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node_perf.cc
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node_perf.cc
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#include "node_internals.h"
#include "node_perf.h"
#ifdef __POSIX__
#include <sys/time.h> // gettimeofday
#endif
namespace node {
namespace performance {
using v8::Array;
using v8::Context;
using v8::Function;
using v8::FunctionCallbackInfo;
using v8::FunctionTemplate;
using v8::HandleScope;
using v8::Integer;
using v8::Isolate;
using v8::Local;
using v8::Name;
using v8::Number;
using v8::Object;
using v8::String;
using v8::Value;
// Microseconds in a second, as a float.
#define MICROS_PER_SEC 1e6
// Microseconds in a millisecond, as a float.
#define MICROS_PER_MILLIS 1e3
// https://w3c.github.io/hr-time/#dfn-time-origin
const uint64_t timeOrigin = PERFORMANCE_NOW();
// https://w3c.github.io/hr-time/#dfn-time-origin-timestamp
const double timeOriginTimestamp = GetCurrentTimeInMicroseconds();
uint64_t performance_node_start;
uint64_t performance_v8_start;
uint64_t performance_last_gc_start_mark_ = 0;
v8::GCType performance_last_gc_type_ = v8::GCType::kGCTypeAll;
void performance_state::Mark(enum PerformanceMilestone milestone,
uint64_t ts) {
this->milestones[milestone] = ts;
TRACE_EVENT_INSTANT_WITH_TIMESTAMP0(
TRACING_CATEGORY_NODE1(bootstrap),
GetPerformanceMilestoneName(milestone),
TRACE_EVENT_SCOPE_THREAD, ts / 1000);
}
double GetCurrentTimeInMicroseconds() {
#ifdef _WIN32
// The difference between the Unix Epoch and the Windows Epoch in 100-ns ticks.
#define TICKS_TO_UNIX_EPOCH 116444736000000000LL
FILETIME ft;
GetSystemTimeAsFileTime(&ft);
uint64_t filetime_int = static_cast<uint64_t>(ft.dwHighDateTime) << 32 |
ft.dwLowDateTime;
// FILETIME is measured in terms of 100 ns. Convert that to 1 us (1000 ns).
return (filetime_int - TICKS_TO_UNIX_EPOCH) / 10.;
#else
struct timeval tp;
gettimeofday(&tp, nullptr);
return MICROS_PER_SEC * tp.tv_sec + tp.tv_usec;
#endif
}
// Initialize the performance entry object properties
inline void InitObject(const PerformanceEntry& entry, Local<Object> obj) {
Environment* env = entry.env();
Isolate* isolate = env->isolate();
Local<Context> context = env->context();
v8::PropertyAttribute attr =
static_cast<v8::PropertyAttribute>(v8::ReadOnly | v8::DontDelete);
obj->DefineOwnProperty(context,
env->name_string(),
String::NewFromUtf8(isolate,
entry.name().c_str(),
v8::NewStringType::kNormal)
.ToLocalChecked(),
attr)
.FromJust();
obj->DefineOwnProperty(context,
env->entry_type_string(),
String::NewFromUtf8(isolate,
entry.type().c_str(),
v8::NewStringType::kNormal)
.ToLocalChecked(),
attr)
.FromJust();
obj->DefineOwnProperty(context,
env->start_time_string(),
Number::New(isolate, entry.startTime()),
attr).FromJust();
obj->DefineOwnProperty(context,
env->duration_string(),
Number::New(isolate, entry.duration()),
attr).FromJust();
}
// Create a new PerformanceEntry object
const Local<Object> PerformanceEntry::ToObject() const {
Local<Object> obj =
env_->performance_entry_template()
->NewInstance(env_->context()).ToLocalChecked();
InitObject(*this, obj);
return obj;
}
// Allow creating a PerformanceEntry object from JavaScript
void PerformanceEntry::New(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
Isolate* isolate = env->isolate();
Utf8Value name(isolate, args[0]);
Utf8Value type(isolate, args[1]);
uint64_t now = PERFORMANCE_NOW();
PerformanceEntry entry(env, *name, *type, now, now);
Local<Object> obj = args.This();
InitObject(entry, obj);
PerformanceEntry::Notify(env, entry.kind(), obj);
}
// Pass the PerformanceEntry object to the PerformanceObservers
void PerformanceEntry::Notify(Environment* env,
PerformanceEntryType type,
Local<Value> object) {
Context::Scope scope(env->context());
AliasedBuffer<uint32_t, v8::Uint32Array>& observers =
env->performance_state()->observers;
if (type != NODE_PERFORMANCE_ENTRY_TYPE_INVALID &&
observers[type]) {
node::MakeCallback(env->isolate(),
object.As<Object>(),
env->performance_entry_callback(),
1, &object,
node::async_context{0, 0});
}
}
// Create a User Timing Mark
void Mark(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
HandleScope scope(env->isolate());
