// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. // TODO(petamoriken): enable prefer-primordials for node polyfills // deno-lint-ignore-file prefer-primordials import { core, primordials } from "ext:core/mod.js"; import { op_node_http_await_response, op_node_http_fetch_response_upgrade, op_node_http_request_with_conn, op_node_http_wait_for_connection, } from "ext:core/ops"; import { TextEncoder } from "ext:deno_web/08_text_encoding.js"; import { setTimeout } from "ext:deno_web/02_timers.js"; import { _normalizeArgs, createConnection as netCreateConnection, ListenOptions, Socket, } from "node:net"; import { Buffer } from "node:buffer"; import { ERR_SERVER_NOT_RUNNING } from "ext:deno_node/internal/errors.ts"; import { EventEmitter } from "node:events"; import { nextTick } from "ext:deno_node/_next_tick.ts"; import { validateBoolean, validateInteger, validateObject, validatePort, } from "ext:deno_node/internal/validators.mjs"; import { addAbortSignal, Duplex as NodeDuplex, finished, Readable as NodeReadable, Writable as NodeWritable, } from "node:stream"; import { kUniqueHeaders, OutgoingMessage, parseUniqueHeadersOption, validateHeaderName, validateHeaderValue, } from "node:_http_outgoing"; import { ok as assert } from "node:assert"; import { kOutHeaders } from "ext:deno_node/internal/http.ts"; import { _checkIsHttpToken as checkIsHttpToken } from "node:_http_common"; import { Agent, globalAgent } from "node:_http_agent"; import { urlToHttpOptions } from "ext:deno_node/internal/url.ts"; import { kEmptyObject, once } from "ext:deno_node/internal/util.mjs"; import { constants, TCP } from "ext:deno_node/internal_binding/tcp_wrap.ts"; import { notImplemented } from "ext:deno_node/_utils.ts"; import { connResetException, ERR_HTTP_HEADERS_SENT, ERR_HTTP_SOCKET_ASSIGNED, ERR_INVALID_ARG_TYPE, ERR_INVALID_HTTP_TOKEN, ERR_INVALID_PROTOCOL, ERR_UNESCAPED_CHARACTERS, } from "ext:deno_node/internal/errors.ts"; import { getTimerDuration } from "ext:deno_node/internal/timers.mjs"; import { serve, upgradeHttpRaw } from "ext:deno_http/00_serve.ts"; import { headersEntries } from "ext:deno_fetch/20_headers.js"; import { resourceForReadableStream } from "ext:deno_web/06_streams.js"; import { TcpConn } from "ext:deno_net/01_net.js"; import { STATUS_CODES } from "node:_http_server"; import { methods as METHODS } from "node:_http_common"; const { ArrayIsArray } = primordials; type Chunk = string | Buffer | Uint8Array; const ENCODER = new TextEncoder(); export interface RequestOptions { agent?: Agent; auth?: string; createConnection?: () => unknown; defaultPort?: number; family?: number; headers?: Record; hints?: number; host?: string; hostname?: string; insecureHTTPParser?: boolean; localAddress?: string; localPort?: number; lookup?: () => void; maxHeaderSize?: number; method?: string; path?: string; port?: number; protocol?: string; setHost?: boolean; socketPath?: string; timeout?: number; signal?: AbortSignal; href?: string; } 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; } const INVALID_PATH_REGEX = /[^\u0021-\u00ff]/; const kError = Symbol("kError"); class FakeSocket extends EventEmitter { constructor( opts: { encrypted?: boolean | undefined; remotePort?: number | undefined; remoteAddress?: string | undefined; reader?: ReadableStreamDefaultReader | undefined; } = {}, ) { super(); this.remoteAddress = opts.remoteAddress; this.remotePort = opts.remotePort; this.encrypted = opts.encrypted; this.reader = opts.reader; this.writable = true; this.readable = true; } setKeepAlive() {} end() {} destroy() {} setTimeout(callback, timeout = 0, ...args) { setTimeout(callback, timeout, args); } } function emitErrorEvent(request, error) { request.emit("error", error); } /** ClientRequest represents the http(s) request from the client */ class ClientRequest extends OutgoingMessage { defaultProtocol = "http:"; aborted = false; destroyed = false; agent: Agent; method: string; maxHeaderSize: number | undefined; insecureHTTPParser: boolean; useChunkedEncodingByDefault: boolean; path: string; _req: { requestRid: number; cancelHandleRid: number | null } | undefined; constructor( input: string | URL, options?: RequestOptions, cb?: (res: IncomingMessageForClient) => void, ) { super(); if (typeof input === "string") { const urlStr = input; input = urlToHttpOptions(new URL(urlStr)); } else if (input instanceof URL) { // url.URL instance input = urlToHttpOptions(input); } else { cb = options; options = input; input = null; } if (typeof options === "function") { cb = options; options = input || kEmptyObject; } else { options = Object.assign(input || {}, options); } let agent = options!.agent; const defaultAgent = options!._defaultAgent || 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?.protocol) { expectedProtocol = this.agent!.protocol; } if (options!.path) { const path = String(options.path); if (INVALID_PATH_REGEX.exec(path) !