'use strict'; // FaketimeFlags: --exclude-monotonic -f '2014-07-21 09:00:00' require('../common'); var Timer = process.binding('timer_wrap').Timer; const assert = require('assert'); var timerFired = false; var intervalFired = false; /* * This test case aims at making sure that timing utilities such * as setTimeout and setInterval are not vulnerable to time * drifting or inconsistent time changes (such as ntp time sync * in the past, etc.). * * It is run using faketime so that we change how * non-monotonic clocks perceive time movement. We freeze * non-monotonic time, and check if setTimeout and setInterval * work properly in that situation. * * We check this by setting a timer based on a monotonic clock * to fire after setTimeout's callback is supposed to be called. * This monotonic timer, by definition, is not subject to time drifting * and inconsistent time changes, so it can be considered as a solid * reference. * * When the monotonic timer fires, if the setTimeout's callback * hasn't been called yet, it means that setTimeout's underlying timer * is vulnerable to time drift or inconsistent time changes. */ var monoTimer = new Timer(); monoTimer[Timer.kOnTimeout] = function() { /* * Make sure that setTimeout's and setInterval's callbacks have * already fired, otherwise it means that they are vulnerable to * time drifting or inconsistent time changes. */ assert(timerFired); assert(intervalFired); }; monoTimer.start(300); setTimeout(function() { timerFired = true; }, 200); var interval = setInterval(function() { intervalFired = true; clearInterval(interval); }, 200);