// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. // deno-lint-ignore-file no-console import { assertMatch, assertRejects } from "@std/assert"; import { Buffer, BufReader, BufWriter } from "@std/io"; import { TextProtoReader } from "../testdata/run/textproto.ts"; import { assert, assertEquals, assertStringIncludes, assertThrows, curlRequest, curlRequestWithStdErr, execCode, execCode3, fail, tmpUnixSocketPath, } from "./test_util.ts"; // Since these tests may run in parallel, ensure this port is unique to this file const servePort = 4502; const { upgradeHttpRaw, addTrailers, serveHttpOnListener, serveHttpOnConnection, getCachedAbortSignal, // @ts-expect-error TypeScript (as of 3.7) does not support indexing namespaces by symbol } = Deno[Deno.internal]; function createOnErrorCb(ac: AbortController): (err: unknown) => Response { return (err) => { console.error(err); ac.abort(); return new Response("Internal server error", { status: 500 }); }; } function onListen( resolve: (value: void | PromiseLike) => void, ): ({ hostname, port }: { hostname: string; port: number }) => void { return () => { resolve(); }; } async function makeServer( handler: ( req: Request, info: Deno.ServeHandlerInfo, ) => Response | Promise, ): Promise< { finished: Promise; abort: () => void; shutdown: () => Promise; [Symbol.asyncDispose](): PromiseLike; } > { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler, port: servePort, signal: ac.signal, onListen: onListen(resolve), }); await promise; return { finished: server.finished, abort() { ac.abort(); }, async shutdown() { await server.shutdown(); }, [Symbol.asyncDispose]() { return server[Symbol.asyncDispose](); }, }; } Deno.test(async function httpServerShutsDownPortBeforeResolving() { const { finished, abort } = await makeServer((_req) => new Response("ok")); assertThrows(() => Deno.listen({ port: servePort })); abort(); await finished; const listener = Deno.listen({ port: servePort }); listener!.close(); }); // When shutting down abruptly, we require that all in-progress connections are aborted, // no new connections are allowed, and no new transactions are allowed on existing connections. Deno.test( { permissions: { net: true } }, async function httpServerShutdownAbruptGuaranteeHttp11() { const deferredQueue: { input: ReturnType>; out: ReturnType>; }[] = []; const { finished, abort } = await makeServer((_req) => { const { input, out } = deferredQueue.shift()!; return new Response( new ReadableStream({ async start(controller) { controller.enqueue(new Uint8Array([46])); out.resolve(); controller.enqueue(encoder.encode(await input.promise)); controller.close(); }, }), ); }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); const conn = await Deno.connect({ port: servePort }); const w = conn.writable.getWriter(); const r = conn.readable.getReader(); const deferred1 = { input: Promise.withResolvers(), out: Promise.withResolvers(), }; deferredQueue.push(deferred1); const deferred2 = { input: Promise.withResolvers(), out: Promise.withResolvers(), }; deferredQueue.push(deferred2); const deferred3 = { input: Promise.withResolvers(), out: Promise.withResolvers(), }; deferredQueue.push(deferred3); deferred1.input.resolve("#"); deferred2.input.resolve("$"); await w.write(encoder.encode(`GET / HTTP/1.1\nConnection: keep-alive\n\n`)); await w.write(encoder.encode(`GET / HTTP/1.1\nConnection: keep-alive\n\n`)); // Fully read two responses let text = ""; while (!text.includes("$\r\n")) { text += decoder.decode((await r.read()).value); } await w.write(encoder.encode(`GET / HTTP/1.1\nConnection: keep-alive\n\n`)); await deferred3.out.promise; // This is half served, so wait for the chunk that has the first '.' text = ""; while (!text.includes("1\r\n.\r\n")) { text += decoder.decode((await r.read()).value); } abort(); // This doesn't actually write anything, but we release it after aborting deferred3.input.resolve("!"); // Guarantee: can't connect to an aborted server (though this may not happen immediately) let failed = false; for (let i = 0; i < 10; i++) { try { const conn = await Deno.connect({ port: servePort }); conn.close(); // Give the runtime a few ticks to settle (required for Windows) await new Promise((r) => setTimeout(r, 2 ** i)); continue; } catch (_) { failed = true; break; } } assert(failed, "The Deno.serve listener was not disabled promptly"); // Guarantee: the pipeline is closed abruptly assert((await r.read()).done); try { conn.close(); } catch (_) { // Ignore } await finished; }, ); // When shutting down abruptly, we require that all in-progress connections are aborted, // no new connections are allowed, and no new transactions are allowed on existing connections. Deno.test( { permissions: { net: true } }, async function httpServerShutdownGracefulGuaranteeHttp11() { const deferredQueue: { input: ReturnType>; out: ReturnType>; }[] = []; const { finished, shutdown } = await makeServer((_req) => { const { input, out } = deferredQueue.shift()!; return new Response( new ReadableStream({ async start(controller) { controller.enqueue(new Uint8Array([46])); out.resolve(); controller.enqueue(encoder.encode(await input.promise)); controller.close(); }, }), ); }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); const conn = await Deno.connect({ port: servePort }); const w = conn.writable.getWriter(); const r = conn.readable.getReader(); const deferred1 = { input: Promise.withResolvers(), out: Promise.withResolvers(), }; deferredQueue.push(deferred1); const deferred2 = { input: Promise.withResolvers(), out: Promise.withResolvers(), }; deferredQueue.push(deferred2); const deferred3 = { input: Promise.withResolvers(), out: Promise.withResolvers(), }; deferredQueue.push(deferred3); deferred1.input.resolve("#"); deferred2.input.resolve("$"); await w.write(encoder.encode(`GET / HTTP/1.1\nConnection: keep-alive\n\n`)); await w.write(encoder.encode(`GET / HTTP/1.1\nConnection: keep-alive\n\n`)); // Fully read two responses let text = ""; while (!text.includes("$\r\n")) { text += decoder.decode((await r.read()).value); } await w.write(encoder.encode(`GET / HTTP/1.1\nConnection: keep-alive\n\n`)); await deferred3.out.promise; // This is half served, so wait for the chunk that has the first '.' text = ""; while (!text.includes("1\r\n.\r\n")) { text += decoder.decode((await r.read()).value); } const shutdownPromise = shutdown(); // Release the final response _after_ we shut down deferred3.input.resolve("!"); // Guarantee: can't connect to an aborted server (though this may not happen immediately) let failed = false; for (let i = 0; i < 10; i++) { try { const conn = await Deno.connect({ port: servePort }); conn.close(); // Give the runtime a few ticks to settle (required for Windows) await new Promise((r) => setTimeout(r, 2 ** i)); continue; } catch (_) { failed = true; break; } } assert(failed, "The Deno.serve listener was not disabled promptly"); // Guarantee: existing connections fully drain while (!text.includes("!\r\n")) { text += decoder.decode((await r.read()).value); } await shutdownPromise; try { conn.close(); } catch (_) { // Ignore } await finished; }, ); // Ensure that resources don't leak during a graceful shutdown Deno.test( { permissions: { net: true, write: true, read: true } }, async function httpServerShutdownGracefulResources() { const { promise, resolve } = Promise.withResolvers(); const { finished, shutdown } = await makeServer(async (_req) => { resolve(); await new Promise((r) => setTimeout(r, 10)); return new Response((await makeTempFile(1024 * 1024)).readable); }); const f = fetch(`http://localhost:${servePort}`); await promise; assertEquals((await (await f).text()).length, 1048576); await shutdown(); await finished; }, ); // Ensure that resources don't leak during a graceful shutdown Deno.test( { permissions: { net: true, write: true, read: true } }, async function httpServerShutdownGracefulResources2() { const waitForAbort = Promise.withResolvers(); const waitForRequest = Promise.withResolvers(); const { finished, shutdown } = await makeServer(async (_req) => { waitForRequest.resolve(); await waitForAbort.promise; await new Promise((r) => setTimeout(r, 10)); return new Response((await makeTempFile(1024 * 1024)).readable); }); const f = fetch(`http://localhost:${servePort}`); await waitForRequest.promise; const s = shutdown(); waitForAbort.resolve(); assertEquals((await (await f).text()).length, 1048576); await s; await finished; }, ); Deno.test( { permissions: { net: true, write: true, read: true } }, async function httpServerExplicitResourceManagement() { let dataPromise; { await using _server = await makeServer(async (_req) => { return new Response((await makeTempFile(1024 * 1024)).readable); }); const resp = await fetch(`http://localhost:${servePort}`); dataPromise = resp.bytes(); } assertEquals((await dataPromise).byteLength, 1048576); }, ); Deno.test( { permissions: { net: true, write: true, read: true } }, async function httpServerExplicitResourceManagementManualClose() { await using server = await makeServer(async (_req) => { return new Response((await makeTempFile(1024 * 1024)).readable); }); const resp = await fetch(`http://localhost:${servePort}`); const [_, data] = await Promise.all([ server.shutdown(), resp.bytes(), ]); assertEquals(data.byteLength, 1048576); }, ); Deno.test( { permissions: { read: true, run: true } }, async function httpServerUnref() { const [statusCode, _output] = await execCode(` async function main() { const server = Deno.serve({ port: ${servePort}, handler: () => null }); server.unref(); await server.finished; // This doesn't block the program from exiting } main(); `); assertEquals(statusCode, 0); }, ); Deno.test(async function httpServerCanResolveHostnames() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: (_req) => new Response("ok"), hostname: "localhost", port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; const resp = await fetch(`http://localhost:${servePort}/`, { headers: { "connection": "close" }, }); const text = await resp.text(); assertEquals(text, "ok"); ac.abort(); await server.finished; }); Deno.test(async function httpServerRejectsOnAddrInUse() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: (_req) => new Response("ok"), hostname: "localhost", port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; assertThrows( () => Deno.serve({ handler: (_req) => new Response("ok"), hostname: "localhost", port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }), Deno.errors.AddrInUse, ); ac.abort(); await server.finished; }); Deno.test({ permissions: { net: true } }, async function httpServerBasic() { const ac = new AbortController(); const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: async (request, { remoteAddr }) => { // FIXME(bartlomieju): // make sure that request can be inspected console.log(request); assertEquals(new