/*! @license
* Shaka Player
* Copyright 2016 Google LLC
* SPDX-License-Identifier: Apache-2.0
*/
goog.provide('shaka.cast.CastUtils');
goog.require('shaka.media.TimeRangesUtils');
goog.require('shaka.util.FakeEvent');
/**
* @summary A set of cast utility functions and variables shared between sender
* and receiver.
*/
shaka.cast.CastUtils = class {
/**
* Serialize as JSON, but specially encode things JSON will not otherwise
* represent.
* @param {?} thing
* @return {string}
*/
static serialize(thing) {
return JSON.stringify(thing, (key, value) => {
if (typeof value == 'function') {
// Functions can't be (safely) serialized.
return undefined;
}
if (value instanceof Event || value instanceof shaka.util.FakeEvent) {
// Events don't serialize to JSON well because of the DOM objects
// and other complex objects they contain, so we strip these out.
// Note that using Object.keys or JSON.stringify directly on the event
// will not capture its properties. We must use a for loop.
const simpleEvent = {};
for (const eventKey in value) {
const eventValue = value[eventKey];
if (eventValue && typeof eventValue == 'object') {
if (eventKey == 'detail') {
// Keep the detail value, because it contains important
// information for diagnosing errors.
simpleEvent[eventKey] = eventValue;
}
// Strip out non-null object types because they are complex and we
// don't need them.
} else if (eventKey in Event) {
// Strip out keys that are found on Event itself because they are
// class-level constants we don't need, like Event.MOUSEMOVE == 16.
} else {
simpleEvent[eventKey] = eventValue;
}
}
return simpleEvent;
}
if (value instanceof Error) {
// Errors don't serialize to JSON well, either. TypeError, for example,
// turns in "{}", leading to messages like "Error UNKNOWN.UNKNOWN" when
// deserialized on the sender and displayed in the demo app.
return shaka.cast.CastUtils.unpackError_(value);
}
if (value instanceof TimeRanges) {
// TimeRanges must be unpacked into plain data for serialization.
return shaka.cast.CastUtils.unpackTimeRanges_(value);
}
if (value instanceof Uint8Array) {
// Some of our code cares about Uint8Arrays actually being Uint8Arrays,
// so this gives them special treatment.
return shaka.cast.CastUtils.unpackUint8Array_(value);
}
if (typeof value == 'number') {
// NaN and infinity cannot be represented directly in JSON.
if (isNaN(value)) {
return 'NaN';
}
if (isFinite(value)) {
return value;
}
if (value < 0) {
return '-Infinity';
}
return 'Infinity';
}
return value;
});
}
/**
* Deserialize JSON using our special encodings.
* @param {string} str
* @return {?}
*/
static deserialize(str) {
return JSON.parse(str, (key, value) => {
if (value == 'NaN') {
return NaN;
} else if (value == '-Infinity') {
return -Infinity;
} else if (value == 'Infinity') {
return Infinity;
} else if (value && typeof value == 'object' &&
value['__type__'] == 'TimeRanges') {
// TimeRanges objects have been unpacked and sent as plain data.
// Simulate the original TimeRanges object.
return shaka.cast.CastUtils.simulateTimeRanges_(value);
} else if (value && typeof value == 'object' &&
value['__type__'] == 'Uint8Array') {
return shaka.cast.CastUtils.makeUint8Array_(value);
} else if (value && typeof value == 'object' &&
value['__type__'] == 'Error') {
return shaka.cast.CastUtils.makeError_(value);
}
return value;
});
}
/**
* @param {!TimeRanges} ranges
* @return {!Object}
* @private
*/
static unpackTimeRanges_(ranges) {
const obj = {
'__type__': 'TimeRanges', // a signal to deserialize
'length': ranges.length,
'start': [],
'end': [],
};
const TimeRangesUtils = shaka.media.TimeRangesUtils;
for (const {start, end} of TimeRangesUtils.getBufferedInfo(ranges)) {
obj['start'].push(start);
obj['end'].push(end);
}
return obj;
}
/**
* Creates a simulated TimeRanges object from data sent by the cast receiver.
