const util = require('util'); const moment = require('moment'); const debug = require('ghost-ignition').debug('scheduling-default'); const SchedulingBase = require('./SchedulingBase'); const common = require('../../lib/common'); const request = require('../../lib/request'); /** * @description Default post scheduling implementation. * * The default scheduler is used for all self-hosted blogs. * It is implemented with pure javascript (timers). * * "node-cron" did not perform well enough and we really just needed a simple time management. * @param {Objec†} options * @constructor */ function SchedulingDefault(options) { SchedulingBase.call(this, options); // NOTE: How often should the scheduler wake up? this.runTimeoutInMs = 1000 * 60 * 5; // NOTE: An offset between now and past, which helps us choosing jobs which need to be executed soon. this.offsetInMinutes = 10; this.beforePingInMs = -50; this.retryTimeoutInMs = 1000 * 5; // NOTE: Each scheduler implementation can decide whether to load scheduled posts on bootstrap or not. this.rescheduleOnBoot = true; // NOTE: A sorted list of all scheduled jobs. this.allJobs = {}; this.deletedJobs = {}; this.isRunning = false; } util.inherits(SchedulingDefault, SchedulingBase); /** * @description Add a new job to the scheduler. * * A new job get's added when the post scheduler module receives a new model event e.g. "post.scheduled". * * @param {Object} object * { * time: [Number] A unix timestamp * url: [String] The full post/page API url to publish it. * extra: { * httpMethod: [String] The method of the target API endpoint. * oldTime: [Number] The previous published time. * } * } */ SchedulingDefault.prototype.schedule = function (object) { this._addJob(object); }; /** * @description Remove & schedule a job. * * This function is useful if the model layer detects a rescheduling event. * Rescheduling means: scheduled -> update published at. * To be able to delete the previous job we need the old published time. * * @param {Object} object * { * time: [Number] A unix timestamp * url: [String] The full post/page API url to publish it. * extra: { * httpMethod: [String] The method of the target API endpoint. * oldTime: [Number] The previous published time. * } * } */ SchedulingDefault.prototype.reschedule = function (object) { this._deleteJob({time: object.extra.oldTime, url: object.url}); this._addJob(object); }; /** * @description Unschedule a job. * * Unscheduling means: scheduled -> draft. * * @param {Object} object * { * time: [Number] A unix timestamp * url: [String] The full post/page API url to publish it. * extra: { * httpMethod: [String] The method of the target API endpoint. * oldTime: [Number] The previous published time. * } * } */ SchedulingDefault.prototype.unschedule = function (object) { this._deleteJob(object); }; /** * @description "run" is executed from outside (see post-scheduling module) * * This function will ensure that the scheduler will be kept alive while the blog is running. * It will run recursively and checks if there are new jobs which need to be executed in the next X minutes. */ SchedulingDefault.prototype.run = function () { const self = this; let timeout = null, recursiveRun; // NOTE: Ensure the scheduler never runs twice. if (this.isRunning) { return; } this.isRunning = true; recursiveRun = function recursiveRun() { timeout = setTimeout(function () { const times = Object.keys(self.allJobs), nextJobs = {}; // CASE: We stop till the offset is too big. We are only interested in jobs which need get executed soon. times.every(function (time) { if (moment(Number(time)).diff(moment(), 'minutes') <= self.offsetInMinutes) { nextJobs[time] = self.allJobs[time]; delete self.allJobs[time]; return true; } // break! return false; }); clearTimeout(timeout); self._execute(nextJobs); recursiveRun(); }, self.runTimeoutInMs); }; recursiveRun(); }; /** * @description Add the actual job to "allJobs". * @param {Object} object * @private */ SchedulingDefault.prototype._addJob = function (object) { let timestamp = moment(object.time).valueOf(), keys = [], sortedJobs = {}, instantJob = {}, i = 0; // CASE: should have been already pinged or should be pinged soon if (moment(timestamp).diff(moment(), 'minutes') < this.offsetInMinutes) { debug('Emergency job', object.url, moment(object.time).format('YYYY-MM-DD