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// Copyright (c) 2015, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#ifndef RUNTIME_VM_TIMELINE_H_
#define RUNTIME_VM_TIMELINE_H_
#include "include/dart_tools_api.h"
#include "platform/atomic.h"
#include "vm/allocation.h"
#include "vm/bitfield.h"
#include "vm/globals.h"
#include "vm/growable_array.h"
#include "vm/os.h"
#include "vm/os_thread.h"
#if defined(FUCHSIA_SDK) || defined(DART_HOST_OS_FUCHSIA)
#include <lib/trace-engine/context.h>
#include <lib/trace-engine/instrumentation.h>
#elif defined(DART_HOST_OS_MACOS)
#include <os/availability.h>
#if defined(__MAC_10_14) || defined (__IPHONE_12_0)
#define DART_HOST_OS_SUPPORTS_SIGNPOST 1
#endif
// signpost.h exists in macOS 10.14, iOS 12 or above
#if defined(DART_HOST_OS_SUPPORTS_SIGNPOST)
#include <os/signpost.h>
#else
#include <os/log.h>
#endif
#endif
namespace dart {
class JSONArray;
class JSONObject;
class JSONStream;
class Object;
class ObjectPointerVisitor;
class Isolate;
class Thread;
class TimelineEvent;
class TimelineEventBlock;
class TimelineEventRecorder;
class TimelineStream;
class VirtualMemory;
class Zone;
#define CALLBACK_RECORDER_NAME "Callback"
#define ENDLESS_RECORDER_NAME "Endless"
#define FUCHSIA_RECORDER_NAME "Fuchsia"
#define MACOS_RECORDER_NAME "Macos"
#define RING_RECORDER_NAME "Ring"
#define STARTUP_RECORDER_NAME "Startup"
#define SYSTRACE_RECORDER_NAME "Systrace"
// (name, fuchsia_name).
#define TIMELINE_STREAM_LIST(V) \
V(API, "dart:api") \
V(Compiler, "dart:compiler") \
V(CompilerVerbose, "dart:compiler.verbose") \
V(Dart, "dart:dart") \
V(Debugger, "dart:debugger") \
V(Embedder, "dart:embedder") \
V(GC, "dart:gc") \
V(Isolate, "dart:isolate") \
V(VM, "dart:vm")
// A stream of timeline events. A stream has a name and can be enabled or
// disabled (globally and per isolate).
class TimelineStream {
public:
TimelineStream(const char* name, const char* fuchsia_name, bool enabled);
const char* name() const { return name_; }
const char* fuchsia_name() const { return fuchsia_name_; }
bool enabled() {
#if defined(DART_HOST_OS_FUCHSIA)
#ifdef PRODUCT
return trace_is_category_enabled(fuchsia_name_);
#else
return trace_is_category_enabled(fuchsia_name_) || enabled_ != 0;
#endif // PRODUCT
#else
return enabled_ != 0;
#endif // defined(DART_HOST_OS_FUCHSIA)
}
void set_enabled(bool enabled) { enabled_ = enabled ? 1 : 0; }
// Records an event. Will return |NULL| if not enabled. The returned
// |TimelineEvent| is in an undefined state and must be initialized.
// NOTE: It is not allowed to call StartEvent again without completing
// the first event.
TimelineEvent* StartEvent();
static intptr_t enabled_offset() {
return OFFSET_OF(TimelineStream, enabled_);
}
#if defined(DART_HOST_OS_FUCHSIA)
trace_site_t* trace_site() { return &trace_site_; }
#elif defined(DART_HOST_OS_MACOS)
os_log_t macos_log() { return macos_log_; }
#endif
private:
const char* const name_;
const char* const fuchsia_name_;
// This field is accessed by generated code (intrinsic) and expects to see
// 0 or 1. If this becomes a BitField, the generated code must be updated.