URL(request.url).href, `http://127.0.0.1:${servePort}/`); assertEquals(await request.text(), ""); assertEquals(remoteAddr.hostname, "127.0.0.1"); deferred.resolve(); return new Response("Hello World", { headers: { "foo": "bar" } }); }, port: servePort, signal: ac.signal, onListen: (addr) => listeningDeferred.resolve(addr), onError: createOnErrorCb(ac), }); const addr = await listeningDeferred.promise; assertEquals(addr.hostname, server.addr.hostname); assertEquals(addr.port, server.addr.port); const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); await deferred.promise; const clone = resp.clone(); const text = await resp.text(); assertEquals(text, "Hello World"); assertEquals(resp.headers.get("foo"), "bar"); const cloneText = await clone.text(); assertEquals(cloneText, "Hello World"); ac.abort(); await server.finished; }); // Test serving of HTTP on an arbitrary listener. Deno.test( { permissions: { net: true } }, async function httpServerOnListener() { const ac = new AbortController(); const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const listener = Deno.listen({ port: servePort }); const server = serveHttpOnListener( listener, ac.signal, async ( request: Request, { remoteAddr }: { remoteAddr: { hostname: string } }, ) => { assertEquals( new URL(request.url).href, `http://127.0.0.1:${servePort}/`, ); assertEquals(await request.text(), ""); assertEquals(remoteAddr.hostname, "127.0.0.1"); deferred.resolve(); return new Response("Hello World", { headers: { "foo": "bar" } }); }, createOnErrorCb(ac), onListen(listeningDeferred.resolve), ); await listeningDeferred.promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); await listeningDeferred.promise; const clone = resp.clone(); const text = await resp.text(); assertEquals(text, "Hello World"); assertEquals(resp.headers.get("foo"), "bar"); const cloneText = await clone.text(); assertEquals(cloneText, "Hello World"); ac.abort(); await server.finished; }, ); // Test serving of HTTP on an arbitrary connection. Deno.test( { permissions: { net: true } }, async function httpServerOnConnection() { const ac = new AbortController(); const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const listener = Deno.listen({ port: servePort }); const acceptPromise = listener.accept(); const fetchPromise = fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); const server = serveHttpOnConnection( await acceptPromise, ac.signal, async ( request: Request, { remoteAddr }: { remoteAddr: { hostname: string } }, ) => { assertEquals( new URL(request.url).href, `http://127.0.0.1:${servePort}/`, ); assertEquals(await request.text(), ""); assertEquals(remoteAddr.hostname, "127.0.0.1"); deferred.resolve(); return new Response("Hello World", { headers: { "foo": "bar" } }); }, createOnErrorCb(ac), onListen(listeningDeferred.resolve), ); const resp = await fetchPromise; await deferred.promise; const clone = resp.clone(); const text = await resp.text(); assertEquals(text, "Hello World"); assertEquals(resp.headers.get("foo"), "bar"); const cloneText = await clone.text(); assertEquals(cloneText, "Hello World"); // Note that we don't need to abort this server -- it closes when the connection does // ac.abort(); await server.finished; listener.close(); }, ); Deno.test({ permissions: { net: true } }, async function httpServerOnError() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); let requestStash: Request | null; const server = Deno.serve({ handler: async (request: Request) => { requestStash = request; await new Promise((r) => setTimeout(r, 100)); throw "fail"; }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: () => { return new Response("failed: " + requestStash!.url, { status: 500 }); }, }); await promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); const text = await resp.text(); ac.abort(); await server.finished; assertEquals(text, `failed: http://127.0.0.1:${servePort}/`); }); Deno.test( { permissions: { net: true } }, async function httpServerOnErrorFails() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); // NOTE(bartlomieju): deno lint doesn't know that it's actually used later, // but TypeScript can't see that either ¯\_(ツ)_/¯ // deno-lint-ignore no-unused-vars let requestStash: Request | null; const server = Deno.serve({ handler: async (request: Request) => { requestStash = request; await new Promise((r) => setTimeout(r, 100)); throw "fail"; }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: () => { throw "again"; }, }); await promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); const text = await resp.text(); ac.abort(); await server.finished; assertEquals(text, "Internal Server Error"); }, ); Deno.test( { permissions: { net: true } }, async function httpServerMultipleResponseBodyConsume() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const response = new Response("Hello World"); let hadError = false; const server = Deno.serve({ handler: () => { return response; }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: () => { hadError = true; return new Response("Internal Server Error", { status: 500 }); }, }); await promise; assert(!response.bodyUsed); const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); assertEquals(resp.status, 200); const text = await resp.text(); assertEquals(text, "Hello World"); assert(response.bodyUsed); const resp2 = await fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); assertEquals(resp2.status, 500); const text2 = await resp2.text(); assertEquals(text2, "Internal Server Error"); assert(hadError); assert(response.bodyUsed); ac.abort(); await server.finished; }, ); Deno.test({ permissions: { net: true } }, async function httpServerOverload1() { const ac = new AbortController(); const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }, async (request) => { // FIXME(bartlomieju): // make sure that request can be inspected console.log(request); assertEquals(new URL(request.url).href, `http://127.0.0.1:${servePort}/`); assertEquals(await request.text(), ""); deferred.resolve(); return new Response("Hello World", { headers: { "foo": "bar" } }); }); await listeningDeferred.promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); await deferred.promise; const clone = resp.clone(); const text = await resp.text(); assertEquals(text, "Hello World"); assertEquals(resp.headers.get("foo"), "bar"); const cloneText = await clone.text(); assertEquals(cloneText, "Hello World"); ac.abort(); await server.finished; }); Deno.test({ permissions: { net: true } }, async function httpServerOverload2() { const ac = new AbortController(); const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }, async (request) => { // FIXME(bartlomieju): // make sure that request can be inspected console.log(request); assertEquals(new URL(request.url).href, `http://127.0.0.1:${servePort}/`); assertEquals(await request.text(), ""); deferred.resolve(); return new Response("Hello World", { headers: { "foo": "bar" } }); }); await listeningDeferred.promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: { "connection": "close" }, }); await deferred.promise; const clone = resp.clone(); const text = await resp.text(); assertEquals(text, "Hello World"); assertEquals(resp.headers.get("foo"), "bar"); const cloneText = await clone.text(); assertEquals(cloneText, "Hello World"); ac.abort(); await server.finished; }); Deno.test( { permissions: { net: true } }, function httpServerErrorOverloadMissingHandler() { // @ts-ignore - testing invalid overload assertThrows(() => Deno.serve(), TypeError, "handler"); // @ts-ignore - testing invalid overload assertThrows(() => Deno.serve({}), TypeError, "handler"); assertThrows( // @ts-ignore - testing invalid overload () => Deno.serve({ handler: undefined }), TypeError, "handler", ); assertThrows( // @ts-ignore - testing invalid overload () => Deno.serve(undefined, { handler: () => {} }), TypeError, "handler", ); }, ); Deno.test({ permissions: { net: true } }, async function httpServerPort0() { const ac = new AbortController(); const server = Deno.serve({ handler() { return new Response("Hello World"); }, port: 0, signal: ac.signal, onListen({ port }) { assert(port > 0 && port < 65536); ac.abort(); }, }); await server.finished; }); Deno.test( { permissions: { net: true } }, async function httpServerDefaultOnListenCallback() { const ac = new AbortController(); const consoleLog = console.log; console.log = (msg) => { try { const match = msg.match( /Listening on http:\/\/(localhost|0\.0\.0\.0):(\d+)\//, ); assert(!!match, `Didn't match ${msg}`); const port = +match[2]; assert(port > 0 && port < 65536); } finally { ac.abort(); } }; try { const server = Deno.serve({ handler() { return new Response("Hello World"); }, hostname: "0.0.0.0", port: 0, signal: ac.signal, }); await server.finished; } finally { console.log = consoleLog; } }, ); // https://github.com/denoland/deno/issues/15107 Deno.test( { permissions: { net: true } }, async function httpLazyHeadersIssue15107() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); let headers: Headers; const server = Deno.serve({ handler: async (request) => { await request.text(); headers = request.headers; deferred.resolve(); return new Response(""); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); // Send GET request with a body + content-length. const encoder = new TextEncoder(); const body = `GET / HTTP/1.1\r\nHost: 127.0.0.1:2333\r\nContent-Length: 5\r\n\r\n12345`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); assertEquals(headers!.get("content-length"), "5"); ac.abort(); await server.finished; }, ); Deno.test({ permissions: { net: true } }, async function validPortString() { const server = Deno.serve({ handler: (_request) => new Response(), port: "4501" as unknown as number, }); assertEquals(server.addr.transport, "tcp"); assertEquals(server.addr.port, 4501); await server.shutdown(); }); Deno.test({ permissions: { net: true } }, function invalidPortFloat() { assertThrows( () => Deno.serve({ handler: (_request) => new Response(), port: 45.1, }), TypeError, `Invalid port: 45.1`, ); }); Deno.test({ permissions: { net: true } }, function invalidPortNaN() { assertThrows( () => Deno.serve({ handler: (_request) => new Response(), port: NaN, }), TypeError, `Invalid port: NaN`, ); }); Deno.test({ permissions: { net: true } }, function invalidPortString() { assertThrows( () => Deno.serve({ handler: (_request) => new Response(), port: "some-non-number-string" as unknown as number, }), TypeError, `Invalid port: 'some-non-number-string'`, ); }); Deno.test({ permissions: { net: true } }, function invalidPortTooSmall() { assertThrows( () => Deno.serve({ handler: (_request) => new Response(), port: -111, }), RangeError, `Invalid port (out of range): -111`, ); }); Deno.test({ permissions: { net: true } }, function invalidPortTooLarge() { assertThrows( () => Deno.serve({ handler: (_request) => new Response(), port: 