'use strict'; // The Console constructor is not actually used to construct the global // console. It's exported for backwards compatibility. const { trace } = internalBinding('trace_events'); const { isStackOverflowError, codes: { ERR_CONSOLE_WRITABLE_STREAM, ERR_INVALID_ARG_TYPE, ERR_INVALID_ARG_VALUE, ERR_INCOMPATIBLE_OPTION_PAIR, }, } = require('internal/errors'); const { previewEntries } = internalBinding('util'); const { Buffer: { isBuffer } } = require('buffer'); const util = require('util'); const { isTypedArray, isSet, isMap, isSetIterator, isMapIterator, } = util.types; const kCounts = Symbol('counts'); const kTraceConsoleCategory = 'node,node.console'; const kTraceCount = 'C'.charCodeAt(0); const kTraceBegin = 'b'.charCodeAt(0); const kTraceEnd = 'e'.charCodeAt(0); const kTraceInstant = 'n'.charCodeAt(0); const { keys: ObjectKeys, values: ObjectValues, } = Object; const hasOwnProperty = Function.call.bind(Object.prototype.hasOwnProperty); const { isArray: ArrayIsArray, from: ArrayFrom, } = Array; // Lazy loaded for startup performance. let cliTable; // Track amount of indentation required via `console.group()`. const kGroupIndent = Symbol('kGroupIndent'); const kFormatForStderr = Symbol('kFormatForStderr'); const kFormatForStdout = Symbol('kFormatForStdout'); const kGetInspectOptions = Symbol('kGetInspectOptions'); const kColorMode = Symbol('kColorMode'); const kIsConsole = Symbol('kIsConsole'); const kWriteToConsole = Symbol('kWriteToConsole'); const kBindProperties = Symbol('kBindProperties'); const kBindStreamsEager = Symbol('kBindStreamsEager'); const kBindStreamsLazy = Symbol('kBindStreamsLazy'); const kUseStdout = Symbol('kUseStdout'); const kUseStderr = Symbol('kUseStderr'); const optionsMap = new WeakMap(); function Console(options /* or: stdout, stderr, ignoreErrors = true */) { // We have to test new.target here to see if this function is called // with new, because we need to define a custom instanceof to accommodate // the global console. if (!new.target) { return new Console(...arguments); } if (!options || typeof options.write === 'function') { options = { stdout: options, stderr: arguments[1], ignoreErrors: arguments[2] }; } const { stdout, stderr = stdout, ignoreErrors = true, colorMode = 'auto', inspectOptions } = options; if (!stdout || typeof stdout.write !== 'function') { throw new ERR_CONSOLE_WRITABLE_STREAM('stdout'); } if (!stderr || typeof stderr.write !== 'function') { throw new ERR_CONSOLE_WRITABLE_STREAM('stderr'); } if (typeof colorMode !== 'boolean' && colorMode !== 'auto') throw new ERR_INVALID_ARG_VALUE('colorMode', colorMode); if (typeof inspectOptions === 'object' && inspectOptions !== null) { if (inspectOptions.colors !== undefined && options.colorMode !== undefined) { throw new ERR_INCOMPATIBLE_OPTION_PAIR( 'inspectOptions.color', 'colorMode'); } optionsMap.set(this, inspectOptions); } else if (inspectOptions !== undefined) { throw new ERR_INVALID_ARG_TYPE('inspectOptions', 'object', inspectOptions); } // Bind the prototype functions to this Console instance var keys = Object.keys(Console.prototype); for (var v = 0; v < keys.length; v++) { var k = keys[v]; // We have to bind the methods grabbed from the instance instead of from // the prototype so that users extending the Console can override them // from the prototype chain of the subclass. this[k] = this[k].bind(this); } this[kBindStreamsEager](stdout, stderr); this[kBindProperties](ignoreErrors, colorMode); } const consolePropAttributes = { writable: true, enumerable: false, configurable: true }; // Fixup global.console instanceof global.console.Console Object.defineProperty(Console, Symbol.hasInstance, { value(instance) { return instance[kIsConsole]; } }); // Eager version for the Console constructor Console.prototype[kBindStreamsEager] = function(stdout, stderr) { Object.defineProperties(this, { '_stdout': { ...consolePropAttributes, value: stdout }, '_stderr': { ...consolePropAttributes, value: stderr } }); }; // Lazily load the stdout and stderr from an object so we don't // create the stdio streams when they are not even accessed Console.prototype[kBindStreamsLazy] = function(object) { let stdout; let stderr; Object.defineProperties(this, { '_stdout': { enumerable: false, configurable: true, get() { if (!stdout) stdout = object.stdout; return stdout; }, set(value) { stdout = value; } }, '_stderr': { enumerable: false, configurable: true, get() { if (!stderr) { stderr = object.stderr; } return stderr; }, set(value) { stderr = value; } } }); }; Console.prototype[kBindProperties] = function(ignoreErrors, colorMode) { Object.defineProperties(this, { '_stdoutErrorHandler': { ...consolePropAttributes, value: createWriteErrorHandler(this, kUseStdout) }, '_stderrErrorHandler': { ...consolePropAttributes, value: createWriteErrorHandler(this, kUseStderr) }, '_ignoreErrors': { ...consolePropAttributes, value: Boolean(ignoreErrors) }, '_times': { ...consolePropAttributes, value: new Map() } }); // TODO(joyeecheung): use consolePropAttributes for these // Corresponds to https://console.spec.whatwg.org/#count-map this[kCounts] = new Map(); this[kColorMode] = colorMode; this[kIsConsole] = true; this[kGroupIndent] = ''; }; // Make a function that can serve as the callback passed to `stream.write()`. function createWriteErrorHandler(instance, streamSymbol) { return (err) => { // This conditional evaluates to true if and only if there was an error // that was not already emitted (which happens when the _write callback // is invoked asynchronously). const stream = streamSymbol === kUseStdout ? instance._stdout : instance._stderr; if (err !