// Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. 'use strict'; const { ArrayIsArray, Boolean, Error, FunctionPrototypeCall, NumberIsFinite, ObjectAssign, ObjectKeys, ObjectSetPrototypeOf, ReflectApply, RegExpPrototypeExec, String, StringPrototypeCharCodeAt, StringPrototypeIncludes, StringPrototypeIndexOf, StringPrototypeToUpperCase, Symbol, TypedArrayPrototypeSlice, } = primordials; const net = require('net'); const assert = require('internal/assert'); const { kEmptyObject, once, } = require('internal/util'); const { _checkIsHttpToken: checkIsHttpToken, freeParser, parsers, HTTPParser, isLenient, prepareError, } = require('_http_common'); const { kUniqueHeaders, parseUniqueHeadersOption, OutgoingMessage, } = require('_http_outgoing'); const Agent = require('_http_agent'); const { Buffer } = require('buffer'); const { defaultTriggerAsyncIdScope } = require('internal/async_hooks'); const { URL, urlToHttpOptions, isURL } = require('internal/url'); const { kOutHeaders, kNeedDrain, isTraceHTTPEnabled, traceBegin, traceEnd, getNextTraceEventId, } = require('internal/http'); const { ConnResetException, codes } = require('internal/errors'); const { ERR_HTTP_HEADERS_SENT, ERR_INVALID_ARG_TYPE, ERR_INVALID_HTTP_TOKEN, ERR_INVALID_PROTOCOL, ERR_UNESCAPED_CHARACTERS, } = codes; const { validateInteger, validateBoolean, } = require('internal/validators'); const { getTimerDuration } = require('internal/timers'); const { hasObserver, startPerf, stopPerf, } = require('internal/perf/observe'); const kClientRequestStatistics = Symbol('ClientRequestStatistics'); const dc = require('diagnostics_channel'); const onClientRequestStartChannel = dc.channel('http.client.request.start'); const onClientResponseFinishChannel = dc.channel('http.client.response.finish'); const { addAbortSignal, finished } = require('stream'); let debug = require('internal/util/debuglog').debuglog('http', (fn) => { debug = fn; }); const INVALID_PATH_REGEX = /[^\u0021-\u00ff]/; const kError = Symbol('kError'); const kLenientAll = HTTPParser.kLenientAll | 0; const kLenientNone = HTTPParser.kLenientNone | 0; const HTTP_CLIENT_TRACE_EVENT_NAME = 'http.client.request'; function validateHost(host, name) { if (host !== null && host !== undefined && typeof host !== 'string') { throw new ERR_INVALID_ARG_TYPE(`options.${name}`, ['string', 'undefined', 'null'], host); } return host; } class HTTPClientAsyncResource { constructor(type, req) { this.type = type; this.req = req; } } function ClientRequest(input, options, cb) { FunctionPrototypeCall(OutgoingMessage, this); if (typeof input === 'string') { const urlStr = input; input = urlToHttpOptions(new URL(urlStr)); } else if (isURL(input)) { // url.URL instance input = urlToHttpOptions(input); } else { cb = options; options = input; input = null; } if (typeof options === 'function') { cb = options; options = input || kEmptyObject; } else { options = ObjectAssign(input || {}, options); } let agent = options.agent; const defaultAgent = options._defaultAgent || Agent.globalAgent; if (agent === false) { agent = new defaultAgent.constructor(); } else if (agent === null || agent === undefined) { if (typeof options.createConnection !== 'function') { agent = defaultAgent; } // Explicitly pass through this statement as agent will not be used // when createConnection is provided. } else if (typeof agent.addRequest !== 'function') { throw new ERR_INVALID_ARG_TYPE('options.agent', ['Agent-like Object', 'undefined', 'false'], agent); } this.agent = agent; const protocol = options.protocol || defaultAgent.protocol; let expectedProtocol = defaultAgent.protocol; if (this.agent && this.agent.protocol) expectedProtocol = this.agent.protocol; if (options.path) { const path = String(options.path); if (RegExpPrototypeExec(INVALID_PATH_REGEX, path) !== null) { debug('Path contains unescaped characters: "%s"', path); throw new ERR_UNESCAPED_CHARACTERS('Request path'); } } if (protocol !