100000, }), RangeError, `Invalid port (out of range): 100000`, ); }); Deno.test({ permissions: { net: true } }, function invalidPortType() { assertThrows( () => Deno.serve({ handler: (_request) => new Response(), port: true as unknown as number, }), TypeError, `Invalid port (expected number): true`, ); }); function createUrlTest( name: string, methodAndPath: string, host: string | null, expected: string, ) { Deno.test(`httpServerUrl${name}`, async () => { const listeningDeferred = Promise.withResolvers(); const urlDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: (request: Request) => { urlDeferred.resolve(request.url); return new Response(""); }, port: 0, signal: ac.signal, onListen: ({ port }: { port: number }) => { listeningDeferred.resolve(port); }, onError: createOnErrorCb(ac), }); const port = await listeningDeferred.promise; const conn = await Deno.connect({ port }); const encoder = new TextEncoder(); const body = `${methodAndPath} HTTP/1.1\r\n${ host ? ("Host: " + host + "\r\n") : "" }Content-Length: 5\r\n\r\n12345`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); try { const expectedResult = expected.replace("HOST", "localhost").replace( "PORT", `${port}`, ); assertEquals(await urlDeferred.promise, expectedResult); } finally { ac.abort(); await server.finished; conn.close(); } }); } createUrlTest("WithPath", "GET /path", null, "http://HOST:PORT/path"); createUrlTest( "WithPathAndHost", "GET /path", "deno.land", "http://deno.land/path", ); createUrlTest( "WithAbsolutePath", "GET http://localhost/path", null, "http://localhost/path", ); createUrlTest( "WithAbsolutePathAndHost", "GET http://localhost/path", "deno.land", "http://localhost/path", ); createUrlTest( "WithPortAbsolutePath", "GET http://localhost:1234/path", null, "http://localhost:1234/path", ); createUrlTest( "WithPortAbsolutePathAndHost", "GET http://localhost:1234/path", "deno.land", "http://localhost:1234/path", ); createUrlTest( "WithPortAbsolutePathAndHostWithPort", "GET http://localhost:1234/path", "deno.land:9999", "http://localhost:1234/path", ); createUrlTest("WithAsterisk", "OPTIONS *", null, "*"); createUrlTest( "WithAuthorityForm", "CONNECT deno.land:80", null, "deno.land:80", ); // TODO(mmastrac): These should probably be 400 errors createUrlTest("WithInvalidAsterisk", "GET *", null, "*"); createUrlTest("WithInvalidNakedPath", "GET path", null, "path"); createUrlTest( "WithInvalidNakedAuthority", "GET deno.land:1234", null, "deno.land:1234", ); Deno.test( { permissions: { net: true } }, async function httpServerGetRequestBody() { const deferred = Promise.withResolvers(); const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: (request) => { assertEquals(request.body, null); deferred.resolve(); return new Response("", { headers: {} }); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); // Send GET request with a body + content-length. const encoder = new TextEncoder(); const body = `GET / HTTP/1.1\r\nHost: 127.0.0.1:${servePort}\r\nContent-Length: 5\r\n\r\n12345`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); const resp = new Uint8Array(200); const readResult = await conn.read(resp); assert(readResult); assert(readResult > 0); conn.close(); await deferred.promise; ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerAbortedRequestBody() { const deferred = Promise.withResolvers(); const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: async (request) => { await assertRejects(async () => { await request.text(); }); deferred.resolve(); // Not actually used return new Response(); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); // Send POST request with a body + content-length, but don't send it all const encoder = new TextEncoder(); const body = `POST / HTTP/1.1\r\nHost: 127.0.0.1:${servePort}\r\nContent-Length: 10\r\n\r\n12345`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); conn.close(); await deferred.promise; ac.abort(); await server.finished; }, ); function createStreamTest(count: number, delay: number, action: string) { function doAction(controller: ReadableStreamDefaultController, i: number) { if (i == count) { if (action == "Throw") { controller.error(new Error("Expected error!")); } else { controller.close(); } } else { controller.enqueue(`a${i}`); if (delay == 0) { doAction(controller, i + 1); } else { setTimeout(() => doAction(controller, i + 1), delay); } } } function makeStream(_count: number, delay: number): ReadableStream { return new ReadableStream({ start(controller) { if (delay == 0) { doAction(controller, 0); } else { setTimeout(() => doAction(controller, 0), delay); } }, }).pipeThrough(new TextEncoderStream()); } Deno.test(`httpServerStreamCount${count}Delay${delay}${action}`, async () => { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: (_request) => { return new Response(makeStream(count, delay)); }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); try { await promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`); if (action == "Throw") { await assertRejects(async () => { await resp.text(); }); } else { const text = await resp.text(); let expected = ""; for (let i = 0; i < count; i++) { expected += `a${i}`; } assertEquals(text, expected); } } finally { ac.abort(); await server.shutdown(); } }); } for (const count of [0, 1, 2, 3]) { for (const delay of [0, 1, 25]) { // Creating a stream that errors in start will throw if (delay > 0) { createStreamTest(count, delay, "Throw"); } createStreamTest(count, delay, "Close"); } } Deno.test( { permissions: { net: true } }, async function httpServerStreamRequest() { const stream = new TransformStream(); const writer = stream.writable.getWriter(); writer.write(new TextEncoder().encode("hello ")); writer.write(new TextEncoder().encode("world")); writer.close(); const { promise, resolve } = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (request) => { const reqBody = await request.text(); assertEquals("hello world", reqBody); return new Response("yo"); }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { body: stream.readable, method: "POST", headers: { "connection": "close" }, }); assertEquals(await resp.text(), "yo"); ac.abort(); await server.finished; }, ); Deno.test({ permissions: { net: true } }, async function httpServerClose() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: () => new Response("ok"), port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; const client = await Deno.connect({ port: servePort }); client.close(); ac.abort(); await server.finished; }); // https://github.com/denoland/deno/issues/15427 Deno.test({ permissions: { net: true } }, async function httpServerCloseGet() { const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const requestDeferred = Promise.withResolvers(); const responseDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: async () => { requestDeferred.resolve(); await new Promise((r) => setTimeout(r, 500)); responseDeferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `GET / HTTP/1.1\r\nHost: example.domain\r\nConnection: close\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await requestDeferred.promise; conn.close(); await responseDeferred.promise; ac.abort(); await server.finished; }); // FIXME: Deno.test( { permissions: { net: true } }, async function httpServerEmptyBlobResponse() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: () => new Response(new Blob([])), port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`); const respBody = await resp.text(); assertEquals("", respBody); ac.abort(); await server.finished; }, ); // https://github.com/denoland/deno/issues/17291 Deno.test( { permissions: { net: true } }, async function httpServerIncorrectChunkedResponse() { const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const errorDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: () => { const body = new ReadableStream({ start(controller) { // Non-encoded string is not a valid readable chunk. // @ts-ignore we're testing that input is invalid controller.enqueue("wat"); }, type: "bytes", }); return new Response(body); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: (err) => { const errResp = new Response( `Internal server error: ${(err as Error).message}`, { status: 500 }, ); errorDeferred.resolve(); return errResp; }, }); await listeningDeferred.promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`); // Incorrectly implemented reader ReadableStream should reject. assertStringIncludes(await resp.text(), "Failed to execute 'enqueue'"); await errorDeferred.promise; ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerCorrectLengthForUnicodeString() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: () => new Response("韓國".repeat(10)), port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); const body = `GET / HTTP/1.1\r\nHost: example.domain\r\nConnection: close\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); conn.close(); ac.abort(); await server.finished; assert(msg.includes("content-length: 60")); }, ); Deno.test({ permissions: { net: true } }, async function httpServerWebSocket() { const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const doneDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: (request) => { const { response, socket, } = Deno.upgradeWebSocket(request); socket.onerror = (e) => { console.error(e); fail(); }; socket.onmessage = (m) => { socket.send(m.data); socket.close(1001); }; socket.onclose = () => doneDeferred.resolve(); return response; }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const def = Promise.withResolvers(); const ws = new WebSocket(`ws://localhost:${servePort}`); ws.onmessage = (m) => assertEquals(m.data, "foo"); ws.onerror = (e) => { console.error(e); fail(); }; ws.onclose = () => def.resolve(); ws.onopen = () => ws.send("foo"); await def.promise; await doneDeferred.promise; ac.abort(); await server.finished; }); Deno.test( { permissions: { net: true } }, async function httpServerWebSocketRaw() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: async (request) => { const { conn, response } = upgradeHttpRaw(request); const buf = new Uint8Array(1024); let read; // Write our fake HTTP upgrade await conn.write( new TextEncoder().encode( "HTTP/1.1 101 Switching Protocols\r\nConnection: Upgraded\r\n\r\nExtra", ), ); // Upgrade data read = await conn.read(buf); assertEquals( new TextDecoder().decode(buf.subarray(0, read!)), "Upgrade data", ); // Read the packet to echo read = await conn.read(buf); // Echo await conn.write(buf.subarray(0, read!)); conn.close(); return response; }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; const conn = await Deno.connect({ port: servePort }); await conn.write( new TextEncoder().encode( "GET / HTTP/1.1\r\nConnection: Upgrade\r\nUpgrade: websocket\r\n\r\nUpgrade data", ), ); const buf = new Uint8Array(1024); let len; // Headers let headers = ""; for (let i = 0; i < 2; i++) { len = await conn.read(buf); headers += new TextDecoder().decode(buf.subarray(0, len!)); if (headers.endsWith("Extra")) { break; } } assertMatch( headers, /HTTP\/1\.1 101 Switching Protocols[ ,.A-Za-z:0-9\r\n]*Extra/im, ); // Data to echo await conn.write(new TextEncoder().encode("buffer data")); // Echo len = await conn.read(buf); assertEquals( new TextDecoder().decode(buf.subarray(0, len!)), "buffer data", ); conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerWebSocketUpgradeTwice() { const ac = new AbortController(); const done = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: (request) => { const { response, socket, } = Deno.upgradeWebSocket(request); assertThrows( () => { Deno.upgradeWebSocket(request); }, Deno.errors.Http, "already upgraded", ); socket.onerror = (e) => { console.error(e); fail(); }; socket.onmessage = (m) => { socket.send(m.data); socket.close(1001); }; socket.onclose = () => done.resolve(); return response; }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const def = Promise.withResolvers(); const ws = new WebSocket(`ws://localhost:${servePort}`); ws.onmessage = (m) => assertEquals(m.data, "foo"); ws.onerror = (e) => { console.error(e); fail(); }; ws.onclose = () => def.resolve(); ws.onopen = () => ws.send("foo"); await def.promise; await done.promise; ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerWebSocketCloseFast() { const ac = new AbortController(); const done = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: (request) => { const { response, socket, } = Deno.upgradeWebSocket(request); socket.onopen = () => socket.close(); socket.onclose = () => done.resolve(); return response; }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const def = Promise.withResolvers(); const ws = new WebSocket(`ws://localhost:${servePort}`); ws.onerror = (e) => { console.error(e); fail(); }; ws.onclose = () => def.resolve(); await def.promise; await done.promise; ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerWebSocketCanAccessRequest() { const ac = new AbortController(); const done = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: (request) => { const { response, socket, } = Deno.upgradeWebSocket(request); socket.onerror = (e) => { console.error(e); fail(); }; socket.onmessage = (_m) => { socket.send(request.url.toString()); socket.close(1001); }; socket.onclose = () => done.resolve(); return response; }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const def = Promise.withResolvers(); const ws = new WebSocket(`ws://localhost:${servePort}`); ws.onmessage = (m) => assertEquals(m.data, `http://localhost:${servePort}/`); ws.onerror = (e) => { console.error(e); fail(); }; ws.onclose = () => def.resolve(); ws.onopen = () => ws.send("foo"); await def.promise; await done.promise; ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpVeryLargeRequest() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); let headers: Headers; const server = Deno.serve({ handler: (request) => { headers = request.headers; deferred.resolve(); return new Response(""); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); // Send GET request with a body + content-length. const encoder = new TextEncoder(); const smthElse = "x".repeat(16 * 1024 + 256); const body = `GET / HTTP/1.1\r\nHost: 127.0.0.1:2333\r\nContent-Length: 5\r\nSomething-Else: ${smthElse}\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); assertEquals(headers!.get("content-length"), "5"); assertEquals(headers!.get("something-else"), smthElse); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpVeryLargeRequestAndBody() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); let headers: Headers; let text: string; const server = Deno.serve({ handler: async (request) => { headers = request.headers; text = await request.text(); deferred.resolve(); return new Response(""); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); // Send GET request with a body + content-length. const encoder = new TextEncoder(); const smthElse = "x".repeat(16 * 1024 + 256); const reqBody = "hello world".repeat(1024); let body = `PUT / HTTP/1.1\r\nHost: 127.0.0.1:2333\r\nContent-Length: ${reqBody.length}\r\nSomething-Else: ${smthElse}\r\n\r\n${reqBody}`; while (body.length > 0) { const writeResult = await conn.write(encoder.encode(body)); body = body.slice(writeResult); } await deferred.promise; conn.close(); assertEquals(headers!.get("content-length"), `${reqBody.length}`); assertEquals(headers!.get("something-else"), smthElse); assertEquals(text!, reqBody); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpConnectionClose() { const deferred = Promise.withResolvers(); const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: () => { deferred.resolve(); return new Response(""); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); // Send GET request with a body + connection: close. const encoder = new TextEncoder(); const body = `GET / HTTP/1.1\r\nHost: 127.0.0.1:2333\r\nConnection: Close\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); async function testDuplex( reader: ReadableStreamDefaultReader, writable: WritableStreamDefaultWriter, ) { await writable.write(new Uint8Array([1])); const chunk1 = await reader.read(); assert(!chunk1.done); assertEquals(chunk1.value, new Uint8Array([1])); await writable.write(new Uint8Array([2])); const chunk2 = await reader.read(); assert(!chunk2.done); assertEquals(chunk2.value, new Uint8Array([2])); await writable.close(); const chunk3 = await reader.read(); assert(chunk3.done); } Deno.test( { permissions: { net: true } }, async function httpServerStreamDuplexDirect() { const { promise, resolve } = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve( { port: servePort, signal: ac.signal }, (request: Request) => { assert(request.body); resolve(); return new Response(request.body); }, ); const { readable, writable } = new TransformStream(); const resp = await fetch(`http://127.0.0.1:${servePort}/`, { method: "POST", body: readable, }); await promise; assert(resp.body); await testDuplex(resp.body.getReader(), writable.getWriter()); ac.abort(); await server.finished; }, ); // Test that a duplex stream passing through JavaScript also works (ie: that the request body resource // is still alive). https://github.com/denoland/deno/pull/20206 Deno.test( { permissions: { net: true } }, async function httpServerStreamDuplexJavascript() { const { promise, resolve } = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve( { port: servePort, signal: ac.signal }, (request: Request) => { assert(request.body); resolve(); const reader = request.body.getReader(); return new Response( new ReadableStream({ async pull(controller) { await new Promise((r) => setTimeout(r, 100)); const { done, value } = await reader.read(); if (done) { controller.close(); } else { controller.enqueue(value); } }, }), ); }, ); const { readable, writable } = new TransformStream(); const resp = await fetch(`http://127.0.0.1:${servePort}/`, { method: "POST", body: readable, }); await promise; assert(resp.body); await testDuplex(resp.body.getReader(), writable.getWriter()); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, // Issue: https://github.com/denoland/deno/issues/10930 async function httpServerStreamingResponse() { // This test enqueues a single chunk for readable // stream and waits for client to read that chunk and signal // it before enqueueing subsequent chunk. Issue linked above // presented a situation where enqueued chunks were not // written to the HTTP connection until the next chunk was enqueued. const listeningDeferred = Promise.withResolvers(); const deferred = Promise.withResolvers(); const ac = new AbortController(); let counter = 0; const deferreds = [ Promise.withResolvers(), Promise.withResolvers(), Promise.withResolvers(), ]; async function writeRequest(conn: Deno.Conn) { const encoder = new TextEncoder(); const decoder = new TextDecoder(); const w = new BufWriter(conn); const r = new BufReader(conn); const body = `GET / HTTP/1.1\r\nHost: 127.0.0.1:${servePort}\r\n\r\n`; const writeResult = await w.write(encoder.encode(body)); assertEquals(body.length, writeResult); await w.flush(); const tpr = new TextProtoReader(r); const statusLine = await tpr.readLine(); assert(statusLine !== null); const headers = await tpr.readMimeHeader(); assert(headers !== null); const chunkedReader = chunkedBodyReader(headers, r); const buf = new Uint8Array(5); const dest = new Buffer(); let result: number | null; try { while ((result = await chunkedReader.read(buf)) !== null) { const len = Math.min(buf.byteLength, result); await dest.write(buf.subarray(0, len)); // Resolve a deferred - this will make response stream to // enqueue next chunk. deferreds[counter - 1].resolve(); } return decoder.decode(dest.bytes()); } catch (e) { console.error(e); } } function periodicStream() { return new ReadableStream({ start(controller) { controller.enqueue(`${counter}\n`); counter++; }, async pull(controller) { if (counter >= 3) { return controller.close(); } await deferreds[counter - 1].promise; controller.enqueue(`${counter}\n`); counter++; }, }).pipeThrough(new TextEncoderStream()); } const server = Deno.serve({ handler: () => { deferred.resolve(); return new Response(periodicStream()); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; // start a client const clientConn = await Deno.connect({ port: servePort }); const r1 = await writeRequest(clientConn); assertEquals(r1, "0\n1\n2\n"); ac.abort(); await deferred.promise; await server.finished; clientConn.close(); }, ); // Make sure that the chunks of a large response aren't repeated or corrupted in some other way by // scatterning sentinels throughout. // https://github.com/denoland/fresh/issues/1699 Deno.test( { permissions: { net: true } }, async function httpLargeReadableStreamChunk() { const ac = new AbortController(); const server = Deno.serve({ handler() { return new Response( new ReadableStream({ start(controller) { const buffer = new Uint8Array(1024 * 1024); // Mark the buffer with sentinels for (let i = 0; i < 256; i++) { buffer[i * 4096] = i; } controller.enqueue(buffer); controller.close(); }, }), ); }, port: servePort, signal: ac.signal, }); const response = await fetch(`http://localhost:${servePort}/`); const body = await response.bytes(); assertEquals(1024 * 1024, body.byteLength); for (let i = 0; i < 256; i++) { assertEquals( i, body[i * 4096], `sentinel mismatch at index ${i * 4096}`, ); } ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpRequestLatin1Headers() { const listeningDeferred = Promise.withResolvers(); const deferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: (request) => { assertEquals(request.headers.get("X-Header-Test"), "á"); deferred.resolve(); return new Response("hello", { headers: { "X-Header-Test": "Æ" } }); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const clientConn = await Deno.connect({ port: servePort }); const requestText = `GET / HTTP/1.1\r\nHost: 127.0.0.1:${servePort}\r\nX-Header-Test: á\r\n\r\n`; const requestBytes = new Uint8Array(requestText.length); for (let i = 0; i < requestText.length; i++) { requestBytes[i] = requestText.charCodeAt(i); } let written = 0; while (written < requestBytes.byteLength) { written += await clientConn.write(requestBytes.slice(written)); } const buf = new Uint8Array(1024); await clientConn.read(buf); await deferred.promise; const responseText = new TextDecoder("iso-8859-1").decode(buf); clientConn.close(); ac.abort(); await server.finished; assertMatch(responseText, /\r\n[Xx]-[Hh]eader-[Tt]est: Æ\r\n/); }, ); Deno.test( { permissions: { net: true } }, async function httpServerRequestWithoutPath() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (request) => { // FIXME: // assertEquals(new URL(request.url).href, `http://127.0.0.1:${servePort}/`); assertEquals(await request.text(), ""); deferred.resolve(); return new Response("11"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const clientConn = await Deno.connect({ port: servePort }); async function writeRequest(conn: Deno.Conn) { const encoder = new TextEncoder(); const w = new BufWriter(conn); const r = new BufReader(conn); const body = `CONNECT 127.0.0.1:${servePort} HTTP/1.1\r\nHost: 127.0.0.1:${servePort}\r\n\r\n`; const writeResult = await w.write(encoder.encode(body)); assertEquals(body.length, writeResult); await w.flush(); const tpr = new TextProtoReader(r); const statusLine = await tpr.readLine(); assert(statusLine !