/* * noVNC: HTML5 VNC client * Copyright (C) 2018 The noVNC Authors * Licensed under MPL 2.0 or any later version (see LICENSE.txt) */ import * as Log from '../util/logging.js'; import { stopEvent } from '../util/events.js'; import * as KeyboardUtil from "./util.js"; import KeyTable from "./keysym.js"; import * as browser from "../util/browser.js"; // // Keyboard event handler // export default class Keyboard { constructor(target) { this._target = target || null; this._keyDownList = {}; // List of depressed keys // (even if they are happy) this._pendingKey = null; // Key waiting for keypress this._altGrArmed = false; // Windows AltGr detection // keep these here so we can refer to them later this._eventHandlers = { 'keyup': this._handleKeyUp.bind(this), 'keydown': this._handleKeyDown.bind(this), 'keypress': this._handleKeyPress.bind(this), 'blur': this._allKeysUp.bind(this), 'checkalt': this._checkAlt.bind(this), }; // ===== EVENT HANDLERS ===== this.onkeyevent = () => {}; // Handler for key press/release } // ===== PRIVATE METHODS ===== _sendKeyEvent(keysym, code, down) { if (down) { this._keyDownList[code] = keysym; } else { // Do we really think this key is down? if (!(code in this._keyDownList)) { return; } delete this._keyDownList[code]; } Log.Debug("onkeyevent " + (down ? "down" : "up") + ", keysym: " + keysym, ", code: " + code); this.onkeyevent(keysym, code, down); } _getKeyCode(e) { const code = KeyboardUtil.getKeycode(e); if (code !== 'Unidentified') { return code; } // Unstable, but we don't have anything else to go on // (don't use it for 'keypress' events thought since // WebKit sets it to the same as charCode) if (e.keyCode && (e.type !== 'keypress')) { // 229 is used for composition events if (e.keyCode !== 229) { return 'Platform' + e.keyCode; } } // A precursor to the final DOM3 standard. Unfortunately it // is not layout independent, so it is as bad as using keyCode if (e.keyIdentifier) { // Non-character key? if (e.keyIdentifier.substr(0, 2) !== 'U+') { return e.keyIdentifier; } const codepoint = parseInt(e.keyIdentifier.substr(2), 16); const char = String.fromCharCode(codepoint).toUpperCase(); return 'Platform' + char.charCodeAt(); } return 'Unidentified'; } _handleKeyDown(e) { const code = this._getKeyCode(e); let keysym = KeyboardUtil.getKeysym(e); // Windows doesn't have a proper AltGr, but handles it using // fake Ctrl+Alt. However the remote end might not be Windows, // so we need to merge those in to a single AltGr event. We // detect this case by seeing the two key events directly after // each other with a very short time between them (<50ms). if (this._altGrArmed) { this._altGrArmed = false; clearTimeout(this._altGrTimeout); if ((code === "AltRight") && ((e.timeStamp - this._altGrCtrlTime) < 50)) { // FIXME: We fail to detect this if either Ctrl key is // first manually pressed as Windows then no // longer sends the fake Ctrl down event. It // does however happily send real Ctrl events // even when AltGr is already down. Some // browsers detect this for us though and set the // key to "AltGraph". keysym = KeyTable.XK_ISO_Level3_Shift; } else { this._sendKeyEvent(KeyTable.XK_Control_L, "ControlLeft", true); } } // We cannot handle keys we cannot track, but we also need // to deal with virtual keyboards which omit key info // (iOS omits tracking info on keyup events, which forces us to // special treat that platform here) if ((code === 'Unidentified') || browser.isIOS()) { if (keysym) { // If it's a virtual keyboard then it should be // sufficient to just send press and release right // after each other this._sendKeyEvent(keysym, code, true); this._sendKeyEvent(keysym, code, false); } stopEvent(e); return; } // Alt behaves more like AltGraph on macOS, so shuffle the // keys around a bit to make things more sane for the remote // server. This method is used by RealVNC and TigerVNC (and // possibly others). if (browser.isMac()) { switch (keysym) { case KeyTable.XK_Super_L: keysym = KeyTable.XK_Alt_L; break; case KeyTable.XK_Super_R: keysym = KeyTable.XK_Super_L; break; case KeyTable.XK_Alt_L: keysym = KeyTable.XK_Mode_switch; break; case KeyTable.XK_Alt_R: keysym = KeyTable.XK_ISO_Level3_Shift; break; } } // Is this key already pressed? If so, then we must use the // same keysym or we'll confuse the server if (code in this._keyDownList) { keysym = this._keyDownList[code]; } // macOS doesn't send proper key events for modifiers, only // state change events. That gets extra confusing for CapsLock // which toggles on each press, but not on release. So pretend // it was a quick press and release of the button. if (browser.isMac() && (code === 'CapsLock')) { this._sendKeyEvent(KeyTable.XK_Caps_Lock, 'CapsLock', true); this._sendKeyEvent(KeyTable.XK_Caps_Lock, 'CapsLock', false); stopEvent(e); return; } // If this is a legacy browser then we'll need to wait for // a keypress event as well // (IE and Edge has a broken KeyboardEvent.key, so we can't // just check for the presence of that field) if (!keysym && (!e.key || browser.isIE() || browser.isEdge())) { this._pendingKey = code; // However we might not get a keypress event if the key // is non-printable, which needs some special fallback // handling setTimeout(this._handleKeyPressTimeout.bind(this), 10, e); return; } this._pendingKey = null; stopEvent(e); // Possible start of AltGr sequence? (see above) if ((code === "ControlLeft") && browser.isWindows() && !