uintptr_t enabled_;
#if defined(DART_HOST_OS_FUCHSIA)
trace_site_t trace_site_ = {};
#elif defined(DART_HOST_OS_MACOS)
os_log_t macos_log_ = {};
#endif
};
class Timeline : public AllStatic {
public:
// Initialize timeline system. Not thread safe.
static void Init();
// Cleanup timeline system. Not thread safe.
static void Cleanup();
// Access the global recorder. Not thread safe.
static TimelineEventRecorder* recorder();
// Reclaim all |TimelineEventBlocks|s that are cached by threads.
static void ReclaimCachedBlocksFromThreads();
static void Clear();
#ifndef PRODUCT
// Print information about streams to JSON.
static void PrintFlagsToJSON(JSONStream* json);
// Output the recorded streams to a JSONS array.
static void PrintFlagsToJSONArray(JSONArray* arr);
#endif
#define TIMELINE_STREAM_ACCESSOR(name, fuchsia_name) \
static TimelineStream* Get##name##Stream() { return &stream_##name##_; }
TIMELINE_STREAM_LIST(TIMELINE_STREAM_ACCESSOR)
#undef TIMELINE_STREAM_ACCESSOR
#define TIMELINE_STREAM_FLAGS(name, fuchsia_name) \
static void SetStream##name##Enabled(bool enabled) { \
stream_##name##_.set_enabled(enabled); \
}
TIMELINE_STREAM_LIST(TIMELINE_STREAM_FLAGS)
#undef TIMELINE_STREAM_FLAGS
private:
static TimelineEventRecorder* recorder_;
static MallocGrowableArray<char*>* enabled_streams_;
#define TIMELINE_STREAM_DECLARE(name, fuchsia_name) \
static TimelineStream stream_##name##_;
TIMELINE_STREAM_LIST(TIMELINE_STREAM_DECLARE)
#undef TIMELINE_STREAM_DECLARE
template <class>
friend class TimelineRecorderOverride;
friend class ReclaimBlocksIsolateVisitor;
};
struct TimelineEventArgument {
const char* name;
char* value;
};
class TimelineEventArguments {
public:
TimelineEventArguments() : buffer_(NULL), length_(0) {}
~TimelineEventArguments() { Free(); }
// Get/Set the number of arguments in the event.
void SetNumArguments(intptr_t length);
// |name| must be a compile time constant. Takes ownership of |argument|.
void SetArgument(intptr_t i, const char* name, char* argument);
// |name| must be a compile time constant. Copies |argument|.
void CopyArgument(intptr_t i, const char* name, const char* argument);
// |name| must be a compile time constant. Takes ownership of |args|
void FormatArgument(intptr_t i,
const char* name,
const char* fmt,
va_list args);
void StealArguments(TimelineEventArguments* arguments);
TimelineEventArgument* buffer() const { return buffer_; }
intptr_t length() const { return length_; }
void Free();
TimelineEventArgument& operator[](intptr_t index) const {
return buffer_[index];
}
bool IsEmpty() { return length_ == 0; }
bool IsNotEmpty() { return length_ != 0; }
private:
TimelineEventArgument* buffer_;
intptr_t length_;
DISALLOW_COPY_AND_ASSIGN(TimelineEventArguments);
};
// You should get a |TimelineEvent| from a |TimelineStream|.
class TimelineEvent {
public:
// Keep in sync with StateBits below.
enum EventType {
kNone,
kBegin,
kEnd,
kDuration,
kInstant,
kAsyncBegin,
kAsyncInstant,
kAsyncEnd,
kCounter,
kFlowBegin,
kFlowStep,
kFlowEnd,
kMetadata,
kNumEventTypes,
};
TimelineEvent();
~TimelineEvent();
void Reset();
bool IsValid() const {
return (event_type() > kNone) && (event_type() < kNumEventTypes);
}
// Marks the beginning of an asynchronous operation with |async_id|.
void AsyncBegin(const char* label,
int64_t async_id,
int64_t micros = OS::GetCurrentMonotonicMicros());
// Marks an instantaneous event associated with |async_id|.
