Windshaft-cartodb/app.js
2019-10-07 10:04:39 +02:00

273 lines
8.1 KiB
JavaScript
Executable File

'use strict';
var http = require('http');
var https = require('https');
var path = require('path');
var fs = require('fs');
var _ = require('underscore');
var semver = require('semver');
const setICUEnvVariable = require('./lib/utils/icu-data-env-setter');
// jshint undef:false
var log = console.log.bind(console);
var logError = console.error.bind(console);
// jshint undef:true
var nodejsVersion = process.versions.node;
const { engines } = require('./package.json');
if (!semver.satisfies(nodejsVersion, engines.node)) {
logError(`Node version ${nodejsVersion} is not supported, please use Node.js ${engines.node}.`);
process.exit(1);
}
// This function should be called before the require('yargs').
setICUEnvVariable();
var argv = require('yargs')
.usage('Usage: node $0 <environment> [options]')
.help('h')
.example(
'node $0 production -c /etc/windshaft-cartodb/config.js',
'start server in production environment with /etc/windshaft-cartodb/config.js as config file'
)
.alias('h', 'help')
.alias('c', 'config')
.nargs('c', 1)
.describe('c', 'Load configuration from path')
.argv;
var environmentArg = argv._[0] || process.env.NODE_ENV || 'development';
var configurationFile = path.resolve(argv.config || './config/environments/' + environmentArg + '.js');
if (!fs.existsSync(configurationFile)) {
logError('Configuration file "%s" does not exist', configurationFile);
process.exit(1);
}
global.environment = require(configurationFile);
var ENVIRONMENT = argv._[0] || process.env.NODE_ENV || global.environment.environment;
process.env.NODE_ENV = ENVIRONMENT;
var availableEnvironments = {
production: true,
staging: true,
development: true
};
// sanity check
if (!availableEnvironments[ENVIRONMENT]){
logError('node app.js [environment]');
logError('environments: %s', Object.keys(availableEnvironments).join(', '));
process.exit(1);
}
process.env.NODE_ENV = ENVIRONMENT;
if (global.environment.uv_threadpool_size) {
process.env.UV_THREADPOOL_SIZE = global.environment.uv_threadpool_size;
}
// set global HTTP and HTTPS agent default configurations
// ref https://nodejs.org/api/http.html#http_new_agent_options
var agentOptions = _.defaults(global.environment.httpAgent || {}, {
keepAlive: false,
keepAliveMsecs: 1000,
maxSockets: Infinity,
maxFreeSockets: 256
});
http.globalAgent = new http.Agent(agentOptions);
https.globalAgent = new https.Agent(agentOptions);
global.log4js = require('log4js');
var log4jsConfig = {
appenders: [],
replaceConsole: true
};
if ( global.environment.log_filename ) {
var logFilename = path.resolve(global.environment.log_filename);
var logDirectory = path.dirname(logFilename);
if (!fs.existsSync(logDirectory)) {
logError("Log filename directory does not exist: " + logDirectory);
process.exit(1);
}
log("Logs will be written to " + logFilename);
log4jsConfig.appenders.push(
{ type: "file", absolute: true, filename: logFilename }
);
} else {
log4jsConfig.appenders.push(
{ type: "console", layout: { type:'basic' } }
);
}
global.log4js.configure(log4jsConfig);
global.logger = global.log4js.getLogger();
// Include cartodb_windshaft only _after_ the "global" variable is set
// See https://github.com/Vizzuality/Windshaft-cartodb/issues/28
var cartodbWindshaft = require('./lib/server');
var serverOptions = require('./lib/server_options');
var server = cartodbWindshaft(serverOptions);
// Maximum number of connections for one process
// 128 is a good number if you have up to 1024 filedescriptors
// 4 is good if you have max 32 filedescriptors
// 1 is good if you have max 16 filedescriptors
var backlog = global.environment.maxConnections || 128;
