// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license. import { assert, assertEquals, assertThrowsAsync, deferred, fail, unimplemented, unitTest, } from "./test_util.ts"; import { Buffer } from "../../../test_util/std/io/buffer.ts"; unitTest( { perms: { net: true } }, async function fetchRequiresOneArgument() { await assertThrowsAsync( fetch as unknown as () => Promise, TypeError, ); }, ); unitTest({ perms: { net: true } }, async function fetchProtocolError() { await assertThrowsAsync( async () => { await fetch("file:///"); }, TypeError, "not supported", ); }); function findClosedPortInRange( minPort: number, maxPort: number, ): number | never { let port = minPort; // If we hit the return statement of this loop // that means that we did not throw an // AddrInUse error when we executed Deno.listen. while (port < maxPort) { try { const listener = Deno.listen({ port }); listener.close(); return port; } catch (_e) { port++; } } unimplemented( `No available ports between ${minPort} and ${maxPort} to test fetch`, ); } unitTest( { perms: { net: true } }, async function fetchConnectionError() { const port = findClosedPortInRange(4000, 9999); await assertThrowsAsync( async () => { await fetch(`http://localhost:${port}`); }, TypeError, "error trying to connect", ); }, ); unitTest( { perms: { net: true } }, async function fetchDnsError() { await assertThrowsAsync( async () => { await fetch("http://nil/"); }, TypeError, "error trying to connect", ); }, ); unitTest( { perms: { net: true } }, async function fetchInvalidUriError() { await assertThrowsAsync( async () => { await fetch("http:///"); }, TypeError, ); }, ); unitTest({ perms: { net: true } }, async function fetchJsonSuccess() { const response = await fetch("http://localhost:4545/fixture.json"); const json = await response.json(); assertEquals(json.name, "deno"); }); unitTest(async function fetchPerm() { await assertThrowsAsync(async () => { await fetch("http://localhost:4545/fixture.json"); }, Deno.errors.PermissionDenied); }); unitTest({ perms: { net: true } }, async function fetchUrl() { const response = await fetch("http://localhost:4545/fixture.json"); assertEquals(response.url, "http://localhost:4545/fixture.json"); const _json = await response.json(); }); unitTest({ perms: { net: true } }, async function fetchURL() { const response = await fetch( new URL("http://localhost:4545/fixture.json"), ); assertEquals(response.url, "http://localhost:4545/fixture.json"); const _json = await response.json(); }); unitTest({ perms: { net: true } }, async function fetchHeaders() { const response = await fetch("http://localhost:4545/fixture.json"); const headers = response.headers; assertEquals(headers.get("Content-Type"), "application/json"); const _json = await response.json(); }); unitTest({ perms: { net: true } }, async function fetchBlob() { const response = await fetch("http://localhost:4545/fixture.json"); const headers = response.headers; const blob = await response.blob(); assertEquals(blob.type, headers.get("Content-Type")); assertEquals(blob.size, Number(headers.get("Content-Length"))); }); unitTest( { perms: { net: true } }, async function fetchBodyUsedReader() { const response = await fetch( "http://localhost:4545/fixture.json", ); assert(response.body !== null); const reader = response.body.getReader(); // Getting a reader should lock the stream but does not consume the body // so bodyUsed should not be true assertEquals(response.bodyUsed, false); reader.releaseLock(); await response.json(); assertEquals(response.bodyUsed, true); }, ); unitTest( { perms: { net: true } }, async function fetchBodyUsedCancelStream() { const response = await fetch( "http://localhost:4545/fixture.json", ); assert(response.body !== null); assertEquals(response.bodyUsed, false); const promise = response.body.cancel(); assertEquals(response.bodyUsed, true); await promise; }, ); unitTest({ perms: { net: true } }, async function fetchAsyncIterator() { const response = await fetch("http://localhost:4545/fixture.json"); const headers = response.headers; assert(response.body !