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'use strict';
const {
PerformanceEntry,
mark: _mark,
measure: _measure,
milestones,
observerCounts,
setupObservers,
timeOrigin,
timerify,
constants
} = process.binding('performance');
const {
NODE_PERFORMANCE_ENTRY_TYPE_NODE,
NODE_PERFORMANCE_ENTRY_TYPE_MARK,
NODE_PERFORMANCE_ENTRY_TYPE_MEASURE,
NODE_PERFORMANCE_ENTRY_TYPE_GC,
NODE_PERFORMANCE_ENTRY_TYPE_FUNCTION,
NODE_PERFORMANCE_MILESTONE_NODE_START,
NODE_PERFORMANCE_MILESTONE_V8_START,
NODE_PERFORMANCE_MILESTONE_LOOP_START,
NODE_PERFORMANCE_MILESTONE_LOOP_EXIT,
NODE_PERFORMANCE_MILESTONE_BOOTSTRAP_COMPLETE,
NODE_PERFORMANCE_MILESTONE_ENVIRONMENT,
NODE_PERFORMANCE_MILESTONE_THIRD_PARTY_MAIN_START,
NODE_PERFORMANCE_MILESTONE_THIRD_PARTY_MAIN_END,
NODE_PERFORMANCE_MILESTONE_CLUSTER_SETUP_START,
NODE_PERFORMANCE_MILESTONE_CLUSTER_SETUP_END,
NODE_PERFORMANCE_MILESTONE_MODULE_LOAD_START,
NODE_PERFORMANCE_MILESTONE_MODULE_LOAD_END,
NODE_PERFORMANCE_MILESTONE_PRELOAD_MODULE_LOAD_START,
NODE_PERFORMANCE_MILESTONE_PRELOAD_MODULE_LOAD_END
} = constants;
const L = require('internal/linkedlist');
const kInspect = require('internal/util').customInspectSymbol;
const { inherits } = require('util');
const kCallback = Symbol('callback');
const kTypes = Symbol('types');
const kEntries = Symbol('entries');
const kBuffer = Symbol('buffer');
const kBuffering = Symbol('buffering');
const kQueued = Symbol('queued');
const kTimerified = Symbol('timerified');
const kInsertEntry = Symbol('insert-entry');
const kIndexEntry = Symbol('index-entry');
const kClearEntry = Symbol('clear-entry');
const kGetEntries = Symbol('get-entries');
const kIndex = Symbol('index');
const kMarks = Symbol('marks');
observerCounts[NODE_PERFORMANCE_ENTRY_TYPE_MARK] = 1;
observerCounts[NODE_PERFORMANCE_ENTRY_TYPE_MEASURE] = 1;
const observers = {};
const observerableTypes = [
'node',
'mark',
'measure',
'gc',
'function'
];
let errors;
function lazyErrors() {
if (errors === undefined)
errors = require('internal/errors');
return errors;
}
function now() {
const hr = process.hrtime();
return hr[0] * 1000 + hr[1] / 1e6;
}
class PerformanceNodeTiming {
constructor() {}
get name() {
return 'node';
}
get entryType() {
return 'node';
}
get startTime() {
return timeOrigin;
}
get duration() {
return now() - timeOrigin;
}
get nodeStart() {
return milestones[NODE_PERFORMANCE_MILESTONE_NODE_START];
}
get v8Start() {
return milestones[NODE_PERFORMANCE_MILESTONE_V8_START];
}
get environment() {
return milestones[NODE_PERFORMANCE_MILESTONE_ENVIRONMENT];
}
get loopStart() {
return milestones[NODE_PERFORMANCE_MILESTONE_LOOP_START];
}
get loopExit() {
return milestones[NODE_PERFORMANCE_MILESTONE_LOOP_EXIT];
}
get bootstrapComplete() {
return milestones[NODE_PERFORMANCE_MILESTONE_BOOTSTRAP_COMPLETE];
}
get thirdPartyMainStart() {
return milestones[NODE_PERFORMANCE_MILESTONE_THIRD_PARTY_MAIN_START];
}
get thirdPartyMainEnd() {
return milestones[NODE_PERFORMANCE_MILESTONE_THIRD_PARTY_MAIN_END];
}
get clusterSetupStart() {
return milestones[NODE_PERFORMANCE_MILESTONE_CLUSTER_SETUP_START];
}
get clusterSetupEnd() {
return milestones[NODE_PERFORMANCE_MILESTONE_CLUSTER_SETUP_END];
}
get moduleLoadStart() {
return milestones[NODE_PERFORMANCE_MILESTONE_MODULE_LOAD_START];
}
get moduleLoadEnd() {
return milestones[NODE_PERFORMANCE_MILESTONE_MODULE_LOAD_END];
}
get preloadModuleLoadStart() {
return milestones[NODE_PERFORMANCE_MILESTONE_PRELOAD_MODULE_LOAD_START];
}
get preloadModuleLoadEnd() {
return milestones[NODE_PERFORMANCE_MILESTONE_PRELOAD_MODULE_LOAD_END];
}
[kInspect]() {
return {
name: 'node',
entryType: 'node',
startTime: this.startTime,
duration: this.duration,
nodeStart: this.nodeStart,
v8Start: this.v8Start,
bootstrapComplete: this.bootstrapComplete,
environment: this.environment,
loopStart: this.loopStart,
loopExit: this.loopExit,
thirdPartyMainStart: this.thirdPartyMainStart,
thirdPartyMainEnd: this.thirdPartyMainEnd,
clusterSetupStart: this.clusterSetupStart,
clusterSetupEnd: this.clusterSetupEnd,
moduleLoadStart: this.moduleLoadStart,
moduleLoadEnd: this.moduleLoadEnd,
preloadModuleLoadStart: this.preloadModuleLoadStart,
preloadModuleLoadEnd: this.preloadModuleLoadEnd
};
}
}
// Use this instead of Extends because we want PerformanceEntry in the
// prototype chain but we do not want to use the PerformanceEntry
// constructor for this.