("ControlLeft" in this._keyDownList)) { this._altGrArmed = true; this._altGrTimeout = setTimeout(this._handleAltGrTimeout.bind(this), 100); this._altGrCtrlTime = e.timeStamp; return; } this._sendKeyEvent(keysym, code, true); } // Legacy event for browsers without code/key _handleKeyPress(e) { stopEvent(e); // Are we expecting a keypress? if (this._pendingKey === null) { return; } let code = this._getKeyCode(e); const keysym = KeyboardUtil.getKeysym(e); // The key we were waiting for? if ((code !== 'Unidentified') && (code != this._pendingKey)) { return; } code = this._pendingKey; this._pendingKey = null; if (!keysym) { Log.Info('keypress with no keysym:', e); return; } this._sendKeyEvent(keysym, code, true); } _handleKeyPressTimeout(e) { // Did someone manage to sort out the key already? if (this._pendingKey === null) { return; } let keysym; const code = this._pendingKey; this._pendingKey = null; // We have no way of knowing the proper keysym with the // information given, but the following are true for most // layouts if ((e.keyCode >= 0x30) && (e.keyCode <= 0x39)) { // Digit keysym = e.keyCode; } else if ((e.keyCode >= 0x41) && (e.keyCode <= 0x5a)) { // Character (A-Z) let char = String.fromCharCode(e.keyCode); // A feeble attempt at the correct case if (e.shiftKey) { char = char.toUpperCase(); } else { char = char.toLowerCase(); } keysym = char.charCodeAt(); } else { // Unknown, give up keysym = 0; } this._sendKeyEvent(keysym, code, true); } _handleKeyUp(e) { stopEvent(e); const code = this._getKeyCode(e); // We can't get a release in the middle of an AltGr sequence, so // abort that detection if (this._altGrArmed) { this._altGrArmed = false; clearTimeout(this._altGrTimeout); this._sendKeyEvent(KeyTable.XK_Control_L, "ControlLeft", true); } // See comment in _handleKeyDown() if (browser.isMac() && (code === 'CapsLock')) { this._sendKeyEvent(KeyTable.XK_Caps_Lock, 'CapsLock', true); this._sendKeyEvent(KeyTable.XK_Caps_Lock, 'CapsLock', false); return; } this._sendKeyEvent(this._keyDownList[code], code, false); } _handleAltGrTimeout() { this._altGrArmed = false; clearTimeout(this._altGrTimeout); this._sendKeyEvent(KeyTable.XK_Control_L, "ControlLeft", true); } _allKeysUp() { Log.Debug(">> Keyboard.allKeysUp"); for (let code in this._keyDownList) { this._sendKeyEvent(this._keyDownList[code], code, false); } Log.Debug("<< Keyboard.allKeysUp"); } // Alt workaround for Firefox on Windows, see below _checkAlt(e) { if (e.skipCheckAlt) { return; } if (e.altKey) { return; } const target = this._target; const downList = this._keyDownList; ['AltLeft', 'AltRight'].forEach((code) => { if (!(code in downList)) { return; } const event = new KeyboardEvent('keyup', { key: downList[code], code: code }); event.skipCheckAlt = true; target.dispatchEvent(event); }); } // ===== PUBLIC METHODS ===== grab() { //Log.Debug(">> Keyboard.grab"); this._target.addEventListener('keydown', this._eventHandlers.keydown); this._target.addEventListener('keyup', this._eventHandlers.keyup); this._target.addEventListener('keypress', this._eventHandlers.keypress); // Release (key up) if window loses focus window.addEventListener('blur', this._eventHandlers.blur); // Firefox on Windows has broken handling of Alt, so we need to // poll as best we can for releases (still doesn't prevent the // menu from popping up though as we can't call // preventDefault()) if (browser.isWindows() && browser.isFirefox()) { const handler = this._eventHandlers.checkalt; ['mousedown', 'mouseup', 'mousemove', 'wheel', 'touchstart', 'touchend', 'touchmove', 'keydown', 'keyup'].forEach(type => document.addEventListener(type, handler, { capture: true, passive: true })); } //Log.Debug("<< Keyboard.grab"); } ungrab() { //Log.Debug(">> Keyboard.ungrab"); if (browser.isWindows() && browser.isFirefox()) { const handler = this._eventHandlers.checkalt; ['mousedown', 'mouseup', 'mousemove', 'wheel', 'touchstart', 'touchend', 'touchmove', 'keydown', 'keyup'].forEach(type => document.removeEventListener(type, handler)); } this._target.removeEventListener('keydown', this._eventHandlers.keydown); this._target.removeEventListener('keyup', this._eventHandlers.keyup); this._target.removeEventListener('keypress', this._eventHandlers.keypress); window.removeEventListener('blur', this._eventHandlers.blur); // Release (key up) all keys that are in a down state this._allKeysUp(); //Log.Debug(">> Keyboard.ungrab"); } }