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denoland-deno/ext/node/polyfills/http.ts

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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
// import { ReadableStreamPrototype } from "ext:deno_web/06_streams.js";
const core = globalThis.__bootstrap.core;
import { TextEncoder } from "ext:deno_web/08_text_encoding.js";
import { type Deferred, deferred } from "ext:deno_node/_util/async.ts";
import {
_normalizeArgs,
// createConnection,
ListenOptions,
Socket,
} from "ext:deno_node/net.ts";
import { Buffer } from "ext:deno_node/buffer.ts";
import { ERR_SERVER_NOT_RUNNING } from "ext:deno_node/internal/errors.ts";
import { EventEmitter } from "ext:deno_node/events.ts";
import { nextTick } from "ext:deno_node/_next_tick.ts";
import {
validateBoolean,
validateInteger,
validatePort,
} from "ext:deno_node/internal/validators.mjs";
import {
addAbortSignal,
finished,
Readable as NodeReadable,
Writable as NodeWritable,
} from "ext:deno_node/stream.ts";
import {
OutgoingMessage,
parseUniqueHeadersOption,
validateHeaderName,
} from "ext:deno_node/_http_outgoing.ts";
import { kOutHeaders } from "ext:deno_node/internal/http.ts";
import { _checkIsHttpToken as checkIsHttpToken } from "ext:deno_node/_http_common.ts";
import { Agent, globalAgent } from "ext:deno_node/_http_agent.mjs";
// import { chunkExpression as RE_TE_CHUNKED } from "ext:deno_node/_http_common.ts";
import { urlToHttpOptions } from "ext:deno_node/internal/url.ts";
import { kEmptyObject } from "ext:deno_node/internal/util.mjs";
import { constants, TCP } from "ext:deno_node/internal_binding/tcp_wrap.ts";
import {
connResetException,
ERR_HTTP_HEADERS_SENT,
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.js";
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;
const ENCODER = new TextEncoder();
export interface RequestOptions {
agent?: Agent;
auth?: string;
createConnection?: () => unknown;
defaultPort?: number;
family?: number;
headers?: Record<string, string>;
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");
const kUniqueHeaders = Symbol("kUniqueHeaders");
/** 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;
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.timeout = getTimerDuration(options.timeout, "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.timeoutCb = null;
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;
}
// initiate connection
// TODO(crowlKats): finish this
/*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(createConnection(optsWithoutSignal));
}
}*/
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);
}
}
const client = this._getClient();
const req = core.ops.op_node_http_request(
this.method,
url,
headers,
client,
this.method === "POST" || this.method === "PATCH",
);
this._req = req;
if (req.requestBodyRid !== null) {
const reader = this.stream.getReader();
(async () => {
let done = false;
while (!done) {
let val;
try {
const res = await reader.read();
done = res.done;
val = res.value;
} catch (err) {
//if (terminator.aborted) break;
// TODO(lucacasonato): propagate error into response body stream
this._requestSendError = err;
this._requestSendErrorSet = true;
break;
}
if (done) break;
try {
await core.writeAll(req.requestBodyRid, val);
} catch (err) {
//if (terminator.aborted) break;
await reader.cancel(err);
// TODO(lucacasonato): propagate error into response body stream
this._requestSendError = err;
this._requestSendErrorSet = true;
break;
}
}
if (done /*&& !terminator.aborted*/) {
try {
await core.shutdown(req.requestBodyRid);
} catch (err) {
// TODO(bartlomieju): fix this conditional
// deno-lint-ignore no-constant-condition
if (true) {
this._requestSendError = err;
this._requestSendErrorSet = true;
}
}
}
//WeakMapPrototypeDelete(requestBodyReaders, req);
core.tryClose(req.requestBodyRid);
})();
}
}
_getClient(): Deno.HttpClient | undefined {
return undefined;
}
onSocket(socket, err) {
if (this.destroyed || err) {
this.destroyed = true;
// deno-lint-ignore no-inner-declarations
function _destroy(req, err) {
if (!req.aborted && !err) {
err = connResetException("socket hang up");
}
if (err) {
req.emit("error", err);
}
req._closed = true;
req.emit("close");
}
if (socket) {
if (!err && this.agent && !socket.destroyed) {
socket.emit("free");
} else {
finished(socket.destroy(err || this[kError]), (er) => {
if (er?.code === "ERR_STREAM_PREMATURE_CLOSE") {
er = null;
}
_destroy(this, er || err);
});
return;
}
}
_destroy(this, err || this[kError]);
} else {
//tickOnSocket(this, socket);
//this._flush();
}
}
// TODO(bartlomieju): use callback here
// deno-lint-ignore no-explicit-any
end(chunk?: any, encoding?: any, _cb?: any): this {
this.finished = true;
if (chunk !== undefined) {
this.write(chunk, encoding);
}
this.controller.close();
core.opAsync("op_fetch_send", this._req.requestRid).then((res) => {
const incoming = new IncomingMessageForClient(this.socket);
// 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._addHeaderLines(res.headers);
incoming._bodyRid = res.responseRid;
if (this._req.cancelHandleRid !== null) {
core.tryClose(this._req.cancelHandleRid);
}
this.emit("response", incoming);
}).catch((err) => {
if (this._req.cancelHandleRid !== null) {
core.tryClose(this._req.cancelHandleRid);
}
if (this._requestSendErrorSet) {
// 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);
}
});
}
/*