inherits(PerformanceNodeTiming, PerformanceEntry);
const nodeTiming = new PerformanceNodeTiming();
// Maintains a list of entries as a linked list stored in insertion order.
class PerformanceObserverEntryList {
constructor() {
Object.defineProperty(this, kEntries, {
writable: true,
enumerable: false,
value: {}
});
L.init(this[kEntries]);
}
[kInsertEntry](entry) {
const item = { entry };
L.append(this[kEntries], item);
this[kIndexEntry](item);
}
[kIndexEntry](entry) {
// Default implementation does nothing
}
[kGetEntries](name, type) {
const ret = [];
const list = this[kEntries];
if (!L.isEmpty(list)) {
let item = L.peek(list);
while (item && item !== list) {
const entry = item.entry;
if ((name && entry.name !== name) ||
(type && entry.entryType !== type)) {
item = item._idlePrev;
continue;
}
sortedInsert(ret, entry);
item = item._idlePrev;
}
}
return ret;
}
// While the items are stored in insertion order, getEntries() is
// required to return items sorted by startTime.
getEntries() {
return this[kGetEntries]();
}
getEntriesByType(type) {
return this[kGetEntries](undefined, `${type}`);
}
getEntriesByName(name, type) {
return this[kGetEntries](`${name}`, type !== undefined ? `${type}` : type);
}
}
class PerformanceObserver {
constructor(callback) {
if (typeof callback !== 'function') {
const errors = lazyErrors();
throw new errors.TypeError('ERR_INVALID_CALLBACK');
}
Object.defineProperties(this, {
[kTypes]: {
enumerable: false,
writable: true,
value: {}
},
[kCallback]: {
enumerable: false,
writable: true,
value: callback
},
[kBuffer]: {
enumerable: false,
writable: true,
value: new PerformanceObserverEntryList()
},
[kBuffering]: {
enumerable: false,
writable: true,
value: false
},
[kQueued]: {
enumerable: false,
writable: true,
value: false
}
});
}
disconnect() {
const types = this[kTypes];
const keys = Object.keys(types);
for (var n = 0; n < keys.length; n++) {
const item = types[keys[n]];
if (item) {
L.remove(item);
observerCounts[keys[n]]--;
}
}
this[kTypes] = {};
}
observe(options) {
const errors = lazyErrors();
if (typeof options !== 'object' || options == null) {
throw new errors.TypeError('ERR_INVALID_ARG_TYPE', 'options', 'Object');
}
if (!Array.isArray(options.entryTypes)) {
throw new errors.TypeError('ERR_INVALID_OPT_VALUE',
'entryTypes', options);
}
const entryTypes = options.entryTypes.filter(filterTypes).map(mapTypes);
if (entryTypes.length === 0) {
throw new errors.Error('ERR_VALID_PERFORMANCE_ENTRY_TYPE');
}
this.disconnect();
this[kBuffer][kEntries] = [];
L.init(this[kBuffer][kEntries]);
this[kBuffering] = Boolean(options.buffered);
for (var n = 0; n < entryTypes.length; n++) {
const entryType = entryTypes[n];
const list = getObserversList(entryType);
const item = { obs: this };
this[kTypes][entryType] = item;
L.append(list, item);
observerCounts[entryType]++;
}
}
}
class Performance extends PerformanceObserverEntryList {
constructor() {
super();
this[kIndex] = {
[kMarks]: new Set()
};
this[kInsertEntry](nodeTiming);
}
[kIndexEntry](item) {
const index = this[kIndex];
const type = item.entry.entryType;
let items = index[type];
if (!items) {
items = index[type] = {};
L.init(items);
}
const entry = item.entry;
L.append(items, { entry, item });
}
[kClearEntry](type, name) {
const index = this[kIndex];
const items = index[type];
if (!items) return;
let item = L.peek(items);
while (item && item !== items) {
const entry = item.entry;
const next = item._idlePrev;
if (name !== undefined) {
if (entry.name === `${name}`) {
L.remove(item); // remove from the index
L.remove(item.item); // remove from the master
}
} else {
L.remove(item); // remove from the index
L.remove(item.item); // remove from the master
}
item = next;
}
}
get nodeTiming() {
return nodeTiming;
}
get timeOrigin() {
return timeOrigin;
}
now() {
return now();
}
mark(name) {
name = `${name}`;
_mark(name);
this[kIndex][kMarks].add(name);
}
measure(name, startMark, endMark) {
name = `${name}`;
endMark = `${endMark}`;
