex_.get()); DCHECK(observers_.find(observer) != observers_.end()); observers_.erase(observer); } } // namespace tracing } // namespace platform } // namespace v8