== null); let total = 0; for await (const chunk of response.body) { assert(chunk instanceof Uint8Array); total += chunk.length; } assertEquals(total, Number(headers.get("Content-Length"))); }); unitTest({ perms: { net: true } }, async function fetchBodyReader() { const response = await fetch("http://localhost:4545/fixture.json"); const headers = response.headers; assert(response.body !== null); const reader = response.body.getReader(); let total = 0; while (true) { const { done, value } = await reader.read(); if (done) break; assert(value); assert(value instanceof Uint8Array); total += value.length; } assertEquals(total, Number(headers.get("Content-Length"))); }); unitTest( { perms: { net: true } }, async function fetchBodyReaderBigBody() { const data = "a".repeat(10 << 10); // 10mb const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: data, }); assert(response.body !== null); const reader = await response.body.getReader(); let total = 0; while (true) { const { done, value } = await reader.read(); if (done) break; assert(value); total += value.length; } assertEquals(total, data.length); }, ); unitTest({ perms: { net: true } }, async function responseClone() { const response = await fetch("http://localhost:4545/fixture.json"); const response1 = response.clone(); assert(response !== response1); assertEquals(response.status, response1.status); assertEquals(response.statusText, response1.statusText); const u8a = new Uint8Array(await response.arrayBuffer()); const u8a1 = new Uint8Array(await response1.arrayBuffer()); for (let i = 0; i < u8a.byteLength; i++) { assertEquals(u8a[i], u8a1[i]); } }); unitTest( { perms: { net: true } }, async function fetchMultipartFormDataSuccess() { const response = await fetch( "http://localhost:4545/multipart_form_data.txt", ); const formData = await response.formData(); assert(formData.has("field_1")); assertEquals(formData.get("field_1")!.toString(), "value_1 \r\n"); assert(formData.has("field_2")); const file = formData.get("field_2") as File; assertEquals(file.name, "file.js"); assertEquals(await file.text(), `console.log("Hi")`); }, ); unitTest( { perms: { net: true } }, async function fetchMultipartFormBadContentType() { const response = await fetch( "http://localhost:4545/multipart_form_bad_content_type", ); assert(response.body !== null); await assertThrowsAsync( async () => { await response.formData(); }, TypeError, "Body can not be decoded as form data", ); }, ); unitTest( { perms: { net: true } }, async function fetchURLEncodedFormDataSuccess() { const response = await fetch( "http://localhost:4545/subdir/form_urlencoded.txt", ); const formData = await response.formData(); assert(formData.has("field_1")); assertEquals(formData.get("field_1")!.toString(), "Hi"); assert(formData.has("field_2")); assertEquals(formData.get("field_2")!.toString(), ""); }, ); unitTest( { perms: { net: true } }, async function fetchInitFormDataBinaryFileBody() { // Some random bytes // deno-fmt-ignore const binaryFile = new Uint8Array([108,2,0,0,145,22,162,61,157,227,166,77,138,75,180,56,119,188,177,183]); const response = await fetch("http://localhost:4545/echo_multipart_file", { method: "POST", body: binaryFile, }); const resultForm = await response.formData(); const resultFile = resultForm.get("file") as File; assertEquals(resultFile.type, "application/octet-stream"); assertEquals(resultFile.name, "file.bin"); assertEquals(new Uint8Array(await resultFile.arrayBuffer()), binaryFile); }, ); unitTest( { perms: { net: true } }, async function fetchInitFormDataMultipleFilesBody() { const files = [ { // deno-fmt-ignore content: new Uint8Array([137,80,78,71,13,10,26,10, 137, 1, 25]), type: "image/png", name: "image", fileName: "some-image.png", }, { // deno-fmt-ignore content: new Uint8Array([108,2,0,0,145,22,162,61,157,227,166,77,138,75,180,56,119,188,177,183]), name: "file", fileName: "file.bin", expectedType: "application/octet-stream", }, { content: new