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webvirtcloud/static/js/novnc/rfb.js

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2015-03-11 14:17:42 +00:00
/*
* noVNC: HTML5 VNC client
* Copyright (C) 2012 Joel Martin
* Licensed under MPL 2.0 (see LICENSE.txt)
*
* See README.md for usage and integration instructions.
*
* TIGHT decoder portion:
* (c) 2012 Michael Tinglof, Joe Balaz, Les Piech (Mercuri.ca)
*/
/*jslint white: false, browser: true, bitwise: false, plusplus: false */
/*global window, Util, Display, Keyboard, Mouse, Websock, Websock_native, Base64, DES */
function RFB(defaults) {
"use strict";
var that = {}, // Public API methods
conf = {}, // Configuration attributes
// Pre-declare private functions used before definitions (jslint)
init_vars, updateState, fail, handle_message,
init_msg, normal_msg, framebufferUpdate, print_stats,
pixelFormat, clientEncodings, fbUpdateRequest, fbUpdateRequests,
keyEvent, pointerEvent, clientCutText,
getTightCLength, extract_data_uri,
keyPress, mouseButton, mouseMove,
checkEvents, // Overridable for testing
//
// Private RFB namespace variables
//
rfb_host = '',
rfb_port = 5900,
rfb_password = '',
rfb_path = '',
rfb_state = 'disconnected',
rfb_version = 0,
rfb_max_version= 3.8,
rfb_auth_scheme= '',
// In preference order
encodings = [
['COPYRECT', 0x01 ],
['TIGHT', 0x07 ],
['TIGHT_PNG', -260 ],
['HEXTILE', 0x05 ],
['RRE', 0x02 ],
['RAW', 0x00 ],
['DesktopSize', -223 ],
['Cursor', -239 ],
// Psuedo-encoding settings
//['JPEG_quality_lo', -32 ],
['JPEG_quality_med', -26 ],
//['JPEG_quality_hi', -23 ],
//['compress_lo', -255 ],
['compress_hi', -247 ],
['last_rect', -224 ]
],
encHandlers = {},
encNames = {},
encStats = {}, // [rectCnt, rectCntTot]
ws = null, // Websock object
display = null, // Display object
keyboard = null, // Keyboard input handler object
mouse = null, // Mouse input handler object
sendTimer = null, // Send Queue check timer
connTimer = null, // connection timer
disconnTimer = null, // disconnection timer
msgTimer = null, // queued handle_message timer
// Frame buffer update state
FBU = {
rects : 0,
subrects : 0, // RRE
lines : 0, // RAW
tiles : 0, // HEXTILE
bytes : 0,
x : 0,
y : 0,
width : 0,
height : 0,
encoding : 0,
subencoding : -1,
background : null,
zlibs : [] // TIGHT zlib streams
},
fb_Bpp = 4,
fb_depth = 3,
fb_width = 0,
fb_height = 0,
fb_name = "",
last_req_time = 0,
rre_chunk_sz = 100,
timing = {
last_fbu : 0,
fbu_total : 0,
fbu_total_cnt : 0,
full_fbu_total : 0,
full_fbu_cnt : 0,
fbu_rt_start : 0,
fbu_rt_total : 0,
fbu_rt_cnt : 0,
pixels : 0
},
test_mode = false,
def_con_timeout = Websock_native ? 2 : 5,
/* Mouse state */
mouse_buttonMask = 0,
mouse_arr = [],
viewportDragging = false,
viewportDragPos = {};
// Configuration attributes
Util.conf_defaults(conf, that, defaults, [
['target', 'wo', 'dom', null, 'VNC display rendering Canvas object'],
['focusContainer', 'wo', 'dom', document, 'DOM element that captures keyboard input'],
['encrypt', 'rw', 'bool', false, 'Use TLS/SSL/wss encryption'],
['true_color', 'rw', 'bool', true, 'Request true color pixel data'],
['local_cursor', 'rw', 'bool', false, 'Request locally rendered cursor'],
['shared', 'rw', 'bool', true, 'Request shared mode'],
['view_only', 'rw', 'bool', false, 'Disable client mouse/keyboard'],
['connectTimeout', 'rw', 'int', def_con_timeout, 'Time (s) to wait for connection'],
['disconnectTimeout', 'rw', 'int', 3, 'Time (s) to wait for disconnection'],
// UltraVNC repeater ID to connect to
['repeaterID', 'rw', 'str', '', 'RepeaterID to connect to'],
['viewportDrag', 'rw', 'bool', false, 'Move the viewport on mouse drags'],
['check_rate', 'rw', 'int', 217, 'Timing (ms) of send/receive check'],
['fbu_req_rate', 'rw', 'int', 1413, 'Timing (ms) of frameBufferUpdate requests'],
// Callback functions
['onUpdateState', 'rw', 'func', function() { },
'onUpdateState(rfb, state, oldstate, statusMsg): RFB state update/change '],
['onPasswordRequired', 'rw', 'func', function() { },
'onPasswordRequired(rfb): VNC password is required '],
['onClipboard', 'rw', 'func', function() { },
'onClipboard(rfb, text): RFB clipboard contents received'],
['onBell', 'rw', 'func', function() { },
'onBell(rfb): RFB Bell message received '],
['onFBUReceive', 'rw', 'func', function() { },
'onFBUReceive(rfb, fbu): RFB FBU received but not yet processed '],
['onFBUComplete', 'rw', 'func', function() { },
'onFBUComplete(rfb, fbu): RFB FBU received and processed '],
['onFBResize', 'rw', 'func', function() { },
'onFBResize(rfb, width, height): frame buffer resized'],
// These callback names are deprecated
['updateState', 'rw', 'func', function() { },
'obsolete, use onUpdateState'],
['clipboardReceive', 'rw', 'func', function() { },
'obsolete, use onClipboard']
]);
// Override/add some specific configuration getters/setters
that.set_local_cursor = function(cursor) {
if ((!cursor) || (cursor in {'0':1, 'no':1, 'false':1})) {
conf.local_cursor = false;
} else {
if (display.get_cursor_uri()) {
conf.local_cursor = true;
} else {
Util.Warn("Browser does not support local cursor");
}
}
};
// These are fake configuration getters
that.get_display = function() { return display; };
that.get_keyboard = function() { return keyboard; };
that.get_mouse = function() { return mouse; };
//
// Setup routines
//
// Create the public API interface and initialize values that stay
// constant across connect/disconnect
function constructor() {
var i, rmode;
Util.Debug(">> RFB.constructor");
// Create lookup tables based encoding number
for (i=0; i < encodings.length; i+=1) {
encHandlers[encodings[i][1]] = encHandlers[encodings[i][0]];
encNames[encodings[i][1]] = encodings[i][0];
encStats[encodings[i][1]] = [0, 0];
}
// Initialize display, mouse, keyboard, and websock
try {
display = new Display({'target': conf.target});
} catch (exc) {
Util.Error("Display exception: " + exc);
updateState('fatal', "No working Display");
}
keyboard = new Keyboard({'target': conf.focusContainer,
'onKeyPress': keyPress});
mouse = new Mouse({'target': conf.target,
'onMouseButton': mouseButton,
'onMouseMove': mouseMove});
rmode = display.get_render_mode();
ws = new Websock();
ws.on('message', handle_message);
ws.on('open', function() {
if (rfb_state === "connect") {
updateState('ProtocolVersion', "Starting VNC handshake");
