electron/spec/api-net-spec.ts
Samuel Attard 8af5c6d130
build: update some build dependencies (#44069)
* build: update some build dependencies (#43882)

* build: update some build dependencies

* build: fix eslint issues after updating

* build: disable ts check on busted js example

* build: update internal types for stricter event handling

* restore url.parse behavior

* fix typing issues

* sigh

* build: update easy deps

* build: skip woa engines check

* build: s/colors/chalk
2024-10-01 11:09:28 -07:00

1615 lines
66 KiB
TypeScript

import { expect } from 'chai';
import { net, ClientRequest, ClientRequestConstructorOptions, utilityProcess } from 'electron/main';
import * as http from 'node:http';
import * as path from 'node:path';
import { once } from 'node:events';
import { setTimeout } from 'node:timers/promises';
import { collectStreamBody, collectStreamBodyBuffer, getResponse, kOneKiloByte, kOneMegaByte, randomBuffer, randomString, respondNTimes, respondOnce } from './lib/net-helpers';
const utilityFixturePath = path.resolve(__dirname, 'fixtures', 'api', 'utility-process', 'api-net-spec.js');
async function itUtility (name: string, fn?: Function, args?: {[key:string]: any}) {
it(`${name} in utility process`, async () => {
const child = utilityProcess.fork(utilityFixturePath, [], {
execArgv: ['--expose-gc']
});
if (fn) {
child.postMessage({ fn: `(${fn})()`, args });
} else {
child.postMessage({ fn: '(() => {})()', args });
}
const [data] = await once(child, 'message');
expect(data.ok).to.be.true(data.message);
// Cleanup.
const [code] = await once(child, 'exit');
expect(code).to.equal(0);
});
}
// eslint-disable-next-line @typescript-eslint/no-unused-vars
async function itIgnoringArgs (name: string, fn?: Mocha.Func|Mocha.AsyncFunc, args?: {[key:string]: any}) {
it(name, fn);
}
describe('net module', () => {
beforeEach(() => {
respondNTimes.routeFailure = false;
});
afterEach(async function () {
if (respondNTimes.routeFailure && this.test) {
if (!this.test.isFailed()) {
throw new Error('Failing this test due an unhandled error in the respondOnce route handler, check the logs above for the actual error');
}
}
});
for (const test of [itIgnoringArgs, itUtility]) {
describe('HTTP basics', () => {
test('should be able to issue a basic GET request', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.method).to.equal('GET');
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should be able to issue a basic POST request', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.method).to.equal('POST');
response.end();
});
const urlRequest = net.request({
method: 'POST',
url: serverUrl
});
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should fetch correct data in a GET request', async () => {
const expectedBodyData = 'Hello World!';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.method).to.equal('GET');
response.end(expectedBodyData);
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
const body = await collectStreamBody(response);
expect(body).to.equal(expectedBodyData);
});
test('should post the correct data in a POST request', async () => {
const bodyData = 'Hello World!';
let postedBodyData: string = '';
const serverUrl = await respondOnce.toSingleURL(async (request, response) => {
postedBodyData = await collectStreamBody(request);
response.end();
});
const urlRequest = net.request({
method: 'POST',
url: serverUrl
});
urlRequest.write(bodyData);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(postedBodyData).to.equal(bodyData);
});
test('a 307 redirected POST request preserves the body', async () => {
const bodyData = 'Hello World!';
let postedBodyData: string = '';
let methodAfterRedirect: string | undefined;
const serverUrl = await respondNTimes.toRoutes({
'/redirect': (req, res) => {
res.statusCode = 307;
res.setHeader('location', serverUrl);
return res.end();
},
'/': async (req, res) => {
methodAfterRedirect = req.method;
postedBodyData = await collectStreamBody(req);
res.end();
}
}, 2);
const urlRequest = net.request({
method: 'POST',
url: serverUrl + '/redirect'
});
urlRequest.write(bodyData);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
expect(methodAfterRedirect).to.equal('POST');
expect(postedBodyData).to.equal(bodyData);
});
test('a 302 redirected POST request DOES NOT preserve the body', async () => {
const bodyData = 'Hello World!';
let postedBodyData: string = '';
let methodAfterRedirect: string | undefined;
const serverUrl = await respondNTimes.toRoutes({
'/redirect': (req, res) => {
res.statusCode = 302;
res.setHeader('location', serverUrl);
return res.end();
},
'/': async (req, res) => {
methodAfterRedirect = req.method;
postedBodyData = await collectStreamBody(req);
res.end();
}
}, 2);
const urlRequest = net.request({
method: 'POST',
url: serverUrl + '/redirect'
});
urlRequest.write(bodyData);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
expect(methodAfterRedirect).to.equal('GET');
expect(postedBodyData).to.equal('');
});
test('should support chunked encoding', async () => {
let receivedRequest: http.IncomingMessage = null as any;
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.chunkedEncoding = true;
receivedRequest = request;
request.on('data', (chunk: Buffer) => {
response.write(chunk);
});
request.on('end', (chunk: Buffer) => {
response.end(chunk);
});
});
const urlRequest = net.request({
method: 'POST',
url: serverUrl
});
let chunkIndex = 0;
const chunkCount = 100;
let sent = Buffer.alloc(0);
urlRequest.chunkedEncoding = true;
while (chunkIndex < chunkCount) {
chunkIndex += 1;
const chunk = randomBuffer(kOneKiloByte);
sent = Buffer.concat([sent, chunk]);
urlRequest.write(chunk);
}
const response = await getResponse(urlRequest);
expect(receivedRequest.method).to.equal('POST');
expect(receivedRequest.headers['transfer-encoding']).to.equal('chunked');
expect(receivedRequest.headers['content-length']).to.equal(undefined);
expect(response.statusCode).to.equal(200);
const received = await collectStreamBodyBuffer(response);
expect(sent.equals(received)).to.be.true();
expect(chunkIndex).to.be.equal(chunkCount);
});
for (const extraOptions of [{}, { credentials: 'include' }, { useSessionCookies: false, credentials: 'include' }] as ClientRequestConstructorOptions[]) {
describe(`authentication when ${JSON.stringify(extraOptions)}`, () => {
test('should emit the login event when 401', async () => {
