const expect = chai.expect; import Keyboard from '../core/input/keyboard.js'; import * as browser from '../core/util/browser.js'; describe('Key Event Handling', function () { "use strict"; // The real KeyboardEvent constructor might not work everywhere we // want to run these tests function keyevent(typeArg, KeyboardEventInit) { const e = { type: typeArg }; for (let key in KeyboardEventInit) { e[key] = KeyboardEventInit[key]; } e.stopPropagation = sinon.spy(); e.preventDefault = sinon.spy(); return e; } describe('Decode Keyboard Events', function () { it('should decode keydown events', function (done) { if (browser.isIE() || browser.isEdge()) this.skip(); const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('KeyA'); expect(down).to.be.equal(true); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', key: 'a'})); }); it('should decode keyup events', function (done) { if (browser.isIE() || browser.isEdge()) this.skip(); let calls = 0; const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('KeyA'); if (calls++ === 1) { expect(down).to.be.equal(false); done(); } }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', key: 'a'})); kbd._handleKeyUp(keyevent('keyup', {code: 'KeyA', key: 'a'})); }); describe('Legacy keypress Events', function () { it('should wait for keypress when needed', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', keyCode: 0x41})); expect(kbd.onkeyevent).to.not.have.been.called; }); it('should decode keypress events', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('KeyA'); expect(down).to.be.equal(true); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', keyCode: 0x41})); kbd._handleKeyPress(keyevent('keypress', {code: 'KeyA', charCode: 0x61})); }); it('should ignore keypress with different code', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', keyCode: 0x41})); kbd._handleKeyPress(keyevent('keypress', {code: 'KeyB', charCode: 0x61})); expect(kbd.onkeyevent).to.not.have.been.called; }); it('should handle keypress with missing code', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('KeyA'); expect(down).to.be.equal(true); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', keyCode: 0x41})); kbd._handleKeyPress(keyevent('keypress', {charCode: 0x61})); }); it('should guess key if no keypress and numeric key', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x32); expect(code).to.be.equal('Digit2'); expect(down).to.be.equal(true); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'Digit2', keyCode: 0x32})); }); it('should guess key if no keypress and alpha key', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('KeyA'); expect(down).to.be.equal(true); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', keyCode: 0x41, shiftKey: false})); }); it('should guess key if no keypress and alpha key (with shift)', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x41); expect(code).to.be.equal('KeyA'); expect(down).to.be.equal(true); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', keyCode: 0x41, shiftKey: true})); }); it('should not guess key if no keypress and unknown key', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0); expect(code).to.be.equal('KeyA'); expect(down).to.be.equal(true); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', keyCode: 0x09})); }); }); describe('suppress the right events at the right time', function () { beforeEach(function () { if (browser.isIE() || browser.isEdge()) this.skip(); }); it('should suppress anything with a valid key', function () { const kbd = new Keyboard(document, {}); const evt1 = keyevent('keydown', {code: 'KeyA', key: 'a'}); kbd._handleKeyDown(evt1); expect(evt1.preventDefault).to.have.been.called; const evt2 = keyevent('keyup', {code: 'KeyA', key: 'a'}); kbd._handleKeyUp(evt2); expect(evt2.preventDefault).to.have.been.called; }); it('should not suppress keys without key', function () { const kbd = new Keyboard(document, {}); const evt = keyevent('keydown', {code: 'KeyA', keyCode: 0x41}); kbd._handleKeyDown(evt); expect(evt.preventDefault).to.not.have.been.called; }); it('should suppress the following keypress event', function () { const kbd = new Keyboard(document, {}); const evt1 = keyevent('keydown', {code: 'KeyA', keyCode: 0x41}); kbd._handleKeyDown(evt1); const evt2 = keyevent('keypress', {code: 'KeyA', charCode: 0x41}); kbd._handleKeyPress(evt2); expect(evt2.preventDefault).to.have.been.called; }); }); }); describe('Fake keyup', function () { it('should fake keyup events for virtual keyboards', function (done) { if (browser.isIE() || browser.isEdge()) this.skip(); let count = 0; const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { switch (count++) { case 