== null) { throw new ERR_UNESCAPED_CHARACTERS("Request path"); } } if (protocol !== expectedProtocol) { throw new ERR_INVALID_PROTOCOL(protocol, expectedProtocol); } const defaultPort = options!.defaultPort || this.agent?.defaultPort; const port = options!.port = options!.port || defaultPort || 80; const host = options!.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.setTimeout(options.timeout); } const signal = options!.signal; if (signal) { addAbortSignal(signal, this); } 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 = method.toUpperCase(); } 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.upgradeOrConnect = false; this.parser = null; this.maxHeadersCount = null; this.reusedSocket = false; this.host = host; this.protocol = protocol; this.port = port; this.hash = options.hash; this.search = options.search; this.auth = options.auth; 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 && !Number.isFinite(this.agent.maxSockets)) { this._last = true; this.shouldKeepAlive = false; } else { this._last = false; this.shouldKeepAlive = true; } } const headersArray = Array.isArray(options!.headers); if (!headersArray) { if (options!.headers) { const keys = Object.keys(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 = hostHeader.indexOf(":"); if ( posColon !== -1 && hostHeader.includes(":", posColon + 1) && hostHeader.charCodeAt(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") && this._header) { throw new ERR_HTTP_HEADERS_SENT("render"); } } else { for (const [key, val] of options!.headers) { this.setHeader(key, val); } } this[kUniqueHeaders] = parseUniqueHeadersOption(options!.uniqueHeaders); let optsWithoutSignal = options as RequestOptions; if (optsWithoutSignal.signal) { optsWithoutSignal = Object.assign({}, options); delete optsWithoutSignal.signal; } if (options!.lookup) { notImplemented("ClientRequest.options.lookup"); } 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) { 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(netCreateConnection(optsWithoutSignal)); } } } _writeHeader() { const url = this._createUrlStrFromOptions(); const headers = []; for (const key in this[kOutHeaders]) { if (Object.hasOwn(this[kOutHeaders], key)) { const entry = this[kOutHeaders][key]; this._processHeader(headers, entry[0], entry[1], false); } } if ( this.method === "POST" || this.method === "PATCH" || this.method === "PUT" ) { const { readable, writable } = new TransformStream({ cancel: (e) => { this._requestSendError = e; }, }); this._bodyWritable = writable; this._bodyWriter = writable.getWriter(); this._bodyWriteRid = resourceForReadableStream(readable); } (async () => { try { const [rid, connRid] = await op_node_http_request_with_conn( this.method, url, headers, this._bodyWriteRid, this.socket.rid, ); // Emit request ready to let the request body to be written. await op_node_http_wait_for_connection(connRid); this.emit("requestReady"); const res = await op_node_http_await_response(rid); const incoming = new IncomingMessageForClient(this.socket); incoming.req = this; this.res = incoming; // TODO(@crowlKats): // incoming.httpVersionMajor = versionMajor; // incoming.httpVersionMinor = versionMinor; // incoming.httpVersion = `${versionMajor}.${versionMinor}`; // incoming.joinDuplicateHeaders = socket?.server?.joinDuplicateHeaders || // parser.joinDuplicateHeaders; incoming.url = res.url; incoming.statusCode = res.status; incoming.statusMessage = res.statusText; incoming.upgrade = null; for (const [key, _value] of res.headers) { if (key.toLowerCase() === "upgrade") { incoming.upgrade = true; break; } } incoming._addHeaderLines( res.headers, Object.entries(res.headers).flat().length, ); if (incoming.upgrade) { if (this.listenerCount("upgrade") === 0) { // No listeners, so we got nothing to do // destroy? return; } if (this.method === "CONNECT") { throw new Error("not implemented CONNECT"); } const upgradeRid = await op_node_http_fetch_response_upgrade( res.responseRid, ); assert(typeof res.remoteAddrIp !== "undefined"); assert(typeof res.remoteAddrIp !== "undefined"); const conn = new TcpConn( upgradeRid, { transport: "tcp", hostname: res.remoteAddrIp, port: res.remoteAddrIp, }, // TODO(bartlomieju): figure out actual values { transport: "tcp", hostname: "127.0.0.1", port: 80, }, ); const socket = new Socket({ handle: new TCP(constants.SERVER, conn), }); this.upgradeOrConnect = true; this.emit("upgrade", incoming, socket, Buffer.from([])); this.destroyed = true; this._closed = true; this.emit("close"); } else { incoming._bodyRid = res.responseRid; this.emit("response", incoming); } } catch (err) { if (this._requestSendError !