const [user, pass] = ['user', 'pass'];
const serverUrl = await respondOnce.toSingleURL((request, response) => {
if (!request.headers.authorization) {
return response.writeHead(401, { 'WWW-Authenticate': 'Basic realm="Foo"' }).end();
}
response.writeHead(200).end('ok');
});
let loginAuthInfo: Electron.AuthInfo;
const request = net.request({ method: 'GET', url: serverUrl, ...extraOptions });
request.on('login', (authInfo, cb) => {
loginAuthInfo = authInfo;
cb(user, pass);
});
const response = await getResponse(request);
expect(response.statusCode).to.equal(200);
expect(loginAuthInfo!.realm).to.equal('Foo');
expect(loginAuthInfo!.scheme).to.equal('basic');
}, { extraOptions });
test('should receive 401 response when cancelling authentication', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
if (!request.headers.authorization) {
response.writeHead(401, { 'WWW-Authenticate': 'Basic realm="Foo"' });
response.end('unauthenticated');
} else {
response.writeHead(200).end('ok');
}
});
const request = net.request({ method: 'GET', url: serverUrl, ...extraOptions });
request.on('login', (authInfo, cb) => {
cb();
});
const response = await getResponse(request);
const body = await collectStreamBody(response);
expect(response.statusCode).to.equal(401);
expect(body).to.equal('unauthenticated');
}, { extraOptions });
test('should upload body when 401', async () => {
const [user, pass] = ['user', 'pass'];
const serverUrl = await respondOnce.toSingleURL((request, response) => {
if (!request.headers.authorization) {
return response.writeHead(401, { 'WWW-Authenticate': 'Basic realm="Foo"' }).end();
}
response.writeHead(200);
request.on('data', (chunk) => response.write(chunk));
request.on('end', () => response.end());
});
const requestData = randomString(kOneKiloByte);
const request = net.request({ method: 'GET', url: serverUrl, ...extraOptions });
request.on('login', (authInfo, cb) => {
cb(user, pass);
});
request.write(requestData);
const response = await getResponse(request);
const responseData = await collectStreamBody(response);
expect(responseData).to.equal(requestData);
}, { extraOptions });
});
}
describe('authentication when {"credentials":"omit"}', () => {
test('should not emit the login event when 401', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
if (!request.headers.authorization) {
return response.writeHead(401, { 'WWW-Authenticate': 'Basic realm="Foo"' }).end();
}
response.writeHead(200).end('ok');
});
const request = net.request({ method: 'GET', url: serverUrl, credentials: 'omit' });
request.on('login', () => {
expect.fail('unexpected login event');
});
const response = await getResponse(request);
expect(response.statusCode).to.equal(401);
expect(response.headers['www-authenticate']).to.equal('Basic realm="Foo"');
});
});
});
describe('ClientRequest API', () => {
test('request/response objects should emit expected events', async () => {
const bodyData = randomString(kOneKiloByte);
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.end(bodyData);
});
const urlRequest = net.request(serverUrl);
// request close event
const closePromise = once(urlRequest, 'close');
// request finish event
const finishPromise = once(urlRequest, 'close');
// request "response" event
const response = await getResponse(urlRequest);
response.on('error', (error: Error) => {
expect(error).to.be.an('Error');
});
const statusCode = response.statusCode;
expect(statusCode).to.equal(200);
// response data event
// respond end event
const body = await collectStreamBody(response);
expect(body).to.equal(bodyData);
urlRequest.on('error', (error) => {
expect(error).to.be.an('Error');
});
await Promise.all([closePromise, finishPromise]);
});
test('should be able to set a custom HTTP request header before first write', async () => {
const customHeaderName = 'Some-Custom-Header-Name';
const customHeaderValue = 'Some-Customer-Header-Value';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers[customHeaderName.toLowerCase()]).to.equal(customHeaderValue);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.setHeader(customHeaderName, customHeaderValue);
expect(urlRequest.getHeader(customHeaderName)).to.equal(customHeaderValue);
expect(urlRequest.getHeader(customHeaderName.toLowerCase())).to.equal(customHeaderValue);
urlRequest.write('');
expect(urlRequest.getHeader(customHeaderName)).to.equal(customHeaderValue);
expect(urlRequest.getHeader(customHeaderName.toLowerCase())).to.equal(customHeaderValue);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should be able to set a non-string object as a header value', async () => {
const customHeaderName = 'Some-Integer-Value';
const customHeaderValue = 900;
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers[customHeaderName.toLowerCase()]).to.equal(customHeaderValue.toString());
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.setHeader(customHeaderName, customHeaderValue as any);
expect(urlRequest.getHeader(customHeaderName)).to.equal(customHeaderValue);
expect(urlRequest.getHeader(customHeaderName.toLowerCase())).to.equal(customHeaderValue);
urlRequest.write('');
expect(urlRequest.getHeader(customHeaderName)).to.equal(customHeaderValue);
expect(urlRequest.getHeader(customHeaderName.toLowerCase())).to.equal(customHeaderValue);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should not change the case of header name', async () => {
const customHeaderName = 'X-Header-Name';
const customHeaderValue = 'value';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers[customHeaderName.toLowerCase()]).to.equal(customHeaderValue.toString());
expect(request.rawHeaders.includes(customHeaderName)).to.equal(true);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.setHeader(customHeaderName, customHeaderValue);
expect(urlRequest.getHeader(customHeaderName)).to.equal(customHeaderValue);
urlRequest.write('');
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should not be able to set a custom HTTP request header after first write', async () => {
const customHeaderName = 'Some-Custom-Header-Name';
const customHeaderValue = 'Some-Customer-Header-Value';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers[customHeaderName.toLowerCase()]).to.equal(undefined);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.write('');
expect(() => {
urlRequest.setHeader(customHeaderName, customHeaderValue);