void AsyncInstant(const char* label,
int64_t async_id,
int64_t micros = OS::GetCurrentMonotonicMicros());
// Marks the end of an asynchronous operation associated with |async_id|.
void AsyncEnd(const char* label,
int64_t async_id,
int64_t micros = OS::GetCurrentMonotonicMicros());
void DurationBegin(
const char* label,
int64_t micros = OS::GetCurrentMonotonicMicros(),
int64_t thread_micros = OS::GetCurrentThreadCPUMicrosForTimeline());
void DurationEnd(
int64_t micros = OS::GetCurrentMonotonicMicros(),
int64_t thread_micros = OS::GetCurrentThreadCPUMicrosForTimeline());
void Instant(const char* label,
int64_t micros = OS::GetCurrentMonotonicMicros());
void Duration(const char* label,
int64_t start_micros,
int64_t end_micros,
int64_t thread_start_micros = -1,
int64_t thread_end_micros = -1);
void Begin(
const char* label,
int64_t micros = OS::GetCurrentMonotonicMicros(),
int64_t thread_micros = OS::GetCurrentThreadCPUMicrosForTimeline());
void End(const char* label,
int64_t micros = OS::GetCurrentMonotonicMicros(),
int64_t thread_micros = OS::GetCurrentThreadCPUMicrosForTimeline());
void Counter(const char* label,
int64_t micros = OS::GetCurrentMonotonicMicros());
void FlowBegin(const char* label,
int64_t async_id,
int64_t micros = OS::GetCurrentMonotonicMicros());
void FlowStep(const char* label,
int64_t async_id,
int64_t micros = OS::GetCurrentMonotonicMicros());
void FlowEnd(const char* label,
int64_t async_id,
int64_t micros = OS::GetCurrentMonotonicMicros());
void Metadata(const char* label,
int64_t micros = OS::GetCurrentMonotonicMicros());
void CompleteWithPreSerializedArgs(char* args_json);
// Get/Set the number of arguments in the event.
intptr_t GetNumArguments() { return arguments_.length(); }
void SetNumArguments(intptr_t length) { arguments_.SetNumArguments(length); }
// |name| must be a compile time constant. Takes ownership of |argument|.
void SetArgument(intptr_t i, const char* name, char* argument) {
arguments_.SetArgument(i, name, argument);
}
// |name| must be a compile time constant. Copies |argument|.
void CopyArgument(intptr_t i, const char* name, const char* argument) {
arguments_.CopyArgument(i, name, argument);
}
// |name| must be a compile time constant.
void FormatArgument(intptr_t i, const char* name, const char* fmt, ...)
PRINTF_ATTRIBUTE(4, 5);
void StealArguments(TimelineEventArguments* arguments) {
arguments_.StealArguments(arguments);
}
// Mandatory to call when this event is completely filled out.
void Complete();
EventType event_type() const { return EventTypeField::decode(state_); }
bool IsFinishedDuration() const {
return (event_type() == kDuration) && (timestamp1_ > timestamp0_);
}
bool HasThreadCPUTime() const;
int64_t ThreadCPUTimeDuration() const;
int64_t ThreadCPUTimeOrigin() const;
int64_t TimeOrigin() const;
int64_t AsyncId() const;
int64_t TimeDuration() const;
int64_t TimeEnd() const {
ASSERT(IsFinishedDuration());
return timestamp1_;
}
// The lowest time value stored in this event.
int64_t LowTime() const;
// The highest time value stored in this event.
int64_t HighTime() const;
#ifndef PRODUCT
void PrintJSON(JSONStream* stream) const;
#endif
ThreadId thread() const { return thread_; }
void set_thread(ThreadId tid) { thread_ = tid; }
Dart_Port isolate_id() const { return isolate_id_; }
uint64_t isolate_group_id() const { return isolate_group_id_; }
const char* label() const { return label_; }
// Does this duration end before |micros| ?