0: expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('Unidentified'); expect(down).to.be.equal(true); break; case 1: expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('Unidentified'); expect(down).to.be.equal(false); done(); } }; kbd._handleKeyDown(keyevent('keydown', {code: 'Unidentified', key: 'a'})); }); }); describe('Track Key State', function () { beforeEach(function () { if (browser.isIE() || browser.isEdge()) this.skip(); }); it('should send release using the same keysym as the press', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('KeyA'); if (!down) { done(); } }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', key: 'a'})); kbd._handleKeyUp(keyevent('keyup', {code: 'KeyA', key: 'b'})); }); it('should send the same keysym for multiple presses', function () { let count = 0; const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('KeyA'); expect(down).to.be.equal(true); count++; }; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', key: 'a'})); kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', key: 'b'})); expect(count).to.be.equal(2); }); it('should do nothing on keyup events if no keys are down', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyUp(keyevent('keyup', {code: 'KeyA', key: 'a'})); expect(kbd.onkeyevent).to.not.have.been.called; }); describe('Legacy Events', function () { it('should track keys using keyCode if no code', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('Platform65'); if (!down) { done(); } }; kbd._handleKeyDown(keyevent('keydown', {keyCode: 65, key: 'a'})); kbd._handleKeyUp(keyevent('keyup', {keyCode: 65, key: 'b'})); }); it('should ignore compositing code', function () { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('Unidentified'); }; kbd._handleKeyDown(keyevent('keydown', {keyCode: 229, key: 'a'})); }); it('should track keys using keyIdentifier if no code', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0x61); expect(code).to.be.equal('Platform65'); if (!down) { done(); } }; kbd._handleKeyDown(keyevent('keydown', {keyIdentifier: 'U+0041', key: 'a'})); kbd._handleKeyUp(keyevent('keyup', {keyIdentifier: 'U+0041', key: 'b'})); }); }); }); describe('Shuffle modifiers on macOS', function () { let origNavigator; beforeEach(function () { // window.navigator is a protected read-only property in many // environments, so we need to redefine it whilst running these // tests. origNavigator = Object.getOwnPropertyDescriptor(window, "navigator"); if (origNavigator === undefined) { // Object.getOwnPropertyDescriptor() doesn't work // properly in any version of IE this.skip(); } Object.defineProperty(window, "navigator", {value: {}}); if (window.navigator.platform !== undefined) { // Object.defineProperty() doesn't work properly in old // versions of Chrome this.skip(); } window.navigator.platform = "Mac x86_64"; }); afterEach(function () { Object.defineProperty(window, "navigator", origNavigator); }); it('should change Alt to AltGraph', function () { let count = 0; const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { switch (count++) { case 0: expect(keysym).to.be.equal(0xFF7E); expect(code).to.be.equal('AltLeft'); break; case 1: expect(keysym).to.be.equal(0xFE03); expect(code).to.be.equal('AltRight'); break; } }; kbd._handleKeyDown(keyevent('keydown', {code: 'AltLeft', key: 'Alt', location: 1})); kbd._handleKeyDown(keyevent('keydown', {code: 'AltRight', key: 'Alt', location: 2})); expect(count).to.be.equal(2); }); it('should change left Super to Alt', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0xFFE9); expect(code).to.be.equal('MetaLeft'); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'MetaLeft', key: 'Meta', location: 1})); }); it('should change right Super to left Super', function (done) { const kbd = new Keyboard(document); kbd.onkeyevent = (keysym, code, down) => { expect(keysym).to.be.equal(0xFFEB); expect(code).to.be.equal('MetaRight'); done(); }; kbd._handleKeyDown(keyevent('keydown', {code: 'MetaRight', key: 'Meta', location: 2})); }); }); describe('Escape AltGraph on Windows', function () { let origNavigator; beforeEach(function () { // window.navigator is a protected read-only property in many // environments, so we need to redefine it whilst running these // tests. origNavigator = Object.getOwnPropertyDescriptor(window, "navigator"); if (origNavigator === undefined) { // Object.getOwnPropertyDescriptor() doesn't work // properly in any version of IE this.skip(); } Object.defineProperty(window, "navigator", {value: {}}); if (window.navigator.platform !