// Copyright 2012 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. #ifndef V8_LOG_H_ #define V8_LOG_H_ #include #include "src/allocation.h" #include "src/base/compiler-specific.h" #include "src/base/platform/elapsed-timer.h" #include "src/base/platform/platform.h" #include "src/code-events.h" #include "src/isolate.h" #include "src/objects.h" namespace v8 { struct TickSample; namespace sampler { class Sampler; } namespace internal { // Logger is used for collecting logging information from V8 during // execution. The result is dumped to a file. // // Available command line flags: // // --log // Minimal logging (no API, code, or GC sample events), default is off. // // --log-all // Log all events to the file, default is off. This is the same as combining // --log-api, --log-code, --log-gc, and --log-regexp. // // --log-api // Log API events to the logfile, default is off. --log-api implies --log. // // --log-code // Log code (create, move, and delete) events to the logfile, default is off. // --log-code implies --log. // // --log-gc // Log GC heap samples after each GC that can be processed by hp2ps, default // is off. --log-gc implies --log. // // --log-regexp // Log creation and use of regular expressions, Default is off. // --log-regexp implies --log. // // --logfile // Specify the name of the logfile, default is "v8.log". // // --prof // Collect statistical profiling information (ticks), default is off. The // tick profiler requires code events, so --prof implies --log-code. // Forward declarations. class CodeEventListener; class CpuProfiler; class Isolate; class JitLogger; class Log; class LowLevelLogger; class PerfBasicLogger; class PerfJitLogger; class Profiler; class ProfilerListener; class RuntimeCallTimer; class Ticker; #undef LOG #define LOG(isolate, Call) \ do { \ v8::internal::Logger* logger = (isolate)->logger(); \ if (logger->is_logging()) logger->Call; \ } while (false) #define LOG_CODE_EVENT(isolate, Call) \ do { \ v8::internal::Logger* logger = (isolate)->logger(); \ if (logger->is_logging_code_events()) logger->Call; \ } while (false) class Logger : public CodeEventListener { public: enum StartEnd { START = 0, END = 1 }; // Acquires resources for logging if the right flags are set. bool SetUp(Isolate* isolate); // Sets the current code event handler. void SetCodeEventHandler(uint32_t options, JitCodeEventHandler event_handler); // Sets up ProfilerListener. void SetUpProfilerListener(); // Tear down ProfilerListener if it has no observers. void TearDownProfilerListener(); sampler::Sampler* sampler(); ProfilerListener* profiler_listener() { return profiler_listener_.get(); } // Frees resources acquired in SetUp. // When a temporary file is used for the log, returns its stream descriptor, // leaving the file open. FILE* TearDown(); // Emits an event with a string value -> (name, value). void StringEvent(const char* name, const char* value); // Emits an event with an int value -> (name, value). void IntEvent(const char* name, int value); void IntPtrTEvent(const char* name, intptr_t value); // Emits an event with an handle value -> (name, location). void HandleEvent(const char* name, Object** location); // Emits memory management events for C allocated structures. void NewEvent(const char* name, void* object, size_t size); void DeleteEvent(const char* name, void* object); // Emits an event with a tag, and some resource usage information. // -> (name, tag, ). // Currently, the resource usage information is a process time stamp // and a real time timestamp. void ResourceEvent(const char* name, const char* tag); // Emits an event that an undefined property was read from an // object. void SuspectReadEvent(Name* name, Object* obj); // Emits an event when a message is put on or read from a debugging queue. // DebugTag lets us put a call-site specific label on the event. void DebugTag(const char* call_site_tag); void DebugEvent(const char* event_type, Vector parameter); // ==== Events logged by --log-api. ==== void ApiSecurityCheck(); void ApiNamedPropertyAccess(const char* tag, JSObject* holder, Object* name); void