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mayfly-go/mayfly_go_web/src/components/terminal-rdp/guac/guacamole-common.js
zongyangleo 582d879a77 !112 feat: 机器管理支持ssh+rdp连接win服务器 
* feat: rdp 文件管理
* feat: 机器管理支持ssh+rdp连接win服务器
2024-04-06 04:03:38 +00:00

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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
var Guacamole = {};
/**
* A reader which automatically handles the given input stream, returning
* strictly received packets as array buffers. Note that this object will
* overwrite any installed event handlers on the given Guacamole.InputStream.
*
* @constructor
* @param {!Guacamole.InputStream} stream
* The stream that data will be read from.
*/
Guacamole.ArrayBufferReader = function (stream) {
/**
* Reference to this Guacamole.InputStream.
* @private
*/
var guac_reader = this;
// Receive blobs as array buffers
stream.onblob = function (data) {
// Convert to ArrayBuffer
var binary = window.atob(data);
var arrayBuffer = new ArrayBuffer(binary.length);
var bufferView = new Uint8Array(arrayBuffer);
for (var i = 0; i < binary.length; i++) bufferView[i] = binary.charCodeAt(i);
// Call handler, if present
if (guac_reader.ondata) guac_reader.ondata(arrayBuffer);
};
// Simply call onend when end received
stream.onend = function () {
if (guac_reader.onend) guac_reader.onend();
};
/**
* Fired once for every blob of data received.
*
* @event
* @param {!ArrayBuffer} buffer
* The data packet received.
*/
this.ondata = null;
/**
* Fired once this stream is finished and no further data will be written.
* @event
*/
this.onend = null;
};
/**
* A writer which automatically writes to the given output stream with arbitrary
* binary data, supplied as ArrayBuffers.
*
* @constructor
* @param {!Guacamole.OutputStream} stream
* The stream that data will be written to.
*/
Guacamole.ArrayBufferWriter = function (stream) {
/**
* Reference to this Guacamole.StringWriter.
*
* @private
* @type {!Guacamole.ArrayBufferWriter}
*/
var guac_writer = this;
// Simply call onack for acknowledgements
stream.onack = function (status) {
if (guac_writer.onack) guac_writer.onack(status);
};
/**
* Encodes the given data as base64, sending it as a blob. The data must
* be small enough to fit into a single blob instruction.
*
* @private
* @param {!Uint8Array} bytes
* The data to send.
*/
function __send_blob(bytes) {
var binary = '';
// Produce binary string from bytes in buffer
for (var i = 0; i < bytes.byteLength; i++) binary += String.fromCharCode(bytes[i]);
// Send as base64
stream.sendBlob(window.btoa(binary));
}
/**
* The maximum length of any blob sent by this Guacamole.ArrayBufferWriter,
* in bytes. Data sent via
* [sendData()]{@link Guacamole.ArrayBufferWriter#sendData} which exceeds
* this length will be split into multiple blobs. As the Guacamole protocol
* limits the maximum size of any instruction or instruction element to
* 8192 bytes, and the contents of blobs will be base64-encoded, this value
* should only be increased with extreme caution.
*
* @type {!number}
* @default {@link Guacamole.ArrayBufferWriter.DEFAULT_BLOB_LENGTH}
*/
this.blobLength = Guacamole.ArrayBufferWriter.DEFAULT_BLOB_LENGTH;
/**
* Sends the given data.
*
* @param {!(ArrayBuffer|TypedArray)} data
* The data to send.
*/
this.sendData = function (data) {
var bytes = new Uint8Array(data);
// If small enough to fit into single instruction, send as-is
if (bytes.length <= guac_writer.blobLength) __send_blob(bytes);
// Otherwise, send as multiple instructions
else {
for (var offset = 0; offset < bytes.length; offset += guac_writer.blobLength) __send_blob(bytes.subarray(offset, offset + guac_writer.blobLength));
}
};
/**
* Signals that no further text will be sent, effectively closing the
* stream.
*/
this.sendEnd = function () {
stream.sendEnd();
};
/**
* Fired for received data, if acknowledged by the server.
* @event
* @param {!Guacamole.Status} status
* The status of the operation.
*/
this.onack = null;
};
/**
* The default maximum blob length for new Guacamole.ArrayBufferWriter
* instances.
*
* @constant
* @type {!number}
*/
Guacamole.ArrayBufferWriter.DEFAULT_BLOB_LENGTH = 6048;
/**
* Maintains a singleton instance of the Web Audio API AudioContext class,
* instantiating the AudioContext only in response to the first call to
* getAudioContext(), and only if no existing AudioContext instance has been
* provided via the singleton property. Subsequent calls to getAudioContext()
* will return the same instance.
*
* @namespace
*/
Guacamole.AudioContextFactory = {
/**
* A singleton instance of a Web Audio API AudioContext object, or null if
* no instance has yes been created. This property may be manually set if
* you wish to supply your own AudioContext instance, but care must be
* taken to do so as early as possible. Assignments to this property will
* not retroactively affect the value returned by previous calls to
* getAudioContext().
*
* @type {AudioContext}
*/
singleton: null,
/**
* Returns a singleton instance of a Web Audio API AudioContext object.
*
* @return {AudioContext}
* A singleton instance of a Web Audio API AudioContext object, or null
* if the Web Audio API is not supported.
*/
getAudioContext: function getAudioContext() {
// Fallback to Webkit-specific AudioContext implementation
var AudioContext = window.AudioContext || window.webkitAudioContext;
// Get new AudioContext instance if Web Audio API is supported
if (AudioContext) {
try {
// Create new instance if none yet exists
if (!Guacamole.AudioContextFactory.singleton) Guacamole.AudioContextFactory.singleton = new AudioContext();
// Return singleton instance
return Guacamole.AudioContextFactory.singleton;
} catch (e) {
// Do not use Web Audio API if not allowed by browser
}
}
// Web Audio API not supported
return null;
},
};
/**
* Abstract audio player which accepts, queues and plays back arbitrary audio
* data. It is up to implementations of this class to provide some means of
* handling a provided Guacamole.InputStream. Data received along the provided
* stream is to be played back immediately.
*
* @constructor
*/
Guacamole.AudioPlayer = function AudioPlayer() {
/**
* Notifies this Guacamole.AudioPlayer that all audio up to the current
* point in time has been given via the underlying stream, and that any
* difference in time between queued audio data and the current time can be
* considered latency.
*/
this.sync = function sync() {
// Default implementation - do nothing
};
};
/**
* Determines whether the given mimetype is supported by any built-in
* implementation of Guacamole.AudioPlayer, and thus will be properly handled
* by Guacamole.AudioPlayer.getInstance().
*
* @param {!string} mimetype
* The mimetype to check.
*
* @returns {!boolean}
* true if the given mimetype is supported by any built-in
* Guacamole.AudioPlayer, false otherwise.
*/
Guacamole.AudioPlayer.isSupportedType = function isSupportedType(mimetype) {
return Guacamole.RawAudioPlayer.isSupportedType(mimetype);
};
/**
* Returns a list of all mimetypes supported by any built-in
* Guacamole.AudioPlayer, in rough order of priority. Beware that only the core
* mimetypes themselves will be listed. Any mimetype parameters, even required
* ones, will not be included in the list. For example, "audio/L8" is a
* supported raw audio mimetype that is supported, but it is invalid without
* additional parameters. Something like "audio/L8;rate=44100" would be valid,
* however (see https://tools.ietf.org/html/rfc4856).
*
* @returns {!string[]}
* A list of all mimetypes supported by any built-in Guacamole.AudioPlayer,
* excluding any parameters.
*/
Guacamole.AudioPlayer.getSupportedTypes = function getSupportedTypes() {
return Guacamole.RawAudioPlayer.getSupportedTypes();
};
/**
* Returns an instance of Guacamole.AudioPlayer providing support for the given
* audio format. If support for the given audio format is not available, null
* is returned.
*
* @param {!Guacamole.InputStream} stream
* The Guacamole.InputStream to read audio data from.
*
* @param {!string} mimetype
* The mimetype of the audio data in the provided stream.
*
* @return {Guacamole.AudioPlayer}
* A Guacamole.AudioPlayer instance supporting the given mimetype and
* reading from the given stream, or null if support for the given mimetype
* is absent.
*/
Guacamole.AudioPlayer.getInstance = function getInstance(stream, mimetype) {
// Use raw audio player if possible
if (Guacamole.RawAudioPlayer.isSupportedType(mimetype)) return new Guacamole.RawAudioPlayer(stream, mimetype);
// No support for given mimetype
return null;
};
/**
* Implementation of Guacamole.AudioPlayer providing support for raw PCM format
* audio. This player relies only on the Web Audio API and does not require any
* browser-level support for its audio formats.
*
* @constructor
* @augments Guacamole.AudioPlayer
* @param {!Guacamole.InputStream} stream
* The Guacamole.InputStream to read audio data from.
*
* @param {!string} mimetype
* The mimetype of the audio data in the provided stream, which must be a
* "audio/L8" or "audio/L16" mimetype with necessary parameters, such as:
* "audio/L16;rate=44100,channels=2".
*/
Guacamole.RawAudioPlayer = function RawAudioPlayer(stream, mimetype) {
/**
* The format of audio this player will decode.
*
* @private
* @type {Guacamole.RawAudioFormat}
*/
var format = Guacamole.RawAudioFormat.parse(mimetype);
/**
* An instance of a Web Audio API AudioContext object, or null if the
* Web Audio API is not supported.
*
* @private
* @type {AudioContext}
*/
var context = Guacamole.AudioContextFactory.getAudioContext();
/**
* The earliest possible time that the next packet could play without
* overlapping an already-playing packet, in seconds. Note that while this
* value is in seconds, it is not an integer value and has microsecond
* resolution.
*
* @private
* @type {!number}
*/
var nextPacketTime = context.currentTime;
/**
* Guacamole.ArrayBufferReader wrapped around the audio input stream
* provided with this Guacamole.RawAudioPlayer was created.
*
* @private
* @type {!Guacamole.ArrayBufferReader}
*/
var reader = new Guacamole.ArrayBufferReader(stream);
/**
* The minimum size of an audio packet split by splitAudioPacket(), in
* seconds. Audio packets smaller than this will not be split, nor will the
* split result of a larger packet ever be smaller in size than this
* minimum.
*
* @private
* @constant
* @type {!number}
*/
var MIN_SPLIT_SIZE = 0.02;
/**
* The maximum amount of latency to allow between the buffered data stream
* and the playback position, in seconds. Initially, this is set to
* roughly one third of a second.
*
* @private
* @type {!number}
*/
var maxLatency = 0.3;
/**
* The type of typed array that will be used to represent each audio packet
* internally. This will be either Int8Array or Int16Array, depending on
* whether the raw audio format is 8-bit or 16-bit.
*
* @private
* @constructor
*/
var SampleArray = format.bytesPerSample === 1 ? window.Int8Array : window.Int16Array;
/**
* The maximum absolute value of any sample within a raw audio packet
* received by this audio player. This depends only on the size of each
* sample, and will be 128 for 8-bit audio and 32768 for 16-bit audio.
*
* @private
* @type {!number}
*/
var maxSampleValue = format.bytesPerSample === 1 ? 128 : 32768;
/**
* The queue of all pending audio packets, as an array of sample arrays.
* Audio packets which are pending playback will be added to this queue for
* further manipulation prior to scheduling via the Web Audio API. Once an
* audio packet leaves this queue and is scheduled via the Web Audio API,
* no further modifications can be made to that packet.
*
* @private
* @type {!SampleArray[]}
*/
var packetQueue = [];
/**
* Given an array of audio packets, returns a single audio packet
* containing the concatenation of those packets.
*
* @private
* @param {!SampleArray[]} packets
* The array of audio packets to concatenate.
*
* @returns {SampleArray}
* A single audio packet containing the concatenation of all given
* audio packets. If no packets are provided, this will be undefined.
*/
var joinAudioPackets = function joinAudioPackets(packets) {
// Do not bother joining if one or fewer packets are in the queue
if (packets.length <= 1) return packets[0];
// Determine total sample length of the entire queue
var totalLength = 0;
packets.forEach(function addPacketLengths(packet) {
totalLength += packet.length;
});
// Append each packet within queue
var offset = 0;
var joined = new SampleArray(totalLength);
packets.forEach(function appendPacket(packet) {
joined.set(packet, offset);
offset += packet.length;
});
return joined;
};
/**
* Given a single packet of audio data, splits off an arbitrary length of
* audio data from the beginning of that packet, returning the split result
* as an array of two packets. The split location is determined through an
* algorithm intended to minimize the liklihood of audible clicking between
* packets. If no such split location is possible, an array containing only
* the originally-provided audio packet is returned.
*
* @private
* @param {!SampleArray} data
* The audio packet to split.
*
* @returns {!SampleArray[]}
* An array of audio packets containing the result of splitting the
* provided audio packet. If splitting is possible, this array will
* contain two packets. If splitting is not possible, this array will
* contain only the originally-provided packet.
*/
var splitAudioPacket = function splitAudioPacket(data) {
var minValue = Number.MAX_VALUE;
var optimalSplitLength = data.length;
// Calculate number of whole samples in the provided audio packet AND
// in the minimum possible split packet
var samples = Math.floor(data.length / format.channels);
var minSplitSamples = Math.floor(format.rate * MIN_SPLIT_SIZE);
// Calculate the beginning of the "end" of the audio packet
var start = Math.max(format.channels * minSplitSamples, format.channels * (samples - minSplitSamples));
// For all samples at the end of the given packet, find a point where
// the perceptible volume across all channels is lowest (and thus is
// the optimal point to split)
for (var offset = start; offset < data.length; offset += format.channels) {
// Calculate the sum of all values across all channels (the result
// will be proportional to the average volume of a sample)
var totalValue = 0;
for (var channel = 0; channel < format.channels; channel++) {
totalValue += Math.abs(data[offset + channel]);
}
// If this is the smallest average value thus far, set the split
// length such that the first packet ends with the current sample
if (totalValue <= minValue) {
optimalSplitLength = offset + format.channels;
minValue = totalValue;
}
}
// If packet is not split, return the supplied packet untouched
if (optimalSplitLength === data.length) return [data];
// Otherwise, split the packet into two new packets according to the
// calculated optimal split length
return [
new SampleArray(data.buffer.slice(0, optimalSplitLength * format.bytesPerSample)),
new SampleArray(data.buffer.slice(optimalSplitLength * format.bytesPerSample)),
];
};
/**
* Pushes the given packet of audio data onto the playback queue. Unlike
* other private functions within Guacamole.RawAudioPlayer, the type of the
* ArrayBuffer packet of audio data here need not be specific to the type
* of audio (as with SampleArray). The ArrayBuffer type provided by a
* Guacamole.ArrayBufferReader, for example, is sufficient. Any necessary
* conversions will be performed automatically internally.
*
* @private
* @param {!ArrayBuffer} data
* A raw packet of audio data that should be pushed onto the audio
* playback queue.
*/
var pushAudioPacket = function pushAudioPacket(data) {
packetQueue.push(new SampleArray(data));
};
/**
* Shifts off and returns a packet of audio data from the beginning of the
* playback queue. The length of this audio packet is determined
* dynamically according to the click-reduction algorithm implemented by
* splitAudioPacket().
*
* @private
* @returns {SampleArray}
* A packet of audio data pulled from the beginning of the playback
* queue. If there is no audio currently in the playback queue, this
* will be null.
*/
var shiftAudioPacket = function shiftAudioPacket() {
// Flatten data in packet queue
var data = joinAudioPackets(packetQueue);
if (!data) return null;
// Pull an appropriate amount of data from the front of the queue
packetQueue = splitAudioPacket(data);
data = packetQueue.shift();
return data;
};
/**
* Converts the given audio packet into an AudioBuffer, ready for playback
* by the Web Audio API. Unlike the raw audio packets received by this
* audio player, AudioBuffers require floating point samples and are split
* into isolated planes of channel-specific data.
*
* @private
* @param {!SampleArray} data
* The raw audio packet that should be converted into a Web Audio API
* AudioBuffer.
*
* @returns {!AudioBuffer}
* A new Web Audio API AudioBuffer containing the provided audio data,
* converted to the format used by the Web Audio API.
*/
var toAudioBuffer = function toAudioBuffer(data) {
// Calculate total number of samples
var samples = data.length / format.channels;
// Determine exactly when packet CAN play
var packetTime = context.currentTime;
if (nextPacketTime < packetTime) nextPacketTime = packetTime;
// Get audio buffer for specified format
var audioBuffer = context.createBuffer(format.channels, samples, format.rate);
// Convert each channel
for (var channel = 0; channel < format.channels; channel++) {
var audioData = audioBuffer.getChannelData(channel);
// Fill audio buffer with data for channel
var offset = channel;
for (var i = 0; i < samples; i++) {
audioData[i] = data[offset] / maxSampleValue;
offset += format.channels;
}
}
return audioBuffer;
};
// Defer playback of received audio packets slightly
reader.ondata = function playReceivedAudio(data) {
// Push received samples onto queue
pushAudioPacket(new SampleArray(data));
// Shift off an arbitrary packet of audio data from the queue (this may
// be different in size from the packet just pushed)
var packet = shiftAudioPacket();
if (!packet) return;
// Determine exactly when packet CAN play
var packetTime = context.currentTime;
if (nextPacketTime < packetTime) nextPacketTime = packetTime;
// Set up buffer source
var source = context.createBufferSource();
source.connect(context.destination);
// Use noteOn() instead of start() if necessary
if (!source.start) source.start = source.noteOn;
// Schedule packet
source.buffer = toAudioBuffer(packet);
source.start(nextPacketTime);
// Update timeline by duration of scheduled packet
nextPacketTime += packet.length / format.channels / format.rate;
};
/** @override */
this.sync = function sync() {
// Calculate elapsed time since last sync
var now = context.currentTime;
// Reschedule future playback time such that playback latency is
// bounded within a reasonable latency threshold
nextPacketTime = Math.min(nextPacketTime, now + maxLatency);
};
};
Guacamole.RawAudioPlayer.prototype = new Guacamole.AudioPlayer();
/**
* Determines whether the given mimetype is supported by
* Guacamole.RawAudioPlayer.
*
* @param {!string} mimetype
* The mimetype to check.
*
* @returns {!boolean}
* true if the given mimetype is supported by Guacamole.RawAudioPlayer,
* false otherwise.
*/
Guacamole.RawAudioPlayer.isSupportedType = function isSupportedType(mimetype) {
// No supported types if no Web Audio API
if (!Guacamole.AudioContextFactory.getAudioContext()) return false;
return Guacamole.RawAudioFormat.parse(mimetype) !== null;
};
/**
* Returns a list of all mimetypes supported by Guacamole.RawAudioPlayer. Only
* the core mimetypes themselves will be listed. Any mimetype parameters, even
* required ones, will not be included in the list. For example, "audio/L8" is
* a raw audio mimetype that may be supported, but it is invalid without
* additional parameters. Something like "audio/L8;rate=44100" would be valid,
* however (see https://tools.ietf.org/html/rfc4856).
*
* @returns {!string[]}
* A list of all mimetypes supported by Guacamole.RawAudioPlayer, excluding
* any parameters. If the necessary JavaScript APIs for playing raw audio
* are absent, this list will be empty.
*/
Guacamole.RawAudioPlayer.getSupportedTypes = function getSupportedTypes() {
// No supported types if no Web Audio API
if (!Guacamole.AudioContextFactory.getAudioContext()) return [];
// We support 8-bit and 16-bit raw PCM
return ['audio/L8', 'audio/L16'];
};
/**
* Abstract audio recorder which streams arbitrary audio data to an underlying
* Guacamole.OutputStream. It is up to implementations of this class to provide
* some means of handling this Guacamole.OutputStream. Data produced by the
* recorder is to be sent along the provided stream immediately.
*
* @constructor
*/
Guacamole.AudioRecorder = function AudioRecorder() {
/**
* Callback which is invoked when the audio recording process has stopped
* and the underlying Guacamole stream has been closed normally. Audio will
* only resume recording if a new Guacamole.AudioRecorder is started. This
* Guacamole.AudioRecorder instance MAY NOT be reused.
*
* @event
*/
this.onclose = null;
/**
* Callback which is invoked when the audio recording process cannot
* continue due to an error, if it has started at all. The underlying
* Guacamole stream is automatically closed. Future attempts to record
* audio should not be made, and this Guacamole.AudioRecorder instance
* MAY NOT be reused.
*
* @event
*/
this.onerror = null;
};
/**
* Determines whether the given mimetype is supported by any built-in
* implementation of Guacamole.AudioRecorder, and thus will be properly handled
* by Guacamole.AudioRecorder.getInstance().
*
* @param {!string} mimetype
* The mimetype to check.
*
* @returns {!boolean}
* true if the given mimetype is supported by any built-in
* Guacamole.AudioRecorder, false otherwise.
*/
Guacamole.AudioRecorder.isSupportedType = function isSupportedType(mimetype) {
return Guacamole.RawAudioRecorder.isSupportedType(mimetype);
};
/**
* Returns a list of all mimetypes supported by any built-in
* Guacamole.AudioRecorder, in rough order of priority. Beware that only the
* core mimetypes themselves will be listed. Any mimetype parameters, even
* required ones, will not be included in the list. For example, "audio/L8" is
* a supported raw audio mimetype that is supported, but it is invalid without
* additional parameters. Something like "audio/L8;rate=44100" would be valid,
* however (see https://tools.ietf.org/html/rfc4856).
*
* @returns {!string[]}
* A list of all mimetypes supported by any built-in
* Guacamole.AudioRecorder, excluding any parameters.
*/
Guacamole.AudioRecorder.getSupportedTypes = function getSupportedTypes() {
return Guacamole.RawAudioRecorder.getSupportedTypes();
};
/**
* Returns an instance of Guacamole.AudioRecorder providing support for the
* given audio format. If support for the given audio format is not available,
* null is returned.
*
* @param {!Guacamole.OutputStream} stream
* The Guacamole.OutputStream to send audio data through.
*
* @param {!string} mimetype
* The mimetype of the audio data to be sent along the provided stream.
*
* @return {Guacamole.AudioRecorder}
* A Guacamole.AudioRecorder instance supporting the given mimetype and
* writing to the given stream, or null if support for the given mimetype
* is absent.
*/
Guacamole.AudioRecorder.getInstance = function getInstance(stream, mimetype) {
// Use raw audio recorder if possible
if (Guacamole.RawAudioRecorder.isSupportedType(mimetype)) return new Guacamole.RawAudioRecorder(stream, mimetype);
// No support for given mimetype
return null;
};
/**
* Implementation of Guacamole.AudioRecorder providing support for raw PCM
* format audio. This recorder relies only on the Web Audio API and does not
* require any browser-level support for its audio formats.
*
* @constructor
* @augments Guacamole.AudioRecorder
* @param {!Guacamole.OutputStream} stream
* The Guacamole.OutputStream to write audio data to.
*
* @param {!string} mimetype
* The mimetype of the audio data to send along the provided stream, which
* must be a "audio/L8" or "audio/L16" mimetype with necessary parameters,
* such as: "audio/L16;rate=44100,channels=2".
*/
Guacamole.RawAudioRecorder = function RawAudioRecorder(stream, mimetype) {
/**
* Reference to this RawAudioRecorder.
*
* @private
* @type {!Guacamole.RawAudioRecorder}
*/
var recorder = this;
/**
* The size of audio buffer to request from the Web Audio API when
* recording or processing audio, in sample-frames. This must be a power of
* two between 256 and 16384 inclusive, as required by
* AudioContext.createScriptProcessor().
*
* @private
* @constant
* @type {!number}
*/
var BUFFER_SIZE = 2048;
/**
* The window size to use when applying Lanczos interpolation, commonly
* denoted by the variable "a".
* See: https://en.wikipedia.org/wiki/Lanczos_resampling
*
* @private
* @contant
* @type {!number}
*/
var LANCZOS_WINDOW_SIZE = 3;
/**
* The format of audio this recorder will encode.
*
* @private
* @type {Guacamole.RawAudioFormat}
*/
var format = Guacamole.RawAudioFormat.parse(mimetype);
/**
* An instance of a Web Audio API AudioContext object, or null if the
* Web Audio API is not supported.
*
* @private
* @type {AudioContext}
*/
var context = Guacamole.AudioContextFactory.getAudioContext();
// Some browsers do not implement navigator.mediaDevices - this
// shims in this functionality to ensure code compatibility.
if (!navigator.mediaDevices) navigator.mediaDevices = {};
// Browsers that either do not implement navigator.mediaDevices
// at all or do not implement it completely need the getUserMedia
// method defined. This shims in this function by detecting
// one of the supported legacy methods.
if (!navigator.mediaDevices.getUserMedia)
navigator.mediaDevices.getUserMedia = (
navigator.getUserMedia ||
navigator.webkitGetUserMedia ||
navigator.mozGetUserMedia ||
navigator.msGetUserMedia
).bind(navigator);
/**
* Guacamole.ArrayBufferWriter wrapped around the audio output stream
* provided when this Guacamole.RawAudioRecorder was created.
*
* @private
* @type {!Guacamole.ArrayBufferWriter}
*/
var writer = new Guacamole.ArrayBufferWriter(stream);
/**
* The type of typed array that will be used to represent each audio packet
* internally. This will be either Int8Array or Int16Array, depending on
* whether the raw audio format is 8-bit or 16-bit.
*
* @private
* @constructor
*/
var SampleArray = format.bytesPerSample === 1 ? window.Int8Array : window.Int16Array;
/**
* The maximum absolute value of any sample within a raw audio packet sent
* by this audio recorder. This depends only on the size of each sample,
* and will be 128 for 8-bit audio and 32768 for 16-bit audio.
*
* @private
* @type {!number}
*/
var maxSampleValue = format.bytesPerSample === 1 ? 128 : 32768;
/**
* The total number of audio samples read from the local audio input device
* over the life of this audio recorder.
*
* @private
* @type {!number}
*/
var readSamples = 0;
/**
* The total number of audio samples written to the underlying Guacamole
* connection over the life of this audio recorder.
*
* @private
* @type {!number}
*/
var writtenSamples = 0;
/**
* The audio stream provided by the browser, if allowed. If no stream has
* yet been received, this will be null.
*
* @private
* @type {MediaStream}
*/
var mediaStream = null;
/**
* The source node providing access to the local audio input device.
*
* @private
* @type {MediaStreamAudioSourceNode}
*/
var source = null;
/**
* The script processing node which receives audio input from the media
* stream source node as individual audio buffers.
*
* @private
* @type {ScriptProcessorNode}
*/
var processor = null;
/**
* The normalized sinc function. The normalized sinc function is defined as
* 1 for x=0 and sin(PI * x) / (PI * x) for all other values of x.
*
* See: https://en.wikipedia.org/wiki/Sinc_function
*
* @private
* @param {!number} x
* The point at which the normalized sinc function should be computed.
*
* @returns {!number}
* The value of the normalized sinc function at x.
*/
var sinc = function sinc(x) {
// The value of sinc(0) is defined as 1
if (x === 0) return 1;
// Otherwise, normlized sinc(x) is sin(PI * x) / (PI * x)
var piX = Math.PI * x;
return Math.sin(piX) / piX;
};
/**
* Calculates the value of the Lanczos kernal at point x for a given window
* size. See: https://en.wikipedia.org/wiki/Lanczos_resampling
*
* @private
* @param {!number} x
* The point at which the value of the Lanczos kernel should be
* computed.
*
* @param {!number} a
* The window size to use for the Lanczos kernel.
*
* @returns {!number}
* The value of the Lanczos kernel at the given point for the given
* window size.
*/
var lanczos = function lanczos(x, a) {
// Lanczos is sinc(x) * sinc(x / a) for -a < x < a ...
if (-a < x && x < a) return sinc(x) * sinc(x / a);
// ... and 0 otherwise
return 0;
};
/**
* Determines the value of the waveform represented by the audio data at
* the given location. If the value cannot be determined exactly as it does
* not correspond to an exact sample within the audio data, the value will
* be derived through interpolating nearby samples.
*
* @private
* @param {!Float32Array} audioData
* An array of audio data, as returned by AudioBuffer.getChannelData().
*
* @param {!number} t
* The relative location within the waveform from which the value
* should be retrieved, represented as a floating point number between
* 0 and 1 inclusive, where 0 represents the earliest point in time and
* 1 represents the latest.
*
* @returns {!number}
* The value of the waveform at the given location.
*/
var interpolateSample = function getValueAt(audioData, t) {
// Convert [0, 1] range to [0, audioData.length - 1]
var index = (audioData.length - 1) * t;
// Determine the start and end points for the summation used by the
// Lanczos interpolation algorithm (see: https://en.wikipedia.org/wiki/Lanczos_resampling)
var start = Math.floor(index) - LANCZOS_WINDOW_SIZE + 1;
var end = Math.floor(index) + LANCZOS_WINDOW_SIZE;
// Calculate the value of the Lanczos interpolation function for the
// required range
var sum = 0;
for (var i = start; i <= end; i++) {
sum += (audioData[i] || 0) * lanczos(index - i, LANCZOS_WINDOW_SIZE);
}
return sum;
};
/**
* Converts the given AudioBuffer into an audio packet, ready for streaming
* along the underlying output stream. Unlike the raw audio packets used by
* this audio recorder, AudioBuffers require floating point samples and are
* split into isolated planes of channel-specific data.
*
* @private
* @param {!AudioBuffer} audioBuffer
* The Web Audio API AudioBuffer that should be converted to a raw
* audio packet.
*
* @returns {!SampleArray}
* A new raw audio packet containing the audio data from the provided
* AudioBuffer.
*/
var toSampleArray = function toSampleArray(audioBuffer) {
// Track overall amount of data read
var inSamples = audioBuffer.length;
readSamples += inSamples;
// Calculate the total number of samples that should be written as of
// the audio data just received and adjust the size of the output
// packet accordingly
var expectedWrittenSamples = Math.round((readSamples * format.rate) / audioBuffer.sampleRate);
var outSamples = expectedWrittenSamples - writtenSamples;
// Update number of samples written
writtenSamples += outSamples;
// Get array for raw PCM storage
var data = new SampleArray(outSamples * format.channels);
// Convert each channel
for (var channel = 0; channel < format.channels; channel++) {
var audioData = audioBuffer.getChannelData(channel);
// Fill array with data from audio buffer channel
var offset = channel;
for (var i = 0; i < outSamples; i++) {
data[offset] = interpolateSample(audioData, i / (outSamples - 1)) * maxSampleValue;
offset += format.channels;
}
}
return data;
};
/**
* getUserMedia() callback which handles successful retrieval of an
* audio stream (successful start of recording).
*
* @private
* @param {!MediaStream} stream
* A MediaStream which provides access to audio data read from the
* user's local audio input device.
*/
var streamReceived = function streamReceived(stream) {
// Create processing node which receives appropriately-sized audio buffers
processor = context.createScriptProcessor(BUFFER_SIZE, format.channels, format.channels);
processor.connect(context.destination);
// Send blobs when audio buffers are received
processor.onaudioprocess = function processAudio(e) {
writer.sendData(toSampleArray(e.inputBuffer).buffer);
};
// Connect processing node to user's audio input source
source = context.createMediaStreamSource(stream);
source.connect(processor);
// Attempt to explicitly resume AudioContext, as it may be paused
// by default
if (context.state === 'suspended') context.resume();
// Save stream for later cleanup
mediaStream = stream;
};
/**
* getUserMedia() callback which handles audio recording denial. The
* underlying Guacamole output stream is closed, and the failure to
* record is noted using onerror.
*
* @private
*/
var streamDenied = function streamDenied() {
// Simply end stream if audio access is not allowed
writer.sendEnd();
// Notify of closure
if (recorder.onerror) recorder.onerror();
};
/**
* Requests access to the user's microphone and begins capturing audio. All
* received audio data is resampled as necessary and forwarded to the
* Guacamole stream underlying this Guacamole.RawAudioRecorder. This
* function must be invoked ONLY ONCE per instance of
* Guacamole.RawAudioRecorder.
*
* @private
*/
var beginAudioCapture = function beginAudioCapture() {
// Attempt to retrieve an audio input stream from the browser
var promise = navigator.mediaDevices.getUserMedia(
{
audio: true,
},
streamReceived,
streamDenied
);
// Handle stream creation/rejection via Promise for newer versions of
// getUserMedia()
if (promise && promise.then) promise.then(streamReceived, streamDenied);
};
/**
* Stops capturing audio, if the capture has started, freeing all associated
* resources. If the capture has not started, this function simply ends the
* underlying Guacamole stream.
*
* @private
*/
var stopAudioCapture = function stopAudioCapture() {
// Disconnect media source node from script processor
if (source) source.disconnect();
// Disconnect associated script processor node
if (processor) processor.disconnect();
// Stop capture
if (mediaStream) {
var tracks = mediaStream.getTracks();
for (var i = 0; i < tracks.length; i++) tracks[i].stop();
}
// Remove references to now-unneeded components
processor = null;
source = null;
mediaStream = null;
// End stream
writer.sendEnd();
};
// Once audio stream is successfully open, request and begin reading audio
writer.onack = function audioStreamAcknowledged(status) {
// Begin capture if successful response and not yet started
if (status.code === Guacamole.Status.Code.SUCCESS && !mediaStream) beginAudioCapture();
// Otherwise stop capture and cease handling any further acks
else {
// Stop capturing audio
stopAudioCapture();
writer.onack = null;
// Notify if stream has closed normally
if (status.code === Guacamole.Status.Code.RESOURCE_CLOSED) {
if (recorder.onclose) recorder.onclose();
}
// Otherwise notify of closure due to error
else {
if (recorder.onerror) recorder.onerror();
}
}
};
};
Guacamole.RawAudioRecorder.prototype = new Guacamole.AudioRecorder();
/**
* Determines whether the given mimetype is supported by
* Guacamole.RawAudioRecorder.
*
* @param {!string} mimetype
* The mimetype to check.
*
* @returns {!boolean}
* true if the given mimetype is supported by Guacamole.RawAudioRecorder,
* false otherwise.
*/
Guacamole.RawAudioRecorder.isSupportedType = function isSupportedType(mimetype) {
// No supported types if no Web Audio API
if (!Guacamole.AudioContextFactory.getAudioContext()) return false;
return Guacamole.RawAudioFormat.parse(mimetype) !== null;
};
/**
* Returns a list of all mimetypes supported by Guacamole.RawAudioRecorder. Only
* the core mimetypes themselves will be listed. Any mimetype parameters, even
* required ones, will not be included in the list. For example, "audio/L8" is
* a raw audio mimetype that may be supported, but it is invalid without
* additional parameters. Something like "audio/L8;rate=44100" would be valid,
* however (see https://tools.ietf.org/html/rfc4856).
*
* @returns {!string[]}
* A list of all mimetypes supported by Guacamole.RawAudioRecorder,
* excluding any parameters. If the necessary JavaScript APIs for recording
* raw audio are absent, this list will be empty.
*/
Guacamole.RawAudioRecorder.getSupportedTypes = function getSupportedTypes() {
// No supported types if no Web Audio API
if (!Guacamole.AudioContextFactory.getAudioContext()) return [];
// We support 8-bit and 16-bit raw PCM
return ['audio/L8', 'audio/L16'];
};
/**
* A reader which automatically handles the given input stream, assembling all
* received blobs into a single blob by appending them to each other in order.
* Note that this object will overwrite any installed event handlers on the
* given Guacamole.InputStream.
*
* @constructor
* @param {!Guacamole.InputStream} stream
* The stream that data will be read from.
*
* @param {!string} mimetype
* The mimetype of the blob being built.
*/
Guacamole.BlobReader = function (stream, mimetype) {
/**
* Reference to this Guacamole.InputStream.
*
* @private
* @type {!Guacamole.BlobReader}
*/
var guac_reader = this;
/**
* The length of this Guacamole.InputStream in bytes.
*
* @private
* @type {!number}
*/
var length = 0;
// Get blob builder
var blob_builder;
if (window.BlobBuilder) blob_builder = new BlobBuilder();
else if (window.WebKitBlobBuilder) blob_builder = new WebKitBlobBuilder();
else if (window.MozBlobBuilder) blob_builder = new MozBlobBuilder();
else
blob_builder = new (function () {
var blobs = [];
/** @ignore */
this.append = function (data) {
blobs.push(new Blob([data], { type: mimetype }));
};
/** @ignore */
this.getBlob = function () {
return new Blob(blobs, { type: mimetype });
};
})();
// Append received blobs
stream.onblob = function (data) {
// Convert to ArrayBuffer
var binary = window.atob(data);
var arrayBuffer = new ArrayBuffer(binary.length);
var bufferView = new Uint8Array(arrayBuffer);
for (var i = 0; i < binary.length; i++) bufferView[i] = binary.charCodeAt(i);
blob_builder.append(arrayBuffer);
length += arrayBuffer.byteLength;
// Call handler, if present
if (guac_reader.onprogress) guac_reader.onprogress(arrayBuffer.byteLength);
// Send success response
stream.sendAck('OK', 0x0000);
};
// Simply call onend when end received
stream.onend = function () {
if (guac_reader.onend) guac_reader.onend();
};
/**
* Returns the current length of this Guacamole.InputStream, in bytes.
*
* @return {!number}
* The current length of this Guacamole.InputStream.
*/
this.getLength = function () {
return length;
};
/**
* Returns the contents of this Guacamole.BlobReader as a Blob.
*
* @return {!Blob}
* The contents of this Guacamole.BlobReader.
*/
this.getBlob = function () {
return blob_builder.getBlob();
};
/**
* Fired once for every blob of data received.
*
* @event
* @param {!number} length
* The number of bytes received.
*/
this.onprogress = null;
/**
* Fired once this stream is finished and no further data will be written.
* @event
*/
this.onend = null;
};
/**
* A writer which automatically writes to the given output stream with the
* contents of provided Blob objects.
*
* @constructor
* @param {!Guacamole.OutputStream} stream
* The stream that data will be written to.
*/
Guacamole.BlobWriter = function BlobWriter(stream) {
/**
* Reference to this Guacamole.BlobWriter.
*
* @private
* @type {!Guacamole.BlobWriter}
*/
var guacWriter = this;
/**
* Wrapped Guacamole.ArrayBufferWriter which will be used to send any
* provided file data.
*
* @private
* @type {!Guacamole.ArrayBufferWriter}
*/
var arrayBufferWriter = new Guacamole.ArrayBufferWriter(stream);
// Initially, simply call onack for acknowledgements
arrayBufferWriter.onack = function (status) {
if (guacWriter.onack) guacWriter.onack(status);
};
/**
* Browser-independent implementation of Blob.slice() which uses an end
* offset to determine the span of the resulting slice, rather than a
* length.
*
* @private
* @param {!Blob} blob
* The Blob to slice.
*
* @param {!number} start
* The starting offset of the slice, in bytes, inclusive.
*
* @param {!number} end
* The ending offset of the slice, in bytes, exclusive.
*
* @returns {!Blob}
* A Blob containing the data within the given Blob starting at
* <code>start</code> and ending at <code>end - 1</code>.
*/
var slice = function slice(blob, start, end) {
// Use prefixed implementations if necessary
var sliceImplementation = (blob.slice || blob.webkitSlice || blob.mozSlice).bind(blob);
var length = end - start;
// The old Blob.slice() was length-based (not end-based). Try the
// length version first, if the two calls are not equivalent.
if (length !== end) {
// If the result of the slice() call matches the expected length,
// trust that result. It must be correct.
var sliceResult = sliceImplementation(start, length);
if (sliceResult.size === length) return sliceResult;
}
// Otherwise, use the most-recent standard: end-based slice()
return sliceImplementation(start, end);
};
/**
* Sends the contents of the given blob over the underlying stream.
*
* @param {!Blob} blob
* The blob to send.
*/
this.sendBlob = function sendBlob(blob) {
var offset = 0;
var reader = new FileReader();
/**
* Reads the next chunk of the blob provided to
* [sendBlob()]{@link Guacamole.BlobWriter#sendBlob}. The chunk itself
* is read asynchronously, and will not be available until
* reader.onload fires.
*
* @private
*/
var readNextChunk = function readNextChunk() {
// If no further chunks remain, inform of completion and stop
if (offset >= blob.size) {
// Fire completion event for completed blob
if (guacWriter.oncomplete) guacWriter.oncomplete(blob);
// No further chunks to read
return;
}
// Obtain reference to next chunk as a new blob
var chunk = slice(blob, offset, offset + arrayBufferWriter.blobLength);
offset += arrayBufferWriter.blobLength;
// Attempt to read the blob contents represented by the blob into
// a new array buffer
reader.readAsArrayBuffer(chunk);
};
// Send each chunk over the stream, continue reading the next chunk
reader.onload = function chunkLoadComplete() {
// Send the successfully-read chunk
arrayBufferWriter.sendData(reader.result);
// Continue sending more chunks after the latest chunk is
// acknowledged
arrayBufferWriter.onack = function sendMoreChunks(status) {
if (guacWriter.onack) guacWriter.onack(status);
// Abort transfer if an error occurs
if (status.isError()) return;
// Inform of blob upload progress via progress events
if (guacWriter.onprogress) guacWriter.onprogress(blob, offset - arrayBufferWriter.blobLength);
// Queue the next chunk for reading
readNextChunk();
};
};
// If an error prevents further reading, inform of error and stop
reader.onerror = function chunkLoadFailed() {
// Fire error event, including the context of the error
if (guacWriter.onerror) guacWriter.onerror(blob, offset, reader.error);
};
// Begin reading the first chunk
readNextChunk();
};
/**
* Signals that no further text will be sent, effectively closing the
* stream.
*/
this.sendEnd = function sendEnd() {
arrayBufferWriter.sendEnd();
};
/**
* Fired for received data, if acknowledged by the server.
*
* @event
* @param {!Guacamole.Status} status
* The status of the operation.
*/
this.onack = null;
/**
* Fired when an error occurs reading a blob passed to
* [sendBlob()]{@link Guacamole.BlobWriter#sendBlob}. The transfer for the
* the given blob will cease, but the stream will remain open.
*
* @event
* @param {!Blob} blob
* The blob that was being read when the error occurred.
*
* @param {!number} offset
* The offset of the failed read attempt within the blob, in bytes.
*
* @param {!DOMError} error
* The error that occurred.
*/
this.onerror = null;
/**
* Fired for each successfully-read chunk of data as a blob is being sent
* via [sendBlob()]{@link Guacamole.BlobWriter#sendBlob}.
*
* @event
* @param {!Blob} blob
* The blob that is being read.
*
* @param {!number} offset
* The offset of the read that just succeeded.
*/
this.onprogress = null;
/**
* Fired when a blob passed to
* [sendBlob()]{@link Guacamole.BlobWriter#sendBlob} has finished being
* sent.
*
* @event
* @param {!Blob} blob
* The blob that was sent.
*/
this.oncomplete = null;
};
/**
* Guacamole protocol client. Given a {@link Guacamole.Tunnel},
* automatically handles incoming and outgoing Guacamole instructions via the
* provided tunnel, updating its display using one or more canvas elements.
*
* @constructor
* @param {!Guacamole.Tunnel} tunnel
* The tunnel to use to send and receive Guacamole instructions.
*/
Guacamole.Client = function (tunnel) {
var guac_client = this;
var currentState = Guacamole.Client.State.IDLE;
var currentTimestamp = 0;
/**
* The rough number of milliseconds to wait between sending keep-alive
* pings. This may vary depending on how frequently the browser allows
* timers to run, as well as how frequently the client receives messages
* from the server.
*
* @private
* @constant
* @type {!number}
*/
var KEEP_ALIVE_FREQUENCY = 5000;
/**
* The current keep-alive ping timeout ID, if any. This will only be set
* upon connecting.
*
* @private
* @type {number}
*/
var keepAliveTimeout = null;
/**
* The timestamp of the point in time that the last keep-live ping was
* sent, in milliseconds elapsed since midnight of January 1, 1970 UTC.
*
* @private
* @type {!number}
*/
var lastSentKeepAlive = 0;
/**
* Translation from Guacamole protocol line caps to Layer line caps.
*
* @private
* @type {!Object.<number, string>}
*/
var lineCap = {
0: 'butt',
1: 'round',
2: 'square',
};
/**
* Translation from Guacamole protocol line caps to Layer line caps.
*
* @private
* @type {!Object.<number, string>}
*/
var lineJoin = {
0: 'bevel',
1: 'miter',
2: 'round',
};
/**
* The underlying Guacamole display.
*
* @private
* @type {!Guacamole.Display}
*/
var display = new Guacamole.Display();
/**
* All available layers and buffers
*
* @private
* @type {!Object.<number, (Guacamole.Display.VisibleLayer|Guacamole.Layer)>}
*/
var layers = {};
/**
* All audio players currently in use by the client. Initially, this will
* be empty, but audio players may be allocated by the server upon request.
*
* @private
* @type {!Object.<number, Guacamole.AudioPlayer>}
*/
var audioPlayers = {};
/**
* All video players currently in use by the client. Initially, this will
* be empty, but video players may be allocated by the server upon request.
*
* @private
* @type {!Object.<number, Guacamole.VideoPlayer>}
*/
var videoPlayers = {};
// No initial parsers
var parsers = [];
// No initial streams
var streams = [];
/**
* All current objects. The index of each object is dictated by the
* Guacamole server.
*
* @private
* @type {!Guacamole.Object[]}
*/
var objects = [];
// Pool of available stream indices
var stream_indices = new Guacamole.IntegerPool();
// Array of allocated output streams by index
var output_streams = [];
function setState(state) {
if (state != currentState) {
currentState = state;
if (guac_client.onstatechange) guac_client.onstatechange(currentState);
}
}
function isConnected() {
return currentState == Guacamole.Client.State.CONNECTED || currentState == Guacamole.Client.State.WAITING;
}
/**
* Produces an opaque representation of Guacamole.Client state which can be
* later imported through a call to importState(). This object is
* effectively an independent, compressed snapshot of protocol and display
* state. Invoking this function implicitly flushes the display.
*
* @param {!function} callback
* Callback which should be invoked once the state object is ready. The
* state object will be passed to the callback as the sole parameter.
* This callback may be invoked immediately, or later as the display
* finishes rendering and becomes ready.