TextEncoder().encode("deno land"), type: "text/plain", name: "text", fileName: "deno.txt", }, ]; const form = new FormData(); form.append("field", "value"); for (const file of files) { form.append( file.name, new Blob([file.content], { type: file.type }), file.fileName, ); } const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: form, }); const resultForm = await response.formData(); assertEquals(form.get("field"), resultForm.get("field")); for (const file of files) { const inputFile = form.get(file.name) as File; const resultFile = resultForm.get(file.name) as File; assertEquals(inputFile.size, resultFile.size); assertEquals(inputFile.name, resultFile.name); assertEquals(file.expectedType || file.type, resultFile.type); assertEquals( new Uint8Array(await resultFile.arrayBuffer()), file.content, ); } }, ); unitTest( { perms: { net: true }, }, async function fetchWithRedirection() { const response = await fetch("http://localhost:4546/hello.txt"); assertEquals(response.status, 200); assertEquals(response.statusText, "OK"); assertEquals(response.url, "http://localhost:4545/hello.txt"); const body = await response.text(); assert(body.includes("Hello world!")); }, ); unitTest( { perms: { net: true }, }, async function fetchWithRelativeRedirection() { const response = await fetch( "http://localhost:4545/001_hello.js", ); assertEquals(response.status, 200); assertEquals(response.statusText, "OK"); const body = await response.text(); assert(body.includes("Hello")); }, ); unitTest( { perms: { net: true }, }, async function fetchWithRelativeRedirectionUrl() { const cases = [ ["end", "http://localhost:4550/a/b/end"], ["/end", "http://localhost:4550/end"], ]; for (const [loc, redUrl] of cases) { const response = await fetch("http://localhost:4550/a/b/c", { headers: new Headers([["x-location", loc]]), }); assertEquals(response.url, redUrl); assertEquals(response.redirected, true); assertEquals(response.status, 404); assertEquals(await response.text(), ""); } }, ); unitTest( { perms: { net: true }, }, async function fetchWithInfRedirection() { await assertThrowsAsync( () => fetch("http://localhost:4549"), TypeError, "redirect", ); }, ); unitTest( { perms: { net: true } }, async function fetchInitStringBody() { const data = "Hello World"; const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: data, }); const text = await response.text(); assertEquals(text, data); assert(response.headers.get("content-type")!.startsWith("text/plain")); }, ); unitTest( { perms: { net: true } }, async function fetchRequestInitStringBody() { const data = "Hello World"; const req = new Request("http://localhost:4545/echo_server", { method: "POST", body: data, }); const response = await fetch(req); const text = await response.text(); assertEquals(text, data); }, ); unitTest( { perms: { net: true } }, async function fetchSeparateInit() { // related to: https://github.com/denoland/deno/issues/10396 const req = new Request("http://localhost:4545/001_hello.js"); const init = { method: "GET", }; req.headers.set("foo", "bar"); const res = await fetch(req, init); assertEquals(res.status, 200); await res.text(); }, ); unitTest( { perms: { net: true } }, async function fetchInitTypedArrayBody() { const data = "Hello World"; const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: new TextEncoder().encode(data), }); const text = await response.text(); assertEquals(text, data); }, ); unitTest( { perms: { net: true } }, async function fetchInitArrayBufferBody() { const data = "Hello World"; const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: new TextEncoder().encode(data).buffer, }); const text = await response.text(); assertEquals(text, data); }, ); unitTest( { perms: { net: true } }, async function fetchInitURLSearchParamsBody() { const data = "param1=value1¶m2=value2"; const params = new URLSearchParams(data); const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: params, }); const text = await response.text(); assertEquals(text, data); assert( response.headers .get("content-type")! .startsWith("application/x-www-form-urlencoded"), ); }, ); unitTest({ perms: { net: true } }, async function fetchInitBlobBody() { const data = "const a = 1"; const blob = new Blob([data], { type: "text/javascript", }); const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: blob, }); const text = await response.text(); assertEquals(text, data); assert(response.headers.get("content-type")!.startsWith("text/javascript")); }); unitTest( { perms: { net: true } }, async function fetchInitFormDataBody() { const form = new FormData(); form.append("field", "value"); const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: form, }); const resultForm = await response.formData(); assertEquals(form.get("field"), resultForm.get("field")); }, ); unitTest( { perms: { net: true } }, async function fetchInitFormDataBlobFilenameBody() { const form = new FormData(); form.append("field", "value"); form.append("file", new Blob([new TextEncoder().encode("deno")])); const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: form, }); const resultForm = await response.formData(); assertEquals(form.get("field"), resultForm.get("field")); const file = resultForm.get("file"); assert(file instanceof File); assertEquals(file.name, "blob"); }, ); unitTest( { perms: { net: true } }, async function fetchInitFormDataTextFileBody() { const fileContent = "deno land"; const form = new FormData(); form.append("field", "value"); form.append( "file", new Blob([new TextEncoder().encode(fileContent)], { type: "text/plain", }), "deno.txt", ); const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: form, }); const resultForm = await response.formData(); assertEquals(form.get("field"), resultForm.get("field")); const file = form.get("file") as File; const resultFile = resultForm.get("file") as File; assertEquals(file.size, resultFile.size); assertEquals(file.name, resultFile.name); assertEquals(file.type, resultFile.type); assertEquals(await file.text(), await resultFile.text()); }, ); unitTest({ perms: { net: true } }, async function fetchUserAgent() { const data = "Hello World"; const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: new TextEncoder().encode(data), }); assertEquals(response.headers.get("user-agent"), `Deno/${Deno.version.deno}`); await response.text(); }); function bufferServer(addr: string): Promise { const [hostname, port] = addr.split(":"); const listener = Deno.listen({ hostname, port: Number(port), }) as Deno.Listener; return listener.accept().then(async (conn: Deno.Conn) => { const buf = new Buffer(); const p1 = buf.readFrom(conn); const p2 = conn.write( new TextEncoder().encode( "HTTP/1.0 404 Not Found\r\nContent-Length: 2\r\n\r\nNF", ), ); // Wait for both an EOF on the read side of the socket and for the write to // complete before closing it. Due to keep-alive, the EOF won't be sent // until the Connection close (HTTP/1.0) response, so readFrom() can't // proceed write. Conversely, if readFrom() is async, waiting for the // write() to complete is not a guarantee that we've read the incoming // request. await Promise.all([p1, p2]); conn.close(); listener.close(); return buf; }); } unitTest( { perms: { net: true }, }, async function fetchRequest() { const addr = "127.0.0.1:4501"; const bufPromise = bufferServer(addr); const response = await fetch(`http://${addr}/blah`, { method: "POST", headers: [ ["Hello", "World"], ["Foo", "Bar"], ], }); await response.arrayBuffer(); assertEquals(response.status, 404); assertEquals(response.headers.get("Content-Length"), "2"); const actual = new TextDecoder().decode((await bufPromise).bytes()); const expected = [ "POST /blah HTTP/1.1\r\n", "hello: World\r\n", "foo: Bar\r\n", "accept: */*\r\n", `user-agent: Deno/${Deno.version.deno}\r\n`, "accept-encoding: gzip, br\r\n", `host: ${addr}\r\n\r\n`, ].join(""); assertEquals(actual, expected); }, ); unitTest( { perms: { net: true }, }, async function fetchPostBodyString() { const addr = "127.0.0.1:4502"; const bufPromise = bufferServer(addr); const