Utf8Value name(env->isolate(), args[0]);
uint64_t now = PERFORMANCE_NOW();
auto marks = env->performance_marks();
(*marks)[*name] = now;
TRACE_EVENT_COPY_MARK_WITH_TIMESTAMP(
TRACING_CATEGORY_NODE2(perf, usertiming),
*name, now / 1000);
PerformanceEntry entry(env, *name, "mark", now, now);
Local<Object> obj = entry.ToObject();
PerformanceEntry::Notify(env, entry.kind(), obj);
args.GetReturnValue().Set(obj);
}
void ClearMark(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
auto marks = env->performance_marks();
if (args.Length() == 0) {
marks->clear();
} else {
Utf8Value name(env->isolate(), args[0]);
marks->erase(*name);
}
}
inline uint64_t GetPerformanceMark(Environment* env, std::string name) {
auto marks = env->performance_marks();
auto res = marks->find(name);
return res != marks->end() ? res->second : 0;
}
// Create a User Timing Measure. A Measure is a PerformanceEntry that
// measures the duration between two distinct user timing marks
void Measure(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
HandleScope scope(env->isolate());
Utf8Value name(env->isolate(), args[0]);
Utf8Value startMark(env->isolate(), args[1]);
Utf8Value endMark(env->isolate(), args[2]);
AliasedBuffer<double, v8::Float64Array>& milestones =
env->performance_state()->milestones;
uint64_t startTimestamp = timeOrigin;
uint64_t start = GetPerformanceMark(env, *startMark);
if (start != 0) {
startTimestamp = start;
} else {
PerformanceMilestone milestone = ToPerformanceMilestoneEnum(*startMark);
if (milestone != NODE_PERFORMANCE_MILESTONE_INVALID)
startTimestamp = milestones[milestone];
}
uint64_t endTimestamp = GetPerformanceMark(env, *endMark);
if (endTimestamp == 0) {
PerformanceMilestone milestone = ToPerformanceMilestoneEnum(*endMark);
if (milestone != NODE_PERFORMANCE_MILESTONE_INVALID)
endTimestamp = milestones[milestone];
}
if (endTimestamp < startTimestamp)
endTimestamp = startTimestamp;
TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN_WITH_TIMESTAMP0(
TRACING_CATEGORY_NODE2(perf, usertiming),
*name, *name, startTimestamp / 1000);
TRACE_EVENT_COPY_NESTABLE_ASYNC_END_WITH_TIMESTAMP0(
TRACING_CATEGORY_NODE2(perf, usertiming),
*name, *name, endTimestamp / 1000);
PerformanceEntry entry(env, *name, "measure", startTimestamp, endTimestamp);
Local<Object> obj = entry.ToObject();
PerformanceEntry::Notify(env, entry.kind(), obj);
args.GetReturnValue().Set(obj);
}
// Allows specific Node.js lifecycle milestones to be set from JavaScript
void MarkMilestone(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
Local<Context> context = env->context();
PerformanceMilestone milestone =
static_cast<PerformanceMilestone>(
args[0]->Int32Value(context).ToChecked());
if (milestone != NODE_PERFORMANCE_MILESTONE_INVALID)
env->performance_state()->Mark(milestone);
}
void SetupPerformanceObservers(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
CHECK(args[0]->IsFunction());
env->set_performance_entry_callback(args[0].As<Function>());
}
// Creates a GC Performance Entry and passes it to observers
void PerformanceGCCallback(Environment* env, void* ptr) {
GCPerformanceEntry* entry = static_cast<GCPerformanceEntry*>(ptr);
HandleScope scope(env->isolate());
Local<Context> context = env->context();
AliasedBuffer<uint32_t, v8::Uint32Array>& observers =
env->performance_state()->observers;
if (observers[NODE_PERFORMANCE_ENTRY_TYPE_GC]) {
Local<Object> obj = entry->ToObject();
v8::PropertyAttribute attr =
static_cast<v8::PropertyAttribute>(v8::ReadOnly | v8::DontDelete);
obj->DefineOwnProperty(context,
env->kind_string(),
Integer::New(env->isolate(), entry->gckind()),
attr).FromJust();
PerformanceEntry::Notify(env, entry->kind(), obj);
}
delete entry;
}
// Marks the start of a GC cycle
void MarkGarbageCollectionStart(Isolate* isolate,
v8::GCType type,
v8::GCCallbackFlags flags) {
performance_last_gc_start_mark_ = PERFORMANCE_NOW();
performance_last_gc_type_ = type;
}
// Marks the end of a GC cycle
void MarkGarbageCollectionEnd(Isolate* isolate,
v8::GCType type,
v8::GCCallbackFlags flags,
void* data) {
Environment* env = static_cast<Environment*>(data);
// If no one is listening to gc performance entries, do not create them.