} else {
fail("Got unexpected WebSockets connection");
}
});
ws.on('close', function(e) {
Util.Warn("WebSocket on-close event");
var msg = "";
if (e.code) {
msg = " (code: " + e.code;
if (e.reason) {
msg += ", reason: " + e.reason;
}
msg += ")";
}
if (rfb_state === 'disconnect') {
updateState('disconnected', 'VNC disconnected' + msg);
} else if (rfb_state === 'ProtocolVersion') {
fail('Failed to connect to server' + msg);
} else if (rfb_state in {'failed':1, 'disconnected':1}) {
Util.Error("Received onclose while disconnected" + msg);
} else {
fail('Server disconnected' + msg);
}
});
ws.on('error', function(e) {
Util.Warn("WebSocket on-error event");
//fail("WebSock reported an error");
});
init_vars();
/* Check web-socket-js if no builtin WebSocket support */
if (Websock_native) {
Util.Info("Using native WebSockets");
updateState('loaded', 'noVNC ready: native WebSockets, ' + rmode);
} else {
Util.Warn("Using web-socket-js bridge. Flash version: " +
Util.Flash.version);
if ((! Util.Flash) ||
(Util.Flash.version < 9)) {
updateState('fatal', "WebSockets or <a href='http://get.adobe.com/flashplayer'>Adobe Flash<\/a> is required");
} else if (document.location.href.substr(0, 7) === "file://") {
updateState('fatal',
"'file://' URL is incompatible with Adobe Flash");
} else {
updateState('loaded', 'noVNC ready: WebSockets emulation, ' + rmode);
}
}
Util.Debug("<< RFB.constructor");
return that; // Return the public API interface
}
function connect() {
Util.Debug(">> RFB.connect");
var uri;
if (typeof UsingSocketIO !== "undefined") {
uri = "http://" + rfb_host + ":" + rfb_port + "/" + rfb_path;
} else {
if (conf.encrypt) {
uri = "wss://";
} else {
uri = "ws://";
}
uri += rfb_host + ":" + rfb_port + "/" + rfb_path;
}
Util.Info("connecting to " + uri);
// TODO: make protocols a configurable
ws.open(uri, ['binary', 'base64']);
Util.Debug("<< RFB.connect");
}
// Initialize variables that are reset before each connection
init_vars = function() {
var i;
/* Reset state */
ws.init();
FBU.rects = 0;
FBU.subrects = 0; // RRE and HEXTILE
FBU.lines = 0; // RAW
FBU.tiles = 0; // HEXTILE
FBU.zlibs = []; // TIGHT zlib encoders
mouse_buttonMask = 0;
mouse_arr = [];
// Clear the per connection encoding stats
for (i=0; i < encodings.length; i+=1) {
encStats[encodings[i][1]][0] = 0;
}
for (i=0; i < 4; i++) {
//FBU.zlibs[i] = new InflateStream();
FBU.zlibs[i] = new TINF();
FBU.zlibs[i].init();
}
};
// Print statistics
print_stats = function() {
var i, s;
Util.Info("Encoding stats for this connection:");
for (i=0; i < encodings.length; i+=1) {
s = encStats[encodings[i][1]];
if ((s[0] + s[1]) > 0) {
Util.Info(" " + encodings[i][0] + ": " +
s[0] + " rects");
}
}
Util.Info("Encoding stats since page load:");
for (i=0; i < encodings.length; i+=1) {
s = encStats[encodings[i][1]];
if ((s[0] + s[1]) > 0) {
Util.Info(" " + encodings[i][0] + ": " +
s[1] + " rects");
}
}
};
//
// Utility routines
//
/*
* Page states:
* loaded - page load, equivalent to disconnected
* disconnected - idle state
* connect - starting to connect (to ProtocolVersion)
* normal - connected
* disconnect - starting to disconnect
* failed - abnormal disconnect
* fatal - failed to load page, or fatal error
*
* RFB protocol initialization states:
* ProtocolVersion
* Security
* Authentication
* password - waiting for password, not part of RFB
* SecurityResult
* ClientInitialization - not triggered by server message
* ServerInitialization (to normal)
*/
updateState = function(state, statusMsg) {
var func, cmsg, oldstate = rfb_state;
if (state === oldstate) {
/* Already here, ignore */
Util.Debug("Already in state '" + state + "', ignoring.");
return;
}
/*
* These are disconnected states. A previous connect may
* asynchronously cause a connection so make sure we are closed.
*/
if (state in {'disconnected':1, 'loaded':1, 'connect':1,
'disconnect':1, 'failed':1, 'fatal':1}) {
if (sendTimer) {
clearInterval(sendTimer);
sendTimer = null;
}
if (msgTimer) {
clearInterval(msgTimer);
msgTimer = null;
}
if (display && display.get_context()) {
keyboard.ungrab();
mouse.ungrab();
display.defaultCursor();
if ((Util.get_logging() !== 'debug') ||
(state === 'loaded')) {
// Show noVNC logo on load and when disconnected if
// debug is off
display.clear();
}
}
ws.close();
}
if (oldstate === 'fatal') {
Util.Error("Fatal error, cannot continue");
}
if ((state === 'failed') || (state === 'fatal')) {
func = Util.Error;
} else {
func = Util.Warn;
}
cmsg = typeof(statusMsg) !== 'undefined' ? (" Msg: " + statusMsg) : "";
func("New state '" + state + "', was '" + oldstate + "'." + cmsg);
if ((oldstate === 'failed') && (state === 'disconnected')) {
// Do disconnect action, but stay in failed state
rfb_state = 'failed';
} else {
rfb_state = state;
}
if (connTimer && (rfb_state !== 'connect')) {
Util.Debug("Clearing connect timer");
clearInterval(connTimer);
connTimer = null;
}
if (disconnTimer && (rfb_state !== 'disconnect')) {
Util.Debug("Clearing disconnect timer");
clearInterval(disconnTimer);
disconnTimer = null;
}
switch (state) {
case 'normal':
if ((oldstate === 'disconnected') || (oldstate === 'failed')) {
Util.Error("Invalid transition from 'disconnected' or 'failed' to 'normal'");
}
break;
case 'connect':
connTimer = setTimeout(function () {
fail("Connect timeout");
}, conf.connectTimeout * 1000);
init_vars();
connect();
// WebSocket.onopen transitions to 'ProtocolVersion'
break;
case 'disconnect':
if (! test_mode) {
disconnTimer = setTimeout(function () {
fail("Disconnect timeout");
}, conf.disconnectTimeout * 1000);
}
print_stats();
// WebSocket.onclose transitions to 'disconnected'
break;
case 'failed':
if (oldstate === 'disconnected') {
Util.Error("Invalid transition from 'disconnected' to 'failed'");
}
if (oldstate === 'normal') {
Util.Error("Error while connected.");
}
if (oldstate === 'init') {
Util.Error("Error while initializing.");
}
// Make sure we transition to disconnected
setTimeout(function() { updateState('disconnected'); }, 50);
break;
default:
// No state change action to take
}
if ((oldstate === 'failed') && (state === 'disconnected')) {
// Leave the failed message
conf.updateState(that, state, oldstate); // Obsolete
conf.onUpdateState(that, state, oldstate);
} else {
conf.updateState(that, state, oldstate, statusMsg); // Obsolete