bool DurationFinishedBefore(int64_t micros) const {
return TimeEnd() <= micros;
}
bool IsDuration() const { return (event_type() == kDuration); }
bool IsBegin() const { return (event_type() == kBegin); }
bool IsEnd() const { return (event_type() == kEnd); }
// Is this event a synchronous begin or end event?
bool IsBeginOrEnd() const { return IsBegin() || IsEnd(); }
// Does this duration fully contain |other| ?
bool DurationContains(TimelineEvent* other) const {
ASSERT(IsFinishedDuration());
if (other->IsBegin()) {
if (other->TimeOrigin() < TimeOrigin()) {
return false;
}
if (other->TimeOrigin() > TimeEnd()) {
return false;
}
return true;
} else {
ASSERT(other->IsFinishedDuration());
if (other->TimeOrigin() < TimeOrigin()) {
return false;
}
if (other->TimeEnd() < TimeOrigin()) {
return false;
}
if (other->TimeOrigin() > TimeEnd()) {
return false;
}
if (other->TimeEnd() > TimeEnd()) {
return false;
}
return true;
}
}
bool Within(int64_t time_origin_micros, int64_t time_extent_micros);
void set_owns_label(bool owns_label) {
state_ = OwnsLabelBit::update(owns_label, state_);
}
TimelineEventArgument* arguments() const { return arguments_.buffer(); }
intptr_t arguments_length() const { return arguments_.length(); }
private:
void StreamInit(TimelineStream* stream) { stream_ = stream; }
void Init(EventType event_type, const char* label);
void set_event_type(EventType event_type) {
// We only reserve 4 bits to hold the event type.
COMPILE_ASSERT(kNumEventTypes < 16);
state_ = EventTypeField::update(event_type, state_);
}
void set_timestamp0(int64_t value) {
ASSERT(timestamp0_ == 0);
timestamp0_ = value;
}
void set_timestamp1(int64_t value) {
ASSERT(timestamp1_ == 0);
timestamp1_ = value;
}
void set_thread_timestamp0(int64_t value) {
ASSERT(thread_timestamp0_ == -1);
thread_timestamp0_ = value;
}
void set_thread_timestamp1(int64_t value) {
ASSERT(thread_timestamp1_ == -1);
thread_timestamp1_ = value;
}
bool pre_serialized_args() const {
return PreSerializedArgsBit::decode(state_);
}
void set_pre_serialized_args(bool pre_serialized_args) {
state_ = PreSerializedArgsBit::update(pre_serialized_args, state_);
}
bool owns_label() const { return OwnsLabelBit::decode(state_); }
enum StateBits {
kEventTypeBit = 0, // reserve 4 bits for type.
kPreSerializedArgsBit = 4,
kOwnsLabelBit = 5,
kNextBit = 6,
};
class EventTypeField : public BitField<uword, EventType, kEventTypeBit, 4> {};
class PreSerializedArgsBit
: public BitField<uword, bool, kPreSerializedArgsBit, 1> {};
class OwnsLabelBit : public BitField<uword, bool, kOwnsLabelBit, 1> {};
int64_t timestamp0_;
int64_t timestamp1_;
int64_t thread_timestamp0_;
int64_t thread_timestamp1_;
TimelineEventArguments arguments_;
uword state_;
const char* label_;
TimelineStream* stream_;
ThreadId thread_;
Dart_Port isolate_id_;
uint64_t isolate_group_id_;
friend class TimelineEventRecorder;
friend class TimelineEventEndlessRecorder;
friend class TimelineEventRingRecorder;
friend class TimelineEventStartupRecorder;
friend class TimelineEventPlatformRecorder;
friend class TimelineEventFuchsiaRecorder;
friend class TimelineEventMacosRecorder;
friend class TimelineStream;
friend class TimelineTestHelper;
DISALLOW_COPY_AND_ASSIGN(TimelineEvent);
};
#ifdef SUPPORT_TIMELINE
#define TIMELINE_DURATION(thread, stream, name) \
TimelineBeginEndScope tbes(thread, Timeline::Get##stream##Stream(), name);
#define TIMELINE_FUNCTION_COMPILATION_DURATION(thread, name, function) \
TimelineBeginEndScope tbes(thread, Timeline::GetCompilerStream(), name); \
if (tbes.enabled()) { \
tbes.SetNumArguments(1); \
tbes.CopyArgument(0, "function", function.ToQualifiedCString()); \
}
#define TIMELINE_FUNCTION_GC_DURATION(thread, name) \
TimelineBeginEndScope tbes(thread, Timeline::GetGCStream(), name);
#else
#define TIMELINE_DURATION(thread, stream, name)
#define TIMELINE_FUNCTION_COMPILATION_DURATION(thread, name, function)
#define TIMELINE_FUNCTION_GC_DURATION(thread, name)
#endif // !PRODUCT
// See |TimelineBeginEndScope|.