*/
this.exportState = function exportState(callback) {
// Start with empty state
var state = {
currentState: currentState,
currentTimestamp: currentTimestamp,
layers: {},
};
var layersSnapshot = {};
// Make a copy of all current layers (protocol state)
for (var key in layers) {
layersSnapshot[key] = layers[key];
}
// Populate layers once data is available (display state, requires flush)
display.flush(function populateLayers() {
// Export each defined layer/buffer
for (var key in layersSnapshot) {
var index = parseInt(key);
var layer = layersSnapshot[key];
var canvas = layer.toCanvas();
// Store layer/buffer dimensions
var exportLayer = {
width: layer.width,
height: layer.height,
};
// Store layer/buffer image data, if it can be generated
if (layer.width && layer.height) exportLayer.url = canvas.toDataURL('image/png');
// Add layer properties if not a buffer nor the default layer
if (index > 0) {
exportLayer.x = layer.x;
exportLayer.y = layer.y;
exportLayer.z = layer.z;
exportLayer.alpha = layer.alpha;
exportLayer.matrix = layer.matrix;
exportLayer.parent = getLayerIndex(layer.parent);
}
// Store exported layer
state.layers[key] = exportLayer;
}
// Invoke callback now that the state is ready
callback(state);
});
};
/**
* Restores Guacamole.Client protocol and display state based on an opaque
* object from a prior call to exportState(). The Guacamole.Client instance
* used to export that state need not be the same as this instance.
*
* @param {!object} state
* An opaque representation of Guacamole.Client state from a prior call
* to exportState().
*
* @param {function} [callback]
* The function to invoke when state has finished being imported. This
* may happen immediately, or later as images within the provided state
* object are loaded.
*/
this.importState = function importState(state, callback) {
var key;
var index;
currentState = state.currentState;
currentTimestamp = state.currentTimestamp;
// Cancel any pending display operations/frames
display.cancel();
// Dispose of all layers
for (key in layers) {
index = parseInt(key);
if (index > 0) layers[key].dispose();
}
layers = {};
// Import state of each layer/buffer
for (key in state.layers) {
index = parseInt(key);
var importLayer = state.layers[key];
var layer = getLayer(index);
// Reset layer size
display.resize(layer, importLayer.width, importLayer.height);
// Initialize new layer if it has associated data
if (importLayer.url) {
display.setChannelMask(layer, Guacamole.Layer.SRC);
display.draw(layer, 0, 0, importLayer.url);
}
// Set layer-specific properties if not a buffer nor the default layer
if (index > 0 && importLayer.parent >= 0) {
// Apply layer position and set parent
var parent = getLayer(importLayer.parent);
display.move(layer, parent, importLayer.x, importLayer.y, importLayer.z);
// Set layer transparency
display.shade(layer, importLayer.alpha);
// Apply matrix transform
var matrix = importLayer.matrix;
display.distort(layer, matrix[0], matrix[1], matrix[2], matrix[3], matrix[4], matrix[5]);
}
}
// Flush changes to display
display.flush(callback);
};
/**
* Returns the underlying display of this Guacamole.Client. The display
* contains an Element which can be added to the DOM, causing the
* display to become visible.
*
* @return {!Guacamole.Display}
* The underlying display of this Guacamole.Client.
*/
this.getDisplay = function () {
return display;
};
/**
* Sends the current size of the screen.
*
* @param {!number} width
* The width of the screen.
*
* @param {!number} height
* The height of the screen.
*/
this.sendSize = function (width, height) {
// Do not send requests if not connected
if (!isConnected()) return;
tunnel.sendMessage('size', width, height);
};
/**
* Sends a key event having the given properties as if the user
* pressed or released a key.
*
* @param {!boolean} pressed
* Whether the key is pressed (true) or released (false).
*
* @param {!number} keysym
* The keysym of the key being pressed or released.
*/
this.sendKeyEvent = function (pressed, keysym) {
// Do not send requests if not connected
if (!isConnected()) return;
tunnel.sendMessage('key', keysym, pressed);
};
/**
* Sends a mouse event having the properties provided by the given mouse
* state.
*
* @param {!Guacamole.Mouse.State} mouseState
* The state of the mouse to send in the mouse event.
*
* @param {boolean} [applyDisplayScale=false]
* Whether the provided mouse state uses local display units, rather
* than remote display units, and should be scaled to match the
* {@link Guacamole.Display}.
*/
this.sendMouseState = function sendMouseState(mouseState, applyDisplayScale) {
// Do not send requests if not connected
if (!isConnected()) return;
var x = mouseState.x;
var y = mouseState.y;
// Translate for display units if requested
if (applyDisplayScale) {
x /= display.getScale();
y /= display.getScale();
}
// Update client-side cursor
display.moveCursor(Math.floor(x), Math.floor(y));
// Build mask
var buttonMask = 0;
if (mouseState.left) buttonMask |= 1;
if (mouseState.middle) buttonMask |= 2;
if (mouseState.right) buttonMask |= 4;
if (mouseState.up) buttonMask |= 8;
if (mouseState.down) buttonMask |= 16;
// Send message
tunnel.sendMessage('mouse', Math.floor(x), Math.floor(y), buttonMask);
};
/**
* Sends a touch event having the properties provided by the given touch
* state.
*
* @param {!Guacamole.Touch.State} touchState
* The state of the touch contact to send in the touch event.
*
* @param {boolean} [applyDisplayScale=false]
* Whether the provided touch state uses local display units, rather
* than remote display units, and should be scaled to match the
* {@link Guacamole.Display}.
*/
this.sendTouchState = function sendTouchState(touchState, applyDisplayScale) {
// Do not send requests if not connected
if (!isConnected()) return;
var x = touchState.x;
var y = touchState.y;
// Translate for display units if requested
if (applyDisplayScale) {
x /= display.getScale();
y /= display.getScale();
}
tunnel.sendMessage(
'touch',
touchState.id,
Math.floor(x),
Math.floor(y),
Math.floor(touchState.radiusX),
Math.floor(touchState.radiusY),
touchState.angle,
touchState.force
);
};
/**
* Allocates an available stream index and creates a new
* Guacamole.OutputStream using that index, associating the resulting
* stream with this Guacamole.Client. Note that this stream will not yet
* exist as far as the other end of the Guacamole connection is concerned.
* Streams exist within the Guacamole protocol only when referenced by an
* instruction which creates the stream, such as a "clipboard", "file", or
* "pipe" instruction.
*
* @returns {!Guacamole.OutputStream}
* A new Guacamole.OutputStream with a newly-allocated index and
* associated with this Guacamole.Client.
*/
this.createOutputStream = function createOutputStream() {
// Allocate index
var index = stream_indices.next();
// Return new stream
var stream = (output_streams[index] = new Guacamole.OutputStream(guac_client, index));
return stream;
};
/**
* Opens a new audio stream for writing, where audio data having the give
* mimetype will be sent along the returned stream. The instruction
* necessary to create this stream will automatically be sent.
*
* @param {!string} mimetype
* The mimetype of the audio data that will be sent along the returned
* stream.
*
* @return {!Guacamole.OutputStream}
* The created audio stream.
*/
this.createAudioStream = function (mimetype) {
// Allocate and associate stream with audio metadata
var stream = guac_client.createOutputStream();
tunnel.sendMessage('audio', stream.index, mimetype);
return stream;
};
/**
* Opens a new file for writing, having the given index, mimetype and
* filename. The instruction necessary to create this stream will
* automatically be sent.
*
* @param {!string} mimetype
* The mimetype of the file being sent.
*
* @param {!string} filename
* The filename of the file being sent.
*
* @return {!Guacamole.OutputStream}
* The created file stream.
*/
this.createFileStream = function (mimetype, filename) {
// Allocate and associate stream with file metadata
var stream = guac_client.createOutputStream();
tunnel.sendMessage('file', stream.index, mimetype, filename);
return stream;
};
/**
* Opens a new pipe for writing, having the given name and mimetype. The
* instruction necessary to create this stream will automatically be sent.
*
* @param {!string} mimetype
* The mimetype of the data being sent.
*
* @param {!string} name
* The name of the pipe.
*
* @return {!Guacamole.OutputStream}
* The created file stream.
*/
this.createPipeStream = function (mimetype, name) {
// Allocate and associate stream with pipe metadata
var stream = guac_client.createOutputStream();
tunnel.sendMessage('pipe', stream.index, mimetype, name);
return stream;
};
/**
* Opens a new clipboard object for writing, having the given mimetype. The
* instruction necessary to create this stream will automatically be sent.
*
* @param {!string} mimetype
* The mimetype of the data being sent.
*
* @param {!string} name
* The name of the pipe.
*
* @return {!Guacamole.OutputStream}
* The created file stream.
*/
this.createClipboardStream = function (mimetype) {
// Allocate and associate stream with clipboard metadata
var stream = guac_client.createOutputStream();
tunnel.sendMessage('clipboard', stream.index, mimetype);
return stream;
};
/**
* Opens a new argument value stream for writing, having the given
* parameter name and mimetype, requesting that the connection parameter
* with the given name be updated to the value described by the contents
* of the following stream. The instruction necessary to create this stream
* will automatically be sent.
*
* @param {!string} mimetype
* The mimetype of the data being sent.
*
* @param {!string} name
* The name of the connection parameter to attempt to update.
*
* @return {!Guacamole.OutputStream}
* The created argument value stream.
*/
this.createArgumentValueStream = function createArgumentValueStream(mimetype, name) {
// Allocate and associate stream with argument value metadata
var stream = guac_client.createOutputStream();
tunnel.sendMessage('argv', stream.index, mimetype, name);
return stream;
};
/**
* Creates a new output stream associated with the given object and having
* the given mimetype and name. The legality of a mimetype and name is
* dictated by the object itself. The instruction necessary to create this
* stream will automatically be sent.
*
* @param {!number} index
* The index of the object for which the output stream is being
* created.
*
* @param {!string} mimetype
* The mimetype of the data which will be sent to the output stream.
*
* @param {!string} name
* The defined name of an output stream within the given object.
*
* @returns {!Guacamole.OutputStream}
* An output stream which will write blobs to the named output stream
* of the given object.
*/
this.createObjectOutputStream = function createObjectOutputStream(index, mimetype, name) {
// Allocate and associate stream with object metadata
var stream = guac_client.createOutputStream();
tunnel.sendMessage('put', index, stream.index, mimetype, name);
return stream;
};
/**
* Requests read access to the input stream having the given name. If
* successful, a new input stream will be created.
*
* @param {!number} index
* The index of the object from which the input stream is being
* requested.
*
* @param {!string} name
* The name of the input stream to request.
*/
this.requestObjectInputStream = function requestObjectInputStream(index, name) {
// Do not send requests if not connected
if (!isConnected()) return;
tunnel.sendMessage('get', index, name);
};
/**
* Acknowledge receipt of a blob on the stream with the given index.
*
* @param {!number} index
* The index of the stream associated with the received blob.
*
* @param {!string} message
* A human-readable message describing the error or status.
*
* @param {!number} code
* The error code, if any, or 0 for success.
*/
this.sendAck = function (index, message, code) {
// Do not send requests if not connected
if (!isConnected()) return;
tunnel.sendMessage('ack', index, message, code);
};
/**
* Given the index of a file, writes a blob of data to that file.
*
* @param {!number} index
* The index of the file to write to.
*
* @param {!string} data
* Base64-encoded data to write to the file.
*/
this.sendBlob = function (index, data) {
// Do not send requests if not connected
if (!isConnected()) return;
tunnel.sendMessage('blob', index, data);
};
/**
* Marks a currently-open stream as complete. The other end of the
* Guacamole connection will be notified via an "end" instruction that the
* stream is closed, and the index will be made available for reuse in
* future streams.
*
* @param {!number} index
* The index of the stream to end.
*/
this.endStream = function (index) {
// Do not send requests if not connected
if (!isConnected()) return;
// Explicitly close stream by sending "end" instruction
tunnel.sendMessage('end', index);
// Free associated index and stream if they exist
if (output_streams[index]) {
stream_indices.free(index);
delete output_streams[index];
}
};
/**
* Fired whenever the state of this Guacamole.Client changes.
*
* @event
* @param {!number} state
* The new state of the client.
*/
this.onstatechange = null;
/**
* Fired when the remote client sends a name update.
*
* @event
* @param {!string} name
* The new name of this client.
*/
this.onname = null;
/**
* Fired when an error is reported by the remote client, and the connection
* is being closed.
*
* @event
* @param {!Guacamole.Status} status
* A status object which describes the error.
*/
this.onerror = null;
/**
* Fired when an arbitrary message is received from the tunnel that should
* be processed by the client. By default, additional message-specific
* events such as "onjoin" and "onleave" will fire for the received message
* after this event has been processed. An event handler for "onmsg" need
* not be supplied if "onjoin" and/or "onleave" will be used.
*
* @event
* @param {!number} msgcode
* A status code sent by the remote server that indicates the nature of
* the message that is being sent to the client.
*
* @param {string[]} args
* An array of arguments to be processed with the message sent to the
* client.
*
* @return {boolean}
* true if message-specific events such as "onjoin" and
* "onleave" should be fired for this message, false otherwise. If
* no value is returned, message-specific events will be allowed to
* fire.
*/
this.onmsg = null;
/**
* Fired when a user joins a shared connection.
*
* @event
* @param {!string} userID
* A unique value representing this specific user's connection to the
* shared connection. This value is generated by the server and is
* guaranteed to be unique relative to other users of the connection.
*
* @param {!string} name
* A human-readable name representing the user that joined, such as
* their username. This value is provided by the web application during
* the connection handshake and is not necessarily unique relative to
* other users of the connection.
*/
this.onjoin = null;
/**
* Fired when a user leaves a shared connection.
*
* @event
* @param {!string} userID
* A unique value representing this specific user's connection to the
* shared connection. This value is generated by the server and is
* guaranteed to be unique relative to other users of the connection.
*
* @param {!string} name
* A human-readable name representing the user that left, such as their
* username. This value is provided by the web application during the
* connection handshake and is not necessarily unique relative to other
* users of the connection.
*/
this.onleave = null;
/**
* Fired when a audio stream is created. The stream provided to this event
* handler will contain its own event handlers for received data.
*
* @event
* @param {!Guacamole.InputStream} stream
* The stream that will receive audio data from the server.
*
* @param {!string} mimetype
* The mimetype of the audio data which will be received.
*
* @return {Guacamole.AudioPlayer}
* An object which implements the Guacamole.AudioPlayer interface and
* has been initialized to play the data in the provided stream, or null
* if the built-in audio players of the Guacamole client should be
* used.
*/
this.onaudio = null;
/**
* Fired when a video stream is created. The stream provided to this event
* handler will contain its own event handlers for received data.
*
* @event
* @param {!Guacamole.InputStream} stream
* The stream that will receive video data from the server.
*
* @param {!Guacamole.Display.VisibleLayer} layer
* The destination layer on which the received video data should be
* played. It is the responsibility of the Guacamole.VideoPlayer
* implementation to play the received data within this layer.
*
* @param {!string} mimetype
* The mimetype of the video data which will be received.
*
* @return {Guacamole.VideoPlayer}
* An object which implements the Guacamole.VideoPlayer interface and
* has been initialized to play the data in the provided stream, or null
* if the built-in video players of the Guacamole client should be
* used.
*/
this.onvideo = null;
/**
* Fired when the remote client is explicitly declaring the level of
* multi-touch support provided by a particular display layer.
*
* @event
* @param {!Guacamole.Display.VisibleLayer} layer
* The layer whose multi-touch support level is being declared.
*
* @param {!number} touches
* The maximum number of simultaneous touches supported by the given
* layer, where 0 indicates that touch events are not supported at all.
*/
this.onmultitouch = null;
/**
* Fired when the current value of a connection parameter is being exposed
* by the server.
*
* @event
* @param {!Guacamole.InputStream} stream
* The stream that will receive connection parameter data from the
* server.
*
* @param {!string} mimetype
* The mimetype of the data which will be received.
*
* @param {!string} name
* The name of the connection parameter whose value is being exposed.
*/
this.onargv = null;
/**
* Fired when the clipboard of the remote client is changing.
*
* @event
* @param {!Guacamole.InputStream} stream
* The stream that will receive clipboard data from the server.
*
* @param {!string} mimetype
* The mimetype of the data which will be received.
*/
this.onclipboard = null;
/**
* Fired when a file stream is created. The stream provided to this event
* handler will contain its own event handlers for received data.
*
* @event
* @param {!Guacamole.InputStream} stream
* The stream that will receive data from the server.
*
* @param {!string} mimetype
* The mimetype of the file received.
*
* @param {!string} filename
* The name of the file received.
*/
this.onfile = null;
/**
* Fired when a filesystem object is created. The object provided to this
* event handler will contain its own event handlers and functions for
* requesting and handling data.
*
* @event
* @param {!Guacamole.Object} object
* The created filesystem object.
*
* @param {!string} name
* The name of the filesystem.
*/
this.onfilesystem = null;
/**
* Fired when a pipe stream is created. The stream provided to this event
* handler will contain its own event handlers for received data;
*
* @event
* @param {!Guacamole.InputStream} stream
* The stream that will receive data from the server.
*
* @param {!string} mimetype
* The mimetype of the data which will be received.
*
* @param {!string} name
* The name of the pipe.
*/
this.onpipe = null;
/**
* Fired when a "required" instruction is received. A required instruction
* indicates that additional parameters are required for the connection to
* continue, such as user credentials.
*
* @event
* @param {!string[]} parameters
* The names of the connection parameters that are required to be
* provided for the connection to continue.
*/
this.onrequired = null;
/**
* Fired whenever a sync instruction is received from the server, indicating
* that the server is finished processing any input from the client and
* has sent any results.
*
* @event
* @param {!number} timestamp
* The timestamp associated with the sync instruction.
*
* @param {!number} frames
* The number of frames that were considered or combined to produce the
* frame associated with this sync instruction, or zero if this value
* is not known or the remote desktop server provides no concept of
* frames.
*/
this.onsync = null;
/**
* Returns the layer with the given index, creating it if necessary.
* Positive indices refer to visible layers, an index of zero refers to
* the default layer, and negative indices refer to buffers.
*
* @private
* @param {!number} index
* The index of the layer to retrieve.
*
* @return {!(Guacamole.Display.VisibleLayer|Guacamole.Layer)}
* The layer having the given index.
*/
var getLayer = function getLayer(index) {
// Get layer, create if necessary
var layer = layers[index];
if (!layer) {
// Create layer based on index
if (index === 0) layer = display.getDefaultLayer();
else if (index > 0) layer = display.createLayer();
else layer = display.createBuffer();
// Add new layer
layers[index] = layer;
}
return layer;
};
/**
* Returns the index passed to getLayer() when the given layer was created.
* Positive indices refer to visible layers, an index of zero refers to the
* default layer, and negative indices refer to buffers.
*
* @param {!(Guacamole.Display.VisibleLayer|Guacamole.Layer)} layer
* The layer whose index should be determined.
*
* @returns {number}
* The index of the given layer, or null if no such layer is associated
* with this client.
*/
var getLayerIndex = function getLayerIndex(layer) {
// Avoid searching if there clearly is no such layer
if (!layer) return null;
// Search through each layer, returning the index of the given layer
// once found
for (var key in layers) {
if (layer === layers[key]) return parseInt(key);
}
// Otherwise, no such index
return null;
};
function getParser(index) {
var parser = parsers[index];
// If parser not yet created, create it, and tie to the
// oninstruction handler of the tunnel.
if (parser == null) {
parser = parsers[index] = new Guacamole.Parser();
parser.oninstruction = tunnel.oninstruction;
}
return parser;
}
/**
* Handlers for all defined layer properties.
*
* @private
* @type {!Object.<string, function>}
*/
var layerPropertyHandlers = {
'miter-limit': function (layer, value) {
display.setMiterLimit(layer, parseFloat(value));
},
'multi-touch': function layerSupportsMultiTouch(layer, value) {
// Process "multi-touch" property only for true visible layers (not off-screen buffers)
if (guac_client.onmultitouch && layer instanceof Guacamole.Display.VisibleLayer) guac_client.onmultitouch(layer, parseInt(value));
},
};
/**
* Handlers for all instruction opcodes receivable by a Guacamole protocol
* client.
*
* @private
* @type {!Object.<string, function>}
*/
var instructionHandlers = {
ack: function (parameters) {
var stream_index = parseInt(parameters[0]);
var reason = parameters[1];
var code = parseInt(parameters[2]);
// Get stream
var stream = output_streams[stream_index];
if (stream) {
// Signal ack if handler defined
if (stream.onack) stream.onack(new Guacamole.Status(code, reason));
// If code is an error, invalidate stream if not already
// invalidated by onack handler
if (code >= 0x0100 && output_streams[stream_index] === stream) {
stream_indices.free(stream_index);
delete output_streams[stream_index];
}
}
},
arc: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
var x = parseInt(parameters[1]);
var y = parseInt(parameters[2]);
var radius = parseInt(parameters[3]);
var startAngle = parseFloat(parameters[4]);
var endAngle = parseFloat(parameters[5]);
var negative = parseInt(parameters[6]);
display.arc(layer, x, y, radius, startAngle, endAngle, negative != 0);
},
argv: function (parameters) {
var stream_index = parseInt(parameters[0]);
var mimetype = parameters[1];
var name = parameters[2];
// Create stream
if (guac_client.onargv) {
var stream = (streams[stream_index] = new Guacamole.InputStream(guac_client, stream_index));
guac_client.onargv(stream, mimetype, name);
}
// Otherwise, unsupported
else guac_client.sendAck(stream_index, 'Receiving argument values unsupported', 0x0100);
},
audio: function (parameters) {
var stream_index = parseInt(parameters[0]);
var mimetype = parameters[1];
// Create stream
var stream = (streams[stream_index] = new Guacamole.InputStream(guac_client, stream_index));
// Get player instance via callback
var audioPlayer = null;
if (guac_client.onaudio) audioPlayer = guac_client.onaudio(stream, mimetype);
// If unsuccessful, try to use a default implementation
if (!audioPlayer) audioPlayer = Guacamole.AudioPlayer.getInstance(stream, mimetype);
// If we have successfully retrieved an audio player, send success response
if (audioPlayer) {
audioPlayers[stream_index] = audioPlayer;
guac_client.sendAck(stream_index, 'OK', 0x0000);
}
// Otherwise, mimetype must be unsupported
else guac_client.sendAck(stream_index, 'BAD TYPE', 0x030f);
},
blob: function (parameters) {
// Get stream
var stream_index = parseInt(parameters[0]);
var data = parameters[1];
var stream = streams[stream_index];
// Write data
if (stream && stream.onblob) stream.onblob(data);
},
body: function handleBody(parameters) {
// Get object
var objectIndex = parseInt(parameters[0]);
var object = objects[objectIndex];
var streamIndex = parseInt(parameters[1]);
var mimetype = parameters[2];
var name = parameters[3];
// Create stream if handler defined
if (object && object.onbody) {
var stream = (streams[streamIndex] = new Guacamole.InputStream(guac_client, streamIndex));
object.onbody(stream, mimetype, name);
}
// Otherwise, unsupported
else guac_client.sendAck(streamIndex, 'Receipt of body unsupported', 0x0100);
},
cfill: function (parameters) {
var channelMask = parseInt(parameters[0]);
var layer = getLayer(parseInt(parameters[1]));
var r = parseInt(parameters[2]);
var g = parseInt(parameters[3]);
var b = parseInt(parameters[4]);
var a = parseInt(parameters[5]);
display.setChannelMask(layer, channelMask);
display.fillColor(layer, r, g, b, a);
},
clip: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
display.clip(layer);
},
clipboard: function (parameters) {
var stream_index = parseInt(parameters[0]);
var mimetype = parameters[1];
// Create stream
if (guac_client.onclipboard) {
var stream = (streams[stream_index] = new Guacamole.InputStream(guac_client, stream_index));
guac_client.onclipboard(stream, mimetype);
}
// Otherwise, unsupported
else guac_client.sendAck(stream_index, 'Clipboard unsupported', 0x0100);
},
close: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
display.close(layer);
},
copy: function (parameters) {
var srcL = getLayer(parseInt(parameters[0]));
var srcX = parseInt(parameters[1]);
var srcY = parseInt(parameters[2]);
var srcWidth = parseInt(parameters[3]);
var srcHeight = parseInt(parameters[4]);
var channelMask = parseInt(parameters[5]);
var dstL = getLayer(parseInt(parameters[6]));
var dstX = parseInt(parameters[7]);
var dstY = parseInt(parameters[8]);
display.setChannelMask(dstL, channelMask);
display.copy(srcL, srcX, srcY, srcWidth, srcHeight, dstL, dstX, dstY);
},
cstroke: function (parameters) {
var channelMask = parseInt(parameters[0]);
var layer = getLayer(parseInt(parameters[1]));
var cap = lineCap[parseInt(parameters[2])];
var join = lineJoin[parseInt(parameters[3])];
var thickness = parseInt(parameters[4]);
var r = parseInt(parameters[5]);
var g = parseInt(parameters[6]);
var b = parseInt(parameters[7]);
var a = parseInt(parameters[8]);
display.setChannelMask(layer, channelMask);
display.strokeColor(layer, cap, join, thickness, r, g, b, a);
},
cursor: function (parameters) {
var cursorHotspotX = parseInt(parameters[0]);
var cursorHotspotY = parseInt(parameters[1]);
var srcL = getLayer(parseInt(parameters[2]));
var srcX = parseInt(parameters[3]);
var srcY = parseInt(parameters[4]);
var srcWidth = parseInt(parameters[5]);
var srcHeight = parseInt(parameters[6]);
display.setCursor(cursorHotspotX, cursorHotspotY, srcL, srcX, srcY, srcWidth, srcHeight);
},
curve: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
var cp1x = parseInt(parameters[1]);
var cp1y = parseInt(parameters[2]);
var cp2x = parseInt(parameters[3]);
var cp2y = parseInt(parameters[4]);
var x = parseInt(parameters[5]);
var y = parseInt(parameters[6]);
display.curveTo(layer, cp1x, cp1y, cp2x, cp2y, x, y);
},
disconnect: function handleDisconnect(parameters) {
// Explicitly tear down connection
guac_client.disconnect();
},
dispose: function (parameters) {
var layer_index = parseInt(parameters[0]);
// If visible layer, remove from parent
if (layer_index > 0) {
// Remove from parent
var layer = getLayer(layer_index);
display.dispose(layer);
// Delete reference
delete layers[layer_index];
}
// If buffer, just delete reference
else if (layer_index < 0) delete layers[layer_index];
// Attempting to dispose the root layer currently has no effect.
},
distort: function (parameters) {
var layer_index = parseInt(parameters[0]);
var a = parseFloat(parameters[1]);
var b = parseFloat(parameters[2]);
var c = parseFloat(parameters[3]);
var d = parseFloat(parameters[4]);
var e = parseFloat(parameters[5]);
var f = parseFloat(parameters[6]);
// Only valid for visible layers (not buffers)
if (layer_index >= 0) {
var layer = getLayer(layer_index);
display.distort(layer, a, b, c, d, e, f);
}
},
error: function (parameters) {
var reason = parameters[0];
var code = parseInt(parameters[1]);
// Call handler if defined
if (guac_client.onerror) guac_client.onerror(new Guacamole.Status(code, reason));
guac_client.disconnect();
},
end: function (parameters) {
var stream_index = parseInt(parameters[0]);
// Get stream
var stream = streams[stream_index];
if (stream) {
// Signal end of stream if handler defined
if (stream.onend) stream.onend();
// Invalidate stream
delete streams[stream_index];
}
},
file: function (parameters) {
var stream_index = parseInt(parameters[0]);
var mimetype = parameters[1];
var filename = parameters[2];
// Create stream
if (guac_client.onfile) {
var stream = (streams[stream_index] = new Guacamole.InputStream(guac_client, stream_index));
guac_client.onfile(stream, mimetype, filename);
}
// Otherwise, unsupported
else guac_client.sendAck(stream_index, 'File transfer unsupported', 0x0100);
},
filesystem: function handleFilesystem(parameters) {
var objectIndex = parseInt(parameters[0]);
var name = parameters[1];
// Create object, if supported
if (guac_client.onfilesystem) {
var object = (objects[objectIndex] = new Guacamole.Object(guac_client, objectIndex));
guac_client.onfilesystem(object, name);
}
// If unsupported, simply ignore the availability of the filesystem
},
identity: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
display.setTransform(layer, 1, 0, 0, 1, 0, 0);
},
img: function (parameters) {
var stream_index = parseInt(parameters[0]);
var channelMask = parseInt(parameters[1]);
var layer = getLayer(parseInt(parameters[2]));
var mimetype = parameters[3];
var x = parseInt(parameters[4]);
var y = parseInt(parameters[5]);
// Create stream
var stream = (streams[stream_index] = new Guacamole.InputStream(guac_client, stream_index));
// Draw received contents once decoded
display.setChannelMask(layer, channelMask);
display.drawStream(layer, x, y, stream, mimetype);
},
jpeg: function (parameters) {
var channelMask = parseInt(parameters[0]);
var layer = getLayer(parseInt(parameters[1]));
var x = parseInt(parameters[2]);
var y = parseInt(parameters[3]);
var data = parameters[4];
display.setChannelMask(layer, channelMask);
display.draw(layer, x, y, 'data:image/jpeg;base64,' + data);
},
lfill: function (parameters) {
var channelMask = parseInt(parameters[0]);
var layer = getLayer(parseInt(parameters[1]));
var srcLayer = getLayer(parseInt(parameters[2]));
display.setChannelMask(layer, channelMask);
display.fillLayer(layer, srcLayer);
},
line: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
var x = parseInt(parameters[1]);
var y = parseInt(parameters[2]);
display.lineTo(layer, x, y);
},
lstroke: function (parameters) {
var channelMask = parseInt(parameters[0]);
var layer = getLayer(parseInt(parameters[1]));
var srcLayer = getLayer(parseInt(parameters[2]));
display.setChannelMask(layer, channelMask);
display.strokeLayer(layer, srcLayer);
},
mouse: function handleMouse(parameters) {
var x = parseInt(parameters[0]);
var y = parseInt(parameters[1]);
// Display and move software cursor to received coordinates
display.showCursor(true);
display.moveCursor(x, y);
},
move: function (parameters) {
var layer_index = parseInt(parameters[0]);
var parent_index = parseInt(parameters[1]);
var x = parseInt(parameters[2]);
var y = parseInt(parameters[3]);
var z = parseInt(parameters[4]);
// Only valid for non-default layers
if (layer_index > 0 && parent_index >= 0) {
var layer = getLayer(layer_index);
var parent = getLayer(parent_index);
display.move(layer, parent, x, y, z);
}
},
msg: function (parameters) {
var userID;
var username;
// Fire general message handling event first
var allowDefault = true;
var msgid = parseInt(parameters[0]);
if (guac_client.onmsg) {
allowDefault = guac_client.onmsg(msgid, parameters.slice(1));
if (allowDefault === undefined) allowDefault = true;
}
// Fire message-specific convenience events if not prevented by the
// "onmsg" handler
if (allowDefault) {
switch (msgid) {
case Guacamole.Client.Message.USER_JOINED:
userID = parameters[1];
username = parameters[2];
if (guac_client.onjoin) guac_client.onjoin(userID, username);
break;
case Guacamole.Client.Message.USER_LEFT:
userID = parameters[1];
username = parameters[2];
if (guac_client.onleave) guac_client.onleave(userID, username);
break;
}
}
},
name: function (parameters) {
if (guac_client.onname) guac_client.onname(parameters[0]);
},
nest: function (parameters) {
var parser = getParser(parseInt(parameters[0]));
parser.receive(parameters[1]);
},
pipe: function (parameters) {
var stream_index = parseInt(parameters[0]);
var mimetype = parameters[1];
var name = parameters[2];
// Create stream
if (guac_client.onpipe) {
var stream = (streams[stream_index] = new Guacamole.InputStream(guac_client, stream_index));
guac_client.onpipe(stream, mimetype, name);
}
// Otherwise, unsupported
else guac_client.sendAck(stream_index, 'Named pipes unsupported', 0x0100);
},
png: function (parameters) {
var channelMask = parseInt(parameters[0]);
var layer = getLayer(parseInt(parameters[1]));
var x = parseInt(parameters[2]);
var y = parseInt(parameters[3]);
var data = parameters[4];
display.setChannelMask(layer, channelMask);
display.draw(layer, x, y, 'data:image/png;base64,' + data);
},
pop: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
display.pop(layer);
},
push: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
display.push(layer);
},
rect: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
var x = parseInt(parameters[1]);
var y = parseInt(parameters[2]);
var w = parseInt(parameters[3]);
var h = parseInt(parameters[4]);
display.rect(layer, x, y, w, h);
},
required: function required(parameters) {
if (guac_client.onrequired) guac_client.onrequired(parameters);
},
reset: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
display.reset(layer);
},
set: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
var name = parameters[1];
var value = parameters[2];
// Call property handler if defined
var handler = layerPropertyHandlers[name];
if (handler) handler(layer, value);
},
shade: function (parameters) {
var layer_index = parseInt(parameters[0]);
var a = parseInt(parameters[1]);
// Only valid for visible layers (not buffers)
if (layer_index >= 0) {
var layer = getLayer(layer_index);
display.shade(layer, a);
}
},
size: function (parameters) {
var layer_index = parseInt(parameters[0]);
var layer = getLayer(layer_index);
var width = parseInt(parameters[1]);
var height = parseInt(parameters[2]);
display.resize(layer, width, height);
},
start: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
var x = parseInt(parameters[1]);
var y = parseInt(parameters[2]);
display.moveTo(layer, x, y);
},
sync: function (parameters) {
var timestamp = parseInt(parameters[0]);
var frames = parameters[1] ? parseInt(parameters[1]) : 0;
// Flush display, send sync when done
display.flush(
function displaySyncComplete() {
// Synchronize all audio players
for (var index in audioPlayers) {
var audioPlayer = audioPlayers[index];
if (audioPlayer) audioPlayer.sync();
}
// Send sync response to server
if (timestamp !== currentTimestamp) {
tunnel.sendMessage('sync', timestamp);
currentTimestamp = timestamp;
}
},
timestamp,
frames
);
// If received first update, no longer waiting.
if (currentState === Guacamole.Client.State.WAITING) setState(Guacamole.Client.State.CONNECTED);
// Call sync handler if defined
if (guac_client.onsync) guac_client.onsync(timestamp, frames);
},
transfer: function (parameters) {
var srcL = getLayer(parseInt(parameters[0]));
var srcX = parseInt(parameters[1]);
var srcY = parseInt(parameters[2]);
var srcWidth = parseInt(parameters[3]);
var srcHeight = parseInt(parameters[4]);
var function_index = parseInt(parameters[5]);
var dstL = getLayer(parseInt(parameters[6]));
var dstX = parseInt(parameters[7]);
var dstY = parseInt(parameters[8]);
/* SRC */
if (function_index === 0x3) display.put(srcL, srcX, srcY, srcWidth, srcHeight, dstL, dstX, dstY);
/* Anything else that isn't a NO-OP */ else if (function_index !== 0x5)
display.transfer(srcL, srcX, srcY, srcWidth, srcHeight, dstL, dstX, dstY, Guacamole.Client.DefaultTransferFunction[function_index]);
},
transform: function (parameters) {
var layer = getLayer(parseInt(parameters[0]));
var a = parseFloat(parameters[1]);
var b = parseFloat(parameters[2]);
var c = parseFloat(parameters[3]);
var d = parseFloat(parameters[4]);
var e = parseFloat(parameters[5]);
var f = parseFloat(parameters[6]);
display.transform(layer, a, b, c, d, e, f);
},
undefine: function handleUndefine(parameters) {
// Get object
var objectIndex = parseInt(parameters[0]);
var object = objects[objectIndex];
// Signal end of object definition
if (object && object.onundefine) object.onundefine();
},
video: function (parameters) {
var stream_index = parseInt(parameters[0]);
var layer = getLayer(parseInt(parameters[1]));
var mimetype = parameters[2];
// Create stream
var stream = (streams[stream_index] = new Guacamole.InputStream(guac_client, stream_index));
// Get player instance via callback
var videoPlayer = null;
if (guac_client.onvideo) videoPlayer = guac_client.onvideo(stream, layer, mimetype);
// If unsuccessful, try to use a default implementation
if (!videoPlayer) videoPlayer = Guacamole.VideoPlayer.getInstance(stream, layer, mimetype);
// If we have successfully retrieved an video player, send success response
if (videoPlayer) {
videoPlayers[stream_index] = videoPlayer;
guac_client.sendAck(stream_index, 'OK', 0x0000);
}
// Otherwise, mimetype must be unsupported
else guac_client.sendAck(stream_index, 'BAD TYPE', 0x030f);
},
};
/**
* Sends a keep-alive ping to the Guacamole server, advising the server
* that the client is still connected and responding. The lastSentKeepAlive
* timestamp is automatically updated as a result of calling this function.
*
* @private
*/
var sendKeepAlive = function sendKeepAlive() {
tunnel.sendMessage('nop');
lastSentKeepAlive = new Date().getTime();
};
/**
* Schedules the next keep-alive ping based on the KEEP_ALIVE_FREQUENCY and
* the time that the last ping was sent, if ever. If enough time has
* elapsed that a ping should have already been sent, calling this function
* will send that ping immediately.
*
* @private
*/
var scheduleKeepAlive = function scheduleKeepAlive() {
window.clearTimeout(keepAliveTimeout);
var currentTime = new Date().getTime();
var keepAliveDelay = Math.max(lastSentKeepAlive + KEEP_ALIVE_FREQUENCY - currentTime, 0);
// Ping server regularly to keep connection alive, but send the ping
// immediately if enough time has elapsed that it should have already
// been sent
if (keepAliveDelay > 0) keepAliveTimeout = window.setTimeout(sendKeepAlive, keepAliveDelay);
else sendKeepAlive();
};
/**
* Stops sending any further keep-alive pings. If a keep-alive ping was
* scheduled to be sent, that ping is cancelled.
*
* @private
*/
var stopKeepAlive = function stopKeepAlive() {
window.clearTimeout(keepAliveTimeout);
};
tunnel.oninstruction = function (opcode, parameters) {
var handler = instructionHandlers[opcode];
if (handler) handler(parameters);
// Leverage network activity to ensure the next keep-alive ping is
// sent, even if the browser is currently throttling timers
scheduleKeepAlive();
};
/**
* Sends a disconnect instruction to the server and closes the tunnel.
*/
this.disconnect = function () {
// Only attempt disconnection not disconnected.
if (currentState != Guacamole.Client.State.DISCONNECTED && currentState != Guacamole.Client.State.DISCONNECTING) {
setState(Guacamole.Client.State.DISCONNECTING);
// Stop sending keep-alive messages
stopKeepAlive();
// Send disconnect message and disconnect
tunnel.sendMessage('disconnect');
tunnel.disconnect();
setState(Guacamole.Client.State.DISCONNECTED);
}
};
/**
* Connects the underlying tunnel of this Guacamole.Client, passing the
* given arbitrary data to the tunnel during the connection process.
*
* @param {string} data
* Arbitrary connection data to be sent to the underlying tunnel during
* the connection process.
*
* @throws {!Guacamole.Status}
* If an error occurs during connection.
*/
this.connect = function (data) {
setState(Guacamole.Client.State.CONNECTING);
try {
tunnel.connect(data);
} catch (status) {
setState(Guacamole.Client.State.IDLE);
throw status;
}
// Regularly send keep-alive ping to ensure the server knows we're
// still here, even if not active
scheduleKeepAlive();
setState(Guacamole.Client.State.WAITING);
};
};
/**
* All possible Guacamole Client states.
*
* @type {!Object.<string, number>}
*/
Guacamole.Client.State = {
/**
* The client is idle, with no active connection.
*
* @type number
*/
IDLE: 0,
/**
* The client is in the process of establishing a connection.
*
* @type {!number}
*/
CONNECTING: 1,
/**
* The client is waiting on further information or a remote server to
* establish the connection.
*
* @type {!number}
*/
WAITING: 2,
/**
* The client is actively connected to a remote server.
*
* @type {!number}
*/
CONNECTED: 3,
/**
* The client is in the process of disconnecting from the remote server.
*
* @type {!number}
*/
DISCONNECTING: 4,
/**
* The client has completed the connection and is no longer connected.
*
* @type {!number}
*/
DISCONNECTED: 5,
};
/**
* Map of all Guacamole binary raster operations to transfer functions.
*
* @private
* @type {!Object.<number, function>}
*/
Guacamole.Client.DefaultTransferFunction = {
/* BLACK */
0x0: function (src, dst) {
dst.red = dst.green = dst.blue = 0x00;
},
/* WHITE */
0xf: function (src, dst) {
dst.red = dst.green = dst.blue = 0xff;
},
/* SRC */
0x3: function (src, dst) {
dst.red = src.red;
dst.green = src.green;
dst.blue = src.blue;
dst.alpha = src.alpha;
},
/* DEST (no-op) */
0x5: function (src, dst) {
// Do nothing
},
/* Invert SRC */
0xc: function (src, dst) {
dst.red = 0xff & ~src.red;
dst.green = 0xff & ~src.green;
dst.blue = 0xff & ~src.blue;
dst.alpha = src.alpha;
},
/* Invert DEST */
0xa: function (src, dst) {
dst.red = 0xff & ~dst.red;
dst.green = 0xff & ~dst.green;
dst.blue = 0xff & ~dst.blue;
},
/* AND */
0x1: function (src, dst) {
dst.red = src.red & dst.red;
dst.green = src.green & dst.green;
dst.blue = src.blue & dst.blue;
},
/* NAND */
0xe: function (src, dst) {
dst.red = 0xff & ~(src.red & dst.red);
dst.green = 0xff & ~(src.green & dst.green);
dst.blue = 0xff & ~(src.blue & dst.blue);
},
/* OR */
0x7: function (src, dst) {
dst.red = src.red | dst.red;
dst.green = src.green | dst.green;
dst.blue = src.blue | dst.blue;
},
/* NOR */
0x8: function (src, dst) {
dst.red = 0xff & ~(src.red | dst.red);
dst.green = 0xff & ~(src.green | dst.green);
dst.blue = 0xff & ~(src.blue | dst.blue);
},
/* XOR */
0x6: function (src, dst) {
dst.red = src.red ^ dst.red;
dst.green = src.green ^ dst.green;
dst.blue = src.blue ^ dst.blue;
},
/* XNOR */
0x9: function (src, dst) {
dst.red = 0xff & ~(src.red ^ dst.red);
dst.green = 0xff & ~(src.green ^ dst.green);
dst.blue = 0xff & ~(src.blue ^ dst.blue);
},
/* AND inverted source */
0x4: function (src, dst) {
dst.red = 0xff & (~src.red & dst.red);
dst.green = 0xff & (~src.green & dst.green);
dst.blue = 0xff & (~src.blue & dst.blue);
},
/* OR inverted source */
0xd: function (src, dst) {
dst.red = 0xff & (~src.red | dst.red);
dst.green = 0xff & (~src.green | dst.green);
dst.blue = 0xff & (~src.blue | dst.blue);
},
/* AND inverted destination */
0x2: function (src, dst) {
dst.red = 0xff & (src.red & ~dst.red);
dst.green = 0xff & (src.green & ~dst.green);
dst.blue = 0xff & (src.blue & ~dst.blue);
},
/* OR inverted destination */
0xb: function (src, dst) {
dst.red = 0xff & (src.red | ~dst.red);
dst.green = 0xff & (src.green | ~dst.green);
dst.blue = 0xff & (src.blue | ~dst.blue);
},
};
/**
* A list of possible messages that can be sent by the server for processing
* by the client.
*
* @type {!Object.<string, number>}
*/
Guacamole.Client.Message = {
/**
* A client message that indicates that a user has joined an existing
* connection. This message expects a single additional argument - the
* name of the user who has joined the connection.
*
* @type {!number}
*/
USER_JOINED: 0x0001,
/**
* A client message that indicates that a user has left an existing
* connection. This message expects a single additional argument - the
* name of the user who has left the connection.
*
* @type {!number}
*/
USER_LEFT: 0x0002,
};
/**
* A reader which automatically handles the given input stream, returning
* received blobs as a single data URI built over the course of the stream.
* Note that this object will overwrite any installed event handlers on the
* given Guacamole.InputStream.
*
* @constructor
* @param {!Guacamole.InputStream} stream
* The stream that data will be read from.
*
* @param {!string} mimetype
* The mimetype of the data being received.
*/
Guacamole.DataURIReader = function (stream, mimetype) {
/**
* Reference to this Guacamole.DataURIReader.
*
* @private
* @type {!Guacamole.DataURIReader}
*/
var guac_reader = this;
/**
* Current data URI.
*
* @private
* @type {!string}
*/
var uri = 'data:' + mimetype + ';base64,';
// Receive blobs as array buffers
stream.onblob = function dataURIReaderBlob(data) {
// Currently assuming data will ALWAYS be safe to simply append. This
// will not be true if the received base64 data encodes a number of
// bytes that isn't a multiple of three (as base64 expands in a ratio
// of exactly 3:4).
uri += data;
};
// Simply call onend when end received
stream.onend = function dataURIReaderEnd() {
if (guac_reader.onend) guac_reader.onend();
};
/**
* Returns the data URI of all data received through the underlying stream
* thus far.
*
* @returns {!string}
* The data URI of all data received through the underlying stream thus
* far.
*/
this.getURI = function getURI() {
return uri;
};
/**
* Fired once this stream is finished and no further data will be written.
*
* @event
*/
this.onend = null;
};
/**
* The Guacamole display. The display does not deal with the Guacamole
* protocol, and instead implements a set of graphical operations which
* embody the set of operations present in the protocol. The order operations
* are executed is guaranteed to be in the same order as their corresponding
* functions are called.
*
* @constructor
*/
Guacamole.Display = function () {
/**
* Reference to this Guacamole.Display.
* @private
*/
var guac_display = this;
var displayWidth = 0;
var displayHeight = 0;
var displayScale = 1;
// Create display
var display = document.createElement('div');
display.style.position = 'relative';
display.style.width = displayWidth + 'px';
display.style.height = displayHeight + 'px';
// Ensure transformations on display originate at 0,0
display.style.transformOrigin =
display.style.webkitTransformOrigin =
display.style.MozTransformOrigin =
display.style.OTransformOrigin =
display.style.msTransformOrigin =
'0 0';
// Create default layer
var default_layer = new Guacamole.Display.VisibleLayer(displayWidth, displayHeight);
// Create cursor layer
var cursor = new Guacamole.Display.VisibleLayer(0, 0);
cursor.setChannelMask(Guacamole.Layer.SRC);
// Add default layer and cursor to display
display.appendChild(default_layer.getElement());
display.appendChild(cursor.getElement());
// Create bounding div
var bounds = document.createElement('div');
bounds.style.position = 'relative';
bounds.style.width = displayWidth * displayScale + 'px';
bounds.style.height = displayHeight * displayScale + 'px';
// Add display to bounds
bounds.appendChild(display);
/**
* The X coordinate of the hotspot of the mouse cursor. The hotspot is
* the relative location within the image of the mouse cursor at which
* each click occurs.