conf.onUpdateState(that, state, oldstate, statusMsg);
}
};
fail = function(msg) {
updateState('failed', msg);
return false;
};
handle_message = function() {
//Util.Debug(">> handle_message ws.rQlen(): " + ws.rQlen());
//Util.Debug("ws.rQslice(0,20): " + ws.rQslice(0,20) + " (" + ws.rQlen() + ")");
if (ws.rQlen() === 0) {
Util.Warn("handle_message called on empty receive queue");
return;
}
switch (rfb_state) {
case 'disconnected':
case 'failed':
Util.Error("Got data while disconnected");
break;
case 'normal':
if (normal_msg() && ws.rQlen() > 0) {
// true means we can continue processing
// Give other events a chance to run
if (msgTimer === null) {
Util.Debug("More data to process, creating timer");
msgTimer = setTimeout(function () {
msgTimer = null;
handle_message();
}, 10);
} else {
Util.Debug("More data to process, existing timer");
}
}
break;
default:
init_msg();
break;
}
};
function genDES(password, challenge) {
var i, passwd = [];
for (i=0; i < password.length; i += 1) {
passwd.push(password.charCodeAt(i));
}
return (new DES(passwd)).encrypt(challenge);
}
function flushClient() {
if (mouse_arr.length > 0) {
//send(mouse_arr.concat(fbUpdateRequests()));
ws.send(mouse_arr);
setTimeout(function() {
ws.send(fbUpdateRequests());
}, 50);
mouse_arr = [];
return true;
} else {
return false;
}
}
// overridable for testing
checkEvents = function() {
var now;
if (rfb_state === 'normal' && !viewportDragging) {
if (! flushClient()) {
now = new Date().getTime();
if (now > last_req_time + conf.fbu_req_rate) {
last_req_time = now;
ws.send(fbUpdateRequests());
}
}
}
setTimeout(checkEvents, conf.check_rate);
};
keyPress = function(keysym, down) {
var arr;
if (conf.view_only) { return; } // View only, skip keyboard events
arr = keyEvent(keysym, down);
arr = arr.concat(fbUpdateRequests());
ws.send(arr);
};
mouseButton = function(x, y, down, bmask) {
if (down) {
mouse_buttonMask |= bmask;
} else {
mouse_buttonMask ^= bmask;
}
if (conf.viewportDrag) {
if (down && !viewportDragging) {
viewportDragging = true;
viewportDragPos = {'x': x, 'y': y};
// Skip sending mouse events
return;
} else {
viewportDragging = false;
ws.send(fbUpdateRequests()); // Force immediate redraw
}
}
if (conf.view_only) { return; } // View only, skip mouse events
mouse_arr = mouse_arr.concat(
pointerEvent(display.absX(x), display.absY(y)) );
flushClient();
};
mouseMove = function(x, y) {
//Util.Debug('>> mouseMove ' + x + "," + y);
var deltaX, deltaY;
if (viewportDragging) {
//deltaX = x - viewportDragPos.x; // drag viewport
deltaX = viewportDragPos.x - x; // drag frame buffer
//deltaY = y - viewportDragPos.y; // drag viewport
deltaY = viewportDragPos.y - y; // drag frame buffer
viewportDragPos = {'x': x, 'y': y};
display.viewportChange(deltaX, deltaY);
// Skip sending mouse events
return;
}
if (conf.view_only) { return; } // View only, skip mouse events
mouse_arr = mouse_arr.concat(
pointerEvent(display.absX(x), display.absY(y)) );
};
//
// Server message handlers
//
// RFB/VNC initialisation message handler
init_msg = function() {
//Util.Debug(">> init_msg [rfb_state '" + rfb_state + "']");
var strlen, reason, length, sversion, cversion, repeaterID,
i, types, num_types, challenge, response, bpp, depth,
big_endian, red_max, green_max, blue_max, red_shift,
green_shift, blue_shift, true_color, name_length, is_repeater;
//Util.Debug("ws.rQ (" + ws.rQlen() + ") " + ws.rQslice(0));
switch (rfb_state) {
case 'ProtocolVersion' :
if (ws.rQlen() < 12) {
return fail("Incomplete protocol version");
}
sversion = ws.rQshiftStr(12).substr(4,7);
Util.Info("Server ProtocolVersion: " + sversion);
is_repeater = 0;
switch (sversion) {
case "000.000": is_repeater = 1; break; // UltraVNC repeater
case "003.003": rfb_version = 3.3; break;
case "003.006": rfb_version = 3.3; break; // UltraVNC
case "003.889": rfb_version = 3.3; break; // Apple Remote Desktop
case "003.007": rfb_version = 3.7; break;
case "003.008": rfb_version = 3.8; break;
case "004.000": rfb_version = 3.8; break; // Intel AMT KVM
case "004.001": rfb_version = 3.8; break; // RealVNC 4.6
default:
return fail("Invalid server version " + sversion);
}
if (is_repeater) {
repeaterID = conf.repeaterID;
while (repeaterID.length < 250) {
repeaterID += "\0";
}
ws.send_string(repeaterID);
break;
}
if (rfb_version > rfb_max_version) {
rfb_version = rfb_max_version;
}
if (! test_mode) {
sendTimer = setInterval(function() {
// Send updates either at a rate of one update
// every 50ms, or whatever slower rate the network
// can handle.
ws.flush();
}, 50);
}
cversion = "00" + parseInt(rfb_version,10) +
".00" + ((rfb_version * 10) % 10);
ws.send_string("RFB " + cversion + "\n");
updateState('Security', "Sent ProtocolVersion: " + cversion);
break;
case 'Security' :
if (rfb_version >= 3.7) {
// Server sends supported list, client decides
num_types = ws.rQshift8();
if (ws.rQwait("security type", num_types, 1)) { return false; }
if (num_types === 0) {
strlen = ws.rQshift32();
reason = ws.rQshiftStr(strlen);
return fail("Security failure: " + reason);
}
rfb_auth_scheme = 0;
types = ws.rQshiftBytes(num_types);
Util.Debug("Server security types: " + types);
for (i=0; i < types.length; i+=1) {
if ((types[i] > rfb_auth_scheme) && (types[i] < 3)) {
rfb_auth_scheme = types[i];
}
}
if (rfb_auth_scheme === 0) {
return fail("Unsupported security types: " + types);
}
ws.send([rfb_auth_scheme]);
} else {
// Server decides
if (ws.rQwait("security scheme", 4)) { return false; }
rfb_auth_scheme = ws.rQshift32();
}
updateState('Authentication',
"Authenticating using scheme: " + rfb_auth_scheme);
init_msg(); // Recursive fallthrough (workaround JSLint complaint)
break;
// Triggered by fallthough, not by server message
case 'Authentication' :
//Util.Debug("Security auth scheme: " + rfb_auth_scheme);
switch (rfb_auth_scheme) {
case 0: // connection failed
if (ws.rQwait("auth reason", 4)) { return false; }
strlen = ws.rQshift32();
reason = ws.rQshiftStr(strlen);
return fail("Auth failure: " + reason);
case 1: // no authentication
if (rfb_version >= 3.8) {
updateState('SecurityResult');
return;
}
// Fall through to ClientInitialisation
break;
case 2: // VNC authentication
if (rfb_password.length === 0) {
// Notify via both callbacks since it is kind of
// a RFB state change and a UI interface issue.