class TimelineEventScope : public StackResource {
public:
bool enabled() const { return enabled_; }
intptr_t GetNumArguments() { return arguments_.length(); }
void SetNumArguments(intptr_t length);
void SetArgument(intptr_t i, const char* name, char* argument);
void CopyArgument(intptr_t i, const char* name, const char* argument);
void FormatArgument(intptr_t i, const char* name, const char* fmt, ...)
PRINTF_ATTRIBUTE(4, 5);
protected:
TimelineEventScope(TimelineStream* stream, const char* label);
TimelineEventScope(Thread* thread, TimelineStream* stream, const char* label);
bool ShouldEmitEvent() const { return enabled_; }
void set_enabled(bool enabled) { enabled_ = enabled; }
const char* label() const { return label_; }
TimelineEventArgument* arguments() const { return arguments_.buffer(); }
intptr_t arguments_length() const { return arguments_.length(); }
TimelineStream* stream() const { return stream_; }
virtual ~TimelineEventScope();
void StealArguments(TimelineEvent* event);
private:
void Init();
TimelineStream* stream_;
const char* label_;
TimelineEventArguments arguments_;
bool enabled_;
DISALLOW_COPY_AND_ASSIGN(TimelineEventScope);
};
class TimelineBeginEndScope : public TimelineEventScope {
public:
TimelineBeginEndScope(TimelineStream* stream, const char* label);
TimelineBeginEndScope(Thread* thread,
TimelineStream* stream,
const char* label);
virtual ~TimelineBeginEndScope();
private:
void EmitBegin();
void EmitEnd();
DISALLOW_COPY_AND_ASSIGN(TimelineBeginEndScope);
};
// A block of |TimelineEvent|s. Not thread safe.
class TimelineEventBlock : public MallocAllocated {
public:
static const intptr_t kBlockSize = 64;
explicit TimelineEventBlock(intptr_t index);
~TimelineEventBlock();
TimelineEventBlock* next() const { return next_; }
void set_next(TimelineEventBlock* next) { next_ = next; }
intptr_t length() const { return length_; }
intptr_t block_index() const { return block_index_; }
bool IsEmpty() const { return length_ == 0; }
bool IsFull() const { return length_ == kBlockSize; }
TimelineEvent* At(intptr_t index) {
ASSERT(index >= 0);
ASSERT(index < kBlockSize);
return &events_[index];
}
const TimelineEvent* At(intptr_t index) const {
ASSERT(index >= 0);
ASSERT(index < kBlockSize);
return &events_[index];
}
// Attempt to sniff the timestamp from the first event.
int64_t LowerTimeBound() const;
// Returns false if |this| violates any of the following invariants:
// - events in the block come from one thread.
// - events have monotonically increasing timestamps.
bool CheckBlock();
// Call Reset on all events and set length to 0.
void Reset();
// Only safe to access under the recorder's lock.
bool in_use() const { return in_use_; }
// Only safe to access under the recorder's lock.
ThreadId thread_id() const { return thread_id_; }
protected:
#ifndef PRODUCT
void PrintJSON(JSONStream* stream) const;
#endif
TimelineEvent* StartEvent();
TimelineEvent events_[kBlockSize];
TimelineEventBlock* next_;
intptr_t length_;
intptr_t block_index_;
// Only accessed under the recorder's lock.