if (!env->performance_state()->observers[NODE_PERFORMANCE_ENTRY_TYPE_GC])
return;
GCPerformanceEntry* entry =
new GCPerformanceEntry(env,
static_cast<PerformanceGCKind>(type),
performance_last_gc_start_mark_,
PERFORMANCE_NOW());
env->SetUnrefImmediate(PerformanceGCCallback,
entry);
}
inline void SetupGarbageCollectionTracking(Environment* env) {
env->isolate()->AddGCPrologueCallback(MarkGarbageCollectionStart);
env->isolate()->AddGCEpilogueCallback(MarkGarbageCollectionEnd,
static_cast<void*>(env));
}
// Gets the name of a function
inline Local<Value> GetName(Local<Function> fn) {
Local<Value> val = fn->GetDebugName();
if (val.IsEmpty() || val->IsUndefined()) {
Local<Value> boundFunction = fn->GetBoundFunction();
if (!boundFunction.IsEmpty() && !boundFunction->IsUndefined()) {
val = GetName(boundFunction.As<Function>());
}
}
return val;
}
// Executes a wrapped Function and captures timing information, causing a
// Function PerformanceEntry to be emitted to PerformanceObservers after
// execution.
void TimerFunctionCall(const FunctionCallbackInfo<Value>& args) {
Isolate* isolate = args.GetIsolate();
HandleScope scope(isolate);
Environment* env = Environment::GetCurrent(isolate);
Local<Context> context = env->context();
Local<Function> fn = args.Data().As<Function>();
size_t count = args.Length();
size_t idx;
SlicedArguments call_args(args);
Utf8Value name(isolate, GetName(fn));
uint64_t start;
uint64_t end;
v8::TryCatch try_catch(isolate);
if (args.IsConstructCall()) {
start = PERFORMANCE_NOW();
TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN_WITH_TIMESTAMP0(
TRACING_CATEGORY_NODE2(perf, timerify),
*name, *name, start / 1000);
v8::MaybeLocal<Object> ret = fn->NewInstance(context,
call_args.size(),
call_args.data());
end = PERFORMANCE_NOW();
TRACE_EVENT_COPY_NESTABLE_ASYNC_END_WITH_TIMESTAMP0(
TRACING_CATEGORY_NODE2(perf, timerify),
*name, *name, end / 1000);
if (ret.IsEmpty()) {
try_catch.ReThrow();
return;
}
args.GetReturnValue().Set(ret.ToLocalChecked());
} else {
start = PERFORMANCE_NOW();
TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN_WITH_TIMESTAMP0(
TRACING_CATEGORY_NODE2(perf, timerify),
*name, *name, start / 1000);
v8::MaybeLocal<Value> ret = fn->Call(context,
args.This(),
call_args.size(),
call_args.data());
end = PERFORMANCE_NOW();
TRACE_EVENT_COPY_NESTABLE_ASYNC_END_WITH_TIMESTAMP0(
TRACING_CATEGORY_NODE2(perf, timerify),
*name, *name, end / 1000);
if (ret.IsEmpty()) {
try_catch.ReThrow();
return;
}
args.GetReturnValue().Set(ret.ToLocalChecked());
}
AliasedBuffer<uint32_t, v8::Uint32Array>& observers =
env->performance_state()->observers;
if (!observers[NODE_PERFORMANCE_ENTRY_TYPE_FUNCTION])
return;
PerformanceEntry entry(env, *name, "function", start, end);
Local<Object> obj = entry.ToObject();
for (idx = 0; idx < count; idx++)
obj->Set(context, idx, args[idx]).FromJust();