updateState('password', "Password Required");
conf.onPasswordRequired(that);
return;
}
if (ws.rQwait("auth challenge", 16)) { return false; }
challenge = ws.rQshiftBytes(16);
//Util.Debug("Password: " + rfb_password);
//Util.Debug("Challenge: " + challenge +
// " (" + challenge.length + ")");
response = genDES(rfb_password, challenge);
//Util.Debug("Response: " + response +
// " (" + response.length + ")");
//Util.Debug("Sending DES encrypted auth response");
ws.send(response);
updateState('SecurityResult');
return;
default:
fail("Unsupported auth scheme: " + rfb_auth_scheme);
return;
}
updateState('ClientInitialisation', "No auth required");
init_msg(); // Recursive fallthrough (workaround JSLint complaint)
break;
case 'SecurityResult' :
if (ws.rQwait("VNC auth response ", 4)) { return false; }
switch (ws.rQshift32()) {
case 0: // OK
// Fall through to ClientInitialisation
break;
case 1: // failed
if (rfb_version >= 3.8) {
length = ws.rQshift32();
if (ws.rQwait("SecurityResult reason", length, 8)) {
return false;
}
reason = ws.rQshiftStr(length);
fail(reason);
} else {
fail("Authentication failed");
}
return;
case 2: // too-many
return fail("Too many auth attempts");
}
updateState('ClientInitialisation', "Authentication OK");
init_msg(); // Recursive fallthrough (workaround JSLint complaint)
break;
// Triggered by fallthough, not by server message
case 'ClientInitialisation' :
ws.send([conf.shared ? 1 : 0]); // ClientInitialisation
updateState('ServerInitialisation', "Authentication OK");
break;
case 'ServerInitialisation' :
if (ws.rQwait("server initialization", 24)) { return false; }
/* Screen size */
fb_width = ws.rQshift16();
fb_height = ws.rQshift16();
/* PIXEL_FORMAT */
bpp = ws.rQshift8();
depth = ws.rQshift8();
big_endian = ws.rQshift8();
true_color = ws.rQshift8();
red_max = ws.rQshift16();
green_max = ws.rQshift16();
blue_max = ws.rQshift16();
red_shift = ws.rQshift8();
green_shift = ws.rQshift8();
blue_shift = ws.rQshift8();
ws.rQshiftStr(3); // padding
Util.Info("Screen: " + fb_width + "x" + fb_height +
", bpp: " + bpp + ", depth: " + depth +
", big_endian: " + big_endian +
", true_color: " + true_color +
", red_max: " + red_max +
", green_max: " + green_max +
", blue_max: " + blue_max +
", red_shift: " + red_shift +
", green_shift: " + green_shift +
", blue_shift: " + blue_shift);
if (big_endian !== 0) {
Util.Warn("Server native endian is not little endian");
}
if (red_shift !== 16) {
Util.Warn("Server native red-shift is not 16");
}
if (blue_shift !== 0) {
Util.Warn("Server native blue-shift is not 0");
}
/* Connection name/title */
name_length = ws.rQshift32();
fb_name = ws.rQshiftStr(name_length);
if (conf.true_color && fb_name === "Intel(r) AMT KVM")
{
Util.Warn("Intel AMT KVM only support 8/16 bit depths. Disabling true color");
conf.true_color = false;
}
display.set_true_color(conf.true_color);
conf.onFBResize(that, fb_width, fb_height);
display.resize(fb_width, fb_height);
keyboard.grab();
mouse.grab();
if (conf.true_color) {
fb_Bpp = 4;
fb_depth = 3;
} else {
fb_Bpp = 1;
fb_depth = 1;
}
response = pixelFormat();
response = response.concat(clientEncodings());
response = response.concat(fbUpdateRequests());
timing.fbu_rt_start = (new Date()).getTime();
timing.pixels = 0;
ws.send(response);
/* Start pushing/polling */
setTimeout(checkEvents, conf.check_rate);
if (conf.encrypt) {
updateState('normal', "Connected (encrypted) to: " + fb_name);
} else {
updateState('normal', "Connected (unencrypted) to: " + fb_name);
}
break;
}
//Util.Debug("<< init_msg");
};
/* Normal RFB/VNC server message handler */
normal_msg = function() {
//Util.Debug(">> normal_msg");
var ret = true, msg_type, length, text,
c, first_colour, num_colours, red, green, blue;
if (FBU.rects > 0) {
msg_type = 0;
} else {
msg_type = ws.rQshift8();
}
switch (msg_type) {
case 0: // FramebufferUpdate
ret = framebufferUpdate(); // false means need more data
break;
case 1: // SetColourMapEntries
Util.Debug("SetColourMapEntries");
ws.rQshift8(); // Padding
first_colour = ws.rQshift16(); // First colour
num_colours = ws.rQshift16();
if (ws.rQwait("SetColourMapEntries", num_colours*6, 6)) { return false; }
for (c=0; c < num_colours; c+=1) {
red = ws.rQshift16();
//Util.Debug("red before: " + red);
red = parseInt(red / 256, 10);
//Util.Debug("red after: " + red);
green = parseInt(ws.rQshift16() / 256, 10);
blue = parseInt(ws.rQshift16() / 256, 10);
display.set_colourMap([blue, green, red], first_colour + c);
}
Util.Debug("colourMap: " + display.get_colourMap());
Util.Info("Registered " + num_colours + " colourMap entries");
//Util.Debug("colourMap: " + display.get_colourMap());
break;
case 2: // Bell
Util.Debug("Bell");
conf.onBell(that);
break;
case 3: // ServerCutText
Util.Debug("ServerCutText");
if (ws.rQwait("ServerCutText header", 7, 1)) { return false; }
ws.rQshiftBytes(3); // Padding
length = ws.rQshift32();
if (ws.rQwait("ServerCutText", length, 8)) { return false; }
text = ws.rQshiftStr(length);
conf.clipboardReceive(that, text); // Obsolete
conf.onClipboard(that, text);
break;
default:
fail("Disconnected: illegal server message type " + msg_type);
Util.Debug("ws.rQslice(0,30):" + ws.rQslice(0,30));
break;
}
//Util.Debug("<< normal_msg");
return ret;
};
framebufferUpdate = function() {
var now, hdr, fbu_rt_diff, ret = true;
if (FBU.rects === 0) {
//Util.Debug("New FBU: ws.rQslice(0,20): " + ws.rQslice(0,20));
if (ws.rQwait("FBU header", 3)) {
ws.rQunshift8(0); // FBU msg_type
return false;
}