*
* @type {!number}
*/
this.cursorHotspotX = 0;
/**
* The Y coordinate of the hotspot of the mouse cursor. The hotspot is
* the relative location within the image of the mouse cursor at which
* each click occurs.
*
* @type {!number}
*/
this.cursorHotspotY = 0;
/**
* The current X coordinate of the local mouse cursor. This is not
* necessarily the location of the actual mouse - it refers only to
* the location of the cursor image within the Guacamole display, as
* last set by moveCursor().
*
* @type {!number}
*/
this.cursorX = 0;
/**
* The current X coordinate of the local mouse cursor. This is not
* necessarily the location of the actual mouse - it refers only to
* the location of the cursor image within the Guacamole display, as
* last set by moveCursor().
*
* @type {!number}
*/
this.cursorY = 0;
/**
* The number of milliseconds over which display rendering statistics
* should be gathered, dispatching {@link #onstatistics} events as those
* statistics are available. If set to zero, no statistics will be
* gathered.
*
* @default 0
* @type {!number}
*/
this.statisticWindow = 0;
/**
* Fired when the default layer (and thus the entire Guacamole display)
* is resized.
*
* @event
* @param {!number} width
* The new width of the Guacamole display.
*
* @param {!number} height
* The new height of the Guacamole display.
*/
this.onresize = null;
/**
* Fired whenever the local cursor image is changed. This can be used to
* implement special handling of the client-side cursor, or to override
* the default use of a software cursor layer.
*
* @event
* @param {!HTMLCanvasElement} canvas
* The cursor image.
*
* @param {!number} x
* The X-coordinate of the cursor hotspot.
*
* @param {!number} y
* The Y-coordinate of the cursor hotspot.
*/
this.oncursor = null;
/**
* Fired whenever performance statistics are available for recently-
* rendered frames. This event will fire only if {@link #statisticWindow}
* is non-zero.
*
* @event
* @param {!Guacamole.Display.Statistics} stats
* An object containing general rendering performance statistics for
* the remote desktop, Guacamole server, and Guacamole client.
*/
this.onstatistics = null;
/**
* The queue of all pending Tasks. Tasks will be run in order, with new
* tasks added at the end of the queue and old tasks removed from the
* front of the queue (FIFO). These tasks will eventually be grouped
* into a Frame.
*
* @private
* @type {!Task[]}
*/
var tasks = [];
/**
* The queue of all frames. Each frame is a pairing of an array of tasks
* and a callback which must be called when the frame is rendered.
*
* @private
* @type {!Frame[]}
*/
var frames = [];
/**
* The ID of the animation frame request returned by the last call to
* requestAnimationFrame(). This value will only be set if the browser
* supports requestAnimationFrame(), if a frame render is currently
* pending, and if the current browser tab is currently focused (likely to
* handle requests for animation frames). In all other cases, this will be
* null.
*
* @private
* @type {number}
*/
var inProgressFrame = null;
/**
* Flushes all pending frames synchronously. This function will block until
* all pending frames have rendered. If a frame is currently blocked by an
* asynchronous operation like an image load, this function will return
* after reaching that operation and the flush operation will
* automamtically resume after that operation completes.
*
* @private
*/
var syncFlush = function syncFlush() {
var localTimestamp = 0;
var remoteTimestamp = 0;
var renderedLogicalFrames = 0;
var rendered_frames = 0;
// Draw all pending frames, if ready
while (rendered_frames < frames.length) {
var frame = frames[rendered_frames];
if (!frame.isReady()) break;
frame.flush();
localTimestamp = frame.localTimestamp;
remoteTimestamp = frame.remoteTimestamp;
renderedLogicalFrames += frame.logicalFrames;
rendered_frames++;
}
// Remove rendered frames from array
frames.splice(0, rendered_frames);
if (rendered_frames) notifyFlushed(localTimestamp, remoteTimestamp, renderedLogicalFrames);
};
/**
* Flushes all pending frames asynchronously. This function returns
* immediately, relying on requestAnimationFrame() to dictate when each
* frame should be flushed.
*
* @private
*/
var asyncFlush = function asyncFlush() {
var continueFlush = function continueFlush() {
// We're no longer waiting to render a frame
inProgressFrame = null;
// Nothing to do if there are no frames remaining
if (!frames.length) return;
// Flush the next frame only if it is ready (not awaiting
// completion of some asynchronous operation like an image load)
if (frames[0].isReady()) {
var frame = frames.shift();
frame.flush();
notifyFlushed(frame.localTimestamp, frame.remoteTimestamp, frame.logicalFrames);
}
// Request yet another animation frame if frames remain to be
// flushed
if (frames.length) inProgressFrame = window.requestAnimationFrame(continueFlush);
};
// Begin flushing frames if not already waiting to render a frame
if (!inProgressFrame) inProgressFrame = window.requestAnimationFrame(continueFlush);
};
/**
* Recently-gathered display render statistics, as made available by calls
* to notifyFlushed(). The contents of this array will be trimmed to
* contain only up to {@link #statisticWindow} milliseconds of statistics.
*
* @private
* @type {Guacamole.Display.Statistics[]}
*/
var statistics = [];
/**
* Notifies that one or more frames have been successfully rendered
* (flushed) to the display.
*
* @private
* @param {!number} localTimestamp
* The local timestamp of the point in time at which the most recent,
* flushed frame was received by the display, in milliseconds since the
* Unix Epoch.
*
* @param {!number} remoteTimestamp
* The remote timestamp of sync instruction associated with the most
* recent, flushed frame received by the display. This timestamp is in
* milliseconds, but is arbitrary, having meaning only relative to
* other timestamps in the same connection.
*
* @param {!number} logicalFrames
* The number of remote desktop frames that were flushed.
*/
var notifyFlushed = function notifyFlushed(localTimestamp, remoteTimestamp, logicalFrames) {
// Ignore if statistics are not being gathered
if (!guac_display.statisticWindow) return;
var current = new Date().getTime();
// Find the first statistic that is still within the configured time
// window
for (var first = 0; first < statistics.length; first++) {
if (current - statistics[first].timestamp <= guac_display.statisticWindow) break;
}
// Remove all statistics except those within the time window
statistics.splice(0, first - 1);
// Record statistics for latest frame
statistics.push({
localTimestamp: localTimestamp,
remoteTimestamp: remoteTimestamp,
timestamp: current,
frames: logicalFrames,
});
// Determine the actual time interval of the available statistics (this
// will not perfectly match the configured interval, which is an upper
// bound)
var statDuration = (statistics[statistics.length - 1].timestamp - statistics[0].timestamp) / 1000;
// Determine the amount of time that elapsed remotely (within the
// remote desktop)
var remoteDuration = (statistics[statistics.length - 1].remoteTimestamp - statistics[0].remoteTimestamp) / 1000;
// Calculate the number of frames that have been rendered locally
// within the configured time interval
var localFrames = statistics.length;
// Calculate the number of frames actually received from the remote
// desktop by the Guacamole server
var remoteFrames = statistics.reduce(function sumFrames(prev, stat) {
return prev + stat.frames;
}, 0);
// Calculate the number of frames that the Guacamole server had to
// drop or combine with other frames
var drops = statistics.reduce(function sumDrops(prev, stat) {
return prev + Math.max(0, stat.frames - 1);
}, 0);
// Produce lag and FPS statistics from above raw measurements
var stats = new Guacamole.Display.Statistics({
processingLag: current - localTimestamp,
desktopFps: remoteDuration && remoteFrames ? remoteFrames / remoteDuration : null,
clientFps: statDuration ? localFrames / statDuration : null,
serverFps: remoteDuration ? localFrames / remoteDuration : null,
dropRate: remoteDuration ? drops / remoteDuration : null,
});
// Notify of availability of new statistics
if (guac_display.onstatistics) guac_display.onstatistics(stats);
};
// Switch from asynchronous frame handling to synchronous frame handling if
// requestAnimationFrame() is unlikely to be usable (browsers may not
// invoke the animation frame callback if the relevant tab is not focused)
window.addEventListener(
'blur',
function switchToSyncFlush() {
if (inProgressFrame && !document.hasFocus()) {
// Cancel pending asynchronous processing of frame ...
window.cancelAnimationFrame(inProgressFrame);
inProgressFrame = null;
// ... and instead process it synchronously
syncFlush();
}
},
true
);
/**
* Flushes all pending frames.
* @private
*/
function __flush_frames() {
if (window.requestAnimationFrame && document.hasFocus()) asyncFlush();
else syncFlush();
}
/**
* An ordered list of tasks which must be executed atomically. Once
* executed, an associated (and optional) callback will be called.
*
* @private
* @constructor
* @param {function} [callback]
* The function to call when this frame is rendered.
*
* @param {!Task[]} tasks
* The set of tasks which must be executed to render this frame.
*
* @param {number} [timestamp]
* The remote timestamp of sync instruction associated with this frame.
* This timestamp is in milliseconds, but is arbitrary, having meaning
* only relative to other remote timestamps in the same connection. If
* omitted, a compatible but local timestamp will be used instead.
*
* @param {number} [logicalFrames=0]
* The number of remote desktop frames that were combined to produce
* this frame, or zero if this value is unknown or inapplicable.
*/
var Frame = function Frame(callback, tasks, timestamp, logicalFrames) {
/**
* The local timestamp of the point in time at which this frame was
* received by the display, in milliseconds since the Unix Epoch.
*
* @type {!number}
*/
this.localTimestamp = new Date().getTime();
/**
* The remote timestamp of sync instruction associated with this frame.
* This timestamp is in milliseconds, but is arbitrary, having meaning
* only relative to other remote timestamps in the same connection.
*
* @type {!number}
*/
this.remoteTimestamp = timestamp || this.localTimestamp;
/**
* The number of remote desktop frames that were combined to produce
* this frame. If unknown or not applicable, this will be zero.
*
* @type {!number}
*/
this.logicalFrames = logicalFrames || 0;
/**
* Cancels rendering of this frame and all associated tasks. The
* callback provided at construction time, if any, is not invoked.
*/
this.cancel = function cancel() {
callback = null;
tasks.forEach(function cancelTask(task) {
task.cancel();
});
tasks = [];
};
/**
* Returns whether this frame is ready to be rendered. This function
* returns true if and only if ALL underlying tasks are unblocked.
*
* @returns {!boolean}
* true if all underlying tasks are unblocked, false otherwise.
*/
this.isReady = function () {
// Search for blocked tasks
for (var i = 0; i < tasks.length; i++) {
if (tasks[i].blocked) return false;
}
// If no blocked tasks, the frame is ready
return true;
};
/**
* Renders this frame, calling the associated callback, if any, after
* the frame is complete. This function MUST only be called when no
* blocked tasks exist. Calling this function with blocked tasks
* will result in undefined behavior.
*/
this.flush = function () {
// Draw all pending tasks.
for (var i = 0; i < tasks.length; i++) tasks[i].execute();
// Call callback
if (callback) callback();
};
};
/**
* A container for an task handler. Each operation which must be ordered
* is associated with a Task that goes into a task queue. Tasks in this
* queue are executed in order once their handlers are set, while Tasks
* without handlers block themselves and any following Tasks from running.
*
* @constructor
* @private
* @param {function} [taskHandler]
* The function to call when this task runs, if any.
*
* @param {boolean} [blocked]
* Whether this task should start blocked.
*/
function Task(taskHandler, blocked) {
/**
* Reference to this Task.
*
* @private
* @type {!Guacamole.Display.Task}
*/
var task = this;
/**
* Whether this Task is blocked.
*
* @type {boolean}
*/
this.blocked = blocked;
/**
* Cancels this task such that it will not run. The task handler
* provided at construction time, if any, is not invoked. Calling
* execute() after calling this function has no effect.
*/
this.cancel = function cancel() {
task.blocked = false;
taskHandler = null;
};
/**
* Unblocks this Task, allowing it to run.
*/
this.unblock = function () {
if (task.blocked) {
task.blocked = false;
__flush_frames();
}
};
/**
* Calls the handler associated with this task IMMEDIATELY. This
* function does not track whether this task is marked as blocked.
* Enforcing the blocked status of tasks is up to the caller.
*/
this.execute = function () {
if (taskHandler) taskHandler();
};
}
/**
* Schedules a task for future execution. The given handler will execute
* immediately after all previous tasks upon frame flush, unless this
* task is blocked. If any tasks is blocked, the entire frame will not
* render (and no tasks within will execute) until all tasks are unblocked.
*
* @private
* @param {function} [handler]
* The function to call when possible, if any.
*
* @param {boolean} [blocked]
* Whether the task should start blocked.
*
* @returns {!Task}
* The Task created and added to the queue for future running.
*/
function scheduleTask(handler, blocked) {
var task = new Task(handler, blocked);
tasks.push(task);
return task;
}
/**
* Returns the element which contains the Guacamole display.
*
* @return {!Element}
* The element containing the Guacamole display.
*/
this.getElement = function () {
return bounds;
};
/**
* Returns the width of this display.
*
* @return {!number}
* The width of this display;
*/
this.getWidth = function () {
return displayWidth;
};
/**
* Returns the height of this display.
*
* @return {!number}
* The height of this display;
*/
this.getHeight = function () {
return displayHeight;
};
/**
* Returns the default layer of this display. Each Guacamole display always
* has at least one layer. Other layers can optionally be created within
* this layer, but the default layer cannot be removed and is the absolute
* ancestor of all other layers.
*
* @return {!Guacamole.Display.VisibleLayer}
* The default layer.
*/
this.getDefaultLayer = function () {
return default_layer;
};
/**
* Returns the cursor layer of this display. Each Guacamole display contains
* a layer for the image of the mouse cursor. This layer is a special case
* and exists above all other layers, similar to the hardware mouse cursor.
*
* @return {!Guacamole.Display.VisibleLayer}
* The cursor layer.
*/
this.getCursorLayer = function () {
return cursor;
};
/**
* Creates a new layer. The new layer will be a direct child of the default
* layer, but can be moved to be a child of any other layer. Layers returned
* by this function are visible.
*
* @return {!Guacamole.Display.VisibleLayer}
* The newly-created layer.
*/
this.createLayer = function () {
var layer = new Guacamole.Display.VisibleLayer(displayWidth, displayHeight);
layer.move(default_layer, 0, 0, 0);
return layer;
};
/**
* Creates a new buffer. Buffers are invisible, off-screen surfaces. They
* are implemented in the same manner as layers, but do not provide the
* same nesting semantics.
*
* @return {!Guacamole.Layer}
* The newly-created buffer.
*/
this.createBuffer = function () {
var buffer = new Guacamole.Layer(0, 0);
buffer.autosize = 1;
return buffer;
};
/**
* Flush all pending draw tasks, if possible, as a new frame. If the entire
* frame is not ready, the flush will wait until all required tasks are
* unblocked.
*
* @param {function} [callback]
* The function to call when this frame is flushed. This may happen
* immediately, or later when blocked tasks become unblocked.
*
* @param {number} timestamp
* The remote timestamp of sync instruction associated with this frame.
* This timestamp is in milliseconds, but is arbitrary, having meaning
* only relative to other remote timestamps in the same connection.
*
* @param {number} logicalFrames
* The number of remote desktop frames that were combined to produce
* this frame.
*/
this.flush = function (callback, timestamp, logicalFrames) {
// Add frame, reset tasks
frames.push(new Frame(callback, tasks, timestamp, logicalFrames));
tasks = [];
// Attempt flush
__flush_frames();
};
/**
* Cancels rendering of all pending frames and associated rendering
* operations. The callbacks provided to outstanding past calls to flush(),
* if any, are not invoked.
*/
this.cancel = function cancel() {
frames.forEach(function cancelFrame(frame) {
frame.cancel();
});
frames = [];
tasks.forEach(function cancelTask(task) {
task.cancel();
});
tasks = [];
};
/**
* Sets the hotspot and image of the mouse cursor displayed within the
* Guacamole display.
*
* @param {!number} hotspotX
* The X coordinate of the cursor hotspot.
*
* @param {!number} hotspotY
* The Y coordinate of the cursor hotspot.
*
* @param {!Guacamole.Layer} layer
* The source layer containing the data which should be used as the
* mouse cursor image.
*
* @param {!number} srcx
* The X coordinate of the upper-left corner of the rectangle within
* the source layer's coordinate space to copy data from.
*
* @param {!number} srcy
* The Y coordinate of the upper-left corner of the rectangle within
* the source layer's coordinate space to copy data from.
*
* @param {!number} srcw
* The width of the rectangle within the source layer's coordinate
* space to copy data from.
*
* @param {!number} srch
* The height of the rectangle within the source layer's coordinate
* space to copy data from.
*/
this.setCursor = function (hotspotX, hotspotY, layer, srcx, srcy, srcw, srch) {
scheduleTask(function __display_set_cursor() {
// Set hotspot
guac_display.cursorHotspotX = hotspotX;
guac_display.cursorHotspotY = hotspotY;
// Reset cursor size
cursor.resize(srcw, srch);
// Draw cursor to cursor layer
cursor.copy(layer, srcx, srcy, srcw, srch, 0, 0);
guac_display.moveCursor(guac_display.cursorX, guac_display.cursorY);
// Fire cursor change event
if (guac_display.oncursor) guac_display.oncursor(cursor.toCanvas(), hotspotX, hotspotY);
});
};
/**
* Sets whether the software-rendered cursor is shown. This cursor differs
* from the hardware cursor in that it is built into the Guacamole.Display,
* and relies on its own Guacamole layer to render.
*
* @param {boolean} [shown=true]
* Whether to show the software cursor.
*/
this.showCursor = function (shown) {
var element = cursor.getElement();
var parent = element.parentNode;
// Remove from DOM if hidden
if (shown === false) {
if (parent) parent.removeChild(element);
}
// Otherwise, ensure cursor is child of display
else if (parent !== display) display.appendChild(element);
};
/**
* Sets the location of the local cursor to the given coordinates. For the
* sake of responsiveness, this function performs its action immediately.
* Cursor motion is not maintained within atomic frames.
*
* @param {!number} x
* The X coordinate to move the cursor to.
*
* @param {!number} y
* The Y coordinate to move the cursor to.
*/
this.moveCursor = function (x, y) {
// Move cursor layer
cursor.translate(x - guac_display.cursorHotspotX, y - guac_display.cursorHotspotY);
// Update stored position
guac_display.cursorX = x;
guac_display.cursorY = y;
};
/**
* Changes the size of the given Layer to the given width and height.
* Resizing is only attempted if the new size provided is actually different
* from the current size.
*
* @param {!Guacamole.Layer} layer
* The layer to resize.
*
* @param {!number} width
* The new width.
*
* @param {!number} height
* The new height.
*/
this.resize = function (layer, width, height) {
scheduleTask(function __display_resize() {
layer.resize(width, height);
// Resize display if default layer is resized
if (layer === default_layer) {
// Update (set) display size
displayWidth = width;
displayHeight = height;
display.style.width = displayWidth + 'px';
display.style.height = displayHeight + 'px';
// Update bounds size
bounds.style.width = displayWidth * displayScale + 'px';
bounds.style.height = displayHeight * displayScale + 'px';
// Notify of resize
if (guac_display.onresize) guac_display.onresize(width, height);
}
});
};
/**
* Draws the specified image at the given coordinates. The image specified
* must already be loaded.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*
* @param {!CanvasImageSource} image
* The image to draw. Note that this not a URL.
*/
this.drawImage = function (layer, x, y, image) {
scheduleTask(function __display_drawImage() {
layer.drawImage(x, y, image);
});
};
/**
* Draws the image contained within the specified Blob at the given
* coordinates. The Blob specified must already be populated with image
* data.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*
* @param {!Blob} blob
* The Blob containing the image data to draw.
*/
this.drawBlob = function (layer, x, y, blob) {
var task;
// Prefer createImageBitmap() over blob URLs if available
if (window.createImageBitmap) {
var bitmap;
// Draw image once loaded
task = scheduleTask(function drawImageBitmap() {
layer.drawImage(x, y, bitmap);
}, true);
// Load image from provided blob
window.createImageBitmap(blob).then(function bitmapLoaded(decoded) {
bitmap = decoded;
task.unblock();
});
}
// Use blob URLs and the Image object if createImageBitmap() is
// unavailable
else {
// Create URL for blob
var url = URL.createObjectURL(blob);
// Draw and free blob URL when ready
task = scheduleTask(function __display_drawBlob() {
// Draw the image only if it loaded without errors
if (image.width && image.height) layer.drawImage(x, y, image);
// Blob URL no longer needed
URL.revokeObjectURL(url);
}, true);
// Load image from URL
var image = new Image();
image.onload = task.unblock;
image.onerror = task.unblock;
image.src = url;
}
};
/**
* Draws the image within the given stream at the given coordinates. The
* image will be loaded automatically, and this and any future operations
* will wait for the image to finish loading. This function will
* automatically choose an appropriate method for reading and decoding the
* given image stream, and should be preferred for received streams except
* where manual decoding of the stream is unavoidable.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*
* @param {!Guacamole.InputStream} stream
* The stream along which image data will be received.
*
* @param {!string} mimetype
* The mimetype of the image within the stream.
*/
this.drawStream = function drawStream(layer, x, y, stream, mimetype) {
// If createImageBitmap() is available, load the image as a blob so
// that function can be used
if (window.createImageBitmap) {
var reader = new Guacamole.BlobReader(stream, mimetype);
reader.onend = function drawImageBlob() {
guac_display.drawBlob(layer, x, y, reader.getBlob());
};
}
// Lacking createImageBitmap(), fall back to data URIs and the Image
// object
else {
let reader = new Guacamole.DataURIReader(stream, mimetype);
reader.onend = function drawImageDataURI() {
guac_display.draw(layer, x, y, reader.getURI());
};
}
};
/**
* Draws the image at the specified URL at the given coordinates. The image
* will be loaded automatically, and this and any future operations will
* wait for the image to finish loading.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*
* @param {!string} url
* The URL of the image to draw.
*/
this.draw = function (layer, x, y, url) {
var task = scheduleTask(function __display_draw() {
// Draw the image only if it loaded without errors
if (image.width && image.height) layer.drawImage(x, y, image);
}, true);
var image = new Image();
image.onload = task.unblock;
image.onerror = task.unblock;
image.src = url;
};
/**
* Plays the video at the specified URL within this layer. The video
* will be loaded automatically, and this and any future operations will
* wait for the video to finish loading. Future operations will not be
* executed until the video finishes playing.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!string} mimetype
* The mimetype of the video to play.
*
* @param {!number} duration
* The duration of the video in milliseconds.
*
* @param {!string} url
* The URL of the video to play.
*/
this.play = function (layer, mimetype, duration, url) {
// Start loading the video
var video = document.createElement('video');
video.type = mimetype;
video.src = url;
// Start copying frames when playing
video.addEventListener(
'play',
function () {
function render_callback() {
layer.drawImage(0, 0, video);
if (!video.ended) window.setTimeout(render_callback, 20);
}
render_callback();
},
false
);
scheduleTask(video.play);
};
/**
* Transfer a rectangle of image data from one Layer to this Layer using the
* specified transfer function.
*
* @param {!Guacamole.Layer} srcLayer
* The Layer to copy image data from.
*
* @param {!number} srcx
* The X coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcy
* The Y coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcw
* The width of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} srch
* The height of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!Guacamole.Layer} dstLayer
* The layer to draw upon.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*
* @param {!function} transferFunction
* The transfer function to use to transfer data from source to
* destination.
*/
this.transfer = function (srcLayer, srcx, srcy, srcw, srch, dstLayer, x, y, transferFunction) {
scheduleTask(function __display_transfer() {
dstLayer.transfer(srcLayer, srcx, srcy, srcw, srch, x, y, transferFunction);
});
};
/**
* Put a rectangle of image data from one Layer to this Layer directly
* without performing any alpha blending. Simply copy the data.
*
* @param {!Guacamole.Layer} srcLayer
* The Layer to copy image data from.
*
* @param {!number} srcx
* The X coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcy
* The Y coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcw
* The width of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} srch
* The height of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!Guacamole.Layer} dstLayer
* The layer to draw upon.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*/
this.put = function (srcLayer, srcx, srcy, srcw, srch, dstLayer, x, y) {
scheduleTask(function __display_put() {
dstLayer.put(srcLayer, srcx, srcy, srcw, srch, x, y);
});
};
/**
* Copy a rectangle of image data from one Layer to this Layer. This
* operation will copy exactly the image data that will be drawn once all
* operations of the source Layer that were pending at the time this
* function was called are complete. This operation will not alter the
* size of the source Layer even if its autosize property is set to true.
*
* @param {!Guacamole.Layer} srcLayer
* The Layer to copy image data from.
*
* @param {!number} srcx
* The X coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcy
* The Y coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcw
* The width of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} srch
* The height of the rectangle within the source Layer's coordinate space to copy data from.
*
* @param {!Guacamole.Layer} dstLayer
* The layer to draw upon.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*/
this.copy = function (srcLayer, srcx, srcy, srcw, srch, dstLayer, x, y) {
scheduleTask(function __display_copy() {
dstLayer.copy(srcLayer, srcx, srcy, srcw, srch, x, y);
});
};
/**
* Starts a new path at the specified point.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} x
* The X coordinate of the point to draw.
*
* @param {!number} y
* The Y coordinate of the point to draw.
*/
this.moveTo = function (layer, x, y) {
scheduleTask(function __display_moveTo() {
layer.moveTo(x, y);
});
};
/**
* Add the specified line to the current path.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} x
* The X coordinate of the endpoint of the line to draw.
*
* @param {!number} y
* The Y coordinate of the endpoint of the line to draw.
*/
this.lineTo = function (layer, x, y) {
scheduleTask(function __display_lineTo() {
layer.lineTo(x, y);
});
};
/**
* Add the specified arc to the current path.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} x
* The X coordinate of the center of the circle which will contain the
* arc.
*
* @param {!number} y
* The Y coordinate of the center of the circle which will contain the
* arc.
*
* @param {!number} radius
* The radius of the circle.
*
* @param {!number} startAngle
* The starting angle of the arc, in radians.
*
* @param {!number} endAngle
* The ending angle of the arc, in radians.
*
* @param {!boolean} negative
* Whether the arc should be drawn in order of decreasing angle.
*/
this.arc = function (layer, x, y, radius, startAngle, endAngle, negative) {
scheduleTask(function __display_arc() {
layer.arc(x, y, radius, startAngle, endAngle, negative);
});
};
/**
* Starts a new path at the specified point.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} cp1x
* The X coordinate of the first control point.
*
* @param {!number} cp1y
* The Y coordinate of the first control point.
*
* @param {!number} cp2x
* The X coordinate of the second control point.
*
* @param {!number} cp2y
* The Y coordinate of the second control point.
*
* @param {!number} x
* The X coordinate of the endpoint of the curve.
*
* @param {!number} y
* The Y coordinate of the endpoint of the curve.
*/
this.curveTo = function (layer, cp1x, cp1y, cp2x, cp2y, x, y) {
scheduleTask(function __display_curveTo() {
layer.curveTo(cp1x, cp1y, cp2x, cp2y, x, y);
});
};
/**
* Closes the current path by connecting the end point with the start
* point (if any) with a straight line.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*/
this.close = function (layer) {
scheduleTask(function __display_close() {
layer.close();
});
};
/**
* Add the specified rectangle to the current path.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} x
* The X coordinate of the upper-left corner of the rectangle to draw.
*
* @param {!number} y
* The Y coordinate of the upper-left corner of the rectangle to draw.
*
* @param {!number} w
* The width of the rectangle to draw.
*
* @param {!number} h
* The height of the rectangle to draw.
*/
this.rect = function (layer, x, y, w, h) {
scheduleTask(function __display_rect() {
layer.rect(x, y, w, h);
});
};
/**
* Clip all future drawing operations by the current path. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as fillColor()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!Guacamole.Layer} layer
* The layer to affect.
*/
this.clip = function (layer) {
scheduleTask(function __display_clip() {
layer.clip();
});
};
/**
* Stroke the current path with the specified color. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as clip()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!string} cap
* The line cap style. Can be "round", "square", or "butt".
*
* @param {!string} join
* The line join style. Can be "round", "bevel", or "miter".
*
* @param {!number} thickness
* The line thickness in pixels.
*
* @param {!number} r
* The red component of the color to fill.
*
* @param {!number} g
* The green component of the color to fill.
*
* @param {!number} b
* The blue component of the color to fill.
*
* @param {!number} a
* The alpha component of the color to fill.
*/
this.strokeColor = function (layer, cap, join, thickness, r, g, b, a) {
scheduleTask(function __display_strokeColor() {
layer.strokeColor(cap, join, thickness, r, g, b, a);
});
};
/**
* Fills the current path with the specified color. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as clip()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!number} r
* The red component of the color to fill.
*
* @param {!number} g
* The green component of the color to fill.
*
* @param {!number} b
* The blue component of the color to fill.
*
* @param {!number} a
* The alpha component of the color to fill.
*/
this.fillColor = function (layer, r, g, b, a) {
scheduleTask(function __display_fillColor() {
layer.fillColor(r, g, b, a);
});
};
/**
* Stroke the current path with the image within the specified layer. The
* image data will be tiled infinitely within the stroke. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as clip()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!string} cap
* The line cap style. Can be "round", "square", or "butt".
*
* @param {!string} join
* The line join style. Can be "round", "bevel", or "miter".
*
* @param {!number} thickness
* The line thickness in pixels.
*
* @param {!Guacamole.Layer} srcLayer
* The layer to use as a repeating pattern within the stroke.
*/
this.strokeLayer = function (layer, cap, join, thickness, srcLayer) {
scheduleTask(function __display_strokeLayer() {
layer.strokeLayer(cap, join, thickness, srcLayer);
});
};
/**
* Fills the current path with the image within the specified layer. The
* image data will be tiled infinitely within the stroke. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as clip()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*
* @param {!Guacamole.Layer} srcLayer
* The layer to use as a repeating pattern within the fill.
*/
this.fillLayer = function (layer, srcLayer) {
scheduleTask(function __display_fillLayer() {
layer.fillLayer(srcLayer);
});
};
/**
* Push current layer state onto stack.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*/
this.push = function (layer) {
scheduleTask(function __display_push() {
layer.push();
});
};
/**
* Pop layer state off stack.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*/
this.pop = function (layer) {
scheduleTask(function __display_pop() {
layer.pop();
});
};
/**
* Reset the layer, clearing the stack, the current path, and any transform
* matrix.
*
* @param {!Guacamole.Layer} layer
* The layer to draw upon.
*/
this.reset = function (layer) {
scheduleTask(function __display_reset() {
layer.reset();
});
};
/**
* Sets the given affine transform (defined with six values from the
* transform's matrix).
*
* @param {!Guacamole.Layer} layer
* The layer to modify.
*
* @param {!number} a
* The first value in the affine transform's matrix.
*
* @param {!number} b
* The second value in the affine transform's matrix.
*
* @param {!number} c
* The third value in the affine transform's matrix.
*
* @param {!number} d
* The fourth value in the affine transform's matrix.
*
* @param {!number} e
* The fifth value in the affine transform's matrix.
*
* @param {!number} f
* The sixth value in the affine transform's matrix.
*/
this.setTransform = function (layer, a, b, c, d, e, f) {
scheduleTask(function __display_setTransform() {
layer.setTransform(a, b, c, d, e, f);
});
};
/**
* Applies the given affine transform (defined with six values from the
* transform's matrix).
*
* @param {!Guacamole.Layer} layer
* The layer to modify.
*
* @param {!number} a
* The first value in the affine transform's matrix.
*
* @param {!number} b
* The second value in the affine transform's matrix.
*
* @param {!number} c
* The third value in the affine transform's matrix.
*
* @param {!number} d
* The fourth value in the affine transform's matrix.
*
* @param {!number} e
* The fifth value in the affine transform's matrix.
*
* @param {!number} f
* The sixth value in the affine transform's matrix.
*
*/
this.transform = function (layer, a, b, c, d, e, f) {
scheduleTask(function __display_transform() {
layer.transform(a, b, c, d, e, f);
});
};
/**
* Sets the channel mask for future operations on this Layer.
*
* The channel mask is a Guacamole-specific compositing operation identifier
* with a single bit representing each of four channels (in order): source
* image where destination transparent, source where destination opaque,
* destination where source transparent, and destination where source
* opaque.
*
* @param {!Guacamole.Layer} layer
* The layer to modify.
*
* @param {!number} mask
* The channel mask for future operations on this Layer.
*/
this.setChannelMask = function (layer, mask) {
scheduleTask(function __display_setChannelMask() {
layer.setChannelMask(mask);
});
};
/**
* Sets the miter limit for stroke operations using the miter join. This
* limit is the maximum ratio of the size of the miter join to the stroke
* width. If this ratio is exceeded, the miter will not be drawn for that
* joint of the path.
*
* @param {!Guacamole.Layer} layer
* The layer to modify.
*
* @param {!number} limit
* The miter limit for stroke operations using the miter join.
*/
this.setMiterLimit = function (layer, limit) {
scheduleTask(function __display_setMiterLimit() {
layer.setMiterLimit(limit);
});
};
/**
* Removes the given layer container entirely, such that it is no longer
* contained within its parent layer, if any.
*
* @param {!Guacamole.Display.VisibleLayer} layer
* The layer being removed from its parent.
*/
this.dispose = function dispose(layer) {
scheduleTask(function disposeLayer() {
layer.dispose();
});
};
/**
* Applies the given affine transform (defined with six values from the
* transform's matrix) to the given layer.
*
* @param {!Guacamole.Display.VisibleLayer} layer
* The layer being distorted.
*
* @param {!number} a
* The first value in the affine transform's matrix.
*
* @param {!number} b
* The second value in the affine transform's matrix.
*
* @param {!number} c
* The third value in the affine transform's matrix.
*
* @param {!number} d
* The fourth value in the affine transform's matrix.
*
* @param {!number} e
* The fifth value in the affine transform's matrix.
*
* @param {!number} f
* The sixth value in the affine transform's matrix.
*/
this.distort = function distort(layer, a, b, c, d, e, f) {
scheduleTask(function distortLayer() {
layer.distort(a, b, c, d, e, f);
});
};
/**
* Moves the upper-left corner of the given layer to the given X and Y
* coordinate, sets the Z stacking order, and reparents the layer
* to the given parent layer.
*
* @param {!Guacamole.Display.VisibleLayer} layer
* The layer being moved.
*
* @param {!Guacamole.Display.VisibleLayer} parent
* The parent to set.
*
* @param {!number} x
* The X coordinate to move to.
*
* @param {!number} y
* The Y coordinate to move to.
*
* @param {!number} z
* The Z coordinate to move to.
*/
this.move = function move(layer, parent, x, y, z) {
scheduleTask(function moveLayer() {
layer.move(parent, x, y, z);
});
};
/**
* Sets the opacity of the given layer to the given value, where 255 is
* fully opaque and 0 is fully transparent.
*
* @param {!Guacamole.Display.VisibleLayer} layer
* The layer whose opacity should be set.
*
* @param {!number} alpha
* The opacity to set.
*/
this.shade = function shade(layer, alpha) {
scheduleTask(function shadeLayer() {
layer.shade(alpha);
});
};
/**
* Sets the scale of the client display element such that it renders at
* a relatively smaller or larger size, without affecting the true
* resolution of the display.
*
* @param {!number} scale
* The scale to resize to, where 1.0 is normal size (1:1 scale).
*/
this.scale = function (scale) {
display.style.transform =
display.style.WebkitTransform =
display.style.MozTransform =
display.style.OTransform =
display.style.msTransform =
'scale(' + scale + ',' + scale + ')';
displayScale = scale;
// Update bounds size
bounds.style.width = displayWidth * displayScale + 'px';
bounds.style.height = displayHeight * displayScale + 'px';
};
/**
* Returns the scale of the display.
*
* @return {!number}
* The scale of the display.
*/
this.getScale = function () {
return displayScale;
};
/**
* Returns a canvas element containing the entire display, with all child
* layers composited within.
*
* @return {!HTMLCanvasElement}
* A new canvas element containing a copy of the display.
*/
this.flatten = function () {
// Get destination canvas
var canvas = document.createElement('canvas');
canvas.width = default_layer.width;
canvas.height = default_layer.height;
var context = canvas.getContext('2d');
// Returns sorted array of children
function get_children(layer) {
// Build array of children
var children = [];
for (var index in layer.children) children.push(layer.children[index]);
// Sort
children.sort(function children_comparator(a, b) {
// Compare based on Z order
var diff = a.z - b.z;
if (diff !== 0) return diff;
// If Z order identical, use document order
var a_element = a.getElement();
var b_element = b.getElement();
var position = b_element.compareDocumentPosition(a_element);
if (position & Node.DOCUMENT_POSITION_PRECEDING) return -1;
if (position & Node.DOCUMENT_POSITION_FOLLOWING) return 1;
// Otherwise, assume same
return 0;
});
// Done
return children;
}
// Draws the contents of the given layer at the given coordinates
function draw_layer(layer, x, y) {
// Draw layer
if (layer.width > 0 && layer.height > 0) {
// Save and update alpha
var initial_alpha = context.globalAlpha;
context.globalAlpha *= layer.alpha / 255.0;
// Copy data
context.drawImage(layer.getCanvas(), x, y);
// Draw all children
var children = get_children(layer);
for (var i = 0; i < children.length; i++) {
var child = children[i];
draw_layer(child, x + child.x, y + child.y);
}
// Restore alpha
context.globalAlpha = initial_alpha;
}
}
// Draw default layer and all children
draw_layer(default_layer, 0, 0);
// Return new canvas copy
return canvas;
};
};
/**
* Simple container for Guacamole.Layer, allowing layers to be easily
* repositioned and nested. This allows certain operations to be accelerated
* through DOM manipulation, rather than raster operations.
*
* @constructor
* @augments Guacamole.Layer
* @param {!number} width
* The width of the Layer, in pixels. The canvas element backing this Layer
* will be given this width.
*
* @param {!number} height
* The height of the Layer, in pixels. The canvas element backing this
* Layer will be given this height.
*/
Guacamole.Display.VisibleLayer = function (width, height) {
Guacamole.Layer.apply(this, [width, height]);
/**
* Reference to this layer.
*
* @private
* @type {!Guacamole.Display.Layer}
*/
var layer = this;
/**
* Identifier which uniquely identifies this layer. This is COMPLETELY
* UNRELATED to the index of the underlying layer, which is specific
* to the Guacamole protocol, and not relevant at this level.
*
* @private
* @type {!number}
*/
this.__unique_id = Guacamole.Display.VisibleLayer.__next_id++;
/**
* The opacity of the layer container, where 255 is fully opaque and 0 is
* fully transparent.
*
* @type {!number}
*/
this.alpha = 0xff;
/**
* X coordinate of the upper-left corner of this layer container within
* its parent, in pixels.
*
* @type {!number}
*/
this.x = 0;
/**
* Y coordinate of the upper-left corner of this layer container within
* its parent, in pixels.
*
* @type {!number}
*/
this.y = 0;
/**
* Z stacking order of this layer relative to other sibling layers.
*
* @type {!number}
*/
this.z = 0;
/**
* The affine transformation applied to this layer container. Each element
* corresponds to a value from the transformation matrix, with the first
* three values being the first row, and the last three values being the
* second row. There are six values total.
*
* @type {!number[]}
*/
this.matrix = [1, 0, 0, 1, 0, 0];
/**
* The parent layer container of this layer, if any.
* @type {Guacamole.Display.VisibleLayer}
*/
this.parent = null;
/**
* Set of all children of this layer, indexed by layer index. This object
* will have one property per child.
*
* @type {!Object.<number, Guacamole.Display.VisibleLayer>}
*/
this.children = {};
// Set layer position
var canvas = layer.getCanvas();
canvas.style.position = 'absolute';
canvas.style.left = '0px';
canvas.style.top = '0px';
// Create div with given size
var div = document.createElement('div');
div.appendChild(canvas);
div.style.width = width + 'px';
div.style.height = height + 'px';
div.style.position = 'absolute';
div.style.left = '0px';
div.style.top = '0px';
div.style.overflow = 'hidden';
/**
* Superclass resize() function.
* @private
*/
var __super_resize = this.resize;
this.resize = function (width, height) {
// Resize containing div
div.style.width = width + 'px';
div.style.height = height + 'px';
__super_resize(width, height);
};
/**
* Returns the element containing the canvas and any other elements
* associated with this layer.
*
* @returns {!Element}
* The element containing this layer's canvas.
*/
this.getElement = function () {
return div;
};
/**
* The translation component of this layer's transform.
*
* @private
* @type {!string}
*/
var translate = 'translate(0px, 0px)'; // (0, 0)
/**
* The arbitrary matrix component of this layer's transform.
*
* @private
* @type {!string}
*/
var matrix = 'matrix(1, 0, 0, 1, 0, 0)'; // Identity
/**
* Moves the upper-left corner of this layer to the given X and Y
* coordinate.
*
* @param {!number} x
* The X coordinate to move to.
*
* @param {!number} y
* The Y coordinate to move to.
*/
this.translate = function (x, y) {
layer.x = x;
layer.y = y;
// Generate translation
translate = 'translate(' + x + 'px,' + y + 'px)';
// Set layer transform
div.style.transform = div.style.WebkitTransform = div.style.MozTransform = div.style.OTransform = div.style.msTransform = translate + ' ' + matrix;
};
/**
* Moves the upper-left corner of this VisibleLayer to the given X and Y
* coordinate, sets the Z stacking order, and reparents this VisibleLayer
* to the given VisibleLayer.
*
* @param {!Guacamole.Display.VisibleLayer} parent
* The parent to set.
*
* @param {!number} x
* The X coordinate to move to.
*
* @param {!number} y
* The Y coordinate to move to.
*
* @param {!number} z
* The Z coordinate to move to.
*/
this.move = function (parent, x, y, z) {
// Set parent if necessary
if (layer.parent !== parent) {
// Maintain relationship
if (layer.parent) delete layer.parent.children[layer.__unique_id];
layer.parent = parent;
parent.children[layer.__unique_id] = layer;
// Reparent element
var parent_element = parent.getElement();
parent_element.appendChild(div);
}
// Set location
layer.translate(x, y);
layer.z = z;
div.style.zIndex = z;
};
/**
* Sets the opacity of this layer to the given value, where 255 is fully
* opaque and 0 is fully transparent.
*
* @param {!number} a
* The opacity to set.
*/
this.shade = function (a) {
layer.alpha = a;
div.style.opacity = a / 255.0;
};
/**
* Removes this layer container entirely, such that it is no longer
* contained within its parent layer, if any.
*/
this.dispose = function () {
// Remove from parent container
if (layer.parent) {
delete layer.parent.children[layer.__unique_id];
layer.parent = null;
}
// Remove from parent element
if (div.parentNode) div.parentNode.removeChild(div);
};
/**
* Applies the given affine transform (defined with six values from the
* transform's matrix).
*
* @param {!number} a
* The first value in the affine transform's matrix.
*
* @param {!number} b
* The second value in the affine transform's matrix.
*
* @param {!number} c
* The third value in the affine transform's matrix.
*
* @param {!number} d
* The fourth value in the affine transform's matrix.
*
* @param {!number} e
* The fifth value in the affine transform's matrix.
*
* @param {!number} f
* The sixth value in the affine transform's matrix.
*/
this.distort = function (a, b, c, d, e, f) {
// Store matrix
layer.matrix = [a, b, c, d, e, f];
// Generate matrix transformation
matrix =
/* a c e
* b d f
* 0 0 1
*/
'matrix(' + a + ',' + b + ',' + c + ',' + d + ',' + e + ',' + f + ')';
// Set layer transform
div.style.transform = div.style.WebkitTransform = div.style.MozTransform = div.style.OTransform = div.style.msTransform = translate + ' ' + matrix;
};
};
/**
* The next identifier to be assigned to the layer container. This identifier
* uniquely identifies each VisibleLayer, but is unrelated to the index of
* the layer, which exists at the protocol/client level only.
*
* @private
* @type {!number}
*/
Guacamole.Display.VisibleLayer.__next_id = 0;
/**
* A set of Guacamole display performance statistics, describing the speed at
* which the remote desktop, Guacamole server, and Guacamole client are
* rendering frames.
*
* @constructor
* @param {Guacamole.Display.Statistics|Object} [template={}]
* The object whose properties should be copied within the new
* Guacamole.Display.Statistics.
*/
Guacamole.Display.Statistics = function Statistics(template) {
template = template || {};
/**
* The amount of time that the Guacamole client is taking to render
* individual frames, in milliseconds, if known. If this value is unknown,
* such as if the there are insufficient frame statistics recorded to
* calculate this value, this will be null.
*
* @type {?number}
*/
this.processingLag = template.processingLag;
/**
* The framerate of the remote desktop currently being viewed within the
* relevant Gucamole.Display, independent of Guacamole, in frames per
* second. This represents the speed at which the remote desktop is
* producing frame data for the Guacamole server to consume. If this
* value is unknown, such as if the remote desktop server does not actually
* define frame boundaries, this will be null.
*
* @type {?number}
*/
this.desktopFps = template.desktopFps;
/**
* The rate at which the Guacamole server is generating frames for the
* Guacamole client to consume, in frames per second. If the Guacamole
* server is correctly adjusting for variance in client/browser processing
* power, this rate should closely match the client rate, and should remain
* independent of any network latency. If this value is unknown, such as if
* the there are insufficient frame statistics recorded to calculate this
* value, this will be null.
*
* @type {?number}
*/
this.serverFps = template.serverFps;
/**
* The rate at which the Guacamole client is consuming frames generated by
* the Guacamole server, in frames per second. If the Guacamole server is
* correctly adjusting for variance in client/browser processing power,
* this rate should closely match the server rate, regardless of any
* latency on the network between the server and client. If this value is
* unknown, such as if the there are insufficient frame statistics recorded
* to calculate this value, this will be null.