ThreadId thread_id_;
bool in_use_;
void Open();
void Finish();
friend class Thread;
friend class TimelineEventRecorder;
friend class TimelineEventEndlessRecorder;
friend class TimelineEventRingRecorder;
friend class TimelineEventStartupRecorder;
friend class TimelineEventPlatformRecorder;
friend class TimelineTestHelper;
friend class JSONStream;
private:
DISALLOW_COPY_AND_ASSIGN(TimelineEventBlock);
};
class TimelineEventFilter : public ValueObject {
public:
TimelineEventFilter(int64_t time_origin_micros = -1,
int64_t time_extent_micros = -1);
virtual ~TimelineEventFilter();
virtual bool IncludeBlock(TimelineEventBlock* block) {
if (block == NULL) {
return false;
}
// Not empty and not in use.
return !block->IsEmpty() && !block->in_use();
}
virtual bool IncludeEvent(TimelineEvent* event) {
if (event == NULL) {
return false;
}
return event->IsValid();
}
int64_t time_origin_micros() const { return time_origin_micros_; }
int64_t time_extent_micros() const { return time_extent_micros_; }
private:
int64_t time_origin_micros_;
int64_t time_extent_micros_;
};
class IsolateTimelineEventFilter : public TimelineEventFilter {
public:
explicit IsolateTimelineEventFilter(Dart_Port isolate_id,
int64_t time_origin_micros = -1,
int64_t time_extent_micros = -1);
bool IncludeBlock(TimelineEventBlock* block) {
if (block == NULL) {
return false;
}
// Not empty, not in use, and isolate match.
return !block->IsEmpty() && !block->in_use();
}
bool IncludeEvent(TimelineEvent* event) {
return event->IsValid() && (event->isolate_id() == isolate_id_);
}
private:
Dart_Port isolate_id_;
};
// Recorder of |TimelineEvent|s.
class TimelineEventRecorder : public MallocAllocated {
public:
TimelineEventRecorder();
virtual ~TimelineEventRecorder() {}
TimelineEventBlock* GetNewBlock();
// Interface method(s) which must be implemented.
#ifndef PRODUCT
virtual void PrintJSON(JSONStream* js, TimelineEventFilter* filter) = 0;
virtual void PrintTraceEvent(JSONStream* js, TimelineEventFilter* filter) = 0;
#endif
virtual const char* name() const = 0;
int64_t GetNextAsyncId();
void FinishBlock(TimelineEventBlock* block);
virtual intptr_t Size() = 0;
protected:
#ifndef PRODUCT
void WriteTo(const char* directory);
#endif
// Interface method(s) which must be implemented.
virtual TimelineEvent* StartEvent() = 0;
virtual void CompleteEvent(TimelineEvent* event) = 0;
virtual TimelineEventBlock* GetHeadBlockLocked() = 0;
virtual TimelineEventBlock* GetNewBlockLocked() = 0;
virtual void Clear() = 0;
// Utility method(s).
#ifndef PRODUCT
void PrintJSONMeta(JSONArray* array) const;
#endif
TimelineEvent* ThreadBlockStartEvent();
void ThreadBlockCompleteEvent(TimelineEvent* event);
void ResetTimeTracking();
void ReportTime(int64_t micros);
int64_t TimeOriginMicros() const;
int64_t TimeExtentMicros() const;
Mutex lock_;
RelaxedAtomic<uintptr_t> async_id_;
int64_t time_low_micros_;
int64_t time_high_micros_;
friend class TimelineEvent;
friend class TimelineStream;
friend class TimelineTestHelper;
friend class Timeline;
private:
DISALLOW_COPY_AND_ASSIGN(TimelineEventRecorder);
};
// An abstract recorder that stores events in a buffer of fixed capacity.