== undefined) { // if the request body stream errored, we want to propagate that error // instead of the original error from opFetchSend throw new TypeError( "Failed to fetch: request body stream errored", { cause: this._requestSendError, }, ); } if ( err.message.includes("connection closed before message completed") ) { // Node.js seems ignoring this error } else if (err.message.includes("The signal has been aborted")) { // Remap this error this.emit("error", connResetException("socket hang up")); } else { this.emit("error", err); } } })(); } _implicitHeader() { if (this._header) { throw new ERR_HTTP_HEADERS_SENT("render"); } this._storeHeader( this.method + " " + this.path + " HTTP/1.1\r\n", this[kOutHeaders], ); } _getClient(): Deno.HttpClient | undefined { return undefined; } onSocket(socket, err) { nextTick(() => { // deno-lint-ignore no-this-alias const req = this; if (req.destroyed || err) { req.destroyed = true; // deno-lint-ignore no-inner-declarations function _destroy(req, err) { if (!req.aborted && !err) { err = new connResetException("socket hang up"); } if (err) { emitErrorEvent(req, 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 { // Note: this code is specific to deno to initiate a request. socket.on("connect", () => { // Flush the internal buffers once socket is ready. // Note: the order is important, as the headers flush // sets up the request. this._flushHeaders(); this.on("requestReady", () => { this._flushBody(); }); }); this.socket = socket; this.emit("socket", socket); // tickOnSocket(req, socket); // req._flush(); } }); } // deno-lint-ignore no-explicit-any end(chunk?: any, encoding?: any, cb?: any): this { // Do nothing if request is already destroyed. if (this.destroyed) return this; if (typeof chunk === "function") { cb = chunk; chunk = null; encoding = null; } else if (typeof encoding === "function") { cb = encoding; encoding = null; } this.finished = true; if (chunk) { this.write_(chunk, encoding, null, true); } else if (!this._headerSent) { if (this.socket && !this.socket.connecting) { this._contentLength = 0; this._implicitHeader(); this._send("", "latin1"); } else { // } } if (this.socket && this._bodyWriter) { (async () => { try { await this._bodyWriter.ready; await this._bodyWriter?.close(); } catch { // The readable stream resource is dropped right after // read is complete closing the writable stream resource. // If we try to close the writer again, it will result in an // error which we can safely ignore. } try { cb?.(); } catch { // } })(); } else { this.on("finish", () => { (async () => { try { await this._bodyWriter.ready; await this._bodyWriter?.close(); } catch { // The readable stream resource is dropped right after // read is complete closing the writable stream resource. // If we try to close the writer again, it will result in an // error which we can safely ignore. } try { cb?.(); } catch { // } })(); }); } return this; } abort() { if (this.aborted) { return; } this.aborted = true; this.emit("abort"); this.destroy(); } // deno-lint-ignore no-explicit-any destroy(err?: any) { if (this.destroyed) { return this; } this.destroyed = true; // Request might be closed before we actually made it if (this._req !== undefined && this._req.cancelHandleRid !== null) { core.tryClose(this._req.cancelHandleRid); } // 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; } _createCustomClient(): Promise { return Promise.resolve(undefined); } _createUrlStrFromOptions(): string { if (this.href) { return this.href; } const protocol = this.protocol ?? this.defaultProtocol; const auth = this.auth; const host = this.host ?? this.hostname ?? "localhost"; const hash = this.hash ? `#${this.hash}` : ""; const defaultPort = this.agent?.defaultPort; const port = this.port ?? defaultPort ?? 80; let path = this.path ?? "/"; if (!path.startsWith("/")) { path = "/" + path; } const url = new URL( `${protocol}//${auth ? `${auth}@` : ""}${host}${ port === 80 ? "" : `:${port}` }${path}`, ); url.hash = hash; return url.href; } setTimeout(msecs: number, callback?: () => void) { if (msecs === 0) { if (this._timeout) { this.removeAllListeners("timeout"); this._timeout.removeEventListener("abort", this._timeoutCb); this._timeout = undefined; } return this; } if (this._ended || this._timeout) { return this; } msecs = getTimerDuration(msecs, "msecs"); if (callback) this.once("timeout", callback); const timeout = AbortSignal.timeout(msecs); this._timeoutCb = () => this.emit("timeout"); timeout.addEventListener("abort", this._timeoutCb); this._timeout = timeout; return this; } _processHeader(headers, key, value, validate) { if (validate) { validateHeaderName(key); } // If key is content-disposition and there is content-length // encode the value in latin1 // https://www.rfc-editor.org/rfc/rfc6266#section-4.3 // Refs: https://github.com/nodejs/node/pull/46528 if (isContentDispositionField(key) && this._contentLength) { value = Buffer.from(value).toString("latin1"); } if (Array.isArray(value)) { if ( (value.length < 2 || !isCookieField(key)) && (!this[kUniqueHeaders] || !this[kUniqueHeaders].has(key.toLowerCase())) ) { // Retain for(;;) loop for performance reasons // Refs: https://github.com/nodejs/node/pull/30958 for (let i = 0; i < value.length; i++) { headers.push([key, value[i]]); } return; } value = value.join("; "); } headers.push([key, value]); } // Once a socket is assigned to this request and is connected socket.setNoDelay() will be called. setNoDelay() { this.socket?.setNoDelay?.