== expectedProtocol) { throw new ERR_INVALID_PROTOCOL(protocol, expectedProtocol); } const defaultPort = options.defaultPort || (this.agent && this.agent.defaultPort); const optsWithoutSignal = { __proto__: null, ...options }; const port = optsWithoutSignal.port = options.port || defaultPort || 80; const host = optsWithoutSignal.host = validateHost(options.hostname, 'hostname') || validateHost(options.host, 'host') || 'localhost'; const setHost = (options.setHost === undefined || Boolean(options.setHost)); this.socketPath = options.socketPath; if (options.timeout !== undefined) this.timeout = getTimerDuration(options.timeout, 'timeout'); const signal = options.signal; if (signal) { addAbortSignal(signal, this); delete optsWithoutSignal.signal; } let method = options.method; const methodIsString = (typeof method === 'string'); if (method !== null && method !== undefined && !methodIsString) { throw new ERR_INVALID_ARG_TYPE('options.method', 'string', method); } if (methodIsString && method) { if (!checkIsHttpToken(method)) { throw new ERR_INVALID_HTTP_TOKEN('Method', method); } method = this.method = StringPrototypeToUpperCase(method); } else { method = this.method = 'GET'; } const maxHeaderSize = options.maxHeaderSize; if (maxHeaderSize !== undefined) validateInteger(maxHeaderSize, 'maxHeaderSize', 0); this.maxHeaderSize = maxHeaderSize; const insecureHTTPParser = options.insecureHTTPParser; if (insecureHTTPParser !== undefined) { validateBoolean(insecureHTTPParser, 'options.insecureHTTPParser'); } this.insecureHTTPParser = insecureHTTPParser; if (options.joinDuplicateHeaders !== undefined) { validateBoolean(options.joinDuplicateHeaders, 'options.joinDuplicateHeaders'); } this.joinDuplicateHeaders = options.joinDuplicateHeaders; this.path = options.path || '/'; if (cb) { this.once('response', cb); } if (method === 'GET' || method === 'HEAD' || method === 'DELETE' || method === 'OPTIONS' || method === 'TRACE' || method === 'CONNECT') { this.useChunkedEncodingByDefault = false; } else { this.useChunkedEncodingByDefault = true; } this._ended = false; this.res = null; this.aborted = false; this.timeoutCb = null; this.upgradeOrConnect = false; this.parser = null; this.maxHeadersCount = null; this.reusedSocket = false; this.host = host; this.protocol = protocol; if (this.agent) { // If there is an agent we should default to Connection:keep-alive, // but only if the Agent will actually reuse the connection! // If it's not a keepAlive agent, and the maxSockets==Infinity, then // there's never a case where this socket will actually be reused if (!this.agent.keepAlive && !NumberIsFinite(this.agent.maxSockets)) { this._last = true; this.shouldKeepAlive = false; } else { this._last = false; this.shouldKeepAlive = true; } } const headersArray = ArrayIsArray(options.headers); if (!headersArray) { if (options.headers) { const keys = ObjectKeys(options.headers); // Retain for(;;) loop for performance reasons // Refs: https://github.com/nodejs/node/pull/30958 for (let i = 0; i < keys.length; i++) { const key = keys[i]; this.setHeader(key, options.headers[key]); } } if (host && !this.getHeader('host') && setHost) { let hostHeader = host; // For the Host header, ensure that IPv6 addresses are enclosed // in square brackets, as defined by URI formatting // https://tools.ietf.org/html/rfc3986#section-3.2.2 const posColon = StringPrototypeIndexOf(hostHeader, ':'); if (posColon !== -1 && StringPrototypeIncludes(hostHeader, ':', posColon + 1) && StringPrototypeCharCodeAt(hostHeader, 0) !== 91/* '[' */) { hostHeader = `[${hostHeader}]`; } if (port && +port !