HH:mm:ss')); instantJob[timestamp] = [object]; this._execute(instantJob); return; } // CASE: are there jobs already scheduled for the same time? if (!this.allJobs[timestamp]) { this.allJobs[timestamp] = []; } debug('Added job', object.url, moment(object.time).format('YYYY-MM-DD HH:mm:ss')); this.allJobs[timestamp].push(object); keys = Object.keys(this.allJobs); keys.sort(); for (i = 0; i < keys.length; i = i + 1) { sortedJobs[keys[i]] = this.allJobs[keys[i]]; } this.allJobs = sortedJobs; }; /** * @description Delete the job. * * Keep a list of deleted jobs because it can happen that a job is already part of the next execution list, * but it got deleted meanwhile. * * @param {Object} object * @private */ SchedulingDefault.prototype._deleteJob = function (object) { const {url, time} = object; if (!time) { return; } const deleteKey = `${url}_${moment(time).valueOf()}`; if (!this.deletedJobs[deleteKey]) { this.deletedJobs[deleteKey] = []; } debug('Deleted job', url, moment(time).format('YYYY-MM-DD HH:mm:ss')); this.deletedJobs[deleteKey].push(object); }; /** * @description The "execute" function will receive the next jobs which need execution. * * Based on "offsetInMinutes" we figure out which jobs need execution and the "execute" function will * ensure that * * The advantage of having a two step system (a general runner and an executor) is: * - accuracy * - setTimeout is limited to 24,3 days * * The execution of "setTimeout" is never guaranteed, therefor we've optimised the execution by using "setImmediate". * The executor will put each job to sleep using `setTimeout` with a threshold of 70ms. And "setImmediate" is then * used to detect the correct moment to trigger the URL. * We can't use "process.nextTick" otherwise we will block I/O operations. */ SchedulingDefault.prototype._execute = function (jobs) { const keys = Object.keys(jobs), self = this; keys.forEach(function (timestamp) { let timeout = null, diff = moment(Number(timestamp)).diff(moment()); // NOTE: awake a little before... timeout = setTimeout(function () { clearTimeout(timeout); (function retry() { let immediate = setImmediate(function () { clearImmediate(immediate); // CASE: It's not the time yet... if (moment().diff(moment(Number(timestamp))) <= self.beforePingInMs) { return retry(); } const toExecute = jobs[timestamp]; delete jobs[timestamp]; // CASE: each timestamp can have multiple jobs toExecute.forEach(function (job) { const {url, time} = job; const deleteKey = `${url}_${moment(time).valueOf()}`; // CASE: Was the job already deleted in the meanwhile...? if (self.deletedJobs[deleteKey]) { if (self.deletedJobs[deleteKey].length === 1) { delete self.deletedJobs[deleteKey]; } else { self.deletedJobs[deleteKey].pop(); } return; } self._pingUrl(job); }); }); })(); }, diff - 70); }); }; /** * @description Ping the job URL. * @param {Object} object * @return {Promise} * @private */ SchedulingDefault.prototype._pingUrl = function (object) { const {url, time} = object; debug('Ping url', url, moment().format('YYYY-MM-DD HH:mm:ss'), moment(time).format('YYYY-MM-DD HH:mm:ss')); const httpMethod = object.extra ? object.extra.httpMethod : 'PUT'; const tries = object.tries || 0; const requestTimeout = object.extra ? object.extra.timeoutInMS : 1000 * 5; const maxTries = 30; const options = { timeout: requestTimeout, method: httpMethod.toLowerCase(), headers: { 'Content-Type': 'application/json' } }; // CASE: If we detect to publish a post in the past (case blog is down), we add a force flag if (moment(time).isBefore(moment())) { if (httpMethod === 'GET') { // @TODO: rename to searchParams when updating to Got v10 options.query = 'force=true'; } else { options.body = JSON.stringify({force: true}); } } return request(url, options).catch((err) => { const {statusCode} = err; // CASE: post/page was deleted already if (statusCode === 404) { return; } // CASE: blog is in maintenance mode, retry if (statusCode === 503 && tries < maxTries) { setTimeout(() => { object.tries = tries + 1; this._pingUrl(object); }, this.retryTimeoutInMs); common.logging.error(new common.errors.GhostError({ err, context: 'Retrying...', level: 'normal' })); return; } common.logging.error(new common.errors.GhostError({ err, level: 'critical' })); }); }; module.exports = SchedulingDefault;