}).to.throw();
expect(urlRequest.getHeader(customHeaderName)).to.equal(undefined);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should be able to remove a custom HTTP request header before first write', async () => {
const customHeaderName = 'Some-Custom-Header-Name';
const customHeaderValue = 'Some-Customer-Header-Value';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers[customHeaderName.toLowerCase()]).to.equal(undefined);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.setHeader(customHeaderName, customHeaderValue);
expect(urlRequest.getHeader(customHeaderName)).to.equal(customHeaderValue);
urlRequest.removeHeader(customHeaderName);
expect(urlRequest.getHeader(customHeaderName)).to.equal(undefined);
urlRequest.write('');
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should not be able to remove a custom HTTP request header after first write', async () => {
const customHeaderName = 'Some-Custom-Header-Name';
const customHeaderValue = 'Some-Customer-Header-Value';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers[customHeaderName.toLowerCase()]).to.equal(customHeaderValue);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.setHeader(customHeaderName, customHeaderValue);
expect(urlRequest.getHeader(customHeaderName)).to.equal(customHeaderValue);
urlRequest.write('');
expect(() => {
urlRequest.removeHeader(customHeaderName);
}).to.throw();
expect(urlRequest.getHeader(customHeaderName)).to.equal(customHeaderValue);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should keep the order of headers', async () => {
const customHeaderNameA = 'X-Header-100';
const customHeaderNameB = 'X-Header-200';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
const headerNames = Array.from(Object.keys(request.headers));
const headerAIndex = headerNames.indexOf(customHeaderNameA.toLowerCase());
const headerBIndex = headerNames.indexOf(customHeaderNameB.toLowerCase());
expect(headerBIndex).to.be.below(headerAIndex);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.setHeader(customHeaderNameB, 'b');
urlRequest.setHeader(customHeaderNameA, 'a');
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should be able to receive cookies', async () => {
const cookie = ['cookie1', 'cookie2'];
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader('set-cookie', cookie);
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.headers['set-cookie']).to.have.same.members(cookie);
});
test('should be able to receive content-type', async () => {
const contentType = 'mime/test; charset=test';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader('content-type', contentType);
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.headers['content-type']).to.equal(contentType);
});
describe('when {"credentials":"omit"}', () => {
test('should not send cookies');
test('should not store cookies');
});
test('should set sec-fetch-site to same-origin for request from same origin', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers['sec-fetch-site']).to.equal('same-origin');
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl,
origin: serverUrl
});
await collectStreamBody(await getResponse(urlRequest));
});
test('should set sec-fetch-site to same-origin for request with the same origin header', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers['sec-fetch-site']).to.equal('same-origin');
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl
});
urlRequest.setHeader('Origin', serverUrl);
await collectStreamBody(await getResponse(urlRequest));
});
test('should set sec-fetch-site to cross-site for request from other origin', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers['sec-fetch-site']).to.equal('cross-site');
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl,
origin: 'https://not-exists.com'
});
await collectStreamBody(await getResponse(urlRequest));
});
test('should not send sec-fetch-user header by default', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers).not.to.have.property('sec-fetch-user');
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl
});
await collectStreamBody(await getResponse(urlRequest));
});
test('should set sec-fetch-user to ?1 if requested', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers['sec-fetch-user']).to.equal('?1');
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl
});
urlRequest.setHeader('sec-fetch-user', '?1');
await collectStreamBody(await getResponse(urlRequest));
});
test('should set sec-fetch-mode to no-cors by default', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers['sec-fetch-mode']).to.equal('no-cors');
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl
});
await collectStreamBody(await getResponse(urlRequest));
});
for (const mode of ['navigate', 'cors', 'no-cors', 'same-origin']) {
test(`should set sec-fetch-mode to ${mode} if requested`, async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers['sec-fetch-mode']).to.equal(mode);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl,
origin: serverUrl
});
urlRequest.setHeader('sec-fetch-mode', mode);
await collectStreamBody(await getResponse(urlRequest));
}, { mode });
}
test('should set sec-fetch-dest to empty by default', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers['sec-fetch-dest']).to.equal('empty');
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl
});
await collectStreamBody(await getResponse(urlRequest));
});
for (const dest of [
'empty', 'audio', 'audioworklet', 'document', 'embed', 'font',
'frame', 'iframe', 'image', 'manifest', 'object', 'paintworklet',
'report', 'script', 'serviceworker', 'style', 'track', 'video',
'worker', 'xslt'
]) {
test(`should set sec-fetch-dest to ${dest} if requested`, async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers['sec-fetch-dest']).to.equal(dest);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request({
url: serverUrl,
origin: serverUrl
});
urlRequest.setHeader('sec-fetch-dest', dest);
await collectStreamBody(await getResponse(urlRequest));
}, { dest });
}
test('should be able to abort an HTTP request before first write', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.end();
expect.fail('Unexpected request event');
});
const urlRequest = net.request(serverUrl);
urlRequest.on('response', () => {
expect.fail('unexpected response event');
});
const aborted = once(urlRequest, 'abort');
urlRequest.abort();