var listener = server.listen(serverOptions.bind.port, serverOptions.bind.host, backlog);
var version = require("./package").version;
listener.on('listening', function() {
log("Using Node.js %s", process.version);
log('Using configuration file "%s"', configurationFile);
log(
"Windshaft tileserver %s started on %s:%s PID=%d (%s)",
version, serverOptions.bind.host, serverOptions.bind.port, process.pid, ENVIRONMENT
);
});
function getCPUUsage (oldUsage) {
let usage;
if (oldUsage && oldUsage._start) {
usage = Object.assign({}, process.cpuUsage(oldUsage._start.cpuUsage));
usage.time = Date.now() - oldUsage._start.time;
} else {
usage = Object.assign({}, process.cpuUsage());
usage.time = process.uptime() * 1000; // s to ms
}
usage.percent = (usage.system + usage.user) / (usage.time * 10);
Object.defineProperty(usage, '_start', {
value: {
cpuUsage: process.cpuUsage(),
time: Date.now()
}
});
return usage;
}
let previousCPUUsage = getCPUUsage();
setInterval(function cpuUsageMetrics () {
const CPUUsage = getCPUUsage(previousCPUUsage);
Object.keys(CPUUsage).forEach(property => {
global.statsClient.gauge(`windshaft.cpu.${property}`, CPUUsage[property]);
});
previousCPUUsage = CPUUsage;
}, 5000);
setInterval(function() {
var memoryUsage = process.memoryUsage();
Object.keys(memoryUsage).forEach(function(k) {
global.statsClient.gauge('windshaft.memory.' + k, memoryUsage[k]);
});
}, 5000);
process.on('SIGHUP', function() {
global.log4js.clearAndShutdownAppenders(function() {
global.log4js.configure(log4jsConfig);
global.logger = global.log4js.getLogger();
log('Log files reloaded');
});
});
if (global.gc) {
var gcInterval = Number.isFinite(global.environment.gc_interval) ?
global.environment.gc_interval :
10000;
if (gcInterval > 0) {
setInterval(function gcForcedCycle() {
global.gc();
}, gcInterval);
}
}
const gcStats = require('gc-stats')();
gcStats.on('stats', function ({ pauseMS, gctype }) {
global.statsClient.timing('windshaft.gc', pauseMS);
global.statsClient.timing(`windshaft.gctype.${getGCTypeValue(gctype)}`, pauseMS);
});
function getGCTypeValue (type) {
// 1: Scavenge (minor GC)
// 2: Mark/Sweep/Compact (major GC)
// 4: Incremental marking
// 8: Weak/Phantom callback processing
// 15: All
let value;
switch (type) {
case 1:
value = 'Scavenge';
break;
case 2:
value = 'MarkSweepCompact';
break;
case 4:
value = 'IncrementalMarking';
break;
case 8:
value = 'ProcessWeakCallbacks';
break;
case 15:
value = 'All';
break;
default:
value = 'Unkown';
break;
}
return value;
}
addHandlers(listener, global.logger, 45000);
function addHandlers(listener, logger, killTimeout) {
process.on('uncaughtException', exitProcess(listener, logger, killTimeout));
process.on('unhandledRejection', exitProcess(listener, logger, killTimeout));
process.on('ENOMEM', exitProcess(listener, logger, killTimeout));
process.on('SIGINT', exitProcess(listener, logger, killTimeout));
process.on('SIGTERM', exitProcess(listener, logger, killTimeout));
}
function exitProcess (listener, logger, killTimeout) {
return function exitProcessFn (signal) {
scheduleForcedExit(killTimeout, logger);
let code = 0;
if (!['SIGINT', 'SIGTERM'].includes(signal)) {
const err = signal instanceof Error ? signal : new Error(signal);
signal = undefined;
code = 1;
logger.fatal(err);
} else {
logger.info(`Process has received signal: ${signal}`);
}
logger.info(`Process is going to exit with code: ${code}`);
listener.close(() => global.log4js.shutdown(() => process.exit(code)));
};
}
function scheduleForcedExit (killTimeout, logger) {
// Schedule exit if there is still ongoing work to deal with
const killTimer = setTimeout(() => {
logger.info('Process didn\'t close on time. Force exit');
process.exit(1);
}, killTimeout);
// Don't keep the process open just for this
killTimer.unref();
}