class TimelineEventFixedBufferRecorder : public TimelineEventRecorder {
public:
static const intptr_t kDefaultCapacity = 32 * KB; // Number of events.
explicit TimelineEventFixedBufferRecorder(intptr_t capacity);
virtual ~TimelineEventFixedBufferRecorder();
#ifndef PRODUCT
void PrintJSON(JSONStream* js, TimelineEventFilter* filter);
void PrintTraceEvent(JSONStream* js, TimelineEventFilter* filter);
#endif
intptr_t Size();
protected:
TimelineEvent* StartEvent();
void CompleteEvent(TimelineEvent* event);
TimelineEventBlock* GetHeadBlockLocked();
intptr_t FindOldestBlockIndex() const;
void Clear();
#ifndef PRODUCT
void PrintJSONEvents(JSONArray* array, TimelineEventFilter* filter);
#endif
VirtualMemory* memory_;
TimelineEventBlock* blocks_;
intptr_t capacity_;
intptr_t num_blocks_;
intptr_t block_cursor_;
};
// A recorder that stores events in a buffer of fixed capacity. When the buffer
// is full, new events overwrite old events.
class TimelineEventRingRecorder : public TimelineEventFixedBufferRecorder {
public:
explicit TimelineEventRingRecorder(intptr_t capacity = kDefaultCapacity)
: TimelineEventFixedBufferRecorder(capacity) {}
virtual ~TimelineEventRingRecorder() {}
const char* name() const { return RING_RECORDER_NAME; }
protected:
TimelineEventBlock* GetNewBlockLocked();
};
// A recorder that stores events in a buffer of fixed capacity. When the buffer
// is full, new events are dropped.
class TimelineEventStartupRecorder : public TimelineEventFixedBufferRecorder {
public:
explicit TimelineEventStartupRecorder(intptr_t capacity = kDefaultCapacity)
: TimelineEventFixedBufferRecorder(capacity) {}
virtual ~TimelineEventStartupRecorder() {}
const char* name() const { return STARTUP_RECORDER_NAME; }
protected:
TimelineEventBlock* GetNewBlockLocked();
};
// An abstract recorder that calls |OnEvent| whenever an event is complete.
// This should only be used for testing.
class TimelineEventCallbackRecorder : public TimelineEventRecorder {
public:
TimelineEventCallbackRecorder();
virtual ~TimelineEventCallbackRecorder();
#ifndef PRODUCT
void PrintJSON(JSONStream* js, TimelineEventFilter* filter);
void PrintTraceEvent(JSONStream* js, TimelineEventFilter* filter);
#endif
// Called when |event| is completed. It is unsafe to keep a reference to
// |event| as it may be freed as soon as this function returns.
virtual void OnEvent(TimelineEvent* event) = 0;
const char* name() const { return CALLBACK_RECORDER_NAME; }
protected:
TimelineEventBlock* GetNewBlockLocked() { return NULL; }
TimelineEventBlock* GetHeadBlockLocked() { return NULL; }
void Clear() {}
TimelineEvent* StartEvent();
void CompleteEvent(TimelineEvent* event);
};
// A recorder that stores events in chains of blocks of events.
// NOTE: This recorder will continue to allocate blocks until it exhausts
// memory.
class TimelineEventEndlessRecorder : public TimelineEventRecorder {
public:
TimelineEventEndlessRecorder();
virtual ~TimelineEventEndlessRecorder();
#ifndef PRODUCT
void PrintJSON(JSONStream* js, TimelineEventFilter* filter);
void PrintTraceEvent(JSONStream* js, TimelineEventFilter* filter);
#endif
const char* name() const { return ENDLESS_RECORDER_NAME; }
intptr_t Size() { return block_index_ * sizeof(TimelineEventBlock); }
protected:
TimelineEvent* StartEvent();
void CompleteEvent(TimelineEvent* event);
TimelineEventBlock* GetNewBlockLocked();
TimelineEventBlock* GetHeadBlockLocked();
void Clear();
#ifndef PRODUCT
void PrintJSONEvents(JSONArray* array, TimelineEventFilter* filter);
#endif
TimelineEventBlock* head_;
TimelineEventBlock* tail_;
intptr_t block_index_;
friend class TimelineTestHelper;
};
// The TimelineEventPlatformRecorder records timeline events to a platform
// specific destination. It's implementation is in the timeline_{linux,...}.cc
// files.