*
* @type {?number}
*/
this.clientFps = template.clientFps;
/**
* The rate at which the Guacamole server is dropping or combining frames
* received from the remote desktop server to compensate for variance in
* client/browser processing power, in frames per second. This value may
* also be non-zero if the server is compensating for variances in its own
* processing power, or relative slowness in image compression vs. the rate
* that inbound frames are received. If this value is unknown, such as if
* the remote desktop server does not actually define frame boundaries,
* this will be null.
*/
this.dropRate = template.dropRate;
};
/**
* An arbitrary event, emitted by a {@link Guacamole.Event.Target}. This object
* should normally serve as the base class for a different object that is more
* specific to the event type.
*
* @constructor
* @param {!string} type
* The unique name of this event type.
*/
Guacamole.Event = function Event(type) {
/**
* The unique name of this event type.
*
* @type {!string}
*/
this.type = type;
/**
* An arbitrary timestamp in milliseconds, indicating this event's
* position in time relative to other events.
*
* @type {!number}
*/
this.timestamp = new Date().getTime();
/**
* Returns the number of milliseconds elapsed since this event was created.
*
* @return {!number}
* The number of milliseconds elapsed since this event was created.
*/
this.getAge = function getAge() {
return new Date().getTime() - this.timestamp;
};
/**
* Requests that the legacy event handler associated with this event be
* invoked on the given event target. This function will be invoked
* automatically by implementations of {@link Guacamole.Event.Target}
* whenever {@link Guacamole.Event.Target#emit emit()} is invoked.
* <p>
* Older versions of Guacamole relied on single event handlers with the
* prefix "on", such as "onmousedown" or "onkeyup". If a Guacamole.Event
* implementation is replacing the event previously represented by one of
* these handlers, this function gives the implementation the opportunity
* to provide backward compatibility with the old handler.
* <p>
* Unless overridden, this function does nothing.
*
* @param {!Guacamole.Event.Target} eventTarget
* The {@link Guacamole.Event.Target} that emitted this event.
*/
this.invokeLegacyHandler = function invokeLegacyHandler(eventTarget) {
// Do nothing
};
};
/**
* A {@link Guacamole.Event} that may relate to one or more DOM events.
* Continued propagation and default behavior of the related DOM events may be
* prevented with {@link Guacamole.Event.DOMEvent#stopPropagation stopPropagation()}
* and {@link Guacamole.Event.DOMEvent#preventDefault preventDefault()}
* respectively.
*
* @constructor
* @augments Guacamole.Event
*
* @param {!string} type
* The unique name of this event type.
*
* @param {Event|Event[]} [events=[]]
* The DOM events that are related to this event, if any. Future calls to
* {@link Guacamole.Event.DOMEvent#preventDefault preventDefault()} and
* {@link Guacamole.Event.DOMEvent#stopPropagation stopPropagation()} will
* affect these events.
*/
Guacamole.Event.DOMEvent = function DOMEvent(type, events) {
Guacamole.Event.call(this, type);
// Default to empty array
events = events || [];
// Automatically wrap non-array single Event in an array
if (!Array.isArray(events)) events = [events];
/**
* Requests that the default behavior of related DOM events be prevented.
* Whether this request will be honored by the browser depends on the
* nature of those events and the timing of the request.
*/
this.preventDefault = function preventDefault() {
events.forEach(function applyPreventDefault(event) {
if (event.preventDefault) event.preventDefault();
event.returnValue = false;
});
};
/**
* Stops further propagation of related events through the DOM. Only events
* that are directly related to this event will be stopped.
*/
this.stopPropagation = function stopPropagation() {
events.forEach(function applyStopPropagation(event) {
event.stopPropagation();
});
};
};
/**
* Convenience function for cancelling all further processing of a given DOM
* event. Invoking this function prevents the default behavior of the event and
* stops any further propagation.
*
* @param {!Event} event
* The DOM event to cancel.
*/
Guacamole.Event.DOMEvent.cancelEvent = function cancelEvent(event) {
event.stopPropagation();
if (event.preventDefault) event.preventDefault();
event.returnValue = false;
};
/**
* An object which can dispatch {@link Guacamole.Event} objects. Listeners
* registered with {@link Guacamole.Event.Target#on on()} will automatically
* be invoked based on the type of {@link Guacamole.Event} passed to
* {@link Guacamole.Event.Target#dispatch dispatch()}. It is normally
* subclasses of Guacamole.Event.Target that will dispatch events, and usages
* of those subclasses that will catch dispatched events with on().
*
* @constructor
*/
Guacamole.Event.Target = function Target() {
/**
* A callback function which handles an event dispatched by an event
* target.
*
* @callback Guacamole.Event.Target~listener
* @param {!Guacamole.Event} event
* The event that was dispatched.
*
* @param {!Guacamole.Event.Target} target
* The object that dispatched the event.
*/
/**
* All listeners (callback functions) registered for each event type passed
* to {@link Guacamole.Event.Targer#on on()}.
*
* @private
* @type {!Object.<string, Guacamole.Event.Target~listener[]>}
*/
var listeners = {};
/**
* Registers a listener for events having the given type, as dictated by
* the {@link Guacamole.Event#type type} property of {@link Guacamole.Event}
* provided to {@link Guacamole.Event.Target#dispatch dispatch()}.
*
* @param {!string} type
* The unique name of this event type.
*
* @param {!Guacamole.Event.Target~listener} listener
* The function to invoke when an event having the given type is
* dispatched. The {@link Guacamole.Event} object provided to
* {@link Guacamole.Event.Target#dispatch dispatch()} will be passed to
* this function, along with the dispatching Guacamole.Event.Target.
*/
this.on = function on(type, listener) {
var relevantListeners = listeners[type];
if (!relevantListeners) listeners[type] = relevantListeners = [];
relevantListeners.push(listener);
};
/**
* Registers a listener for events having the given types, as dictated by
* the {@link Guacamole.Event#type type} property of {@link Guacamole.Event}
* provided to {@link Guacamole.Event.Target#dispatch dispatch()}.
* <p>
* Invoking this function is equivalent to manually invoking
* {@link Guacamole.Event.Target#on on()} for each of the provided types.
*
* @param {!string[]} types
* The unique names of the event types to associate with the given
* listener.
*
* @param {!Guacamole.Event.Target~listener} listener
* The function to invoke when an event having any of the given types
* is dispatched. The {@link Guacamole.Event} object provided to
* {@link Guacamole.Event.Target#dispatch dispatch()} will be passed to
* this function, along with the dispatching Guacamole.Event.Target.
*/
this.onEach = function onEach(types, listener) {
types.forEach(function addListener(type) {
this.on(type, listener);
}, this);
};
/**
* Dispatches the given event, invoking all event handlers registered with
* this Guacamole.Event.Target for that event's
* {@link Guacamole.Event#type type}.
*
* @param {!Guacamole.Event} event
* The event to dispatch.
*/
this.dispatch = function dispatch(event) {
// Invoke any relevant legacy handler for the event
event.invokeLegacyHandler(this);
// Invoke all registered listeners
var relevantListeners = listeners[event.type];
if (relevantListeners) {
for (var i = 0; i < relevantListeners.length; i++) {
relevantListeners[i](event, this);
}
}
};
/**
* Unregisters a listener that was previously registered with
* {@link Guacamole.Event.Target#on on()} or
* {@link Guacamole.Event.Target#onEach onEach()}. If no such listener was
* registered, this function has no effect. If multiple copies of the same
* listener were registered, the first listener still registered will be
* removed.
*
* @param {!string} type
* The unique name of the event type handled by the listener being
* removed.
*
* @param {!Guacamole.Event.Target~listener} listener
* The listener function previously provided to
* {@link Guacamole.Event.Target#on on()}or
* {@link Guacamole.Event.Target#onEach onEach()}.
*
* @returns {!boolean}
* true if the specified listener was removed, false otherwise.
*/
this.off = function off(type, listener) {
var relevantListeners = listeners[type];
if (!relevantListeners) return false;
for (var i = 0; i < relevantListeners.length; i++) {
if (relevantListeners[i] === listener) {
relevantListeners.splice(i, 1);
return true;
}
}
return false;
};
/**
* Unregisters listeners that were previously registered with
* {@link Guacamole.Event.Target#on on()} or
* {@link Guacamole.Event.Target#onEach onEach()}. If no such listeners
* were registered, this function has no effect. If multiple copies of the
* same listener were registered for the same event type, the first
* listener still registered will be removed.
* <p>
* Invoking this function is equivalent to manually invoking
* {@link Guacamole.Event.Target#off off()} for each of the provided types.
*
* @param {!string[]} types
* The unique names of the event types handled by the listeners being
* removed.
*
* @param {!Guacamole.Event.Target~listener} listener
* The listener function previously provided to
* {@link Guacamole.Event.Target#on on()} or
* {@link Guacamole.Event.Target#onEach onEach()}.
*
* @returns {!boolean}
* true if any of the specified listeners were removed, false
* otherwise.
*/
this.offEach = function offEach(types, listener) {
var changed = false;
types.forEach(function removeListener(type) {
changed |= this.off(type, listener);
}, this);
return changed;
};
};
/**
* A hidden input field which attempts to keep itself focused at all times,
* except when another input field has been intentionally focused, whether
* programatically or by the user. The actual underlying input field, returned
* by getElement(), may be used as a reliable source of keyboard-related events,
* particularly composition and input events which may require a focused input
* field to be dispatched at all.
*
* @constructor
*/
Guacamole.InputSink = function InputSink() {
/**
* Reference to this instance of Guacamole.InputSink.
*
* @private
* @type {!Guacamole.InputSink}
*/
var sink = this;
/**
* The underlying input field, styled to be invisible.
*
* @private
* @type {!Element}
*/
var field = document.createElement('textarea');
field.style.position = 'fixed';
field.style.outline = 'none';
field.style.border = 'none';
field.style.margin = '0';
field.style.padding = '0';
field.style.height = '0';
field.style.width = '0';
field.style.left = '0';
field.style.bottom = '0';
field.style.resize = 'none';
field.style.background = 'transparent';
field.style.color = 'transparent';
// Keep field clear when modified via normal keypresses
field.addEventListener(
'keypress',
function clearKeypress(e) {
field.value = '';
},
false
);
// Keep field clear when modofied via composition events
field.addEventListener(
'compositionend',
function clearCompletedComposition(e) {
if (e.data) field.value = '';
},
false
);
// Keep field clear when modofied via input events
field.addEventListener(
'input',
function clearCompletedInput(e) {
if (e.data && !e.isComposing) field.value = '';
},
false
);
// Whenever focus is gained, automatically click to ensure cursor is
// actually placed within the field (the field may simply be highlighted or
// outlined otherwise)
field.addEventListener(
'focus',
function focusReceived() {
window.setTimeout(function deferRefocus() {
field.click();
field.select();
}, 0);
},
true
);
/**
* Attempts to focus the underlying input field. The focus attempt occurs
* asynchronously, and may silently fail depending on browser restrictions.
*/
this.focus = function focus() {
window.setTimeout(function deferRefocus() {
field.focus(); // Focus must be deferred to work reliably across browsers
}, 0);
};
/**
* Returns the underlying input field. This input field MUST be manually
* added to the DOM for the Guacamole.InputSink to have any effect.
*
* @returns {!Element}
* The underlying input field.
*/
this.getElement = function getElement() {
return field;
};
// Automatically refocus input sink if part of DOM
document.addEventListener(
'keydown',
function refocusSink(e) {
// Do not refocus if focus is on an input field
var focused = document.activeElement;
if (focused && focused !== document.body) {
// Only consider focused input fields which are actually visible
var rect = focused.getBoundingClientRect();
if (rect.left + rect.width > 0 && rect.top + rect.height > 0) return;
}
// Refocus input sink instead of handling click
sink.focus();
},
true
);
};
/**
* An input stream abstraction used by the Guacamole client to facilitate
* transfer of files or other binary data.
*
* @constructor
* @param {!Guacamole.Client} client
* The client owning this stream.
*
* @param {!number} index
* The index of this stream.
*/
Guacamole.InputStream = function (client, index) {
/**
* Reference to this stream.
*
* @private
* @type {!Guacamole.InputStream}
*/
var guac_stream = this;
/**
* The index of this stream.
*
* @type {!number}
*/
this.index = index;
/**
* Called when a blob of data is received.
*
* @event
* @param {!string} data
* The received base64 data.
*/
this.onblob = null;
/**
* Called when this stream is closed.
*
* @event
*/
this.onend = null;
/**
* Acknowledges the receipt of a blob.
*
* @param {!string} message
* A human-readable message describing the error or status.
*
* @param {!number} code
* The error code, if any, or 0 for success.
*/
this.sendAck = function (message, code) {
client.sendAck(guac_stream.index, message, code);
};
};
/**
* Integer pool which returns consistently increasing integers while integers
* are in use, and previously-used integers when possible.
* @constructor
*/
Guacamole.IntegerPool = function () {
/**
* Reference to this integer pool.
*
* @private
*/
var guac_pool = this;
/**
* Array of available integers.
*
* @private
* @type {!number[]}
*/
var pool = [];
/**
* The next integer to return if no more integers remain.
*
* @type {!number}
*/
this.next_int = 0;
/**
* Returns the next available integer in the pool. If possible, a previously
* used integer will be returned.
*
* @return {!number}
* The next available integer.
*/
this.next = function () {
// If free'd integers exist, return one of those
if (pool.length > 0) return pool.shift();
// Otherwise, return a new integer
return guac_pool.next_int++;
};
/**
* Frees the given integer, allowing it to be reused.
*
* @param {!number} integer
* The integer to free.
*/
this.free = function (integer) {
pool.push(integer);
};
};
/**
* A reader which automatically handles the given input stream, assembling all
* received blobs into a JavaScript object by appending them to each other, in
* order, and decoding the result as JSON. Note that this object will overwrite
* any installed event handlers on the given Guacamole.InputStream.
*
* @constructor
* @param {Guacamole.InputStream} stream
* The stream that JSON will be read from.
*/
Guacamole.JSONReader = function guacamoleJSONReader(stream) {
/**
* Reference to this Guacamole.JSONReader.
*
* @private
* @type {!Guacamole.JSONReader}
*/
var guacReader = this;
/**
* Wrapped Guacamole.StringReader.
*
* @private
* @type {!Guacamole.StringReader}
*/
var stringReader = new Guacamole.StringReader(stream);
/**
* All JSON read thus far.
*
* @private
* @type {!string}
*/
var json = '';
/**
* Returns the current length of this Guacamole.JSONReader, in characters.
*
* @return {!number}
* The current length of this Guacamole.JSONReader.
*/
this.getLength = function getLength() {
return json.length;
};
/**
* Returns the contents of this Guacamole.JSONReader as a JavaScript
* object.
*
* @return {object}
* The contents of this Guacamole.JSONReader, as parsed from the JSON
* contents of the input stream.
*/
this.getJSON = function getJSON() {
return JSON.parse(json);
};
// Append all received text
stringReader.ontext = function ontext(text) {
// Append received text
json += text;
// Call handler, if present
if (guacReader.onprogress) guacReader.onprogress(text.length);
};
// Simply call onend when end received
stringReader.onend = function onend() {
if (guacReader.onend) guacReader.onend();
};
/**
* Fired once for every blob of data received.
*
* @event
* @param {!number} length
* The number of characters received.
*/
this.onprogress = null;
/**
* Fired once this stream is finished and no further data will be written.
*
* @event
*/
this.onend = null;
};
/**
* Provides cross-browser and cross-keyboard keyboard for a specific element.
* Browser and keyboard layout variation is abstracted away, providing events
* which represent keys as their corresponding X11 keysym.
*
* @constructor
* @param {Element|Document} [element]
* The Element to use to provide keyboard events. If omitted, at least one
* Element must be manually provided through the listenTo() function for
* the Guacamole.Keyboard instance to have any effect.
*/
Guacamole.Keyboard = function Keyboard(element) {
/**
* Reference to this Guacamole.Keyboard.
*
* @private
* @type {!Guacamole.Keyboard}
*/
var guac_keyboard = this;
/**
* An integer value which uniquely identifies this Guacamole.Keyboard
* instance with respect to other Guacamole.Keyboard instances.
*
* @private
* @type {!number}
*/
var guacKeyboardID = Guacamole.Keyboard._nextID++;
/**
* The name of the property which is added to event objects via markEvent()
* to note that they have already been handled by this Guacamole.Keyboard.
*
* @private
* @constant
* @type {!string}
*/
var EVENT_MARKER = '_GUAC_KEYBOARD_HANDLED_BY_' + guacKeyboardID;
/**
* Fired whenever the user presses a key with the element associated
* with this Guacamole.Keyboard in focus.
*
* @event
* @param {!number} keysym
* The keysym of the key being pressed.
*
* @return {!boolean}
* true if the key event should be allowed through to the browser,
* false otherwise.
*/
this.onkeydown = null;
/**
* Fired whenever the user releases a key with the element associated
* with this Guacamole.Keyboard in focus.
*
* @event
* @param {!number} keysym
* The keysym of the key being released.
*/
this.onkeyup = null;
/**
* Set of known platform-specific or browser-specific quirks which must be
* accounted for to properly interpret key events, even if the only way to
* reliably detect that quirk is to platform/browser-sniff.
*
* @private
* @type {!Object.<string, boolean>}
*/
var quirks = {
/**
* Whether keyup events are universally unreliable.
*
* @type {!boolean}
*/
keyupUnreliable: false,
/**
* Whether the Alt key is actually a modifier for typable keys and is
* thus never used for keyboard shortcuts.
*
* @type {!boolean}
*/
altIsTypableOnly: false,
/**
* Whether we can rely on receiving a keyup event for the Caps Lock
* key.
*
* @type {!boolean}
*/
capsLockKeyupUnreliable: false,
};
// Set quirk flags depending on platform/browser, if such information is
// available
if (navigator && navigator.platform) {
// All keyup events are unreliable on iOS (sadly)
if (navigator.platform.match(/ipad|iphone|ipod/i)) quirks.keyupUnreliable = true;
// The Alt key on Mac is never used for keyboard shortcuts, and the
// Caps Lock key never dispatches keyup events
else if (navigator.platform.match(/^mac/i)) {
quirks.altIsTypableOnly = true;
quirks.capsLockKeyupUnreliable = true;
}
}
/**
* A key event having a corresponding timestamp. This event is non-specific.
* Its subclasses should be used instead when recording specific key
* events.
*
* @private
* @constructor
* @param {KeyboardEvent} [orig]
* The relevant DOM keyboard event.
*/
var KeyEvent = function KeyEvent(orig) {
/**
* Reference to this key event.
*
* @private
* @type {!KeyEvent}
*/
var key_event = this;
/**
* The JavaScript key code of the key pressed. For most events (keydown
* and keyup), this is a scancode-like value related to the position of
* the key on the US English "Qwerty" keyboard. For keypress events,
* this is the Unicode codepoint of the character that would be typed
* by the key pressed.
*
* @type {!number}
*/
this.keyCode = orig ? orig.which || orig.keyCode : 0;
/**
* The legacy DOM3 "keyIdentifier" of the key pressed, as defined at:
* http://www.w3.org/TR/2009/WD-DOM-Level-3-Events-20090908/#events-Events-KeyboardEvent
*
* @type {!string}
*/
this.keyIdentifier = orig && orig.keyIdentifier;
/**
* The standard name of the key pressed, as defined at:
* http://www.w3.org/TR/DOM-Level-3-Events/#events-KeyboardEvent
*
* @type {!string}
*/
this.key = orig && orig.key;
/**
* The location on the keyboard corresponding to the key pressed, as
* defined at:
* http://www.w3.org/TR/DOM-Level-3-Events/#events-KeyboardEvent
*
* @type {!number}
*/
this.location = orig ? getEventLocation(orig) : 0;
/**
* The state of all local keyboard modifiers at the time this event was
* received.
*
* @type {!Guacamole.Keyboard.ModifierState}
*/
this.modifiers = orig ? Guacamole.Keyboard.ModifierState.fromKeyboardEvent(orig) : new Guacamole.Keyboard.ModifierState();
/**
* An arbitrary timestamp in milliseconds, indicating this event's
* position in time relative to other events.
*
* @type {!number}
*/
this.timestamp = new Date().getTime();
/**
* Whether the default action of this key event should be prevented.
*
* @type {!boolean}
*/
this.defaultPrevented = false;
/**
* The keysym of the key associated with this key event, as determined
* by a best-effort guess using available event properties and keyboard
* state.
*
* @type {number}
*/
this.keysym = null;
/**
* Whether the keysym value of this key event is known to be reliable.
* If false, the keysym may still be valid, but it's only a best guess,
* and future key events may be a better source of information.
*
* @type {!boolean}
*/
this.reliable = false;
/**
* Returns the number of milliseconds elapsed since this event was
* received.
*
* @return {!number}
* The number of milliseconds elapsed since this event was
* received.
*/
this.getAge = function () {
return new Date().getTime() - key_event.timestamp;
};
};
/**
* Information related to the pressing of a key, which need not be a key
* associated with a printable character. The presence or absence of any
* information within this object is browser-dependent.
*
* @private
* @constructor
* @augments Guacamole.Keyboard.KeyEvent
* @param {!KeyboardEvent} orig
* The relevant DOM "keydown" event.
*/
var KeydownEvent = function KeydownEvent(orig) {
// We extend KeyEvent
KeyEvent.call(this, orig);
// If key is known from keyCode or DOM3 alone, use that
this.keysym = keysym_from_key_identifier(this.key, this.location) || keysym_from_keycode(this.keyCode, this.location);
/**
* Whether the keyup following this keydown event is known to be
* reliable. If false, we cannot rely on the keyup event to occur.
*
* @type {!boolean}
*/
this.keyupReliable = !quirks.keyupUnreliable;
// DOM3 and keyCode are reliable sources if the corresponding key is
// not a printable key
if (this.keysym && !isPrintable(this.keysym)) this.reliable = true;
// Use legacy keyIdentifier as a last resort, if it looks sane
if (!this.keysym && key_identifier_sane(this.keyCode, this.keyIdentifier))
this.keysym = keysym_from_key_identifier(this.keyIdentifier, this.location, this.modifiers.shift);
// If a key is pressed while meta is held down, the keyup will
// never be sent in Chrome (bug #108404)
if (this.modifiers.meta && this.keysym !== 0xffe7 && this.keysym !== 0xffe8) this.keyupReliable = false;
// We cannot rely on receiving keyup for Caps Lock on certain platforms
else if (this.keysym === 0xffe5 && quirks.capsLockKeyupUnreliable) this.keyupReliable = false;
// Determine whether default action for Alt+combinations must be prevented
var prevent_alt = !this.modifiers.ctrl && !quirks.altIsTypableOnly;
// Determine whether default action for Ctrl+combinations must be prevented
var prevent_ctrl = !this.modifiers.alt;
// We must rely on the (potentially buggy) keyIdentifier if preventing
// the default action is important
if ((prevent_ctrl && this.modifiers.ctrl) || (prevent_alt && this.modifiers.alt) || this.modifiers.meta || this.modifiers.hyper) this.reliable = true;
// Record most recently known keysym by associated key code
recentKeysym[this.keyCode] = this.keysym;
};
KeydownEvent.prototype = new KeyEvent();
/**
* Information related to the pressing of a key, which MUST be
* associated with a printable character. The presence or absence of any
* information within this object is browser-dependent.
*
* @private
* @constructor
* @augments Guacamole.Keyboard.KeyEvent
* @param {!KeyboardEvent} orig
* The relevant DOM "keypress" event.
*/
var KeypressEvent = function KeypressEvent(orig) {
// We extend KeyEvent
KeyEvent.call(this, orig);
// Pull keysym from char code
this.keysym = keysym_from_charcode(this.keyCode);
// Keypress is always reliable
this.reliable = true;
};
KeypressEvent.prototype = new KeyEvent();
/**
* Information related to the releasing of a key, which need not be a key
* associated with a printable character. The presence or absence of any
* information within this object is browser-dependent.
*
* @private
* @constructor
* @augments Guacamole.Keyboard.KeyEvent
* @param {!KeyboardEvent} orig
* The relevant DOM "keyup" event.
*/
var KeyupEvent = function KeyupEvent(orig) {
// We extend KeyEvent
KeyEvent.call(this, orig);
// If key is known from keyCode or DOM3 alone, use that (keyCode is
// still more reliable for keyup when dead keys are in use)
this.keysym = keysym_from_keycode(this.keyCode, this.location) || keysym_from_key_identifier(this.key, this.location);
// Fall back to the most recently pressed keysym associated with the
// keyCode if the inferred key doesn't seem to actually be pressed
if (!guac_keyboard.pressed[this.keysym]) this.keysym = recentKeysym[this.keyCode] || this.keysym;
// Keyup is as reliable as it will ever be
this.reliable = true;
};
KeyupEvent.prototype = new KeyEvent();
/**
* An array of recorded events, which can be instances of the private
* KeydownEvent, KeypressEvent, and KeyupEvent classes.
*
* @private
* @type {!KeyEvent[]}
*/
var eventLog = [];
/**
* Map of known JavaScript keycodes which do not map to typable characters
* to their X11 keysym equivalents.
*
* @private
* @type {!Object.<number, number[]>}
*/
var keycodeKeysyms = {
8: [0xff08], // backspace
9: [0xff09], // tab
12: [0xff0b, 0xff0b, 0xff0b, 0xffb5], // clear / KP 5
13: [0xff0d], // enter
16: [0xffe1, 0xffe1, 0xffe2], // shift
17: [0xffe3, 0xffe3, 0xffe4], // ctrl
18: [0xffe9, 0xffe9, 0xfe03], // alt
19: [0xff13], // pause/break
20: [0xffe5], // caps lock
27: [0xff1b], // escape
32: [0x0020], // space
33: [0xff55, 0xff55, 0xff55, 0xffb9], // page up / KP 9
34: [0xff56, 0xff56, 0xff56, 0xffb3], // page down / KP 3
35: [0xff57, 0xff57, 0xff57, 0xffb1], // end / KP 1
36: [0xff50, 0xff50, 0xff50, 0xffb7], // home / KP 7
37: [0xff51, 0xff51, 0xff51, 0xffb4], // left arrow / KP 4
38: [0xff52, 0xff52, 0xff52, 0xffb8], // up arrow / KP 8
39: [0xff53, 0xff53, 0xff53, 0xffb6], // right arrow / KP 6
40: [0xff54, 0xff54, 0xff54, 0xffb2], // down arrow / KP 2
45: [0xff63, 0xff63, 0xff63, 0xffb0], // insert / KP 0
46: [0xffff, 0xffff, 0xffff, 0xffae], // delete / KP decimal
91: [0xffe7], // left windows/command key (meta_l)
92: [0xffe8], // right window/command key (meta_r)
93: [0xff67], // menu key
96: [0xffb0], // KP 0
97: [0xffb1], // KP 1
98: [0xffb2], // KP 2
99: [0xffb3], // KP 3
100: [0xffb4], // KP 4
101: [0xffb5], // KP 5
102: [0xffb6], // KP 6
103: [0xffb7], // KP 7
104: [0xffb8], // KP 8
105: [0xffb9], // KP 9
106: [0xffaa], // KP multiply
107: [0xffab], // KP add
109: [0xffad], // KP subtract
110: [0xffae], // KP decimal
111: [0xffaf], // KP divide
112: [0xffbe], // f1
113: [0xffbf], // f2
114: [0xffc0], // f3
115: [0xffc1], // f4
116: [0xffc2], // f5
117: [0xffc3], // f6
118: [0xffc4], // f7
119: [0xffc5], // f8
120: [0xffc6], // f9
121: [0xffc7], // f10
122: [0xffc8], // f11
123: [0xffc9], // f12
144: [0xff7f], // num lock
145: [0xff14], // scroll lock
225: [0xfe03], // altgraph (iso_level3_shift)
};
/**
* Map of known JavaScript keyidentifiers which do not map to typable
* characters to their unshifted X11 keysym equivalents.
*
* @private
* @type {!Object.<string, number[]>}
*/
var keyidentifier_keysym = {
Again: [0xff66],
AllCandidates: [0xff3d],
Alphanumeric: [0xff30],
Alt: [0xffe9, 0xffe9, 0xfe03],
Attn: [0xfd0e],
AltGraph: [0xfe03],
ArrowDown: [0xff54],
ArrowLeft: [0xff51],
ArrowRight: [0xff53],
ArrowUp: [0xff52],
Backspace: [0xff08],
CapsLock: [0xffe5],
Cancel: [0xff69],
Clear: [0xff0b],
Convert: [0xff21],
Copy: [0xfd15],
Crsel: [0xfd1c],
CrSel: [0xfd1c],
CodeInput: [0xff37],
Compose: [0xff20],
Control: [0xffe3, 0xffe3, 0xffe4],
ContextMenu: [0xff67],
Delete: [0xffff],
Down: [0xff54],
End: [0xff57],
Enter: [0xff0d],
EraseEof: [0xfd06],
Escape: [0xff1b],
Execute: [0xff62],
Exsel: [0xfd1d],
ExSel: [0xfd1d],
F1: [0xffbe],
F2: [0xffbf],
F3: [0xffc0],
F4: [0xffc1],
F5: [0xffc2],
F6: [0xffc3],
F7: [0xffc4],
F8: [0xffc5],
F9: [0xffc6],
F10: [0xffc7],
F11: [0xffc8],
F12: [0xffc9],
F13: [0xffca],
F14: [0xffcb],
F15: [0xffcc],
F16: [0xffcd],
F17: [0xffce],
F18: [0xffcf],
F19: [0xffd0],
F20: [0xffd1],
F21: [0xffd2],
F22: [0xffd3],
F23: [0xffd4],
F24: [0xffd5],
Find: [0xff68],
GroupFirst: [0xfe0c],
GroupLast: [0xfe0e],
GroupNext: [0xfe08],
GroupPrevious: [0xfe0a],
FullWidth: null,
HalfWidth: null,
HangulMode: [0xff31],
Hankaku: [0xff29],
HanjaMode: [0xff34],
Help: [0xff6a],
Hiragana: [0xff25],
HiraganaKatakana: [0xff27],
Home: [0xff50],
Hyper: [0xffed, 0xffed, 0xffee],
Insert: [0xff63],
JapaneseHiragana: [0xff25],
JapaneseKatakana: [0xff26],
JapaneseRomaji: [0xff24],
JunjaMode: [0xff38],
KanaMode: [0xff2d],
KanjiMode: [0xff21],
Katakana: [0xff26],
Left: [0xff51],
Meta: [0xffe7, 0xffe7, 0xffe8],
ModeChange: [0xff7e],
NumLock: [0xff7f],
PageDown: [0xff56],
PageUp: [0xff55],
Pause: [0xff13],
Play: [0xfd16],
PreviousCandidate: [0xff3e],
PrintScreen: [0xff61],
Redo: [0xff66],
Right: [0xff53],
RomanCharacters: null,
Scroll: [0xff14],
Select: [0xff60],
Separator: [0xffac],
Shift: [0xffe1, 0xffe1, 0xffe2],
SingleCandidate: [0xff3c],
Super: [0xffeb, 0xffeb, 0xffec],
Tab: [0xff09],
UIKeyInputDownArrow: [0xff54],
UIKeyInputEscape: [0xff1b],
UIKeyInputLeftArrow: [0xff51],
UIKeyInputRightArrow: [0xff53],
UIKeyInputUpArrow: [0xff52],
Up: [0xff52],
Undo: [0xff65],
Win: [0xffe7, 0xffe7, 0xffe8],
Zenkaku: [0xff28],
ZenkakuHankaku: [0xff2a],
};
/**
* All keysyms which should not repeat when held down.
*
* @private
* @type {!Object.<number, boolean>}
*/
var no_repeat = {
0xfe03: true, // ISO Level 3 Shift (AltGr)
0xffe1: true, // Left shift
0xffe2: true, // Right shift
0xffe3: true, // Left ctrl
0xffe4: true, // Right ctrl
0xffe5: true, // Caps Lock
0xffe7: true, // Left meta
0xffe8: true, // Right meta
0xffe9: true, // Left alt
0xffea: true, // Right alt
0xffeb: true, // Left super/hyper
0xffec: true, // Right super/hyper
};
/**
* All modifiers and their states.
*
* @type {!Guacamole.Keyboard.ModifierState}
*/
this.modifiers = new Guacamole.Keyboard.ModifierState();
/**
* The state of every key, indexed by keysym. If a particular key is
* pressed, the value of pressed for that keysym will be true. If a key
* is not currently pressed, it will not be defined.
*
* @type {!Object.<number, boolean>}
*/
this.pressed = {};
/**
* The state of every key, indexed by keysym, for strictly those keys whose
* status has been indirectly determined thorugh observation of other key
* events. If a particular key is implicitly pressed, the value of
* implicitlyPressed for that keysym will be true. If a key
* is not currently implicitly pressed (the key is not pressed OR the state
* of the key is explicitly known), it will not be defined.
*
* @private
* @type {!Object.<number, boolean>}
*/
var implicitlyPressed = {};
/**
* The last result of calling the onkeydown handler for each key, indexed
* by keysym. This is used to prevent/allow default actions for key events,
* even when the onkeydown handler cannot be called again because the key
* is (theoretically) still pressed.
*
* @private
* @type {!Object.<number, boolean>}
*/
var last_keydown_result = {};
/**
* The keysym most recently associated with a given keycode when keydown
* fired. This object maps keycodes to keysyms.
*
* @private
* @type {!Object.<number, number>}
*/
var recentKeysym = {};
/**
* Timeout before key repeat starts.
*
* @private
* @type {number}
*/
var key_repeat_timeout = null;
/**
* Interval which presses and releases the last key pressed while that
* key is still being held down.
*
* @private
* @type {number}
*/
var key_repeat_interval = null;
/**
* Given an array of keysyms indexed by location, returns the keysym
* for the given location, or the keysym for the standard location if
* undefined.
*
* @private
* @param {number[]} keysyms
* An array of keysyms, where the index of the keysym in the array is
* the location value.
*
* @param {!number} location
* The location on the keyboard corresponding to the key pressed, as
* defined at: http://www.w3.org/TR/DOM-Level-3-Events/#events-KeyboardEvent
*/
var get_keysym = function get_keysym(keysyms, location) {
if (!keysyms) return null;
return keysyms[location] || keysyms[0];
};
/**
* Returns true if the given keysym corresponds to a printable character,
* false otherwise.
*
* @param {!number} keysym
* The keysym to check.
*
* @returns {!boolean}
* true if the given keysym corresponds to a printable character,
* false otherwise.
*/
var isPrintable = function isPrintable(keysym) {
// Keysyms with Unicode equivalents are printable
return (keysym >= 0x00 && keysym <= 0xff) || (keysym & 0xffff0000) === 0x01000000;
};
function keysym_from_key_identifier(identifier, location, shifted) {
if (!identifier) return null;
var typedCharacter;
// If identifier is U+xxxx, decode Unicode character
var unicodePrefixLocation = identifier.indexOf('U+');
if (unicodePrefixLocation >= 0) {
var hex = identifier.substring(unicodePrefixLocation + 2);
typedCharacter = String.fromCharCode(parseInt(hex, 16));
}
// If single character and not keypad, use that as typed character
else if (identifier.length === 1 && location !== 3) typedCharacter = identifier;
// Otherwise, look up corresponding keysym
else return get_keysym(keyidentifier_keysym[identifier], location);
// Alter case if necessary
if (shifted === true) typedCharacter = typedCharacter.toUpperCase();
else if (shifted === false) typedCharacter = typedCharacter.toLowerCase();
// Get codepoint
var codepoint = typedCharacter.charCodeAt(0);
return keysym_from_charcode(codepoint);
}
function isControlCharacter(codepoint) {
return codepoint <= 0x1f || (codepoint >= 0x7f && codepoint <= 0x9f);
}
function keysym_from_charcode(codepoint) {
// Keysyms for control characters
if (isControlCharacter(codepoint)) return 0xff00 | codepoint;
// Keysyms for ASCII chars
if (codepoint >= 0x0000 && codepoint <= 0x00ff) return codepoint;
// Keysyms for Unicode
if (codepoint >= 0x0100 && codepoint <= 0x10ffff) return 0x01000000 | codepoint;
return null;
}
function keysym_from_keycode(keyCode, location) {
return get_keysym(keycodeKeysyms[keyCode], location);
}
/**
* Heuristically detects if the legacy keyIdentifier property of
* a keydown/keyup event looks incorrectly derived. Chrome, and
* presumably others, will produce the keyIdentifier by assuming
* the keyCode is the Unicode codepoint for that key. This is not
* correct in all cases.
*
* @private
* @param {!number} keyCode
* The keyCode from a browser keydown/keyup event.
*
* @param {string} keyIdentifier
* The legacy keyIdentifier from a browser keydown/keyup event.
*
* @returns {!boolean}
* true if the keyIdentifier looks sane, false if the keyIdentifier
* appears incorrectly derived or is missing entirely.
*/
var key_identifier_sane = function key_identifier_sane(keyCode, keyIdentifier) {
// Missing identifier is not sane
if (!keyIdentifier) return false;
// Assume non-Unicode keyIdentifier values are sane
var unicodePrefixLocation = keyIdentifier.indexOf('U+');
if (unicodePrefixLocation === -1) return true;
// If the Unicode codepoint isn't identical to the keyCode,
// then the identifier is likely correct
var codepoint = parseInt(keyIdentifier.substring(unicodePrefixLocation + 2), 16);
if (keyCode !== codepoint) return true;
// The keyCodes for A-Z and 0-9 are actually identical to their
// Unicode codepoints
if ((keyCode >= 65 && keyCode <= 90) || (keyCode >= 48 && keyCode <= 57)) return true;
// The keyIdentifier does NOT appear sane
return false;
};
/**
* Marks a key as pressed, firing the keydown event if registered. Key
* repeat for the pressed key will start after a delay if that key is
* not a modifier. The return value of this function depends on the
* return value of the keydown event handler, if any.
*
* @param {number} keysym
* The keysym of the key to press.
*
* @return {boolean}
* true if event should NOT be canceled, false otherwise.
*/
this.press = function (keysym) {
// Don't bother with pressing the key if the key is unknown
if (keysym === null) return;
// Only press if released
if (!guac_keyboard.pressed[keysym]) {
// Mark key as pressed
guac_keyboard.pressed[keysym] = true;
// Send key event
if (guac_keyboard.onkeydown) {
var result = guac_keyboard.onkeydown(keysym);
last_keydown_result[keysym] = result;
// Stop any current repeat
window.clearTimeout(key_repeat_timeout);
window.clearInterval(key_repeat_interval);
// Repeat after a delay as long as pressed
if (!no_repeat[keysym])
key_repeat_timeout = window.setTimeout(function () {
key_repeat_interval = window.setInterval(function () {
guac_keyboard.onkeyup(keysym);
guac_keyboard.onkeydown(keysym);
}, 50);
}, 500);
return result;
}
}
// Return the last keydown result by default, resort to false if unknown
return last_keydown_result[keysym] || false;
};
/**
* Marks a key as released, firing the keyup event if registered.
*
* @param {number} keysym
* The keysym of the key to release.
*/
this.release = function (keysym) {
// Only release if pressed
if (guac_keyboard.pressed[keysym]) {
// Mark key as released
delete guac_keyboard.pressed[keysym];
delete implicitlyPressed[keysym];
// Stop repeat
window.clearTimeout(key_repeat_timeout);
window.clearInterval(key_repeat_interval);
// Send key event
if (keysym !== null && guac_keyboard.onkeyup) guac_keyboard.onkeyup(keysym);
}
};
/**
* Presses and releases the keys necessary to type the given string of
* text.
*
* @param {!string} str
* The string to type.
*/
this.type = function type(str) {
// Press/release the key corresponding to each character in the string
for (var i = 0; i < str.length; i++) {
// Determine keysym of current character
var codepoint = str.codePointAt ? str.codePointAt(i) : str.charCodeAt(i);
var keysym = keysym_from_charcode(codepoint);
// Press and release key for current character
guac_keyboard.press(keysym);
guac_keyboard.release(keysym);
}
};
/**
* Resets the state of this keyboard, releasing all keys, and firing keyup
* events for each released key.
*/
this.reset = function () {
// Release all pressed keys
for (var keysym in guac_keyboard.pressed) guac_keyboard.release(parseInt(keysym));
// Clear event log
eventLog = [];
};
/**
* Resynchronizes the remote state of the given modifier with its
* corresponding local modifier state, as dictated by
* {@link KeyEvent#modifiers} within the given key event, by pressing or
* releasing keysyms.
*
* @private
* @param {!string} modifier
* The name of the {@link Guacamole.Keyboard.ModifierState} property
* being updated.
*
* @param {!number[]} keysyms
* The keysyms which represent the modifier being updated.
*
* @param {!KeyEvent} keyEvent
* Guacamole's current best interpretation of the key event being
* processed.
*/
var updateModifierState = function updateModifierState(modifier, keysyms, keyEvent) {
var localState = keyEvent.modifiers[modifier];
var remoteState = guac_keyboard.modifiers[modifier];
var i;
// Do not trust changes in modifier state for events directly involving
// that modifier: (1) the flag may erroneously be cleared despite
// another version of the same key still being held and (2) the change
// in flag may be due to the current event being processed, thus
// updating things here is at best redundant and at worst incorrect
if (keysyms.indexOf(keyEvent.keysym) !== -1) return;
// Release all related keys if modifier is implicitly released
if (remoteState && localState === false) {
for (i = 0; i < keysyms.length; i++) {
guac_keyboard.release(keysyms[i]);
}
}
// Press if modifier is implicitly pressed
else if (!remoteState && localState) {
// Verify that modifier flag isn't already pressed or already set
// due to another version of the same key being held down
for (i = 0; i < keysyms.length; i++) {
if (guac_keyboard.pressed[keysyms[i]]) return;
}
// Mark as implicitly pressed only if there is other information
// within the key event relating to a different key. Some
// platforms, such as iOS, will send essentially empty key events
// for modifier keys, using only the modifier flags to signal the
// identity of the key.
var keysym = keysyms[0];
if (keyEvent.keysym) implicitlyPressed[keysym] = true;
guac_keyboard.press(keysym);
}
};
/**
* Given a keyboard event, updates the remote key state to match the local
* modifier state and remote based on the modifier flags within the event.
* This function pays no attention to keycodes.
*
* @private
* @param {!KeyEvent} keyEvent
* Guacamole's current best interpretation of the key event being
* processed.
*/
var syncModifierStates = function syncModifierStates(keyEvent) {
// Resync state of alt
updateModifierState(
'alt',
[
0xffe9, // Left alt
0xffea, // Right alt
0xfe03, // AltGr
],
keyEvent
);
// Resync state of shift
updateModifierState(
'shift',
[
0xffe1, // Left shift
0xffe2, // Right shift
],
keyEvent
);
// Resync state of ctrl
updateModifierState(
'ctrl',
[
0xffe3, // Left ctrl
0xffe4, // Right ctrl
],
keyEvent
);
// Resync state of meta
updateModifierState(
'meta',
[
0xffe7, // Left meta
0xffe8, // Right meta
],
keyEvent
);
// Resync state of hyper
updateModifierState(
'hyper',
[
0xffeb, // Left super/hyper
0xffec, // Right super/hyper
],
keyEvent
);
// Update state
guac_keyboard.modifiers = keyEvent.modifiers;
};
/**
* Returns whether all currently pressed keys were implicitly pressed. A
* key is implicitly pressed if its status was inferred indirectly from
* inspection of other key events.
*
* @private
* @returns {!boolean}
* true if all currently pressed keys were implicitly pressed, false
* otherwise.
*/
var isStateImplicit = function isStateImplicit() {
for (var keysym in guac_keyboard.pressed) {
if (!implicitlyPressed[keysym]) return false;
}
return true;
};
/**
* Reads through the event log, removing events from the head of the log
* when the corresponding true key presses are known (or as known as they
* can be).
*
* @private
* @return {boolean}
* Whether the default action of the latest event should be prevented.
*/
function interpret_events() {
// Do not prevent default if no event could be interpreted
var handled_event = interpret_event();
if (!handled_event) return false;
// Interpret as much as possible
var last_event;
do {
last_event = handled_event;
handled_event = interpret_event();
} while (handled_event !== null);
// Reset keyboard state if we cannot expect to receive any further
// keyup events
if (isStateImplicit()) guac_keyboard.reset();
return last_event.defaultPrevented;
}
/**
* Releases Ctrl+Alt, if both are currently pressed and the given keysym
* looks like a key that may require AltGr.
*
* @private
* @param {!number} keysym
* The key that was just pressed.
*/
var release_simulated_altgr = function release_simulated_altgr(keysym) {
// Both Ctrl+Alt must be pressed if simulated AltGr is in use
if (!guac_keyboard.modifiers.ctrl || !guac_keyboard.modifiers.alt) return;
// Assume [A-Z] never require AltGr
if (keysym >= 0x0041 && keysym <= 0x005a) return;
// Assume [a-z] never require AltGr
if (keysym >= 0x0061 && keysym <= 0x007a) return;
// Release Ctrl+Alt if the keysym is printable
if (keysym <= 0xff || (keysym & 0xff000000) === 0x01000000) {
guac_keyboard.release(0xffe3); // Left ctrl
guac_keyboard.release(0xffe4); // Right ctrl
guac_keyboard.release(0xffe9); // Left alt
guac_keyboard.release(0xffea); // Right alt
}
};
/**
* Reads through the event log, interpreting the first event, if possible,
* and returning that event. If no events can be interpreted, due to a
* total lack of events or the need for more events, null is returned. Any
* interpreted events are automatically removed from the log.
*
* @private
* @return {KeyEvent}
* The first key event in the log, if it can be interpreted, or null
* otherwise.