startMark = startMark !== undefined ? `${startMark}` : '';
const marks = this[kIndex][kMarks];
if (!marks.has(endMark) && !(endMark in nodeTiming)) {
const errors = lazyErrors();
throw new errors.Error('ERR_INVALID_PERFORMANCE_MARK', endMark);
}
_measure(name, startMark, endMark);
}
clearMarks(name) {
name = name !== undefined ? `${name}` : name;
this[kClearEntry]('mark', name);
if (name !== undefined)
this[kIndex][kMarks].delete(name);
else
this[kIndex][kMarks].clear();
}
clearMeasures(name) {
this[kClearEntry]('measure', name);
}
clearGC() {
this[kClearEntry]('gc');
}
clearFunctions(name) {
this[kClearEntry]('function', name);
}
timerify(fn) {
if (typeof fn !== 'function') {
const errors = lazyErrors();
throw new errors.TypeError('ERR_INVALID_ARG_TYPE', 'fn', 'Function');
}
if (fn[kTimerified])
return fn[kTimerified];
const ret = timerify(fn, fn.length);
Object.defineProperty(fn, kTimerified, {
enumerable: false,
configurable: true,
writable: false,
value: ret
});
Object.defineProperties(ret, {
[kTimerified]: {
enumerable: false,
configurable: true,
writable: false,
value: ret
},
name: {
enumerable: false,
configurable: true,
writable: false,
value: `timerified ${fn.name}`
}
});
return ret;
}
[kInspect]() {
return {
timeOrigin,
nodeTiming
};
}
}
const performance = new Performance();
function getObserversList(type) {
let list = observers[type];
if (list === undefined) {
list = observers[type] = {};
L.init(list);
}
return list;
}
function doNotify() {
this[kQueued] = false;
this[kCallback](this[kBuffer], this);
this[kBuffer][kEntries] = [];
L.init(this[kBuffer][kEntries]);
}
// Set up the callback used to receive PerformanceObserver notifications
function observersCallback(entry) {
const type = mapTypes(entry.entryType);
performance[kInsertEntry](entry);
const list = getObserversList(type);
let current = L.peek(list);
while (current && current.obs) {
const observer = current.obs;
// First, add the item to the observers buffer
const buffer = observer[kBuffer];
buffer[kInsertEntry](entry);
// Second, check to see if we're buffering
if (observer[kBuffering]) {
// If we are, schedule a setImmediate call if one hasn't already
if (!observer[kQueued]) {
observer[kQueued] = true;
// Use setImmediate instead of nextTick to give more time
// for multiple entries to collect.
setImmediate(doNotify.bind(observer));
}
} else {
// If not buffering, notify immediately
doNotify.call(observer);
}
current = current._idlePrev;
}
}
setupObservers(observersCallback);
function filterTypes(i) {
return observerableTypes.indexOf(`${i}`) >= 0;
}
function mapTypes(i) {
switch (i) {
case 'node': return NODE_PERFORMANCE_ENTRY_TYPE_NODE;
case 'mark': return NODE_PERFORMANCE_ENTRY_TYPE_MARK;
case 'measure': return NODE_PERFORMANCE_ENTRY_TYPE_MEASURE;
case 'gc': return NODE_PERFORMANCE_ENTRY_TYPE_GC;
case 'function': return NODE_PERFORMANCE_ENTRY_TYPE_FUNCTION;
}
}
// The specification requires that PerformanceEntry instances are sorted
// according to startTime. Unfortunately, they are not necessarily created
// in that same order, and can be reported to the JS layer in any order,
// which means we need to keep the list sorted as we insert.
function getInsertLocation(list, entryStartTime) {
let start = 0;
let end = list.length;
while (start < end) {
const pivot = (end + start) >>> 1;
if (list[pivot].startTime === entryStartTime)
return pivot;
if (list[pivot].startTime < entryStartTime)
start = pivot + 1;
else
end = pivot;
}
return start;
}
function sortedInsert(list, entry) {
const entryStartTime = entry.startTime;
if (list.length === 0 ||
(list[list.length - 1].startTime < entryStartTime)) {
list.push(entry);
return;
}
if (list[0] && (list[0].startTime > entryStartTime)) {
list.unshift(entry);
return;
}
const location = getInsertLocation(list, entryStartTime);
list.splice(location, 0, entry);
}
module.exports = {
performance,
PerformanceObserver
};
Object.defineProperty(module.exports, 'constants', {
configurable: false,
enumerable: true,
value: constants
});