== undefined) { // Object.defineProperty() doesn't work properly in old // versions of Chrome this.skip(); } window.navigator.platform = "Windows x86_64"; this.clock = sinon.useFakeTimers(); }); afterEach(function () { Object.defineProperty(window, "navigator", origNavigator); this.clock.restore(); }); it('should supress ControlLeft until it knows if it is AltGr', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlLeft', key: 'Control', location: 1})); expect(kbd.onkeyevent).to.not.have.been.called; }); it('should not trigger on repeating ControlLeft', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlLeft', key: 'Control', location: 1})); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlLeft', key: 'Control', location: 1})); expect(kbd.onkeyevent).to.have.been.calledTwice; expect(kbd.onkeyevent.firstCall).to.have.been.calledWith(0xffe3, "ControlLeft", true); expect(kbd.onkeyevent.secondCall).to.have.been.calledWith(0xffe3, "ControlLeft", true); }); it('should not supress ControlRight', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlRight', key: 'Control', location: 2})); expect(kbd.onkeyevent).to.have.been.calledOnce; expect(kbd.onkeyevent).to.have.been.calledWith(0xffe4, "ControlRight", true); }); it('should release ControlLeft after 100 ms', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlLeft', key: 'Control', location: 1})); expect(kbd.onkeyevent).to.not.have.been.called; this.clock.tick(100); expect(kbd.onkeyevent).to.have.been.calledOnce; expect(kbd.onkeyevent).to.have.been.calledWith(0xffe3, "ControlLeft", true); }); it('should release ControlLeft on other key press', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlLeft', key: 'Control', location: 1})); expect(kbd.onkeyevent).to.not.have.been.called; kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', key: 'a'})); expect(kbd.onkeyevent).to.have.been.calledTwice; expect(kbd.onkeyevent.firstCall).to.have.been.calledWith(0xffe3, "ControlLeft", true); expect(kbd.onkeyevent.secondCall).to.have.been.calledWith(0x61, "KeyA", true); // Check that the timer is properly dead kbd.onkeyevent.reset(); this.clock.tick(100); expect(kbd.onkeyevent).to.not.have.been.called; }); it('should release ControlLeft on other key release', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'KeyA', key: 'a'})); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlLeft', key: 'Control', location: 1})); expect(kbd.onkeyevent).to.have.been.calledOnce; expect(kbd.onkeyevent.firstCall).to.have.been.calledWith(0x61, "KeyA", true); kbd._handleKeyUp(keyevent('keyup', {code: 'KeyA', key: 'a'})); expect(kbd.onkeyevent).to.have.been.calledThrice; expect(kbd.onkeyevent.secondCall).to.have.been.calledWith(0xffe3, "ControlLeft", true); expect(kbd.onkeyevent.thirdCall).to.have.been.calledWith(0x61, "KeyA", false); // Check that the timer is properly dead kbd.onkeyevent.reset(); this.clock.tick(100); expect(kbd.onkeyevent).to.not.have.been.called; }); it('should generate AltGraph for quick Ctrl+Alt sequence', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlLeft', key: 'Control', location: 1, timeStamp: Date.now()})); this.clock.tick(20); kbd._handleKeyDown(keyevent('keydown', {code: 'AltRight', key: 'Alt', location: 2, timeStamp: Date.now()})); expect(kbd.onkeyevent).to.have.been.calledOnce; expect(kbd.onkeyevent).to.have.been.calledWith(0xfe03, 'AltRight', true); // Check that the timer is properly dead kbd.onkeyevent.reset(); this.clock.tick(100); expect(kbd.onkeyevent).to.not.have.been.called; }); it('should generate Ctrl, Alt for slow Ctrl+Alt sequence', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'ControlLeft', key: 'Control', location: 1, timeStamp: Date.now()})); this.clock.tick(60); kbd._handleKeyDown(keyevent('keydown', {code: 'AltRight', key: 'Alt', location: 2, timeStamp: Date.now()})); expect(kbd.onkeyevent).to.have.been.calledTwice; expect(kbd.onkeyevent.firstCall).to.have.been.calledWith(0xffe3, "ControlLeft", true); expect(kbd.onkeyevent.secondCall).to.have.been.calledWith(0xffea, "AltRight", true); // Check that the timer is properly dead kbd.onkeyevent.reset(); this.clock.tick(100); expect(kbd.onkeyevent).to.not.have.been.called; }); it('should pass through single Alt', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'AltRight', key: 'Alt', location: 2})); expect(kbd.onkeyevent).to.have.been.calledOnce; expect(kbd.onkeyevent).to.have.been.calledWith(0xffea, 'AltRight', true); }); it('should pass through single AltGr', function () { const kbd = new Keyboard(document); kbd.onkeyevent = sinon.spy(); kbd._handleKeyDown(keyevent('keydown', {code: 'AltRight', key: 'AltGraph', location: 2})); expect(kbd.onkeyevent).to.have.been.calledOnce; expect(kbd.onkeyevent).to.have.been.calledWith(0xfe03, 'AltRight', true); }); }); });