== defaultPort) { hostHeader += ':' + port; } this.setHeader('Host', hostHeader); } if (options.auth && !this.getHeader('Authorization')) { this.setHeader('Authorization', 'Basic ' + Buffer.from(options.auth).toString('base64')); } if (this.getHeader('expect')) { if (this._header) { throw new ERR_HTTP_HEADERS_SENT('render'); } this._storeHeader(this.method + ' ' + this.path + ' HTTP/1.1\r\n', this[kOutHeaders]); } } else { this._storeHeader(this.method + ' ' + this.path + ' HTTP/1.1\r\n', options.headers); } this[kUniqueHeaders] = parseUniqueHeadersOption(options.uniqueHeaders); // initiate connection if (this.agent) { this.agent.addRequest(this, optsWithoutSignal); } else { // No agent, default to Connection:close. this._last = true; this.shouldKeepAlive = false; if (typeof optsWithoutSignal.createConnection === 'function') { const oncreate = once((err, socket) => { if (err) { process.nextTick(() => this.emit('error', err)); } else { this.onSocket(socket); } }); try { const newSocket = optsWithoutSignal.createConnection(optsWithoutSignal, oncreate); if (newSocket) { oncreate(null, newSocket); } } catch (err) { oncreate(err); } } else { debug('CLIENT use net.createConnection', optsWithoutSignal); this.onSocket(net.createConnection(optsWithoutSignal)); } } } ObjectSetPrototypeOf(ClientRequest.prototype, OutgoingMessage.prototype); ObjectSetPrototypeOf(ClientRequest, OutgoingMessage); ClientRequest.prototype._finish = function _finish() { FunctionPrototypeCall(OutgoingMessage.prototype._finish, this); if (hasObserver('http')) { startPerf(this, kClientRequestStatistics, { type: 'http', name: 'HttpClient', detail: { req: { method: this.method, url: `${this.protocol}//${this.host}${this.path}`, headers: typeof this.getHeaders === 'function' ? this.getHeaders() : {}, }, }, }); } if (onClientRequestStartChannel.hasSubscribers) { onClientRequestStartChannel.publish({ request: this, }); } if (isTraceHTTPEnabled()) { this._traceEventId = getNextTraceEventId(); traceBegin(HTTP_CLIENT_TRACE_EVENT_NAME, this._traceEventId); } }; ClientRequest.prototype._implicitHeader = function _implicitHeader() { if (this._header) { throw new ERR_HTTP_HEADERS_SENT('render'); } this._storeHeader(this.method + ' ' + this.path + ' HTTP/1.1\r\n', this[kOutHeaders]); }; ClientRequest.prototype.abort = function abort() { if (this.aborted) { return; } this.aborted = true; process.nextTick(emitAbortNT, this); this.destroy(); }; ClientRequest.prototype.destroy = function destroy(err) { if (this.destroyed) { return this; } this.destroyed = true; // If we're aborting, we don't care about any more response data. if (this.res) { this.res._dump(); } this[kError] = err; this.socket?.destroy(err); return this; }; function emitAbortNT(req) { req.emit('abort'); } function ondrain() { const msg = this._httpMessage; if (msg && !msg.finished && msg[kNeedDrain]) { msg[kNeedDrain] = false; msg.emit('drain'); } } function socketCloseListener() { const socket = this; const req = socket._httpMessage; debug('HTTP socket close'); // NOTE: It's important to get parser here, because it could be freed by // the `socketOnData`. const parser = socket.parser; const res = req.res; req.destroyed = true; if (res) { // Socket closed before we emitted 'end' below. if (!res.complete) { res.destroy(new ConnResetException('aborted')); } req._closed = true; req.emit('close'); if (!res.aborted && res.readable) { res.push(null); } } else { if (!req.socket._hadError) { // This socket error fired before we started to // receive a response. The error needs to // fire on the request. req.socket._hadError = true; req.emit('error', new ConnResetException('socket hang up')); } req._closed = true; req.emit('close'); } // Too bad. That output wasn't getting written. // This is pretty terrible that it doesn't raise an error. // Fixed better in v0.10 if (req.outputData) req.outputData.length = 0; if (parser) { parser.finish(); freeParser(parser, req, socket); } } function socketErrorListener(err) { const socket = this; const req = socket._httpMessage; debug('SOCKET ERROR:', err.message, err.stack); if (req) { // For Safety. Some additional errors might fire later on // and we need to make sure we don't double-fire the error event. req.socket._hadError = true; req.emit('error', err); } const parser = socket.parser; if (parser) { parser.finish(); freeParser(parser, req, socket); } // Ensure that no further data will come out of the socket socket.removeListener('data', socketOnData); socket.removeListener('end', socketOnEnd); socket.destroy(); } function