// Copyright 2010 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Ported from // https://github.com/golang/go/blob/master/src/net/http/responsewrite_test.go import { TextProtoReader } from "../textproto/mod.ts"; import { assert, assertEquals, assertMatch, assertStringContains, assertThrowsAsync, } from "../testing/asserts.ts"; import { Response, ServerRequest, Server, serve, serveTLS, _parseAddrFromStr, } from "./server.ts"; import { BufReader, BufWriter } from "../io/bufio.ts"; import { delay } from "../async/delay.ts"; import { encode, decode } from "../encoding/utf8.ts"; import { mockConn } from "./_mock_conn.ts"; interface ResponseTest { response: Response; raw: string; } const responseTests: ResponseTest[] = [ // Default response { response: {}, raw: "HTTP/1.1 200 OK\r\n" + "content-length: 0" + "\r\n\r\n", }, // Empty body with status { response: { status: 404, }, raw: "HTTP/1.1 404 Not Found\r\n" + "content-length: 0" + "\r\n\r\n", }, // HTTP/1.1, chunked coding; empty trailer; close { response: { status: 200, body: new Deno.Buffer(new TextEncoder().encode("abcdef")), }, raw: "HTTP/1.1 200 OK\r\n" + "transfer-encoding: chunked\r\n\r\n" + "6\r\nabcdef\r\n0\r\n\r\n", }, ]; Deno.test("responseWrite", async function (): Promise { for (const testCase of responseTests) { const buf = new Deno.Buffer(); const bufw = new BufWriter(buf); const request = new ServerRequest(); request.w = bufw; request.conn = mockConn(); await request.respond(testCase.response); assertEquals(new TextDecoder().decode(buf.bytes()), testCase.raw); await request.done; } }); Deno.test("requestContentLength", function (): void { // Has content length { const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("content-length", "5"); const buf = new Deno.Buffer(encode("Hello")); req.r = new BufReader(buf); assertEquals(req.contentLength, 5); } // No content length { const shortText = "Hello"; const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("transfer-encoding", "chunked"); let chunksData = ""; let chunkOffset = 0; const maxChunkSize = 70; while (chunkOffset < shortText.length) { const chunkSize = Math.min(maxChunkSize, shortText.length - chunkOffset); chunksData += `${chunkSize.toString(16)}\r\n${ shortText.substr(chunkOffset, chunkSize) }\r\n`; chunkOffset += chunkSize; } chunksData += "0\r\n\r\n"; const buf = new Deno.Buffer(encode(chunksData)); req.r = new BufReader(buf); assertEquals(req.contentLength, null); } }); interface TotalReader extends Deno.Reader { total: number; } function totalReader(r: Deno.Reader): TotalReader { let _total = 0; async function read(p: Uint8Array): Promise { const result = await r.read(p); if (typeof result === "number") { _total += result; } return result; } return { read, get total(): number { return _total; }, }; } Deno.test("requestBodyWithContentLength", async function (): Promise { { const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("content-length", "5"); const buf = new Deno.Buffer(encode("Hello")); req.r = new BufReader(buf); const body = decode(await Deno.readAll(req.body)); assertEquals(body, "Hello"); } // Larger than internal buf { const longText = "1234\n".repeat(1000); const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("Content-Length", "5000"); const buf = new Deno.Buffer(encode(longText)); req.r = new BufReader(buf); const body = decode(await Deno.readAll(req.body)); assertEquals(body, longText); } // Handler ignored to consume body }); Deno.test( "ServerRequest.finalize() should consume unread body / content-length", async () => { const text = "deno.land"; const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("content-length", "" + text.length); const tr = totalReader(new Deno.Buffer(encode(text))); req.r = new BufReader(tr); req.w = new BufWriter(new Deno.Buffer()); await req.respond({ status: 200, body: "ok" }); assertEquals(tr.total, 0); await req.finalize(); assertEquals(tr.total, text.length); }, ); Deno.test( "ServerRequest.finalize() should consume unread body / chunked, trailers", async () => { const text = [ "5", "Hello", "4", "Deno", "0", "", "deno: land", "node: js", "", "", ].join("\r\n"); const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("transfer-encoding", "chunked"); req.headers.set("trailer", "deno,node"); const body = encode(text); const tr = totalReader(new Deno.Buffer(body)); req.r = new BufReader(tr); req.w = new BufWriter(new Deno.Buffer()); await req.respond({ status: 200, body: "ok" }); assertEquals(tr.total, 0); assertEquals(req.headers.has("trailer"), true); assertEquals(req.headers.has("deno"), false); assertEquals(req.headers.has("node"), false); await req.finalize(); assertEquals(tr.total, body.byteLength); assertEquals(req.headers.has("trailer"), false); assertEquals(req.headers.get("deno"), "land"); assertEquals(req.headers.get("node"), "js"); }, ); Deno.test("requestBodyWithTransferEncoding", async function (): Promise { { const shortText = "Hello"; const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("transfer-encoding", "chunked"); let chunksData = ""; let chunkOffset = 0; const maxChunkSize = 70; while (chunkOffset < shortText.length) { const chunkSize = Math.min(maxChunkSize, shortText.length - chunkOffset); chunksData += `${chunkSize.toString(16)}\r\n${ shortText.substr(chunkOffset, chunkSize) }\r\n`; chunkOffset += chunkSize; } chunksData += "0\r\n\r\n"; const buf = new Deno.Buffer(encode(chunksData)); req.r = new BufReader(buf); const body = decode(await Deno.readAll(req.body)); assertEquals(body, shortText); } // Larger than internal buf { const longText = "1234\n".repeat(1000); const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("transfer-encoding", "chunked"); let chunksData = ""; let chunkOffset = 0; const maxChunkSize = 70; while (chunkOffset < longText.length) { const chunkSize = Math.min(maxChunkSize, longText.length - chunkOffset); chunksData += `${chunkSize.toString(16)}\r\n${ longText.substr(chunkOffset, chunkSize) }\r\n`; chunkOffset += chunkSize; } chunksData += "0\r\n\r\n"; const buf = new Deno.Buffer(encode(chunksData)); req.r = new BufReader(buf); const body = decode(await Deno.readAll(req.body)); assertEquals(body, longText); } }); Deno.test("requestBodyReaderWithContentLength", async function (): Promise< void > { { const shortText = "Hello"; const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("content-length", "" + shortText.length); const buf = new Deno.Buffer(encode(shortText)); req.r = new BufReader(buf); const readBuf = new Uint8Array(6); let offset = 0; while (offset < shortText.length) { const nread = await req.body.read(readBuf); assert(nread !== null); const s = decode(readBuf.subarray(0, nread as number)); assertEquals(shortText.substr(offset, nread as number), s); offset += nread as number; } const nread = await req.body.read(readBuf); assertEquals(nread, null); } // Larger than given buf { const longText = "1234\n".repeat(1000); const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("Content-Length", "5000"); const buf = new Deno.Buffer(encode(longText)); req.r = new BufReader(buf); const readBuf = new Uint8Array(1000); let offset = 0; while (offset < longText.length) { const nread = await req.body.read(readBuf); assert(nread !== null); const s = decode(readBuf.subarray(0, nread as number)); assertEquals(longText.substr(offset, nread as number), s); offset += nread as number; } const nread = await req.body.read(readBuf); assertEquals(nread, null); } }); Deno.test("requestBodyReaderWithTransferEncoding", async function (): Promise< void > { { const shortText = "Hello"; const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("transfer-encoding", "chunked"); let chunksData = ""; let chunkOffset = 0; const maxChunkSize = 70; while (chunkOffset < shortText.length) { const chunkSize = Math.min(maxChunkSize, shortText.length - chunkOffset); chunksData += `${chunkSize.toString(16)}\r\n${ shortText.substr(chunkOffset, chunkSize) }\r\n`; chunkOffset += chunkSize; } chunksData += "0\r\n\r\n"; const buf = new Deno.Buffer(encode(chunksData)); req.r = new BufReader(buf); const readBuf = new Uint8Array(6); let offset = 0; while (offset < shortText.length) { const nread = await req.body.read(readBuf); assert(nread !