// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. import { TextEncoder } from "internal:deno_web/08_text_encoding.js"; import { type Deferred, deferred, } from "internal:deno_node/polyfills/_util/async.ts"; import { _normalizeArgs, ListenOptions, Socket, } from "internal:deno_node/polyfills/net.ts"; import { Buffer } from "internal:deno_node/polyfills/buffer.ts"; import { ERR_SERVER_NOT_RUNNING } from "internal:deno_node/polyfills/internal/errors.ts"; import { EventEmitter } from "internal:deno_node/polyfills/events.ts"; import { nextTick } from "internal:deno_node/polyfills/_next_tick.ts"; import { validatePort } from "internal:deno_node/polyfills/internal/validators.mjs"; import { Readable as NodeReadable, Writable as NodeWritable, } from "internal:deno_node/polyfills/stream.ts"; import { OutgoingMessage } from "internal:deno_node/polyfills/_http_outgoing.ts"; import { Agent } from "internal:deno_node/polyfills/_http_agent.mjs"; import { chunkExpression as RE_TE_CHUNKED } from "internal:deno_node/polyfills/_http_common.ts"; import { urlToHttpOptions } from "internal:deno_node/polyfills/internal/url.ts"; import { constants, TCP, } from "internal:deno_node/polyfills/internal_binding/tcp_wrap.ts"; enum STATUS_CODES { /** RFC 7231, 6.2.1 */ Continue = 100, /** RFC 7231, 6.2.2 */ SwitchingProtocols = 101, /** RFC 2518, 10.1 */ Processing = 102, /** RFC 8297 **/ EarlyHints = 103, /** RFC 7231, 6.3.1 */ OK = 200, /** RFC 7231, 6.3.2 */ Created = 201, /** RFC 7231, 6.3.3 */ Accepted = 202, /** RFC 7231, 6.3.4 */ NonAuthoritativeInfo = 203, /** RFC 7231, 6.3.5 */ NoContent = 204, /** RFC 7231, 6.3.6 */ ResetContent = 205, /** RFC 7233, 4.1 */ PartialContent = 206, /** RFC 4918, 11.1 */ MultiStatus = 207, /** RFC 5842, 7.1 */ AlreadyReported = 208, /** RFC 3229, 10.4.1 */ IMUsed = 226, /** RFC 7231, 6.4.1 */ MultipleChoices = 300, /** RFC 7231, 6.4.2 */ MovedPermanently = 301, /** RFC 7231, 6.4.3 */ Found = 302, /** RFC 7231, 6.4.4 */ SeeOther = 303, /** RFC 7232, 4.1 */ NotModified = 304, /** RFC 7231, 6.4.5 */ UseProxy = 305, /** RFC 7231, 6.4.7 */ TemporaryRedirect = 307, /** RFC 7538, 3 */ PermanentRedirect = 308, /** RFC 7231, 6.5.1 */ BadRequest = 400, /** RFC 7235, 3.1 */ Unauthorized = 401, /** RFC 7231, 6.5.2 */ PaymentRequired = 402, /** RFC 7231, 6.5.3 */ Forbidden = 403, /** RFC 7231, 6.5.4 */ NotFound = 404, /** RFC 7231, 6.5.5 */ MethodNotAllowed = 405, /** RFC 7231, 6.5.6 */ NotAcceptable = 406, /** RFC 7235, 3.2 */ ProxyAuthRequired = 407, /** RFC 7231, 6.5.7 */ RequestTimeout = 408, /** RFC 7231, 6.5.8 */ Conflict = 409, /** RFC 7231, 6.5.9 */ Gone = 410, /** RFC 7231, 6.5.10 */ LengthRequired = 411, /** RFC 7232, 4.2 */ PreconditionFailed = 412, /** RFC 7231, 6.5.11 */ RequestEntityTooLarge = 413, /** RFC 7231, 6.5.12 */ RequestURITooLong = 414, /** RFC 7231, 6.5.13 */ UnsupportedMediaType = 415, /** RFC 7233, 4.4 */ RequestedRangeNotSatisfiable = 416, /** RFC 7231, 6.5.14 */ ExpectationFailed = 417, /** RFC 7168, 2.3.3 */ Teapot = 418, /** RFC 7540, 9.1.2 */ MisdirectedRequest = 421, /** RFC 4918, 11.2 */ UnprocessableEntity = 422, /** RFC 4918, 11.3 */ Locked = 423, /** RFC 4918, 11.4 */ FailedDependency = 424, /** RFC 8470, 5.2 */ TooEarly = 425, /** RFC 7231, 6.5.15 */ UpgradeRequired = 426, /** RFC 6585, 3 */ PreconditionRequired = 428, /** RFC 6585, 4 */ TooManyRequests = 429, /** RFC 6585, 5 */ RequestHeaderFieldsTooLarge = 431, /** RFC 7725, 3 */ UnavailableForLegalReasons = 451, /** RFC 7231, 6.6.1 */ InternalServerError = 500, /** RFC 7231, 6.6.2 */ NotImplemented = 501, /** RFC 7231, 6.6.3 */ BadGateway = 502, /** RFC 7231, 6.6.4 */ ServiceUnavailable = 503, /** RFC 7231, 6.6.5 */ GatewayTimeout = 504, /** RFC 7231, 6.6.6 */ HTTPVersionNotSupported = 505, /** RFC 2295, 8.1 */ VariantAlsoNegotiates = 506, /** RFC 4918, 11.5 */ InsufficientStorage = 507, /** RFC 5842, 7.2 */ LoopDetected = 508, /** RFC 2774, 7 */ NotExtended = 510, /** RFC 6585, 6 */ NetworkAuthenticationRequired = 511, } const METHODS = [ "ACL", "BIND", "CHECKOUT", "CONNECT", "COPY", "DELETE", "GET", "HEAD", "LINK", "LOCK", "M-SEARCH", "MERGE", "MKACTIVITY", "MKCALENDAR", "MKCOL", "MOVE", "NOTIFY", "OPTIONS", "PATCH", "POST", "PROPFIND", "PROPPATCH", "PURGE", "PUT", "REBIND", "REPORT", "SEARCH", "SOURCE", "SUBSCRIBE", "TRACE", "UNBIND", "UNLINK", "UNLOCK", "UNSUBSCRIBE", ]; type