socketOnEnd() { const socket = this; const req = this._httpMessage; const parser = this.parser; if (!req.res && !req.socket._hadError) { // If we don't have a response then we know that the socket // ended prematurely and we need to emit an error on the request. req.socket._hadError = true; req.emit('error', new ConnResetException('socket hang up')); } if (parser) { parser.finish(); freeParser(parser, req, socket); } socket.destroy(); } function socketOnData(d) { const socket = this; const req = this._httpMessage; const parser = this.parser; assert(parser && parser.socket === socket); const ret = parser.execute(d); if (ret instanceof Error) { prepareError(ret, parser, d); debug('parse error', ret); freeParser(parser, req, socket); socket.removeListener('data', socketOnData); socket.removeListener('end', socketOnEnd); socket.destroy(); req.socket._hadError = true; req.emit('error', ret); } else if (parser.incoming && parser.incoming.upgrade) { // Upgrade (if status code 101) or CONNECT const bytesParsed = ret; const res = parser.incoming; req.res = res; socket.removeListener('data', socketOnData); socket.removeListener('end', socketOnEnd); socket.removeListener('drain', ondrain); if (req.timeoutCb) socket.removeListener('timeout', req.timeoutCb); socket.removeListener('timeout', responseOnTimeout); parser.finish(); freeParser(parser, req, socket); const bodyHead = TypedArrayPrototypeSlice(d, bytesParsed, d.length); const eventName = req.method === 'CONNECT' ? 'connect' : 'upgrade'; if (req.listenerCount(eventName) > 0) { req.upgradeOrConnect = true; // detach the socket socket.emit('agentRemove'); socket.removeListener('close', socketCloseListener); socket.removeListener('error', socketErrorListener); socket._httpMessage = null; socket.readableFlowing = null; req.emit(eventName, res, socket, bodyHead); req.destroyed = true; req._closed = true; req.emit('close'); } else { // Requested Upgrade or used CONNECT method, but have no handler. socket.destroy(); } } else if (parser.incoming && parser.incoming.complete && // When the status code is informational (100, 102-199), // the server will send a final response after this client // sends a request body, so we must not free the parser. // 101 (Switching Protocols) and all other status codes // should be processed normally. !statusIsInformational(parser.incoming.statusCode)) { socket.removeListener('data', socketOnData); socket.removeListener('end', socketOnEnd); socket.removeListener('drain', ondrain); freeParser(parser, req, socket); } } function statusIsInformational(status) { // 100 (Continue) RFC7231 Section 6.2.1 // 102 (Processing) RFC2518 // 103 (Early Hints) RFC8297 // 104-199 (Unassigned) return (status < 200 && status >= 100 && status !== 101); } // client function parserOnIncomingClient(res, shouldKeepAlive) { const socket = this.socket; const req = socket._httpMessage; debug('AGENT incoming response!'); if (req.res) { // We already have a response object, this means the server // sent a double response. socket.destroy(); return 0; // No special treatment. } req.res = res; // Skip body and treat as Upgrade. if (res.upgrade) return 2; // Responses to CONNECT request is handled as Upgrade. const method = req.method; if (method === 'CONNECT') { res.upgrade = true; return 2; // Skip body and treat as Upgrade. } if (statusIsInformational(res.statusCode)) { // Restart the parser, as this is a 1xx informational message. req.res = null; // Clear res so that we don't hit double-responses. // Maintain compatibility by sending 100-specific events if (res.statusCode === 100) { req.emit('continue'); } // Send information events to all 1xx responses except 101 Upgrade. req.emit('information', { statusCode: res.statusCode, statusMessage: res.statusMessage, httpVersion: res.httpVersion, httpVersionMajor: res.httpVersionMajor, httpVersionMinor: res.httpVersionMinor, headers: res.headers, rawHeaders: res.rawHeaders, }); return 1; // Skip body but don't treat as