ws.rQshift8(); // padding
FBU.rects = ws.rQshift16();
//Util.Debug("FramebufferUpdate, rects:" + FBU.rects);
FBU.bytes = 0;
timing.cur_fbu = 0;
if (timing.fbu_rt_start > 0) {
now = (new Date()).getTime();
Util.Info("First FBU latency: " + (now - timing.fbu_rt_start));
}
}
while (FBU.rects > 0) {
if (rfb_state !== "normal") {
return false;
}
if (ws.rQwait("FBU", FBU.bytes)) { return false; }
if (FBU.bytes === 0) {
if (ws.rQwait("rect header", 12)) { return false; }
/* New FramebufferUpdate */
hdr = ws.rQshiftBytes(12);
FBU.x = (hdr[0] << 8) + hdr[1];
FBU.y = (hdr[2] << 8) + hdr[3];
FBU.width = (hdr[4] << 8) + hdr[5];
FBU.height = (hdr[6] << 8) + hdr[7];
FBU.encoding = parseInt((hdr[8] << 24) + (hdr[9] << 16) +
(hdr[10] << 8) + hdr[11], 10);
conf.onFBUReceive(that,
{'x': FBU.x, 'y': FBU.y,
'width': FBU.width, 'height': FBU.height,
'encoding': FBU.encoding,
'encodingName': encNames[FBU.encoding]});
if (encNames[FBU.encoding]) {
// Debug:
/*
var msg = "FramebufferUpdate rects:" + FBU.rects;
msg += " x: " + FBU.x + " y: " + FBU.y;
msg += " width: " + FBU.width + " height: " + FBU.height;
msg += " encoding:" + FBU.encoding;
msg += "(" + encNames[FBU.encoding] + ")";
msg += ", ws.rQlen(): " + ws.rQlen();
Util.Debug(msg);
*/
} else {
fail("Disconnected: unsupported encoding " +
FBU.encoding);
return false;
}
}
timing.last_fbu = (new Date()).getTime();
ret = encHandlers[FBU.encoding]();
now = (new Date()).getTime();
timing.cur_fbu += (now - timing.last_fbu);
if (ret) {
encStats[FBU.encoding][0] += 1;
encStats[FBU.encoding][1] += 1;
timing.pixels += FBU.width * FBU.height;
}
if (timing.pixels >= (fb_width * fb_height)) {
if (((FBU.width === fb_width) &&
(FBU.height === fb_height)) ||
(timing.fbu_rt_start > 0)) {
timing.full_fbu_total += timing.cur_fbu;
timing.full_fbu_cnt += 1;
Util.Info("Timing of full FBU, cur: " +
timing.cur_fbu + ", total: " +
timing.full_fbu_total + ", cnt: " +
timing.full_fbu_cnt + ", avg: " +
(timing.full_fbu_total /
timing.full_fbu_cnt));
}
if (timing.fbu_rt_start > 0) {
fbu_rt_diff = now - timing.fbu_rt_start;
timing.fbu_rt_total += fbu_rt_diff;
timing.fbu_rt_cnt += 1;
Util.Info("full FBU round-trip, cur: " +
fbu_rt_diff + ", total: " +
timing.fbu_rt_total + ", cnt: " +
timing.fbu_rt_cnt + ", avg: " +
(timing.fbu_rt_total /
timing.fbu_rt_cnt));
timing.fbu_rt_start = 0;
}
}
if (! ret) {
return ret; // false ret means need more data
}
}
conf.onFBUComplete(that,
{'x': FBU.x, 'y': FBU.y,
'width': FBU.width, 'height': FBU.height,
'encoding': FBU.encoding,
'encodingName': encNames[FBU.encoding]});
return true; // We finished this FBU
};
//
// FramebufferUpdate encodings
//
encHandlers.RAW = function display_raw() {
//Util.Debug(">> display_raw (" + ws.rQlen() + " bytes)");
var cur_y, cur_height;
if (FBU.lines === 0) {
FBU.lines = FBU.height;
}
FBU.bytes = FBU.width * fb_Bpp; // At least a line
if (ws.rQwait("RAW", FBU.bytes)) { return false; }
cur_y = FBU.y + (FBU.height - FBU.lines);
cur_height = Math.min(FBU.lines,
Math.floor(ws.rQlen()/(FBU.width * fb_Bpp)));
display.blitImage(FBU.x, cur_y, FBU.width, cur_height,
ws.get_rQ(), ws.get_rQi());
ws.rQshiftBytes(FBU.width * cur_height * fb_Bpp);
FBU.lines -= cur_height;
if (FBU.lines > 0) {
FBU.bytes = FBU.width * fb_Bpp; // At least another line
} else {
FBU.rects -= 1;
FBU.bytes = 0;
}
//Util.Debug("<< display_raw (" + ws.rQlen() + " bytes)");
return true;
};
encHandlers.COPYRECT = function display_copy_rect() {
//Util.Debug(">> display_copy_rect");
var old_x, old_y;
if (ws.rQwait("COPYRECT", 4)) { return false; }
display.renderQ_push({
'type': 'copy',
'old_x': ws.rQshift16(),
'old_y': ws.rQshift16(),
'x': FBU.x,
'y': FBU.y,
'width': FBU.width,
'height': FBU.height});
FBU.rects -= 1;
FBU.bytes = 0;
return true;
};
encHandlers.RRE = function display_rre() {
//Util.Debug(">> display_rre (" + ws.rQlen() + " bytes)");
var color, x, y, width, height, chunk;
if (FBU.subrects === 0) {
if (ws.rQwait("RRE", 4+fb_Bpp)) { return false; }
FBU.subrects = ws.rQshift32();
color = ws.rQshiftBytes(fb_Bpp); // Background
display.fillRect(FBU.x, FBU.y, FBU.width, FBU.height, color);
}
while ((FBU.subrects > 0) && (ws.rQlen() >= (fb_Bpp + 8))) {
color = ws.rQshiftBytes(fb_Bpp);
x = ws.rQshift16();
y = ws.rQshift16();
width = ws.rQshift16();
height = ws.rQshift16();
display.fillRect(FBU.x + x, FBU.y + y, width, height, color);
FBU.subrects -= 1;
}
//Util.Debug(" display_rre: rects: " + FBU.rects +
// ", FBU.subrects: " + FBU.subrects);
if (FBU.subrects > 0) {
chunk = Math.min(rre_chunk_sz, FBU.subrects);
FBU.bytes = (fb_Bpp + 8) * chunk;
} else {
FBU.rects -= 1;
FBU.bytes = 0;
}
//Util.Debug("<< display_rre, FBU.bytes: " + FBU.bytes);
return true;
};
encHandlers.HEXTILE = function display_hextile() {
//Util.Debug(">> display_hextile");
var subencoding, subrects, color, cur_tile,
tile_x, x, w, tile_y, y, h, xy, s, sx, sy, wh, sw, sh,
rQ = ws.get_rQ(), rQi = ws.get_rQi();
if (FBU.tiles === 0) {
FBU.tiles_x = Math.ceil(FBU.width/16);
FBU.tiles_y = Math.ceil(FBU.height/16);
FBU.total_tiles = FBU.tiles_x * FBU.tiles_y;
FBU.tiles = FBU.total_tiles;
}
/* FBU.bytes comes in as 1, ws.rQlen() at least 1 */
while (FBU.tiles > 0) {
FBU.bytes = 1;
if (ws.rQwait("HEXTILE subencoding", FBU.bytes)) { return false; }
subencoding = rQ[rQi]; // Peek
if (subencoding > 30) { // Raw
fail("Disconnected: illegal hextile subencoding " + subencoding);
//Util.Debug("ws.rQslice(0,30):" + ws.rQslice(0,30));
return false;
}
subrects = 0;
cur_tile = FBU.total_tiles - FBU.tiles;
