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Direktori : /proc/thread-self/root/lib/node_modules/pm2/lib/ |
Current File : //proc/thread-self/root/lib/node_modules/pm2/lib/Worker.js |
/** * Copyright 2013-2022 the PM2 project authors. All rights reserved. * Use of this source code is governed by a license that * can be found in the LICENSE file. */ const vizion = require('vizion'); const eachLimit = require('async/eachLimit'); const debug = require('debug')('pm2:worker'); const domain = require('domain'); const Cron = require('croner'); const pkg = require('../package.json'); var cst = require('../constants.js'); var vCheck = require('./VersionCheck.js') module.exports = function(God) { var timer = null; God.CronJobs = new Map(); God.Worker = {}; God.Worker.is_running = false; God.getCronID = function(pm_id) { return `cron-${pm_id}` } God.registerCron = function(pm2_env) { if (!pm2_env || pm2_env.pm_id === undefined || !pm2_env.cron_restart || pm2_env.cron_restart == '0' || God.CronJobs.has(God.getCronID(pm2_env.pm_id))) return; var pm_id = pm2_env.pm_id console.log('[PM2][WORKER] Registering a cron job on:', pm_id); var job = Cron(pm2_env.cron_restart, function() { God.restartProcessId({id: pm_id}, function(err, data) { if (err) console.error(err.stack || err); return; }); }); God.CronJobs.set(God.getCronID(pm_id), job); } /** * Deletes the cron job on deletion of process */ God.deleteCron = function(id) { if (typeof(id) !== 'undefined' && God.CronJobs.has(God.getCronID(id)) === false) return; console.log('[PM2] Deregistering a cron job on:', id); var job = God.CronJobs.get(God.getCronID(id)); if (job) job.stop(); God.CronJobs.delete(God.getCronID(id)); }; var _getProcessById = function(pm_id) { var proc = God.clusters_db[pm_id]; return proc ? proc : null; }; var maxMemoryRestart = function(proc_key, cb) { var proc = _getProcessById(proc_key.pm2_env.pm_id); if (!(proc && proc.pm2_env && proc_key.monit)) return cb(); if (proc_key.monit.memory !== undefined && proc.pm2_env.max_memory_restart !== undefined && proc.pm2_env.max_memory_restart < proc_key.monit.memory && proc.pm2_env.axm_options && proc.pm2_env.axm_options.pid === undefined) { console.log('[PM2][WORKER] Process %s restarted because it exceeds --max-memory-restart value (current_memory=%s max_memory_limit=%s [octets])', proc.pm2_env.pm_id, proc_key.monit.memory, proc.pm2_env.max_memory_restart); God.reloadProcessId({ id : proc.pm2_env.pm_id }, function(err, data) { if (err) console.error(err.stack || err); return cb(); }); } else { return cb(); } }; // Deprecated var versioningRefresh = function(proc_key, cb) { var proc = _getProcessById(proc_key.pm2_env.pm_id); if (!(proc && proc.pm2_env && (proc.pm2_env.vizion !== false && proc.pm2_env.vizion != "false") && proc.pm2_env.versioning && proc.pm2_env.versioning.repo_path)) { return cb(); } if (proc.pm2_env.vizion_running === true) { debug('Vizion is already running for proc id: %d, skipping this round', proc.pm2_env.pm_id); return cb(); } proc.pm2_env.vizion_running = true; var repo_path = proc.pm2_env.versioning.repo_path; vizion.analyze({ folder: proc.pm2_env.versioning.repo_path }, function(err, meta) { if (err != null) return cb(); proc = _getProcessById(proc_key.pm2_env.pm_id); if (!(proc && proc.pm2_env && proc.pm2_env.versioning && proc.pm2_env.versioning.repo_path)) { console.error('Proc not defined anymore or versioning unknown'); return cb(); } proc.pm2_env.vizion_running = false; meta.repo_path = repo_path; proc.pm2_env.versioning = meta; debug('[PM2][WORKER] %s parsed for versioning', proc.pm2_env.name); return cb(); }); }; var tasks = function() { if (God.Worker.is_running === true) { debug('[PM2][WORKER] Worker is already running, skipping this round'); return false; } God.Worker.is_running = true; God.getMonitorData(null, function(err, data) { if (err || !data || typeof(data) !== 'object') { God.Worker.is_running = false; return console.error(err); } eachLimit(data, 1, function(proc, next) { if (!proc || !proc.pm2_env || proc.pm2_env.pm_id === undefined) return next(); debug('[PM2][WORKER] Processing proc id:', proc.pm2_env.pm_id); // Reset restart delay if application has an uptime of more > 30secs if (proc.pm2_env.exp_backoff_restart_delay !== undefined && proc.pm2_env.prev_restart_delay && proc.pm2_env.prev_restart_delay > 0) { var app_uptime = Date.now() - proc.pm2_env.pm_uptime if (app_uptime > cst.EXP_BACKOFF_RESET_TIMER) { var ref_proc = _getProcessById(proc.pm2_env.pm_id); ref_proc.pm2_env.prev_restart_delay = 0 console.log(`[PM2][WORKER] Reset the restart delay, as app ${proc.name} has been up for more than ${cst.EXP_BACKOFF_RESET_TIMER}ms`) } } // Check if application has reached memory threshold maxMemoryRestart(proc, function() { return next(); }); }, function(err) { God.Worker.is_running = false; debug('[PM2][WORKER] My job here is done, next job in %d seconds', parseInt(cst.WORKER_INTERVAL / 1000)); }); }); }; var wrappedTasks = function() { var d = domain.create(); d.once('error', function(err) { console.error('[PM2][WORKER] Error caught by domain:\n' + (err.stack || err)); God.Worker.is_running = false; }); d.run(function() { tasks(); }); }; God.Worker.start = function() { timer = setInterval(wrappedTasks, cst.WORKER_INTERVAL); setInterval(() => { vCheck({ state: 'check', version: pkg.version }) }, 1000 * 60 * 60 * 24) }; God.Worker.stop = function() { if (timer !== null) clearInterval(timer); }; };