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,
signal: this.opts.signal ?? undefined,
};
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 if (e.message.includes("The signal has been aborted")) {
// Remap this error
this.emit("error", connResetException("socket hang up"));
} 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();
});
}
if (this.opts.timeout != undefined) {
clearTimeout(this.opts.timeout);
this.opts.timeout = undefined;
}
this.cb?.(res);
}*/
abort() {
if (this.aborted) {
return;
}
this.aborted = true;
this.emit("abort");
//process.nextTick(emitAbortNT, this);
this.destroy();
}
// deno-lint-ignore no-explicit-any
destroy(err?: any) {
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;
}
_createCustomClient(): Promise<Deno.HttpClient | undefined> {
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 ? `#${this.hash}` : "";
const search = this.search ? this.search : "";
const defaultPort = this.agent?.defaultPort;
const port = this.port ?? defaultPort ?? 80;
let path = this.path ?? "/";
if (!path.startsWith("/")) {
path = "/" + path;
}
return `${protocol}//${auth ? `${auth}@` : ""}${host}${
port === 80 ? "" : `:${port}`
}${path}${search}${hash}`;
}
setTimeout(timeout: number, callback?: () => void) {
if (timeout == 0) {
// Node's underlying Socket implementation expects a 0 value to disable the
// existing timeout.
if (this.opts.timeout) {
clearTimeout(this.opts.timeout);
this.opts.timeout = undefined;
this.opts.signal = undefined;
}
return;
}
const controller = new AbortController();
this.opts.signal = controller.signal;
this.opts.timeout = setTimeout(() => {
controller.abort();
this.emit("timeout");
if (callback !== undefined) {
callback();
}
}, timeout);
}
_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, "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]);
}
}
// 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 &&
StringPrototypeToLowerCase(s) === "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) {
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 = StringPrototypeToLowerCase(field);
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(StringPrototypeToLowerCase(field), 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?: 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;
#resolve: (value: Response | PromiseLike<Response>) => void;
static #enqueue(controller: ReadableStreamDefaultController, chunk: Chunk) {
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(resolve: (value: Response | PromiseLike<Response>) => 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;
}
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<string, string> = {}) {
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";
}
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;
}
this.#resolve(
new Response(body, {
headers: this.#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 && 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);
}
// Undocumented API used by `npm:compression`.
_implicitHeader() {
this.writeHead(this.statusCode);
}
}
// TODO(@AaronO): optimize
export class IncomingMessageForServer extends NodeReadable {
#req: Request;
url: string;
method: string;
// Polyfills part of net.Socket object.
// These properties are used by `npm:forwarded` for example.
socket: { remoteAddress: string; remotePort: number };
constructor(req: Request, remoteAddr: { hostname: string; port: number }) {
// 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.socket = {
remoteAddress: remoteAddr.hostname,
remotePort: remoteAddr.port,
};
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"),
);
}
// connection is deprecated, but still tested in unit test.
get connection() {
return this.socket;
}
}
type ServerHandler = (
req: IncomingMessageForServer,
res: ServerResponse,
) => void;
export function Server(handler?: ServerHandler): ServerImpl {
return new ServerImpl(handler);
}
class ServerImpl extends EventEmitter {
#httpConnections: Set<Deno.HttpConn> = new Set();
#listener?: Deno.Listener;
#addr: Deno.NetAddr;
#hasClosed = false;
#ac?: AbortController;
#servePromise: Deferred<void>;
listening = false;
constructor(handler?: ServerHandler) {
super();
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<ListenOptions>;
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.
const hostname = options.host ?? "0.0.0.0";
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 req = new IncomingMessageForServer(request, info.remoteAddr);
if (req.upgrade && this.listenerCount("upgrade") > 0) {
const { conn, response } = upgradeHttpRaw(request);
const socket = new Socket({
handle: new TCP(constants.SERVER, conn),
});
this.emit("upgrade", req, socket, Buffer.from([]));
return response;
} else {
return new Promise<Response>((resolve): void => {
const res = new ServerResponse(resolve);
this.emit("request", req, res);
});
}
};
if (this.#hasClosed) {
return;
}
this.#ac = ac;
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");
},
},
).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 (listening && this.#ac) {
this.#ac.abort();
this.#ac = undefined;
} else {
this.#servePromise!.resolve();
}
return this;
}
address() {
return {
port: this.#addr.port,
address: this.#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[]) {
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 {
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,
};