const ChildProcess = require('child_process'); const { expect } = require('chai'); const fs = require('fs'); const path = require('path'); const os = require('os'); const { ipcRenderer } = require('electron'); const features = process._linkedBinding('electron_common_features'); const { emittedOnce } = require('./events-helpers'); const { ifit } = require('./spec-helpers'); describe('node feature', () => { const fixtures = path.join(__dirname, 'fixtures'); describe('child_process', () => { beforeEach(function () { if (!features.isRunAsNodeEnabled()) { this.skip(); } }); describe('child_process.fork', () => { it('works in current process', async () => { const child = ChildProcess.fork(path.join(fixtures, 'module', 'ping.js')); const message = emittedOnce(child, 'message'); child.send('message'); const [msg] = await message; expect(msg).to.equal('message'); }); it('preserves args', async () => { const args = ['--expose_gc', '-test', '1']; const child = ChildProcess.fork(path.join(fixtures, 'module', 'process_args.js'), args); const message = emittedOnce(child, 'message'); child.send('message'); const [msg] = await message; expect(args).to.deep.equal(msg.slice(2)); }); it('works in forked process', async () => { const child = ChildProcess.fork(path.join(fixtures, 'module', 'fork_ping.js')); const message = emittedOnce(child, 'message'); child.send('message'); const [msg] = await message; expect(msg).to.equal('message'); }); it('works in forked process when options.env is specifed', async () => { const child = ChildProcess.fork(path.join(fixtures, 'module', 'fork_ping.js'), [], { path: process.env.PATH }); const message = emittedOnce(child, 'message'); child.send('message'); const [msg] = await message; expect(msg).to.equal('message'); }); it('has String::localeCompare working in script', async () => { const child = ChildProcess.fork(path.join(fixtures, 'module', 'locale-compare.js')); const message = emittedOnce(child, 'message'); child.send('message'); const [msg] = await message; expect(msg).to.deep.equal([0, -1, 1]); }); it('has setImmediate working in script', async () => { const child = ChildProcess.fork(path.join(fixtures, 'module', 'set-immediate.js')); const message = emittedOnce(child, 'message'); child.send('message'); const [msg] = await message; expect(msg).to.equal('ok'); }); it('pipes stdio', async () => { const child = ChildProcess.fork(path.join(fixtures, 'module', 'process-stdout.js'), { silent: true }); let data = ''; child.stdout.on('data', (chunk) => { data += String(chunk); }); const [code] = await emittedOnce(child, 'close'); expect(code).to.equal(0); expect(data).to.equal('pipes stdio'); }); it('works when sending a message to a process forked with the --eval argument', async () => { const source = "process.on('message', (message) => { process.send(message) })"; const forked = ChildProcess.fork('--eval', [source]); const message = emittedOnce(forked, 'message'); forked.send('hello'); const [msg] = await message; expect(msg).to.equal('hello'); }); it('has the electron version in process.versions', async () => { const source = 'process.send(process.versions)'; const forked = ChildProcess.fork('--eval', [source]); const [message] = await emittedOnce(forked, 'message'); expect(message) .to.have.own.property('electron') .that.is.a('string') .and.matches(/^\d+\.\d+\.\d+(\S*)?$/); }); }); describe('child_process.spawn', () => { let child; afterEach(() => { if (child != null) child.kill(); }); it('supports spawning Electron as a node process via the ELECTRON_RUN_AS_NODE env var', async () => { child = ChildProcess.spawn(process.execPath, [path.join(__dirname, 'fixtures', 'module', 'run-as-node.js')], { env: { ELECTRON_RUN_AS_NODE: true } }); let output = ''; child.stdout.on('data', data => { output += data; }); await emittedOnce(child.stdout, 'close'); expect(JSON.parse(output)).to.deep.equal({ stdoutType: 'pipe', processType: 'undefined', window: 'undefined' }); }); }); describe('child_process.exec', () => { (process.platform === 'linux' ? it : it.skip)('allows executing a setuid binary from non-sandboxed renderer', () => { // Chrome uses prctl(2) to set the NO_NEW_PRIVILEGES flag on Linux (see // https://github.com/torvalds/linux/blob/40fde647cc/Documentation/userspace-api/no_new_privs.rst). // We disable this for unsandboxed processes, which the renderer tests // are running in. If this test fails with an error like 'effective uid // is not 0', then it's likely that our patch to prevent the flag from // being set has become ineffective. const stdout = ChildProcess.execSync('sudo --help'); expect(stdout).to.not.be.empty(); }); }); }); describe('contexts', () => { describe('setTimeout in fs callback', () => { it('does not crash', (done) => { fs.readFile(__filename, () => { setTimeout(done, 0); }); }); }); describe('error thrown in renderer process node context', () => { it('gets emitted as a process uncaughtException event', (done) => { const error = new Error('boo!'); const listeners = process.listeners('uncaughtException'); process.removeAllListeners('uncaughtException'); process.on('uncaughtException', (thrown) => { try { expect(thrown).to.equal(error); done(); } catch (e) { done(e); } finally { process.removeAllListeners('uncaughtException'); listeners.forEach((listener) => process.on('uncaughtException', listener)); } }); fs.readFile(__filename, () => { throw error; }); }); }); describe('URL handling in the renderer process', () => { it('can successfully handle WHATWG URLs constructed by Blink', () => { const url = new URL('file://' + path.resolve(fixtures, 'pages', 'base-page.html')); expect(() => { fs.createReadStream(url); }).to.not.throw(); }); }); describe('error thrown in main process node context', () => { it('gets emitted as a process uncaughtException event', () => { const error = ipcRenderer.sendSync('handle-uncaught-exception', 'hello'); expect(error).to.equal('hello'); }); }); describe('promise rejection in main process node context', () => { it('gets emitted as a process unhandledRejection event', () => { const error = ipcRenderer.sendSync('handle-unhandled-rejection', 'hello'); expect(error).to.equal('hello'); }); }); describe('setTimeout called under blink env in renderer process', () => { it('can be scheduled in time', (done) => { setTimeout(done, 10); }); it('works from the timers module', (done) => { require('timers').setTimeout(done, 10); }); }); describe('setInterval called under blink env in renderer process', () => { it('can be scheduled in time', (done) => { const id = setInterval(() => { clearInterval(id); done(); }, 10); }); it('can be scheduled in time from timers module', (done) => { const { setInterval, clearInterval } = require('timers'); const id = setInterval(() => { clearInterval(id); done(); }, 10); }); }); }); describe('message loop', () => { describe('process.nextTick', () => { it('emits the callback', (done) => process.nextTick(done)); it('works in nested calls', (done) => { process.nextTick(() => { process.nextTick(() => process.nextTick(done)); }); }); }); describe('setImmediate', () => { it('emits the callback', (done) => setImmediate(done)); it('works in nested calls', (done) => { setImmediate(() => { setImmediate(() => setImmediate(done)); }); }); }); }); describe('net.connect', () => { before(function () { if (!features.isRunAsNodeEnabled() || process.platform !== 'darwin') { this.skip(); } }); it('emit error when connect to a socket path without listeners', async () => { const socketPath = path.join(os.tmpdir(), 'atom-shell-test.sock'); const script = path.join(fixtures, 'module', 'create_socket.js'); const child = ChildProcess.fork(script, [socketPath]); const [code] = await emittedOnce(child, 'exit'); expect(code).to.equal(0); const client = require('net').connect(socketPath); const [error] = await emittedOnce(client, 'error'); expect(error.code).to.equal('ECONNREFUSED'); }); }); describe('Buffer', () => { it('can be created from WebKit external string', () => { const p = document.createElement('p'); p.innerText = '闲云潭影日悠悠,物换星移几度秋'; const b = Buffer.from(p.innerText); expect(b.toString()).to.equal('闲云潭影日悠悠,物换星移几度秋'); expect(Buffer.byteLength(p.innerText)).to.equal(45); }); it('correctly parses external one-byte UTF8 string', () => { const p = document.createElement('p'); p.innerText = 'Jøhänñéß'; const b = Buffer.from(p.innerText); expect(b.toString()).to.equal('Jøhänñéß'); expect(Buffer.byteLength(p.innerText)).to.equal(13); }); it('does not crash when creating large Buffers', () => { let buffer = Buffer.from(new Array(4096).join(' ')); expect(buffer.length).to.equal(4095); buffer = Buffer.from(new Array(4097).join(' ')); expect(buffer.length).to.equal(4096); }); it('does not crash for crypto operations', () => { const crypto = require('crypto'); const data = 'lG9E+/g4JmRmedDAnihtBD4Dfaha/GFOjd+xUOQI05UtfVX3DjUXvrS98p7kZQwY3LNhdiFo7MY5rGft8yBuDhKuNNag9vRx/44IuClDhdQ='; const key = 'q90K9yBqhWZnAMCMTOJfPQ=='; const cipherText = '{"error_code":114,"error_message":"Tham số không hợp lệ","data":null}'; for (let i = 0; i < 10000; ++i) { const iv = Buffer.from('0'.repeat(32), 'hex'); const input = Buffer.from(data, 