urlRequest.write('');
urlRequest.end();
await aborted;
});
test('it should be able to abort an HTTP request before request end', async () => {
let requestReceivedByServer = false;
let urlRequest: ClientRequest | null = null;
const serverUrl = await respondOnce.toSingleURL(() => {
requestReceivedByServer = true;
urlRequest!.abort();
});
let requestAbortEventEmitted = false;
urlRequest = net.request(serverUrl);
urlRequest.on('response', () => {
expect.fail('Unexpected response event');
});
urlRequest.on('finish', () => {
expect.fail('Unexpected finish event');
});
urlRequest.on('error', () => {
expect.fail('Unexpected error event');
});
urlRequest.on('abort', () => {
requestAbortEventEmitted = true;
});
const p = once(urlRequest, 'close');
urlRequest.chunkedEncoding = true;
urlRequest.write(randomString(kOneKiloByte));
await p;
expect(requestReceivedByServer).to.equal(true);
expect(requestAbortEventEmitted).to.equal(true);
});
test('it should be able to abort an HTTP request after request end and before response', async () => {
let requestReceivedByServer = false;
let urlRequest: ClientRequest | null = null;
const serverUrl = await respondOnce.toSingleURL((request, response) => {
requestReceivedByServer = true;
urlRequest!.abort();
process.nextTick(() => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
});
let requestFinishEventEmitted = false;
urlRequest = net.request(serverUrl);
urlRequest.on('response', () => {
expect.fail('Unexpected response event');
});
urlRequest.on('finish', () => {
requestFinishEventEmitted = true;
});
urlRequest.on('error', () => {
expect.fail('Unexpected error event');
});
urlRequest.end(randomString(kOneKiloByte));
await once(urlRequest, 'abort');
expect(requestFinishEventEmitted).to.equal(true);
expect(requestReceivedByServer).to.equal(true);
});
test('it should be able to abort an HTTP request after response start', async () => {
let requestReceivedByServer = false;
const serverUrl = await respondOnce.toSingleURL((request, response) => {
requestReceivedByServer = true;
response.statusCode = 200;
response.statusMessage = 'OK';
response.write(randomString(kOneKiloByte));
});
let requestFinishEventEmitted = false;
let requestResponseEventEmitted = false;
let responseCloseEventEmitted = false;
const urlRequest = net.request(serverUrl);
urlRequest.on('response', (response) => {
requestResponseEventEmitted = true;
const statusCode = response.statusCode;
expect(statusCode).to.equal(200);
response.on('data', () => {});
response.on('end', () => {
expect.fail('Unexpected end event');
});
response.on('error', () => {
expect.fail('Unexpected error event');
});
response.on('close' as any, () => {
responseCloseEventEmitted = true;
});
urlRequest.abort();
});
urlRequest.on('finish', () => {
requestFinishEventEmitted = true;
});
urlRequest.on('error', () => {
expect.fail('Unexpected error event');
});
urlRequest.end(randomString(kOneKiloByte));
await once(urlRequest, 'abort');
expect(requestFinishEventEmitted).to.be.true('request should emit "finish" event');
expect(requestReceivedByServer).to.be.true('request should be received by the server');
expect(requestResponseEventEmitted).to.be.true('"response" event should be emitted');
expect(responseCloseEventEmitted).to.be.true('response should emit "close" event');
});
test('abort event should be emitted at most once', async () => {
let requestReceivedByServer = false;
let urlRequest: ClientRequest | null = null;
const serverUrl = await respondOnce.toSingleURL(() => {
requestReceivedByServer = true;
urlRequest!.abort();
urlRequest!.abort();
});
let requestFinishEventEmitted = false;
let abortsEmitted = 0;
urlRequest = net.request(serverUrl);
urlRequest.on('response', () => {
expect.fail('Unexpected response event');
});
urlRequest.on('finish', () => {
requestFinishEventEmitted = true;
});
urlRequest.on('error', () => {
expect.fail('Unexpected error event');
});
urlRequest.on('abort', () => {
abortsEmitted++;
});
urlRequest.end(randomString(kOneKiloByte));
await once(urlRequest, 'abort');
expect(requestFinishEventEmitted).to.be.true('request should emit "finish" event');
expect(requestReceivedByServer).to.be.true('request should be received by server');
expect(abortsEmitted).to.equal(1, 'request should emit exactly 1 "abort" event');
});
test('should allow to read response body from non-2xx response', async () => {
const bodyData = randomString(kOneKiloByte);
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 404;
response.end(bodyData);
});
const urlRequest = net.request(serverUrl);
const bodyCheckPromise = getResponse(urlRequest).then(r => {
expect(r.statusCode).to.equal(404);
return r;
}).then(collectStreamBody).then(receivedBodyData => {
expect(receivedBodyData.toString()).to.equal(bodyData);
});
const eventHandlers = Promise.all([
bodyCheckPromise,
once(urlRequest, 'close')
]);
urlRequest.end();
await eventHandlers;
});
test('should throw when calling getHeader without a name', () => {
expect(() => {
(net.request({ url: 'https://test' }).getHeader as any)();
}).to.throw(/`name` is required for getHeader\(name\)/);
expect(() => {
net.request({ url: 'https://test' }).getHeader(null as any);
}).to.throw(/`name` is required for getHeader\(name\)/);
});
test('should throw when calling removeHeader without a name', () => {
expect(() => {
(net.request({ url: 'https://test' }).removeHeader as any)();
}).to.throw(/`name` is required for removeHeader\(name\)/);
expect(() => {
net.request({ url: 'https://test' }).removeHeader(null as any);
}).to.throw(/`name` is required for removeHeader\(name\)/);
});
test('should follow redirect when no redirect handler is provided', async () => {
const requestUrl = '/302';
const serverUrl = await respondOnce.toRoutes({
'/302': (request, response) => {
response.statusCode = 302;
response.setHeader('Location', '/200');
response.end();
},
'/200': (request, response) => {
response.statusCode = 200;
response.end();
}
});
const urlRequest = net.request({
url: `${serverUrl}${requestUrl}`
});
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
});
test('should follow redirect chain when no redirect handler is provided', async () => {
const serverUrl = await respondOnce.toRoutes({
'/redirectChain': (request, response) => {
response.statusCode = 302;
response.setHeader('Location', '/302');
response.end();
},
'/302': (request, response) => {