Chunk = string | Buffer | Uint8Array; // @ts-ignore Deno[Deno.internal] is used on purpose here const DenoServe = Deno[Deno.internal]?.nodeUnstable?.serve || Deno.serve; // @ts-ignore Deno[Deno.internal] is used on purpose here const DenoUpgradeHttpRaw = Deno[Deno.internal]?.nodeUnstable?.upgradeHttpRaw || Deno.upgradeHttpRaw; 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; } // TODO(@bartlomieju): Implement ClientRequest methods (e.g. setHeader()) /** ClientRequest represents the http(s) request from the client */ class ClientRequest extends NodeWritable { defaultProtocol = "http:"; body: null | ReadableStream = null; controller: ReadableStreamDefaultController | null = null; constructor( public opts: RequestOptions, public cb?: (res: IncomingMessageForClient) => void, ) { super(); } // deno-lint-ignore no-explicit-any override _write(chunk: any, _enc: string, cb: () => void) { if (this.controller) { this.controller.enqueue(chunk); cb(); return; } this.body = new ReadableStream({ start: (controller) => { this.controller = controller; controller.enqueue(chunk); cb(); }, }); } override async _final() { if (this.controller) { this.controller.close(); } const body = await this._createBody(this.body, this.opts); const client = await this._createCustomClient(); const opts = { body, method: this.opts.method, client, headers: this.opts.headers, }; const mayResponse = fetch(this._createUrlStrFromOptions(this.opts), opts) .catch((e) => { if (e.message.includes("connection closed before message completed")) { // Node.js seems ignoring this error } else { this.emit("error", e); } return undefined; }); const res = new IncomingMessageForClient( await mayResponse, this._createSocket(), ); this.emit("response", res); if (client) { res.on("end", () => { client.close(); }); } this.cb?.(res); } abort() { this.destroy(); } async _createBody( body: ReadableStream | null, opts: RequestOptions, ): Promise { if (!body) return null; if (!opts.headers) return body; const headers = Object.fromEntries( Object.entries(opts.headers).map(([k, v]) => [k.toLowerCase(), v]), ); if ( !RE_TE_CHUNKED.test(headers["transfer-encoding"]) && !Number.isNaN(Number.parseInt(headers["content-length"], 10)) ) { const bufferList: Buffer[] = []; for await (const chunk of body) { bufferList.push(chunk); } return Buffer.concat(bufferList); } return body; } _createCustomClient(): Promise { return Promise.resolve(undefined); } _createSocket(): Socket { // Note: Creates a dummy socket for the compatibility // Sometimes the libraries check some properties of socket // e.g. if (!response.socket.authorized) { ... } return new Socket({}); } _createUrlStrFromOptions(opts: RequestOptions): string { if (opts.href) { return opts.href; } const protocol = opts.protocol ?? this.defaultProtocol; const auth = opts.auth; const host = opts.host ?? opts.hostname ?? "localhost"; const defaultPort = opts.agent?.defaultPort; const port = opts.port ?? defaultPort ?? 80; let path = opts.path ?? "/"; if (!path.startsWith("/")) { path = "/" + path; } return `${protocol}//${auth ? `${auth}@` : ""}${host}${ port === 80 ? "" : `:${port}` }${path}`; } setTimeout() { console.log("not implemented: ClientRequest.setTimeout"); } } /** IncomingMessage for http(s) client */ export class IncomingMessageForClient extends NodeReadable { reader: ReadableStreamDefaultReader | undefined; #statusMessage = ""; constructor(public response: Response | undefined, public socket: Socket) { super(); this.reader = response?.body?.getReader(); } override async _read(_size: number) { if (this.reader === undefined) { this.push(null); return; } try { const res = await this.reader.read(); if (res.done) { this.push(null); return; } this.push(res.value); } catch (e) { // deno-lint-ignore no-explicit-any this.destroy(e as any); } } get headers() { if (this.response) { return Object.fromEntries(this.response.headers.entries()); } return {}; } get trailers() { return {}; } get statusCode() { return this.response?.status || 0; } get statusMessage() { return this.#statusMessage || this.response?.statusText || ""; } set statusMessage(v: string) { this.