(); } } // isCookieField performs a case-insensitive comparison of a provided string // against the word "cookie." As of V8 6.6 this is faster than handrolling or // using a case-insensitive RegExp. function isCookieField(s) { return s.length === 6 && s.toLowerCase() === "cookie"; } function isContentDispositionField(s) { return s.length === 19 && s.toLowerCase() === "content-disposition"; } const kHeaders = Symbol("kHeaders"); const kHeadersDistinct = Symbol("kHeadersDistinct"); const kHeadersCount = Symbol("kHeadersCount"); const kTrailers = Symbol("kTrailers"); const kTrailersDistinct = Symbol("kTrailersDistinct"); const kTrailersCount = Symbol("kTrailersCount"); /** IncomingMessage for http(s) client */ export class IncomingMessageForClient extends NodeReadable { decoder = new TextDecoder(); constructor(socket: Socket) { super(); this._readableState.readingMore = true; this.socket = socket; this.httpVersionMajor = null; this.httpVersionMinor = null; this.httpVersion = null; this.complete = false; this[kHeaders] = null; this[kHeadersCount] = 0; this.rawHeaders = []; this[kTrailers] = null; this[kTrailersCount] = 0; this.rawTrailers = []; this.joinDuplicateHeaders = false; this.aborted = false; this.upgrade = null; // request (server) only this.url = ""; this.method = null; // response (client) only this.statusCode = null; this.statusMessage = null; this.client = socket; this._consuming = false; // Flag for when we decide that this message cannot possibly be // read by the user, so there's no point continuing to handle it. this._dumped = false; } get connection() { return this.socket; } set connection(val) { this.socket = val; } get headers() { if (!this[kHeaders]) { this[kHeaders] = {}; const src = this.rawHeaders; const dst = this[kHeaders]; for (let n = 0; n < this[kHeadersCount]; n += 2) { this._addHeaderLine(src[n + 0], src[n + 1], dst); } } return this[kHeaders]; } set headers(val) { this[kHeaders] = val; } get headersDistinct() { if (!this[kHeadersDistinct]) { this[kHeadersDistinct] = {}; const src = this.rawHeaders; const dst = this[kHeadersDistinct]; for (let n = 0; n < this[kHeadersCount]; n += 2) { this._addHeaderLineDistinct(src[n + 0], src[n + 1], dst); } } return this[kHeadersDistinct]; } set headersDistinct(val) { this[kHeadersDistinct] = val; } get trailers() { if (!this[kTrailers]) { this[kTrailers] = {}; const src = this.rawTrailers; const dst = this[kTrailers]; for (let n = 0; n < this[kTrailersCount]; n += 2) { this._addHeaderLine(src[n + 0], src[n + 1], dst); } } return this[kTrailers]; } set trailers(val) { this[kTrailers] = val; } get trailersDistinct() { if (!this[kTrailersDistinct]) { this[kTrailersDistinct] = {}; const src = this.rawTrailers; const dst = this[kTrailersDistinct]; for (let n = 0; n < this[kTrailersCount]; n += 2) { this._addHeaderLineDistinct(src[n + 0], src[n + 1], dst); } } return this[kTrailersDistinct]; } set trailersDistinct(val) { this[kTrailersDistinct] = val; } setTimeout(msecs, callback) { if (callback) { this.on("timeout", callback); } this.socket.setTimeout(msecs); return this; } _read(_n) { if (!this._consuming) { this._readableState.readingMore = false; this._consuming = true; } const buf = new Uint8Array(16 * 1024); core.read(this._bodyRid, buf).then((bytesRead) => { if (bytesRead === 0) { this.push(null); } else { this.push(Buffer.from(buf.subarray(0, bytesRead))); } }); } // It's possible that the socket will be destroyed, and removed from // any messages, before ever calling this. In that case, just skip // it, since something else is destroying this connection anyway. _destroy(err, cb) { this.complete = true; if (!this.readableEnded || !this.complete) { this.aborted = true; this.emit("aborted"); } core.tryClose(this._bodyRid); // If aborted and the underlying socket is not already destroyed, // destroy it. // We have to check if the socket is already destroyed because finished // does not call the callback when this method is invoked from `_http_client` // in `test/parallel/test-http-client-spurious-aborted.js` if (this.socket && !this.socket.destroyed && this.aborted) { this.socket.destroy(err); const cleanup = finished(this.socket, (e) => { if (e?.code === "ERR_STREAM_PREMATURE_CLOSE") { e = null; } cleanup(); onError(this, e || err, cb); }); } else { onError(this, err, cb); } } _addHeaderLines(headers, n) { if (headers && headers.length) { let dest; if (this.complete) { this.rawTrailers = headers.flat(); this[kTrailersCount] = n; dest = this[kTrailers]; } else { this.rawHeaders = headers.flat(); this[kHeadersCount] = n; dest = this[kHeaders]; } if (dest) { for (const header of headers) { this._addHeaderLine(header[0], header[1], dest); } } } } // Add the given (field, value) pair to the message // // Per RFC2616, section 4.2 it is acceptable to join multiple instances of the // same header with a ', ' if the header in question supports specification of // multiple values this way. The one exception to this is the Cookie header, // which has multiple values joined with a '; ' instead. If a header's values // cannot be joined in either of these ways, we declare the first instance the // winner and drop the second. Extended header fields (those beginning with // 'x-') are always joined. _addHeaderLine(field, value, dest) { field = matchKnownFields(field); const flag = field.charCodeAt(0); if (flag === 0 || flag === 2) { field = field.slice(1); // Make a delimited list if (typeof dest[field] === "string") { dest[field] += (flag === 0 ? ", " : "; ") + value; } else { dest[field] = value; } } else if (flag === 1) { // Array header -- only Set-Cookie at the moment if (dest["set-cookie"] !== undefined) { dest["set-cookie"].push(value); } else { dest["set-cookie"] = [value]; } } else if (this.joinDuplicateHeaders) { // RFC 9110 https://www.rfc-editor.org/rfc/rfc9110#section-5.2 // https://github.com/nodejs/node/issues/45699 // allow authorization multiple fields // Make a delimited list if (dest[field] === undefined) { dest[field] = value; } else { dest[field] += ", " + value; } } else if (dest[field] === undefined) { // Drop duplicates dest[field] = value; } } _addHeaderLineDistinct(field, value, dest) { field = field.toLowerCase(); if (!dest[field]) { dest[field] = [value]; } else { dest[field].push(value); } } // Call this instead of resume() if we want to just // dump all the data to /dev/null _dump() { if (!this._dumped) { this._dumped = true; // If there is buffered data, it may trigger 'data' events. // Remove 'data' event listeners explicitly. this.removeAllListeners("data"); this.resume(); } } } // This function is used to help avoid the lowercasing of a field name if it // matches a 'traditional cased' version of a field name. It then returns the // lowercased name to both avoid calling toLowerCase() a second time and to // indicate whether the field was a 'no duplicates' field. If a field is not a // 'no duplicates' field, a `0` byte is prepended as a flag. The one exception // to this is the Set-Cookie header which is indicated by a `1` byte flag, since // it is an 'array' field and thus is treated differently in _addHeaderLines(). function matchKnownFields(field, lowercased) { switch (field.length) { case 3: if (field === "Age" || field === "age") return "age"; break; case 4: if (field === "Host" || field === "host") return "host"; if (field === "From" || field === "from") return "from"; if (field === "ETag" || field === "etag") return "etag"; if (field === "Date" || field === "date") return "\u0000date"; if (field === "Vary" || field === "vary") return "\u0000vary"; break; case 6: if (field === "Server" || field === "server") return "server"; if (field === "Cookie" || field === "cookie") return "\u0002cookie"; if (field === "Origin" || field === "origin") return "\u0000origin"; if (field === "Expect" || field === "expect") return "\u0000expect"; if (field === "Accept" || field === "accept") return "\u0000accept"; break; case 7: if (field === "Referer" || field === "referer") return "referer"; if (field === "Expires" || field === "expires") return "expires"; if (field === "Upgrade" || field === "upgrade") return "\u0000upgrade"; break; case 8: if (field === "Location" || field === "location") { return "location"; } if (field === "If-Match" || field === "if-match") { return "\u0000if-match"; } break; case 10: if (field === "User-Agent" || field === "user-agent") { return "user-agent"; } if (field === "Set-Cookie" || field === "set-cookie") { return "\u0001"; } if (field === "Connection" || field === "connection") { return "\u0000connection"; } break; case 11: if (field === "Retry-After" || field === "retry-after") { return "retry-after"; } break; case 12: if (field === "Content-Type" || field === "content-type") { return "content-type"; } if (field === "Max-Forwards" || field === "max-forwards") { return "max-forwards"; } break; case 13: if (field === "Authorization" || field === "authorization") { return "authorization"; } if (field === "Last-Modified" || field === "last-modified") { return "last-modified"; } if (field === "Cache-Control" || field === "cache-control") { return "\u0000cache-control"; } if (field === "If-None-Match" || field === "if-none-match") { return "\u0000if-none-match"; } break; case 14: if (field === "Content-Length" || field === "content-length") { return "content-length"; } break; case 15: if (field === "Accept-Encoding" || field === "accept-encoding") { return "\u0000accept-encoding"; } if (field === "Accept-Language" || field === "accept-language") { return "\u0000accept-language"; } if (field === "X-Forwarded-For" || field === "x-forwarded-for") { return "\u0000x-forwarded-for"; } break; case 16: if (field === "Content-Encoding" || field === "content-encoding") { return "\u0000content-encoding"; } if (field === "X-Forwarded-Host" || field === "x-forwarded-host") { return "\u0000x-forwarded-host"; } break; case 17: if (field === "If-Modified-Since" || field === "if-modified-since") { return "if-modified-since"; } if (field === "Transfer-Encoding" || field === "transfer-encoding") { return "\u0000transfer-encoding"; } if (field === "X-Forwarded-Proto" || field === "x-forwarded-proto") { return "\u0000x-forwarded-proto"; } break; case 19: if (field === "Proxy-Authorization" || field === "proxy-authorization") { return "proxy-authorization"; } if (field === "If-Unmodified-Since" || field === "if-unmodified-since") { return "if-unmodified-since"; } break; } if (lowercased) { return "\u0000" + field; } return matchKnownFields(field.toLowerCase(), true); } function onError(self, error, cb) { // This is to keep backward compatible behavior. // An error is emitted only if there are listeners attached to the event. if (self.listenerCount("error") === 0) { cb(); } else { cb(error); } } export class ServerResponse extends NodeWritable { statusCode = 200; statusMessage?: string = undefined; #headers: Record = { __proto__: null }; #hasNonStringHeaders: boolean = false; #readable: ReadableStream; override writable = true; // used by `npm:on-finished` finished = false; headersSent = false; #resolve: (value: Response | PromiseLike) => void; // deno-lint-ignore no-explicit-any #socketOverride: any | null = null; static #enqueue(controller: ReadableStreamDefaultController, chunk: Chunk) { try { if (typeof chunk === "string") { controller.enqueue(ENCODER.encode(chunk)); } else { controller.enqueue(chunk); } } catch (_) { // The stream might have been closed. Ignore the error. } } /** Returns true if the response body should be null with the given * http status code */ static #bodyShouldBeNull(status: number) { return status === 101 || status === 204 || status === 205 || status === 304; } constructor( resolve: (value: Response | PromiseLike) => void, socket: FakeSocket, ) { let controller: ReadableByteStreamController; const readable = new ReadableStream({ start(c) { controller = c as ReadableByteStreamController; }, }); super({ autoDestroy: true, defaultEncoding: "utf-8", emitClose: true, // FIXME: writes don't work when a socket is assigned and then // detached. write: (chunk, encoding, cb) => { // Writes chunks are directly written to the socket if // one is assigned via assignSocket() if (this.#socketOverride && this.#socketOverride.writable) { this.#socketOverride.write(chunk, encoding); return cb(); } if (!this.headersSent) { ServerResponse.#enqueue(controller, chunk); this.respond(false); return cb(); } ServerResponse.#enqueue(controller, chunk); return cb(); }, final: (cb) => { if (!this.headersSent) { this.respond(true); } controller.close(); return cb(); }, destroy: (err, cb) => { if (err) { controller.error(err); } return cb(null); }, }); this.#readable = readable; this.#resolve = resolve; this.socket = socket; } setHeader(name: string, value: string | string[]) { if (Array.isArray(value)) { this.#hasNonStringHeaders = true; } this.#headers[name] = value; return this; } appendHeader(name: string, value: string | string[]) { if (this.#headers[name] === undefined) { if (Array.isArray(value)) this.#hasNonStringHeaders = true; this.#headers[name] = value; } else { this.#hasNonStringHeaders = true; if (!Array.isArray(this.#headers[name])) { this.#headers[name] = [this.#headers[name]]; } const header = this.#headers[name]; if (Array.isArray(value)) { header.push(...value); } else { header.push(value); } } return this; } getHeader(name: string) { return this.#headers[name]; } removeHeader(name: string) { delete this.#headers[name]; } getHeaderNames() { return Object.keys(this.#headers); } getHeaders(): Record { // @ts-ignore Ignore null __proto__ return { __proto__: null, ...this.#headers }; } hasHeader(name: string) { return Object.hasOwn(this.#headers, name); } writeHead( status: number, statusMessage?: string, headers?: | Record | Array<[string, string]>, ): this; writeHead( status: number, headers?: | Record | Array<[string, string]>, ): this; writeHead( status: number, statusMessageOrHeaders?: | string | Record | Array<[string, string]>, maybeHeaders?: | Record | Array<[string, string]>, ): this { this.statusCode = status; let headers = null; if (typeof statusMessageOrHeaders === "string") { this.statusMessage = statusMessageOrHeaders; if (maybeHeaders !== undefined) { headers = maybeHeaders; } } else if (statusMessageOrHeaders !== undefined) { headers = statusMessageOrHeaders; } if (headers !