response.statusCode = 302;
response.setHeader('Location', '/200');
response.end();
},
'/200': (request, response) => {
response.statusCode = 200;
response.end();
}
});
const urlRequest = net.request({
url: `${serverUrl}/redirectChain`
});
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
});
test('should not follow redirect when request is canceled in redirect handler', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 302;
response.setHeader('Location', '/200');
response.end();
});
const urlRequest = net.request({
url: serverUrl
});
urlRequest.end();
urlRequest.on('redirect', () => { urlRequest.abort(); });
urlRequest.on('error', () => {});
urlRequest.on('response', () => {
expect.fail('Unexpected response');
});
await once(urlRequest, 'abort');
});
test('should not follow redirect when mode is error', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 302;
response.setHeader('Location', '/200');
response.end();
});
const urlRequest = net.request({
url: serverUrl,
redirect: 'error'
});
urlRequest.end();
await once(urlRequest, 'error');
});
test('should follow redirect when handler calls callback', async () => {
const serverUrl = await respondOnce.toRoutes({
'/redirectChain': (request, response) => {
response.statusCode = 302;
response.setHeader('Location', '/302');
response.end();
},
'/302': (request, response) => {
response.statusCode = 302;
response.setHeader('Location', '/200');
response.end();
},
'/200': (request, response) => {
response.statusCode = 200;
response.end();
}
});
const urlRequest = net.request({ url: `${serverUrl}/redirectChain`, redirect: 'manual' });
const redirects: string[] = [];
urlRequest.on('redirect', (status, method, url) => {
redirects.push(url);
urlRequest.followRedirect();
});
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(redirects).to.deep.equal([
`${serverUrl}/302`,
`${serverUrl}/200`
]);
});
test('should be able to create a request with options', async () => {
const customHeaderName = 'Some-Custom-Header-Name';
const customHeaderValue = 'Some-Customer-Header-Value';
const serverUrlUnparsed = await respondOnce.toURL('/', (request, response) => {
expect(request.method).to.equal('GET');
expect(request.headers[customHeaderName.toLowerCase()]).to.equal(customHeaderValue);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const serverUrl = new URL(serverUrlUnparsed);
const urlRequest = net.request({
port: serverUrl.port ? parseInt(serverUrl.port, 10) : undefined,
hostname: '127.0.0.1',
headers: { [customHeaderName]: customHeaderValue }
});
const response = await getResponse(urlRequest);
expect(response.statusCode).to.be.equal(200);
await collectStreamBody(response);
});
test('should be able to pipe a readable stream into a net request', async () => {
const bodyData = randomString(kOneMegaByte);
let netRequestReceived = false;
let netRequestEnded = false;
const [nodeServerUrl, netServerUrl] = await Promise.all([
respondOnce.toSingleURL((request, response) => response.end(bodyData)),
respondOnce.toSingleURL((request, response) => {
netRequestReceived = true;
let receivedBodyData = '';
request.on('data', (chunk) => {
receivedBodyData += chunk.toString();
});
request.on('end', (chunk: Buffer | undefined) => {
netRequestEnded = true;
if (chunk) {
receivedBodyData += chunk.toString();
}
expect(receivedBodyData).to.be.equal(bodyData);
response.end();
});
})
]);
const nodeRequest = http.request(nodeServerUrl);
const nodeResponse = await getResponse(nodeRequest as any) as any as http.ServerResponse;
const netRequest = net.request(netServerUrl);
const responsePromise = once(netRequest, 'response');
// TODO(@MarshallOfSound) - FIXME with #22730
nodeResponse.pipe(netRequest as any);
const [netResponse] = await responsePromise;
expect(netResponse.statusCode).to.equal(200);
await collectStreamBody(netResponse);
expect(netRequestReceived).to.be.true('net request received');
expect(netRequestEnded).to.be.true('net request ended');
});
test('should report upload progress', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.end();
});
const netRequest = net.request({ url: serverUrl, method: 'POST' });
expect(netRequest.getUploadProgress()).to.have.property('active', false);
netRequest.end(Buffer.from('hello'));
const [position, total] = await once(netRequest, 'upload-progress');
expect(netRequest.getUploadProgress()).to.deep.equal({ active: true, started: true, current: position, total });
});
test('should emit error event on server socket destroy', async () => {
const serverUrl = await respondOnce.toSingleURL((request) => {
request.socket.destroy();
});
const urlRequest = net.request(serverUrl);
urlRequest.end();
const [error] = await once(urlRequest, 'error');
expect(error.message).to.equal('net::ERR_EMPTY_RESPONSE');
});
test('should emit error event on server request destroy', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
request.destroy();
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.end(randomBuffer(kOneMegaByte));
const [error] = await once(urlRequest, 'error');
expect(error.message).to.be.oneOf(['net::ERR_FAILED', 'net::ERR_CONNECTION_RESET', 'net::ERR_CONNECTION_ABORTED']);
});
test('should not emit any event after close', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.end();
await once(urlRequest, 'close');
await new Promise((resolve, reject) => {
for (const evName of ['finish', 'abort', 'close', 'error']) {
urlRequest.on(evName as any, () => {
reject(new Error(`Unexpected ${evName} event`));
});
}
setTimeout(50).then(resolve);
});
});
test('should remove the referer header when no referrer url specified', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers.referer).to.equal(undefined);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.end();
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
test('should set the referer header when a referrer url specified', async () => {
const referrerURL = 'https://www.electronjs.org/';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
expect(request.headers.referer).to.equal(referrerURL);
response.statusCode = 200;
response.statusMessage = 'OK';
response.end();
});
// The referrerPolicy must be unsafe-url because the referrer's origin
// doesn't match the loaded page. With the default referrer policy
// (strict-origin-when-cross-origin), the request will be canceled by the
// network service when the referrer header is invalid.
