// Copyright 2013 The Flutter Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef FLUTTER_FML_TRACE_EVENT_H_ #define FLUTTER_FML_TRACE_EVENT_H_ #include "flutter/fml/build_config.h" #if defined(OS_FUCHSIA) // Forward to the system tracing mechanism on Fuchsia. #include // TODO(DNO-448): This is disabled because the Fuchsia counter id json parsing // only handles ints whereas this can produce ints or strings. #define FML_TRACE_COUNTER(a, b, c, args...) #define FML_TRACE_EVENT(a, b, args...) TRACE_DURATION(a, b) #define TRACE_EVENT0(a, b) TRACE_DURATION(a, b) #define TRACE_EVENT1(a, b, c, d) TRACE_DURATION(a, b, c, d) #define TRACE_EVENT2(a, b, c, d, e, f) TRACE_DURATION(a, b, c, d, e, f) #define TRACE_EVENT_ASYNC_BEGIN0(a, b, c) TRACE_ASYNC_BEGIN(a, b, c) #define TRACE_EVENT_ASYNC_END0(a, b, c) TRACE_ASYNC_END(a, b, c) #define TRACE_EVENT_ASYNC_BEGIN1(a, b, c, d, e) TRACE_ASYNC_BEGIN(a, b, c, d, e) #define TRACE_EVENT_ASYNC_END1(a, b, c, d, e) TRACE_ASYNC_END(a, b, c, d, e) #define TRACE_EVENT_INSTANT0(a, b) TRACE_INSTANT(a, b, TRACE_SCOPE_THREAD) #endif // defined(OS_FUCHSIA) #include #include #include #include #include #include "flutter/fml/macros.h" #include "flutter/fml/time/time_point.h" #include "third_party/dart/runtime/include/dart_tools_api.h" #if !defined(OS_FUCHSIA) #ifndef TRACE_EVENT_HIDE_MACROS #define __FML__TOKEN_CAT__(x, y) x##y #define __FML__TOKEN_CAT__2(x, y) __FML__TOKEN_CAT__(x, y) #define __FML__AUTO_TRACE_END(name) \ ::fml::tracing::ScopedInstantEnd __FML__TOKEN_CAT__2(__trace_end_, \ __LINE__)(name); // This macro has the FML_ prefix so that it does not collide with the macros // from trace/event.h on Fuchsia. // // TODO(chinmaygarde): All macros here should have the FML prefix. #define FML_TRACE_COUNTER(category_group, name, counter_id, arg1, ...) \ ::fml::tracing::TraceCounter((category_group), (name), (counter_id), (arg1), \ __VA_ARGS__); #define FML_TRACE_EVENT(category_group, name, ...) \ ::fml::tracing::TraceEvent((category_group), (name), __VA_ARGS__); \ __FML__AUTO_TRACE_END(name) #define TRACE_EVENT0(category_group, name) \ ::fml::tracing::TraceEvent0(category_group, name); \ __FML__AUTO_TRACE_END(name) #define TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \ ::fml::tracing::TraceEvent1(category_group, name, arg1_name, arg1_val); \ __FML__AUTO_TRACE_END(name) #define TRACE_EVENT2(category_group, name, arg1_name, arg1_val, arg2_name, \ arg2_val) \ ::fml::tracing::TraceEvent2(category_group, name, arg1_name, arg1_val, \ arg2_name, arg2_val); \ __FML__AUTO_TRACE_END(name) #define TRACE_EVENT_ASYNC_BEGIN0(category_group, name, id) \ ::fml::tracing::TraceEventAsyncBegin0(category_group, name, id); #define TRACE_EVENT_ASYNC_END0(category_group, name, id) \ ::fml::tracing::TraceEventAsyncEnd0(category_group, name, id); #define TRACE_EVENT_ASYNC_BEGIN1(category_group, name, id, arg1_name, \ arg1_val) \ ::fml::tracing::TraceEventAsyncBegin1(category_group, name, id, arg1_name, \ arg1_val); #define TRACE_EVENT_ASYNC_END1(category_group, name, id, arg1_name, arg1_val) \ ::fml::tracing::TraceEventAsyncEnd1(category_group, name, id, arg1_name, \ arg1_val); #define TRACE_EVENT_INSTANT0(category_group, name) \ ::fml::tracing::TraceEventInstant0(category_group, name); #define TRACE_FLOW_BEGIN(category, name, id) \ ::fml::tracing::TraceEventFlowBegin0(category, name, id); #define TRACE_FLOW_STEP(category, name, id) \ ::fml::tracing::TraceEventFlowStep0(category, name, id); #define TRACE_FLOW_END(category, name, id) \ ::fml::tracing::TraceEventFlowEnd0(category, name, id); #endif // TRACE_EVENT_HIDE_MACROS #endif // !defined(OS_FUCHSIA) namespace fml { namespace tracing { using TraceArg = const char*; using TraceIDArg = int64_t; void TraceTimelineEvent(TraceArg category_group, TraceArg name, TraceIDArg id, Dart_Timeline_Event_Type type, const std::vector& names, const