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denoland-deno/ext/http/01_http.js
Bartek Iwańczuk 016b43441b
refactor: migrate async ops to generated wrappers (#18937)
Migrates some of existing async ops to generated wrappers introduced in
https://github.com/denoland/deno/pull/18887. As a result "core.opAsync2"
was removed.

I will follow up with more PRs that migrate all the async ops to
generated wrappers.
2023-05-04 16:18:38 +02:00

566 lines
16 KiB
JavaScript

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
// deno-lint-ignore-file camelcase
const core = globalThis.Deno.core;
const internals = globalThis.__bootstrap.internals;
const primordials = globalThis.__bootstrap.primordials;
const { BadResourcePrototype, InterruptedPrototype, ops } = core;
const { op_http_write } = Deno.core.generateAsyncOpHandler("op_http_write");
import * as webidl from "ext:deno_webidl/00_webidl.js";
import { InnerBody } from "ext:deno_fetch/22_body.js";
import { Event, setEventTargetData } from "ext:deno_web/02_event.js";
import { BlobPrototype } from "ext:deno_web/09_file.js";
import {
fromInnerResponse,
newInnerResponse,
ResponsePrototype,
toInnerResponse,
} from "ext:deno_fetch/23_response.js";
import {
fromInnerRequest,
newInnerRequest,
toInnerRequest,
} from "ext:deno_fetch/23_request.js";
import { AbortController } from "ext:deno_web/03_abort_signal.js";
import {
_eventLoop,
_idleTimeoutDuration,
_idleTimeoutTimeout,
_protocol,
_readyState,
_rid,
_role,
_server,
_serverHandleIdleTimeout,
SERVER,
WebSocket,
} from "ext:deno_websocket/01_websocket.js";
import { TcpConn, UnixConn } from "ext:deno_net/01_net.js";
import { TlsConn } from "ext:deno_net/02_tls.js";
import {
Deferred,
getReadableStreamResourceBacking,
readableStreamClose,
readableStreamForRid,
ReadableStreamPrototype,
} from "ext:deno_web/06_streams.js";
import { serve } from "ext:deno_http/00_serve.js";
const {
ArrayPrototypeIncludes,
ArrayPrototypeMap,
ArrayPrototypePush,
Error,
ObjectPrototypeIsPrototypeOf,
SafeSet,
SafeSetIterator,
SetPrototypeAdd,
SetPrototypeDelete,
StringPrototypeCharCodeAt,
StringPrototypeIncludes,
StringPrototypeSplit,
StringPrototypeToLowerCase,
StringPrototypeToUpperCase,
Symbol,
SymbolAsyncIterator,
TypeError,
Uint8Array,
Uint8ArrayPrototype,
} = primordials;
const connErrorSymbol = Symbol("connError");
const _deferred = Symbol("upgradeHttpDeferred");
class HttpConn {
#rid = 0;
#closed = false;
#remoteAddr;
#localAddr;
// This set holds resource ids of resources
// that were created during lifecycle of this request.
// When the connection is closed these resources should be closed
// as well.
managedResources = new SafeSet();
constructor(rid, remoteAddr, localAddr) {
this.#rid = rid;
this.#remoteAddr = remoteAddr;
this.#localAddr = localAddr;
}
/** @returns {number} */
get rid() {
return this.#rid;
}
/** @returns {Promise<RequestEvent | null>} */
async nextRequest() {
let nextRequest;
try {
nextRequest = await core.opAsync("op_http_accept", this.#rid);
} catch (error) {
this.close();
// A connection error seen here would cause disrupted responses to throw
// a generic `BadResource` error. Instead store this error and replace
// those with it.
this[connErrorSymbol] = error;
if (
ObjectPrototypeIsPrototypeOf(BadResourcePrototype, error) ||
ObjectPrototypeIsPrototypeOf(InterruptedPrototype, error) ||
StringPrototypeIncludes(error.message, "connection closed")
) {
return null;
}
throw error;
}
if (nextRequest == null) {
// Work-around for servers (deno_std/http in particular) that call
// `nextRequest()` before upgrading a previous request which has a
// `connection: upgrade` header.
await null;
this.close();
return null;
}
const { 0: streamRid, 1: method, 2: url } = nextRequest;
SetPrototypeAdd(this.managedResources, streamRid);
/** @type {ReadableStream<Uint8Array> | undefined} */
let body = null;
// There might be a body, but we don't expose it for GET/HEAD requests.