tile_x = cur_tile % FBU.tiles_x;
tile_y = Math.floor(cur_tile / FBU.tiles_x);
x = FBU.x + tile_x * 16;
y = FBU.y + tile_y * 16;
w = Math.min(16, (FBU.x + FBU.width) - x);
h = Math.min(16, (FBU.y + FBU.height) - y);
/* Figure out how much we are expecting */
if (subencoding & 0x01) { // Raw
//Util.Debug(" Raw subencoding");
FBU.bytes += w * h * fb_Bpp;
} else {
if (subencoding & 0x02) { // Background
FBU.bytes += fb_Bpp;
}
if (subencoding & 0x04) { // Foreground
FBU.bytes += fb_Bpp;
}
if (subencoding & 0x08) { // AnySubrects
FBU.bytes += 1; // Since we aren't shifting it off
if (ws.rQwait("hextile subrects header", FBU.bytes)) { return false; }
subrects = rQ[rQi + FBU.bytes-1]; // Peek
if (subencoding & 0x10) { // SubrectsColoured
FBU.bytes += subrects * (fb_Bpp + 2);
} else {
FBU.bytes += subrects * 2;
}
}
}
/*
Util.Debug(" tile:" + cur_tile + "/" + (FBU.total_tiles - 1) +
" (" + tile_x + "," + tile_y + ")" +
" [" + x + "," + y + "]@" + w + "x" + h +
", subenc:" + subencoding +
"(last: " + FBU.lastsubencoding + "), subrects:" +
subrects +
", ws.rQlen():" + ws.rQlen() + ", FBU.bytes:" + FBU.bytes +
" last:" + ws.rQslice(FBU.bytes-10, FBU.bytes) +
" next:" + ws.rQslice(FBU.bytes-1, FBU.bytes+10));
*/
if (ws.rQwait("hextile", FBU.bytes)) { return false; }
/* We know the encoding and have a whole tile */
FBU.subencoding = rQ[rQi];
rQi += 1;
if (FBU.subencoding === 0) {
if (FBU.lastsubencoding & 0x01) {
/* Weird: ignore blanks after RAW */
Util.Debug(" Ignoring blank after RAW");
} else {
display.fillRect(x, y, w, h, FBU.background);
}
} else if (FBU.subencoding & 0x01) { // Raw
display.blitImage(x, y, w, h, rQ, rQi);
rQi += FBU.bytes - 1;
} else {
if (FBU.subencoding & 0x02) { // Background
FBU.background = rQ.slice(rQi, rQi + fb_Bpp);
rQi += fb_Bpp;
}
if (FBU.subencoding & 0x04) { // Foreground
FBU.foreground = rQ.slice(rQi, rQi + fb_Bpp);
rQi += fb_Bpp;
}
display.startTile(x, y, w, h, FBU.background);
if (FBU.subencoding & 0x08) { // AnySubrects
subrects = rQ[rQi];
rQi += 1;
for (s = 0; s < subrects; s += 1) {
if (FBU.subencoding & 0x10) { // SubrectsColoured
color = rQ.slice(rQi, rQi + fb_Bpp);
rQi += fb_Bpp;
} else {
color = FBU.foreground;
}
xy = rQ[rQi];
rQi += 1;
sx = (xy >> 4);
sy = (xy & 0x0f);
wh = rQ[rQi];
rQi += 1;
sw = (wh >> 4) + 1;
sh = (wh & 0x0f) + 1;
display.subTile(sx, sy, sw, sh, color);
}
}
display.finishTile();
}
ws.set_rQi(rQi);
FBU.lastsubencoding = FBU.subencoding;
FBU.bytes = 0;
FBU.tiles -= 1;
}
if (FBU.tiles === 0) {
FBU.rects -= 1;
}
//Util.Debug("<< display_hextile");
return true;
};
// Get 'compact length' header and data size
getTightCLength = function (arr) {
var header = 1, data = 0;
data += arr[0] & 0x7f;
if (arr[0] & 0x80) {
header += 1;
data += (arr[1] & 0x7f) << 7;
if (arr[1] & 0x80) {
header += 1;
data += arr[2] << 14;
}
}
return [header, data];
};
function display_tight(isTightPNG) {
//Util.Debug(">> display_tight");
if (fb_depth === 1) {
fail("Tight protocol handler only implements true color mode");
}
var ctl, cmode, clength, color, img, data;
var filterId = -1, resetStreams = 0, streamId = -1;
var rQ = ws.get_rQ(), rQi = ws.get_rQi();
FBU.bytes = 1; // compression-control byte
if (ws.rQwait("TIGHT compression-control", FBU.bytes)) { return false; }
var checksum = function(data) {
var sum=0, i;
for (i=0; i<data.length;i++) {
sum += data[i];
if (sum > 65536) sum -= 65536;
}
return sum;
}
var decompress = function(data) {
for (var i=0; i<4; i++) {
if ((resetStreams >> i) & 1) {
FBU.zlibs[i].reset();
Util.Info("Reset zlib stream " + i);
}
}
var uncompressed = FBU.zlibs[streamId].uncompress(data, 0);
if (uncompressed.status !== 0) {
Util.Error("Invalid data in zlib stream");
}
//Util.Warn("Decompressed " + data.length + " to " +
// uncompressed.data.length + " checksums " +
// checksum(data) + ":" + checksum(uncompressed.data));
return uncompressed.data;
}
var indexedToRGB = function (data, numColors, palette, width, height) {
// Convert indexed (palette based) image data to RGB
// TODO: reduce number of calculations inside loop
var dest = [];
var x, y, b, w, w1, dp, sp;
if (numColors === 2) {
w = Math.floor((width + 7) / 8);
w1 = Math.floor(width / 8);
for (y = 0; y < height; y++) {
for (x = 0; x < w1; x++) {
for (b = 7; b >= 0; b--) {
dp = (y*width + x*8 + 7-b) * 3;
sp = (data[y*w + x] >> b & 1) * 3;
dest[dp ] = palette[sp ];
dest[dp+1] = palette[sp+1];
dest[dp+2] = palette[sp+2];
}
}
for (b = 7; b >= 8 - width % 8; b--) {
dp = (y*width + x*8 + 7-b) * 3;
sp = (data[y*w + x] >> b & 1) * 3;
dest[dp ] = palette[sp ];
dest[dp+1] = palette[sp+1];
dest[dp+2] = palette[sp+2];
}
}
} else {
for (y = 0; y < height; y++) {
for (x = 0; x < width; x++) {
dp = (y*width + x) * 3;
sp = data[y*width + x] * 3;
dest[dp ] = palette[sp ];
dest[dp+1] = palette[sp+1];
dest[dp+2] = palette[sp+2];
}
}
}
return dest;
};
var handlePalette = function() {
var numColors = rQ[rQi + 2] + 1;
var paletteSize = numColors * fb_depth;
FBU.bytes += paletteSize;
if (ws.rQwait("TIGHT palette " + cmode, FBU.bytes)) { return false; }
var bpp = (numColors <= 2) ? 1 : 8;
var rowSize = Math.floor((FBU.width * bpp + 7) / 8);
var raw = false;
if (rowSize * FBU.height < 12) {
raw = true;
clength = [0, rowSize * FBU.height];
} else {
clength = getTightCLength(ws.rQslice(3 + paletteSize,
3 + paletteSize + 3));
}
FBU.bytes += clength[0] + clength[1];
if (ws.rQwait("TIGHT " + cmode, FBU.bytes)) { return false; }
// Shift ctl, filter id, num colors, palette entries, and clength off