body = "hello world"; const response = await fetch(`http://${addr}/blah`, { method: "POST", headers: [ ["Hello", "World"], ["Foo", "Bar"], ], body, }); await response.arrayBuffer(); assertEquals(response.status, 404); assertEquals(response.headers.get("Content-Length"), "2"); const actual = new TextDecoder().decode((await bufPromise).bytes()); const expected = [ "POST /blah HTTP/1.1\r\n", "hello: World\r\n", "foo: Bar\r\n", "content-type: text/plain;charset=UTF-8\r\n", "accept: */*\r\n", `user-agent: Deno/${Deno.version.deno}\r\n`, "accept-encoding: gzip, br\r\n", `host: ${addr}\r\n`, `content-length: ${body.length}\r\n\r\n`, body, ].join(""); assertEquals(actual, expected); }, ); unitTest( { perms: { net: true }, }, async function fetchPostBodyTypedArray() { const addr = "127.0.0.1:4503"; const bufPromise = bufferServer(addr); const bodyStr = "hello world"; const body = new TextEncoder().encode(bodyStr); const response = await fetch(`http://${addr}/blah`, { method: "POST", headers: [ ["Hello", "World"], ["Foo", "Bar"], ], body, }); await response.arrayBuffer(); assertEquals(response.status, 404); assertEquals(response.headers.get("Content-Length"), "2"); const actual = new TextDecoder().decode((await bufPromise).bytes()); const expected = [ "POST /blah HTTP/1.1\r\n", "hello: World\r\n", "foo: Bar\r\n", "accept: */*\r\n", `user-agent: Deno/${Deno.version.deno}\r\n`, "accept-encoding: gzip, br\r\n", `host: ${addr}\r\n`, `content-length: ${body.byteLength}\r\n\r\n`, bodyStr, ].join(""); assertEquals(actual, expected); }, ); unitTest( { perms: { net: true }, }, async function fetchWithNonAsciiRedirection() { const response = await fetch("http://localhost:4545/non_ascii_redirect", { redirect: "manual", }); assertEquals(response.status, 301); assertEquals(response.headers.get("location"), "/redirect®"); await response.text(); }, ); unitTest( { perms: { net: true }, }, async function fetchWithManualRedirection() { const response = await fetch("http://localhost:4546/", { redirect: "manual", }); // will redirect to http://localhost:4545/ assertEquals(response.status, 301); assertEquals(response.url, "http://localhost:4546/"); assertEquals(response.type, "basic"); assertEquals(response.headers.get("Location"), "http://localhost:4545/"); await response.body!.cancel(); }, ); unitTest( { perms: { net: true }, }, async function fetchWithErrorRedirection() { await assertThrowsAsync( () => fetch("http://localhost:4546/", { redirect: "error", }), TypeError, "redirect", ); }, ); unitTest(function responseRedirect() { const redir = Response.redirect("example.com/newLocation", 301); assertEquals(redir.status, 301); assertEquals(redir.statusText, ""); assertEquals(redir.url, ""); assertEquals( redir.headers.get("Location"), "http://js-unit-tests/foo/example.com/newLocation", ); assertEquals(redir.type, "default"); }); unitTest(async function responseWithoutBody() { const response = new Response(); assertEquals(await response.arrayBuffer(), new ArrayBuffer(0)); const blob = await response.blob(); assertEquals(blob.size, 0); assertEquals(await blob.arrayBuffer(), new ArrayBuffer(0)); assertEquals(await response.text(), ""); await assertThrowsAsync(async () => { await response.json(); }); }); unitTest({ perms: { net: true } }, async function fetchBodyReadTwice() { const response = await fetch("http://localhost:4545/fixture.json"); // Read body const _json = await response.json(); assert(_json); // All calls after the body was consumed, should fail const methods = ["json", "text", "formData", "arrayBuffer"] as const; for (const method of methods) { try { await response[method](); fail( "Reading body multiple times should failed, the stream should've been locked.", ); } catch { // pass } } }); unitTest( { perms: { net: true } }, async function fetchBodyReaderAfterRead() { const response = await fetch( "http://localhost:4545/fixture.json", ); assert(response.body !