== null); const m = statusLine.match(/^(.+?) (.+?) (.+?)$/); assert(m !== null, "must be matched"); const [_, _proto, status, _ok] = m; assertEquals(status, "200"); const headers = await tpr.readMimeHeader(); assert(headers !== null); } await writeRequest(clientConn); clientConn.close(); await deferred.promise; ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpCookieConcatenation() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (request) => { assertEquals(await request.text(), ""); assertEquals(request.headers.get("cookie"), "foo=bar; bar=foo"); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), reusePort: true, }); await listeningDeferred.promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: [ ["connection", "close"], ["cookie", "foo=bar"], ["cookie", "bar=foo"], ], }); await deferred.promise; const text = await resp.text(); assertEquals(text, "ok"); ac.abort(); await server.finished; }, ); // https://github.com/denoland/deno/issues/12741 // https://github.com/denoland/deno/pull/12746 // https://github.com/denoland/deno/pull/12798 Deno.test( { permissions: { net: true, run: true } }, async function httpServerDeleteRequestHasBody() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const hostname = "localhost"; const server = Deno.serve({ handler: () => { deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const url = `http://${hostname}:${servePort}/`; const args = ["-X", "DELETE", url]; const { success } = await new Deno.Command("curl", { args, stdout: "null", stderr: "null", }).output(); assert(success); await deferred.promise; ac.abort(); await server.finished; }, ); // FIXME: Deno.test( { permissions: { net: true } }, async function httpServerRespondNonAsciiUint8Array() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: (request) => { assertEquals(request.body, null); deferred.resolve(); return new Response(new Uint8Array([128])); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.resolve; const resp = await fetch(`http://localhost:${servePort}/`); await deferred.promise; assertEquals(resp.status, 200); const body = await resp.bytes(); assertEquals(body, new Uint8Array([128])); ac.abort(); await server.finished; }, ); // Some of these tests are ported from Hyper // https://github.com/hyperium/hyper/blob/889fa2d87252108eb7668b8bf034ffcc30985117/src/proto/h1/role.rs // https://github.com/hyperium/hyper/blob/889fa2d87252108eb7668b8bf034ffcc30985117/tests/server.rs Deno.test( { permissions: { net: true } }, async function httpServerParseRequest() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: (request) => { assertEquals(request.method, "GET"); assertEquals(request.headers.get("host"), "deno.land"); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `GET /echo HTTP/1.1\r\nHost: deno.land\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerParseHeaderHtabs() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: (request) => { assertEquals(request.method, "GET"); assertEquals(request.headers.get("server"), "hello\tworld"); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `GET / HTTP/1.1\r\nserver: hello\tworld\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerGetShouldIgnoreBody() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (request) => { assertEquals(request.method, "GET"); assertEquals(await request.text(), ""); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); // Connection: close = don't try to parse the body as a new request const body = `GET / HTTP/1.1\r\nHost: example.domain\r\nConnection: close\r\n\r\nI shouldn't be read.\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerPostWithBody() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (request) => { assertEquals(request.method, "POST"); assertEquals(await request.text(), "I'm a good request."); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `POST / HTTP/1.1\r\nHost: example.domain\r\nContent-Length: 19\r\n\r\nI'm a good request.`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); type TestCase = { headers?: Record; // deno-lint-ignore no-explicit-any body: any; expectsChunked?: boolean; expectsConnLen?: boolean; }; function hasHeader(msg: string, name: string): boolean { const n = msg.indexOf("\r\n\r\n") || msg.length; return msg.slice(0, n).includes(name); } function createServerLengthTest(name: string, testCase: TestCase) { Deno.test(name, async function () { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: (request) => { assertEquals(request.method, "GET"); deferred.resolve(); return new Response(testCase.body, testCase.headers ?? {}); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `GET / HTTP/1.1\r\nHost: example.domain\r\nConnection: close\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; const decoder = new TextDecoder(); let msg = ""; while (true) { const buf = new Uint8Array(1024); const readResult = await conn.read(buf); if (!readResult) { break; } msg += decoder.decode(buf.subarray(0, readResult)); try { assert( testCase.expectsChunked == hasHeader(msg, "Transfer-Encoding:"), ); assert(testCase.expectsChunked == hasHeader(msg, "chunked")); assert(testCase.expectsConnLen == hasHeader(msg, "Content-Length:")); const n = msg.indexOf("\r\n\r\n") + 4; if (testCase.expectsChunked) { assertEquals(msg.slice(n + 1, n + 3), "\r\n"); assertEquals(msg.slice(msg.length - 7), "\r\n0\r\n\r\n"); } if (testCase.expectsConnLen && typeof testCase.body === "string") { assertEquals(msg.slice(n), testCase.body); } break; } catch { continue; } } conn.close(); ac.abort(); await server.finished; }); } // Quick and dirty way to make a readable stream from a string. Alternatively, // `readableStreamFromReader(file)` could be used. function stream(s: string): ReadableStream { return new Response(s).body!; } createServerLengthTest("fixedResponseKnown", { headers: { "content-length": "11" }, body: "foo bar baz", expectsChunked: false, expectsConnLen: true, }); createServerLengthTest("fixedResponseUnknown", { headers: { "content-length": "11" }, body: stream("foo bar baz"), expectsChunked: true, expectsConnLen: false, }); createServerLengthTest("fixedResponseKnownEmpty", { headers: { "content-length": "0" }, body: "", expectsChunked: false, expectsConnLen: true, }); createServerLengthTest("chunkedRespondKnown", { headers: { "transfer-encoding": "chunked" }, body: "foo bar baz", expectsChunked: false, expectsConnLen: true, }); createServerLengthTest("chunkedRespondUnknown", { headers: { "transfer-encoding": "chunked" }, body: stream("foo bar baz"), expectsChunked: true, expectsConnLen: false, }); createServerLengthTest("autoResponseWithKnownLength", { body: "foo bar baz", expectsChunked: false, expectsConnLen: true, }); createServerLengthTest("autoResponseWithUnknownLength", { body: stream("foo bar baz"), expectsChunked: true, expectsConnLen: false, }); createServerLengthTest("autoResponseWithKnownLengthEmpty", { body: "", expectsChunked: false, expectsConnLen: true, }); createServerLengthTest("autoResponseWithUnknownLengthEmpty", { body: stream(""), expectsChunked: true, expectsConnLen: false, }); Deno.test( { permissions: { net: true } }, async function httpServerPostWithContentLengthBody() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (request) => { assertEquals(request.method, "POST"); assertEquals(request.headers.get("content-length"), "5"); assertEquals(await request.text(), "hello"); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `POST / HTTP/1.1\r\nHost: example.domain\r\nContent-Length: 5\r\n\r\nhello`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerPostWithInvalidPrefixContentLength() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: () => { throw new Error("unreachable"); }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); const body = `POST / HTTP/1.1\r\nHost: example.domain\r\nContent-Length: +5\r\n\r\nhello`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); assert(msg.includes("HTTP/1.1 400 Bad Request")); conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerPostWithChunkedBody() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (request) => { assertEquals(request.method, "POST"); assertEquals(await request.text(), "qwert"); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `POST / HTTP/1.1\r\nHost: example.domain\r\nTransfer-Encoding: chunked\r\n\r\n1\r\nq\r\n2\r\nwe\r\n2\r\nrt\r\n0\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerPostWithIncompleteBody() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (r) => { deferred.resolve(); assertEquals(await r.text(), "12345"); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `POST / HTTP/1.1\r\nHost: example.domain\r\nContent-Length: 10\r\n\r\n12345`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerHeadResponseDoesntSendBody() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: () => { deferred.resolve(); return new Response("NaN".repeat(100)); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); const body = `HEAD / HTTP/1.1\r\nHost: example.domain\r\nConnection: close\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); assert(msg.includes("content-length: 300\r\n")); conn.close(); ac.abort(); await server.finished; }, ); function makeTempData(size: number) { return new Uint8Array(size).fill(1); } async function makeTempFile(size: number) { const