'base64'); const decipher = crypto.createDecipheriv('aes-128-cbc', Buffer.from(key, 'base64'), iv); const result = Buffer.concat([decipher.update(input), decipher.final()]).toString('utf8'); expect(cipherText).to.equal(result); } }); it('does not crash when using crypto.diffieHellman() constructors', () => { const crypto = require('crypto'); crypto.createDiffieHellman('abc'); crypto.createDiffieHellman('abc', 2); // Needed to test specific DiffieHellman ctors. // eslint-disable-next-line no-octal crypto.createDiffieHellman('abc', Buffer.from([02])); // eslint-disable-next-line no-octal crypto.createDiffieHellman('abc', '123'); }); it('does not crash when calling crypto.createPrivateKey() with an unsupported algorithm', () => { const crypto = require('crypto'); const ed448 = { crv: 'Ed448', x: 'KYWcaDwgH77xdAwcbzOgvCVcGMy9I6prRQBhQTTdKXUcr-VquTz7Fd5adJO0wT2VHysF3bk3kBoA', d: 'UhC3-vN5vp_g9PnTknXZgfXUez7Xvw-OfuJ0pYkuwzpYkcTvacqoFkV_O05WMHpyXkzH9q2wzx5n', kty: 'OKP' }; expect(() => { crypto.createPrivateKey({ key: ed448, format: 'jwk' }); }).to.throw(/Failed to create key - unsupported algorithm/); }); }); describe('process.stdout', () => { it('does not throw an exception when accessed', () => { expect(() => process.stdout).to.not.throw(); }); it('does not throw an exception when calling write()', () => { expect(() => { process.stdout.write('test'); }).to.not.throw(); }); // TODO: figure out why process.stdout.isTTY is true on Darwin but not Linux/Win. ifit(process.platform !== 'darwin')('isTTY should be undefined in the renderer process', function () { expect(process.stdout.isTTY).to.be.undefined(); }); }); describe('process.stdin', () => { it('does not throw an exception when accessed', () => { expect(() => process.stdin).to.not.throw(); }); it('returns null when read from', () => { expect(process.stdin.read()).to.be.null(); }); }); describe('process.version', () => { it('should not have -pre', () => { expect(process.version.endsWith('-pre')).to.be.false(); }); }); describe('vm.runInNewContext', () => { it('should not crash', () => { require('vm').runInNewContext(''); }); }); describe('crypto', () => { it('should list the ripemd160 hash in getHashes', () => { expect(require('crypto').getHashes()).to.include('ripemd160'); }); it('should be able to create a ripemd160 hash and use it', () => { const hash = require('crypto').createHash('ripemd160'); hash.update('electron-ripemd160'); expect(hash.digest('hex')).to.equal('fa7fec13c624009ab126ebb99eda6525583395fe'); }); it('should list aes-{128,256}-cfb in getCiphers', () => { expect(require('crypto').getCiphers()).to.include.members(['aes-128-cfb', 'aes-256-cfb']); }); it('should be able to create an aes-128-cfb cipher', () => { require('crypto').createCipheriv('aes-128-cfb', '0123456789abcdef', '0123456789abcdef'); }); it('should be able to create an aes-256-cfb cipher', () => { require('crypto').createCipheriv('aes-256-cfb', '0123456789abcdef0123456789abcdef', '0123456789abcdef'); }); it('should list des-ede-cbc in getCiphers', () => { expect(require('crypto').getCiphers()).to.include('des-ede-cbc'); }); it('should be able to create an des-ede-cbc cipher', () => { const key = Buffer.from('0123456789abcdeff1e0d3c2b5a49786', 'hex'); const iv = Buffer.from('fedcba9876543210', 'hex'); require('crypto').createCipheriv('des-ede-cbc', key, iv); }); it('should not crash when getting an ECDH key', () => { const ecdh = require('crypto').createECDH('prime256v1'); expect(ecdh.generateKeys()).to.be.an.instanceof(Buffer); expect(ecdh.getPrivateKey()).to.be.an.instanceof(Buffer); }); it('should not crash when generating DH keys or fetching DH fields', () => { const dh = require('crypto').createDiffieHellman('modp15'); expect(dh.generateKeys()).to.be.an.instanceof(Buffer); expect(dh.getPublicKey()).to.be.an.instanceof(Buffer); expect(dh.getPrivateKey()).to.be.an.instanceof(Buffer); expect(dh.getPrime()).to.be.an.instanceof(Buffer); expect(dh.getGenerator()).to.be.an.instanceof(Buffer); }); it('should not crash when creating an ECDH cipher', () => { const crypto = require('crypto'); const dh = crypto.createECDH('prime256v1'); dh.generateKeys(); dh.setPrivateKey(dh.getPrivateKey()); }); }); it('includes the electron version in process.versions', () => { expect(process.versions) .to.have.own.property('electron') .that.is.a('string') .and.matches(/^\d+\.\d+\.\d+(\S*)?$/); }); it('includes the chrome version in process.versions', () => { expect(process.versions) .to.have.own.property('chrome') .that.is.a('string') .and.matches(/^\d+\.\d+\.\d+\.\d+$/); }); });