== null && !stream._writableState.errorEmitted) { // If there was an error, it will be emitted on `stream` as // an `error` event. Adding a `once` listener will keep that error // from becoming an uncaught exception, but since the handler is // removed after the event, non-console.* writes won't be affected. // we are only adding noop if there is no one else listening for 'error' if (stream.listenerCount('error') === 0) { stream.on('error', noop); } } }; } Console.prototype[kWriteToConsole] = function(streamSymbol, string) { const ignoreErrors = this._ignoreErrors; const groupIndent = this[kGroupIndent]; const useStdout = streamSymbol === kUseStdout; const stream = useStdout ? this._stdout : this._stderr; const errorHandler = useStdout ? this._stdoutErrorHandler : this._stderrErrorHandler; if (groupIndent.length !== 0) { if (string.includes('\n')) { string = string.replace(/\n/g, `\n${groupIndent}`); } string = groupIndent + string; } string += '\n'; if (ignoreErrors === false) return stream.write(string); // There may be an error occurring synchronously (e.g. for files or TTYs // on POSIX systems) or asynchronously (e.g. pipes on POSIX systems), so // handle both situations. try { // Add and later remove a noop error handler to catch synchronous errors. stream.once('error', noop); stream.write(string, errorHandler); } catch (e) { // Console is a debugging utility, so it swallowing errors is not desirable // even in edge cases such as low stack space. if (isStackOverflowError(e)) throw e; // Sorry, there's no proper way to pass along the error here. } finally { stream.removeListener('error', noop); } }; const kColorInspectOptions = { colors: true }; const kNoColorInspectOptions = {}; Console.prototype[kGetInspectOptions] = function(stream) { let color = this[kColorMode]; if (color === 'auto') { color = stream.isTTY && ( typeof stream.getColorDepth === 'function' ? stream.getColorDepth() > 2 : true); } const options = optionsMap.get(this); if (options) { if (options.colors === undefined) { options.colors = color; } return options; } return color ? kColorInspectOptions : kNoColorInspectOptions; }; Console.prototype[kFormatForStdout] = function(args) { const opts = this[kGetInspectOptions](this._stdout); return util.formatWithOptions(opts, ...args); }; Console.prototype[kFormatForStderr] = function(args) { const opts = this[kGetInspectOptions](this._stderr); return util.formatWithOptions(opts, ...args); }; const consoleMethods = { log(...args) { this[kWriteToConsole](kUseStdout, this[kFormatForStdout](args)); }, warn(...args) { this[kWriteToConsole](kUseStderr, this[kFormatForStderr](args)); }, dir(object, options) { this[kWriteToConsole](kUseStdout, util.inspect(object, { customInspect: false, ...this[kGetInspectOptions](this._stdout), ...options })); }, time(label = 'default') { // Coerces everything other than Symbol to a string label = `${label}`; if (this._times.has(label)) { process.emitWarning(`Label '${label}' already exists for console.time()`); return; } trace(kTraceBegin, kTraceConsoleCategory, `time::${label}`, 0); this._times.set(label, process.hrtime()); }, timeEnd(label = 'default') { // Coerces everything other than Symbol to a string label = `${label}`; const hasWarned = timeLogImpl(this, 'timeEnd', label); trace(kTraceEnd, kTraceConsoleCategory, `time::${label}`, 0); if (!hasWarned) { this._times.delete(label); } }, timeLog(label = 'default', ...data) { // Coerces everything other than Symbol to a string label = `${label}`; timeLogImpl(this, 'timeLog', label, data); trace(kTraceInstant, kTraceConsoleCategory, `time::${label}`, 0); }, trace(...args) { const err = { name: 'Trace', message: this[kFormatForStderr](args) }; Error.captureStackTrace(err, trace); this.error(err.stack); }, assert(expression, ...args) { if (!expression) { args[0] = `Assertion failed${args.length === 0 ? '' : `: ${args[0]}`}`; this.warn(...args); // The arguments will be formatted in warn() again } }, // Defined by: https://console.spec.whatwg.org/#clear clear() { // It only makes sense to clear if _stdout is a TTY. // Otherwise, do nothing. if (this._stdout.isTTY) { // The require is here intentionally to