'use strict'; const child_process = require('child_process'); const http_benchmarkers = require('./_http-benchmarkers.js'); function allow() { return true; } class Benchmark { constructor(fn, configs, options = {}) { // Used to make sure a benchmark only start a timer once this._started = false; // Indicate that the benchmark ended this._ended = false; // Holds process.hrtime value this._time = 0n; // Use the file name as the name of the benchmark this.name = require.main.filename.slice(__dirname.length + 1); // Execution arguments i.e. flags used to run the jobs this.flags = process.env.NODE_BENCHMARK_FLAGS?.split(/\s+/) ?? []; // Parse job-specific configuration from the command line arguments const argv = process.argv.slice(2); const parsed_args = this._parseArgs(argv, configs, options); this.options = parsed_args.cli; this.extra_options = parsed_args.extra; this.combinationFilter = typeof options.combinationFilter === 'function' ? options.combinationFilter : allow; if (options.byGroups) { this.queue = []; const groupNames = process.env.NODE_RUN_BENCHMARK_GROUPS?.split(',') ?? Object.keys(configs); for (const groupName of groupNames) { const config = { ...configs[groupName][0], group: groupName }; const parsed_args = this._parseArgs(argv, config, options); this.options = parsed_args.cli; this.extra_options = parsed_args.extra; this.queue = this.queue.concat(this._queue(this.options)); } } else { this.queue = this._queue(this.options); } if (options.flags) { this.flags = this.flags.concat(options.flags); } if (this.queue.length === 0) return; // The configuration of the current job, head of the queue this.config = this.queue[0]; process.nextTick(() => { if (process.env.NODE_RUN_BENCHMARK_FN !== undefined) { fn(this.config); } else { // _run will use fork() to create a new process for each configuration // combination. this._run(); } }); } _parseArgs(argv, configs, options) { const cliOptions = {}; // Check for the test mode first. const testIndex = argv.indexOf('--test'); if (testIndex !== -1) { for (const [key, rawValue] of Object.entries(configs)) { let value = Array.isArray(rawValue) ? rawValue[0] : rawValue; // Set numbers to one by default to reduce the runtime. if (typeof value === 'number') { if (key === 'dur' || key === 'duration') { value = 0.05; } else if (value > 1) { value = 1; } } cliOptions[key] = [value]; } // Override specific test options. if (options.test) { for (const [key, value] of Object.entries(options.test)) { cliOptions[key] = Array.isArray(value) ? value : [value]; } } argv.splice(testIndex, 1); } else { // Accept single values instead of arrays. for (const [key, value] of Object.entries(configs)) { if (!Array.isArray(value)) configs[key] = [value]; } } const extraOptions = {}; const validArgRE = /^(.+?)=([\s\S]*)$/; // Parse configuration arguments for (const arg of argv) { const match = arg.match(validArgRE); if (!match) { console.error(`bad argument: ${arg}`); process.exit(1); } const [, key, value] = match; if (configs[key] !== undefined) { if (!cliOptions[key]) cliOptions[key] = []; cliOptions[key].push( // Infer the type from the config object and parse accordingly typeof configs[key][0] === 'number' ? +value : value, ); } else { extraOptions[key] = value; } } return { cli: { ...configs, ...cliOptions }, extra: extraOptions }; } _queue(options) { const queue = []; const keys = Object.keys(options); const { combinationFilter } = this; // Perform a depth-first walk through all options to generate a // configuration list that contains all combinations. function recursive(keyIndex, prevConfig) { const key = keys[keyIndex]; const values = options[key]; for (const value of values) { if (typeof value !== 'number' && typeof value !== 'string') { throw new TypeError( `configuration "${key}" had type ${typeof value}`); } if (typeof value !