// It will be closed automatically once the request has been handled and
// the response has been sent.
if (method !== "GET" && method !== "HEAD") {
body = readableStreamForRid(streamRid, false);
}
const innerRequest = newInnerRequest(
method,
url,
() => ops.op_http_headers(streamRid),
body !== null ? new InnerBody(body) : null,
false,
);
innerRequest[streamRid] = streamRid;
const abortController = new AbortController();
const request = fromInnerRequest(
innerRequest,
abortController.signal,
"immutable",
false,
);
const respondWith = createRespondWith(
this,
streamRid,
request,
this.#remoteAddr,
this.#localAddr,
abortController,
);
return { request, respondWith };
}
/** @returns {void} */
close() {
if (!this.#closed) {
this.#closed = true;
core.close(this.#rid);
for (const rid of new SafeSetIterator(this.managedResources)) {
SetPrototypeDelete(this.managedResources, rid);
core.close(rid);
}
}
}
[SymbolAsyncIterator]() {
// deno-lint-ignore no-this-alias
const httpConn = this;
return {
async next() {
const reqEvt = await httpConn.nextRequest();
// Change with caution, current form avoids a v8 deopt
return { value: reqEvt ?? undefined, done: reqEvt === null };
},
};
}
}
function createRespondWith(
httpConn,
streamRid,
request,
remoteAddr,
localAddr,
abortController,
) {
return async function respondWith(resp) {
try {
resp = await resp;
if (!(ObjectPrototypeIsPrototypeOf(ResponsePrototype, resp))) {
throw new TypeError(
"First argument to respondWith must be a Response or a promise resolving to a Response.",
);
}
const innerResp = toInnerResponse(resp);
// If response body length is known, it will be sent synchronously in a
// single op, in other case a "response body" resource will be created and
// we'll be streaming it.
/** @type {ReadableStream<Uint8Array> | Uint8Array | null} */
let respBody = null;
if (innerResp.body !== null) {
if (innerResp.body.unusable()) {
throw new TypeError("Body is unusable.");
}
if (
ObjectPrototypeIsPrototypeOf(
ReadableStreamPrototype,
innerResp.body.streamOrStatic,
)
) {
if (
innerResp.body.length === null ||
ObjectPrototypeIsPrototypeOf(
BlobPrototype,
innerResp.body.source,
)
) {
respBody = innerResp.body.stream;
} else {
const reader = innerResp.body.stream.getReader();
const r1 = await reader.read();
if (r1.done) {
respBody = new Uint8Array(0);
} else {
respBody = r1.value;
const r2 = await reader.read();
if (!r2.done) throw new TypeError("Unreachable");
}
}
} else {
innerResp.body.streamOrStatic.consumed = true;
respBody = innerResp.body.streamOrStatic.body;
}
} else {
respBody = new Uint8Array(0);
}
const isStreamingResponseBody = !(
typeof respBody === "string" ||
ObjectPrototypeIsPrototypeOf(Uint8ArrayPrototype, respBody)
);
try {
await core.opAsync(
"op_http_write_headers",
streamRid,
innerResp.status ?? 200,
innerResp.headerList,
isStreamingResponseBody ? null : respBody,
);
} catch (error) {
const connError = httpConn[connErrorSymbol];
if (
ObjectPrototypeIsPrototypeOf(BadResourcePrototype, error) &&
connError != null
) {
// deno-lint-ignore no-ex-assign
error = new connError.constructor(connError.message);
}
if (
respBody !== null &&
ObjectPrototypeIsPrototypeOf(ReadableStreamPrototype, respBody)
) {
await respBody.cancel(error);
}
throw error;
}
if (isStreamingResponseBody) {
let success = false;
if (
respBody === null ||
!ObjectPrototypeIsPrototypeOf(ReadableStreamPrototype, respBody)
) {
throw new TypeError("Unreachable");
}
const resourceBacking = getReadableStreamResourceBacking(respBody);
let reader;
if (resourceBacking) {
if (respBody.locked) {
throw new TypeError("ReadableStream is locked.");
}
reader = respBody.getReader(); // Aquire JS lock.