PerformanceEntry::Notify(env, entry.kind(), obj);
}
// Wraps a Function in a TimerFunctionCall
void Timerify(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
Local<Context> context = env->context();
CHECK(args[0]->IsFunction());
CHECK(args[1]->IsNumber());
Local<Function> fn = args[0].As<Function>();
int length = args[1]->IntegerValue(context).ToChecked();
Local<Function> wrap =
Function::New(context, TimerFunctionCall, fn, length).ToLocalChecked();
args.GetReturnValue().Set(wrap);
}
void Initialize(Local<Object> target,
Local<Value> unused,
Local<Context> context) {
Environment* env = Environment::GetCurrent(context);
Isolate* isolate = env->isolate();
performance_state* state = env->performance_state();
target->Set(context,
FIXED_ONE_BYTE_STRING(isolate, "observerCounts"),
state->observers.GetJSArray()).FromJust();
target->Set(context,
FIXED_ONE_BYTE_STRING(isolate, "milestones"),
state->milestones.GetJSArray()).FromJust();
Local<String> performanceEntryString =
FIXED_ONE_BYTE_STRING(isolate, "PerformanceEntry");
Local<FunctionTemplate> pe = FunctionTemplate::New(isolate);
pe->SetClassName(performanceEntryString);
Local<Function> fn = pe->GetFunction();
target->Set(context, performanceEntryString, fn).FromJust();
env->set_performance_entry_template(fn);
env->SetMethod(target, "clearMark", ClearMark);
env->SetMethod(target, "mark", Mark);
env->SetMethod(target, "measure", Measure);
env->SetMethod(target, "markMilestone", MarkMilestone);
env->SetMethod(target, "setupObservers", SetupPerformanceObservers);
env->SetMethod(target, "timerify", Timerify);
Local<Object> constants = Object::New(isolate);
NODE_DEFINE_CONSTANT(constants, NODE_PERFORMANCE_GC_MAJOR);
NODE_DEFINE_CONSTANT(constants, NODE_PERFORMANCE_GC_MINOR);
NODE_DEFINE_CONSTANT(constants, NODE_PERFORMANCE_GC_INCREMENTAL);
NODE_DEFINE_CONSTANT(constants, NODE_PERFORMANCE_GC_WEAKCB);
#define V(name, _) \
NODE_DEFINE_HIDDEN_CONSTANT(constants, NODE_PERFORMANCE_ENTRY_TYPE_##name);
NODE_PERFORMANCE_ENTRY_TYPES(V)
#undef V
#define V(name, _) \
NODE_DEFINE_HIDDEN_CONSTANT(constants, NODE_PERFORMANCE_MILESTONE_##name);
NODE_PERFORMANCE_MILESTONES(V)
#undef V
v8::PropertyAttribute attr =
static_cast<v8::PropertyAttribute>(v8::ReadOnly | v8::DontDelete);
target->DefineOwnProperty(context,
FIXED_ONE_BYTE_STRING(isolate, "timeOrigin"),
v8::Number::New(isolate, timeOrigin / 1e6),
attr).ToChecked();
target->DefineOwnProperty(
context,
FIXED_ONE_BYTE_STRING(isolate, "timeOriginTimestamp"),
v8::Number::New(isolate, timeOriginTimestamp / MICROS_PER_MILLIS),
attr).ToChecked();
target->DefineOwnProperty(context,
env->constants_string(),
constants,
attr).ToChecked();
SetupGarbageCollectionTracking(env);
}
} // namespace performance
} // namespace node
NODE_MODULE_CONTEXT_AWARE_INTERNAL(performance, node::performance::Initialize)