tmpFile = await Deno.makeTempFile(); using file = await Deno.open(tmpFile, { write: true, read: true }); const data = makeTempData(size); await file.write(data); return await Deno.open(tmpFile, { write: true, read: true }); } const compressionTestCases = [ { name: "Empty", length: 0, in: {}, out: {}, expect: null }, { name: "EmptyAcceptGzip", length: 0, in: { "Accept-Encoding": "gzip" }, out: {}, expect: null, }, // This technically would be compressible if not for the size, however the size_hint is not implemented // for FileResource and we don't currently peek ahead on resources. // { // name: "EmptyAcceptGzip2", // length: 0, // in: { "Accept-Encoding": "gzip" }, // out: { "Content-Type": "text/plain" }, // expect: null, // }, { name: "Incompressible", length: 1024, in: {}, out: {}, expect: null }, { name: "IncompressibleAcceptGzip", length: 1024, in: { "Accept-Encoding": "gzip" }, out: {}, expect: null, }, { name: "IncompressibleType", length: 1024, in: { "Accept-Encoding": "gzip" }, out: { "Content-Type": "text/fake" }, expect: null, }, { name: "CompressibleType", length: 1024, in: { "Accept-Encoding": "gzip" }, out: { "Content-Type": "text/plain" }, expect: "gzip", }, { name: "CompressibleType2", length: 1024, in: { "Accept-Encoding": "gzip, deflate, br" }, out: { "Content-Type": "text/plain" }, expect: "gzip", }, { name: "CompressibleType3", length: 1024, in: { "Accept-Encoding": "br" }, out: { "Content-Type": "text/plain" }, expect: "br", }, { name: "IncompressibleRange", length: 1024, in: { "Accept-Encoding": "gzip" }, out: { "Content-Type": "text/plain", "Content-Range": "1" }, expect: null, }, { name: "IncompressibleCE", length: 1024, in: { "Accept-Encoding": "gzip" }, out: { "Content-Type": "text/plain", "Content-Encoding": "random" }, expect: null, }, { name: "IncompressibleCC", length: 1024, in: { "Accept-Encoding": "gzip" }, out: { "Content-Type": "text/plain", "Cache-Control": "no-transform" }, expect: null, }, { name: "BadHeader", length: 1024, in: { "Accept-Encoding": "\x81" }, out: { "Content-Type": "text/plain", "Cache-Control": "no-transform" }, expect: null, }, ]; for (const testCase of compressionTestCases) { const name = `httpServerCompression${testCase.name}`; Deno.test( { permissions: { net: true, write: true, read: true } }, { [name]: async function () { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (_request) => { const f = await makeTempFile(testCase.length); deferred.resolve(); // deno-lint-ignore no-explicit-any const headers = testCase.out as any; headers["Content-Length"] = testCase.length.toString(); return new Response(f.readable, { headers: headers as HeadersInit, }); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); try { await listeningDeferred.promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { headers: testCase.in as HeadersInit, }); await deferred.promise; const body = await resp.bytes(); if (testCase.expect == null) { assertEquals(body.byteLength, testCase.length); assertEquals( resp.headers.get("content-length"), testCase.length.toString(), ); assertEquals( resp.headers.get("content-encoding"), testCase.out["Content-Encoding"] || null, ); } else if (testCase.expect == "gzip") { // Note the fetch will transparently decompress this response, BUT we can detect that a response // was compressed by the lack of a content length. assertEquals(body.byteLength, testCase.length); assertEquals(resp.headers.get("content-encoding"), null); assertEquals(resp.headers.get("content-length"), null); } } finally { ac.abort(); await server.finished; } }, }[name], ); } Deno.test( { permissions: { net: true, write: true, read: true } }, async function httpServerPostFile() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (request) => { assertEquals( await request.bytes(), makeTempData(70 * 1024), ); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const f = await makeTempFile(70 * 1024); const response = await fetch(`http://localhost:${servePort}/`, { method: "POST", body: f.readable, }); await deferred.promise; assertEquals(response.status, 200); assertEquals(await response.text(), "ok"); ac.abort(); await server.finished; }, ); for (const delay of ["delay", "nodelay"]) { for (const url of ["text", "file", "stream"]) { // Ensure that we don't panic when the incoming TCP request was dropped // https://github.com/denoland/deno/issues/20315 and that we correctly // close/cancel the response Deno.test({ permissions: { read: true, write: true, net: true }, name: `httpServerTcpCancellation_${url}_${delay}`, fn: async function () { const ac = new AbortController(); const streamCancelled = url == "stream" ? Promise.withResolvers() : undefined; const listeningDeferred = Promise.withResolvers(); const waitForAbort = Promise.withResolvers(); const waitForRequest = Promise.withResolvers(); const server = Deno.serve({ port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), handler: async (req: Request) => { let respBody = null; if (req.url.includes("/text")) { respBody = "text"; } else if (req.url.includes("/file")) { respBody = (await makeTempFile(1024)).readable; } else if (req.url.includes("/stream")) { respBody = new ReadableStream({ start(controller) { controller.enqueue(new Uint8Array([1])); }, cancel(reason) { streamCancelled!.resolve(reason); }, }); } else { fail(); } waitForRequest.resolve(); await waitForAbort.promise; if (delay == "delay") { await new Promise((r) => setTimeout(r, 1000)); } // Allocate the request body req.body; return new Response(respBody); }, }); await listeningDeferred.promise; // Create a POST request and drop it once the server has received it const conn = await Deno.connect({ port: servePort }); const writer = conn.writable.getWriter(); await writer.write( new TextEncoder().encode(`POST /${url} HTTP/1.0\n\n`), ); await waitForRequest.promise; await writer.close(); waitForAbort.resolve(); // Wait for cancellation before we shut the server down if (streamCancelled !== undefined) { await streamCancelled; } // Since the handler has a chance of creating resources or running async // ops, we need to use a graceful shutdown here to ensure they have fully // drained. await server.shutdown(); await server.finished; }, }); } } // Test for the internal implementation detail of cached request signals. Ensure that the request's // signal is aborted if we try to access it after the request has been completed. Deno.test( { permissions: { net: true } }, async function httpServerSignalCancelled() { let stashedRequest; const { finished, abort } = await makeServer((req) => { // The cache signal is `undefined` because it has not been requested assertEquals(getCachedAbortSignal(req), undefined); stashedRequest = req; return new Response("ok"); }); await (await fetch(`http://localhost:${servePort}`)).text(); abort(); await finished; // `false` is a semaphore for a signal that should be aborted on creation assertEquals(getCachedAbortSignal(stashedRequest!), false); // Requesting the signal causes it to be materialized assert(stashedRequest!.signal.aborted); // The cached signal is now a full `AbortSignal` assertEquals( getCachedAbortSignal(stashedRequest!).constructor, AbortSignal, ); }, ); Deno.test( { permissions: { net: true } }, async function httpServerCancelFetch() { const request2 = Promise.withResolvers(); const request2Aborted = Promise.withResolvers(); let completed = 0; let aborted = 0; const { finished, abort } = await makeServer(async (req, context) => { context.completed.then(() => { console.log("completed"); completed++; }).catch(() => { console.log("completed (error)"); completed++; }); req.signal.onabort = () => { console.log("aborted", req.url); aborted++; }; if (req.url.endsWith("/1")) { const fetchRecursive = await fetch(`http://localhost:${servePort}/2`); return new Response(fetchRecursive.body); } else if (req.url.endsWith("/2")) { request2.resolve(); return new Response( new ReadableStream({ start(_controller) {/* just hang */}, cancel(reason) { request2Aborted.resolve(reason); }, }), ); } fail(); }); const fetchAbort = new AbortController(); const fetchPromise = await fetch(`http://localhost:${servePort}/1`, { signal: fetchAbort.signal, }); await fetchPromise; await request2.promise; fetchAbort.abort(); assertEquals("resource closed", await request2Aborted.promise); abort(); await finished; assertEquals(completed, 2); assertEquals(aborted, 2); }, ); // Regression test for https://github.com/denoland/deno/issues/23537 Deno.test( { permissions: { read: true, net: true } }, async function httpServerUndefinedCert() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const hostname = "127.0.0.1"; const server = Deno.serve({ handler: () => new Response("Hello World"), hostname, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), // Undefined should be equivalent to missing cert: undefined, key: undefined, }); await promise; const resp = await fetch(`http://localhost:${servePort}/`); const respBody = await resp.text(); assertEquals("Hello World", respBody); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { read: true, net: true } }, async function httpServerWithTls() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const hostname = "127.0.0.1"; const server = Deno.serve({ handler: () => new Response("Hello World"), hostname, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), cert: Deno.readTextFileSync("tests/testdata/tls/localhost.crt"), key: Deno.readTextFileSync("tests/testdata/tls/localhost.key"), }); await promise; const caCert = Deno.readTextFileSync("tests/testdata/tls/RootCA.pem"); const client = Deno.createHttpClient({ caCerts: [caCert] }); const resp = await fetch(`https://localhost:${servePort}/`, { client, headers: { "connection": "close" }, }); const respBody = await resp.text(); assertEquals("Hello World", respBody); client.