*/
var interpret_event = function interpret_event() {
// Peek at first event in log
var first = eventLog[0];
if (!first) return null;
// Keydown event
if (first instanceof KeydownEvent) {
var keysym = null;
var accepted_events = [];
// Defer handling of Meta until it is known to be functioning as a
// modifier (it may otherwise actually be an alternative method for
// pressing a single key, such as Meta+Left for Home on ChromeOS)
if (first.keysym === 0xffe7 || first.keysym === 0xffe8) {
// Defer handling until further events exist to provide context
if (eventLog.length === 1) return null;
// Drop keydown if it turns out Meta does not actually apply
if (eventLog[1].keysym !== first.keysym) {
if (!eventLog[1].modifiers.meta) return eventLog.shift();
}
// Drop duplicate keydown events while waiting to determine
// whether to acknowledge Meta (browser may repeat keydown
// while the key is held)
else if (eventLog[1] instanceof KeydownEvent) return eventLog.shift();
}
// If event itself is reliable, no need to wait for other events
if (first.reliable) {
keysym = first.keysym;
accepted_events = eventLog.splice(0, 1);
}
// If keydown is immediately followed by a keypress, use the indicated character
else if (eventLog[1] instanceof KeypressEvent) {
keysym = eventLog[1].keysym;
accepted_events = eventLog.splice(0, 2);
}
// If keydown is immediately followed by anything else, then no
// keypress can possibly occur to clarify this event, and we must
// handle it now
else if (eventLog[1]) {
keysym = first.keysym;
accepted_events = eventLog.splice(0, 1);
}
// Fire a key press if valid events were found
if (accepted_events.length > 0) {
syncModifierStates(first);
if (keysym) {
// Fire event
release_simulated_altgr(keysym);
var defaultPrevented = !guac_keyboard.press(keysym);
recentKeysym[first.keyCode] = keysym;
// Release the key now if we cannot rely on the associated
// keyup event
if (!first.keyupReliable) guac_keyboard.release(keysym);
// Record whether default was prevented
for (var i = 0; i < accepted_events.length; i++) accepted_events[i].defaultPrevented = defaultPrevented;
}
return first;
}
} // end if keydown
// Keyup event
else if (first instanceof KeyupEvent && !quirks.keyupUnreliable) {
// Release specific key if known
let keysym = first.keysym;
if (keysym) {
guac_keyboard.release(keysym);
delete recentKeysym[first.keyCode];
first.defaultPrevented = true;
}
// Otherwise, fall back to releasing all keys
else {
guac_keyboard.reset();
return first;
}
syncModifierStates(first);
return eventLog.shift();
} // end if keyup
// Ignore any other type of event (keypress by itself is invalid, and
// unreliable keyup events should simply be dumped)
else return eventLog.shift();
// No event interpreted
return null;
};
/**
* Returns the keyboard location of the key associated with the given
* keyboard event. The location differentiates key events which otherwise
* have the same keycode, such as left shift vs. right shift.
*
* @private
* @param {!KeyboardEvent} e
* A JavaScript keyboard event, as received through the DOM via a
* "keydown", "keyup", or "keypress" handler.
*
* @returns {!number}
* The location of the key event on the keyboard, as defined at:
* http://www.w3.org/TR/DOM-Level-3-Events/#events-KeyboardEvent
*/
var getEventLocation = function getEventLocation(e) {
// Use standard location, if possible
if ('location' in e) return e.location;
// Failing that, attempt to use deprecated keyLocation
if ('keyLocation' in e) return e.keyLocation;
// If no location is available, assume left side
return 0;
};
/**
* Attempts to mark the given Event as having been handled by this
* Guacamole.Keyboard. If the Event has already been marked as handled,
* false is returned.
*
* @param {!Event} e
* The Event to mark.
*
* @returns {!boolean}
* true if the given Event was successfully marked, false if the given
* Event was already marked.
*/
var markEvent = function markEvent(e) {
// Fail if event is already marked
if (e[EVENT_MARKER]) return false;
// Mark event otherwise
e[EVENT_MARKER] = true;
return true;
};
/**
* Attaches event listeners to the given Element, automatically translating
* received key, input, and composition events into simple keydown/keyup
* events signalled through this Guacamole.Keyboard's onkeydown and
* onkeyup handlers.
*
* @param {!(Element|Document)} element
* The Element to attach event listeners to for the sake of handling
* key or input events.
*/
this.listenTo = function listenTo(element) {
// When key pressed
element.addEventListener(
'keydown',
function (e) {
// Only intercept if handler set
if (!guac_keyboard.onkeydown) return;
// Ignore events which have already been handled
if (!markEvent(e)) return;
var keydownEvent = new KeydownEvent(e);
// Ignore (but do not prevent) the "composition" keycode sent by some
// browsers when an IME is in use (see: http://lists.w3.org/Archives/Public/www-dom/2010JulSep/att-0182/keyCode-spec.html)
if (keydownEvent.keyCode === 229) return;
// Log event
eventLog.push(keydownEvent);
// Interpret as many events as possible, prevent default if indicated
if (interpret_events()) e.preventDefault();
},
true
);
// When key pressed
element.addEventListener(
'keypress',
function (e) {
// Only intercept if handler set
if (!guac_keyboard.onkeydown && !guac_keyboard.onkeyup) return;
// Ignore events which have already been handled
if (!markEvent(e)) return;
// Log event
eventLog.push(new KeypressEvent(e));
// Interpret as many events as possible, prevent default if indicated
if (interpret_events()) e.preventDefault();
},
true
);
// When key released
element.addEventListener(
'keyup',
function (e) {
// Only intercept if handler set
if (!guac_keyboard.onkeyup) return;
// Ignore events which have already been handled
if (!markEvent(e)) return;
e.preventDefault();
// Log event, call for interpretation
eventLog.push(new KeyupEvent(e));
interpret_events();
},
true
);
/**
* Handles the given "input" event, typing the data within the input text.
* If the event is complete (text is provided), handling of "compositionend"
* events is suspended, as such events may conflict with input events.
*
* @private
* @param {!InputEvent} e
* The "input" event to handle.
*/
var handleInput = function handleInput(e) {
// Only intercept if handler set
if (!guac_keyboard.onkeydown && !guac_keyboard.onkeyup) return;
// Ignore events which have already been handled
if (!markEvent(e)) return;
// Type all content written
if (e.data && !e.isComposing) {
element.removeEventListener('compositionend', handleComposition, false);
guac_keyboard.type(e.data);
}
};
/**
* Handles the given "compositionend" event, typing the data within the
* composed text. If the event is complete (composed text is provided),
* handling of "input" events is suspended, as such events may conflict
* with composition events.
*
* @private
* @param {!CompositionEvent} e
* The "compositionend" event to handle.
*/
var handleComposition = function handleComposition(e) {
// Only intercept if handler set
if (!guac_keyboard.onkeydown && !guac_keyboard.onkeyup) return;
// Ignore events which have already been handled
if (!markEvent(e)) return;
// Type all content written
if (e.data) {
element.removeEventListener('input', handleInput, false);
guac_keyboard.type(e.data);
}
};
// Automatically type text entered into the wrapped field
element.addEventListener('input', handleInput, false);
element.addEventListener('compositionend', handleComposition, false);
};
// Listen to given element, if any
if (element) guac_keyboard.listenTo(element);
};
/**
* The unique numerical identifier to assign to the next Guacamole.Keyboard
* instance.
*
* @private
* @type {!number}
*/
Guacamole.Keyboard._nextID = 0;
/**
* The state of all supported keyboard modifiers.
* @constructor
*/
Guacamole.Keyboard.ModifierState = function () {
/**
* Whether shift is currently pressed.
*
* @type {!boolean}
*/
this.shift = false;
/**
* Whether ctrl is currently pressed.
*
* @type {!boolean}
*/
this.ctrl = false;
/**
* Whether alt is currently pressed.
*
* @type {!boolean}
*/
this.alt = false;
/**
* Whether meta (apple key) is currently pressed.
*
* @type {!boolean}
*/
this.meta = false;
/**
* Whether hyper (windows key) is currently pressed.
*
* @type {!boolean}
*/
this.hyper = false;
};
/**
* Returns the modifier state applicable to the keyboard event given.
*
* @param {!KeyboardEvent} e
* The keyboard event to read.
*
* @returns {!Guacamole.Keyboard.ModifierState}
* The current state of keyboard modifiers.
*/
Guacamole.Keyboard.ModifierState.fromKeyboardEvent = function (e) {
var state = new Guacamole.Keyboard.ModifierState();
// Assign states from old flags
state.shift = e.shiftKey;
state.ctrl = e.ctrlKey;
state.alt = e.altKey;
state.meta = e.metaKey;
// Use DOM3 getModifierState() for others
if (e.getModifierState) {
state.hyper = e.getModifierState('OS') || e.getModifierState('Super') || e.getModifierState('Hyper') || e.getModifierState('Win');
}
return state;
};
/**
* Abstract ordered drawing surface. Each Layer contains a canvas element and
* provides simple drawing instructions for drawing to that canvas element,
* however unlike the canvas element itself, drawing operations on a Layer are
* guaranteed to run in order, even if such an operation must wait for an image
* to load before completing.
*
* @constructor
*
* @param {!number} width
* The width of the Layer, in pixels. The canvas element backing this Layer
* will be given this width.
*
* @param {!number} height
* The height of the Layer, in pixels. The canvas element backing this
* Layer will be given this height.
*/
Guacamole.Layer = function (width, height) {
/**
* Reference to this Layer.
*
* @private
* @type {!Guacamole.Layer}
*/
var layer = this;
/**
* The number of pixels the width or height of a layer must change before
* the underlying canvas is resized. The underlying canvas will be kept at
* dimensions which are integer multiples of this factor.
*
* @private
* @constant
* @type {!number}
*/
var CANVAS_SIZE_FACTOR = 64;
/**
* The canvas element backing this Layer.
*
* @private
* @type {!HTMLCanvasElement}
*/
var canvas = document.createElement('canvas');
/**
* The 2D display context of the canvas element backing this Layer.
*
* @private
* @type {!CanvasRenderingContext2D}
*/
var context = canvas.getContext('2d');
context.save();
/**
* Whether the layer has not yet been drawn to. Once any draw operation
* which affects the underlying canvas is invoked, this flag will be set to
* false.
*
* @private
* @type {!boolean}
*/
var empty = true;
/**
* Whether a new path should be started with the next path drawing
* operations.
*
* @private
* @type {!boolean}
*/
var pathClosed = true;
/**
* The number of states on the state stack.
*
* Note that there will ALWAYS be one element on the stack, but that
* element is not exposed. It is only used to reset the layer to its
* initial state.
*
* @private
* @type {!number}
*/
var stackSize = 0;
/**
* Map of all Guacamole channel masks to HTML5 canvas composite operation
* names. Not all channel mask combinations are currently implemented.
*
* @private
* @type {!Object.<number, string>}
*/
var compositeOperation = {
/* 0x0 NOT IMPLEMENTED */
0x1: 'destination-in',
0x2: 'destination-out',
/* 0x3 NOT IMPLEMENTED */
0x4: 'source-in',
/* 0x5 NOT IMPLEMENTED */
0x6: 'source-atop',
/* 0x7 NOT IMPLEMENTED */
0x8: 'source-out',
0x9: 'destination-atop',
0xa: 'xor',
0xb: 'destination-over',
0xc: 'copy',
/* 0xD NOT IMPLEMENTED */
0xe: 'source-over',
0xf: 'lighter',
};
/**
* Resizes the canvas element backing this Layer. This function should only
* be used internally.
*
* @private
* @param {number} [newWidth=0]
* The new width to assign to this Layer.
*
* @param {number} [newHeight=0]
* The new height to assign to this Layer.
*/
var resize = function resize(newWidth, newHeight) {
// Default size to zero
newWidth = newWidth || 0;
newHeight = newHeight || 0;
// Calculate new dimensions of internal canvas
var canvasWidth = Math.ceil(newWidth / CANVAS_SIZE_FACTOR) * CANVAS_SIZE_FACTOR;
var canvasHeight = Math.ceil(newHeight / CANVAS_SIZE_FACTOR) * CANVAS_SIZE_FACTOR;
// Resize only if canvas dimensions are actually changing
if (canvas.width !== canvasWidth || canvas.height !== canvasHeight) {
// Copy old data only if relevant and non-empty
var oldData = null;
if (!empty && canvas.width !== 0 && canvas.height !== 0) {
// Create canvas and context for holding old data
oldData = document.createElement('canvas');
oldData.width = Math.min(layer.width, newWidth);
oldData.height = Math.min(layer.height, newHeight);
var oldDataContext = oldData.getContext('2d');
// Copy image data from current
oldDataContext.drawImage(canvas, 0, 0, oldData.width, oldData.height, 0, 0, oldData.width, oldData.height);
}
// Preserve composite operation
var oldCompositeOperation = context.globalCompositeOperation;
// Resize canvas
canvas.width = canvasWidth;
canvas.height = canvasHeight;
// Redraw old data, if any
if (oldData) context.drawImage(oldData, 0, 0, oldData.width, oldData.height, 0, 0, oldData.width, oldData.height);
// Restore composite operation
context.globalCompositeOperation = oldCompositeOperation;
// Acknowledge reset of stack (happens on resize of canvas)
stackSize = 0;
context.save();
}
// If the canvas size is not changing, manually force state reset
else layer.reset();
// Assign new layer dimensions
layer.width = newWidth;
layer.height = newHeight;
};
/**
* Given the X and Y coordinates of the upper-left corner of a rectangle
* and the rectangle's width and height, resize the backing canvas element
* as necessary to ensure that the rectangle fits within the canvas
* element's coordinate space. This function will only make the canvas
* larger. If the rectangle already fits within the canvas element's
* coordinate space, the canvas is left unchanged.
*
* @private
* @param {!number} x
* The X coordinate of the upper-left corner of the rectangle to fit.
*
* @param {!number} y
* The Y coordinate of the upper-left corner of the rectangle to fit.
*
* @param {!number} w
* The width of the rectangle to fit.
*
* @param {!number} h
* The height of the rectangle to fit.
*/
function fitRect(x, y, w, h) {
// Calculate bounds
var opBoundX = w + x;
var opBoundY = h + y;
// Determine max width
var resizeWidth;
if (opBoundX > layer.width) resizeWidth = opBoundX;
else resizeWidth = layer.width;
// Determine max height
var resizeHeight;
if (opBoundY > layer.height) resizeHeight = opBoundY;
else resizeHeight = layer.height;
// Resize if necessary
layer.resize(resizeWidth, resizeHeight);
}
/**
* Set to true if this Layer should resize itself to accommodate the
* dimensions of any drawing operation, and false (the default) otherwise.
*
* Note that setting this property takes effect immediately, and thus may
* take effect on operations that were started in the past but have not
* yet completed. If you wish the setting of this flag to only modify
* future operations, you will need to make the setting of this flag an
* operation with sync().
*
* @example
* // Set autosize to true for all future operations
* layer.sync(function() {
* layer.autosize = true;
* });
*
* @type {!boolean}
* @default false
*/
this.autosize = false;
/**
* The current width of this layer.
*
* @type {!number}
*/
this.width = width;
/**
* The current height of this layer.
*
* @type {!number}
*/
this.height = height;
/**
* Returns the canvas element backing this Layer. Note that the dimensions
* of the canvas may not exactly match those of the Layer, as resizing a
* canvas while maintaining its state is an expensive operation.
*
* @returns {!HTMLCanvasElement}
* The canvas element backing this Layer.
*/
this.getCanvas = function getCanvas() {
return canvas;
};
/**
* Returns a new canvas element containing the same image as this Layer.
* Unlike getCanvas(), the canvas element returned is guaranteed to have
* the exact same dimensions as the Layer.
*
* @returns {!HTMLCanvasElement}
* A new canvas element containing a copy of the image content this
* Layer.
*/
this.toCanvas = function toCanvas() {
// Create new canvas having same dimensions
var canvas = document.createElement('canvas');
canvas.width = layer.width;
canvas.height = layer.height;
// Copy image contents to new canvas
var context = canvas.getContext('2d');
context.drawImage(layer.getCanvas(), 0, 0);
return canvas;
};
/**
* Changes the size of this Layer to the given width and height. Resizing
* is only attempted if the new size provided is actually different from
* the current size.
*
* @param {!number} newWidth
* The new width to assign to this Layer.
*
* @param {!number} newHeight
* The new height to assign to this Layer.
*/
this.resize = function (newWidth, newHeight) {
if (newWidth !== layer.width || newHeight !== layer.height) resize(newWidth, newHeight);
};
/**
* Draws the specified image at the given coordinates. The image specified
* must already be loaded.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*
* @param {!CanvasImageSource} image
* The image to draw. Note that this is not a URL.
*/
this.drawImage = function (x, y, image) {
if (layer.autosize) fitRect(x, y, image.width, image.height);
context.drawImage(image, x, y);
empty = false;
};
/**
* Transfer a rectangle of image data from one Layer to this Layer using the
* specified transfer function.
*
* @param {!Guacamole.Layer} srcLayer
* The Layer to copy image data from.
*
* @param {!number} srcx
* The X coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcy
* The Y coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcw
* The width of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} srch
* The height of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*
* @param {!function} transferFunction
* The transfer function to use to transfer data from source to
* destination.
*/
this.transfer = function (srcLayer, srcx, srcy, srcw, srch, x, y, transferFunction) {
var srcCanvas = srcLayer.getCanvas();
// If entire rectangle outside source canvas, stop
if (srcx >= srcCanvas.width || srcy >= srcCanvas.height) return;
// Otherwise, clip rectangle to area
if (srcx + srcw > srcCanvas.width) srcw = srcCanvas.width - srcx;
if (srcy + srch > srcCanvas.height) srch = srcCanvas.height - srcy;
// Stop if nothing to draw.
if (srcw === 0 || srch === 0) return;
if (layer.autosize) fitRect(x, y, srcw, srch);
// Get image data from src and dst
var src = srcLayer.getCanvas().getContext('2d').getImageData(srcx, srcy, srcw, srch);
var dst = context.getImageData(x, y, srcw, srch);
// Apply transfer for each pixel
for (var i = 0; i < srcw * srch * 4; i += 4) {
// Get source pixel environment
var src_pixel = new Guacamole.Layer.Pixel(src.data[i], src.data[i + 1], src.data[i + 2], src.data[i + 3]);
// Get destination pixel environment
var dst_pixel = new Guacamole.Layer.Pixel(dst.data[i], dst.data[i + 1], dst.data[i + 2], dst.data[i + 3]);
// Apply transfer function
transferFunction(src_pixel, dst_pixel);
// Save pixel data
dst.data[i] = dst_pixel.red;
dst.data[i + 1] = dst_pixel.green;
dst.data[i + 2] = dst_pixel.blue;
dst.data[i + 3] = dst_pixel.alpha;
}
// Draw image data
context.putImageData(dst, x, y);
empty = false;
};
/**
* Put a rectangle of image data from one Layer to this Layer directly
* without performing any alpha blending. Simply copy the data.
*
* @param {!Guacamole.Layer} srcLayer
* The Layer to copy image data from.
*
* @param {!number} srcx
* The X coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcy
* The Y coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcw
* The width of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} srch
* The height of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*/
this.put = function (srcLayer, srcx, srcy, srcw, srch, x, y) {
var srcCanvas = srcLayer.getCanvas();
// If entire rectangle outside source canvas, stop
if (srcx >= srcCanvas.width || srcy >= srcCanvas.height) return;
// Otherwise, clip rectangle to area
if (srcx + srcw > srcCanvas.width) srcw = srcCanvas.width - srcx;
if (srcy + srch > srcCanvas.height) srch = srcCanvas.height - srcy;
// Stop if nothing to draw.
if (srcw === 0 || srch === 0) return;
if (layer.autosize) fitRect(x, y, srcw, srch);
// Get image data from src and dst
var src = srcLayer.getCanvas().getContext('2d').getImageData(srcx, srcy, srcw, srch);
context.putImageData(src, x, y);
empty = false;
};
/**
* Copy a rectangle of image data from one Layer to this Layer. This
* operation will copy exactly the image data that will be drawn once all
* operations of the source Layer that were pending at the time this
* function was called are complete. This operation will not alter the
* size of the source Layer even if its autosize property is set to true.
*
* @param {!Guacamole.Layer} srcLayer
* The Layer to copy image data from.
*
* @param {!number} srcx
* The X coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcy
* The Y coordinate of the upper-left corner of the rectangle within
* the source Layer's coordinate space to copy data from.
*
* @param {!number} srcw
* The width of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} srch
* The height of the rectangle within the source Layer's coordinate
* space to copy data from.
*
* @param {!number} x
* The destination X coordinate.
*
* @param {!number} y
* The destination Y coordinate.
*/
this.copy = function (srcLayer, srcx, srcy, srcw, srch, x, y) {
var srcCanvas = srcLayer.getCanvas();
// If entire rectangle outside source canvas, stop
if (srcx >= srcCanvas.width || srcy >= srcCanvas.height) return;
// Otherwise, clip rectangle to area
if (srcx + srcw > srcCanvas.width) srcw = srcCanvas.width - srcx;
if (srcy + srch > srcCanvas.height) srch = srcCanvas.height - srcy;
// Stop if nothing to draw.
if (srcw === 0 || srch === 0) return;
if (layer.autosize) fitRect(x, y, srcw, srch);
context.drawImage(srcCanvas, srcx, srcy, srcw, srch, x, y, srcw, srch);
empty = false;
};
/**
* Starts a new path at the specified point.
*
* @param {!number} x
* The X coordinate of the point to draw.
*
* @param {!number} y
* The Y coordinate of the point to draw.
*/
this.moveTo = function (x, y) {
// Start a new path if current path is closed
if (pathClosed) {
context.beginPath();
pathClosed = false;
}
if (layer.autosize) fitRect(x, y, 0, 0);
context.moveTo(x, y);
};
/**
* Add the specified line to the current path.
*
* @param {!number} x
* The X coordinate of the endpoint of the line to draw.
*
* @param {!number} y
* The Y coordinate of the endpoint of the line to draw.
*/
this.lineTo = function (x, y) {
// Start a new path if current path is closed
if (pathClosed) {
context.beginPath();
pathClosed = false;
}
if (layer.autosize) fitRect(x, y, 0, 0);
context.lineTo(x, y);
};
/**
* Add the specified arc to the current path.
*
* @param {!number} x
* The X coordinate of the center of the circle which will contain the
* arc.
*
* @param {!number} y
* The Y coordinate of the center of the circle which will contain the
* arc.
*
* @param {!number} radius
* The radius of the circle.
*
* @param {!number} startAngle
* The starting angle of the arc, in radians.
*
* @param {!number} endAngle
* The ending angle of the arc, in radians.
*
* @param {!boolean} negative
* Whether the arc should be drawn in order of decreasing angle.
*/
this.arc = function (x, y, radius, startAngle, endAngle, negative) {
// Start a new path if current path is closed
if (pathClosed) {
context.beginPath();
pathClosed = false;
}
if (layer.autosize) fitRect(x, y, 0, 0);
context.arc(x, y, radius, startAngle, endAngle, negative);
};
/**
* Starts a new path at the specified point.
*
* @param {!number} cp1x
* The X coordinate of the first control point.
*
* @param {!number} cp1y
* The Y coordinate of the first control point.
*
* @param {!number} cp2x
* The X coordinate of the second control point.
*
* @param {!number} cp2y
* The Y coordinate of the second control point.
*
* @param {!number} x
* The X coordinate of the endpoint of the curve.
*
* @param {!number} y
* The Y coordinate of the endpoint of the curve.
*/
this.curveTo = function (cp1x, cp1y, cp2x, cp2y, x, y) {
// Start a new path if current path is closed
if (pathClosed) {
context.beginPath();
pathClosed = false;
}
if (layer.autosize) fitRect(x, y, 0, 0);
context.bezierCurveTo(cp1x, cp1y, cp2x, cp2y, x, y);
};
/**
* Closes the current path by connecting the end point with the start
* point (if any) with a straight line.
*/
this.close = function () {
context.closePath();
pathClosed = true;
};
/**
* Add the specified rectangle to the current path.
*
* @param {!number} x
* The X coordinate of the upper-left corner of the rectangle to draw.
*
* @param {!number} y
* The Y coordinate of the upper-left corner of the rectangle to draw.
*
* @param {!number} w
* The width of the rectangle to draw.
*
* @param {!number} h
* The height of the rectangle to draw.
*/
this.rect = function (x, y, w, h) {
// Start a new path if current path is closed
if (pathClosed) {
context.beginPath();
pathClosed = false;
}
if (layer.autosize) fitRect(x, y, w, h);
context.rect(x, y, w, h);
};
/**
* Clip all future drawing operations by the current path. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as fillColor()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*/
this.clip = function () {
// Set new clipping region
context.clip();
// Path now implicitly closed
pathClosed = true;
};
/**
* Stroke the current path with the specified color. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as clip()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!string} cap
* The line cap style. Can be "round", "square", or "butt".
*
* @param {!string} join
* The line join style. Can be "round", "bevel", or "miter".
*
* @param {!number} thickness
* The line thickness in pixels.
*
* @param {!number} r
* The red component of the color to fill.
*
* @param {!number} g
* The green component of the color to fill.
*
* @param {!number} b
* The blue component of the color to fill.
*
* @param {!number} a
* The alpha component of the color to fill.
*/
this.strokeColor = function (cap, join, thickness, r, g, b, a) {
// Stroke with color
context.lineCap = cap;
context.lineJoin = join;
context.lineWidth = thickness;
context.strokeStyle = 'rgba(' + r + ',' + g + ',' + b + ',' + a / 255.0 + ')';
context.stroke();
empty = false;
// Path now implicitly closed
pathClosed = true;
};
/**
* Fills the current path with the specified color. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as clip()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!number} r
* The red component of the color to fill.
*
* @param {!number} g
* The green component of the color to fill.
*
* @param {!number} b
* The blue component of the color to fill.
*
* @param {!number} a
* The alpha component of the color to fill.
*/
this.fillColor = function (r, g, b, a) {
// Fill with color
context.fillStyle = 'rgba(' + r + ',' + g + ',' + b + ',' + a / 255.0 + ')';
context.fill();
empty = false;
// Path now implicitly closed
pathClosed = true;
};
/**
* Stroke the current path with the image within the specified layer. The
* image data will be tiled infinitely within the stroke. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as clip()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!string} cap
* The line cap style. Can be "round", "square", or "butt".
*
* @param {!string} join
* The line join style. Can be "round", "bevel", or "miter".
*
* @param {!number} thickness
* The line thickness in pixels.
*
* @param {!Guacamole.Layer} srcLayer
* The layer to use as a repeating pattern within the stroke.
*/
this.strokeLayer = function (cap, join, thickness, srcLayer) {
// Stroke with image data
context.lineCap = cap;
context.lineJoin = join;
context.lineWidth = thickness;
context.strokeStyle = context.createPattern(srcLayer.getCanvas(), 'repeat');
context.stroke();
empty = false;
// Path now implicitly closed
pathClosed = true;
};
/**
* Fills the current path with the image within the specified layer. The
* image data will be tiled infinitely within the stroke. The current path
* is implicitly closed. The current path can continue to be reused
* for other operations (such as clip()) but a new path will be started
* once a path drawing operation (path() or rect()) is used.
*
* @param {!Guacamole.Layer} srcLayer
* The layer to use as a repeating pattern within the fill.
*/
this.fillLayer = function (srcLayer) {
// Fill with image data
context.fillStyle = context.createPattern(srcLayer.getCanvas(), 'repeat');
context.fill();
empty = false;
// Path now implicitly closed
pathClosed = true;
};
/**
* Push current layer state onto stack.
*/
this.push = function () {
// Save current state onto stack
context.save();
stackSize++;
};
/**
* Pop layer state off stack.
*/
this.pop = function () {
// Restore current state from stack
if (stackSize > 0) {
context.restore();
stackSize--;
}
};
/**
* Reset the layer, clearing the stack, the current path, and any transform
* matrix.
*/
this.reset = function () {
// Clear stack
while (stackSize > 0) {
context.restore();
stackSize--;
}
// Restore to initial state
context.restore();
context.save();
// Clear path
context.beginPath();
pathClosed = false;
};
/**
* Sets the given affine transform (defined with six values from the
* transform's matrix).
*
* @param {!number} a
* The first value in the affine transform's matrix.
*
* @param {!number} b
* The second value in the affine transform's matrix.
*
* @param {!number} c
* The third value in the affine transform's matrix.
*
* @param {!number} d
* The fourth value in the affine transform's matrix.
*
* @param {!number} e
* The fifth value in the affine transform's matrix.
*
* @param {!number} f
* The sixth value in the affine transform's matrix.
*/
this.setTransform = function (a, b, c, d, e, f) {
context.setTransform(
a,
b,
c,
d,
e,
f
/*0, 0, 1*/
);
};
/**
* Applies the given affine transform (defined with six values from the
* transform's matrix).
*
* @param {!number} a
* The first value in the affine transform's matrix.
*
* @param {!number} b
* The second value in the affine transform's matrix.
*
* @param {!number} c
* The third value in the affine transform's matrix.
*
* @param {!number} d
* The fourth value in the affine transform's matrix.
*
* @param {!number} e
* The fifth value in the affine transform's matrix.
*
* @param {!number} f
* The sixth value in the affine transform's matrix.
*/
this.transform = function (a, b, c, d, e, f) {
context.transform(
a,
b,
c,
d,
e,
f
/*0, 0, 1*/
);
};
/**
* Sets the channel mask for future operations on this Layer.
*
* The channel mask is a Guacamole-specific compositing operation identifier
* with a single bit representing each of four channels (in order): source
* image where destination transparent, source where destination opaque,
* destination where source transparent, and destination where source
* opaque.
*
* @param {!number} mask
* The channel mask for future operations on this Layer.
*/
this.setChannelMask = function (mask) {
context.globalCompositeOperation = compositeOperation[mask];
};
/**
* Sets the miter limit for stroke operations using the miter join. This
* limit is the maximum ratio of the size of the miter join to the stroke
* width. If this ratio is exceeded, the miter will not be drawn for that
* joint of the path.
*
* @param {!number} limit
* The miter limit for stroke operations using the miter join.
*/
this.setMiterLimit = function (limit) {
context.miterLimit = limit;
};
// Initialize canvas dimensions
resize(width, height);
// Explicitly render canvas below other elements in the layer (such as
// child layers). Chrome and others may fail to render layers properly
// without this.
canvas.style.zIndex = -1;
};
/**
* Channel mask for the composite operation "rout".
*
* @type {!number}
*/
Guacamole.Layer.ROUT = 0x2;
/**
* Channel mask for the composite operation "atop".
*
* @type {!number}
*/
Guacamole.Layer.ATOP = 0x6;
/**
* Channel mask for the composite operation "xor".
*
* @type {!number}
*/
Guacamole.Layer.XOR = 0xa;
/**
* Channel mask for the composite operation "rover".
*
* @type {!number}
*/
Guacamole.Layer.ROVER = 0xb;
/**
* Channel mask for the composite operation "over".
*
* @type {!number}
*/
Guacamole.Layer.OVER = 0xe;
/**
* Channel mask for the composite operation "plus".
*
* @type {!number}
*/
Guacamole.Layer.PLUS = 0xf;
/**
* Channel mask for the composite operation "rin".
* Beware that WebKit-based browsers may leave the contents of the destination
* layer where the source layer is transparent, despite the definition of this
* operation.
*
* @type {!number}
*/
Guacamole.Layer.RIN = 0x1;
/**
* Channel mask for the composite operation "in".
* Beware that WebKit-based browsers may leave the contents of the destination
* layer where the source layer is transparent, despite the definition of this
* operation.
*
* @type {!number}
*/
Guacamole.Layer.IN = 0x4;
/**
* Channel mask for the composite operation "out".
* Beware that WebKit-based browsers may leave the contents of the destination
* layer where the source layer is transparent, despite the definition of this
* operation.
*
* @type {!number}
*/
Guacamole.Layer.OUT = 0x8;
/**
* Channel mask for the composite operation "ratop".
* Beware that WebKit-based browsers may leave the contents of the destination
* layer where the source layer is transparent, despite the definition of this
* operation.
*
* @type {!number}
*/
Guacamole.Layer.RATOP = 0x9;
/**
* Channel mask for the composite operation "src".
* Beware that WebKit-based browsers may leave the contents of the destination
* layer where the source layer is transparent, despite the definition of this
* operation.
*
* @type {!number}
*/
Guacamole.Layer.SRC = 0xc;
/**
* Represents a single pixel of image data. All components have a minimum value
* of 0 and a maximum value of 255.
*
* @constructor
*
* @param {!number} r
* The red component of this pixel.
*
* @param {!number} g
* The green component of this pixel.
*
* @param {!number} b
* The blue component of this pixel.
*
* @param {!number} a
* The alpha component of this pixel.
*/
Guacamole.Layer.Pixel = function (r, g, b, a) {
/**
* The red component of this pixel, where 0 is the minimum value,
* and 255 is the maximum.
*
* @type {!number}
*/
this.red = r;
/**
* The green component of this pixel, where 0 is the minimum value,
* and 255 is the maximum.
*
* @type {!number}
*/
this.green = g;
/**
* The blue component of this pixel, where 0 is the minimum value,
* and 255 is the maximum.
*
* @type {!number}
*/
this.blue = b;
/**
* The alpha component of this pixel, where 0 is the minimum value,
* and 255 is the maximum.
*
* @type {!number}
*/
this.alpha = a;
};
/**
* Provides cross-browser mouse events for a given element. The events of
* the given element are automatically populated with handlers that translate
* mouse events into a non-browser-specific event provided by the
* Guacamole.Mouse instance.
*
* @example
* var mouse = new Guacamole.Mouse(client.getDisplay().getElement());
*
* // Forward all mouse interaction over Guacamole connection
* mouse.onEach(['mousedown', 'mousemove', 'mouseup'], function sendMouseEvent(e) {
* client.sendMouseState(e.state, true);
* });
*
* @example
* // Hide software cursor when mouse leaves display
* mouse.on('mouseout', function hideCursor() {
* client.getDisplay().showCursor(false);
* });
*
* @constructor
* @augments Guacamole.Mouse.Event.Target
* @param {!Element} element
* The Element to use to provide mouse events.
*/
Guacamole.Mouse = function Mouse(element) {
Guacamole.Mouse.Event.Target.call(this);
/**
* Reference to this Guacamole.Mouse.
*
* @private
* @type {!Guacamole.Mouse}
*/
var guac_mouse = this;
/**
* The number of mousemove events to require before re-enabling mouse
* event handling after receiving a touch event.
*
* @type {!number}
*/
this.touchMouseThreshold = 3;
/**
* The minimum amount of pixels scrolled required for a single scroll button
* click.
*
* @type {!number}
*/
this.scrollThreshold = 53;
/**
* The number of pixels to scroll per line.
*
* @type {!number}
*/
this.PIXELS_PER_LINE = 18;
/**
* The number of pixels to scroll per page.
*
* @type {!number}
*/
this.PIXELS_PER_PAGE = this.PIXELS_PER_LINE * 16;
/**
* Array of {@link Guacamole.Mouse.State} button names corresponding to the
* mouse button indices used by DOM mouse events.
*
* @private
* @type {!string[]}
*/
var MOUSE_BUTTONS = [Guacamole.Mouse.State.Buttons.LEFT, Guacamole.Mouse.State.Buttons.MIDDLE, Guacamole.Mouse.State.Buttons.RIGHT];
/**
* Counter of mouse events to ignore. This decremented by mousemove, and
* while non-zero, mouse events will have no effect.
*
* @private
* @type {!number}
*/
var ignore_mouse = 0;
/**
* Cumulative scroll delta amount. This value is accumulated through scroll
* events and results in scroll button clicks if it exceeds a certain
* threshold.
*
* @private
* @type {!number}
*/
var scroll_delta = 0;
// Block context menu so right-click gets sent properly
element.addEventListener(
'contextmenu',
function (e) {
Guacamole.Event.DOMEvent.cancelEvent(e);
},
false
);
element.addEventListener(
'mousemove',
function (e) {
// If ignoring events, decrement counter
if (ignore_mouse) {
Guacamole.Event.DOMEvent.cancelEvent(e);
ignore_mouse--;
return;
}
guac_mouse.move(Guacamole.Position.fromClientPosition(element, e.clientX, e.clientY), e);
},
false
);
element.addEventListener(
'mousedown',
function (e) {
// Do not handle if ignoring events
if (ignore_mouse) {
Guacamole.Event.DOMEvent.cancelEvent(e);
return;
}
var button = MOUSE_BUTTONS[e.button];
if (button) guac_mouse.press(button, e);
},
false
);
element.addEventListener(
'mouseup',
function (e) {
// Do not handle if ignoring events
if (ignore_mouse) {
Guacamole.Event.DOMEvent.cancelEvent(e);
return;
}
var button = MOUSE_BUTTONS[e.button];
if (button) guac_mouse.release(button, e);
},
false
);
element.addEventListener(
'mouseout',
function (e) {
// Get parent of the element the mouse pointer is leaving
if (!e) e = window.event;
// Check that mouseout is due to actually LEAVING the element
var target = e.relatedTarget || e.toElement;
while (target) {
if (target === element) return;
target = target.parentNode;
}
// Release all buttons and fire mouseout
guac_mouse.reset(e);
guac_mouse.out(e);
},
false
);
// Override selection on mouse event element.
element.addEventListener(
'selectstart',
function (e) {
Guacamole.Event.DOMEvent.cancelEvent(e);
},
false
);
// Ignore all pending mouse events when touch events are the apparent source
function ignorePendingMouseEvents() {
ignore_mouse = guac_mouse.touchMouseThreshold;
}
element.addEventListener('touchmove', ignorePendingMouseEvents, false);
element.addEventListener('touchstart', ignorePendingMouseEvents, false);
element.addEventListener('touchend', ignorePendingMouseEvents, false);
// Scroll wheel support
function mousewheel_handler(e) {
// Determine approximate scroll amount (in pixels)
var delta = e.deltaY || -e.wheelDeltaY || -e.wheelDelta;
// If successfully retrieved scroll amount, convert to pixels if not
// already in pixels
if (delta) {
// Convert to pixels if delta was lines
if (e.deltaMode === 1) delta = e.deltaY * guac_mouse.PIXELS_PER_LINE;
// Convert to pixels if delta was pages
else if (e.deltaMode === 2) delta = e.deltaY * guac_mouse.PIXELS_PER_PAGE;
}
// Otherwise, assume legacy mousewheel event and line scrolling
else delta = e.detail * guac_mouse.PIXELS_PER_LINE;
// Update overall delta
scroll_delta += delta;
// Up
if (scroll_delta <= -guac_mouse.scrollThreshold) {
// Repeatedly click the up button until insufficient delta remains
do {
guac_mouse.click(Guacamole.Mouse.State.Buttons.UP);
scroll_delta += guac_mouse.scrollThreshold;
} while (scroll_delta <= -guac_mouse.scrollThreshold);
// Reset delta
scroll_delta = 0;
}
// Down
if (scroll_delta >= guac_mouse.scrollThreshold) {
// Repeatedly click the down button until insufficient delta remains
do {
guac_mouse.click(Guacamole.Mouse.State.Buttons.DOWN);
scroll_delta -= guac_mouse.scrollThreshold;
} while (scroll_delta >= guac_mouse.scrollThreshold);
// Reset delta
scroll_delta = 0;
}
// All scroll/wheel events must currently be cancelled regardless of
// whether the dispatched event is cancelled, as there is no Guacamole
// scroll event and thus no way to cancel scroll events that are
// smaller than required to produce an up/down click
Guacamole.Event.DOMEvent.cancelEvent(e);
}
element.addEventListener('DOMMouseScroll', mousewheel_handler, false);
element.addEventListener('mousewheel', mousewheel_handler, false);
element.addEventListener('wheel', mousewheel_handler, false);
/**
* Whether the browser supports CSS3 cursor styling, including hotspot
* coordinates.
*
* @private
* @type {!boolean}
*/
var CSS3_CURSOR_SUPPORTED = (function () {
var div = document.createElement('div');
// If no cursor property at all, then no support
if (!('cursor' in div.style)) return false;
try {
// Apply simple 1x1 PNG
div.style.cursor =
'url(data:image/png;base64,' +
'iVBORw0KGgoAAAANSUhEUgAAAAEAAAAB' +
'AQMAAAAl21bKAAAAA1BMVEX///+nxBvI' +
'AAAACklEQVQI12NgAAAAAgAB4iG8MwAA' +
'AABJRU5ErkJggg==) 0 0, auto';
} catch (e) {
return false;
}
// Verify cursor property is set to URL with hotspot
return /\burl\([^()]*\)\s+0\s+0\b/.test(div.style.cursor || '');
})();
/**
* Changes the local mouse cursor to the given canvas, having the given
* hotspot coordinates. This affects styling of the element backing this
* Guacamole.Mouse only, and may fail depending on browser support for
* setting the mouse cursor.
*
* If setting the local cursor is desired, it is up to the implementation
* to do something else, such as use the software cursor built into
* Guacamole.Display, if the local cursor cannot be set.
*
* @param {!HTMLCanvasElement} canvas
* The cursor image.
*
* @param {!number} x
* The X-coordinate of the cursor hotspot.
*
* @param {!number} y
* The Y-coordinate of the cursor hotspot.
*
* @return {!boolean}
* true if the cursor was successfully set, false if the cursor could
* not be set for any reason.
*/
this.setCursor = function (canvas, x, y) {
// Attempt to set via CSS3 cursor styling
if (CSS3_CURSOR_SUPPORTED) {
var dataURL = canvas.toDataURL('image/png');
element.style.cursor = 'url(' + dataURL + ') ' + x + ' ' + y + ', auto';
return true;
}
// Otherwise, setting cursor failed
return false;
};
};
/**
* The current state of a mouse, including position and buttons.
*
* @constructor
* @augments Guacamole.Position
* @param {Guacamole.Mouse.State|object} [template={}]
* The object whose properties should be copied within the new
* Guacamole.Mouse.State.
*/
Guacamole.Mouse.State = function State(template) {
/**
* Returns the template object that would be provided to the
* Guacamole.Mouse.State constructor to produce a new Guacamole.Mouse.State
* object with the properties specified. The order and type of arguments
* used by this function are identical to those accepted by the
* Guacamole.Mouse.State constructor of Apache Guacamole 1.3.0 and older.
*
* @private
* @param {!number} x
* The X position of the mouse pointer in pixels.
*
* @param {!number} y
* The Y position of the mouse pointer in pixels.
*
* @param {!boolean} left
* Whether the left mouse button is pressed.
*
* @param {!boolean} middle
* Whether the middle mouse button is pressed.
*
* @param {!boolean} right
* Whether the right mouse button is pressed.
*
* @param {!boolean} up
* Whether the up mouse button is pressed (the fourth button, usually
* part of a scroll wheel).
*
* @param {!boolean} down
* Whether the down mouse button is pressed (the fifth button, usually
* part of a scroll wheel).
*
* @return {!object}
* The equivalent template object that would be passed to the new
* Guacamole.Mouse.State constructor.
*/
var legacyConstructor = function legacyConstructor(x, y, left, middle, right, up, down) {
return {
x: x,
y: y,
left: left,
middle: middle,
right: right,
up: up,
down: down,
};
};
// Accept old-style constructor, as well
if (arguments.length > 1) template = legacyConstructor.apply(this, arguments);
else template = template || {};
Guacamole.Position.call(this, template);
/**
* Whether the left mouse button is currently pressed.
*
* @type {!boolean}
* @default false
*/
this.left = template.left || false;
/**
* Whether the middle mouse button is currently pressed.
*
* @type {!boolean}
* @default false
*/
this.middle = template.middle || false;
/**
* Whether the right mouse button is currently pressed.
*
* @type {!boolean}
* @default false
*/
this.right = template.right || false;
/**
* Whether the up mouse button is currently pressed. This is the fourth
* mouse button, associated with upward scrolling of the mouse scroll
* wheel.
*
* @type {!boolean}
* @default false
*/
this.up = template.up || false;
/**
* Whether the down mouse button is currently pressed. This is the fifth
* mouse button, associated with downward scrolling of the mouse scroll
* wheel.
*
* @type {!boolean}
* @default false
*/
this.down = template.down || false;
};
/**
* All mouse buttons that may be represented by a
* {@link Guacamole.Mouse.State}.
*
* @readonly
* @enum
*/
Guacamole.Mouse.State.Buttons = {
/**
* The name of the {@link Guacamole.Mouse.State} property representing the
* left mouse button.
*
* @constant
* @type {!string}
*/
LEFT: 'left',
/**
* The name of the {@link Guacamole.Mouse.State} property representing the
* middle mouse button.
*
* @constant
* @type {!string}
*/
MIDDLE: 'middle',
/**
* The name of the {@link Guacamole.Mouse.State} property representing the
* right mouse button.
*
* @constant
* @type {!string}
*/
RIGHT: 'right',
/**
* The name of the {@link Guacamole.Mouse.State} property representing the
* up mouse button (the fourth mouse button, clicked when the mouse scroll
* wheel is scrolled up).
*
* @constant
* @type {!string}
*/
UP: 'up',
/**
* The name of the {@link Guacamole.Mouse.State} property representing the
* down mouse button (the fifth mouse button, clicked when the mouse scroll
* wheel is scrolled up).
*
* @constant
* @type {!string}
*/
DOWN: 'down',
};
/**
* Base event type for all mouse events. The mouse producing the event may be
* the user's local mouse (as with {@link Guacamole.Mouse}) or an emulated
* mouse (as with {@link Guacamole.Mouse.Touchpad}).
*
* @constructor
* @augments Guacamole.Event.DOMEvent
* @param {!string} type
* The type name of the event ("mousedown", "mouseup", etc.)
*
* @param {!Guacamole.Mouse.State} state
* The current mouse state.
*
* @param {Event|Event[]} [events=[]]
* The DOM events that are related to this event, if any.
*/
Guacamole.Mouse.Event = function MouseEvent(type, state, events) {
Guacamole.Event.DOMEvent.call(this, type, events);
/**
* The name of the event handler used by the Guacamole JavaScript API for
* this event prior to the migration to Guacamole.Event.Target.
*
* @private
* @constant
* @type {!string}
*/
var legacyHandlerName = 'on' + this.type;
/**
* The current mouse state at the time this event was fired.
*
* @type {!Guacamole.Mouse.State}
*/
this.state = state;
/**
* @inheritdoc
*/
this.invokeLegacyHandler = function invokeLegacyHandler(target) {
if (target[legacyHandlerName]) {
this.preventDefault();
this.stopPropagation();
target[legacyHandlerName](this.state);
}
};
};
/**
* An object which can dispatch {@link Guacamole.Mouse.Event} objects
* representing mouse events. These mouse events may be produced from an actual
* mouse device (as with {@link Guacamole.Mouse}), from an emulated mouse
* device (as with {@link Guacamole.Mouse.Touchpad}, or may be programmatically
* generated (using functions like [dispatch()]{@link Guacamole.Mouse.Event.Target#dispatch},
* [press()]{@link Guacamole.Mouse.Event.Target#press}, and
* [release()]{@link Guacamole.Mouse.Event.Target#release}).