Upgrade. } if (req.shouldKeepAlive && !shouldKeepAlive && !req.upgradeOrConnect) { // Server MUST respond with Connection:keep-alive for us to enable it. // If we've been upgraded (via WebSockets) we also shouldn't try to // keep the connection open. req.shouldKeepAlive = false; } if (req[kClientRequestStatistics] && hasObserver('http')) { stopPerf(req, kClientRequestStatistics, { detail: { res: { statusCode: res.statusCode, statusMessage: res.statusMessage, headers: res.headers, }, }, }); } if (onClientResponseFinishChannel.hasSubscribers) { onClientResponseFinishChannel.publish({ request: req, response: res, }); } if (isTraceHTTPEnabled() && typeof req._traceEventId === 'number') { traceEnd(HTTP_CLIENT_TRACE_EVENT_NAME, req._traceEventId, { path: req.path, statusCode: res.statusCode, }); } req.res = res; res.req = req; // Add our listener first, so that we guarantee socket cleanup res.on('end', responseOnEnd); req.on('finish', requestOnFinish); socket.on('timeout', responseOnTimeout); // If the user did not listen for the 'response' event, then they // can't possibly read the data, so we ._dump() it into the void // so that the socket doesn't hang there in a paused state. if (req.aborted || !req.emit('response', res)) res._dump(); if (method === 'HEAD') return 1; // Skip body but don't treat as Upgrade. if (res.statusCode === 304) { res.complete = true; return 1; // Skip body as there won't be any } return 0; // No special treatment. } // client function responseKeepAlive(req) { const socket = req.socket; debug('AGENT socket keep-alive'); if (req.timeoutCb) { socket.setTimeout(0, req.timeoutCb); req.timeoutCb = null; } socket.removeListener('close', socketCloseListener); socket.removeListener('error', socketErrorListener); socket.removeListener('data', socketOnData); socket.removeListener('end', socketOnEnd); // TODO(ronag): Between here and emitFreeNT the socket // has no 'error' handler. // There are cases where _handle === null. Avoid those. Passing undefined to // nextTick() will call getDefaultTriggerAsyncId() to retrieve the id. const asyncId = socket._handle ? socket._handle.getAsyncId() : undefined; // Mark this socket as available, AFTER user-added end // handlers have a chance to run. defaultTriggerAsyncIdScope(asyncId, process.nextTick, emitFreeNT, req); req.destroyed = true; if (req.res) { // Detach socket from IncomingMessage to avoid destroying the freed // socket in IncomingMessage.destroy(). req.res.socket = null; } } function responseOnEnd() { const req = this.req; const socket = req.socket; if (socket) { if (req.timeoutCb) socket.removeListener('timeout', emitRequestTimeout); socket.removeListener('timeout', responseOnTimeout); } req._ended = true; if (!req.shouldKeepAlive) { if (socket.writable) { debug('AGENT socket.destroySoon()'); if (typeof socket.destroySoon === 'function') socket.destroySoon(); else socket.end(); } assert(!socket.writable); } else if (req.writableFinished && !this.aborted) { assert(req.finished); // We can assume `req.finished` means all data has been written since: // - `'responseOnEnd'` means we have been assigned a socket. // - when we have a socket we write directly to it without buffering. // - `req.finished` means `end()` has been called and no further data. // can be written // In addition, `req.writableFinished` means all data written has been // accepted by the kernel. (i.e. the `req.socket` is drained).Without // this constraint, we may assign a non drained socket to a request. responseKeepAlive(req); } } function responseOnTimeout() { const req = this._httpMessage; if (!req) return; const res = req.res; if (!res) return; res.emit('timeout'); } // This function is necessary in the case where we receive the entire response // from the server before we finish sending out the request. function requestOnFinish() { const req = this; if (req.shouldKeepAlive && req._ended) responseKeepAlive(req); } function emitFreeNT(req) { req._closed = true; req.emit('close'); if (req.socket) { req.socket.emit('free'); } } function