// See:
// - https://source.chromium.org/chromium/chromium/src/+/main:net/url_request/url_request.cc;l=682-683;drc=ae587fa7cd2e5cc308ce69353ee9ce86437e5d41
// - https://source.chromium.org/chromium/chromium/src/+/main:services/network/public/mojom/network_context.mojom;l=316-318;drc=ae5c7fcf09509843c1145f544cce3a61874b9698
// - https://w3c.github.io/webappsec-referrer-policy/#determine-requests-referrer
const urlRequest = net.request({ url: serverUrl, referrerPolicy: 'unsafe-url' });
urlRequest.setHeader('referer', referrerURL);
urlRequest.end();
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
await collectStreamBody(response);
});
});
describe('IncomingMessage API', () => {
test('response object should implement the IncomingMessage API', async () => {
const customHeaderName = 'Some-Custom-Header-Name';
const customHeaderValue = 'Some-Customer-Header-Value';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader(customHeaderName, customHeaderValue);
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(response.statusMessage).to.equal('OK');
const headers = response.headers;
expect(headers).to.be.an('object');
const headerValue = headers[customHeaderName.toLowerCase()];
expect(headerValue).to.equal(customHeaderValue);
const rawHeaders = response.rawHeaders;
expect(rawHeaders).to.be.an('array');
expect(rawHeaders[0]).to.equal(customHeaderName);
expect(rawHeaders[1]).to.equal(customHeaderValue);
const httpVersion = response.httpVersion;
expect(httpVersion).to.be.a('string').and.to.have.lengthOf.at.least(1);
const httpVersionMajor = response.httpVersionMajor;
expect(httpVersionMajor).to.be.a('number').and.to.be.at.least(1);
const httpVersionMinor = response.httpVersionMinor;
expect(httpVersionMinor).to.be.a('number').and.to.be.at.least(0);
await collectStreamBody(response);
});
test('should discard duplicate headers', async () => {
const includedHeader = 'max-forwards';
const discardableHeader = 'Max-Forwards';
const includedHeaderValue = 'max-fwds-val';
const discardableHeaderValue = 'max-fwds-val-two';
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader(discardableHeader, discardableHeaderValue);
response.setHeader(includedHeader, includedHeaderValue);
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(response.statusMessage).to.equal('OK');
const headers = response.headers;
expect(headers).to.be.an('object');
expect(headers).to.have.property(includedHeader);
expect(headers).to.not.have.property(discardableHeader);
expect(headers[includedHeader]).to.equal(includedHeaderValue);
await collectStreamBody(response);
});
test('should join repeated non-discardable header values with ,', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader('referrer-policy', ['first-text', 'second-text']);
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(response.statusMessage).to.equal('OK');
const headers = response.headers;
expect(headers).to.be.an('object');
expect(headers).to.have.property('referrer-policy');
expect(headers['referrer-policy']).to.equal('first-text, second-text');
await collectStreamBody(response);
});
test('should not join repeated discardable header values with ,', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader('last-modified', ['yesterday', 'today']);
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(response.statusMessage).to.equal('OK');
const headers = response.headers;
expect(headers).to.be.an('object');
expect(headers).to.have.property('last-modified');
expect(headers['last-modified']).to.equal('yesterday');
await collectStreamBody(response);
});
test('should make set-cookie header an array even if single value', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader('set-cookie', 'chocolate-chip');
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(response.statusMessage).to.equal('OK');
const headers = response.headers;
expect(headers).to.be.an('object');
expect(headers).to.have.property('set-cookie');
expect(headers['set-cookie']).to.be.an('array');
expect(headers['set-cookie'][0]).to.equal('chocolate-chip');
await collectStreamBody(response);
});
test('should keep set-cookie header an array when an array', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader('set-cookie', ['chocolate-chip', 'oatmeal']);
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(response.statusMessage).to.equal('OK');
const headers = response.headers;
expect(headers).to.be.an('object');
expect(headers).to.have.property('set-cookie');
expect(headers['set-cookie']).to.be.an('array');
expect(headers['set-cookie'][0]).to.equal('chocolate-chip');
expect(headers['set-cookie'][1]).to.equal('oatmeal');
await collectStreamBody(response);
});
test('should lowercase header keys', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
response.setHeader('HEADER-KEY', ['header-value']);
response.setHeader('SeT-CookiE', ['chocolate-chip', 'oatmeal']);
response.setHeader('rEFERREr-pOLICy', ['first-text', 'second-text']);
response.setHeader('LAST-modified', 'yesterday');
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(response.statusMessage).to.equal('OK');
const headers = response.headers;
expect(headers).to.be.an('object');
expect(headers).to.have.property('header-key');
expect(headers).to.have.property('set-cookie');
expect(headers).to.have.property('referrer-policy');
expect(headers).to.have.property('last-modified');
await collectStreamBody(response);
});
test('should return correct raw headers', async () => {
const customHeaders: [string, string|string[]][] = [
['HEADER-KEY-ONE', 'header-value-one'],
['set-cookie', 'chocolate-chip'],
['header-key-two', 'header-value-two'],
['referrer-policy', ['first-text', 'second-text']],
['HEADER-KEY-THREE', 'header-value-three'],
['last-modified', ['first-text', 'second-text']],