== typeof values[0]) { // This is a requirement for being able to consistently and // predictably parse CLI provided configuration values. throw new TypeError(`configuration "${key}" has mixed types`); } const currConfig = { [key]: value, ...prevConfig }; if (keyIndex + 1 < keys.length) { recursive(keyIndex + 1, currConfig); } else { // Check if we should allow the current combination const allowed = combinationFilter({ ...currConfig }); if (typeof allowed !== 'boolean') { throw new TypeError( 'Combination filter must always return a boolean', ); } if (allowed) queue.push(currConfig); } } } if (keys.length > 0) { recursive(0, {}); } else { queue.push({}); } return queue; } http(options, cb) { const http_options = { ...options }; http_options.benchmarker = http_options.benchmarker || this.config.benchmarker || this.extra_options.benchmarker || http_benchmarkers.default_http_benchmarker; http_benchmarkers.run( http_options, (error, code, used_benchmarker, result, elapsed) => { if (cb) { cb(code); } if (error) { console.error(error); process.exit(code || 1); } this.config.benchmarker = used_benchmarker; this.report(result, elapsed); }, ); } _run() { // If forked, report to the parent. if (process.send) { process.send({ type: 'config', name: this.name, queueLength: this.queue.length, }); } const recursive = (queueIndex) => { const config = this.queue[queueIndex]; // Set NODE_RUN_BENCHMARK_FN to indicate that the child shouldn't // construct a configuration queue, but just execute the benchmark // function. const childEnv = { ...process.env }; childEnv.NODE_RUN_BENCHMARK_FN = ''; // Create configuration arguments const childArgs = []; for (const [key, value] of Object.entries(config)) { childArgs.push(`${key}=${value}`); } for (const [key, value] of Object.entries(this.extra_options)) { childArgs.push(`${key}=${value}`); } const child = child_process.fork(require.main.filename, childArgs, { env: childEnv, execArgv: this.flags.concat(process.execArgv), }); child.on('message', sendResult); child.on('close', (code) => { if (code) { process.exit(code); } if (queueIndex + 1 < this.queue.length) { recursive(queueIndex + 1); } }); }; recursive(0); } start() { if (this._started) { throw new Error('Called start more than once in a single benchmark'); } this._started = true; this._time = process.hrtime.bigint(); } end(operations) { // Get elapsed time now and do error checking later for accuracy. const time = process.hrtime.bigint(); if (!this._started) { throw new Error('called end without start'); } if (this._ended) { throw new Error('called end multiple times'); } if (typeof operations !== 'number') { throw new Error('called end() without specifying operation count'); } if (!process.env.NODEJS_BENCHMARK_ZERO_ALLOWED && operations <= 0) { throw new Error('called end() with operation count <= 0'); } this._ended = true; if (time === this._time) { if (!process.env.NODEJS_BENCHMARK_ZERO_ALLOWED) throw new Error('insufficient clock precision for short benchmark'); // Avoid dividing by zero this.report(operations && Number.MAX_VALUE, 0n); return; } const elapsed = time - this._time; const rate = operations / (Number(elapsed) / 1e9); this.report(rate, elapsed); } report(rate, elapsed) { sendResult({ name: this.name, conf: this.config, rate, time: nanoSecondsToString(elapsed), type: 'report', }); } } function nanoSecondsToString(bigint) { const str = bigint.toString(); const decimalPointIndex = str.length - 9; if (decimalPointIndex <= 0) { return `0.${'0'.repeat(-decimalPointIndex)}${str}`; } return `${str.slice(0, decimalPointIndex)}.${str.slice(decimalPointIndex)}`; } function formatResult(data) { // Construct configuration string, " A=a, B=b, ..." let conf = ''; for (const key of Object.keys(data.conf)) { conf += ` ${key}=${JSON.stringify(data.conf[key])}`; } let rate = data.rate.toString().split('.'); rate[0] = rate[0].replace(/(\d)(?=(?:\d\d\d)+(?!