== null) { if (ArrayIsArray(headers)) { headers = headers as Array<[string, string]>; for (let i = 0; i < headers.length; i++) { this.appendHeader(headers[i][0], headers[i][1]); } } else { headers = headers as Record; for (const k in headers) { if (Object.hasOwn(headers, k)) { this.setHeader(k, headers[k]); } } } } return this; } #ensureHeaders(singleChunk?: Chunk) { if (this.statusCode === 200 && this.statusMessage === undefined) { this.statusMessage = "OK"; } if ( typeof singleChunk === "string" && !this.hasHeader("content-type") ) { this.setHeader("content-type", "text/plain;charset=UTF-8"); } } respond(final: boolean, singleChunk?: Chunk) { this.headersSent = true; this.#ensureHeaders(singleChunk); let body = singleChunk ?? (final ? null : this.#readable); if (ServerResponse.#bodyShouldBeNull(this.statusCode)) { body = null; } let headers: Record | [string, string][] = this .#headers as Record; if (this.#hasNonStringHeaders) { headers = []; // Guard is not needed as this is a null prototype object. // deno-lint-ignore guard-for-in for (const key in this.#headers) { const entry = this.#headers[key]; if (Array.isArray(entry)) { for (const value of entry) { headers.push([key, value]); } } else { headers.push([key, entry]); } } } this.#resolve( new Response(body, { headers, status: this.statusCode, statusText: this.statusMessage, }), ); } // deno-lint-ignore no-explicit-any override end(chunk?: any, encoding?: any, cb?: any): this { this.finished = true; if (!chunk && "transfer-encoding" in this.#headers) { // FIXME(bnoordhuis) Node sends a zero length chunked body instead, i.e., // the trailing "0\r\n", but respondWith() just hangs when I try that. this.#headers["content-length"] = "0"; delete this.#headers["transfer-encoding"]; } // @ts-expect-error The signature for cb is stricter than the one implemented here return super.end(chunk, encoding, cb); } flushHeaders() { // no-op } // Undocumented API used by `npm:compression`. _implicitHeader() { this.writeHead(this.statusCode); } assignSocket(socket) { if (socket._httpMessage) { throw new ERR_HTTP_SOCKET_ASSIGNED(); } socket._httpMessage = this; this.#socketOverride = socket; } detachSocket(socket) { assert(socket._httpMessage === this); socket._httpMessage = null; this.#socketOverride = null; } } // TODO(@AaronO): optimize export class IncomingMessageForServer extends NodeReadable { #headers: Record; url: string; method: string; socket: Socket | FakeSocket; constructor(socket: FakeSocket | Socket) { const reader = socket instanceof FakeSocket ? socket.reader : socket instanceof Socket ? NodeDuplex.toWeb(socket).readable.getReader() : null; super({ autoDestroy: true, emitClose: true, objectMode: false, read: async function (_size) { if (!reader) { return this.push(null); } try { const { value } = await reader!.read(); this.push(value !== undefined ? Buffer.from(value) : null); } catch (err) { this.destroy(err as Error); } }, destroy: (err, cb) => { reader?.cancel().catch(() => { // Don't throw error - it's propagated to the user via 'error' event. }).finally(nextTick(onError, this, err, cb)); }, }); this.url = ""; this.method = ""; this.socket = socket; this.upgrade = null; this.rawHeaders = []; } get aborted() { return false; } get httpVersion() { return "1.1"; } set httpVersion(val) { assert(val === "1.1"); } get headers() { if (!this.#headers) { this.#headers = {}; const entries = headersEntries(this.rawHeaders); for (let i = 0; i < entries.length; i++) { const entry = entries[i]; this.#headers[entry[0]] = entry[1]; } } return this.#headers; } set headers(val) { this.#headers = val; } // connection is deprecated, but still tested in unit test. get connection() { return this.socket; } setTimeout(msecs, callback) { if (callback) { this.on("timeout", callback); } this.socket.setTimeout(msecs); return this; } } export type ServerHandler = ( req: IncomingMessageForServer, res: ServerResponse, ) => void; export function Server(opts, requestListener?: ServerHandler): ServerImpl { return new ServerImpl(opts, requestListener); } export class ServerImpl extends EventEmitter { #addr: Deno.NetAddr | null = null; #hasClosed = false; #server: Deno.HttpServer; #unref = false; #ac?: AbortController; #serveDeferred: ReturnType>; listening = false; constructor(opts, requestListener?: ServerHandler) { super(); if (typeof opts === "function") { requestListener = opts; opts = kEmptyObject; } else if (opts == null) { opts = kEmptyObject; } else { validateObject(opts, "options"); } this._opts = opts; this.#serveDeferred = Promise.withResolvers(); this.#serveDeferred.promise.then(() => this.emit("close")); if (requestListener !== undefined) { this.on("request", requestListener); } } listen(...args: unknown[]): this { // TODO(bnoordhuis) Delegate to net.Server#listen(). const normalized = _normalizeArgs(args); const options = normalized[0] as Partial; const cb = normalized[1]; if (cb !