avoid readline being // required too early when console is first loaded. const { cursorTo, clearScreenDown } = require('readline'); cursorTo(this._stdout, 0, 0); clearScreenDown(this._stdout); } }, // Defined by: https://console.spec.whatwg.org/#count count(label = 'default') { // Ensures that label is a string, and only things that can be // coerced to strings. e.g. Symbol is not allowed label = `${label}`; const counts = this[kCounts]; let count = counts.get(label); if (count === undefined) count = 1; else count++; counts.set(label, count); trace(kTraceCount, kTraceConsoleCategory, `count::${label}`, 0, count); this.log(`${label}: ${count}`); }, // Defined by: https://console.spec.whatwg.org/#countreset countReset(label = 'default') { const counts = this[kCounts]; if (!counts.has(label)) { process.emitWarning(`Count for '${label}' does not exist`); return; } trace(kTraceCount, kTraceConsoleCategory, `count::${label}`, 0, 0); counts.delete(`${label}`); }, group(...data) { if (data.length > 0) { this.log(...data); } this[kGroupIndent] += ' '; }, groupEnd() { this[kGroupIndent] = this[kGroupIndent].slice(0, this[kGroupIndent].length - 2); }, // https://console.spec.whatwg.org/#table table(tabularData, properties) { if (properties !== undefined && !ArrayIsArray(properties)) throw new ERR_INVALID_ARG_TYPE('properties', 'Array', properties); if (tabularData === null || typeof tabularData !== 'object') return this.log(tabularData); if (cliTable === undefined) cliTable = require('internal/cli_table'); const final = (k, v) => this.log(cliTable(k, v)); const inspect = (v) => { const depth = v !== null && typeof v === 'object' && !isArray(v) && ObjectKeys(v).length > 2 ? -1 : 0; const opt = { depth, maxArrayLength: 3, ...this[kGetInspectOptions](this._stdout) }; return util.inspect(v, opt); }; const getIndexArray = (length) => ArrayFrom( { length }, (_, i) => inspect(i)); const mapIter = isMapIterator(tabularData); let isKeyValue = false; let i = 0; if (mapIter) { const res = previewEntries(tabularData, true); tabularData = res[0]; isKeyValue = res[1]; } if (isKeyValue || isMap(tabularData)) { const keys = []; const values = []; let length = 0; if (mapIter) { for (; i < tabularData.length / 2; ++i) { keys.push(inspect(tabularData[i * 2])); values.push(inspect(tabularData[i * 2 + 1])); length++; } } else { for (const [k, v] of tabularData) { keys.push(inspect(k)); values.push(inspect(v)); length++; } } return final([ iterKey, keyKey, valuesKey ], [ getIndexArray(length), keys, values, ]); } const setIter = isSetIterator(tabularData); if (setIter) tabularData = previewEntries(tabularData); const setlike = setIter || (mapIter && !isKeyValue) || isSet(tabularData); if (setlike) { const values = []; let length = 0; for (const v of tabularData) { values.push(inspect(v)); length++; } return final([setlike ? iterKey : indexKey, valuesKey], [ getIndexArray(length), values, ]); } const map = {}; let hasPrimitives = false; const valuesKeyArray = []; const indexKeyArray = ObjectKeys(tabularData); for (; i < indexKeyArray.length; i++) { const item = tabularData[indexKeyArray[i]]; const primitive = item === null || (typeof item !== 'function' && typeof item !== 'object'); if (properties === undefined && primitive) { hasPrimitives = true; valuesKeyArray[i] = inspect(item); } else { const keys = properties || ObjectKeys(item); for (const key of keys) { if (map[key] === undefined) map[key] = []; if ((primitive && properties) || !hasOwnProperty(item, key)) map[key][i] = ''; else map[key][i] = item == null ? item : inspect(item[key]); } } } const keys = ObjectKeys(map); const values = ObjectValues(map); if (hasPrimitives) { keys.push(valuesKey); values.push(valuesKeyArray); } keys.unshift(indexKey); values.unshift(indexKeyArray); return final(keys, values); }, }; // Returns true if label was not found function timeLogImpl(self, name, label, data) { const time = self._times.get(label); if (!time) { process.emitWarning(`No such label '${label}' for console.${name}()`); return true; } const duration = process.hrtime(time); const ms = duration[0] * 1000 + duration[1] / 1e6; if (data === undefined) { self.log('%s: %sms', label, ms.toFixed(3)); } else { self.log('%s: %sms', label, ms.toFixed(3), ...data); } return false; } const keyKey = 'Key'; const valuesKey = 'Values'; const indexKey = '(index)'; const iterKey = '(iteration index)'; const isArray = (v) => ArrayIsArray(v) || isTypedArray(v) || isBuffer(v); function noop() {} for (const method of Reflect.ownKeys(consoleMethods)) Console.prototype[method] = consoleMethods[method]; Console.prototype.debug = Console.prototype.log; Console.prototype.info = Console.prototype.log; Console.prototype.dirxml = Console.prototype.log; Console.prototype.error = Console.prototype.warn; Console.prototype.groupCollapsed = Console.prototype.group; module.exports = { Console, kBindStreamsLazy, kBindProperties };