#statusMessage = v; } } export class ServerResponse extends NodeWritable { statusCode?: number = undefined; statusMessage?: string = undefined; #headers = new Headers({}); #readable: ReadableStream; override writable = true; // used by `npm:on-finished` finished = false; headersSent = false; #firstChunk: Chunk | null = null; // Used if --unstable flag IS NOT present #reqEvent?: Deno.RequestEvent; // Used if --unstable flag IS present #resolve?: (value: Response | PromiseLike) => void; #isFlashRequest: boolean; static #enqueue(controller: ReadableStreamDefaultController, chunk: Chunk) { // TODO(kt3k): This is a workaround for denoland/deno#17194 // This if-block should be removed when the above issue is resolved. if (chunk.length === 0) { return; } if (typeof chunk === "string") { controller.enqueue(ENCODER.encode(chunk)); } else { controller.enqueue(chunk); } } /** 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( reqEvent: undefined | Deno.RequestEvent, resolve: undefined | ((value: Response | PromiseLike) => void), ) { let controller: ReadableByteStreamController; const readable = new ReadableStream({ start(c) { controller = c as ReadableByteStreamController; }, }); super({ autoDestroy: true, defaultEncoding: "utf-8", emitClose: true, write: (chunk, _encoding, cb) => { if (!this.headersSent) { if (this.#firstChunk === null) { this.#firstChunk = chunk; return cb(); } else { ServerResponse.#enqueue(controller, this.#firstChunk); this.#firstChunk = null; this.respond(false); } } ServerResponse.#enqueue(controller, chunk); return cb(); }, final: (cb) => { if (this.#firstChunk) { this.respond(true, this.#firstChunk); } else 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.#reqEvent = reqEvent; this.#isFlashRequest = typeof resolve !== "undefined"; } setHeader(name: string, value: string) { this.#headers.set(name, value); return this; } getHeader(name: string) { return this.#headers.get(name); } removeHeader(name: string) { return this.#headers.delete(name); } getHeaderNames() { return Array.from(this.#headers.keys()); } hasHeader(name: string) { return this.#headers.has(name); } writeHead(status: number, headers: Record) { this.statusCode = status; for (const k in headers) { if (Object.hasOwn(headers, k)) { this.#headers.set(k, headers[k]); } } return this; } #ensureHeaders(singleChunk?: Chunk) { if (this.statusCode === undefined) { this.statusCode = 200; this.statusMessage = "OK"; } // Only taken if --unstable IS NOT present if ( !this.#isFlashRequest && 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; } if (this.#isFlashRequest) { this.#resolve!( new Response(body, { headers: this.#headers, status: this.statusCode, statusText: this.statusMessage, }), ); } else { this.#reqEvent!.respondWith( new Response(body, { headers: this.#headers, status: this.statusCode, statusText: this.statusMessage, }), ).catch(() => { // ignore this error }); } } // deno-lint-ignore no-explicit-any override end(chunk?: any, encoding?: any, cb?: any): this { this.finished = true; if (this.#isFlashRequest) { // Flash sets both of these headers. this.#headers.delete("transfer-encoding"); this.#headers.delete("content-length"); } else if (!chunk && this.#headers.has("transfer-encoding")) { // 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.set("content-length", "0"); this.#headers.delete("transfer-encoding"); } // @ts-expect-error The signature for cb is stricter than the one implemented here return super.end(chunk, encoding, cb); } } // TODO(@AaronO): optimize export class IncomingMessageForServer extends NodeReadable { #req: Request; url: string; method: string; constructor(req: Request) { // Check if no body (GET/HEAD/OPTIONS/...) const reader = req.body?.getReader(); 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().finally(() => cb(err)); }, }); // TODO(@bartlomieju): consider more robust path extraction, e.g: // url: (new URL(request.url).pathname), this.url = req.url?.slice(req.url.indexOf("/", 8)); this.method = req.method; this.#req = req; } get aborted() { return false; } get httpVersion() { return "1.1"; } get headers() { return Object.fromEntries(this.#req.headers.entries()); } get upgrade(): boolean { return Boolean( this.#req.headers.get("connection")?.toLowerCase().includes("upgrade") && this.