'use strict'; const common = require('../common'); const assert = require('assert'); const { performance } = require('perf_hooks'); if (!common.isMainThread) common.skip('bootstrapping workers works differently'); assert(performance); assert(performance.nodeTiming); assert.strictEqual(typeof performance.timeOrigin, 'number'); // Use a fairly large epsilon value, since we can only guarantee that the node // process started up in 15 seconds. assert(Math.abs(performance.timeOrigin - Date.now()) < 15000); const inited = performance.now(); assert(inited < 15000); { // Should work without throwing any errors performance.mark('A'); performance.clearMarks('A'); performance.mark('B'); performance.clearMarks(); } { performance.mark('A'); [undefined, null, 'foo', 'initialize', 1].forEach((i) => { performance.measure('test', i, 'A'); // Should not throw. }); [undefined, null, 'foo', 1].forEach((i) => { assert.throws( () => performance.measure('test', 'A', i), { code: 'ERR_INVALID_PERFORMANCE_MARK', name: 'Error', message: `The "${i}" performance mark has not been set` }); }); performance.clearMarks(); } { performance.mark('A'); setImmediate(() => { performance.mark('B'); performance.measure('foo', 'A', 'B'); }); } assert.strictEqual(performance.nodeTiming.name, 'node'); assert.strictEqual(performance.nodeTiming.entryType, 'node'); const delay = 250; function checkNodeTiming(props) { console.log(props); for (const prop of Object.keys(props)) { if (props[prop].around !== undefined) { assert.strictEqual(typeof performance.nodeTiming[prop], 'number'); const delta = performance.nodeTiming[prop] - props[prop].around; assert( Math.abs(delta) < (props[prop].delay || delay), `${prop}: ${Math.abs(delta)} >= ${props[prop].delay || delay}` ); } else { assert.strictEqual(performance.nodeTiming[prop], props[prop], `mismatch for performance property ${prop}: ` + `${performance.nodeTiming[prop]} vs ${props[prop]}`); } } } checkNodeTiming({ name: 'node', entryType: 'node', startTime: 0, duration: { around: performance.now() }, nodeStart: { around: 0 }, v8Start: { around: 0 }, bootstrapComplete: { around: inited, delay: 2500 }, environment: { around: 0 }, loopStart: -1, loopExit: -1 }); setTimeout(() => { checkNodeTiming({ name: 'node', entryType: 'node', startTime: 0, duration: { around: performance.now() }, nodeStart: { around: 0 }, v8Start: { around: 0 }, bootstrapComplete: { around: inited, delay: 2500 }, environment: { around: 0 }, loopStart: { around: inited, delay: 2500 }, loopExit: -1 }); }, 1000); process.on('exit', () => { checkNodeTiming({ name: 'node', entryType: 'node', startTime: 0, duration: { around: performance.now() }, nodeStart: { around: 0 }, v8Start: { around: 0 }, bootstrapComplete: { around: inited, delay: 2500 }, environment: { around: 0 }, loopStart: { around: inited, delay: 2500 }, loopExit: { around: performance.now() } }); });