ws.rQshiftBytes(3);
var palette = ws.rQshiftBytes(paletteSize);
ws.rQshiftBytes(clength[0]);
if (raw) {
data = ws.rQshiftBytes(clength[1]);
} else {
data = decompress(ws.rQshiftBytes(clength[1]));
}
// Convert indexed (palette based) image data to RGB
var rgb = indexedToRGB(data, numColors, palette, FBU.width, FBU.height);
// Add it to the render queue
display.renderQ_push({
'type': 'blitRgb',
'data': rgb,
'x': FBU.x,
'y': FBU.y,
'width': FBU.width,
'height': FBU.height});
return true;
}
var handleCopy = function() {
var raw = false;
var uncompressedSize = FBU.width * FBU.height * fb_depth;
if (uncompressedSize < 12) {
raw = true;
clength = [0, uncompressedSize];
} else {
clength = getTightCLength(ws.rQslice(1, 4));
}
FBU.bytes = 1 + clength[0] + clength[1];
if (ws.rQwait("TIGHT " + cmode, FBU.bytes)) { return false; }
// Shift ctl, clength off
ws.rQshiftBytes(1 + clength[0]);
if (raw) {
data = ws.rQshiftBytes(clength[1]);
} else {
data = decompress(ws.rQshiftBytes(clength[1]));
}
display.renderQ_push({
'type': 'blitRgb',
'data': data,
'x': FBU.x,
'y': FBU.y,
'width': FBU.width,
'height': FBU.height});
return true;
}
ctl = ws.rQpeek8();
// Keep tight reset bits
resetStreams = ctl & 0xF;
// Figure out filter
ctl = ctl >> 4;
streamId = ctl & 0x3;
if (ctl === 0x08) cmode = "fill";
else if (ctl === 0x09) cmode = "jpeg";
else if (ctl === 0x0A) cmode = "png";
else if (ctl & 0x04) cmode = "filter";
else if (ctl < 0x04) cmode = "copy";
else return fail("Illegal tight compression received, ctl: " + ctl);
if (isTightPNG && (cmode === "filter" || cmode === "copy")) {
return fail("filter/copy received in tightPNG mode");
}
switch (cmode) {
// fill uses fb_depth because TPIXELs drop the padding byte
case "fill": FBU.bytes += fb_depth; break; // TPIXEL
case "jpeg": FBU.bytes += 3; break; // max clength
case "png": FBU.bytes += 3; break; // max clength
case "filter": FBU.bytes += 2; break; // filter id + num colors if palette
case "copy": break;
}
if (ws.rQwait("TIGHT " + cmode, FBU.bytes)) { return false; }
//Util.Debug(" ws.rQslice(0,20): " + ws.rQslice(0,20) + " (" + ws.rQlen() + ")");
//Util.Debug(" cmode: " + cmode);
// Determine FBU.bytes
switch (cmode) {
case "fill":
ws.rQshift8(); // shift off ctl
color = ws.rQshiftBytes(fb_depth);
display.renderQ_push({
'type': 'fill',
'x': FBU.x,
'y': FBU.y,
'width': FBU.width,
'height': FBU.height,
'color': [color[2], color[1], color[0]] });
break;
case "png":
case "jpeg":
clength = getTightCLength(ws.rQslice(1, 4));
FBU.bytes = 1 + clength[0] + clength[1]; // ctl + clength size + jpeg-data
if (ws.rQwait("TIGHT " + cmode, FBU.bytes)) { return false; }
// We have everything, render it
//Util.Debug(" jpeg, ws.rQlen(): " + ws.rQlen() + ", clength[0]: " +
// clength[0] + ", clength[1]: " + clength[1]);
ws.rQshiftBytes(1 + clength[0]); // shift off ctl + compact length
img = new Image();
img.src = "data:image/" + cmode +
extract_data_uri(ws.rQshiftBytes(clength[1]));
display.renderQ_push({
'type': 'img',
'img': img,
'x': FBU.x,
'y': FBU.y});
img = null;
break;
case "filter":
filterId = rQ[rQi + 1];
if (filterId === 1) {
if (!handlePalette()) { return false; }
} else {
// Filter 0, Copy could be valid here, but servers don't send it as an explicit filter
// Filter 2, Gradient is valid but not used if jpeg is enabled
throw("Unsupported tight subencoding received, filter: " + filterId);
}
break;
case "copy":
if (!handleCopy()) { return false; }
break;
}
FBU.bytes = 0;
FBU.rects -= 1;
//Util.Debug(" ending ws.rQslice(0,20): " + ws.rQslice(0,20) + " (" + ws.rQlen() + ")");
//Util.Debug("<< display_tight_png");
return true;
}
extract_data_uri = function(arr) {
//var i, stra = [];
//for (i=0; i< arr.length; i += 1) {
// stra.push(String.fromCharCode(arr[i]));
//}
//return "," + escape(stra.join(''));
return ";base64," + Base64.encode(arr);
};
encHandlers.TIGHT = function () { return display_tight(false); };
encHandlers.TIGHT_PNG = function () { return display_tight(true); };
encHandlers.last_rect = function last_rect() {
//Util.Debug(">> last_rect");
FBU.rects = 0;
//Util.Debug("<< last_rect");
return true;
};
encHandlers.DesktopSize = function set_desktopsize() {
Util.Debug(">> set_desktopsize");
fb_width = FBU.width;
fb_height = FBU.height;
conf.onFBResize(that, fb_width, fb_height);
display.resize(fb_width, fb_height);
timing.fbu_rt_start = (new Date()).getTime();
// Send a new non-incremental request
ws.send(fbUpdateRequests());
FBU.bytes = 0;
FBU.rects -= 1;
Util.Debug("<< set_desktopsize");
return true;
};
encHandlers.Cursor = function set_cursor() {
var x, y, w, h, pixelslength, masklength;
Util.Debug(">> set_cursor");
x = FBU.x; // hotspot-x
y = FBU.y; // hotspot-y
w = FBU.width;
h = FBU.height;
pixelslength = w * h * fb_Bpp;
masklength = Math.floor((w + 7) / 8) * h;
FBU.bytes = pixelslength + masklength;
if (ws.rQwait("cursor encoding", FBU.bytes)) { return false; }
//Util.Debug(" set_cursor, x: " + x + ", y: " + y + ", w: " + w + ", h: " + h);
display.changeCursor(ws.rQshiftBytes(pixelslength),
ws.rQshiftBytes(masklength),
x, y, w, h);
FBU.bytes = 0;
FBU.rects -= 1;
Util.Debug("<< set_cursor");
return true;
};
encHandlers.JPEG_quality_lo = function set_jpeg_quality() {
Util.Error("Server sent jpeg_quality pseudo-encoding");
};
encHandlers.compress_lo = function set_compress_level() {
Util.Error("Server sent compress level pseudo-encoding");
};
/*
* Client message routines
*/
pixelFormat = function() {
//Util.Debug(">> pixelFormat");
var arr;