ApiIndexedPropertyAccess(const char* tag, JSObject* holder, uint32_t index); void ApiObjectAccess(const char* tag, JSObject* obj); void ApiEntryCall(const char* name); // ==== Events logged by --log-code. ==== void addCodeEventListener(CodeEventListener* listener); void removeCodeEventListener(CodeEventListener* listener); // Emits a code event for a callback function. void CallbackEvent(Name* name, Address entry_point); void GetterCallbackEvent(Name* name, Address entry_point); void SetterCallbackEvent(Name* name, Address entry_point); // Emits a code create event. void CodeCreateEvent(CodeEventListener::LogEventsAndTags tag, AbstractCode* code, const char* source); void CodeCreateEvent(CodeEventListener::LogEventsAndTags tag, AbstractCode* code, Name* name); void CodeCreateEvent(CodeEventListener::LogEventsAndTags tag, AbstractCode* code, SharedFunctionInfo* shared, Name* name); void CodeCreateEvent(CodeEventListener::LogEventsAndTags tag, AbstractCode* code, SharedFunctionInfo* shared, Name* source, int line, int column); void CodeCreateEvent(CodeEventListener::LogEventsAndTags tag, AbstractCode* code, int args_count); // Emits a code deoptimization event. void CodeDisableOptEvent(AbstractCode* code, SharedFunctionInfo* shared); void CodeMovingGCEvent(); // Emits a code create event for a RegExp. void RegExpCodeCreateEvent(AbstractCode* code, String* source); // Emits a code move event. void CodeMoveEvent(AbstractCode* from, Address to); // Emits a code line info record event. void CodeLinePosInfoRecordEvent(AbstractCode* code, ByteArray* source_position_table); void SharedFunctionInfoMoveEvent(Address from, Address to); void CodeNameEvent(Address addr, int pos, const char* code_name); void CodeDeoptEvent(Code* code, Address pc, int fp_to_sp_delta); // ==== Events logged by --log-gc. ==== // Heap sampling events: start, end, and individual types. void HeapSampleBeginEvent(const char* space, const char* kind); void HeapSampleEndEvent(const char* space, const char* kind); void HeapSampleItemEvent(const char* type, int number, int bytes); void HeapSampleJSConstructorEvent(const char* constructor, int number, int bytes); void HeapSampleJSRetainersEvent(const char* constructor, const char* event); void HeapSampleJSProducerEvent(const char* constructor, Address* stack); void HeapSampleStats(const char* space, const char* kind, intptr_t capacity, intptr_t used); void SharedLibraryEvent(const std::string& library_path, uintptr_t start, uintptr_t end, intptr_t aslr_slide); void CurrentTimeEvent(); void TimerEvent(StartEnd se, const char* name); static void EnterExternal(Isolate* isolate); static void LeaveExternal(Isolate* isolate); static void DefaultEventLoggerSentinel(const char* name, int event) {} INLINE(static void CallEventLogger(Isolate* isolate, const char* name, StartEnd se, bool expose_to_api)); bool is_logging() { return is_logging_; } bool is_logging_code_events() { return is_logging() || jit_logger_ != NULL; } // Stop collection of profiling data. // When data collection is paused, CPU Tick events are discarded. void StopProfiler(); void LogExistingFunction(Handle shared, Handle code); // Logs all compiled functions found in the heap. void LogCompiledFunctions(); // Logs all accessor callbacks found in the heap. void LogAccessorCallbacks(); // Used for logging stubs found in the snapshot. void LogCodeObjects(); // Used for logging bytecode handlers found in the snapshot. void LogBytecodeHandlers(); // Converts tag to a corresponding NATIVE_... if the script is native. INLINE(static CodeEventListener::LogEventsAndTags ToNativeByScript( CodeEventListener::LogEventsAndTags, Script*)); // Profiler's sampling interval (in milliseconds). #if defined(ANDROID) // Phones and tablets have processors that are much slower than desktop // and laptop computers for which current heuristics are tuned. static const int kSamplingIntervalMs = 5; #else static const int kSamplingIntervalMs = 1; #endif // Callback from Log, stops profiling in case of insufficient resources. void LogFailure(); private: explicit