['header-key-four', 'header-value-four']
];
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.statusCode = 200;
response.statusMessage = 'OK';
for (const headerTuple of customHeaders) {
response.setHeader(headerTuple[0], headerTuple[1]);
}
response.end();
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
expect(response.statusCode).to.equal(200);
expect(response.statusMessage).to.equal('OK');
const rawHeaders = response.rawHeaders;
expect(rawHeaders).to.be.an('array');
let rawHeadersIdx = 0;
for (const headerTuple of customHeaders) {
const headerKey = headerTuple[0];
const headerValues = Array.isArray(headerTuple[1]) ? headerTuple[1] : [headerTuple[1]];
for (const headerValue of headerValues) {
expect(rawHeaders[rawHeadersIdx]).to.equal(headerKey);
expect(rawHeaders[rawHeadersIdx + 1]).to.equal(headerValue);
rawHeadersIdx += 2;
}
}
await collectStreamBody(response);
});
test('should be able to pipe a net response into a writable stream', async () => {
const bodyData = randomString(kOneKiloByte);
let nodeRequestProcessed = false;
const [netServerUrl, nodeServerUrl] = await Promise.all([
respondOnce.toSingleURL((request, response) => response.end(bodyData)),
respondOnce.toSingleURL(async (request, response) => {
const receivedBodyData = await collectStreamBody(request);
expect(receivedBodyData).to.be.equal(bodyData);
nodeRequestProcessed = true;
response.end();
})
]);
const netRequest = net.request(netServerUrl);
const netResponse = await getResponse(netRequest);
const serverUrl = new URL(nodeServerUrl);
const nodeOptions = {
method: 'POST',
path: serverUrl.pathname,
port: serverUrl.port
};
const nodeRequest = http.request(nodeOptions);
const nodeResponsePromise = once(nodeRequest, 'response');
// TODO(@MarshallOfSound) - FIXME with #22730
(netResponse as any).pipe(nodeRequest);
const [nodeResponse] = await nodeResponsePromise;
netRequest.end();
await collectStreamBody(nodeResponse);
expect(nodeRequestProcessed).to.equal(true);
});
test('should correctly throttle an incoming stream', async () => {
let numChunksSent = 0;
const serverUrl = await respondOnce.toSingleURL((request, response) => {
const data = randomString(kOneMegaByte);
const write = () => {
let ok = true;
do {
numChunksSent++;
if (numChunksSent > 30) return;
ok = response.write(data);
} while (ok);
response.once('drain', write);
};
write();
});
const urlRequest = net.request(serverUrl);
urlRequest.on('response', () => {});
urlRequest.end();
await setTimeout(2000);
// TODO(nornagon): I think this ought to max out at 20, but in practice
// it seems to exceed that sometimes. This is at 25 to avoid test flakes,
// but we should investigate if there's actually something broken here and
// if so fix it and reset this to max at 20, and if not then delete this
// comment.
expect(numChunksSent).to.be.at.most(25);
});
});
describe('net.isOnline', () => {
test('getter returns boolean', () => {
expect(net.isOnline()).to.be.a('boolean');
});
test('property returns boolean', () => {
expect(net.online).to.be.a('boolean');
});
});
describe('Stability and performance', () => {
test('should free unreferenced, never-started request objects without crash', async () => {
net.request('https://test');
await new Promise<void>((resolve) => {
process.nextTick(() => {
const v8Util = process._linkedBinding('electron_common_v8_util');
v8Util.requestGarbageCollectionForTesting();
resolve();
});
});
});
test('should collect on-going requests without crash', async () => {
let finishResponse: (() => void) | null = null;
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.write(randomString(kOneKiloByte));
finishResponse = () => {
response.write(randomString(kOneKiloByte));
response.end();
};
});
const urlRequest = net.request(serverUrl);
const response = await getResponse(urlRequest);
process.nextTick(() => {
// Trigger a garbage collection.
const v8Util = process._linkedBinding('electron_common_v8_util');
v8Util.requestGarbageCollectionForTesting();
finishResponse!();
});
await collectStreamBody(response);
});
test('should collect unreferenced, ended requests without crash', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.end();
});
const urlRequest = net.request(serverUrl);
process.nextTick(() => {
const v8Util = process._linkedBinding('electron_common_v8_util');
v8Util.requestGarbageCollectionForTesting();
});
const response = await getResponse(urlRequest);
await collectStreamBody(response);
});
test('should finish sending data when urlRequest is unreferenced', async () => {
const serverUrl = await respondOnce.toSingleURL(async (request, response) => {
const received = await collectStreamBodyBuffer(request);
expect(received.length).to.equal(kOneMegaByte);
response.end();
});
const urlRequest = net.request(serverUrl);
urlRequest.on('close', () => {
process.nextTick(() => {
const v8Util = process._linkedBinding('electron_common_v8_util');
v8Util.requestGarbageCollectionForTesting();
});
});
urlRequest.write(randomBuffer(kOneMegaByte));
const response = await getResponse(urlRequest);
await collectStreamBody(response);
});
test('should finish sending data when urlRequest is unreferenced for chunked encoding', async () => {
const serverUrl = await respondOnce.toSingleURL(async (request, response) => {
const received = await collectStreamBodyBuffer(request);
response.end();
expect(received.length).to.equal(kOneMegaByte);
});
const urlRequest = net.request(serverUrl);
urlRequest.chunkedEncoding = true;
urlRequest.write(randomBuffer(kOneMegaByte));
const response = await getResponse(urlRequest);
await collectStreamBody(response);
process.nextTick(() => {
const v8Util = process._linkedBinding('electron_common_v8_util');
v8Util.requestGarbageCollectionForTesting();
});
});