std::vector& values); inline std::string TraceToString(const char* string) { return std::string{string}; } inline std::string TraceToString(std::string string) { return string; } inline std::string TraceToString(TimePoint point) { return std::to_string(point.ToEpochDelta().ToNanoseconds()); } template ::value>> std::string TraceToString(T string) { return std::to_string(string); } inline void SplitArgumentsCollect(std::vector& keys, std::vector& values) {} template void SplitArgumentsCollect(std::vector& keys, std::vector& values, Key key, Value value, Args... args) { keys.emplace_back(key); values.emplace_back(TraceToString(value)); SplitArgumentsCollect(keys, values, args...); } inline std::pair, std::vector> SplitArguments() { return {}; } template std::pair, std::vector> SplitArguments(Key key, Value value, Args... args) { std::vector keys; std::vector values; SplitArgumentsCollect(keys, values, key, value, args...); return std::make_pair(std::move(keys), std::move(values)); } size_t TraceNonce(); template void TraceCounter(TraceArg category, TraceArg name, TraceIDArg identifier, Args... args) { auto split = SplitArguments(args...); TraceTimelineEvent(category, name, identifier, Dart_Timeline_Event_Counter, split.first, split.second); } template void TraceEvent(TraceArg category, TraceArg name, Args... args) { auto split = SplitArguments(args...); TraceTimelineEvent(category, name, 0, Dart_Timeline_Event_Begin, split.first, split.second); } void TraceEvent0(TraceArg category_group, TraceArg name); void TraceEvent1(TraceArg category_group, TraceArg name, TraceArg arg1_name, TraceArg arg1_val); void TraceEvent2(TraceArg category_group, TraceArg name, TraceArg arg1_name, TraceArg arg1_val, TraceArg arg2_name, TraceArg arg2_val); void TraceEventEnd(TraceArg name); void TraceEventAsyncComplete(TraceArg category_group, TraceArg name, TimePoint begin, TimePoint end); void TraceEventAsyncBegin0(TraceArg category_group, TraceArg name, TraceIDArg id); void TraceEventAsyncEnd0(TraceArg category_group, TraceArg name, TraceIDArg id); void TraceEventAsyncBegin1(TraceArg category_group, TraceArg name, TraceIDArg id, TraceArg arg1_name, TraceArg arg1_val); void TraceEventAsyncEnd1(TraceArg category_group, TraceArg name, TraceIDArg id, TraceArg arg1_name, TraceArg arg1_val); void TraceEventInstant0(TraceArg category_group, TraceArg name); void TraceEventFlowBegin0(TraceArg category_group, TraceArg name, TraceIDArg id); void TraceEventFlowStep0(TraceArg category_group, TraceArg name, TraceIDArg id); void TraceEventFlowEnd0(TraceArg category_group, TraceArg name, TraceIDArg id); class ScopedInstantEnd { public: ScopedInstantEnd(const char* str) : label_(str) {} ~ScopedInstantEnd() { TraceEventEnd(label_); } private: const char* label_; FML_DISALLOW_COPY_AND_ASSIGN(ScopedInstantEnd); }; // A move-only utility object that creates a new flow with a unique ID and // automatically ends it when it goes out of scope. When tracing using multiple // overlapping flows, it often gets hard to make sure to end the flow // (especially with early returns), or, end/step on the wrong flow. This // leads to corrupted or missing traces in the UI. class TraceFlow { public: TraceFlow(const char* label) : label_(label), nonce_(TraceNonce()) { TraceEventFlowBegin0("flutter", label_, nonce_); } ~TraceFlow() { End(label_); } TraceFlow(TraceFlow&& other) : label_(other.label_), nonce_(other.nonce_) { other.nonce_ = 0; } void Step(const char* label) const { TraceEventFlowStep0("flutter", label, nonce_); } void End(const char* label = nullptr) { if (nonce_ != 0) { TraceEventFlowEnd0("flutter", label == nullptr ? label_ : label, nonce_); nonce_ = 0; } } private: const char* label_; size_t nonce_; FML_DISALLOW_COPY_AND_ASSIGN(TraceFlow); }; } // namespace tracing } // namespace fml #endif // FLUTTER_FML_TRACE_EVENT_H_