== null) { // @ts-ignore change EventEmitter's sig to use CallableFunction this.once("listening", cb); } let port = 0; if (typeof options.port === "number" || typeof options.port === "string") { validatePort(options.port, "options.port"); port = options.port | 0; } // TODO(bnoordhuis) Node prefers [::] when host is omitted, // we on the other hand default to 0.0.0.0. let hostname = options.host ?? "0.0.0.0"; if (hostname == "localhost") { hostname = "127.0.0.1"; } this.#addr = { hostname, port, } as Deno.NetAddr; this.listening = true; nextTick(() => this._serve()); return this; } _serve() { const ac = new AbortController(); const handler = (request: Request, info: Deno.ServeHandlerInfo) => { const socket = new FakeSocket({ remoteAddress: info.remoteAddr.hostname, remotePort: info.remoteAddr.port, encrypted: this._encrypted, reader: request.body?.getReader(), }); const req = new IncomingMessageForServer(socket); // Slice off the origin so that we only have pathname + search req.url = request.url?.slice(request.url.indexOf("/", 8)); req.method = request.method; req.upgrade = request.headers.get("connection")?.toLowerCase().includes("upgrade") && request.headers.get("upgrade"); req.rawHeaders = request.headers; if (req.upgrade && this.listenerCount("upgrade") > 0) { const { conn, response } = upgradeHttpRaw(request); const socket = new Socket({ handle: new TCP(constants.SERVER, conn), }); // Update socket held by `req`. req.socket = socket; this.emit("upgrade", req, socket, Buffer.from([])); return response; } else { return new Promise((resolve): void => { const res = new ServerResponse(resolve, socket); this.emit("request", req, res); }); } }; if (this.#hasClosed) { return; } this.#ac = ac; try { this.#server = serve( { handler: handler as Deno.ServeHandler, ...this.#addr, signal: ac.signal, // @ts-ignore Might be any without `--unstable` flag onListen: ({ port }) => { this.#addr!.port = port; this.emit("listening"); }, ...this._additionalServeOptions?.(), }, ); } catch (e) { this.emit("error", e); return; } if (this.#unref) { this.#server.unref(); } this.#server.finished.then(() => this.#serveDeferred!.resolve()); } setTimeout() { // deno-lint-ignore no-console console.error("Not implemented: Server.setTimeout()"); } ref() { if (this.#server) { this.#server.ref(); } this.#unref = false; } unref() { if (this.#server) { this.#server.unref(); } this.#unref = true; } close(cb?: (err?: Error) => void): this { const listening = this.listening; this.listening = false; this.#hasClosed = true; if (typeof cb === "function") { if (listening) { this.once("close", cb); } else { this.once("close", function close() { cb(new ERR_SERVER_NOT_RUNNING()); }); } } if (listening && this.#ac) { if (this.#server) { this.#server.shutdown(); } else if (this.#ac) { this.#ac.abort(); this.#ac = undefined; } } else { this.#serveDeferred!.resolve(); } this.#server = undefined; return this; } closeAllConnections() { if (this.#hasClosed) { return; } if (this.#ac) { this.#ac.abort(); this.#ac = undefined; } } closeIdleConnections() { if (this.#hasClosed) { return; } if (this.#server) { this.#server.shutdown(); } } address() { if (this.#addr === null) return null; return { port: this.#addr.port, address: this.#addr.hostname, }; } } Server.prototype = ServerImpl.prototype; export function createServer(opts, requestListener?: ServerHandler) { return Server(opts, requestListener); } /** Makes an HTTP request. */ export function request( url: string | URL, cb?: (res: IncomingMessageForClient) => void, ): ClientRequest; export function request( opts: RequestOptions, cb?: (res: IncomingMessageForClient) => void, ): ClientRequest; export function request( url: string | URL, opts: RequestOptions, cb?: (res: IncomingMessageForClient) => void, ): ClientRequest; // deno-lint-ignore no-explicit-any export function request(...args: any[]) { return new ClientRequest(args[0], args[1], args[2]); } /** Makes a `GET` HTTP request. */ export function get( url: string | URL, cb?: (res: IncomingMessageForClient) => void, ): ClientRequest; export function get( opts: RequestOptions, cb?: (res: IncomingMessageForClient) => void, ): ClientRequest; export function get( url: string | URL, opts: RequestOptions, cb?: (res: IncomingMessageForClient) => void, ): ClientRequest; // deno-lint-ignore no-explicit-any export function get(...args: any[]) { const req = request(args[0], args[1], args[2]); req.end(); return req; } export const maxHeaderSize = 16_384; export { Agent, ClientRequest, globalAgent, IncomingMessageForServer as IncomingMessage, METHODS, OutgoingMessage, STATUS_CODES, validateHeaderName, validateHeaderValue, }; export default { Agent, globalAgent, ClientRequest, STATUS_CODES, METHODS, createServer, Server, IncomingMessage: IncomingMessageForServer, IncomingMessageForClient, IncomingMessageForServer, OutgoingMessage, ServerResponse, request, get, validateHeaderName, validateHeaderValue, maxHeaderSize, };