test('should finish sending data when urlRequest is unreferenced before close event for chunked encoding', async () => {
const serverUrl = await respondOnce.toSingleURL(async (request, response) => {
const received = await collectStreamBodyBuffer(request);
response.end();
expect(received.length).to.equal(kOneMegaByte);
});
const urlRequest = net.request(serverUrl);
urlRequest.chunkedEncoding = true;
urlRequest.write(randomBuffer(kOneMegaByte));
const v8Util = process._linkedBinding('electron_common_v8_util');
v8Util.requestGarbageCollectionForTesting();
await collectStreamBody(await getResponse(urlRequest));
});
test('should finish sending data when urlRequest is unreferenced', async () => {
const serverUrl = await respondOnce.toSingleURL(async (request, response) => {
const received = await collectStreamBodyBuffer(request);
response.end();
expect(received.length).to.equal(kOneMegaByte);
});
const urlRequest = net.request(serverUrl);
urlRequest.on('close', () => {
process.nextTick(() => {
const v8Util = process._linkedBinding('electron_common_v8_util');
v8Util.requestGarbageCollectionForTesting();
});
});
urlRequest.write(randomBuffer(kOneMegaByte));
await collectStreamBody(await getResponse(urlRequest));
});
test('should finish sending data when urlRequest is unreferenced for chunked encoding', async () => {
const serverUrl = await respondOnce.toSingleURL(async (request, response) => {
const received = await collectStreamBodyBuffer(request);
response.end();
expect(received.length).to.equal(kOneMegaByte);
});
const urlRequest = net.request(serverUrl);
urlRequest.on('close', () => {
process.nextTick(() => {
const v8Util = process._linkedBinding('electron_common_v8_util');
v8Util.requestGarbageCollectionForTesting();
});
});
urlRequest.chunkedEncoding = true;
urlRequest.write(randomBuffer(kOneMegaByte));
await collectStreamBody(await getResponse(urlRequest));
});
});
describe('non-http schemes', () => {
test('should be rejected by net.request', async () => {
expect(() => {
net.request('file://bar');
}).to.throw('ClientRequest only supports http: and https: protocols');
});
test('should be rejected by net.request when passed in url:', async () => {
expect(() => {
net.request({ url: 'file://bar' });
}).to.throw('ClientRequest only supports http: and https: protocols');
});
});
describe('net.fetch', () => {
// NB. there exist much more comprehensive tests for fetch() in the form of
// the WPT: https://github.com/web-platform-tests/wpt/tree/master/fetch
// It's possible to run these tests against net.fetch(), but the test
// harness to do so is quite complex and hasn't been munged to smoothly run
// inside the Electron test runner yet.
//
// In the meantime, here are some tests for basic functionality and
// Electron-specific behavior.
describe('basic', () => {
test('can fetch http urls', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.end('test');
});
const resp = await net.fetch(serverUrl);
expect(resp.ok).to.be.true();
expect(await resp.text()).to.equal('test');
});
test('can upload a string body', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
request.on('data', chunk => response.write(chunk));
request.on('end', () => response.end());
});
const resp = await net.fetch(serverUrl, {
method: 'POST',
body: 'anchovies'
});
expect(await resp.text()).to.equal('anchovies');
});
test('can read response as an array buffer', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
request.on('data', chunk => response.write(chunk));
request.on('end', () => response.end());
});
const resp = await net.fetch(serverUrl, {
method: 'POST',
body: 'anchovies'
});
expect(new TextDecoder().decode(new Uint8Array(await resp.arrayBuffer()))).to.equal('anchovies');
});
test('can read response as form data', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.setHeader('content-type', 'application/x-www-form-urlencoded');
response.end('foo=bar');
});
const resp = await net.fetch(serverUrl);
const result = await resp.formData();
expect(result.get('foo')).to.equal('bar');
});
test('should reject promise on DNS failure', async () => {
const r = net.fetch('https://i.do.not.exist');
await expect(r).to.be.rejectedWith(/ERR_NAME_NOT_RESOLVED/);
});
test('should reject body promise when stream fails', async () => {
const serverUrl = await respondOnce.toSingleURL((request, response) => {
response.write('first chunk');
setTimeout().then(() => response.destroy());
});
const r = await net.fetch(serverUrl);
expect(r.status).to.equal(200);
await expect(r.text()).to.be.rejectedWith(/ERR_INCOMPLETE_CHUNKED_ENCODING/);
});
});
});
describe('net.resolveHost', () => {
test('resolves ipv4.localhost2', async () => {
const { endpoints } = await net.resolveHost('ipv4.localhost2');
expect(endpoints).to.be.a('array');
expect(endpoints).to.have.lengthOf(1);
expect(endpoints[0].family).to.equal('ipv4');
expect(endpoints[0].address).to.equal('10.0.0.1');
});
test('fails to resolve AAAA record for ipv4.localhost2', async () => {
await expect(net.resolveHost('ipv4.localhost2', {
queryType: 'AAAA'
}))
.to.eventually.be.rejectedWith(/net::ERR_NAME_NOT_RESOLVED/);
});
test('resolves ipv6.localhost2', async () => {
const { endpoints } = await net.resolveHost('ipv6.localhost2');
expect(endpoints).to.be.a('array');
expect(endpoints).to.have.lengthOf(1);
expect(endpoints[0].family).to.equal('ipv6');
expect(endpoints[0].address).to.equal('::1');
});
test('fails to resolve A record for ipv6.localhost2', async () => {
await expect(net.resolveHost('notfound.localhost2', {
queryType: 'A'
}))
.to.eventually.be.rejectedWith(/net::ERR_NAME_NOT_RESOLVED/);
});
test('fails to resolve notfound.localhost2', async () => {
await expect(net.resolveHost('notfound.localhost2'))
.to.eventually.be.rejectedWith(/net::ERR_NAME_NOT_RESOLVED/);
});
});
}
});