Logger(Isolate* isolate); ~Logger(); // Emits the profiler's first message. void ProfilerBeginEvent(); // Emits callback event messages. void CallbackEventInternal(const char* prefix, Name* name, Address entry_point); // Internal configurable move event. void MoveEventInternal(CodeEventListener::LogEventsAndTags event, Address from, Address to); // Used for logging stubs found in the snapshot. void LogCodeObject(Object* code_object); // Helper method. It resets name_buffer_ and add tag name into it. void InitNameBuffer(CodeEventListener::LogEventsAndTags tag); // Emits a profiler tick event. Used by the profiler thread. void TickEvent(TickSample* sample, bool overflow); void RuntimeCallTimerEvent(); PRINTF_FORMAT(2, 3) void ApiEvent(const char* format, ...); // Logs a StringEvent regardless of whether FLAG_log is true. void UncheckedStringEvent(const char* name, const char* value); // Logs an IntEvent regardless of whether FLAG_log is true. void UncheckedIntEvent(const char* name, int value); void UncheckedIntPtrTEvent(const char* name, intptr_t value); Isolate* isolate_; // The sampler used by the profiler and the sliding state window. Ticker* ticker_; // When the statistical profile is active, profiler_ // points to a Profiler, that handles collection // of samples. Profiler* profiler_; // An array of log events names. const char* const* log_events_; // Internal implementation classes with access to // private members. friend class EventLog; friend class Isolate; friend class TimeLog; friend class Profiler; template friend class VMState; friend class LoggerTestHelper; bool is_logging_; Log* log_; PerfBasicLogger* perf_basic_logger_; PerfJitLogger* perf_jit_logger_; LowLevelLogger* ll_logger_; JitLogger* jit_logger_; std::unique_ptr profiler_listener_; List listeners_; // Guards against multiple calls to TearDown() that can happen in some tests. // 'true' between SetUp() and TearDown(). bool is_initialized_; base::ElapsedTimer timer_; friend class CpuProfiler; }; #define TIMER_EVENTS_LIST(V) \ V(RecompileSynchronous, true) \ V(RecompileConcurrent, true) \ V(CompileIgnition, true) \ V(CompileFullCode, true) \ V(OptimizeCode, true) \ V(CompileCode, true) \ V(DeoptimizeCode, true) \ V(Execute, true) \ V(External, true) #define V(TimerName, expose) \ class TimerEvent##TimerName : public AllStatic { \ public: \ static const char* name(void* unused = NULL) { return "V8." #TimerName; } \ static bool expose_to_api() { return expose; } \ }; TIMER_EVENTS_LIST(V) #undef V template class TimerEventScope { public: explicit TimerEventScope(Isolate* isolate) : isolate_(isolate) { LogTimerEvent(Logger::START); } ~TimerEventScope() { LogTimerEvent(Logger::END); } private: void LogTimerEvent(Logger::StartEnd se); Isolate* isolate_; }; class CodeEventLogger : public CodeEventListener { public: CodeEventLogger(); ~CodeEventLogger() override; void CodeCreateEvent(LogEventsAndTags tag, AbstractCode* code, const char* comment) override; void CodeCreateEvent(LogEventsAndTags tag, AbstractCode* code, Name* name) override; void CodeCreateEvent(LogEventsAndTags tag, AbstractCode* code, int args_count) override; void CodeCreateEvent(LogEventsAndTags tag, AbstractCode* code, SharedFunctionInfo* shared, Name* name) override; void CodeCreateEvent(LogEventsAndTags tag, AbstractCode* code, SharedFunctionInfo* shared, Name* source, int line, int column) override; void RegExpCodeCreateEvent(AbstractCode* code, String* source) override; void CallbackEvent(Name* name, Address entry_point) override {} void GetterCallbackEvent(Name* name, Address entry_point) override {} void SetterCallbackEvent(Name* name, Address entry_point) override {} void SharedFunctionInfoMoveEvent(Address from, Address to) override {} void CodeMovingGCEvent() override {} void CodeDeoptEvent(Code* code, Address pc, int fp_to_sp_delta) override {} private: class NameBuffer; virtual void LogRecordedBuffer(AbstractCode* code, SharedFunctionInfo* shared, const char* name, int length) = 0; NameBuffer* name_buffer_; }; } // namespace internal } // namespace v8 #endif // V8_LOG_H_