== null); const reader = await response.body.getReader(); while (true) { const { done, value } = await reader.read(); if (done) break; assert(value); } try { response.body.getReader(); fail("The stream should've been locked."); } catch { // pass } }, ); unitTest( { perms: { net: true } }, async function fetchBodyReaderWithCancelAndNewReader() { const data = "a".repeat(1 << 10); const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: data, }); assert(response.body !== null); const firstReader = await response.body.getReader(); // Acquire reader without reading & release await firstReader.releaseLock(); const reader = await response.body.getReader(); let total = 0; while (true) { const { done, value } = await reader.read(); if (done) break; assert(value); total += value.length; } assertEquals(total, data.length); }, ); unitTest( { perms: { net: true } }, async function fetchBodyReaderWithReadCancelAndNewReader() { const data = "a".repeat(1 << 10); const response = await fetch("http://localhost:4545/echo_server", { method: "POST", body: data, }); assert(response.body !== null); const firstReader = await response.body.getReader(); // Do one single read with first reader const { value: firstValue } = await firstReader.read(); assert(firstValue); await firstReader.releaseLock(); // Continue read with second reader const reader = await response.body.getReader(); let total = firstValue.length || 0; while (true) { const { done, value } = await reader.read(); if (done) break; assert(value); total += value.length; } assertEquals(total, data.length); }, ); unitTest( { perms: { net: true } }, async function fetchResourceCloseAfterStreamCancel() { const res = await fetch("http://localhost:4545/fixture.json"); assert(res.body !== null); // After ReadableStream.cancel is called, resource handle must be closed // The test should not fail with: Test case is leaking resources await res.body.cancel(); }, ); // FIXME(bartlomieju): for reasons unknown after working for // a few months without a problem; this test started failing // consistently on Windows CI with following error: // TypeError: error sending request for url (http://localhost:4545/echo_server): // connection error: An established connection was aborted by // the software in your host machine. (os error 10053) unitTest( { perms: { net: true }, ignore: Deno.build.os == "windows" }, async function fetchNullBodyStatus() { const nullBodyStatus = [101, 204, 205, 304]; for (const status of nullBodyStatus) { const headers = new Headers([["x-status", String(status)]]); const res = await fetch("http://localhost:4545/echo_server", { body: "deno", method: "POST", headers, }); assertEquals(res.body, null); assertEquals(res.status, status); } }, ); unitTest( { perms: { net: true } }, async function fetchResponseContentLength() { const body = new Uint8Array(2 ** 16); const headers = new Headers([["content-type", "application/octet-stream"]]); const res = await fetch("http://localhost:4545/echo_server", { body: body, method: "POST", headers, }); assertEquals(Number(res.headers.get("content-length")), body.byteLength); const blob = await res.blob(); // Make sure Body content-type is correctly set assertEquals(blob.type, "application/octet-stream"); assertEquals(blob.size, body.byteLength); }, ); unitTest(function fetchResponseConstructorNullBody() { const nullBodyStatus = [204, 205, 304]; for (const status of nullBodyStatus) { try { new Response("deno", { status }); fail("Response with null body status cannot have body"); } catch (e) { assert(e instanceof TypeError); assertEquals( e.message, "Response with null body status cannot have body", ); } } }); unitTest(function fetchResponseConstructorInvalidStatus() { const invalidStatus = [101, 600, 199, null, "", NaN]; for (const status of invalidStatus) { try { // deno-lint-ignore ban-ts-comment // @ts-ignore new Response("deno", { status }); fail(`Invalid status: ${status}`); } catch (e) { assert(e instanceof RangeError); assert(e.message.endsWith("is outside the range [200, 599].")); } } }); unitTest(function fetchResponseEmptyConstructor() { const