== null); const s = decode(readBuf.subarray(0, nread as number)); assertEquals(shortText.substr(offset, nread as number), s); offset += nread as number; } const nread = await req.body.read(readBuf); assertEquals(nread, null); } // Larger than internal buf { const longText = "1234\n".repeat(1000); const req = new ServerRequest(); req.headers = new Headers(); req.headers.set("transfer-encoding", "chunked"); let chunksData = ""; let chunkOffset = 0; const maxChunkSize = 70; while (chunkOffset < longText.length) { const chunkSize = Math.min(maxChunkSize, longText.length - chunkOffset); chunksData += `${chunkSize.toString(16)}\r\n${ longText.substr(chunkOffset, chunkSize) }\r\n`; chunkOffset += chunkSize; } chunksData += "0\r\n\r\n"; const buf = new Deno.Buffer(encode(chunksData)); req.r = new BufReader(buf); const readBuf = new Uint8Array(1000); let offset = 0; while (offset < longText.length) { const nread = await req.body.read(readBuf); assert(nread !== null); const s = decode(readBuf.subarray(0, nread as number)); assertEquals(longText.substr(offset, nread as number), s); offset += nread as number; } const nread = await req.body.read(readBuf); assertEquals(nread, null); } }); Deno.test({ name: "destroyed connection", fn: async (): Promise => { // Runs a simple server as another process const p = Deno.run({ cmd: [ Deno.execPath(), "run", "--allow-net", "http/testdata/simple_server.ts", ], stdout: "piped", }); let serverIsRunning = true; const statusPromise = p .status() .then((): void => { serverIsRunning = false; }) .catch((_): void => {}); // Ignores the error when closing the process. try { const r = new TextProtoReader(new BufReader(p.stdout)); const s = await r.readLine(); assert(s !== null && s.includes("server listening")); await delay(100); // Reqeusts to the server and immediately closes the connection const conn = await Deno.connect({ port: 4502 }); await conn.write(new TextEncoder().encode("GET / HTTP/1.0\n\n")); conn.close(); // Waits for the server to handle the above (broken) request await delay(100); assert(serverIsRunning); } finally { // Stops the sever and allows `p.status()` promise to resolve Deno.kill(p.pid, Deno.Signal.SIGKILL); await statusPromise; p.stdout.close(); p.close(); } }, }); Deno.test({ name: "serveTLS", fn: async (): Promise => { // Runs a simple server as another process const p = Deno.run({ cmd: [ Deno.execPath(), "run", "--allow-net", "--allow-read", "http/testdata/simple_https_server.ts", ], stdout: "piped", }); let serverIsRunning = true; const statusPromise = p .status() .then((): void => { serverIsRunning = false; }) .catch((_): void => {}); // Ignores the error when closing the process. try { const r = new TextProtoReader(new BufReader(p.stdout)); const s = await r.readLine(); assert( s !== null && s.includes("server listening"), "server must be started", ); // Requests to the server and immediately closes the connection const conn = await Deno.connectTls({ hostname: "localhost", port: 4503, certFile: "http/testdata/tls/RootCA.pem", }); await Deno.writeAll( conn, new TextEncoder().encode("GET / HTTP/1.0\r\n\r\n"), ); const res = new Uint8Array(100); const nread = await conn.read(res); assert(nread !== null); conn.close(); const resStr = new TextDecoder().decode(res.subarray(0, nread)); assert(resStr.includes("Hello HTTPS")); assert(serverIsRunning); } finally { // Stops the sever and allows `p.status()` promise to resolve Deno.kill(p.pid, Deno.Signal.SIGKILL); await statusPromise; p.stdout.close(); p.close(); } }, }); Deno.test( "close server while iterating", async (): Promise => { const server = serve(":8123"); const nextWhileClosing = server[Symbol.asyncIterator]().next(); server.close(); assertEquals(await nextWhileClosing, { value: undefined, done: true }); const nextAfterClosing = server[Symbol.asyncIterator]().next(); assertEquals(await nextAfterClosing, { value: undefined, done: true }); }, ); Deno.test({ name: "[http] close server while connection is open", async fn(): Promise { async function iteratorReq(server: Server): Promise { for await (const req of server) { await req.respond({ body: new TextEncoder().encode(req.url) }); } } const server = serve(":8123"); const p = iteratorReq(server); const conn = await Deno.connect({ hostname: "127.0.0.1", port: 8123 }); await Deno.writeAll( conn, new TextEncoder().encode("GET /hello HTTP/1.1\r\n\r\n"), ); const res = new Uint8Array(100); const nread = await conn.read(res); assert(nread !