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true, write: true, read: true } }, async function httpServerRequestCLTE() { const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const deferred = Promise.withResolvers(); const server = Deno.serve({ handler: async (req) => { assertEquals(await req.text(), ""); deferred.resolve(); return new Response("ok"); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const body = `POST / HTTP/1.1\r\nHost: example.domain\r\nContent-Length: 13\r\nTransfer-Encoding: chunked\r\n\r\n0\r\n\r\nEXTRA`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true, write: true, read: true } }, async function httpServerRequestTETE() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: () => { throw new Error("oops"); }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); const variations = [ "Transfer-Encoding : chunked", "Transfer-Encoding: xchunked", "Transfer-Encoding: chunkedx", "Transfer-Encoding\n: chunked", ]; await promise; for (const teHeader of variations) { const conn = await Deno.connect({ port: servePort }); const body = `POST / HTTP/1.1\r\nHost: example.domain\r\n${teHeader}\r\n\r\n0\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); assert(msg.includes("HTTP/1.1 400 Bad Request\r\n")); conn.close(); } ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServer204ResponseDoesntSendContentLength() { const { promise, resolve } = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: (_request) => new Response(null, { status: 204 }), port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); try { await promise; const resp = await fetch(`http://127.0.0.1:${servePort}/`, { method: "GET", headers: { "connection": "close" }, }); assertEquals(resp.status, 204); assertEquals(resp.headers.get("Content-Length"), null); } finally { ac.abort(); await server.finished; } }, ); Deno.test( { permissions: { net: true } }, async function httpServer304ResponseDoesntSendBody() { const deferred = Promise.withResolvers(); const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: () => { deferred.resolve(); return new Response(null, { status: 304 }); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); const body = `GET / HTTP/1.1\r\nHost: example.domain\r\nConnection: close\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); await deferred.promise; const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); assert(msg.startsWith("HTTP/1.1 304 Not Modified")); assert(msg.endsWith("\r\n\r\n")); conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerExpectContinue() { const deferred = Promise.withResolvers(); const ac = new AbortController(); const listeningDeferred = Promise.withResolvers(); const server = Deno.serve({ handler: async (req) => { deferred.resolve(); assertEquals(await req.text(), "hello"); return new Response(null, { status: 304 }); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); { const body = `POST / HTTP/1.1\r\nHost: example.domain\r\nExpect: 100-continue\r\nContent-Length: 5\r\nConnection: close\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); } await deferred.promise; { const msgExpected = "HTTP/1.1 100 Continue\r\n\r\n"; const buf = new Uint8Array(encoder.encode(msgExpected).byteLength); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); assert(msg.startsWith(msgExpected)); } { const body = "hello"; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); } const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); assert(msg.startsWith("HTTP/1.1 304 Not Modified")); conn.close(); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function httpServerExpectContinueButNoBodyLOL() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve({ handler: async (req) => { deferred.resolve(); assertEquals(await req.text(), ""); return new Response(null, { status: 304 }); }, port: servePort, signal: ac.signal, onListen: onListen(listeningDeferred.resolve), onError: createOnErrorCb(ac), }); await listeningDeferred.promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); { // // no content-length or transfer-encoding means no body! const body = `POST / HTTP/1.1\r\nHost: example.domain\r\nExpect: 100-continue\r\nConnection: close\r\n\r\n`; const writeResult = await conn.write(encoder.encode(body)); assertEquals(body.length, writeResult); } await deferred.promise; const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); assert(msg.startsWith("HTTP/1.1 304 Not Modified")); conn.close(); ac.abort(); await server.finished; }, ); const badRequests = [ ["weirdMethodName", "GE T / HTTP/1.1\r\n\r\n"], ["illegalRequestLength", "POST / HTTP/1.1\r\nContent-Length: foo\r\n\r\n"], ["illegalRequestLength2", "POST / HTTP/1.1\r\nContent-Length: -1\r\n\r\n"], ["illegalRequestLength3", "POST / HTTP/1.1\r\nContent-Length: 1.1\r\n\r\n"], ["illegalRequestLength4", "POST / HTTP/1.1\r\nContent-Length: 1.\r\n\r\n"], ]; for (const [name, req] of badRequests) { const testFn = { [name]: async () => { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: () => { throw new Error("oops"); }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); await promise; const conn = await Deno.connect({ port: servePort }); const encoder = new TextEncoder(); const decoder = new TextDecoder(); { const writeResult = await conn.write(encoder.encode(req)); assertEquals(req.length, writeResult); } const buf = new Uint8Array(100); const readResult = await conn.read(buf); assert(readResult); const msg = decoder.decode(buf.subarray(0, readResult)); assert(msg.startsWith("HTTP/1.1 400 ")); conn.close(); ac.abort(); await server.finished; }, }[name]; Deno.test( { permissions: { net: true } }, testFn, ); } Deno.test( { permissions: { net: true } }, async function httpServerConcurrentRequests() { const ac = new AbortController(); const { resolve } = Promise.withResolvers(); let reqCount = -1; let timerId: number | undefined; const server = Deno.serve({ handler: (_req) => { reqCount++; if (reqCount === 0) { const msg = new TextEncoder().encode("data: hello\r\n\r\n"); // SSE const body = new ReadableStream({ start(controller) { timerId = setInterval(() => { controller.enqueue(msg); }, 1000); }, cancel() { if (typeof timerId === "number") { clearInterval(timerId); } }, }); return new Response(body, { headers: { "Content-Type": "text/event-stream", }, }); } return new Response(`hello ${reqCount}`); }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); const sseRequest = await fetch(`http://localhost:${servePort}/`); const decoder = new TextDecoder(); const stream = sseRequest.body!.getReader(); { const { done, value } = await stream.read(); assert(!done); assertEquals(decoder.decode(value), "data: hello\r\n\r\n"); } const helloRequest = await fetch(`http://localhost:${servePort}/`); assertEquals(helloRequest.status, 200); assertEquals(await helloRequest.text(), "hello 1"); { const { done, value } = await stream.read(); assert(!done); assertEquals(decoder.decode(value), "data: hello\r\n\r\n"); } await stream.cancel(); clearInterval(timerId); ac.abort(); await server.finished; }, ); Deno.test( { permissions: { net: true } }, async function serveWithPrototypePollution() { const originalThen = Promise.prototype.then; const originalSymbolIterator = Array.prototype[Symbol.iterator]; try { Promise.prototype.then = Array.prototype[Symbol.iterator] = () => { throw new Error(); }; const ac = new AbortController(); const { resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: (_req) => new Response("ok"), hostname: "localhost", port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); ac.abort(); await server.finished; } finally { Promise.prototype.then = originalThen; Array.prototype[Symbol.iterator] = originalSymbolIterator; } }, ); // https://github.com/denoland/deno/issues/15549 Deno.test( { permissions: { net: true } }, async function testIssue15549() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); let count = 0; const server = Deno.serve({ async onListen({ port }: { port: number }) { const res1 = await fetch(`http://localhost:${port}/`); assertEquals(await res1.text(), "hello world 1"); const res2 = await fetch(`http://localhost:${port}/`); assertEquals(await res2.text(), "hello world 2"); resolve(); ac.abort(); }, signal: ac.signal, }, () => { count++; return new Response(`hello world ${count}`); }); await promise; await server.finished; }, ); // https://github.com/denoland/deno/issues/15858 Deno.test( "Clone should work", { permissions: { net: true } }, async function httpServerCanCloneRequest() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: async (req) => { const cloned = req.clone(); assertEquals(req.headers, cloned.headers); assertEquals(cloned.url, req.url); assertEquals(cloned.cache, req.cache); assertEquals(cloned.destination, req.destination); assertEquals(cloned.headers, req.headers); assertEquals(cloned.integrity, req.integrity); assertEquals(cloned.isHistoryNavigation, req.isHistoryNavigation); assertEquals(cloned.isReloadNavigation, req.isReloadNavigation); assertEquals(cloned.keepalive, req.keepalive); assertEquals(cloned.method, req.method); assertEquals(cloned.mode, req.mode); assertEquals(cloned.redirect, req.redirect); assertEquals(cloned.referrer, req.referrer); assertEquals(cloned.referrerPolicy, req.referrerPolicy); // both requests can read body await req.text(); await cloned.json(); return new Response("ok"); }, signal: ac.signal, onListen: ({ port }: { port: number }) => resolve(port), onError: createOnErrorCb(ac), }); try { const port = await promise; const resp = await fetch(`http://localhost:${port}/`, { headers: { connection: "close" }, method: "POST", body: '{"sus":true}', }); const text = await resp.text(); assertEquals(text, "ok"); } finally { ac.abort(); await server.finished; } }, ); // https://fetch.spec.whatwg.org/#dom-request-clone Deno.test( "Throw if disturbed", { permissions: { net: true } }, async function shouldThrowIfBodyIsUnusableDisturbed() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: async (req) => { await req.text(); try { req.clone(); fail(); } catch (cloneError) { assert(cloneError instanceof TypeError); assert( cloneError.message.endsWith("Body is unusable."), ); ac.abort(); await server.finished; } return new Response("ok"); }, signal: ac.signal, onListen: ({ port }: { port: number }) => resolve(port), }); try { const port = await promise; await fetch(`http://localhost:${port}/`, { headers: { connection: "close" }, method: "POST", body: '{"bar":true}', }); fail(); } catch (clientError) { assert(clientError instanceof TypeError); assert(clientError.message.includes("client error")); } finally { ac.abort(); await server.finished; } }, ); // https://fetch.spec.whatwg.org/#dom-request-clone Deno.test({ name: "Throw if locked", permissions: { net: true }, fn: async function shouldThrowIfBodyIsUnusableLocked() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: async (req) => { const _reader = req.body?.getReader(); try { req.clone(); fail(); } catch (cloneError) { assert(cloneError instanceof TypeError); assert( cloneError.message.endsWith("Body is unusable."), ); ac.abort(); await server.finished; } return new Response("ok"); }, signal: ac.signal, onListen: ({ port }: { port: number }) => resolve(port), }); try { const port = await promise; await fetch(`http://localhost:${port}/`, { headers: { connection: "close" }, method: "POST", body: '{"bar":true}', }); fail(); } catch (clientError) { assert(clientError instanceof TypeError); assert(clientError.message.includes("client error")); } finally { ac.abort(); await server.finished; } }, }); // Checks large streaming response // https://github.com/denoland/deno/issues/16567 Deno.test( { permissions: { net: true } }, async function testIssue16567() { const ac = new AbortController(); const { promise, resolve } = Promise.withResolvers(); const server = Deno.serve({ async onListen({ port }) { const res1 = await fetch(`http://localhost:${port}/`); assertEquals((await res1.text()).length, 