response = new Response(); assertEquals(response.status, 200); assertEquals(response.body, null); assertEquals(response.type, "default"); assertEquals(response.url, ""); assertEquals(response.redirected, false); assertEquals(response.ok, true); assertEquals(response.bodyUsed, false); assertEquals([...response.headers], []); }); // TODO(lucacasonato): reenable this test unitTest( { perms: { net: true }, ignore: true }, async function fetchCustomHttpClientParamCertificateSuccess(): Promise< void > { const client = Deno.createHttpClient( { caData: `-----BEGIN CERTIFICATE----- MIIDIzCCAgugAwIBAgIJAMKPPW4tsOymMA0GCSqGSIb3DQEBCwUAMCcxCzAJBgNV BAYTAlVTMRgwFgYDVQQDDA9FeGFtcGxlLVJvb3QtQ0EwIBcNMTkxMDIxMTYyODIy WhgPMjExODA5MjcxNjI4MjJaMCcxCzAJBgNVBAYTAlVTMRgwFgYDVQQDDA9FeGFt cGxlLVJvb3QtQ0EwggEiMA0GCSqGSIb3DQEBAQUAA4IBDwAwggEKAoIBAQDMH/IO 2qtHfyBKwANNPB4K0q5JVSg8XxZdRpTTlz0CwU0oRO3uHrI52raCCfVeiQutyZop eFZTDWeXGudGAFA2B5m3orWt0s+touPi8MzjsG2TQ+WSI66QgbXTNDitDDBtTVcV 5G3Ic+3SppQAYiHSekLISnYWgXLl+k5CnEfTowg6cjqjVr0KjL03cTN3H7b+6+0S ws4rYbW1j4ExR7K6BFNH6572yq5qR20E6GqlY+EcOZpw4CbCk9lS8/CWuXze/vMs OfDcc6K+B625d27wyEGZHedBomT2vAD7sBjvO8hn/DP1Qb46a8uCHR6NSfnJ7bXO G1igaIbgY1zXirNdAgMBAAGjUDBOMB0GA1UdDgQWBBTzut+pwwDfqmMYcI9KNWRD hxcIpTAfBgNVHSMEGDAWgBTzut+pwwDfqmMYcI9KNWRDhxcIpTAMBgNVHRMEBTAD AQH/MA0GCSqGSIb3DQEBCwUAA4IBAQB9AqSbZ+hEglAgSHxAMCqRFdhVu7MvaQM0 P090mhGlOCt3yB7kdGfsIrUW6nQcTz7PPQFRaJMrFHPvFvPootkBUpTYR4hTkdce H6RCRu2Jxl4Y9bY/uezd9YhGCYfUtfjA6/TH9FcuZfttmOOlxOt01XfNvVMIR6RM z/AYhd+DeOXjr35F/VHeVpnk+55L0PYJsm1CdEbOs5Hy1ecR7ACuDkXnbM4fpz9I kyIWJwk2zJReKcJMgi1aIinDM9ao/dca1G99PHOw8dnr4oyoTiv8ao6PWiSRHHMi MNf4EgWfK+tZMnuqfpfO9740KzfcVoMNo4QJD4yn5YxroUOO/Azi -----END CERTIFICATE----- `, }, ); const response = await fetch( "https://localhost:5545/fixture.json", { client }, ); const json = await response.json(); assertEquals(json.name, "deno"); client.close(); }, ); unitTest( { perms: { net: true } }, async function fetchCustomClientUserAgent(): Promise< void > { const data = "Hello World"; const client = Deno.createHttpClient({}); const response = await fetch("http://localhost:4545/echo_server", { client, method: "POST", body: new TextEncoder().encode(data), }); assertEquals( response.headers.get("user-agent"), `Deno/${Deno.version.deno}`, ); await response.text(); client.close(); }, ); unitTest( { perms: { net: true }, }, async function fetchPostBodyReadableStream() { const addr = "127.0.0.1:4502"; const bufPromise = bufferServer(addr); const stream = new TransformStream(); const writer = stream.writable.getWriter(); // transformer writes don't resolve until they are read, so awaiting these // will cause the transformer to hang, as the suspend the transformer, it // is also illogical to await for the reads, as that is the whole point of // streams is to have a "queue" which gets drained... writer.write(new TextEncoder().encode("hello ")); writer.write(new TextEncoder().encode("world")); writer.close(); const response = await fetch(`http://${addr}/blah`, { method: "POST", headers: [ ["Hello", "World"], ["Foo", "Bar"], ], body: stream.readable, }); await response.arrayBuffer(); assertEquals(response.status, 404); assertEquals(response.headers.get("Content-Length"), "2"); const actual = new TextDecoder().decode((await bufPromise).bytes()); const expected = [ "POST /blah HTTP/1.1\r\n", "hello: World\r\n", "foo: Bar\r\n", "accept: */*\r\n", `user-agent: Deno/${Deno.version.deno}\r\n`, "accept-encoding: gzip, br\r\n", `host: ${addr}\r\n`, `transfer-encoding: chunked\r\n\r\n`, "6\r\n", "hello \r\n", "5\r\n", "world\r\n", "0\r\n\r\n", ].join(""); assertEquals(actual, expected); }, ); unitTest({}, function fetchWritableRespProps() { const original = new Response("https://deno.land", { status: 404, headers: { "x-deno": "foo" }, }); const new_ = new Response("https://deno.land", original); assertEquals(original.status, new_.status); assertEquals(new_.headers.get("x-deno"), "foo"); }); function returnHostHeaderServer(addr: string): Deno.Listener { const [hostname, port] = addr.split(":"); const listener = Deno.listen({ hostname, port: Number(port), }) as Deno.Listener; listener.accept().then(async (conn: Deno.Conn) => { const httpConn = Deno.serveHttp(conn); await httpConn.nextRequest() .then(async (requestEvent: Deno.RequestEvent | null) => { const hostHeader = requestEvent?.request.headers.get("Host"); const headersToReturn = hostHeader ? { "Host": hostHeader } : undefined; await requestEvent?.respondWith( new Response("", { status: 200, headers: headersToReturn, }), ); }); httpConn.close(); }); return listener; } unitTest( { perms: { net: true } }, async function fetchFilterOutCustomHostHeader(): Promise< void > { const addr = "127.0.0.1:4502"; const listener = returnHostHeaderServer(addr); const response = await fetch(`http://${addr}/`, { headers: { "Host": "example.com" }, }); await response.text(); listener.close(); assertEquals(response.headers.get("Host"), addr); }, ); unitTest( { perms: { net: true } }, async function fetchNoServerReadableStreamBody() { const done = deferred(); const body = new ReadableStream({ start(controller) { controller.enqueue(new Uint8Array([1])); setTimeout(() => { controller.enqueue(new Uint8Array([2])); done.resolve(); }, 1000); }, }); const nonExistantHostname = "http://localhost:47582"; await assertThrowsAsync(async () => { await fetch(nonExistantHostname, { body, method: "POST" }); }, TypeError); await done; }, ); unitTest( { perms: { net: true } }, async function fetchHeadRespBody() { const res = await fetch("http://localhost:4545/echo_server", { method: "HEAD", }); assertEquals(res.body, null); }, ); unitTest( { perms: { read: true, net: true } }, async function fetchClientCertWrongPrivateKey(): Promise { await assertThrowsAsync(async () => { const client = Deno.createHttpClient({ certChain: "bad data", privateKey: await Deno.readTextFile( "cli/tests/testdata/tls/localhost.key", ), }); await fetch("https://localhost:5552/fixture.json", { client, }); }, Deno.errors.InvalidData); }, ); unitTest( { perms: { read: true, net: true } }, async function fetchClientCertBadPrivateKey(): Promise { await assertThrowsAsync(async () => { const client = Deno.createHttpClient({ certChain: await Deno.readTextFile( "cli/tests/testdata/tls/localhost.crt", ), privateKey: "bad data", }); await fetch("https://localhost:5552/fixture.json", { client, }); }, Deno.errors.InvalidData); }, ); unitTest( { perms: { read: true, net: true } }, async function fetchClientCertNotPrivateKey(): Promise { await assertThrowsAsync(async () => { const client = Deno.createHttpClient({ certChain: await Deno.readTextFile( "cli/tests/testdata/tls/localhost.crt", ), privateKey: "", }); await fetch("https://localhost:5552/fixture.json", { client, }); }, Deno.errors.InvalidData); }, ); unitTest( { perms: { read: true, net: true } }, async function fetchCustomClientPrivateKey(): Promise< void > { const data = "Hello World"; const client = Deno.createHttpClient({ certChain: await Deno.readTextFile( "cli/tests/testdata/tls/localhost.crt", ), privateKey: await Deno.readTextFile( "cli/tests/testdata/tls/localhost.key", ), caData: await Deno.readTextFile("cli/tests/testdata/tls/RootCA.crt"), }); const response = await fetch("https://localhost:5552/echo_server", { client, method: "POST", body: new TextEncoder().encode(data), }); assertEquals( response.headers.get("user-agent"), `Deno/${Deno.version.deno}`, ); await response.text(); client.close(); }, ); unitTest( { perms: { net: true } }, async function fetchAbortWhileUploadStreaming(): Promise { const abortController = new AbortController(); try { await fetch( "http://localhost:5552/echo_server", { method: "POST", body: new ReadableStream({ pull(controller) { abortController.abort(); controller.enqueue(new Uint8Array([1, 2, 3, 4])); }, }), signal: abortController.signal, }, ); fail("Fetch didn't reject."); } catch (error) { assert(error instanceof DOMException); assertEquals(error.name, "AbortError"); assertEquals(error.message, "Ongoing fetch was aborted."); } }, );