try {
await core.opAsync(
"op_http_write_resource",
streamRid,
resourceBacking.rid,
);
if (resourceBacking.autoClose) core.tryClose(resourceBacking.rid);
readableStreamClose(respBody); // Release JS lock.
success = true;
} catch (error) {
const connError = httpConn[connErrorSymbol];
if (
ObjectPrototypeIsPrototypeOf(BadResourcePrototype, error) &&
connError != null
) {
// deno-lint-ignore no-ex-assign
error = new connError.constructor(connError.message);
}
await reader.cancel(error);
throw error;
}
} else {
reader = respBody.getReader();
while (true) {
const { value, done } = await reader.read();
if (done) break;
if (!ObjectPrototypeIsPrototypeOf(Uint8ArrayPrototype, value)) {
await reader.cancel(new TypeError("Value not a Uint8Array"));
break;
}
try {
await op_http_write(streamRid, value);
} catch (error) {
const connError = httpConn[connErrorSymbol];
if (
ObjectPrototypeIsPrototypeOf(BadResourcePrototype, error) &&
connError != null
) {
// deno-lint-ignore no-ex-assign
error = new connError.constructor(connError.message);
}
await reader.cancel(error);
throw error;
}
}
success = true;
}
if (success) {
try {
await core.opAsync("op_http_shutdown", streamRid);
} catch (error) {
await reader.cancel(error);
throw error;
}
}
}
const deferred = request[_deferred];
if (deferred) {
const res = await core.opAsync("op_http_upgrade", streamRid);
let conn;
if (res.connType === "tcp") {
conn = new TcpConn(res.connRid, remoteAddr, localAddr);
} else if (res.connType === "tls") {
conn = new TlsConn(res.connRid, remoteAddr, localAddr);
} else if (res.connType === "unix") {
conn = new UnixConn(res.connRid, remoteAddr, localAddr);
} else {
throw new Error("unreachable");
}
deferred.resolve([conn, res.readBuf]);
}
const ws = resp[_ws];
if (ws) {
const wsRid = await core.opAsync(
"op_http_upgrade_websocket",
streamRid,
);
ws[_rid] = wsRid;
ws[_protocol] = resp.headers.get("sec-websocket-protocol");
httpConn.close();
ws[_readyState] = WebSocket.OPEN;
ws[_role] = SERVER;
const event = new Event("open");
ws.dispatchEvent(event);
ws[_eventLoop]();
if (ws[_idleTimeoutDuration]) {
ws.addEventListener(
"close",
() => clearTimeout(ws[_idleTimeoutTimeout]),
);
}
ws[_serverHandleIdleTimeout]();
}
} catch (error) {
abortController.abort(error);
throw error;
} finally {
if (SetPrototypeDelete(httpConn.managedResources, streamRid)) {
core.close(streamRid);
}
}
};
}
const _ws = Symbol("[[associated_ws]]");
const websocketCvf = buildCaseInsensitiveCommaValueFinder("websocket");
const upgradeCvf = buildCaseInsensitiveCommaValueFinder("upgrade");
function upgradeWebSocket(request, options = {}) {
const inner = toInnerRequest(request);
const upgrade = request.headers.get("upgrade");
const upgradeHasWebSocketOption = upgrade !== null &&
websocketCvf(upgrade);
if (!upgradeHasWebSocketOption) {
throw new TypeError(
"Invalid Header: 'upgrade' header must contain 'websocket'",
);
}
const connection = request.headers.get("connection");
const connectionHasUpgradeOption = connection !== null &&
upgradeCvf(connection);
if (!connectionHasUpgradeOption) {
throw new TypeError(
"Invalid Header: 'connection' header must contain 'Upgrade'",
);
}
const websocketKey = request.headers.get("sec-websocket-key");