tickOnSocket(req, socket) { const parser = parsers.alloc(); req.socket = socket; const lenient = req.insecureHTTPParser === undefined ? isLenient() : req.insecureHTTPParser; parser.initialize(HTTPParser.RESPONSE, new HTTPClientAsyncResource('HTTPINCOMINGMESSAGE', req), req.maxHeaderSize || 0, lenient ? kLenientAll : kLenientNone); parser.socket = socket; parser.outgoing = req; req.parser = parser; socket.parser = parser; socket._httpMessage = req; // Propagate headers limit from request object to parser if (typeof req.maxHeadersCount === 'number') { parser.maxHeaderPairs = req.maxHeadersCount << 1; } parser.joinDuplicateHeaders = req.joinDuplicateHeaders; parser.onIncoming = parserOnIncomingClient; socket.on('error', socketErrorListener); socket.on('data', socketOnData); socket.on('end', socketOnEnd); socket.on('close', socketCloseListener); socket.on('drain', ondrain); if ( req.timeout !== undefined || (req.agent && req.agent.options && req.agent.options.timeout) ) { listenSocketTimeout(req); } req.emit('socket', socket); } function emitRequestTimeout() { const req = this._httpMessage; if (req) { req.emit('timeout'); } } function listenSocketTimeout(req) { if (req.timeoutCb) { return; } // Set timeoutCb so it will get cleaned up on request end. req.timeoutCb = emitRequestTimeout; // Delegate socket timeout event. if (req.socket) { req.socket.once('timeout', emitRequestTimeout); } else { req.on('socket', (socket) => { socket.once('timeout', emitRequestTimeout); }); } } ClientRequest.prototype.onSocket = function onSocket(socket, err) { // TODO(ronag): Between here and onSocketNT the socket // has no 'error' handler. process.nextTick(onSocketNT, this, socket, err); }; function onSocketNT(req, socket, err) { if (req.destroyed || err) { req.destroyed = true; function _destroy(req, err) { if (!req.aborted && !err) { err = new ConnResetException('socket hang up'); } if (err) { req.emit('error', err); } req._closed = true; req.emit('close'); } if (socket) { if (!err && req.agent && !socket.destroyed) { socket.emit('free'); } else { finished(socket.destroy(err || req[kError]), (er) => { if (er?.code === 'ERR_STREAM_PREMATURE_CLOSE') { er = null; } _destroy(req, er || err); }); return; } } _destroy(req, err || req[kError]); } else { tickOnSocket(req, socket); req._flush(); } } ClientRequest.prototype._deferToConnect = _deferToConnect; function _deferToConnect(method, arguments_) { // This function is for calls that need to happen once the socket is // assigned to this request and writable. It's an important promisy // thing for all the socket calls that happen either now // (when a socket is assigned) or in the future (when a socket gets // assigned out of the pool and is eventually writable). const callSocketMethod = () => { if (method) ReflectApply(this.socket[method], this.socket, arguments_); }; const onSocket = () => { if (this.socket.writable) { callSocketMethod(); } else { this.socket.once('connect', callSocketMethod); } }; if (!this.socket) { this.once('socket', onSocket); } else { onSocket(); } } ClientRequest.prototype.setTimeout = function setTimeout(msecs, callback) { if (this._ended) { return this; } listenSocketTimeout(this); msecs = getTimerDuration(msecs, 'msecs'); if (callback) this.once('timeout', callback); if (this.socket) { setSocketTimeout(this.socket, msecs); } else { this.once('socket', (sock) => setSocketTimeout(sock, msecs)); } return this; }; function setSocketTimeout(sock, msecs) { if (sock.connecting) { sock.once('connect', function() { sock.setTimeout(msecs); }); } else { sock.setTimeout(msecs); } } ClientRequest.prototype.setNoDelay = function setNoDelay(noDelay) { this._deferToConnect('setNoDelay', [noDelay]); }; ClientRequest.prototype.setSocketKeepAlive = function setSocketKeepAlive(enable, initialDelay) { this._deferToConnect('setKeepAlive', [enable, initialDelay]); }; ClientRequest.prototype.clearTimeout = function clearTimeout(cb) { this.setTimeout(0, cb); }; module.exports = { ClientRequest, };