#req.headers.get("upgrade"), ); } } type ServerHandler = ( req: IncomingMessageForServer, res: ServerResponse, ) => void; export function Server(handler?: ServerHandler): ServerImpl { return new ServerImpl(handler); } class ServerImpl extends EventEmitter { #isFlashServer: boolean; #httpConnections: Set = new Set(); #listener?: Deno.Listener; #addr?: Deno.NetAddr; #hasClosed = false; #ac?: AbortController; #servePromise?: Deferred; listening = false; constructor(handler?: ServerHandler) { super(); // @ts-ignore Might be undefined without `--unstable` flag this.#isFlashServer = typeof DenoServe == "function"; if (this.#isFlashServer) { this.#servePromise = deferred(); this.#servePromise.then(() => this.emit("close")); } if (handler !== undefined) { this.on("request", handler); } } 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. if (this.#isFlashServer) { const hostname = options.host ?? "0.0.0.0"; this.#addr = { hostname, port, } as Deno.NetAddr; this.listening = true; nextTick(() => this.#serve()); } else { this.listening = true; const hostname = options.host ?? ""; this.#listener = Deno.listen({ port, hostname }); nextTick(() => this.#listenLoop()); } return this; } async #listenLoop() { const go = async (httpConn: Deno.HttpConn) => { try { for (;;) { let reqEvent = null; try { // Note: httpConn.nextRequest() calls httpConn.close() on error. reqEvent = await httpConn.nextRequest(); } catch { // Connection closed. // TODO(bnoordhuis) Emit "clientError" event on the http.Server // instance? Node emits it when request parsing fails and expects // the listener to send a raw 4xx HTTP response on the underlying // net.Socket but we don't have one to pass to the listener. } if (reqEvent === null) { break; } const req = new IncomingMessageForServer(reqEvent.request); const res = new ServerResponse(reqEvent, undefined); this.emit("request", req, res); } } finally { this.#httpConnections.delete(httpConn); } }; const listener = this.#listener; if (listener !== undefined) { this.emit("listening"); for await (const conn of listener) { let httpConn: Deno.HttpConn; try { httpConn = Deno.serveHttp(conn); } catch { continue; /// Connection closed. } this.#httpConnections.add(httpConn); go(httpConn); } } } #serve() { const ac = new AbortController(); const handler = (request: Request) => { const req = new IncomingMessageForServer(request); if (req.upgrade && this.listenerCount("upgrade") > 0) { const [conn, head] = DenoUpgradeHttpRaw(request) as [ Deno.Conn, Uint8Array, ]; const socket = new Socket({ handle: new TCP(constants.SERVER, conn), }); this.emit("upgrade", req, socket, Buffer.from(head)); } else { return new Promise((resolve): void => { const res = new ServerResponse(undefined, resolve); this.emit("request", req, res); }); } }; if (this.#hasClosed) { return; } this.#ac = ac; DenoServe( { 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"); }, }, ).then(() => this.#servePromise!.resolve()); } setTimeout() { console.error("Not implemented: Server.setTimeout()"); } 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 (this.#isFlashServer) { if (listening && this.#ac) { this.#ac.abort(); this.#ac = undefined; } else { this.#servePromise!.resolve(); } } else { nextTick(() => this.emit("close")); if (listening) { this.#listener!.close(); this.#listener = undefined; for (const httpConn of this.#httpConnections) { try { httpConn.close(); } catch { // Already closed. } } this.#httpConnections.clear(); } } return this; } address() { let addr; if (this.#isFlashServer) { addr = this.#addr!; } else { addr = this.#listener!.addr as Deno.NetAddr; } return { port: addr.port, address: addr.hostname, }; } } Server.prototype = ServerImpl.prototype; export function createServer(handler?: ServerHandler) { return Server(handler); } /** 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[]) { let options = {}; if (typeof args[0] === "string") { options = urlToHttpOptions(new URL(args.shift())); } else if (args[0] instanceof URL) { options = urlToHttpOptions(args.shift()); } if (args[0] && typeof args[0] !== "function") { Object.assign(options, args.shift()); } args.unshift(options); return new ClientRequest(args[0], args[1]); } /** 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 { Agent, ClientRequest, IncomingMessageForServer as IncomingMessage, METHODS, OutgoingMessage, STATUS_CODES, }; export default { Agent, ClientRequest, STATUS_CODES, METHODS, createServer, Server, IncomingMessage: IncomingMessageForServer, IncomingMessageForClient, IncomingMessageForServer, OutgoingMessage, ServerResponse, request, get, };