class TimelineEventPlatformRecorder : public TimelineEventRecorder {
public:
TimelineEventPlatformRecorder();
virtual ~TimelineEventPlatformRecorder();
#ifndef PRODUCT
void PrintJSON(JSONStream* js, TimelineEventFilter* filter);
void PrintTraceEvent(JSONStream* js, TimelineEventFilter* filter);
#endif
// Called when |event| is completed. It is unsafe to keep a reference to
// |event| as it may be freed as soon as this function returns.
virtual void OnEvent(TimelineEvent* event) = 0;
virtual const char* name() const = 0;
protected:
TimelineEventBlock* GetNewBlockLocked() { return NULL; }
TimelineEventBlock* GetHeadBlockLocked() { return NULL; }
void Clear() {}
TimelineEvent* StartEvent();
void CompleteEvent(TimelineEvent* event);
};
#if defined(DART_HOST_OS_FUCHSIA)
// A recorder that sends events to Fuchsia's tracing app.
class TimelineEventFuchsiaRecorder : public TimelineEventPlatformRecorder {
public:
TimelineEventFuchsiaRecorder() {}
virtual ~TimelineEventFuchsiaRecorder() {}
const char* name() const { return FUCHSIA_RECORDER_NAME; }
intptr_t Size() { return 0; }
private:
void OnEvent(TimelineEvent* event);
};
#endif // defined(DART_HOST_OS_FUCHSIA)
#if defined(DART_HOST_OS_ANDROID) || defined(DART_HOST_OS_LINUX)
// A recorder that writes events to Android Systrace. This class is exposed in
// this header file only so that PrintSystrace can be visible to
// timeline_test.cc.
class TimelineEventSystraceRecorder : public TimelineEventPlatformRecorder {
public:
TimelineEventSystraceRecorder();
virtual ~TimelineEventSystraceRecorder();
static intptr_t PrintSystrace(TimelineEvent* event,
char* buffer,
intptr_t buffer_size);
const char* name() const { return SYSTRACE_RECORDER_NAME; }
intptr_t Size() { return 0; }
private:
void OnEvent(TimelineEvent* event);
int systrace_fd_;
};
#endif // defined(DART_HOST_OS_ANDROID) || defined(DART_HOST_OS_LINUX)
#if defined(DART_HOST_OS_MACOS)
// A recorder that sends events to Macos's tracing app. See:
// https://developer.apple.com/documentation/os/logging?language=objc
class TimelineEventMacosRecorder : public TimelineEventPlatformRecorder {
public:
TimelineEventMacosRecorder() API_AVAILABLE(ios(12.0), macos(10.14));
virtual ~TimelineEventMacosRecorder() API_AVAILABLE(ios(12.0), macos(10.14));
const char* name() const { return MACOS_RECORDER_NAME; }
intptr_t Size() { return 0; }
private:
void OnEvent(TimelineEvent* event) API_AVAILABLE(ios(12.0), macos(10.14));
};
#endif // defined(DART_HOST_OS_MACOS)
class DartTimelineEventHelpers : public AllStatic {
public:
static void ReportTaskEvent(Thread* thread,
TimelineEvent* event,
int64_t id,
const char* phase,
const char* category,
char* name,
char* args);
static void ReportFlowEvent(Thread* thread,
TimelineEvent* event,
const char* category,
char* name,
int64_t type,
int64_t flow_id,
char* args);
static void ReportInstantEvent(Thread* thread,
TimelineEvent* event,
const char* category,
char* name,
char* args);
};
} // namespace dart
#endif // RUNTIME_VM_TIMELINE_H_