arr = [0]; // msg-type
arr.push8(0); // padding
arr.push8(0); // padding
arr.push8(0); // padding
arr.push8(fb_Bpp * 8); // bits-per-pixel
arr.push8(fb_depth * 8); // depth
arr.push8(0); // little-endian
arr.push8(conf.true_color ? 1 : 0); // true-color
arr.push16(255); // red-max
arr.push16(255); // green-max
arr.push16(255); // blue-max
arr.push8(16); // red-shift
arr.push8(8); // green-shift
arr.push8(0); // blue-shift
arr.push8(0); // padding
arr.push8(0); // padding
arr.push8(0); // padding
//Util.Debug("<< pixelFormat");
return arr;
};
clientEncodings = function() {
//Util.Debug(">> clientEncodings");
var arr, i, encList = [];
for (i=0; i<encodings.length; i += 1) {
if ((encodings[i][0] === "Cursor") &&
(! conf.local_cursor)) {
Util.Debug("Skipping Cursor pseudo-encoding");
// TODO: remove this when we have tight+non-true-color
} else if ((encodings[i][0] === "TIGHT") &&
(! conf.true_color)) {
Util.Warn("Skipping tight, only support with true color");
} else {
//Util.Debug("Adding encoding: " + encodings[i][0]);
encList.push(encodings[i][1]);
}
}
arr = [2]; // msg-type
arr.push8(0); // padding
arr.push16(encList.length); // encoding count
for (i=0; i < encList.length; i += 1) {
arr.push32(encList[i]);
}
//Util.Debug("<< clientEncodings: " + arr);
return arr;
};
fbUpdateRequest = function(incremental, x, y, xw, yw) {
//Util.Debug(">> fbUpdateRequest");
if (typeof(x) === "undefined") { x = 0; }
if (typeof(y) === "undefined") { y = 0; }
if (typeof(xw) === "undefined") { xw = fb_width; }
if (typeof(yw) === "undefined") { yw = fb_height; }
var arr;
arr = [3]; // msg-type
arr.push8(incremental);
arr.push16(x);
arr.push16(y);
arr.push16(xw);
arr.push16(yw);
//Util.Debug("<< fbUpdateRequest");
return arr;
};
// Based on clean/dirty areas, generate requests to send
fbUpdateRequests = function() {
var cleanDirty = display.getCleanDirtyReset(),
arr = [], i, cb, db;
cb = cleanDirty.cleanBox;
if (cb.w > 0 && cb.h > 0) {
// Request incremental for clean box
arr = arr.concat(fbUpdateRequest(1, cb.x, cb.y, cb.w, cb.h));
}
for (i = 0; i < cleanDirty.dirtyBoxes.length; i++) {
db = cleanDirty.dirtyBoxes[i];
// Force all (non-incremental for dirty box
arr = arr.concat(fbUpdateRequest(0, db.x, db.y, db.w, db.h));
}
return arr;
};
keyEvent = function(keysym, down) {
//Util.Debug(">> keyEvent, keysym: " + keysym + ", down: " + down);
var arr;
arr = [4]; // msg-type
arr.push8(down);
arr.push16(0);
arr.push32(keysym);
//Util.Debug("<< keyEvent");
return arr;
};
pointerEvent = function(x, y) {
//Util.Debug(">> pointerEvent, x,y: " + x + "," + y +
// " , mask: " + mouse_buttonMask);
var arr;
arr = [5]; // msg-type
arr.push8(mouse_buttonMask);
arr.push16(x);
arr.push16(y);
//Util.Debug("<< pointerEvent");
return arr;
};
clientCutText = function(text) {
//Util.Debug(">> clientCutText");
var arr, i, n;
arr = [6]; // msg-type
arr.push8(0); // padding
arr.push8(0); // padding
arr.push8(0); // padding
arr.push32(text.length);
n = text.length;
for (i=0; i < n; i+=1) {
arr.push(text.charCodeAt(i));
}
//Util.Debug("<< clientCutText:" + arr);
return arr;
};
//
// Public API interface functions
//
that.connect = function(host, port, password, path) {
//Util.Debug(">> connect");
rfb_host = host;
rfb_port = port;
rfb_password = (password !== undefined) ? password : "";
rfb_path = (path !== undefined) ? path : "";
if ((!rfb_host) || (!rfb_port)) {
return fail("Must set host and port");
}
updateState('connect');
//Util.Debug("<< connect");
};
that.disconnect = function() {
//Util.Debug(">> disconnect");
updateState('disconnect', 'Disconnecting');
//Util.Debug("<< disconnect");
};
that.sendPassword = function(passwd) {
rfb_password = passwd;
rfb_state = "Authentication";
setTimeout(init_msg, 1);
};
that.sendCtrlAltDel = function() {
if (rfb_state !== "normal" || conf.view_only) { return false; }
Util.Info("Sending Ctrl-Alt-Del");
var arr = [];
arr = arr.concat(keyEvent(0xFFE3, 1)); // Control
arr = arr.concat(keyEvent(0xFFE9, 1)); // Alt
arr = arr.concat(keyEvent(0xFFFF, 1)); // Delete
arr = arr.concat(keyEvent(0xFFFF, 0)); // Delete
arr = arr.concat(keyEvent(0xFFE9, 0)); // Alt
arr = arr.concat(keyEvent(0xFFE3, 0)); // Control
arr = arr.concat(fbUpdateRequests());
ws.send(arr);
};
// Send a key press. If 'down' is not specified then send a down key
// followed by an up key.
that.sendKey = function(code, down) {
if (rfb_state !== "normal" || conf.view_only) { return false; }
var arr = [];
if (typeof down !== 'undefined') {
Util.Info("Sending key code (" + (down ? "down" : "up") + "): " + code);
arr = arr.concat(keyEvent(code, down ? 1 : 0));
} else {
Util.Info("Sending key code (down + up): " + code);
arr = arr.concat(keyEvent(code, 1));
arr = arr.concat(keyEvent(code, 0));
}
arr = arr.concat(fbUpdateRequests());
ws.send(arr);
};
that.clipboardPasteFrom = function(text) {
if (rfb_state !== "normal") { return; }
//Util.Debug(">> clipboardPasteFrom: " + text.substr(0,40) + "...");
ws.send(clientCutText(text));
//Util.Debug("<< clipboardPasteFrom");
};
// Override internal functions for testing
that.testMode = function(override_send, data_mode) {
test_mode = true;
that.recv_message = ws.testMode(override_send, data_mode);
checkEvents = function () { /* Stub Out */ };
that.connect = function(host, port, password) {
rfb_host = host;
rfb_port = port;
rfb_password = password;
init_vars();
updateState('ProtocolVersion', "Starting VNC handshake");
};
};
return constructor(); // Return the public API interface
} // End of RFB()