\d))/g, '$1,'); rate = (rate[1] ? rate.join('.') : rate[0]); return `${data.name}${conf}: ${rate}\n`; } function sendResult(data) { if (process.send) { // If forked, report by process send process.send(data, () => { if (process.env.NODE_RUN_BENCHMARK_FN !== undefined) { // If, for any reason, the process is unable to self close within // a second after completing, forcefully close it. require('timers').setTimeout(() => { process.exit(0); }, 5000).unref(); } }); } else { // Otherwise report by stdout process.stdout.write(formatResult(data)); } } const urls = { long: 'http://nodejs.org:89/docs/latest/api/foo/bar/qua/13949281/0f28b/' + '/5d49/b3020/url.html#test?payload1=true&payload2=false&test=1' + '&benchmark=3&foo=38.38.011.293&bar=1234834910480&test=19299&3992&' + 'key=f5c65e1e98fe07e648249ad41e1cfdb0', short: 'https://nodejs.org/en/blog/', idn: 'http://你好你好.在线', auth: 'https://user:pass@example.com/path?search=1', file: 'file:///foo/bar/test/node.js', ws: 'ws://localhost:9229/f46db715-70df-43ad-a359-7f9949f39868', javascript: 'javascript:alert("node is awesome");', percent: 'https://%E4%BD%A0/foo', dot: 'https://example.org/./a/../b/./c', }; const searchParams = { noencode: 'foo=bar&baz=quux&xyzzy=thud', multicharsep: 'foo=bar&&&&&&&&&&baz=quux&&&&&&&&&&xyzzy=thud', encodefake: 'foo=%©ar&baz=%A©uux&xyzzy=%©ud', encodemany: '%66%6F%6F=bar&%62%61%7A=quux&xyzzy=%74h%75d', encodelast: 'foo=bar&baz=quux&xyzzy=thu%64', multivalue: 'foo=bar&foo=baz&foo=quux&quuy=quuz', multivaluemany: 'foo=bar&foo=baz&foo=quux&quuy=quuz&foo=abc&foo=def&' + 'foo=ghi&foo=jkl&foo=mno&foo=pqr&foo=stu&foo=vwxyz', manypairs: 'a&b&c&d&e&f&g&h&i&j&k&l&m&n&o&p&q&r&s&t&u&v&w&x&y&z', manyblankpairs: '&&&&&&&&&&&&&&&&&&&&&&&&', altspaces: 'foo+bar=baz+quux&xyzzy+thud=quuy+quuz&abc=def+ghi', }; function getUrlData(withBase) { const data = require('../test/fixtures/wpt/url/resources/urltestdata.json'); const result = []; for (const item of data) { if (item.failure || !item.input) continue; if (withBase) { // item.base might be null. It should be converted into `undefined`. result.push([item.input, item.base ?? undefined]); } else if (item.base !== null) { result.push(item.base); } } return result; } /** * Generate an array of data for URL benchmarks to use. * The size of the resulting data set is the original data size * 2 ** `e`. * The 'wpt' type contains about 400 data points when `withBase` is true, * and 200 data points when `withBase` is false. * Other types contain 200 data points with or without base. * @param {string} type Type of the data, 'wpt' or a key of `urls` * @param {number} e The repetition of the data, as exponent of 2 * @param {boolean} withBase Whether to include a base URL * @param {boolean} asUrl Whether to return the results as URL objects * @return {string[] | string[][] | URL[]} */ function bakeUrlData(type, e = 0, withBase = false, asUrl = false) { let result = []; if (type === 'wpt') { result = getUrlData(withBase); } else if (urls[type]) { const input = urls[type]; const item = withBase ? [input, 'about:blank'] : input; // Roughly the size of WPT URL test data result = new Array(200).fill(item); } else { throw new Error(`Unknown url data type ${type}`); } if (typeof e !== 'number') { throw new Error(`e must be a number, received ${e}`); } for (let i = 0; i < e; ++i) { result = result.concat(result); } if (asUrl) { if (withBase) { result = result.map(([input, base]) => new URL(input, base)); } else { result = result.map((input) => new URL(input)); } } return result; } module.exports = { Benchmark, PORT: http_benchmarkers.PORT, bakeUrlData, binding(bindingName) { try { const { internalBinding } = require('internal/test/binding'); return internalBinding(bindingName); } catch { return process.binding(bindingName); } }, buildType: process.features.debug ? 'Debug' : 'Release', createBenchmark(fn, configs, options) { return new Benchmark(fn, configs, options); }, sendResult, searchParams, urlDataTypes: Object.keys(urls).concat(['wpt']), urls, };