*
* @constructor
* @augments Guacamole.Event.Target
*/
Guacamole.Mouse.Event.Target = function MouseEventTarget() {
Guacamole.Event.Target.call(this);
/**
* The current mouse state. The properties of this state are updated when
* mouse events fire. This state object is also passed in as a parameter to
* the handler of any mouse events.
*
* @type {!Guacamole.Mouse.State}
*/
this.currentState = new Guacamole.Mouse.State();
/**
* Fired whenever a mouse button is effectively pressed. Depending on the
* object dispatching the event, this can be due to a true mouse button
* press ({@link Guacamole.Mouse}), an emulated mouse button press from a
* touch gesture ({@link Guacamole.Mouse.Touchpad} and
* {@link Guacamole.Mouse.Touchscreen}), or may be programmatically
* generated through [dispatch()]{@link Guacamole.Mouse.Event.Target#dispatch},
* [press()]{@link Guacamole.Mouse.Event.Target#press}, or
* [click()]{@link Guacamole.Mouse.Event.Target#click}.
*
* @event Guacamole.Mouse.Event.Target#mousedown
* @param {!Guacamole.Mouse.Event} event
* The mousedown event that was fired.
*/
/**
* Fired whenever a mouse button is effectively released. Depending on the
* object dispatching the event, this can be due to a true mouse button
* release ({@link Guacamole.Mouse}), an emulated mouse button release from
* a touch gesture ({@link Guacamole.Mouse.Touchpad} and
* {@link Guacamole.Mouse.Touchscreen}), or may be programmatically
* generated through [dispatch()]{@link Guacamole.Mouse.Event.Target#dispatch},
* [release()]{@link Guacamole.Mouse.Event.Target#release}, or
* [click()]{@link Guacamole.Mouse.Event.Target#click}.
*
* @event Guacamole.Mouse.Event.Target#mouseup
* @param {!Guacamole.Mouse.Event} event
* The mouseup event that was fired.
*/
/**
* Fired whenever the mouse pointer is effectively moved. Depending on the
* object dispatching the event, this can be due to true mouse movement
* ({@link Guacamole.Mouse}), emulated mouse movement from
* a touch gesture ({@link Guacamole.Mouse.Touchpad} and
* {@link Guacamole.Mouse.Touchscreen}), or may be programmatically
* generated through [dispatch()]{@link Guacamole.Mouse.Event.Target#dispatch},
* or [move()]{@link Guacamole.Mouse.Event.Target#move}.
*
* @event Guacamole.Mouse.Event.Target#mousemove
* @param {!Guacamole.Mouse.Event} event
* The mousemove event that was fired.
*/
/**
* Fired whenever the mouse pointer leaves the boundaries of the element
* being monitored for interaction. This will only ever be automatically
* fired due to movement of an actual mouse device via
* {@link Guacamole.Mouse} unless programmatically generated through
* [dispatch()]{@link Guacamole.Mouse.Event.Target#dispatch},
* or [out()]{@link Guacamole.Mouse.Event.Target#out}.
*
* @event Guacamole.Mouse.Event.Target#mouseout
* @param {!Guacamole.Mouse.Event} event
* The mouseout event that was fired.
*/
/**
* Presses the given mouse button, if it isn't already pressed. Valid
* button names are defined by {@link Guacamole.Mouse.State.Buttons} and
* correspond to the button-related properties of
* {@link Guacamole.Mouse.State}.
*
* @fires Guacamole.Mouse.Event.Target#mousedown
*
* @param {!string} button
* The name of the mouse button to press, as defined by
* {@link Guacamole.Mouse.State.Buttons}.
*
* @param {Event|Event[]} [events=[]]
* The DOM events that are related to the mouse button press, if any.
*/
this.press = function press(button, events) {
if (!this.currentState[button]) {
this.currentState[button] = true;
this.dispatch(new Guacamole.Mouse.Event('mousedown', this.currentState, events));
}
};
/**
* Releases the given mouse button, if it isn't already released. Valid
* button names are defined by {@link Guacamole.Mouse.State.Buttons} and
* correspond to the button-related properties of
* {@link Guacamole.Mouse.State}.
*
* @fires Guacamole.Mouse.Event.Target#mouseup
*
* @param {!string} button
* The name of the mouse button to release, as defined by
* {@link Guacamole.Mouse.State.Buttons}.
*
* @param {Event|Event[]} [events=[]]
* The DOM events related to the mouse button release, if any.
*/
this.release = function release(button, events) {
if (this.currentState[button]) {
this.currentState[button] = false;
this.dispatch(new Guacamole.Mouse.Event('mouseup', this.currentState, events));
}
};
/**
* Clicks (presses and releases) the given mouse button. Valid button
* names are defined by {@link Guacamole.Mouse.State.Buttons} and
* correspond to the button-related properties of
* {@link Guacamole.Mouse.State}.
*
* @fires Guacamole.Mouse.Event.Target#mousedown
* @fires Guacamole.Mouse.Event.Target#mouseup
*
* @param {!string} button
* The name of the mouse button to click, as defined by
* {@link Guacamole.Mouse.State.Buttons}.
*
* @param {Event|Event[]} [events=[]]
* The DOM events related to the click, if any.
*/
this.click = function click(button, events) {
this.press(button, events);
this.release(button, events);
};
/**
* Moves the mouse to the given coordinates.
*
* @fires Guacamole.Mouse.Event.Target#mousemove
*
* @param {!(Guacamole.Position|object)} position
* The new coordinates of the mouse pointer. This object may be a
* {@link Guacamole.Position} or any object with "x" and "y"
* properties.
*
* @param {Event|Event[]} [events=[]]
* The DOM events related to the mouse movement, if any.
*/
this.move = function move(position, events) {
if (this.currentState.x !== position.x || this.currentState.y !== position.y) {
this.currentState.x = position.x;
this.currentState.y = position.y;
this.dispatch(new Guacamole.Mouse.Event('mousemove', this.currentState, events));
}
};
/**
* Notifies event listeners that the mouse pointer has left the boundaries
* of the area being monitored for mouse events.
*
* @fires Guacamole.Mouse.Event.Target#mouseout
*
* @param {Event|Event[]} [events=[]]
* The DOM events related to the mouse leaving the boundaries of the
* monitored object, if any.
*/
this.out = function out(events) {
this.dispatch(new Guacamole.Mouse.Event('mouseout', this.currentState, events));
};
/**
* Releases all mouse buttons that are currently pressed. If all mouse
* buttons have already been released, this function has no effect.
*
* @fires Guacamole.Mouse.Event.Target#mouseup
*
* @param {Event|Event[]} [events=[]]
* The DOM event related to all mouse buttons being released, if any.
*/
this.reset = function reset(events) {
for (var button in Guacamole.Mouse.State.Buttons) {
this.release(Guacamole.Mouse.State.Buttons[button], events);
}
};
};
/**
* Provides cross-browser relative touch event translation for a given element.
*
* Touch events are translated into mouse events as if the touches occurred
* on a touchpad (drag to push the mouse pointer, tap to click).
*
* @example
* var touchpad = new Guacamole.Mouse.Touchpad(client.getDisplay().getElement());
*
* // Emulate a mouse using touchpad-style gestures, forwarding all mouse
* // interaction over Guacamole connection
* touchpad.onEach(['mousedown', 'mousemove', 'mouseup'], function sendMouseEvent(e) {
*
* // Re-show software mouse cursor if possibly hidden by a prior call to
* // showCursor(), such as a "mouseout" event handler that hides the
* // cursor
* client.getDisplay().showCursor(true);
*
* client.sendMouseState(e.state, true);
*
* });
*
* @constructor
* @augments Guacamole.Mouse.Event.Target
* @param {!Element} element
* The Element to use to provide touch events.
*/
Guacamole.Mouse.Touchpad = function Touchpad(element) {
Guacamole.Mouse.Event.Target.call(this);
/**
* The "mouseout" event will never be fired by Guacamole.Mouse.Touchpad.
*
* @ignore
* @event Guacamole.Mouse.Touchpad#mouseout
*/
/**
* Reference to this Guacamole.Mouse.Touchpad.
*
* @private
* @type {!Guacamole.Mouse.Touchpad}
*/
var guac_touchpad = this;
/**
* The distance a two-finger touch must move per scrollwheel event, in
* pixels.
*
* @type {!number}
*/
this.scrollThreshold = 20 * (window.devicePixelRatio || 1);
/**
* The maximum number of milliseconds to wait for a touch to end for the
* gesture to be considered a click.
*
* @type {!number}
*/
this.clickTimingThreshold = 250;
/**
* The maximum number of pixels to allow a touch to move for the gesture to
* be considered a click.
*
* @type {!number}
*/
this.clickMoveThreshold = 10 * (window.devicePixelRatio || 1);
/**
* The current mouse state. The properties of this state are updated when
* mouse events fire. This state object is also passed in as a parameter to
* the handler of any mouse events.
*
* @type {!Guacamole.Mouse.State}
*/
this.currentState = new Guacamole.Mouse.State();
var touch_count = 0;
var last_touch_x = 0;
var last_touch_y = 0;
var last_touch_time = 0;
var pixels_moved = 0;
var touch_buttons = {
1: 'left',
2: 'right',
3: 'middle',
};
var gesture_in_progress = false;
var click_release_timeout = null;
element.addEventListener(
'touchend',
function (e) {
e.preventDefault();
// If we're handling a gesture AND this is the last touch
if (gesture_in_progress && e.touches.length === 0) {
var time = new Date().getTime();
// Get corresponding mouse button
var button = touch_buttons[touch_count];
// If mouse already down, release anad clear timeout
if (guac_touchpad.currentState[button]) {
// Fire button up event
guac_touchpad.release(button, e);
// Clear timeout, if set
if (click_release_timeout) {
window.clearTimeout(click_release_timeout);
click_release_timeout = null;
}
}
// If single tap detected (based on time and distance)
if (time - last_touch_time <= guac_touchpad.clickTimingThreshold && pixels_moved < guac_touchpad.clickMoveThreshold) {
// Fire button down event
guac_touchpad.press(button, e);
// Delay mouse up - mouse up should be canceled if
// touchstart within timeout.
click_release_timeout = window.setTimeout(function () {
// Fire button up event
guac_touchpad.release(button, e);
// Gesture now over
gesture_in_progress = false;
}, guac_touchpad.clickTimingThreshold);
}
// If we're not waiting to see if this is a click, stop gesture
if (!click_release_timeout) gesture_in_progress = false;
}
},
false
);
element.addEventListener(
'touchstart',
function (e) {
e.preventDefault();
// Track number of touches, but no more than three
touch_count = Math.min(e.touches.length, 3);
// Clear timeout, if set
if (click_release_timeout) {
window.clearTimeout(click_release_timeout);
click_release_timeout = null;
}
// Record initial touch location and time for touch movement
// and tap gestures
if (!gesture_in_progress) {
// Stop mouse events while touching
gesture_in_progress = true;
// Record touch location and time
var starting_touch = e.touches[0];
last_touch_x = starting_touch.clientX;
last_touch_y = starting_touch.clientY;
last_touch_time = new Date().getTime();
pixels_moved = 0;
}
},
false
);
element.addEventListener(
'touchmove',
function (e) {
e.preventDefault();
// Get change in touch location
var touch = e.touches[0];
var delta_x = touch.clientX - last_touch_x;
var delta_y = touch.clientY - last_touch_y;
// Track pixels moved
pixels_moved += Math.abs(delta_x) + Math.abs(delta_y);
// If only one touch involved, this is mouse move
if (touch_count === 1) {
// Calculate average velocity in Manhatten pixels per millisecond
var velocity = pixels_moved / (new Date().getTime() - last_touch_time);
// Scale mouse movement relative to velocity
var scale = 1 + velocity;
// Update mouse location
var position = new Guacamole.Position(guac_touchpad.currentState);
position.x += delta_x * scale;
position.y += delta_y * scale;
// Prevent mouse from leaving screen
position.x = Math.min(Math.max(0, position.x), element.offsetWidth - 1);
position.y = Math.min(Math.max(0, position.y), element.offsetHeight - 1);
// Fire movement event, if defined
guac_touchpad.move(position, e);
// Update touch location
last_touch_x = touch.clientX;
last_touch_y = touch.clientY;
}
// Interpret two-finger swipe as scrollwheel
else if (touch_count === 2) {
// If change in location passes threshold for scroll
if (Math.abs(delta_y) >= guac_touchpad.scrollThreshold) {
// Decide button based on Y movement direction
var button;
if (delta_y > 0) button = 'down';
else button = 'up';
guac_touchpad.click(button, e);
// Only update touch location after a scroll has been
// detected
last_touch_x = touch.clientX;
last_touch_y = touch.clientY;
}
}
},
false
);
};
/**
* Provides cross-browser absolute touch event translation for a given element.
*
* Touch events are translated into mouse events as if the touches occurred
* on a touchscreen (tapping anywhere on the screen clicks at that point,
* long-press to right-click).
*
* @example
* var touchscreen = new Guacamole.Mouse.Touchscreen(client.getDisplay().getElement());
*
* // Emulate a mouse using touchscreen-style gestures, forwarding all mouse
* // interaction over Guacamole connection
* touchscreen.onEach(['mousedown', 'mousemove', 'mouseup'], function sendMouseEvent(e) {
*
* // Re-show software mouse cursor if possibly hidden by a prior call to
* // showCursor(), such as a "mouseout" event handler that hides the
* // cursor
* client.getDisplay().showCursor(true);
*
* client.sendMouseState(e.state, true);
*
* });
*
* @constructor
* @augments Guacamole.Mouse.Event.Target
* @param {!Element} element
* The Element to use to provide touch events.
*/
Guacamole.Mouse.Touchscreen = function Touchscreen(element) {
Guacamole.Mouse.Event.Target.call(this);
/**
* The "mouseout" event will never be fired by Guacamole.Mouse.Touchscreen.
*
* @ignore
* @event Guacamole.Mouse.Touchscreen#mouseout
*/
/**
* Reference to this Guacamole.Mouse.Touchscreen.
*
* @private
* @type {!Guacamole.Mouse.Touchscreen}
*/
var guac_touchscreen = this;
/**
* Whether a gesture is known to be in progress. If false, touch events
* will be ignored.
*
* @private
* @type {!boolean}
*/
var gesture_in_progress = false;
/**
* The start X location of a gesture.
*
* @private
* @type {number}
*/
var gesture_start_x = null;
/**
* The start Y location of a gesture.
*
* @private
* @type {number}
*/
var gesture_start_y = null;
/**
* The timeout associated with the delayed, cancellable click release.
*
* @private
* @type {number}
*/
var click_release_timeout = null;
/**
* The timeout associated with long-press for right click.
*
* @private
* @type {number}
*/
var long_press_timeout = null;
/**
* The distance a two-finger touch must move per scrollwheel event, in
* pixels.
*
* @type {!number}
*/
this.scrollThreshold = 20 * (window.devicePixelRatio || 1);
/**
* The maximum number of milliseconds to wait for a touch to end for the
* gesture to be considered a click.
*
* @type {!number}
*/
this.clickTimingThreshold = 250;
/**
* The maximum number of pixels to allow a touch to move for the gesture to
* be considered a click.
*
* @type {!number}
*/
this.clickMoveThreshold = 16 * (window.devicePixelRatio || 1);
/**
* The amount of time a press must be held for long press to be
* detected.
*/
this.longPressThreshold = 500;
/**
* Returns whether the given touch event exceeds the movement threshold for
* clicking, based on where the touch gesture began.
*
* @private
* @param {!TouchEvent} e
* The touch event to check.
*
* @return {!boolean}
* true if the movement threshold is exceeded, false otherwise.
*/
function finger_moved(e) {
var touch = e.touches[0] || e.changedTouches[0];
var delta_x = touch.clientX - gesture_start_x;
var delta_y = touch.clientY - gesture_start_y;
return Math.sqrt(delta_x * delta_x + delta_y * delta_y) >= guac_touchscreen.clickMoveThreshold;
}
/**
* Begins a new gesture at the location of the first touch in the given
* touch event.
*
* @private
* @param {!TouchEvent} e
* The touch event beginning this new gesture.
*/
function begin_gesture(e) {
var touch = e.touches[0];
gesture_in_progress = true;
gesture_start_x = touch.clientX;
gesture_start_y = touch.clientY;
}
/**
* End the current gesture entirely. Wait for all touches to be done before
* resuming gesture detection.
*
* @private
*/
function end_gesture() {
window.clearTimeout(click_release_timeout);
window.clearTimeout(long_press_timeout);
gesture_in_progress = false;
}
element.addEventListener(
'touchend',
function (e) {
// Do not handle if no gesture
if (!gesture_in_progress) return;
// Ignore if more than one touch
if (e.touches.length !== 0 || e.changedTouches.length !== 1) {
end_gesture();
return;
}
// Long-press, if any, is over
window.clearTimeout(long_press_timeout);
// Always release mouse button if pressed
guac_touchscreen.release(Guacamole.Mouse.State.Buttons.LEFT, e);
// If finger hasn't moved enough to cancel the click
if (!finger_moved(e)) {
e.preventDefault();
// If not yet pressed, press and start delay release
if (!guac_touchscreen.currentState.left) {
var touch = e.changedTouches[0];
guac_touchscreen.move(Guacamole.Position.fromClientPosition(element, touch.clientX, touch.clientY));
guac_touchscreen.press(Guacamole.Mouse.State.Buttons.LEFT, e);
// Release button after a delay, if not canceled
click_release_timeout = window.setTimeout(function () {
guac_touchscreen.release(Guacamole.Mouse.State.Buttons.LEFT, e);
end_gesture();
}, guac_touchscreen.clickTimingThreshold);
}
} // end if finger not moved
},
false
);
element.addEventListener(
'touchstart',
function (e) {
// Ignore if more than one touch
if (e.touches.length !== 1) {
end_gesture();
return;
}
e.preventDefault();
// New touch begins a new gesture
begin_gesture(e);
// Keep button pressed if tap after left click
window.clearTimeout(click_release_timeout);
// Click right button if this turns into a long-press
long_press_timeout = window.setTimeout(function () {
var touch = e.touches[0];
guac_touchscreen.move(Guacamole.Position.fromClientPosition(element, touch.clientX, touch.clientY));
guac_touchscreen.click(Guacamole.Mouse.State.Buttons.RIGHT, e);
end_gesture();
}, guac_touchscreen.longPressThreshold);
},
false
);
element.addEventListener(
'touchmove',
function (e) {
// Do not handle if no gesture
if (!gesture_in_progress) return;
// Cancel long press if finger moved
if (finger_moved(e)) window.clearTimeout(long_press_timeout);
// Ignore if more than one touch
if (e.touches.length !== 1) {
end_gesture();
return;
}
// Update mouse position if dragging
if (guac_touchscreen.currentState.left) {
e.preventDefault();
// Update state
var touch = e.touches[0];
guac_touchscreen.move(Guacamole.Position.fromClientPosition(element, touch.clientX, touch.clientY), e);
}
},
false
);
};
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
/**
* An object used by the Guacamole client to house arbitrarily-many named
* input and output streams.
*
* @constructor
* @param {!Guacamole.Client} client
* The client owning this object.
*
* @param {!number} index
* The index of this object.
*/
Guacamole.Object = function guacamoleObject(client, index) {
/**
* Reference to this Guacamole.Object.
*
* @private
* @type {!Guacamole.Object}
*/
var guacObject = this;
/**
* Map of stream name to corresponding queue of callbacks. The queue of
* callbacks is guaranteed to be in order of request.
*
* @private
* @type {!Object.<string, function[]>}
*/
var bodyCallbacks = {};
/**
* Removes and returns the callback at the head of the callback queue for
* the stream having the given name. If no such callbacks exist, null is
* returned.
*
* @private
* @param {!string} name
* The name of the stream to retrieve a callback for.
*
* @returns {function}
* The next callback associated with the stream having the given name,
* or null if no such callback exists.
*/
var dequeueBodyCallback = function dequeueBodyCallback(name) {
// If no callbacks defined, simply return null
var callbacks = bodyCallbacks[name];
if (!callbacks) return null;
// Otherwise, pull off first callback, deleting the queue if empty
var callback = callbacks.shift();
if (callbacks.length === 0) delete bodyCallbacks[name];
// Return found callback
return callback;
};
/**
* Adds the given callback to the tail of the callback queue for the stream
* having the given name.
*
* @private
* @param {!string} name
* The name of the stream to associate with the given callback.
*
* @param {!function} callback
* The callback to add to the queue of the stream with the given name.
*/
var enqueueBodyCallback = function enqueueBodyCallback(name, callback) {
// Get callback queue by name, creating first if necessary
var callbacks = bodyCallbacks[name];
if (!callbacks) {
callbacks = [];
bodyCallbacks[name] = callbacks;
}
// Add callback to end of queue
callbacks.push(callback);
};
/**
* The index of this object.
*
* @type {!number}
*/
this.index = index;
/**
* Called when this object receives the body of a requested input stream.
* By default, all objects will invoke the callbacks provided to their
* requestInputStream() functions based on the name of the stream
* requested. This behavior can be overridden by specifying a different
* handler here.
*
* @event
* @param {!Guacamole.InputStream} inputStream
* The input stream of the received body.
*
* @param {!string} mimetype
* The mimetype of the data being received.
*
* @param {!string} name
* The name of the stream whose body has been received.
*/
this.onbody = function defaultBodyHandler(inputStream, mimetype, name) {
// Call queued callback for the received body, if any
var callback = dequeueBodyCallback(name);
if (callback) callback(inputStream, mimetype);
};
/**
* Called when this object is being undefined. Once undefined, no further
* communication involving this object may occur.
*
* @event
*/
this.onundefine = null;
/**
* Requests read access to the input stream having the given name. If
* successful, a new input stream will be created.
*
* @param {!string} name
* The name of the input stream to request.
*
* @param {function} [bodyCallback]
* The callback to invoke when the body of the requested input stream
* is received. This callback will be provided a Guacamole.InputStream
* and its mimetype as its two only arguments. If the onbody handler of
* this object is overridden, this callback will not be invoked.
*/
this.requestInputStream = function requestInputStream(name, bodyCallback) {
// Queue body callback if provided
if (bodyCallback) enqueueBodyCallback(name, bodyCallback);
// Send request for input stream
client.requestObjectInputStream(guacObject.index, name);
};
/**
* Creates a new output stream associated with this object and having the
* given mimetype and name. The legality of a mimetype and name is dictated
* by the object itself.
*
* @param {!string} mimetype
* The mimetype of the data which will be sent to the output stream.
*
* @param {!string} name
* The defined name of an output stream within this object.
*
* @returns {!Guacamole.OutputStream}
* An output stream which will write blobs to the named output stream
* of this object.
*/
this.createOutputStream = function createOutputStream(mimetype, name) {
return client.createObjectOutputStream(guacObject.index, mimetype, name);
};
};
/**
* The reserved name denoting the root stream of any object. The contents of
* the root stream MUST be a JSON map of stream name to mimetype.
*
* @constant
* @type {!string}
*/
Guacamole.Object.ROOT_STREAM = '/';
/**
* The mimetype of a stream containing JSON which maps available stream names
* to their corresponding mimetype. The root stream of a Guacamole.Object MUST
* have this mimetype.
*
* @constant
* @type {!string}
*/
Guacamole.Object.STREAM_INDEX_MIMETYPE = 'application/vnd.glyptodon.guacamole.stream-index+json';
/**
* Dynamic on-screen keyboard. Given the layout object for an on-screen
* keyboard, this object will construct a clickable on-screen keyboard with its
* own key events.
*
* @constructor
* @param {!Guacamole.OnScreenKeyboard.Layout} layout
* The layout of the on-screen keyboard to display.
*/
Guacamole.OnScreenKeyboard = function (layout) {
/**
* Reference to this Guacamole.OnScreenKeyboard.
*
* @private
* @type {!Guacamole.OnScreenKeyboard}
*/
var osk = this;
/**
* Map of currently-set modifiers to the keysym associated with their
* original press. When the modifier is cleared, this keysym must be
* released.
*
* @private
* @type {!Object.<String, Number>}
*/
var modifierKeysyms = {};
/**
* Map of all key names to their current pressed states. If a key is not
* pressed, it may not be in this map at all, but all pressed keys will
* have a corresponding mapping to true.
*
* @private
* @type {!Object.<String, Boolean>}
*/
var pressed = {};
/**
* All scalable elements which are part of the on-screen keyboard. Each
* scalable element is carefully controlled to ensure the interface layout
* and sizing remains constant, even on browsers that would otherwise
* experience rounding error due to unit conversions.
*
* @private
* @type {!ScaledElement[]}
*/
var scaledElements = [];
/**
* Adds a CSS class to an element.
*
* @private
* @function
* @param {!Element} element
* The element to add a class to.
*
* @param {!string} classname
* The name of the class to add.
*/
var addClass = function addClass(element, classname) {
// If classList supported, use that
if (element.classList) element.classList.add(classname);
// Otherwise, simply append the class
else element.className += ' ' + classname;
};
/**
* Removes a CSS class from an element.
*
* @private
* @function
* @param {!Element} element
* The element to remove a class from.
*
* @param {!string} classname
* The name of the class to remove.
*/
var removeClass = function removeClass(element, classname) {
// If classList supported, use that
if (element.classList) element.classList.remove(classname);
// Otherwise, manually filter out classes with given name
else {
element.className = element.className.replace(/([^ ]+)[ ]*/g, function removeMatchingClasses(match, testClassname) {
// If same class, remove
if (testClassname === classname) return '';
// Otherwise, allow
return match;
});
}
};
/**
* Counter of mouse events to ignore. This decremented by mousemove, and
* while non-zero, mouse events will have no effect.
*
* @private
* @type {!number}
*/
var ignoreMouse = 0;
/**
* Ignores all pending mouse events when touch events are the apparent
* source. Mouse events are ignored until at least touchMouseThreshold
* mouse events occur without corresponding touch events.
*
* @private
*/
var ignorePendingMouseEvents = function ignorePendingMouseEvents() {
ignoreMouse = osk.touchMouseThreshold;
};
/**
* An element whose dimensions are maintained according to an arbitrary
* scale. The conversion factor for these arbitrary units to pixels is
* provided later via a call to scale().
*
* @private
* @constructor
* @param {!Element} element
* The element whose scale should be maintained.
*
* @param {!number} width
* The width of the element, in arbitrary units, relative to other
* ScaledElements.
*
* @param {!number} height
* The height of the element, in arbitrary units, relative to other
* ScaledElements.
*
* @param {boolean} [scaleFont=false]
* Whether the line height and font size should be scaled as well.
*/
var ScaledElement = function ScaledElement(element, width, height, scaleFont) {
/**
* The width of this ScaledElement, in arbitrary units, relative to
* other ScaledElements.
*
* @type {!number}
*/
this.width = width;
/**
* The height of this ScaledElement, in arbitrary units, relative to
* other ScaledElements.
*
* @type {!number}
*/
this.height = height;
/**
* Resizes the associated element, updating its dimensions according to
* the given pixels per unit.
*
* @param {!number} pixels
* The number of pixels to assign per arbitrary unit.
*/
this.scale = function (pixels) {
// Scale element width/height
element.style.width = width * pixels + 'px';
element.style.height = height * pixels + 'px';
// Scale font, if requested
if (scaleFont) {
element.style.lineHeight = height * pixels + 'px';
element.style.fontSize = pixels + 'px';
}
};
};
/**
* Returns whether all modifiers having the given names are currently
* active.
*
* @private
* @param {!string[]} names
* The names of all modifiers to test.
*
* @returns {!boolean}
* true if all specified modifiers are pressed, false otherwise.
*/
var modifiersPressed = function modifiersPressed(names) {
// If any required modifiers are not pressed, return false
for (var i = 0; i < names.length; i++) {
// Test whether current modifier is pressed
var name = names[i];
if (!(name in modifierKeysyms)) return false;
}
// Otherwise, all required modifiers are pressed
return true;
};
/**
* Returns the single matching Key object associated with the key of the
* given name, where that Key object's requirements (such as pressed
* modifiers) are all currently satisfied.
*
* @private
* @param {!string} keyName
* The name of the key to retrieve.
*
* @returns {Guacamole.OnScreenKeyboard.Key}
* The Key object associated with the given name, where that object's
* requirements are all currently satisfied, or null if no such Key
* can be found.
*/
var getActiveKey = function getActiveKey(keyName) {
// Get key array for given name
var keys = osk.keys[keyName];
if (!keys) return null;
// Find last matching key
for (var i = keys.length - 1; i >= 0; i--) {
// Get candidate key
var candidate = keys[i];
// If all required modifiers are pressed, use that key
if (modifiersPressed(candidate.requires)) return candidate;
}
// No valid key
return null;
};
/**
* Presses the key having the given name, updating the associated key
* element with the "guac-keyboard-pressed" CSS class. If the key is
* already pressed, this function has no effect.
*
* @private
* @param {!string} keyName
* The name of the key to press.
*
* @param {!string} keyElement
* The element associated with the given key.
*/
var press = function press(keyName, keyElement) {
// Press key if not yet pressed
if (!pressed[keyName]) {
addClass(keyElement, 'guac-keyboard-pressed');
// Get current key based on modifier state
var key = getActiveKey(keyName);
// Update modifier state
if (key.modifier) {
// Construct classname for modifier
var modifierClass = 'guac-keyboard-modifier-' + getCSSName(key.modifier);
// Retrieve originally-pressed keysym, if modifier was already pressed
var originalKeysym = modifierKeysyms[key.modifier];
// Activate modifier if not pressed
if (originalKeysym === undefined) {
addClass(keyboard, modifierClass);
modifierKeysyms[key.modifier] = key.keysym;
// Send key event only if keysym is meaningful
if (key.keysym && osk.onkeydown) osk.onkeydown(key.keysym);
}
// Deactivate if not pressed
else {
removeClass(keyboard, modifierClass);
delete modifierKeysyms[key.modifier];
// Send key event only if original keysym is meaningful
if (originalKeysym && osk.onkeyup) osk.onkeyup(originalKeysym);
}
}
// If not modifier, send key event now
else if (osk.onkeydown) osk.onkeydown(key.keysym);
// Mark key as pressed
pressed[keyName] = true;
}
};
/**
* Releases the key having the given name, removing the
* "guac-keyboard-pressed" CSS class from the associated element. If the
* key is already released, this function has no effect.
*
* @private
* @param {!string} keyName
* The name of the key to release.
*
* @param {!string} keyElement
* The element associated with the given key.
*/
var release = function release(keyName, keyElement) {
// Release key if currently pressed
if (pressed[keyName]) {
removeClass(keyElement, 'guac-keyboard-pressed');
// Get current key based on modifier state
var key = getActiveKey(keyName);
// Send key event if not a modifier key
if (!key.modifier && osk.onkeyup) osk.onkeyup(key.keysym);
// Mark key as released
pressed[keyName] = false;
}
};
// Create keyboard
var keyboard = document.createElement('div');
keyboard.className = 'guac-keyboard';
// Do not allow selection or mouse movement to propagate/register.
keyboard.onselectstart =
keyboard.onmousemove =
keyboard.onmouseup =
keyboard.onmousedown =
function handleMouseEvents(e) {
// If ignoring events, decrement counter
if (ignoreMouse) ignoreMouse--;
e.stopPropagation();
return false;
};
/**
* The number of mousemove events to require before re-enabling mouse
* event handling after receiving a touch event.
*
* @type {!number}
*/
this.touchMouseThreshold = 3;
/**
* Fired whenever the user presses a key on this Guacamole.OnScreenKeyboard.
*
* @event
* @param {!number} keysym
* The keysym of the key being pressed.
*/
this.onkeydown = null;
/**
* Fired whenever the user releases a key on this Guacamole.OnScreenKeyboard.
*
* @event
* @param {!number} keysym
* The keysym of the key being released.
*/
this.onkeyup = null;
/**
* The keyboard layout provided at time of construction.
*
* @type {!Guacamole.OnScreenKeyboard.Layout}
*/
this.layout = new Guacamole.OnScreenKeyboard.Layout(layout);
/**
* Returns the element containing the entire on-screen keyboard.
*
* @returns {!Element}
* The element containing the entire on-screen keyboard.
*/
this.getElement = function () {
return keyboard;
};
/**
* Resizes all elements within this Guacamole.OnScreenKeyboard such that
* the width is close to but does not exceed the specified width. The
* height of the keyboard is determined based on the width.
*
* @param {!number} width
* The width to resize this Guacamole.OnScreenKeyboard to, in pixels.
*/
this.resize = function (width) {
// Get pixel size of a unit
var unit = Math.floor((width * 10) / osk.layout.width) / 10;
// Resize all scaled elements
for (var i = 0; i < scaledElements.length; i++) {
var scaledElement = scaledElements[i];
scaledElement.scale(unit);
}
};
/**
* Given the name of a key and its corresponding definition, which may be
* an array of keys objects, a number (keysym), a string (key title), or a
* single key object, returns an array of key objects, deriving any missing
* properties as needed, and ensuring the key name is defined.
*
* @private
* @param {!string} name
* The name of the key being coerced into an array of Key objects.
*
* @param {!(number|string|Guacamole.OnScreenKeyboard.Key|Guacamole.OnScreenKeyboard.Key[])} object
* The object defining the behavior of the key having the given name,
* which may be the title of the key (a string), the keysym (a number),
* a single Key object, or an array of Key objects.
*
* @returns {!Guacamole.OnScreenKeyboard.Key[]}
* An array of all keys associated with the given name.
*/
var asKeyArray = function asKeyArray(name, object) {
// If already an array, just coerce into a true Key[]
if (object instanceof Array) {
var keys = [];
for (var i = 0; i < object.length; i++) {
keys.push(new Guacamole.OnScreenKeyboard.Key(object[i], name));
}
return keys;
}
// Derive key object from keysym if that's all we have
if (typeof object === 'number') {
return [
new Guacamole.OnScreenKeyboard.Key({
name: name,
keysym: object,
}),
];
}
// Derive key object from title if that's all we have
if (typeof object === 'string') {
return [
new Guacamole.OnScreenKeyboard.Key({
name: name,
title: object,
}),
];
}
// Otherwise, assume it's already a key object, just not an array
return [new Guacamole.OnScreenKeyboard.Key(object, name)];
};
/**
* Converts the rather forgiving key mapping allowed by
* Guacamole.OnScreenKeyboard.Layout into a rigorous mapping of key name
* to key definition, where the key definition is always an array of Key
* objects.
*
* @private
* @param {!Object.<string, number|string|Guacamole.OnScreenKeyboard.Key|Guacamole.OnScreenKeyboard.Key[]>} keys
* A mapping of key name to key definition, where the key definition is
* the title of the key (a string), the keysym (a number), a single
* Key object, or an array of Key objects.
*
* @returns {!Object.<string, Guacamole.OnScreenKeyboard.Key[]>}
* A more-predictable mapping of key name to key definition, where the
* key definition is always simply an array of Key objects.
*/
var getKeys = function getKeys(keys) {
var keyArrays = {};
// Coerce all keys into individual key arrays
for (var name in layout.keys) {
keyArrays[name] = asKeyArray(name, keys[name]);
}
return keyArrays;
};
/**
* Map of all key names to their corresponding set of keys. Each key name
* may correspond to multiple keys due to the effect of modifiers.
*
* @type {!Object.<string, Guacamole.OnScreenKeyboard.Key[]>}
*/
this.keys = getKeys(layout.keys);
/**
* Given an arbitrary string representing the name of some component of the
* on-screen keyboard, returns a string formatted for use as a CSS class
* name. The result will be lowercase. Word boundaries previously denoted
* by CamelCase will be replaced by individual hyphens, as will all
* contiguous non-alphanumeric characters.
*
* @private
* @param {!string} name
* An arbitrary string representing the name of some component of the
* on-screen keyboard.
*
* @returns {!string}
* A string formatted for use as a CSS class name.
*/
var getCSSName = function getCSSName(name) {
// Convert name from possibly-CamelCase to hyphenated lowercase
var cssName = name
.replace(/([a-z])([A-Z])/g, '$1-$2')
.replace(/[^A-Za-z0-9]+/g, '-')
.toLowerCase();
return cssName;
};
/**
* Appends DOM elements to the given element as dictated by the layout
* structure object provided. If a name is provided, an additional CSS
* class, prepended with "guac-keyboard-", will be added to the top-level
* element.
*
* If the layout structure object is an array, all elements within that
* array will be recursively appended as children of a group, and the
* top-level element will be given the CSS class "guac-keyboard-group".
*
* If the layout structure object is an object, all properties within that
* object will be recursively appended as children of a group, and the
* top-level element will be given the CSS class "guac-keyboard-group". The
* name of each property will be applied as the name of each child object
* for the sake of CSS. Each property will be added in sorted order.
*
* If the layout structure object is a string, the key having that name
* will be appended. The key will be given the CSS class
* "guac-keyboard-key" and "guac-keyboard-key-NAME", where NAME is the name
* of the key. If the name of the key is a single character, this will
* first be transformed into the C-style hexadecimal literal for the
* Unicode codepoint of that character. For example, the key "A" would
* become "guac-keyboard-key-0x41".
*
* If the layout structure object is a number, a gap of that size will be
* inserted. The gap will be given the CSS class "guac-keyboard-gap", and
* will be scaled according to the same size units as each key.
*
* @private
* @param {!Element} element
* The element to append elements to.
*
* @param {!(Array|object|string|number)} object
* The layout structure object to use when constructing the elements to
* append.
*
* @param {string} [name]
* The name of the top-level element being appended, if any.
*/
var appendElements = function appendElements(element, object, name) {
var i;
// Create div which will become the group or key
var div = document.createElement('div');
// Add class based on name, if name given
if (name) addClass(div, 'guac-keyboard-' + getCSSName(name));
// If an array, append each element
if (object instanceof Array) {
// Add group class
addClass(div, 'guac-keyboard-group');
// Append all elements of array
for (i = 0; i < object.length; i++) appendElements(div, object[i]);
}
// If an object, append each property value
else if (object instanceof Object) {
// Add group class
addClass(div, 'guac-keyboard-group');
// Append all children, sorted by name
var names = Object.keys(object).sort();
for (i = 0; i < names.length; i++) {
var name = names[i];
appendElements(div, object[name], name);
}
}
// If a number, create as a gap
else if (typeof object === 'number') {
// Add gap class
addClass(div, 'guac-keyboard-gap');
// Maintain scale
scaledElements.push(new ScaledElement(div, object, object));
}
// If a string, create as a key
else if (typeof object === 'string') {
// If key name is only one character, use codepoint for name
var keyName = object;
if (keyName.length === 1) keyName = '0x' + keyName.charCodeAt(0).toString(16);
// Add key container class
addClass(div, 'guac-keyboard-key-container');
// Create key element which will contain all possible caps
var keyElement = document.createElement('div');
keyElement.className = 'guac-keyboard-key ' + 'guac-keyboard-key-' + getCSSName(keyName);
// Add all associated keys as caps within DOM
var keys = osk.keys[object];
if (keys) {
for (i = 0; i < keys.length; i++) {
// Get current key
var key = keys[i];
// Create cap element for key
var capElement = document.createElement('div');
capElement.className = 'guac-keyboard-cap';
capElement.textContent = key.title;
// Add classes for any requirements
for (var j = 0; j < key.requires.length; j++) {
var requirement = key.requires[j];
addClass(capElement, 'guac-keyboard-requires-' + getCSSName(requirement));
addClass(keyElement, 'guac-keyboard-uses-' + getCSSName(requirement));
}
// Add cap to key within DOM
keyElement.appendChild(capElement);
}
}
// Add key to DOM, maintain scale
div.appendChild(keyElement);
scaledElements.push(new ScaledElement(div, osk.layout.keyWidths[object] || 1, 1, true));
/**
* Handles a touch event which results in the pressing of an OSK
* key. Touch events will result in mouse events being ignored for
* touchMouseThreshold events.
*
* @private
* @param {!TouchEvent} e
* The touch event being handled.
*/
var touchPress = function touchPress(e) {
e.preventDefault();
ignoreMouse = osk.touchMouseThreshold;
press(object, keyElement);
};
/**
* Handles a touch event which results in the release of an OSK
* key. Touch events will result in mouse events being ignored for
* touchMouseThreshold events.
*
* @private
* @param {!TouchEvent} e
* The touch event being handled.
*/
var touchRelease = function touchRelease(e) {
e.preventDefault();
ignoreMouse = osk.touchMouseThreshold;
release(object, keyElement);
};
/**
* Handles a mouse event which results in the pressing of an OSK
* key. If mouse events are currently being ignored, this handler
* does nothing.
*
* @private
* @param {!MouseEvent} e
* The touch event being handled.
*/
var mousePress = function mousePress(e) {
e.preventDefault();
if (ignoreMouse === 0) press(object, keyElement);
};
/**
* Handles a mouse event which results in the release of an OSK
* key. If mouse events are currently being ignored, this handler
* does nothing.
*
* @private
* @param {!MouseEvent} e
* The touch event being handled.
*/
var mouseRelease = function mouseRelease(e) {
e.preventDefault();
if (ignoreMouse === 0) release(object, keyElement);
};
// Handle touch events on key
keyElement.addEventListener('touchstart', touchPress, true);
keyElement.addEventListener('touchend', touchRelease, true);
// Handle mouse events on key
keyElement.addEventListener('mousedown', mousePress, true);
keyElement.addEventListener('mouseup', mouseRelease, true);
keyElement.addEventListener('mouseout', mouseRelease, true);
} // end if object is key name
// Add newly-created group/key
element.appendChild(div);
};
// Create keyboard layout in DOM
appendElements(keyboard, layout.layout);
};
/**
* Represents an entire on-screen keyboard layout, including all available
* keys, their behaviors, and their relative position and sizing.
*
* @constructor
* @param {!(Guacamole.OnScreenKeyboard.Layout|object)} template
* The object whose identically-named properties will be used to initialize
* the properties of this layout.
*/
Guacamole.OnScreenKeyboard.Layout = function (template) {
/**
* The language of keyboard layout, such as "en_US". This property is for
* informational purposes only, but it is recommend to conform to the
* [language code]_[country code] format.
*
* @type {!string}
*/
this.language = template.language;
/**
* The type of keyboard layout, such as "qwerty". This property is for
* informational purposes only, and does not conform to any standard.
*
* @type {!string}
*/
this.type = template.type;
/**
* Map of key name to corresponding keysym, title, or key object. If only
* the keysym or title is provided, the key object will be created
* implicitly. In all cases, the name property of the key object will be
* taken from the name given in the mapping.
*
* @type {!Object.<string, number|string|Guacamole.OnScreenKeyboard.Key|Guacamole.OnScreenKeyboard.Key[]>}
*/
this.keys = template.keys;
/**
* Arbitrarily nested, arbitrarily grouped key names. The contents of the
* layout will be traversed to produce an identically-nested grouping of
* keys in the DOM tree. All strings will be transformed into their
* corresponding sets of keys, while all objects and arrays will be
* transformed into named groups and anonymous groups respectively. Any
* numbers present will be transformed into gaps of that size, scaled
* according to the same units as each key.
*
* @type {!object}
*/
this.layout = template.layout;
/**
* The width of the entire keyboard, in arbitrary units. The width of each
* key is relative to this width, as both width values are assumed to be in
* the same units. The conversion factor between these units and pixels is
* derived later via a call to resize() on the Guacamole.OnScreenKeyboard.
*
* @type {!number}
*/
this.width = template.width;
/**
* The width of each key, in arbitrary units, relative to other keys in
* this layout. The true pixel size of each key will be determined by the
* overall size of the keyboard. If not defined here, the width of each
* key will default to 1.
*
* @type {!Object.<string, number>}
*/
this.keyWidths = template.keyWidths || {};
};
/**
* Represents a single key, or a single possible behavior of a key. Each key
* on the on-screen keyboard must have at least one associated
* Guacamole.OnScreenKeyboard.Key, whether that key is explicitly defined or
* implied, and may have multiple Guacamole.OnScreenKeyboard.Key if behavior
* depends on modifier states.
*
* @constructor
* @param {!(Guacamole.OnScreenKeyboard.Key|object)} template
* The object whose identically-named properties will be used to initialize
* the properties of this key.
*
* @param {string} [name]
* The name to use instead of any name provided within the template, if
* any. If omitted, the name within the template will be used, assuming the
* template contains a name.
*/
Guacamole.OnScreenKeyboard.Key = function (template, name) {
/**
* The unique name identifying this key within the keyboard layout.
*
* @type {!string}
*/
this.name = name || template.name;
/**
* The human-readable title that will be displayed to the user within the
* key. If not provided, this will be derived from the key name.
*
* @type {!string}
*/
this.title = template.title || this.name;
/**
* The keysym to be pressed/released when this key is pressed/released. If
* not provided, this will be derived from the title if the title is a
* single character.
*
* @type {number}
*/
this.keysym =
template.keysym ||
(function deriveKeysym(title) {
// Do not derive keysym if title is not exactly one character
if (!title || title.length !== 1) return null;
// For characters between U+0000 and U+00FF, the keysym is the codepoint
var charCode = title.charCodeAt(0);
if (charCode >= 0x0000 && charCode <= 0x00ff) return charCode;
// For characters between U+0100 and U+10FFFF, the keysym is the codepoint or'd with 0x01000000
if (charCode >= 0x0100 && charCode <= 0x10ffff) return 0x01000000 | charCode;
// Unable to derive keysym
return null;
})(this.title);
/**
* The name of the modifier set when the key is pressed and cleared when
* this key is released, if any. The names of modifiers are distinct from
* the names of keys; both the "RightShift" and "LeftShift" keys may set
* the "shift" modifier, for example. By default, the key will affect no
* modifiers.
*
* @type {string}
*/
this.modifier = template.modifier;
/**
* An array containing the names of each modifier required for this key to
* have an effect. For example, a lowercase letter may require nothing,
* while an uppercase letter would require "shift", assuming the Shift key
* is named "shift" within the layout. By default, the key will require
* no modifiers.
*
* @type {!string[]}
*/
this.requires = template.requires || [];
};
/**
* Abstract stream which can receive data.
*
* @constructor
* @param {!Guacamole.Client} client
* The client owning this stream.
*
* @param {!number} index
* The index of this stream.
*/
Guacamole.OutputStream = function (client, index) {
/**
* Reference to this stream.
*
* @private
* @type {!Guacamole.OutputStream}
*/
var guac_stream = this;
/**
* The index of this stream.