if (websocketKey === null) {
throw new TypeError(
"Invalid Header: 'sec-websocket-key' header must be set",
);
}
const accept = ops.op_http_websocket_accept_header(websocketKey);
const r = newInnerResponse(101);
r.headerList = [
["upgrade", "websocket"],
["connection", "Upgrade"],
["sec-websocket-accept", accept],
];
const protocolsStr = request.headers.get("sec-websocket-protocol") || "";
const protocols = StringPrototypeSplit(protocolsStr, ", ");
if (protocols && options.protocol) {
if (ArrayPrototypeIncludes(protocols, options.protocol)) {
ArrayPrototypePush(r.headerList, [
"sec-websocket-protocol",
options.protocol,
]);
} else {
throw new TypeError(
`Protocol '${options.protocol}' not in the request's protocol list (non negotiable)`,
);
}
}
const socket = webidl.createBranded(WebSocket);
setEventTargetData(socket);
socket[_server] = true;
socket[_idleTimeoutDuration] = options.idleTimeout ?? 120;
socket[_idleTimeoutTimeout] = null;
if (inner._wantsUpgrade) {
return inner._wantsUpgrade("upgradeWebSocket", r, socket);
}
const response = fromInnerResponse(r, "immutable");
response[_ws] = socket;
return { response, socket };
}
function upgradeHttp(req) {
const inner = toInnerRequest(req);
if (inner._wantsUpgrade) {
return inner._wantsUpgrade("upgradeHttp", arguments);
}
req[_deferred] = new Deferred();
return req[_deferred].promise;
}
const spaceCharCode = StringPrototypeCharCodeAt(" ", 0);
const tabCharCode = StringPrototypeCharCodeAt("\t", 0);
const commaCharCode = StringPrototypeCharCodeAt(",", 0);
/** Builds a case function that can be used to find a case insensitive
* value in some text that's separated by commas.
*
* This is done because it doesn't require any allocations.
* @param checkText {string} - The text to find. (ex. "websocket")
*/
function buildCaseInsensitiveCommaValueFinder(checkText) {
const charCodes = ArrayPrototypeMap(
StringPrototypeSplit(
StringPrototypeToLowerCase(checkText),
"",
),
(c) => [
StringPrototypeCharCodeAt(c, 0),
StringPrototypeCharCodeAt(StringPrototypeToUpperCase(c), 0),
],
);
/** @type {number} */
let i;
/** @type {number} */
let char;
/** @param {string} value */
return function (value) {
for (i = 0; i < value.length; i++) {
char = StringPrototypeCharCodeAt(value, i);
skipWhitespace(value);
if (hasWord(value)) {
skipWhitespace(value);
if (i === value.length || char === commaCharCode) {
return true;
}
} else {
skipUntilComma(value);
}
}
return false;
};
/** @param value {string} */
function hasWord(value) {
for (let j = 0; j < charCodes.length; ++j) {
const { 0: cLower, 1: cUpper } = charCodes[j];
if (cLower === char || cUpper === char) {
char = StringPrototypeCharCodeAt(value, ++i);
} else {
return false;
}
}
return true;
}
/** @param value {string} */
function skipWhitespace(value) {
while (char === spaceCharCode || char === tabCharCode) {
char = StringPrototypeCharCodeAt(value, ++i);
}
}
/** @param value {string} */
function skipUntilComma(value) {
while (char !== commaCharCode && i < value.length) {
char = StringPrototypeCharCodeAt(value, ++i);
}
}
}
// Expose this function for unit tests
internals.buildCaseInsensitiveCommaValueFinder =
buildCaseInsensitiveCommaValueFinder;
export { _ws, HttpConn, serve, upgradeHttp, upgradeWebSocket };