== null); const resStr = new TextDecoder().decode(res.subarray(0, nread)); assertStringContains(resStr, "/hello"); server.close(); await p; // Client connection should still be open, verify that // it's visible in resource table. const resources = Deno.resources(); assertEquals(resources[conn.rid], "tcpStream"); conn.close(); }, }); Deno.test({ name: "respond error closes connection", async fn(): Promise { const serverRoutine = async (): Promise => { const server = serve(":8124"); for await (const req of server) { await assertThrowsAsync(async () => { await req.respond({ status: 12345, body: new TextEncoder().encode("Hello World"), }); }, Deno.errors.InvalidData); // The connection should be destroyed assert(!(req.conn.rid in Deno.resources())); server.close(); } }; const p = serverRoutine(); const conn = await Deno.connect({ hostname: "127.0.0.1", port: 8124, }); await Deno.writeAll( conn, new TextEncoder().encode("GET / HTTP/1.1\r\n\r\n"), ); conn.close(); await p; }, }); Deno.test({ name: "[http] request error gets 400 response", async fn(): Promise { const server = serve(":8124"); const entry = server[Symbol.asyncIterator]().next(); const conn = await Deno.connect({ hostname: "127.0.0.1", port: 8124, }); await Deno.writeAll( conn, encode("GET / HTTP/1.1\r\nmalformedHeader\r\n\r\n\r\n\r\n"), ); const responseString = decode(await Deno.readAll(conn)); assertMatch( responseString, /^HTTP\/1\.1 400 Bad Request\r\ncontent-length: \d+\r\n\r\n.*\r\n\r\n$/ms, ); conn.close(); server.close(); assert((await entry).done); }, }); Deno.test({ name: "serveTLS Invalid Cert", fn: async (): Promise => { async function iteratorReq(server: Server): Promise { for await (const req of server) { await req.respond({ body: new TextEncoder().encode("Hello HTTPS") }); } } const port = 9122; const tlsOptions = { hostname: "localhost", port, certFile: "./http/testdata/tls/localhost.crt", keyFile: "./http/testdata/tls/localhost.key", }; const server = serveTLS(tlsOptions); const p = iteratorReq(server); try { // Invalid certificate, connection should throw // but should not crash the server assertThrowsAsync( () => Deno.connectTls({ hostname: "localhost", port, // certFile }), Deno.errors.InvalidData, ); // Valid request after invalid const conn = await Deno.connectTls({ hostname: "localhost", port, certFile: "http/testdata/tls/RootCA.pem", }); await Deno.writeAll( conn, new TextEncoder().encode("GET / HTTP/1.0\r\n\r\n"), ); const res = new Uint8Array(100); const nread = await conn.read(res); assert(nread !== null); conn.close(); const resStr = new TextDecoder().decode(res.subarray(0, nread)); assert(resStr.includes("Hello HTTPS")); } finally { // Stops the sever and allows `p.status()` promise to resolve server.close(); await p; } }, }); Deno.test({ name: "server.serve() should be able to parse IPV4 address", fn: (): void => { const server = serve("127.0.0.1:8124"); const expected = { hostname: "127.0.0.1", port: 8124, transport: "tcp", }; assertEquals(server.listener.addr, expected); server.close(); }, }); Deno.test({ name: "server._parseAddrFromStr() should be able to parse IPV6 address", fn: (): void => { const addr = _parseAddrFromStr("[::1]:8124"); const expected = { hostname: "[::1]", port: 8124, }; assertEquals(addr, expected); }, }); Deno.test({ name: "server.serve() should be able to parse IPV6 address", fn: (): void => { const server = serve("[::1]:8124"); const expected = { hostname: "::1", port: 8124, transport: "tcp", }; assertEquals(server.listener.addr, expected); server.close(); }, }); Deno.test({ name: "server._parseAddrFromStr() port 80", fn: (): void => { const addr = _parseAddrFromStr(":80"); assertEquals(addr.port, 80); assertEquals(addr.hostname, "0.0.0.0"); }, });