* @type {!number}
*/
this.index = index;
/**
* Fired whenever an acknowledgement is received from the server, indicating
* that a stream operation has completed, or an error has occurred.
*
* @event
* @param {!Guacamole.Status} status
* The status of the operation.
*/
this.onack = null;
/**
* Writes the given base64-encoded data to this stream as a blob.
*
* @param {!string} data
* The base64-encoded data to send.
*/
this.sendBlob = function (data) {
client.sendBlob(guac_stream.index, data);
};
/**
* Closes this stream.
*/
this.sendEnd = function () {
client.endStream(guac_stream.index);
};
};
/**
* Simple Guacamole protocol parser that invokes an oninstruction event when
* full instructions are available from data received via receive().
*
* @constructor
*/
Guacamole.Parser = function () {
/**
* Reference to this parser.
* @private
*/
var parser = this;
/**
* Current buffer of received data. This buffer grows until a full
* element is available. After a full element is available, that element
* is flushed into the element buffer.
*
* @private
*/
var buffer = '';
/**
* Buffer of all received, complete elements. After an entire instruction
* is read, this buffer is flushed, and a new instruction begins.
*
* @private
*/
var element_buffer = [];
// The location of the last element's terminator
var element_end = -1;
// Where to start the next length search or the next element
var start_index = 0;
/**
* Appends the given instruction data packet to the internal buffer of
* this Guacamole.Parser, executing all completed instructions at
* the beginning of this buffer, if any.
*
* @param {!string} packet
* The instruction data to receive.
*/
this.receive = function (packet) {
// Truncate buffer as necessary
if (start_index > 4096 && element_end >= start_index) {
buffer = buffer.substring(start_index);
// Reset parse relative to truncation
element_end -= start_index;
start_index = 0;
}
// Append data to buffer
buffer += packet;
// While search is within currently received data
while (element_end < buffer.length) {
// If we are waiting for element data
if (element_end >= start_index) {
// We now have enough data for the element. Parse.
var element = buffer.substring(start_index, element_end);
var terminator = buffer.substring(element_end, element_end + 1);
// Add element to array
element_buffer.push(element);
// If last element, handle instruction
if (terminator == ';') {
// Get opcode
var opcode = element_buffer.shift();
// Call instruction handler.
if (parser.oninstruction != null) parser.oninstruction(opcode, element_buffer);
// Clear elements
element_buffer.length = 0;
} else if (terminator != ',') throw new Error('Illegal terminator.');
// Start searching for length at character after
// element terminator
start_index = element_end + 1;
}
// Search for end of length
var length_end = buffer.indexOf('.', start_index);
if (length_end != -1) {
// Parse length
var length = parseInt(buffer.substring(element_end + 1, length_end));
if (isNaN(length)) throw new Error('Non-numeric character in element length.');
// Calculate start of element
start_index = length_end + 1;
// Calculate location of element terminator
element_end = start_index + length;
}
// If no period yet, continue search when more data
// is received
else {
start_index = buffer.length;
break;
}
} // end parse loop
};
/**
* Fired once for every complete Guacamole instruction received, in order.
*
* @event
* @param {!string} opcode
* The Guacamole instruction opcode.
*
* @param {!string[]} parameters
* The parameters provided for the instruction, if any.
*/
this.oninstruction = null;
};
/**
* A position in 2-D space.
*
* @constructor
* @param {Guacamole.Position|object} [template={}]
* The object whose properties should be copied within the new
* Guacamole.Position.
*/
Guacamole.Position = function Position(template) {
template = template || {};
/**
* The current X position, in pixels.
*
* @type {!number}
* @default 0
*/
this.x = template.x || 0;
/**
* The current Y position, in pixels.
*
* @type {!number}
* @default 0
*/
this.y = template.y || 0;
/**
* Assigns the position represented by the given element and
* clientX/clientY coordinates. The clientX and clientY coordinates are
* relative to the browser viewport and are commonly available within
* JavaScript event objects. The final position is translated to
* coordinates that are relative the given element.
*
* @param {!Element} element
* The element the coordinates should be relative to.
*
* @param {!number} clientX
* The viewport-relative X coordinate to translate.
*
* @param {!number} clientY
* The viewport-relative Y coordinate to translate.
*/
this.fromClientPosition = function fromClientPosition(element, clientX, clientY) {
this.x = clientX - element.offsetLeft;
this.y = clientY - element.offsetTop;
// This is all JUST so we can get the position within the element
var parent = element.offsetParent;
while (parent && !(parent === document.body)) {
this.x -= parent.offsetLeft - parent.scrollLeft;
this.y -= parent.offsetTop - parent.scrollTop;
parent = parent.offsetParent;
}
// Element ultimately depends on positioning within document body,
// take document scroll into account.
if (parent) {
var documentScrollLeft = document.body.scrollLeft || document.documentElement.scrollLeft;
var documentScrollTop = document.body.scrollTop || document.documentElement.scrollTop;
this.x -= parent.offsetLeft - documentScrollLeft;
this.y -= parent.offsetTop - documentScrollTop;
}
};
};
/**
* Returns a new {@link Guacamole.Position} representing the relative position
* of the given clientX/clientY coordinates within the given element. The
* clientX and clientY coordinates are relative to the browser viewport and are
* commonly available within JavaScript event objects. The final position is
* translated to coordinates that are relative the given element.
*
* @param {!Element} element
* The element the coordinates should be relative to.
*
* @param {!number} clientX
* The viewport-relative X coordinate to translate.
*
* @param {!number} clientY
* The viewport-relative Y coordinate to translate.
*
* @returns {!Guacamole.Position}
* A new Guacamole.Position representing the relative position of the given
* client coordinates.
*/
Guacamole.Position.fromClientPosition = function fromClientPosition(element, clientX, clientY) {
var position = new Guacamole.Position();
position.fromClientPosition(element, clientX, clientY);
return position;
};
/**
* A description of the format of raw PCM audio, such as that used by
* Guacamole.RawAudioPlayer and Guacamole.RawAudioRecorder. This object
* describes the number of bytes per sample, the number of channels, and the
* overall sample rate.
*
* @constructor
* @param {!(Guacamole.RawAudioFormat|object)} template
* The object whose properties should be copied into the corresponding
* properties of the new Guacamole.RawAudioFormat.
*/
Guacamole.RawAudioFormat = function RawAudioFormat(template) {
/**
* The number of bytes in each sample of audio data. This value is
* independent of the number of channels.
*
* @type {!number}
*/
this.bytesPerSample = template.bytesPerSample;
/**
* The number of audio channels (ie: 1 for mono, 2 for stereo).
*
* @type {!number}
*/
this.channels = template.channels;
/**
* The number of samples per second, per channel.
*
* @type {!number}
*/
this.rate = template.rate;
};
/**
* Parses the given mimetype, returning a new Guacamole.RawAudioFormat
* which describes the type of raw audio data represented by that mimetype. If
* the mimetype is not a supported raw audio data mimetype, null is returned.
*
* @param {!string} mimetype
* The audio mimetype to parse.
*
* @returns {Guacamole.RawAudioFormat}
* A new Guacamole.RawAudioFormat which describes the type of raw
* audio data represented by the given mimetype, or null if the given
* mimetype is not supported.
*/
Guacamole.RawAudioFormat.parse = function parseFormat(mimetype) {
var bytesPerSample;
// Rate is absolutely required - if null is still present later, the
// mimetype must not be supported
var rate = null;
// Default for both "audio/L8" and "audio/L16" is one channel
var channels = 1;
// "audio/L8" has one byte per sample
if (mimetype.substring(0, 9) === 'audio/L8;') {
mimetype = mimetype.substring(9);
bytesPerSample = 1;
}
// "audio/L16" has two bytes per sample
else if (mimetype.substring(0, 10) === 'audio/L16;') {
mimetype = mimetype.substring(10);
bytesPerSample = 2;
}
// All other types are unsupported
else return null;
// Parse all parameters
var parameters = mimetype.split(',');
for (var i = 0; i < parameters.length; i++) {
var parameter = parameters[i];
// All parameters must have an equals sign separating name from value
var equals = parameter.indexOf('=');
if (equals === -1) return null;
// Parse name and value from parameter string
var name = parameter.substring(0, equals);
var value = parameter.substring(equals + 1);
// Handle each supported parameter
switch (name) {
// Number of audio channels
case 'channels':
channels = parseInt(value);
break;
// Sample rate
case 'rate':
rate = parseInt(value);
break;
// All other parameters are unsupported
default:
return null;
}
}
// The rate parameter is required
if (rate === null) return null;
// Return parsed format details
return new Guacamole.RawAudioFormat({
bytesPerSample: bytesPerSample,
channels: channels,
rate: rate,
});
};
/**
* A recording of a Guacamole session. Given a {@link Guacamole.Tunnel} or Blob,
* the Guacamole.SessionRecording automatically parses Guacamole instructions
* within the recording source as it plays back the recording. Playback of the
* recording may be controlled through function calls to the
* Guacamole.SessionRecording, even while the recording has not yet finished
* being created or downloaded. Parsing of the contents of the recording will
* begin immediately and automatically after this constructor is invoked.
*
* @constructor
* @param {!Blob|Guacamole.Tunnel} source
* The Blob from which the instructions of the recording should
* be read.
*/
Guacamole.SessionRecording = function SessionRecording(source) {
/**
* Reference to this Guacamole.SessionRecording.
*
* @private
* @type {!Guacamole.SessionRecording}
*/
var recording = this;
/**
* The Blob from which the instructions of the recording should be read.
* Note that this value is initialized far below.
*
* @private
* @type {!Blob}
*/
var recordingBlob;
/**
* The tunnel from which the recording should be read, if the recording is
* being read from a tunnel. If the recording was supplied as a Blob, this
* will be null.
*
* @private
* @type {Guacamole.Tunnel}
*/
var tunnel = null;
/**
* The number of bytes that this Guacamole.SessionRecording should attempt
* to read from the given blob in each read operation. Larger blocks will
* generally read the blob more quickly, but may result in excessive
* time being spent within the parser, making the page unresponsive
* while the recording is loading.
*
* @private
* @constant
* @type {Number}
*/
var BLOCK_SIZE = 262144;
/**
* The minimum number of characters which must have been read between
* keyframes.
*
* @private
* @constant
* @type {Number}
*/
var KEYFRAME_CHAR_INTERVAL = 16384;
/**
* The minimum number of milliseconds which must elapse between keyframes.
*
* @private
* @constant
* @type {Number}
*/
var KEYFRAME_TIME_INTERVAL = 5000;
/**
* All frames parsed from the provided blob.
*
* @private
* @type {!Guacamole.SessionRecording._Frame[]}
*/
var frames = [];
/**
* The timestamp of the last frame which was flagged for use as a keyframe.
* If no timestamp has yet been flagged, this will be 0.
*
* @private
* @type {!number}
*/
var lastKeyframe = 0;
/**
* Tunnel which feeds arbitrary instructions to the client used by this
* Guacamole.SessionRecording for playback of the session recording.
*
* @private
* @type {!Guacamole.SessionRecording._PlaybackTunnel}
*/
var playbackTunnel = new Guacamole.SessionRecording._PlaybackTunnel();
/**
* Guacamole.Client instance used for visible playback of the session
* recording.
*
* @private
* @type {!Guacamole.Client}
*/
var playbackClient = new Guacamole.Client(playbackTunnel);
/**
* The current frame rendered within the playback client. If no frame is
* yet rendered, this will be -1.
*
* @private
* @type {!number}
*/
var currentFrame = -1;
/**
* The timestamp of the frame when playback began, in milliseconds. If
* playback is not in progress, this will be null.
*
* @private
* @type {number}
*/
var startVideoTimestamp = null;
/**
* The real-world timestamp when playback began, in milliseconds. If
* playback is not in progress, this will be null.
*
* @private
* @type {number}
*/
var startRealTimestamp = null;
/**
* An object containing a single "aborted" property which is set to
* true if the in-progress seek operation should be aborted. If no seek
* operation is in progress, this will be null.
*
* @private
* @type {object}
*/
var activeSeek = null;
/**
* The byte offset within the recording blob of the first character of
* the first instruction of the current frame. Here, "current frame"
* refers to the frame currently being parsed when the provided
* recording is initially loading. If the recording is not being
* loaded, this value has no meaning.
*
* @private
* @type {!number}
*/
var frameStart = 0;
/**
* The byte offset within the recording blob of the character which
* follows the last character of the most recently parsed instruction
* of the current frame. Here, "current frame" refers to the frame
* currently being parsed when the provided recording is initially
* loading. If the recording is not being loaded, this value has no
* meaning.
*
* @private
* @type {!number}
*/
var frameEnd = 0;
/**
* Whether the initial loading process has been aborted. If the loading
* process has been aborted, no further blocks of data should be read
* from the recording.
*
* @private
* @type {!boolean}
*/
var aborted = false;
/**
* The function to invoke when the seek operation initiated by a call
* to seek() is cancelled or successfully completed. If no seek
* operation is in progress, this will be null.
*
* @private
* @type {function}
*/
var seekCallback = null;
/**
* Parses all Guacamole instructions within the given blob, invoking
* the provided instruction callback for each such instruction. Once
* the end of the blob has been reached (no instructions remain to be
* parsed), the provided completion callback is invoked. If a parse
* error prevents reading instructions from the blob, the onerror
* callback of the Guacamole.SessionRecording is invoked, and no further
* data is handled within the blob.
*
* @private
* @param {!Blob} blob
* The blob to parse Guacamole instructions from.
*
* @param {function} [instructionCallback]
* The callback to invoke for each Guacamole instruction read from
* the given blob. This function must accept the same arguments
* as the oninstruction handler of Guacamole.Parser.
*
* @param {function} [completionCallback]
* The callback to invoke once all instructions have been read from
* the given blob.
*/
var parseBlob = function parseBlob(blob, instructionCallback, completionCallback) {
// Do not read any further blocks if loading has been aborted
if (aborted && blob === recordingBlob) return;
// Prepare a parser to handle all instruction data within the blob,
// automatically invoking the provided instruction callback for all
// parsed instructions
var parser = new Guacamole.Parser();
parser.oninstruction = instructionCallback;
var offset = 0;
var reader = new FileReader();
/**
* Reads the block of data at offset bytes within the blob. If no
* such block exists, then the completion callback provided to
* parseBlob() is invoked as all data has been read.
*
* @private
*/
var readNextBlock = function readNextBlock() {
// Do not read any further blocks if loading has been aborted
if (aborted && blob === recordingBlob) return;
// Parse all instructions within the block, invoking the
// onerror handler if a parse error occurs
if (reader.readyState === 2 /* DONE */) {
try {
parser.receive(reader.result);
} catch (parseError) {
if (recording.onerror) {
recording.onerror(parseError.message);
}
return;
}
}
// If no data remains, the read operation is complete and no
// further blocks need to be read
if (offset >= blob.size) {
if (completionCallback) completionCallback();
}
// Otherwise, read the next block
else {
var block = blob.slice(offset, offset + BLOCK_SIZE);
offset += block.size;
reader.readAsText(block);
}
};
// Read blocks until the end of the given blob is reached
reader.onload = readNextBlock;
readNextBlock();
};
/**
* Calculates the size of the given Guacamole instruction element, in
* Unicode characters. The size returned includes the characters which
* make up the length, the "." separator between the length and the
* element itself, and the "," or ";" terminator which follows the
* element.
*
* @private
* @param {!string} value
* The value of the element which has already been parsed (lacks
* the initial length, "." separator, and "," or ";" terminator).
*
* @returns {!number}
* The number of Unicode characters which would make up the given
* element within a Guacamole instruction.
*/
var getElementSize = function getElementSize(value) {
var valueLength = value.length;
// Calculate base size, assuming at least one digit, the "."
// separator, and the "," or ";" terminator
var protocolSize = valueLength + 3;
// Add one character for each additional digit that would occur
// in the element length prefix
while (valueLength >= 10) {
protocolSize++;
valueLength = Math.floor(valueLength / 10);
}
return protocolSize;
};
// Start playback client connected
playbackClient.connect();
// Hide cursor unless mouse position is received
playbackClient.getDisplay().showCursor(false);
/**
* Handles a newly-received instruction, whether from the main Blob or a
* tunnel, adding new frames and keyframes as necessary. Load progress is
* reported via onprogress automatically.
*
* @private
* @param {!string} opcode
* The opcode of the instruction to handle.
*
* @param {!string[]} args
* The arguments of the received instruction, if any.
*/
var loadInstruction = function loadInstruction(opcode, args) {
// Advance end of frame by overall length of parsed instruction
frameEnd += getElementSize(opcode);
for (var i = 0; i < args.length; i++) frameEnd += getElementSize(args[i]);
// Once a sync is received, store all instructions since the last
// frame as a new frame
if (opcode === 'sync') {
// Parse frame timestamp from sync instruction
var timestamp = parseInt(args[0]);
// Add a new frame containing the instructions read since last frame
var frame = new Guacamole.SessionRecording._Frame(timestamp, frameStart, frameEnd);
frames.push(frame);
frameStart = frameEnd;
// This frame should eventually become a keyframe if enough data
// has been processed and enough recording time has elapsed, or if
// this is the absolute first frame
if (
frames.length === 1 ||
(frameEnd - frames[lastKeyframe].start >= KEYFRAME_CHAR_INTERVAL && timestamp - frames[lastKeyframe].timestamp >= KEYFRAME_TIME_INTERVAL)
) {
frame.keyframe = true;
lastKeyframe = frames.length - 1;
}
// Notify that additional content is available
if (recording.onprogress) recording.onprogress(recording.getDuration(), frameEnd);
}
};
/**
* Notifies that the session recording has been fully loaded. If the onload
* handler has not been defined, this function has no effect.
*
* @private
*/
var notifyLoaded = function notifyLoaded() {
if (recording.onload) recording.onload();
};
// Read instructions from provided blob, extracting each frame
if (source instanceof Blob) parseBlob(recordingBlob, loadInstruction, notifyLoaded);
// If tunnel provided instead of Blob, extract frames, etc. as instructions
// are received, buffering things into a Blob for future seeks
else {
tunnel = source;
recordingBlob = new Blob();
var errorEncountered = false;
var instructionBuffer = '';
// Read instructions from provided tunnel, extracting each frame
tunnel.oninstruction = function handleInstruction(opcode, args) {
// Reconstitute received instruction
instructionBuffer += opcode.length + '.' + opcode;
args.forEach(function appendArg(arg) {
instructionBuffer += ',' + arg.length + '.' + arg;
});
instructionBuffer += ';';
// Append to Blob (creating a new Blob in the process)
if (instructionBuffer.length >= BLOCK_SIZE) {
recordingBlob = new Blob([recordingBlob, instructionBuffer]);
instructionBuffer = '';
}
// Load parsed instruction into recording
loadInstruction(opcode, args);
};
// Report any errors encountered
tunnel.onerror = function tunnelError(status) {
errorEncountered = true;
if (recording.onerror) recording.onerror(status.message);
};
tunnel.onstatechange = function tunnelStateChanged(state) {
if (state === Guacamole.Tunnel.State.CLOSED) {
// Append any remaining instructions
if (instructionBuffer.length) {
recordingBlob = new Blob([recordingBlob, instructionBuffer]);
instructionBuffer = '';
}
// Consider recording loaded if tunnel has closed without errors
if (!errorEncountered) notifyLoaded();
}
};
}
/**
* Converts the given absolute timestamp to a timestamp which is relative
* to the first frame in the recording.
*
* @private
* @param {!number} timestamp
* The timestamp to convert to a relative timestamp.
*
* @returns {!number}
* The difference in milliseconds between the given timestamp and the
* first frame of the recording, or zero if no frames yet exist.
*/
var toRelativeTimestamp = function toRelativeTimestamp(timestamp) {
// If no frames yet exist, all timestamps are zero
if (frames.length === 0) return 0;
// Calculate timestamp relative to first frame
return timestamp - frames[0].timestamp;
};
/**
* Searches through the given region of frames for the frame having a
* relative timestamp closest to the timestamp given.
*
* @private
* @param {!number} minIndex
* The index of the first frame in the region (the frame having the
* smallest timestamp).
*
* @param {!number} maxIndex
* The index of the last frame in the region (the frame having the
* largest timestamp).
*
* @param {!number} timestamp
* The relative timestamp to search for, where zero denotes the first
* frame in the recording.
*
* @returns {!number}
* The index of the frame having a relative timestamp closest to the
* given value.
*/
var findFrame = function findFrame(minIndex, maxIndex, timestamp) {
// Do not search if the region contains only one element
if (minIndex === maxIndex) return minIndex;
// Split search region into two halves
var midIndex = Math.floor((minIndex + maxIndex) / 2);
var midTimestamp = toRelativeTimestamp(frames[midIndex].timestamp);
// If timestamp is within lesser half, search again within that half
if (timestamp < midTimestamp && midIndex > minIndex) return findFrame(minIndex, midIndex - 1, timestamp);
// If timestamp is within greater half, search again within that half
if (timestamp > midTimestamp && midIndex < maxIndex) return findFrame(midIndex + 1, maxIndex, timestamp);
// Otherwise, we lucked out and found a frame with exactly the
// desired timestamp
return midIndex;
};
/**
* Replays the instructions associated with the given frame, sending those
* instructions to the playback client.
*
* @private
* @param {!number} index
* The index of the frame within the frames array which should be
* replayed.
*
* @param {function} callback
* The callback to invoke once replay of the frame has completed.
*/
var replayFrame = function replayFrame(index, callback) {
var frame = frames[index];
// Replay all instructions within the retrieved frame
parseBlob(
recordingBlob.slice(frame.start, frame.end),
function handleInstruction(opcode, args) {
playbackTunnel.receiveInstruction(opcode, args);
},
function replayCompleted() {
// Store client state if frame is flagged as a keyframe
if (frame.keyframe && !frame.clientState) {
playbackClient.exportState(function storeClientState(state) {
frame.clientState = new Blob([JSON.stringify(state)]);
});
}
// Update state to correctly represent the current frame
currentFrame = index;
if (callback) callback();
}
);
};
/**
* Moves the playback position to the given frame, resetting the state of
* the playback client and replaying frames as necessary. The seek
* operation will proceed asynchronously. If a seek operation is already in
* progress, that seek is first aborted. The progress of the seek operation
* can be observed through the onseek handler and the provided callback.
*
* @private
* @param {!number} index
* The index of the frame which should become the new playback
* position.
*
* @param {function} callback
* The callback to invoke once the seek operation has completed.
*
* @param {number} [nextRealTimestamp]
* The timestamp of the point in time that the given frame should be
* displayed, as would be returned by new Date().getTime(). If omitted,
* the frame will be displayed as soon as possible.
*/
var seekToFrame = function seekToFrame(index, callback, nextRealTimestamp) {
// Abort any in-progress seek
abortSeek();
// Note that a new seek operation is in progress
var thisSeek = (activeSeek = {
aborted: false,
});
var startIndex = index;
// Replay any applicable incremental frames
var continueReplay = function continueReplay() {
// Notify of changes in position
if (recording.onseek && currentFrame > startIndex) {
recording.onseek(toRelativeTimestamp(frames[currentFrame].timestamp), currentFrame - startIndex, index - startIndex);
}
// Cancel seek if aborted
if (thisSeek.aborted) return;
// If frames remain, replay the next frame
if (currentFrame < index) replayFrame(currentFrame + 1, continueReplay);
// Otherwise, the seek operation is completed
else callback();
};
// Continue replay after requested delay has elapsed, or
// immediately if no delay was requested
var continueAfterRequiredDelay = function continueAfterRequiredDelay() {
var delay = nextRealTimestamp ? Math.max(nextRealTimestamp - new Date().getTime(), 0) : 0;
if (delay) window.setTimeout(continueReplay, delay);
else continueReplay();
};
// Back up until startIndex represents current state
for (; startIndex >= 0; startIndex--) {
var frame = frames[startIndex];
// If we've reached the current frame, startIndex represents
// current state by definition
if (startIndex === currentFrame) break;
// If frame has associated absolute state, make that frame the
// current state
if (frame.clientState) {
frame.clientState.text().then(function textReady(text) {
playbackClient.importState(JSON.parse(text));
currentFrame = startIndex;
continueAfterRequiredDelay();
});
return;
}
}
continueAfterRequiredDelay();
};
/**
* Aborts the seek operation currently in progress, if any. If no seek
* operation is in progress, this function has no effect.
*
* @private
*/
var abortSeek = function abortSeek() {
if (activeSeek) {
activeSeek.aborted = true;
activeSeek = null;
}
};
/**
* Advances playback to the next frame in the frames array and schedules
* playback of the frame following that frame based on their associated
* timestamps. If no frames exist after the next frame, playback is paused.
*
* @private
*/
var continuePlayback = function continuePlayback() {
// If frames remain after advancing, schedule next frame
if (currentFrame + 1 < frames.length) {
// Pull the upcoming frame
var next = frames[currentFrame + 1];
// Calculate the real timestamp corresponding to when the next
// frame begins
var nextRealTimestamp = next.timestamp - startVideoTimestamp + startRealTimestamp;
// Advance to next frame after enough time has elapsed
seekToFrame(
currentFrame + 1,
function frameDelayElapsed() {
continuePlayback();
},
nextRealTimestamp
);
}
// Otherwise stop playback
else recording.pause();
};
/**
* Fired when loading of this recording has completed and all frames
* are available.
*
* @event
*/
this.onload = null;
/**
* Fired when an error occurs which prevents the recording from being
* played back.
*
* @event
* @param {!string} message
* A human-readable message describing the error that occurred.
*/
this.onerror = null;
/**
* Fired when further loading of this recording has been explicitly
* aborted through a call to abort().
*
* @event
*/
this.onabort = null;
/**
* Fired when new frames have become available while the recording is
* being downloaded.
*
* @event
* @param {!number} duration
* The new duration of the recording, in milliseconds.
*
* @param {!number} parsedSize
* The number of bytes that have been loaded/parsed.
*/
this.onprogress = null;
/**
* Fired whenever playback of the recording has started.
*
* @event
*/
this.onplay = null;
/**
* Fired whenever playback of the recording has been paused. This may
* happen when playback is explicitly paused with a call to pause(), or
* when playback is implicitly paused due to reaching the end of the
* recording.
*
* @event
*/
this.onpause = null;
/**
* Fired whenever the playback position within the recording changes.
*
* @event
* @param {!number} position
* The new position within the recording, in milliseconds.
*
* @param {!number} current
* The number of frames that have been seeked through. If not
* seeking through multiple frames due to a call to seek(), this
* will be 1.
*
* @param {!number} total
* The number of frames that are being seeked through in the
* current seek operation. If not seeking through multiple frames
* due to a call to seek(), this will be 1.
*/
this.onseek = null;
/**
* Connects the underlying tunnel, beginning download of the Guacamole
* session. Playback of the Guacamole session cannot occur until at least
* one frame worth of instructions has been downloaded. If the underlying
* recording source is a Blob, this function has no effect.
*
* @param {string} [data]
* The data to send to the tunnel when connecting.
*/
this.connect = function connect(data) {
if (tunnel) tunnel.connect(data);
};
/**
* Disconnects the underlying tunnel, stopping further download of the
* Guacamole session. If the underlying recording source is a Blob, this
* function has no effect.
*/
this.disconnect = function disconnect() {
if (tunnel) tunnel.disconnect();
};
/**
* Aborts the loading process, stopping further processing of the
* provided data. If the underlying recording source is a Guacamole tunnel,
* it will be disconnected.
*/
this.abort = function abort() {
if (!aborted) {
aborted = true;
if (recording.onabort) recording.onabort();
if (tunnel) tunnel.disconnect();
}
};
/**
* Returns the underlying display of the Guacamole.Client used by this
* Guacamole.SessionRecording for playback. The display contains an Element
* which can be added to the DOM, causing the display (and thus playback of
* the recording) to become visible.
*
* @return {!Guacamole.Display}
* The underlying display of the Guacamole.Client used by this
* Guacamole.SessionRecording for playback.
*/
this.getDisplay = function getDisplay() {
return playbackClient.getDisplay();
};
/**
* Returns whether playback is currently in progress.
*
* @returns {!boolean}
* true if playback is currently in progress, false otherwise.
*/
this.isPlaying = function isPlaying() {
return !!startVideoTimestamp;
};
/**
* Returns the current playback position within the recording, in
* milliseconds, where zero is the start of the recording.
*
* @returns {!number}
* The current playback position within the recording, in milliseconds.
*/
this.getPosition = function getPosition() {
// Position is simply zero if playback has not started at all
if (currentFrame === -1) return 0;
// Return current position as a millisecond timestamp relative to the
// start of the recording
return toRelativeTimestamp(frames[currentFrame].timestamp);
};
/**
* Returns the duration of this recording, in milliseconds. If the
* recording is still being downloaded, this value will gradually increase.
*
* @returns {!number}
* The duration of this recording, in milliseconds.
*/
this.getDuration = function getDuration() {
// If no frames yet exist, duration is zero
if (frames.length === 0) return 0;
// Recording duration is simply the timestamp of the last frame
return toRelativeTimestamp(frames[frames.length - 1].timestamp);
};
/**
* Begins continuous playback of the recording downloaded thus far.
* Playback of the recording will continue until pause() is invoked or
* until no further frames exist. Playback is initially paused when a
* Guacamole.SessionRecording is created, and must be explicitly started
* through a call to this function. If playback is already in progress,
* this function has no effect. If a seek operation is in progress,
* playback resumes at the current position, and the seek is aborted as if
* completed.
*/
this.play = function play() {
// If playback is not already in progress and frames remain,
// begin playback
if (!recording.isPlaying() && currentFrame + 1 < frames.length) {
// Notify that playback is starting
if (recording.onplay) recording.onplay();
// Store timestamp of playback start for relative scheduling of
// future frames
var next = frames[currentFrame + 1];
startVideoTimestamp = next.timestamp;
startRealTimestamp = new Date().getTime();
// Begin playback of video
continuePlayback();
}
};
/**
* Seeks to the given position within the recording. If the recording is
* currently being played back, playback will continue after the seek is
* performed. If the recording is currently paused, playback will be
* paused after the seek is performed. If a seek operation is already in
* progress, that seek is first aborted. The seek operation will proceed
* asynchronously.
*
* @param {!number} position
* The position within the recording to seek to, in milliseconds.
*
* @param {function} [callback]
* The callback to invoke once the seek operation has completed.
*/
this.seek = function seek(position, callback) {
// Do not seek if no frames exist
if (frames.length === 0) return;
// Abort active seek operation, if any
recording.cancel();
// Pause playback, preserving playback state
var originallyPlaying = recording.isPlaying();
recording.pause();
// Restore playback when seek is completed or cancelled
seekCallback = function restorePlaybackState() {
// Seek is no longer in progress
seekCallback = null;
// Restore playback state
if (originallyPlaying) {
recording.play();
originallyPlaying = null;
}
// Notify that seek has completed
if (callback) callback();
};
// Perform seek
seekToFrame(findFrame(0, frames.length - 1, position), seekCallback);
};
/**
* Cancels the current seek operation, setting the current frame of the
* recording to wherever the seek operation was able to reach prior to
* being cancelled. If a callback was provided to seek(), that callback
* is invoked. If a seek operation is not currently underway, this
* function has no effect.
*/
this.cancel = function cancel() {
if (seekCallback) {
abortSeek();
seekCallback();
}
};
/**
* Pauses playback of the recording, if playback is currently in progress.
* If playback is not in progress, this function has no effect. If a seek
* operation is in progress, the seek is aborted. Playback is initially
* paused when a Guacamole.SessionRecording is created, and must be
* explicitly started through a call to play().
*/
this.pause = function pause() {
// Abort any in-progress seek / playback
abortSeek();
// Stop playback only if playback is in progress
if (recording.isPlaying()) {
// Notify that playback is stopping
if (recording.onpause) recording.onpause();
// Playback is stopped
startVideoTimestamp = null;
startRealTimestamp = null;
}
};
};
/**
* A single frame of Guacamole session data. Each frame is made up of the set
* of instructions used to generate that frame, and the timestamp as dictated
* by the "sync" instruction terminating the frame. Optionally, a frame may
* also be associated with a snapshot of Guacamole client state, such that the
* frame can be rendered without replaying all previous frames.
*
* @private
* @constructor
* @param {!number} timestamp
* The timestamp of this frame, as dictated by the "sync" instruction which
* terminates the frame.
*
* @param {!number} start
* The byte offset within the blob of the first character of the first
* instruction of this frame.
*
* @param {!number} end
* The byte offset within the blob of character which follows the last
* character of the last instruction of this frame.
*/
Guacamole.SessionRecording._Frame = function _Frame(timestamp, start, end) {
/**
* Whether this frame should be used as a keyframe if possible. This value
* is purely advisory. The stored clientState must eventually be manually
* set for the frame to be used as a keyframe. By default, frames are not
* keyframes.
*
* @type {!boolean}
* @default false
*/
this.keyframe = false;
/**
* The timestamp of this frame, as dictated by the "sync" instruction which
* terminates the frame.
*
* @type {!number}
*/
this.timestamp = timestamp;
/**
* The byte offset within the blob of the first character of the first
* instruction of this frame.
*
* @type {!number}
*/
this.start = start;
/**
* The byte offset within the blob of character which follows the last
* character of the last instruction of this frame.
*
* @type {!number}
*/
this.end = end;
/**
* A snapshot of client state after this frame was rendered, as returned by
* a call to exportState(), serialized as JSON, and stored within a Blob.
* Use of Blobs here is required to ensure the browser can make use of
* larger disk-backed storage if the size of the recording is large. If no
* such snapshot has been taken, this will be null.
*
* @type {Blob}
* @default null
*/
this.clientState = null;
};
/**
* A read-only Guacamole.Tunnel implementation which streams instructions
* received through explicit calls to its receiveInstruction() function.
*
* @private
* @constructor
* @augments {Guacamole.Tunnel}
*/
Guacamole.SessionRecording._PlaybackTunnel = function _PlaybackTunnel() {
/**
* Reference to this Guacamole.SessionRecording._PlaybackTunnel.
*
* @private
* @type {!Guacamole.SessionRecording._PlaybackTunnel}
*/
var tunnel = this;
this.connect = function connect(data) {
// Do nothing
};
this.sendMessage = function sendMessage(elements) {
// Do nothing
};
this.disconnect = function disconnect() {
// Do nothing
};
/**
* Invokes this tunnel's oninstruction handler, notifying users of this
* tunnel (such as a Guacamole.Client instance) that an instruction has
* been received. If the oninstruction handler has not been set, this
* function has no effect.
*
* @param {!string} opcode
* The opcode of the Guacamole instruction.
*
* @param {!string[]} args
* All arguments associated with this Guacamole instruction.
*/
this.receiveInstruction = function receiveInstruction(opcode, args) {
if (tunnel.oninstruction) tunnel.oninstruction(opcode, args);
};
};
/**
* A Guacamole status. Each Guacamole status consists of a status code, defined
* by the protocol, and an optional human-readable message, usually only
* included for debugging convenience.
*
* @constructor
* @param {!number} code
* The Guacamole status code, as defined by Guacamole.Status.Code.
*
* @param {string} [message]
* An optional human-readable message.
*/
Guacamole.Status = function (code, message) {
/**
* Reference to this Guacamole.Status.
*
* @private
* @type {!Guacamole.Status}
*/
var guac_status = this;
/**
* The Guacamole status code.
*
* @see Guacamole.Status.Code
* @type {!number}
*/
this.code = code;
/**
* An arbitrary human-readable message associated with this status, if any.
* The human-readable message is not required, and is generally provided
* for debugging purposes only. For user feedback, it is better to translate
* the Guacamole status code into a message.
*
* @type {string}
*/
this.message = message;
/**
* Returns whether this status represents an error.
*
* @returns {!boolean}
* true if this status represents an error, false otherwise.
*/
this.isError = function () {
return guac_status.code < 0 || guac_status.code > 0x00ff;
};
};
/**
* Enumeration of all Guacamole status codes.
*/
Guacamole.Status.Code = {
/**
* The operation succeeded.
*
* @type {!number}
*/
SUCCESS: 0x0000,
/**
* The requested operation is unsupported.
*
* @type {!number}
*/
UNSUPPORTED: 0x0100,
/**
* The operation could not be performed due to an internal failure.
*
* @type {!number}
*/
SERVER_ERROR: 0x0200,
/**
* The operation could not be performed as the server is busy.
*
* @type {!number}
*/
SERVER_BUSY: 0x0201,
/**
* The operation could not be performed because the upstream server is not
* responding.
*
* @type {!number}
*/
UPSTREAM_TIMEOUT: 0x0202,
/**
* The operation was unsuccessful due to an error or otherwise unexpected
* condition of the upstream server.
*
* @type {!number}
*/
UPSTREAM_ERROR: 0x0203,
/**
* The operation could not be performed as the requested resource does not
* exist.
*
* @type {!number}
*/
RESOURCE_NOT_FOUND: 0x0204,
/**
* The operation could not be performed as the requested resource is
* already in use.
*
* @type {!number}
*/
RESOURCE_CONFLICT: 0x0205,
/**
* The operation could not be performed as the requested resource is now
* closed.
*
* @type {!number}
*/
RESOURCE_CLOSED: 0x0206,
/**
* The operation could not be performed because the upstream server does
* not appear to exist.
*
* @type {!number}
*/
UPSTREAM_NOT_FOUND: 0x0207,
/**
* The operation could not be performed because the upstream server is not
* available to service the request.
*
* @type {!number}
*/
UPSTREAM_UNAVAILABLE: 0x0208,
/**
* The session within the upstream server has ended because it conflicted
* with another session.
*
* @type {!number}
*/
SESSION_CONFLICT: 0x0209,
/**
* The session within the upstream server has ended because it appeared to
* be inactive.
*
* @type {!number}
*/
SESSION_TIMEOUT: 0x020a,
/**
* The session within the upstream server has been forcibly terminated.
*
* @type {!number}
*/
SESSION_CLOSED: 0x020b,
/**
* The operation could not be performed because bad parameters were given.
*
* @type {!number}
*/
CLIENT_BAD_REQUEST: 0x0300,
/**
* Permission was denied to perform the operation, as the user is not yet
* authorized (not yet logged in, for example).
*
* @type {!number}
*/
CLIENT_UNAUTHORIZED: 0x0301,
/**
* Permission was denied to perform the operation, and this permission will
* not be granted even if the user is authorized.
*
* @type {!number}
*/
CLIENT_FORBIDDEN: 0x0303,
/**
* The client took too long to respond.
*
* @type {!number}
*/
CLIENT_TIMEOUT: 0x0308,
/**
* The client sent too much data.
*
* @type {!number}
*/
CLIENT_OVERRUN: 0x030d,
/**
* The client sent data of an unsupported or unexpected type.
*
* @type {!number}
*/
CLIENT_BAD_TYPE: 0x030f,
/**
* The operation failed because the current client is already using too
* many resources.
*
* @type {!number}
*/
CLIENT_TOO_MANY: 0x031d,
};
/**
* Returns the Guacamole protocol status code which most closely
* represents the given HTTP status code.
*
* @param {!number} status
* The HTTP status code to translate into a Guacamole protocol status
* code.
*
* @returns {!number}
* The Guacamole protocol status code which most closely represents the
* given HTTP status code.
*/
Guacamole.Status.Code.fromHTTPCode = function fromHTTPCode(status) {
// Translate status codes with known equivalents
switch (status) {
// HTTP 400 - Bad request
case 400:
return Guacamole.Status.Code.CLIENT_BAD_REQUEST;
// HTTP 403 - Forbidden
case 403:
return Guacamole.Status.Code.CLIENT_FORBIDDEN;
// HTTP 404 - Resource not found
case 404:
return Guacamole.Status.Code.RESOURCE_NOT_FOUND;
// HTTP 429 - Too many requests
case 429:
return Guacamole.Status.Code.CLIENT_TOO_MANY;
// HTTP 503 - Server unavailable
case 503:
return Guacamole.Status.Code.SERVER_BUSY;
}
// Default all other codes to generic internal error
return Guacamole.Status.Code.SERVER_ERROR;
};
/**
* Returns the Guacamole protocol status code which most closely
* represents the given WebSocket status code.
*
* @param {!number} code
* The WebSocket status code to translate into a Guacamole protocol
* status code.
*
* @returns {!number}
* The Guacamole protocol status code which most closely represents the
* given WebSocket status code.
*/
Guacamole.Status.Code.fromWebSocketCode = function fromWebSocketCode(code) {
// Translate status codes with known equivalents
switch (code) {
// Successful disconnect (no error)
case 1000: // Normal Closure
return Guacamole.Status.Code.SUCCESS;
// Codes which indicate the server is not reachable
case 1006: // Abnormal Closure (also signalled by JavaScript when the connection cannot be opened in the first place)
case 1015: // TLS Handshake
return Guacamole.Status.Code.UPSTREAM_NOT_FOUND;
// Codes which indicate the server is reachable but busy/unavailable
case 1001: // Going Away
case 1012: // Service Restart
case 1013: // Try Again Later
case 1014: // Bad Gateway
return Guacamole.Status.Code.UPSTREAM_UNAVAILABLE;
}
// Default all other codes to generic internal error
return Guacamole.Status.Code.SERVER_ERROR;
};
/**
* A reader which automatically handles the given input stream, returning
* strictly text data. Note that this object will overwrite any installed event
* handlers on the given Guacamole.InputStream.
*
* @constructor
* @param {!Guacamole.InputStream} stream
* The stream that data will be read from.
*/
Guacamole.StringReader = function (stream) {
/**
* Reference to this Guacamole.InputStream.
*
* @private
* @type {!Guacamole.StringReader}
*/
var guac_reader = this;
/**
* Parser for received UTF-8 data.
*
* @type {!Guacamole.UTF8Parser}
*/
var utf8Parser = new Guacamole.UTF8Parser();
/**
* Wrapped Guacamole.ArrayBufferReader.
*
* @private
* @type {!Guacamole.ArrayBufferReader}
*/
var array_reader = new Guacamole.ArrayBufferReader(stream);
// Receive blobs as strings
array_reader.ondata = function (buffer) {
// Decode UTF-8
var text = utf8Parser.decode(buffer);
// Call handler, if present
if (guac_reader.ontext) guac_reader.ontext(text);
};
// Simply call onend when end received
array_reader.onend = function () {
if (guac_reader.onend) guac_reader.onend();
};
/**
* Fired once for every blob of text data received.
*
* @event
* @param {!string} text
* The data packet received.
*/
this.ontext = null;
/**
* Fired once this stream is finished and no further data will be written.
* @event
*/
this.onend = null;
};
/**
* A writer which automatically writes to the given output stream with text
* data.
*
* @constructor
* @param {!Guacamole.OutputStream} stream
* The stream that data will be written to.
*/
Guacamole.StringWriter = function (stream) {
/**
* Reference to this Guacamole.StringWriter.
*
* @private
* @type {!Guacamole.StringWriter}
*/
var guac_writer = this;
/**
* Wrapped Guacamole.ArrayBufferWriter.
*
* @private
* @type {!Guacamole.ArrayBufferWriter}
*/
var array_writer = new Guacamole.ArrayBufferWriter(stream);
/**
* Internal buffer for UTF-8 output.
*
* @private
* @type {!Uint8Array}
*/
var buffer = new Uint8Array(8192);
/**
* The number of bytes currently in the buffer.
*
* @private
* @type {!number}
*/
var length = 0;
// Simply call onack for acknowledgements
array_writer.onack = function (status) {
if (guac_writer.onack) guac_writer.onack(status);
};
/**
* Expands the size of the underlying buffer by the given number of bytes,
* updating the length appropriately.
*
* @private
* @param {!number} bytes
* The number of bytes to add to the underlying buffer.
*/
function __expand(bytes) {
// Resize buffer if more space needed
if (length + bytes >= buffer.length) {
var new_buffer = new Uint8Array((length + bytes) * 2);
new_buffer.set(buffer);
buffer = new_buffer;
}
length += bytes;
}
/**
* Appends a single Unicode character to the current buffer, resizing the
* buffer if necessary. The character will be encoded as UTF-8.
*
* @private
* @param {!number} codepoint
* The codepoint of the Unicode character to append.
*/
function __append_utf8(codepoint) {
var mask;
var bytes;
// 1 byte
if (codepoint <= 0x7f) {
mask = 0x00;
bytes = 1;
}
// 2 byte
else if (codepoint <= 0x7ff) {
mask = 0xc0;
bytes = 2;
}
// 3 byte
else if (codepoint <= 0xffff) {
mask = 0xe0;
bytes = 3;
}
// 4 byte
else if (codepoint <= 0x1fffff) {
mask = 0xf0;
bytes = 4;
}
// If invalid codepoint, append replacement character
else {
__append_utf8(0xfffd);
return;
}
// Offset buffer by size
__expand(bytes);
var offset = length - 1;
// Add trailing bytes, if any
for (var i = 1; i < bytes; i++) {
buffer[offset--] = 0x80 | (codepoint & 0x3f);
codepoint >>= 6;
}
// Set initial byte
buffer[offset] = mask | codepoint;
}
/**
* Encodes the given string as UTF-8, returning an ArrayBuffer containing
* the resulting bytes.
*
* @private
* @param {!string} text
* The string to encode as UTF-8.
*
* @return {!Uint8Array}
* The encoded UTF-8 data.
*/
function __encode_utf8(text) {
// Fill buffer with UTF-8
for (var i = 0; i < text.length; i++) {
var codepoint = text.charCodeAt(i);
__append_utf8(codepoint);
}
// Flush buffer
if (length > 0) {
var out_buffer = buffer.subarray(0, length);
length = 0;
return out_buffer;
}
}
/**
* Sends the given text.
*
* @param {!string} text
* The text to send.
*/
this.sendText = function (text) {
if (text.length) array_writer.sendData(__encode_utf8(text));
};
/**
* Signals that no further text will be sent, effectively closing the
* stream.
*/
this.sendEnd = function () {
array_writer.sendEnd();
};
/**
* Fired for received data, if acknowledged by the server.
*
* @event
* @param {!Guacamole.Status} status
* The status of the operation.
*/
this.onack = null;
};
/**
* Provides cross-browser multi-touch events for a given element. The events of
* the given element are automatically populated with handlers that translate
* touch events into a non-browser-specific event provided by the
* Guacamole.Touch instance.
*
* @constructor
* @augments Guacamole.Event.Target
* @param {!Element} element
* The Element to use to provide touch events.