40 * 50_000); resolve(); ac.abort(); }, signal: ac.signal, }, () => new Response( new ReadableStream({ start(c) { // 2MB "a...a" response with 40 chunks for (const _ of Array(40)) { c.enqueue(new Uint8Array(50_000).fill(97)); } c.close(); }, }), )); await promise; await server.finished; }, ); function chunkedBodyReader(h: Headers, r: BufReader): Deno.Reader { // Based on https://tools.ietf.org/html/rfc2616#section-19.4.6 const tp = new TextProtoReader(r); let finished = false; const chunks: Array<{ offset: number; data: Uint8Array; }> = []; async function read(buf: Uint8Array): Promise { if (finished) return null; const [chunk] = chunks; if (chunk) { const chunkRemaining = chunk.data.byteLength - chunk.offset; const readLength = Math.min(chunkRemaining, buf.byteLength); for (let i = 0; i < readLength; i++) { buf[i] = chunk.data[chunk.offset + i]; } chunk.offset += readLength; if (chunk.offset === chunk.data.byteLength) { chunks.shift(); // Consume \r\n; if ((await tp.readLine()) === null) { throw new Deno.errors.UnexpectedEof(); } } return readLength; } const line = await tp.readLine(); if (line === null) throw new Deno.errors.UnexpectedEof(); // TODO(bartlomieju): handle chunk extension const [chunkSizeString] = line.split(";"); const chunkSize = parseInt(chunkSizeString, 16); if (Number.isNaN(chunkSize) || chunkSize < 0) { throw new Deno.errors.InvalidData("Invalid chunk size"); } if (chunkSize > 0) { if (chunkSize > buf.byteLength) { let eof = await r.readFull(buf); if (eof === null) { throw new Deno.errors.UnexpectedEof(); } const restChunk = new Uint8Array(chunkSize - buf.byteLength); eof = await r.readFull(restChunk); if (eof === null) { throw new Deno.errors.UnexpectedEof(); } else { chunks.push({ offset: 0, data: restChunk, }); } return buf.byteLength; } else { const bufToFill = buf.subarray(0, chunkSize); const eof = await r.readFull(bufToFill); if (eof === null) { throw new Deno.errors.UnexpectedEof(); } // Consume \r\n if ((await tp.readLine()) === null) { throw new Deno.errors.UnexpectedEof(); } return chunkSize; } } else { assert(chunkSize === 0); // Consume \r\n if ((await r.readLine()) === null) { throw new Deno.errors.UnexpectedEof(); } await readTrailers(h, r); finished = true; return null; } } return { read }; } async function readTrailers( headers: Headers, r: BufReader, ) { const trailers = parseTrailer(headers.get("trailer")); if (trailers == null) return; const trailerNames = [...trailers.keys()]; const tp = new TextProtoReader(r); const result = await tp.readMimeHeader(); if (result == null) { throw new Deno.errors.InvalidData("Missing trailer header."); } const undeclared = [...result.keys()].filter( (k) => !trailerNames.includes(k), ); if (undeclared.length > 0) { throw new Deno.errors.InvalidData( `Undeclared trailers: ${Deno.inspect(undeclared)}.`, ); } for (const [k, v] of result) { headers.append(k, v); } const missingTrailers = trailerNames.filter((k) => !result.has(k)); if (missingTrailers.length > 0) { throw new Deno.errors.InvalidData( `Missing trailers: ${Deno.inspect(missingTrailers)}.`, ); } headers.delete("trailer"); } function parseTrailer(field: string | null): Headers | undefined { if (field == null) { return undefined; } const trailerNames = field.split(",").map((v) => v.trim().toLowerCase()); if (trailerNames.length === 0) { throw new Deno.errors.InvalidData("Empty trailer header."); } const prohibited = trailerNames.filter((k) => isProhibitedForTrailer(k)); if (prohibited.length > 0) { throw new Deno.errors.InvalidData( `Prohibited trailer names: ${Deno.inspect(prohibited)}.`, ); } return new Headers(trailerNames.map((key) => [key, ""])); } function isProhibitedForTrailer(key: string): boolean { const s = new Set(["transfer-encoding", "content-length", "trailer"]); return s.has(key.toLowerCase()); } // TODO(mmastrac): curl on Windows CI stopped supporting --http2? Deno.test( { permissions: { net: true, run: true }, ignore: Deno.build.os === "windows", }, async function httpServeCurlH2C() { const ac = new AbortController(); const server = Deno.serve( { port: servePort, signal: ac.signal }, () => new Response("hello world!"), ); assertEquals( "hello world!", await curlRequest([`http://localhost:${servePort}/path`]), ); assertEquals( "hello world!", await curlRequest([`http://localhost:${servePort}/path`, "--http2"]), ); assertEquals( "hello world!", await curlRequest([ `http://localhost:${servePort}/path`, "--http2", "--http2-prior-knowledge", ]), ); ac.abort(); await server.finished; }, ); // TODO(mmastrac): This test should eventually use fetch, when we support trailers there. // This test is ignored because it's flaky and relies on cURL's verbose output. Deno.test( { permissions: { net: true, run: true, read: true }, ignore: true }, async function httpServerTrailers() { const ac = new AbortController(); const { resolve } = Promise.withResolvers(); const server = Deno.serve({ handler: () => { const response = new Response("Hello World", { headers: { "trailer": "baz", "transfer-encoding": "chunked", "foo": "bar", }, }); addTrailers(response, [["baz", "why"]]); return response; }, port: servePort, signal: ac.signal, onListen: onListen(resolve), onError: createOnErrorCb(ac), }); // We don't have a great way to access this right now, so just fetch the trailers with cURL const [_, stderr] = await curlRequestWithStdErr([ `http://localhost:${servePort}/path`, "-v", "--http2", "--http2-prior-knowledge", ]); assertMatch(stderr, /baz: why/); ac.abort(); await server.finished; }, ); // TODO(mmastrac): curl on CI stopped supporting --http2? Deno.test( { permissions: { net: true, run: true, read: true, }, ignore: Deno.build.os === "windows", }, async function httpsServeCurlH2C() { const ac = new AbortController(); const server = Deno.serve( { signal: ac.signal, port: servePort, cert: Deno.readTextFileSync("tests/testdata/tls/localhost.crt"), key: Deno.readTextFileSync("tests/testdata/tls/localhost.key"), }, () => new Response("hello world!"), ); assertEquals( "hello world!", await curlRequest([`https://localhost:${servePort}/path`, "-k"]), ); assertEquals( "hello world!", await curlRequest([ `https://localhost:${servePort}/path`, "-k", "--http2", ]), ); assertEquals( "hello world!", await curlRequest([ `https://localhost:${servePort}/path`, "-k", "--http2", "--http2-prior-knowledge", ]), ); ac.abort(); await server.finished; }, ); Deno.test("Deno.HttpServer is not thenable", async () => { // deno-lint-ignore require-await async function serveTest() { const server = Deno.serve({ port: servePort }, (_) => new Response("")); assert(!("then" in server)); return server; } const server = await serveTest(); await server.shutdown(); }); Deno.test( { ignore: Deno.build.os === "windows", permissions: { run: true, read: true, write: true }, }, async function httpServerUnixDomainSocket() { const { promise, resolve } = Promise.withResolvers(); const ac = new AbortController(); const filePath = tmpUnixSocketPath(); const server = Deno.serve( { signal: ac.signal, path: filePath, onListen(info) { resolve(info); }, onError: createOnErrorCb(ac), }, (_req, { remoteAddr }) => { assertEquals(remoteAddr, { path: filePath, transport: "unix" }); return new Response("hello world!"); }, ); assertEquals((await promise).path, filePath); assertEquals( "hello world!", await curlRequest(["--unix-socket", filePath, "http://localhost"]), ); ac.abort(); await server.finished; }, ); // serve Handler must return Response class or promise that resolves Response class Deno.test( { permissions: { net: true, run: true } }, async function handleServeCallbackReturn() { const deferred = Promise.withResolvers(); const listeningDeferred = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve( { port: servePort, onListen: onListen(listeningDeferred.resolve), signal: ac.signal, onError: (error) => { assert(error instanceof TypeError); assert( error.message === "Return value from serve handler must be a response or a promise resolving to a response", ); deferred.resolve(); return new Response("Customized Internal Error from onError"); }, }, () => { // Trick the typechecker return undefined; }, ); await listeningDeferred.promise; const respText = await curlRequest([`http://localhost:${servePort}`]); await deferred.promise; ac.abort(); await server.finished; assert(respText === "Customized Internal Error from onError"); }, ); // onError Handler must return Response class or promise that resolves Response class Deno.test( { permissions: { net: true, run: true } }, async function handleServeErrorCallbackReturn() { const { promise, resolve } = Promise.withResolvers(); const ac = new AbortController(); const server = Deno.serve( { port: servePort, onListen: onListen(resolve), signal: ac.signal, onError: () => { // Trick the typechecker return undefined; }, }, () => { // Trick the typechecker return undefined; }, ); await promise; const respText = await curlRequest([`http://localhost:${servePort}`]); ac.abort(); await server.finished; assert(respText === "Internal Server Error"); }, ); Deno.test( { permissions: { net: true, run: true, read: true }, ignore: Deno.build.os !== "linux", }, async function gzipFlushResponseStream() { const { promise, resolve } = Promise.withResolvers(); const ac = new AbortController(); console.log("Starting server", servePort); let timer: number | undefined = undefined; let _controller; const server = Deno.serve( { port: servePort, onListen: onListen(resolve), signal: ac.signal, }, () => { const body = new ReadableStream({ start(controller) { timer = setInterval(() => { const message = `It is ${new Date().toISOString()}\n`; controller.enqueue(new TextEncoder().encode(message)); }, 1000); _controller = controller; }, cancel() { if (timer !== undefined) { clearInterval(timer); } }, }); return new Response(body, { headers: { "content-type": "text/plain", "x-content-type-options": "nosniff", }, }); }, ); await promise; const e = await execCode3("/usr/bin/sh", [ "-c", `curl --stderr - -N --compressed --no-progress-meter http://localhost:${servePort}`, ]); await e.waitStdoutText("It is "); clearTimeout(timer); _controller!.close(); await e.finished(); ac.abort(); await server.finished; }, ); Deno.test({ name: "HTTP Server test (error on non-unix platform)", ignore: Deno.build.os !== "windows", }, async () => { await assertRejects( async () => { const ac = new AbortController(); const server = Deno.serve({ path: "path/to/socket", handler: (_req) => new Response("Hello, world"), signal: ac.signal, onListen({ path: _path }) { console.log(`Server started at ${_path}`); }, }); server.finished.then(() => console.log("Server closed")); console.log("Closing server..."); ac.abort(); await new Promise((resolve) => setTimeout(resolve, 100)); // Example of awaiting something }, Error, 'Operation `"op_net_listen_unix"` not supported on non-unix platforms.', ); });