*/
Guacamole.Touch = function Touch(element) {
Guacamole.Event.Target.call(this);
/**
* Reference to this Guacamole.Touch.
*
* @private
* @type {!Guacamole.Touch}
*/
var guacTouch = this;
/**
* The default X/Y radius of each touch if the device or browser does not
* expose the size of the contact area.
*
* @private
* @constant
* @type {!number}
*/
var DEFAULT_CONTACT_RADIUS = Math.floor(16 * window.devicePixelRatio);
/**
* The set of all active touches, stored by their unique identifiers.
*
* @type {!Object.<Number, Guacamole.Touch.State>}
*/
this.touches = {};
/**
* The number of active touches currently stored within
* {@link Guacamole.Touch#touches touches}.
*/
this.activeTouches = 0;
/**
* Fired whenever a new touch contact is initiated on the element
* associated with this Guacamole.Touch.
*
* @event Guacamole.Touch#touchstart
* @param {!Guacamole.Touch.Event} event
* A {@link Guacamole.Touch.Event} object representing the "touchstart"
* event.
*/
/**
* Fired whenever an established touch contact moves within the element
* associated with this Guacamole.Touch.
*
* @event Guacamole.Touch#touchmove
* @param {!Guacamole.Touch.Event} event
* A {@link Guacamole.Touch.Event} object representing the "touchmove"
* event.
*/
/**
* Fired whenever an established touch contact is lifted from the element
* associated with this Guacamole.Touch.
*
* @event Guacamole.Touch#touchend
* @param {!Guacamole.Touch.Event} event
* A {@link Guacamole.Touch.Event} object representing the "touchend"
* event.
*/
element.addEventListener(
'touchstart',
function touchstart(e) {
// Fire "ontouchstart" events for all new touches
for (var i = 0; i < e.changedTouches.length; i++) {
var changedTouch = e.changedTouches[i];
var identifier = changedTouch.identifier;
// Ignore duplicated touches
if (guacTouch.touches[identifier]) continue;
var touch = (guacTouch.touches[identifier] = new Guacamole.Touch.State({
id: identifier,
radiusX: changedTouch.radiusX || DEFAULT_CONTACT_RADIUS,
radiusY: changedTouch.radiusY || DEFAULT_CONTACT_RADIUS,
angle: changedTouch.angle || 0.0,
force:
changedTouch.force ||
1.0 /* Within JavaScript changedTouch events, a force of 0.0 indicates the device does not support reporting changedTouch force */,
}));
guacTouch.activeTouches++;
touch.fromClientPosition(element, changedTouch.clientX, changedTouch.clientY);
guacTouch.dispatch(new Guacamole.Touch.Event('touchmove', e, touch));
}
},
false
);
element.addEventListener(
'touchmove',
function touchstart(e) {
// Fire "ontouchmove" events for all updated touches
for (var i = 0; i < e.changedTouches.length; i++) {
var changedTouch = e.changedTouches[i];
var identifier = changedTouch.identifier;
// Ignore any unrecognized touches
var touch = guacTouch.touches[identifier];
if (!touch) continue;
// Update force only if supported by browser (otherwise, assume
// force is unchanged)
if (changedTouch.force) touch.force = changedTouch.force;
// Update touch area, if supported by browser and device
touch.angle = changedTouch.angle || 0.0;
touch.radiusX = changedTouch.radiusX || DEFAULT_CONTACT_RADIUS;
touch.radiusY = changedTouch.radiusY || DEFAULT_CONTACT_RADIUS;
// Update with any change in position
touch.fromClientPosition(element, changedTouch.clientX, changedTouch.clientY);
guacTouch.dispatch(new Guacamole.Touch.Event('touchmove', e, touch));
}
},
false
);
element.addEventListener(
'touchend',
function touchstart(e) {
// Fire "ontouchend" events for all updated touches
for (var i = 0; i < e.changedTouches.length; i++) {
var changedTouch = e.changedTouches[i];
var identifier = changedTouch.identifier;
// Ignore any unrecognized touches
var touch = guacTouch.touches[identifier];
if (!touch) continue;
// Stop tracking this particular touch
delete guacTouch.touches[identifier];
guacTouch.activeTouches--;
// Touch has ended
touch.force = 0.0;
// Update with final position
touch.fromClientPosition(element, changedTouch.clientX, changedTouch.clientY);
guacTouch.dispatch(new Guacamole.Touch.Event('touchend', e, touch));
}
},
false
);
};
/**
* The current state of a touch contact.
*
* @constructor
* @augments Guacamole.Position
* @param {Guacamole.Touch.State|object} [template={}]
* The object whose properties should be copied within the new
* Guacamole.Touch.State.
*/
Guacamole.Touch.State = function State(template) {
template = template || {};
Guacamole.Position.call(this, template);
/**
* An arbitrary integer ID which uniquely identifies this contact relative
* to other active contacts.
*
* @type {!number}
* @default 0
*/
this.id = template.id || 0;
/**
* The Y radius of the ellipse covering the general area of the touch
* contact, in pixels.
*
* @type {!number}
* @default 0
*/
this.radiusX = template.radiusX || 0;
/**
* The X radius of the ellipse covering the general area of the touch
* contact, in pixels.
*
* @type {!number}
* @default 0
*/
this.radiusY = template.radiusY || 0;
/**
* The rough angle of clockwise rotation of the general area of the touch
* contact, in degrees.
*
* @type {!number}
* @default 0.0
*/
this.angle = template.angle || 0.0;
/**
* The relative force exerted by the touch contact, where 0 is no force
* (the touch has been lifted) and 1 is maximum force (the maximum amount
* of force representable by the device).
*
* @type {!number}
* @default 1.0
*/
this.force = template.force || 1.0;
};
/**
* An event which represents a change in state of a single touch contact,
* including the creation or removal of that contact. If multiple contacts are
* involved in a touch interaction, each contact will be associated with its
* own event.
*
* @constructor
* @augments Guacamole.Event.DOMEvent
* @param {!string} type
* The name of the touch event type. Possible values are "touchstart",
* "touchmove", and "touchend".
*
* @param {!TouchEvent} event
* The DOM touch event that produced this Guacamole.Touch.Event.
*
* @param {!Guacamole.Touch.State} state
* The state of the touch contact associated with this event.
*/
Guacamole.Touch.Event = function TouchEvent(type, event, state) {
Guacamole.Event.DOMEvent.call(this, type, [event]);
/**
* The state of the touch contact associated with this event.
*
* @type {!Guacamole.Touch.State}
*/
this.state = state;
};
/**
* Core object providing abstract communication for Guacamole. This object
* is a null implementation whose functions do nothing. Guacamole applications
* should use {@link Guacamole.HTTPTunnel} instead, or implement their own tunnel based
* on this one.
*
* @constructor
* @see Guacamole.HTTPTunnel
*/
Guacamole.Tunnel = function () {
/**
* Connect to the tunnel with the given optional data. This data is
* typically used for authentication. The format of data accepted is
* up to the tunnel implementation.
*
* @param {string} [data]
* The data to send to the tunnel when connecting.
*/
this.connect = function (data) {};
/**
* Disconnect from the tunnel.
*/
this.disconnect = function () {};
/**
* Send the given message through the tunnel to the service on the other
* side. All messages are guaranteed to be received in the order sent.
*
* @param {...*} elements
* The elements of the message to send to the service on the other side
* of the tunnel.
*/
this.sendMessage = function (elements) {};
/**
* Changes the stored numeric state of this tunnel, firing the onstatechange
* event if the new state is different and a handler has been defined.
*
* @private
* @param {!number} state
* The new state of this tunnel.
*/
this.setState = function (state) {
// Notify only if state changes
if (state !== this.state) {
this.state = state;
if (this.onstatechange) this.onstatechange(state);
}
};
/**
* Changes the stored UUID that uniquely identifies this tunnel, firing the
* onuuid event if a handler has been defined.
*
* @private
* @param {string} uuid
* The new state of this tunnel.
*/
this.setUUID = function setUUID(uuid) {
this.uuid = uuid;
if (this.onuuid) this.onuuid(uuid);
};
/**
* Returns whether this tunnel is currently connected.
*
* @returns {!boolean}
* true if this tunnel is currently connected, false otherwise.
*/
this.isConnected = function isConnected() {
return this.state === Guacamole.Tunnel.State.OPEN || this.state === Guacamole.Tunnel.State.UNSTABLE;
};
/**
* The current state of this tunnel.
*
* @type {!number}
*/
this.state = Guacamole.Tunnel.State.CLOSED;
/**
* The maximum amount of time to wait for data to be received, in
* milliseconds. If data is not received within this amount of time,
* the tunnel is closed with an error. The default value is 15000.
*
* @type {!number}
*/
this.receiveTimeout = 15000;
/**
* The amount of time to wait for data to be received before considering
* the connection to be unstable, in milliseconds. If data is not received
* within this amount of time, the tunnel status is updated to warn that
* the connection appears unresponsive and may close. The default value is
* 1500.
*
* @type {!number}
*/
this.unstableThreshold = 1500;
/**
* The UUID uniquely identifying this tunnel. If not yet known, this will
* be null.
*
* @type {string}
*/
this.uuid = null;
/**
* Fired when the UUID that uniquely identifies this tunnel is known.
*
* @event
* @param {!string}
* The UUID uniquely identifying this tunnel.
*/
this.onuuid = null;
/**
* Fired whenever an error is encountered by the tunnel.
*
* @event
* @param {!Guacamole.Status} status
* A status object which describes the error.
*/
this.onerror = null;
/**
* Fired whenever the state of the tunnel changes.
*
* @event
* @param {!number} state
* The new state of the client.
*/
this.onstatechange = null;
/**
* Fired once for every complete Guacamole instruction received, in order.
*
* @event
* @param {!string} opcode
* The Guacamole instruction opcode.
*
* @param {!string[]} parameters
* The parameters provided for the instruction, if any.
*/
this.oninstruction = null;
};
/**
* The Guacamole protocol instruction opcode reserved for arbitrary internal
* use by tunnel implementations. The value of this opcode is guaranteed to be
* the empty string (""). Tunnel implementations may use this opcode for any
* purpose. It is currently used by the HTTP tunnel to mark the end of the HTTP
* response, and by the WebSocket tunnel to transmit the tunnel UUID and send
* connection stability test pings/responses.
*
* @constant
* @type {!string}
*/
Guacamole.Tunnel.INTERNAL_DATA_OPCODE = '';
/**
* All possible tunnel states.
*
* @type {!Object.<string, number>}
*/
Guacamole.Tunnel.State = {
/**
* A connection is in pending. It is not yet known whether connection was
* successful.
*
* @type {!number}
*/
CONNECTING: 0,
/**
* Connection was successful, and data is being received.
*
* @type {!number}
*/
OPEN: 1,
/**
* The connection is closed. Connection may not have been successful, the
* tunnel may have been explicitly closed by either side, or an error may
* have occurred.
*
* @type {!number}
*/
CLOSED: 2,
/**
* The connection is open, but communication through the tunnel appears to
* be disrupted, and the connection may close as a result.
*
* @type {!number}
*/
UNSTABLE: 3,
};
/**
* Guacamole Tunnel implemented over HTTP via XMLHttpRequest.
*
* @constructor
* @augments Guacamole.Tunnel
*
* @param {!string} tunnelURL
* The URL of the HTTP tunneling service.
*
* @param {boolean} [crossDomain=false]
* Whether tunnel requests will be cross-domain, and thus must use CORS
* mechanisms and headers. By default, it is assumed that tunnel requests
* will be made to the same domain.
*
* @param {object} [extraTunnelHeaders={}]
* Key value pairs containing the header names and values of any additional
* headers to be sent in tunnel requests. By default, no extra headers will
* be added.
*/
Guacamole.HTTPTunnel = function (tunnelURL, crossDomain, extraTunnelHeaders) {
/**
* Reference to this HTTP tunnel.
*
* @private
* @type {!Guacamole.HTTPTunnel}
*/
var tunnel = this;
var TUNNEL_CONNECT = tunnelURL + '?connect';
var TUNNEL_READ = tunnelURL + '?read:';
var TUNNEL_WRITE = tunnelURL + '?write:';
var POLLING_ENABLED = 1;
var POLLING_DISABLED = 0;
// Default to polling - will be turned off automatically if not needed
var pollingMode = POLLING_ENABLED;
var sendingMessages = false;
var outputMessageBuffer = '';
// If requests are expected to be cross-domain, the cookie that the HTTP
// tunnel depends on will only be sent if withCredentials is true
var withCredentials = !!crossDomain;
/**
* The current receive timeout ID, if any.
*
* @private
* @type {number}
*/
var receive_timeout = null;
/**
* The current connection stability timeout ID, if any.
*
* @private
* @type {number}
*/
var unstableTimeout = null;
/**
* The current connection stability test ping interval ID, if any. This
* will only be set upon successful connection.
*
* @private
* @type {number}
*/
var pingInterval = null;
/**
* The number of milliseconds to wait between connection stability test
* pings.
*
* @private
* @constant
* @type {!number}
*/
var PING_FREQUENCY = 500;
/**
* Additional headers to be sent in tunnel requests. This dictionary can be
* populated with key/value header pairs to pass information such as authentication
* tokens, etc.
*
* @private
* @type {!object}
*/
var extraHeaders = extraTunnelHeaders || {};
/**
* The name of the HTTP header containing the session token specific to the
* HTTP tunnel implementation.
*
* @private
* @constant
* @type {!string}
*/
var TUNNEL_TOKEN_HEADER = 'Guacamole-Tunnel-Token';
/**
* The session token currently assigned to this HTTP tunnel. All distinct
* HTTP tunnel connections will have their own dedicated session token.
*
* @private
* @type {string}
*/
var tunnelSessionToken = null;
/**
* Adds the configured additional headers to the given request.
*
* @private
* @param {!XMLHttpRequest} request
* The request where the configured extra headers will be added.
*
* @param {!object} headers
* The headers to be added to the request.
*/
function addExtraHeaders(request, headers) {
for (var name in headers) {
request.setRequestHeader(name, headers[name]);
}
}
/**
* Resets the state of timers tracking network activity and stability. If
* those timers are not yet started, invoking this function starts them.
* This function should be invoked when the tunnel is established and every
* time there is network activity on the tunnel, such that the timers can
* safely assume the network and/or server are not responding if this
* function has not been invoked for a significant period of time.
*
* @private
*/
var resetTimers = function resetTimers() {
// Get rid of old timeouts (if any)
window.clearTimeout(receive_timeout);
window.clearTimeout(unstableTimeout);
// Clear unstable status
if (tunnel.state === Guacamole.Tunnel.State.UNSTABLE) tunnel.setState(Guacamole.Tunnel.State.OPEN);
// Set new timeout for tracking overall connection timeout
receive_timeout = window.setTimeout(function () {
close_tunnel(new Guacamole.Status(Guacamole.Status.Code.UPSTREAM_TIMEOUT, 'Server timeout.'));
}, tunnel.receiveTimeout);
// Set new timeout for tracking suspected connection instability
unstableTimeout = window.setTimeout(function () {
tunnel.setState(Guacamole.Tunnel.State.UNSTABLE);
}, tunnel.unstableThreshold);
};
/**
* Closes this tunnel, signaling the given status and corresponding
* message, which will be sent to the onerror handler if the status is
* an error status.
*
* @private
* @param {!Guacamole.Status} status
* The status causing the connection to close;
*/
function close_tunnel(status) {
// Get rid of old timeouts (if any)
window.clearTimeout(receive_timeout);
window.clearTimeout(unstableTimeout);
// Cease connection test pings
window.clearInterval(pingInterval);
// Ignore if already closed
if (tunnel.state === Guacamole.Tunnel.State.CLOSED) return;
// If connection closed abnormally, signal error.
if (status.code !== Guacamole.Status.Code.SUCCESS && tunnel.onerror) {
// Ignore RESOURCE_NOT_FOUND if we've already connected, as that
// only signals end-of-stream for the HTTP tunnel.
if (tunnel.state === Guacamole.Tunnel.State.CONNECTING || status.code !== Guacamole.Status.Code.RESOURCE_NOT_FOUND) tunnel.onerror(status);
}
// Reset output message buffer
sendingMessages = false;
// Mark as closed
tunnel.setState(Guacamole.Tunnel.State.CLOSED);
}
this.sendMessage = function () {
// Do not attempt to send messages if not connected
if (!tunnel.isConnected()) return;
// Do not attempt to send empty messages
if (arguments.length === 0) return;
/**
* Converts the given value to a length/string pair for use as an
* element in a Guacamole instruction.
*
* @private
* @param value
* The value to convert.
*
* @return {!string}
* The converted value.
*/
function getElement(value) {
var string = new String(value);
return string.length + '.' + string;
}
// Initialized message with first element
var message = getElement(arguments[0]);
// Append remaining elements
for (var i = 1; i < arguments.length; i++) message += ',' + getElement(arguments[i]);
// Final terminator
message += ';';
// Add message to buffer
outputMessageBuffer += message;
// Send if not currently sending
if (!sendingMessages) sendPendingMessages();
};
function sendPendingMessages() {
// Do not attempt to send messages if not connected
if (!tunnel.isConnected()) return;
if (outputMessageBuffer.length > 0) {
sendingMessages = true;
var message_xmlhttprequest = new XMLHttpRequest();
message_xmlhttprequest.open('POST', TUNNEL_WRITE + tunnel.uuid);
message_xmlhttprequest.withCredentials = withCredentials;
addExtraHeaders(message_xmlhttprequest, extraHeaders);
message_xmlhttprequest.setRequestHeader('Content-type', 'application/octet-stream');
message_xmlhttprequest.setRequestHeader(TUNNEL_TOKEN_HEADER, tunnelSessionToken);
// Once response received, send next queued event.
message_xmlhttprequest.onreadystatechange = function () {
if (message_xmlhttprequest.readyState === 4) {
resetTimers();
// If an error occurs during send, handle it
if (message_xmlhttprequest.status !== 200) handleHTTPTunnelError(message_xmlhttprequest);
// Otherwise, continue the send loop
else sendPendingMessages();
}
};
message_xmlhttprequest.send(outputMessageBuffer);
outputMessageBuffer = ''; // Clear buffer
} else sendingMessages = false;
}
function handleHTTPTunnelError(xmlhttprequest) {
// Pull status code directly from headers provided by Guacamole
var code = parseInt(xmlhttprequest.getResponseHeader('Guacamole-Status-Code'));
if (code) {
var message = xmlhttprequest.getResponseHeader('Guacamole-Error-Message');
close_tunnel(new Guacamole.Status(code, message));
}
// Failing that, derive a Guacamole status code from the HTTP status
// code provided by the browser
else if (xmlhttprequest.status)
close_tunnel(new Guacamole.Status(Guacamole.Status.Code.fromHTTPCode(xmlhttprequest.status), xmlhttprequest.statusText));
// Otherwise, assume server is unreachable
else close_tunnel(new Guacamole.Status(Guacamole.Status.Code.UPSTREAM_NOT_FOUND));
}
function handleResponse(xmlhttprequest) {
var interval = null;
var nextRequest = null;
var dataUpdateEvents = 0;
// The location of the last element's terminator
var elementEnd = -1;
// Where to start the next length search or the next element
var startIndex = 0;
// Parsed elements
var elements = new Array();
function parseResponse() {
// Do not handle responses if not connected
if (!tunnel.isConnected()) {
// Clean up interval if polling
if (interval !== null) clearInterval(interval);
return;
}
// Do not parse response yet if not ready
if (xmlhttprequest.readyState < 2) return;
// Attempt to read status
var status;
try {
status = xmlhttprequest.status;
} catch (e) {
// If status could not be read, assume successful.
status = 200;
}
// Start next request as soon as possible IF request was successful
if (!nextRequest && status === 200) nextRequest = makeRequest();
// Parse stream when data is received and when complete.
if (xmlhttprequest.readyState === 3 || xmlhttprequest.readyState === 4) {
resetTimers();
// Also poll every 30ms (some browsers don't repeatedly call onreadystatechange for new data)
if (pollingMode === POLLING_ENABLED) {
if (xmlhttprequest.readyState === 3 && !interval) interval = setInterval(parseResponse, 30);
else if (xmlhttprequest.readyState === 4 && interval) clearInterval(interval);
}
// If canceled, stop transfer
if (xmlhttprequest.status === 0) {
tunnel.disconnect();
return;
}
// Halt on error during request
else if (xmlhttprequest.status !== 200) {
handleHTTPTunnelError(xmlhttprequest);
return;
}
// Attempt to read in-progress data
var current;
try {
current = xmlhttprequest.responseText;
} catch (e) {
// Do not attempt to parse if data could not be read
return;
}
// While search is within currently received data
while (elementEnd < current.length) {
// If we are waiting for element data
if (elementEnd >= startIndex) {
// We now have enough data for the element. Parse.
var element = current.substring(startIndex, elementEnd);
var terminator = current.substring(elementEnd, elementEnd + 1);
// Add element to array
elements.push(element);
// If last element, handle instruction
if (terminator === ';') {
// Get opcode
var opcode = elements.shift();
// Call instruction handler.
if (tunnel.oninstruction) tunnel.oninstruction(opcode, elements);
// Clear elements
elements.length = 0;
}
// Start searching for length at character after
// element terminator
startIndex = elementEnd + 1;
}
// Search for end of length
var lengthEnd = current.indexOf('.', startIndex);
if (lengthEnd !== -1) {
// Parse length
var length = parseInt(current.substring(elementEnd + 1, lengthEnd));
// If we're done parsing, handle the next response.
if (length === 0) {
// Clean up interval if polling
if (interval) clearInterval(interval);
// Clean up object
xmlhttprequest.onreadystatechange = null;
xmlhttprequest.abort();
// Start handling next request
if (nextRequest) handleResponse(nextRequest);
// Done parsing
break;
}
// Calculate start of element
startIndex = lengthEnd + 1;
// Calculate location of element terminator
elementEnd = startIndex + length;
}
// If no period yet, continue search when more data
// is received
else {
startIndex = current.length;
break;
}
} // end parse loop
}
}
// If response polling enabled, attempt to detect if still
// necessary (via wrapping parseResponse())
if (pollingMode === POLLING_ENABLED) {
xmlhttprequest.onreadystatechange = function () {
// If we receive two or more readyState==3 events,
// there is no need to poll.
if (xmlhttprequest.readyState === 3) {
dataUpdateEvents++;
if (dataUpdateEvents >= 2) {
pollingMode = POLLING_DISABLED;
xmlhttprequest.onreadystatechange = parseResponse;
}
}
parseResponse();
};
}
// Otherwise, just parse
else xmlhttprequest.onreadystatechange = parseResponse;
parseResponse();
}
/**
* Arbitrary integer, unique for each tunnel read request.
* @private
*/
var request_id = 0;
function makeRequest() {
// Make request, increment request ID
var xmlhttprequest = new XMLHttpRequest();
xmlhttprequest.open('GET', TUNNEL_READ + tunnel.uuid + ':' + request_id++);
xmlhttprequest.setRequestHeader(TUNNEL_TOKEN_HEADER, tunnelSessionToken);
xmlhttprequest.withCredentials = withCredentials;
addExtraHeaders(xmlhttprequest, extraHeaders);
xmlhttprequest.send(null);
return xmlhttprequest;
}
this.connect = function (data) {
// Start waiting for connect
resetTimers();
// Mark the tunnel as connecting
tunnel.setState(Guacamole.Tunnel.State.CONNECTING);
// Start tunnel and connect
var connect_xmlhttprequest = new XMLHttpRequest();
connect_xmlhttprequest.onreadystatechange = function () {
if (connect_xmlhttprequest.readyState !== 4) return;
// If failure, throw error
if (connect_xmlhttprequest.status !== 200) {
handleHTTPTunnelError(connect_xmlhttprequest);
return;
}
resetTimers();
// Get UUID and HTTP-specific tunnel session token from response
tunnel.setUUID(connect_xmlhttprequest.responseText);
tunnelSessionToken = connect_xmlhttprequest.getResponseHeader(TUNNEL_TOKEN_HEADER);
// Fail connect attempt if token is not successfully assigned
if (!tunnelSessionToken) {
close_tunnel(new Guacamole.Status(Guacamole.Status.Code.UPSTREAM_NOT_FOUND));
return;
}
// Mark as open
tunnel.setState(Guacamole.Tunnel.State.OPEN);
// Ping tunnel endpoint regularly to test connection stability
pingInterval = setInterval(function sendPing() {
tunnel.sendMessage('nop');
}, PING_FREQUENCY);
// Start reading data
handleResponse(makeRequest());
};
connect_xmlhttprequest.open('POST', TUNNEL_CONNECT, true);
connect_xmlhttprequest.withCredentials = withCredentials;
addExtraHeaders(connect_xmlhttprequest, extraHeaders);
connect_xmlhttprequest.setRequestHeader('Content-type', 'application/x-www-form-urlencoded; charset=UTF-8');
connect_xmlhttprequest.send(data);
};
this.disconnect = function () {
close_tunnel(new Guacamole.Status(Guacamole.Status.Code.SUCCESS, 'Manually closed.'));
};
};
Guacamole.HTTPTunnel.prototype = new Guacamole.Tunnel();
/**
* Guacamole Tunnel implemented over WebSocket via XMLHttpRequest.
*
* @constructor
* @augments Guacamole.Tunnel
* @param {!string} tunnelURL
* The URL of the WebSocket tunneling service.
*/
Guacamole.WebSocketTunnel = function (tunnelURL) {
/**
* Reference to this WebSocket tunnel.
*
* @private
* @type {Guacamole.WebSocketTunnel}
*/
var tunnel = this;
/**
* The WebSocket used by this tunnel.
*
* @private
* @type {WebSocket}
*/
var socket = null;
/**
* The current receive timeout ID, if any.
*
* @private
* @type {number}
*/
var receive_timeout = null;
/**
* The current connection stability timeout ID, if any.
*
* @private
* @type {number}
*/
var unstableTimeout = null;
/**
* The current connection stability test ping timeout ID, if any. This
* will only be set upon successful connection.
*
* @private
* @type {number}
*/
var pingTimeout = null;
/**
* The WebSocket protocol corresponding to the protocol used for the current
* location.
*
* @private
* @type {!Object.<string, string>}
*/
var ws_protocol = {
'http:': 'ws:',
'https:': 'wss:',
};
/**
* The number of milliseconds to wait between connection stability test
* pings.
*
* @private
* @constant
* @type {!number}
*/
var PING_FREQUENCY = 500;
/**
* The timestamp of the point in time that the last connection stability
* test ping was sent, in milliseconds elapsed since midnight of January 1,
* 1970 UTC.
*
* @private
* @type {!number}
*/
var lastSentPing = 0;
// Transform current URL to WebSocket URL
// If not already a websocket URL
if (tunnelURL.substring(0, 3) !== 'ws:' && tunnelURL.substring(0, 4) !== 'wss:') {
var protocol = ws_protocol[window.location.protocol];
// If absolute URL, convert to absolute WS URL
if (tunnelURL.substring(0, 1) === '/') tunnelURL = protocol + '//' + window.location.host + tunnelURL;
// Otherwise, construct absolute from relative URL
else {
// Get path from pathname
var slash = window.location.pathname.lastIndexOf('/');
var path = window.location.pathname.substring(0, slash + 1);
// Construct absolute URL
tunnelURL = protocol + '//' + window.location.host + path + tunnelURL;
}
}
/**
* Sends an internal "ping" instruction to the Guacamole WebSocket
* endpoint, verifying network connection stability. If the network is
* stable, the Guacamole server will receive this instruction and respond
* with an identical ping.
*
* @private
*/
var sendPing = function sendPing() {
var currentTime = new Date().getTime();
tunnel.sendMessage(Guacamole.Tunnel.INTERNAL_DATA_OPCODE, 'ping', currentTime);
lastSentPing = currentTime;
};
/**
* Resets the state of timers tracking network activity and stability. If
* those timers are not yet started, invoking this function starts them.
* This function should be invoked when the tunnel is established and every
* time there is network activity on the tunnel, such that the timers can
* safely assume the network and/or server are not responding if this
* function has not been invoked for a significant period of time.
*
* @private
*/
var resetTimers = function resetTimers() {
// Get rid of old timeouts (if any)
window.clearTimeout(receive_timeout);
window.clearTimeout(unstableTimeout);
window.clearTimeout(pingTimeout);
// Clear unstable status
if (tunnel.state === Guacamole.Tunnel.State.UNSTABLE) tunnel.setState(Guacamole.Tunnel.State.OPEN);
// Set new timeout for tracking overall connection timeout
receive_timeout = window.setTimeout(function () {
close_tunnel(new Guacamole.Status(Guacamole.Status.Code.UPSTREAM_TIMEOUT, 'Server timeout.'));
}, tunnel.receiveTimeout);
// Set new timeout for tracking suspected connection instability
unstableTimeout = window.setTimeout(function () {
tunnel.setState(Guacamole.Tunnel.State.UNSTABLE);
}, tunnel.unstableThreshold);
var currentTime = new Date().getTime();
var pingDelay = Math.max(lastSentPing + PING_FREQUENCY - currentTime, 0);
// Ping tunnel endpoint regularly to test connection stability, sending
// the ping immediately if enough time has already elapsed
if (pingDelay > 0) pingTimeout = window.setTimeout(sendPing, pingDelay);
else sendPing();
};
/**
* Closes this tunnel, signaling the given status and corresponding
* message, which will be sent to the onerror handler if the status is
* an error status.
*
* @private
* @param {!Guacamole.Status} status
* The status causing the connection to close;
*/
function close_tunnel(status) {
// Get rid of old timeouts (if any)
window.clearTimeout(receive_timeout);
window.clearTimeout(unstableTimeout);
window.clearTimeout(pingTimeout);
// Ignore if already closed
if (tunnel.state === Guacamole.Tunnel.State.CLOSED) return;
// If connection closed abnormally, signal error.
if (status.code !== Guacamole.Status.Code.SUCCESS && tunnel.onerror) tunnel.onerror(status);
// Mark as closed
tunnel.setState(Guacamole.Tunnel.State.CLOSED);
socket.close();
}
this.sendMessage = function (elements) {
// Do not attempt to send messages if not connected
if (!tunnel.isConnected()) return;
// Do not attempt to send empty messages
if (arguments.length === 0) return;
/**
* Converts the given value to a length/string pair for use as an
* element in a Guacamole instruction.
*
* @private
* @param {*} value
* The value to convert.
*
* @return {!string}
* The converted value.
*/
function getElement(value) {
var string = new String(value);
return string.length + '.' + string;
}
// Initialized message with first element
var message = getElement(arguments[0]);
// Append remaining elements
for (var i = 1; i < arguments.length; i++) message += ',' + getElement(arguments[i]);
// Final terminator
message += ';';
socket.send(message);
};
this.connect = function (data) {
resetTimers();
// Mark the tunnel as connecting
tunnel.setState(Guacamole.Tunnel.State.CONNECTING);
// Connect socket
socket = new WebSocket(tunnelURL + '?' + data);
socket.onopen = function (event) {
resetTimers();
};
socket.onclose = function (event) {
// Pull status code directly from closure reason provided by Guacamole
if (event.reason) close_tunnel(new Guacamole.Status(parseInt(event.reason), event.reason));
// Failing that, derive a Guacamole status code from the WebSocket
// status code provided by the browser
else if (event.code) close_tunnel(new Guacamole.Status(Guacamole.Status.Code.fromWebSocketCode(event.code)));
// Otherwise, assume server is unreachable
else close_tunnel(new Guacamole.Status(Guacamole.Status.Code.UPSTREAM_NOT_FOUND));
};
socket.onmessage = function (event) {
resetTimers();
var message = event.data;
var startIndex = 0;
var elementEnd;
var elements = [];
do {
// Search for end of length
var lengthEnd = message.indexOf('.', startIndex);
if (lengthEnd !== -1) {
// Parse length
var length = parseInt(message.substring(elementEnd + 1, lengthEnd));
// Calculate start of element
startIndex = lengthEnd + 1;
// Calculate location of element terminator
elementEnd = startIndex + length;
}
// If no period, incomplete instruction.
else close_tunnel(new Guacamole.Status(Guacamole.Status.Code.SERVER_ERROR, 'Incomplete instruction.'));
// We now have enough data for the element. Parse.
var element = message.substring(startIndex, elementEnd);
var terminator = message.substring(elementEnd, elementEnd + 1);
// Add element to array
elements.push(element);
// If last element, handle instruction
if (terminator === ';') {
// Get opcode
var opcode = elements.shift();
// Update state and UUID when first instruction received
if (tunnel.uuid === null) {
// Associate tunnel UUID if received
if (opcode === Guacamole.Tunnel.INTERNAL_DATA_OPCODE && elements.length === 1) tunnel.setUUID(elements[0]);
// Tunnel is now open and UUID is available
tunnel.setState(Guacamole.Tunnel.State.OPEN);
}
// Call instruction handler.
if (opcode !== Guacamole.Tunnel.INTERNAL_DATA_OPCODE && tunnel.oninstruction) tunnel.oninstruction(opcode, elements);
// Clear elements
elements.length = 0;
}
// Start searching for length at character after
// element terminator
startIndex = elementEnd + 1;
} while (startIndex < message.length);
};
};
this.disconnect = function () {
close_tunnel(new Guacamole.Status(Guacamole.Status.Code.SUCCESS, 'Manually closed.'));
};
};
Guacamole.WebSocketTunnel.prototype = new Guacamole.Tunnel();
/**
* Guacamole Tunnel which cycles between all specified tunnels until
* no tunnels are left. Another tunnel is used if an error occurs but
* no instructions have been received. If an instruction has been
* received, or no tunnels remain, the error is passed directly out
* through the onerror handler (if defined).
*
* @constructor
* @augments Guacamole.Tunnel
* @param {...Guacamole.Tunnel} tunnelChain
* The tunnels to use, in order of priority.
*/
Guacamole.ChainedTunnel = function (tunnelChain) {
/**
* Reference to this chained tunnel.
* @private
*/
var chained_tunnel = this;
/**
* Data passed in via connect(), to be used for
* wrapped calls to other tunnels' connect() functions.
* @private
*/
var connect_data;
/**
* Array of all tunnels passed to this ChainedTunnel through the
* constructor arguments.
* @private
*/
var tunnels = [];
/**
* The tunnel committed via commit_tunnel(), if any, or null if no tunnel
* has yet been committed.
*
* @private
* @type {Guacamole.Tunnel}
*/
var committedTunnel = null;
// Load all tunnels into array
for (var i = 0; i < arguments.length; i++) tunnels.push(arguments[i]);
/**
* Sets the current tunnel.
*
* @private
* @param {!Guacamole.Tunnel} tunnel
* The tunnel to set as the current tunnel.
*/
function attach(tunnel) {
// Set own functions to tunnel's functions
chained_tunnel.disconnect = tunnel.disconnect;
chained_tunnel.sendMessage = tunnel.sendMessage;
/**
* Fails the currently-attached tunnel, attaching a new tunnel if
* possible.
*
* @private
* @param {Guacamole.Status} [status]
* An object representing the failure that occured in the
* currently-attached tunnel, if known.
*
* @return {Guacamole.Tunnel}
* The next tunnel, or null if there are no more tunnels to try or
* if no more tunnels should be tried.
*/
var failTunnel = function failTunnel(status) {
// Do not attempt to continue using next tunnel on server timeout
if (status && status.code === Guacamole.Status.Code.UPSTREAM_TIMEOUT) {
tunnels = [];
return null;
}
// Get next tunnel
var next_tunnel = tunnels.shift();
// If there IS a next tunnel, try using it.
if (next_tunnel) {
tunnel.onerror = null;
tunnel.oninstruction = null;
tunnel.onstatechange = null;
attach(next_tunnel);
}
return next_tunnel;
};
/**
* Use the current tunnel from this point forward. Do not try any more
* tunnels, even if the current tunnel fails.
*
* @private
*/
function commit_tunnel() {
tunnel.onstatechange = chained_tunnel.onstatechange;
tunnel.oninstruction = chained_tunnel.oninstruction;
tunnel.onerror = chained_tunnel.onerror;
// Assign UUID if already known
if (tunnel.uuid) chained_tunnel.setUUID(tunnel.uuid);
// Assign any future received UUIDs such that they are
// accessible from the main uuid property of the chained tunnel
tunnel.onuuid = function uuidReceived(uuid) {
chained_tunnel.setUUID(uuid);
};
committedTunnel = tunnel;
}
// Wrap own onstatechange within current tunnel
tunnel.onstatechange = function (state) {
switch (state) {
// If open, use this tunnel from this point forward.
case Guacamole.Tunnel.State.OPEN:
commit_tunnel();
if (chained_tunnel.onstatechange) chained_tunnel.onstatechange(state);
break;
// If closed, mark failure, attempt next tunnel
case Guacamole.Tunnel.State.CLOSED:
if (!failTunnel() && chained_tunnel.onstatechange) chained_tunnel.onstatechange(state);
break;
}
};
// Wrap own oninstruction within current tunnel
tunnel.oninstruction = function (opcode, elements) {
// Accept current tunnel
commit_tunnel();
// Invoke handler
if (chained_tunnel.oninstruction) chained_tunnel.oninstruction(opcode, elements);
};
// Attach next tunnel on error
tunnel.onerror = function (status) {
// Mark failure, attempt next tunnel
if (!failTunnel(status) && chained_tunnel.onerror) chained_tunnel.onerror(status);
};
// Attempt connection
tunnel.connect(connect_data);
}
this.connect = function (data) {
// Remember connect data
connect_data = data;
// Get committed tunnel if exists or the first tunnel on the list
var next_tunnel = committedTunnel ? committedTunnel : tunnels.shift();
// Attach first tunnel
if (next_tunnel) attach(next_tunnel);
// If there IS no first tunnel, error
else if (chained_tunnel.onerror) chained_tunnel.onerror(Guacamole.Status.Code.SERVER_ERROR, 'No tunnels to try.');
};
};
Guacamole.ChainedTunnel.prototype = new Guacamole.Tunnel();
/**
* Guacamole Tunnel which replays a Guacamole protocol dump from a static file
* received via HTTP. Instructions within the file are parsed and handled as
* quickly as possible, while the file is being downloaded.
*
* @constructor
* @augments Guacamole.Tunnel
* @param {!string} url
* The URL of a Guacamole protocol dump.
*
* @param {boolean} [crossDomain=false]
* Whether tunnel requests will be cross-domain, and thus must use CORS
* mechanisms and headers. By default, it is assumed that tunnel requests
* will be made to the same domain.
*
* @param {object} [extraTunnelHeaders={}]
* Key value pairs containing the header names and values of any additional
* headers to be sent in tunnel requests. By default, no extra headers will
* be added.
*/
Guacamole.StaticHTTPTunnel = function StaticHTTPTunnel(url, crossDomain, extraTunnelHeaders) {
/**
* Reference to this Guacamole.StaticHTTPTunnel.
*
* @private
*/
var tunnel = this;
/**
* AbortController instance which allows the current, in-progress HTTP
* request to be aborted. If no request is currently in progress, this will
* be null.
*
* @private
* @type {AbortController}
*/
var abortController = null;
/**
* Additional headers to be sent in tunnel requests. This dictionary can be
* populated with key/value header pairs to pass information such as authentication
* tokens, etc.
*
* @private
* @type {!object}
*/
var extraHeaders = extraTunnelHeaders || {};
/**
* The number of bytes in the file being downloaded, or null if this is not
* known.
*
* @type {number}
*/
this.size = null;
this.sendMessage = function sendMessage(elements) {
// Do nothing
};
this.connect = function connect(data) {
// Ensure any existing connection is killed
tunnel.disconnect();
// Connection is now starting
tunnel.setState(Guacamole.Tunnel.State.CONNECTING);
// Create Guacamole protocol and UTF-8 parsers specifically for this
// connection
var parser = new Guacamole.Parser();
var utf8Parser = new Guacamole.UTF8Parser();
// Invoke tunnel's oninstruction handler for each parsed instruction
parser.oninstruction = function instructionReceived(opcode, args) {
if (tunnel.oninstruction) tunnel.oninstruction(opcode, args);
};
// Allow new request to be aborted
abortController = new AbortController();
// Stream using the Fetch API
fetch(url, {
headers: extraHeaders,
credentials: crossDomain ? 'include' : 'same-origin',
signal: abortController.signal,
}).then(function gotResponse(response) {
// Reset state and close upon error
if (!response.ok) {
if (tunnel.onerror) tunnel.onerror(new Guacamole.Status(Guacamole.Status.Code.fromHTTPCode(response.status), response.statusText));
tunnel.disconnect();
return;
}
// Report overall size of stream in bytes, if known
tunnel.size = response.headers.get('Content-Length');
// Connection is open
tunnel.setState(Guacamole.Tunnel.State.OPEN);
var reader = response.body.getReader();
var processReceivedText = function processReceivedText(result) {
// Clean up and close when done
if (result.done) {
tunnel.disconnect();
return;
}
// Parse only the portion of data which is newly received
parser.receive(utf8Parser.decode(result.value));
// Continue parsing when next chunk is received
reader.read().then(processReceivedText);
};
// Schedule parse of first chunk
reader.read().then(processReceivedText);
});
};
this.disconnect = function disconnect() {
// Abort any in-progress request
if (abortController) {
abortController.abort();
abortController = null;
}
// Connection is now closed
tunnel.setState(Guacamole.Tunnel.State.CLOSED);
};
};
Guacamole.StaticHTTPTunnel.prototype = new Guacamole.Tunnel();
/**
* Parser that decodes UTF-8 text from a series of provided ArrayBuffers.
* Multi-byte characters that continue from one buffer to the next are handled
* correctly.
*
* @constructor
*/
Guacamole.UTF8Parser = function UTF8Parser() {
/**
* The number of bytes remaining for the current codepoint.
*
* @private
* @type {!number}
*/
var bytesRemaining = 0;
/**
* The current codepoint value, as calculated from bytes read so far.
*
* @private
* @type {!number}
*/
var codepoint = 0;
/**
* Decodes the given UTF-8 data into a Unicode string, returning a string
* containing all complete UTF-8 characters within the provided data. The
* data may end in the middle of a multi-byte character, in which case the
* complete character will be returned from a later call to decode() after
* enough bytes have been provided.
*
* @private
* @param {!ArrayBuffer} buffer
* Arbitrary UTF-8 data.
*
* @return {!string}
* The decoded Unicode string.
*/
this.decode = function decode(buffer) {
var text = '';
var bytes = new Uint8Array(buffer);
for (var i = 0; i < bytes.length; i++) {
// Get current byte
var value = bytes[i];
// Start new codepoint if nothing yet read
if (bytesRemaining === 0) {
// 1 byte (0xxxxxxx)
if ((value | 0x7f) === 0x7f) text += String.fromCharCode(value);
// 2 byte (110xxxxx)
else if ((value | 0x1f) === 0xdf) {
codepoint = value & 0x1f;
bytesRemaining = 1;
}
// 3 byte (1110xxxx)
else if ((value | 0x0f) === 0xef) {
codepoint = value & 0x0f;
bytesRemaining = 2;
}
// 4 byte (11110xxx)
else if ((value | 0x07) === 0xf7) {
codepoint = value & 0x07;
bytesRemaining = 3;
}
// Invalid byte
else text += '\uFFFD';
}
// Continue existing codepoint (10xxxxxx)
else if ((value | 0x3f) === 0xbf) {
codepoint = (codepoint << 6) | (value & 0x3f);
bytesRemaining--;
// Write codepoint if finished
if (bytesRemaining === 0) text += String.fromCharCode(codepoint);
}
// Invalid byte
else {
bytesRemaining = 0;
text += '\uFFFD';
}
}
return text;
};
};
/**
* The unique ID of this version of the Guacamole JavaScript API. This ID will
* be the version string of the guacamole-common-js Maven project, and can be
* used in downstream applications as a sanity check that the proper version
* of the APIs is being used (in case an older version is cached, for example).
*
* @type {!string}
*/
Guacamole.API_VERSION = '1.5.0';
/**
* Abstract video player which accepts, queues and plays back arbitrary video
* data. It is up to implementations of this class to provide some means of
* handling a provided Guacamole.InputStream and rendering the received data to
* the provided Guacamole.Display.VisibleLayer. Data received along the
* provided stream is to be played back immediately.
*
* @constructor
*/
Guacamole.VideoPlayer = function VideoPlayer() {
/**
* Notifies this Guacamole.VideoPlayer that all video up to the current
* point in time has been given via the underlying stream, and that any
* difference in time between queued video data and the current time can be
* considered latency.
*/
this.sync = function sync() {
// Default implementation - do nothing
};
};
/**
* Determines whether the given mimetype is supported by any built-in
* implementation of Guacamole.VideoPlayer, and thus will be properly handled
* by Guacamole.VideoPlayer.getInstance().
*
* @param {!string} mimetype
* The mimetype to check.
*
* @returns {!boolean}
* true if the given mimetype is supported by any built-in
* Guacamole.VideoPlayer, false otherwise.
*/
Guacamole.VideoPlayer.isSupportedType = function isSupportedType(mimetype) {
// There are currently no built-in video players (and therefore no
// supported types)
return false;
};
/**
* Returns a list of all mimetypes supported by any built-in
* Guacamole.VideoPlayer, in rough order of priority. Beware that only the core
* mimetypes themselves will be listed. Any mimetype parameters, even required
* ones, will not be included in the list.
*
* @returns {!string[]}
* A list of all mimetypes supported by any built-in Guacamole.VideoPlayer,
* excluding any parameters.
*/
Guacamole.VideoPlayer.getSupportedTypes = function getSupportedTypes() {
// There are currently no built-in video players (and therefore no
// supported types)
return [];
};
/**
* Returns an instance of Guacamole.VideoPlayer providing support for the given
* video format. If support for the given video format is not available, null
* is returned.
*
* @param {!Guacamole.InputStream} stream
* The Guacamole.InputStream to read video data from.
*
* @param {!Guacamole.Display.VisibleLayer} layer
* The destination layer in which this Guacamole.VideoPlayer should play
* the received video data.
*
* @param {!string} mimetype
* The mimetype of the video data in the provided stream.
*
* @return {Guacamole.VideoPlayer}
* A Guacamole.VideoPlayer instance supporting the given mimetype and
* reading from the given stream, or null if support for the given mimetype
* is absent.
*/
Guacamole.VideoPlayer.getInstance = function getInstance(stream, layer, mimetype) {
// There are currently no built-in video players
return null;
};
export default Guacamole;
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