* @param {?} obj
* @return {{
* length: number,
* start: function(number): number,
* end: function(number): number
* }}
* @private
*/
static simulateTimeRanges_(obj) {
return {
length: obj.length,
// NOTE: a more complete simulation would throw when |i| was out of range,
// but for simplicity we will assume a well-behaved application that uses
// length instead of catch to stop iterating.
start: (i) => { return obj.start[i]; },
end: (i) => { return obj.end[i]; },
};
}
/**
* @param {!Uint8Array} array
* @return {!Object}
* @private
*/
static unpackUint8Array_(array) {
return {
'__type__': 'Uint8Array', // a signal to deserialize
'entries': Array.from(array),
};
}
/**
* Creates a Uint8Array object from data sent by the cast receiver.
* @param {?} obj
* @return {!Uint8Array}
* @private
*/
static makeUint8Array_(obj) {
return new Uint8Array(/** @type {!Array.<number>} */ (obj['entries']));
}
/**
* @param {!Error} error
* @return {!Object}
* @private
*/
static unpackError_(error) {
// None of the properties in TypeError are enumerable, but there are some
// common Error properties we expect. We also enumerate any enumerable
// properties and "own" properties of the type, in case there is an Error
// subtype with additional properties we don't know about in advance.
const properties = new Set(['name', 'message', 'stack']);
for (const key in error) {
properties.add(key);
}
for (const key of Object.getOwnPropertyNames(error)) {
properties.add(key);
}
const contents = {};
for (const key of properties) {
contents[key] = error[key];
}
return {
'__type__': 'Error', // a signal to deserialize
'contents': contents,
};
}
/**
* Creates an Error object from data sent by the cast receiver.
* @param {?} obj
* @return {!Error}
* @private
*/
static makeError_(obj) {
const contents = obj['contents'];
const error = new Error(contents['message']);
for (const key in contents) {
error[key] = contents[key];
}
return error;
}
};
/**
* HTMLMediaElement events that are proxied while casting.
* @const {!Array.<string>}
*/
shaka.cast.CastUtils.VideoEvents = [
'ended',
'play',
'playing',
'pause',
'pausing',
'ratechange',
'seeked',
'seeking',
'timeupdate',
'volumechange',
];
/**
* HTMLMediaElement attributes that are proxied while casting.
* @const {!Array.<string>}
*/
shaka.cast.CastUtils.VideoAttributes = [
'buffered',
'currentTime',
'duration',
'ended',
'loop',
'muted',
'paused',
'playbackRate',
'seeking',
'videoHeight',
'videoWidth',
'volume',
];
/**
* HTMLMediaElement attributes that are transferred when casting begins.
* @const {!Array.<string>}
*/
shaka.cast.CastUtils.VideoInitStateAttributes = [
'loop',
'playbackRate',
];
/**
* HTMLMediaElement methods with no return value that are proxied while casting.
* @const {!Array.<string>}
*/
shaka.cast.CastUtils.VideoVoidMethods = [
'pause',
'play',
];
/**
* Player getter methods that are proxied while casting.
* The key is the method, the value is the frequency of updates.
* Frequency 1 translates to every update; frequency 2 to every 2 updates, etc.
* @const {!Object.<string, number>}
*/
shaka.cast.CastUtils.PlayerGetterMethods = {
// NOTE: The 'drmInfo' property is not proxied, as it is very large.
'getAssetUri': 2,
'getAudioLanguages': 4,
'getAudioLanguagesAndRoles': 4,
'getBufferedInfo': 2,
// NOTE: The 'getSharedConfiguration' property is not proxied as it would
// not be possible to share a reference.
'getConfiguration': 2,
'getExpiration': 2,
// NOTE: The 'getManifest' property is not proxied, as it is very large.
// NOTE: The 'getManifestParserFactory' property is not proxied, as it would
// not serialize.
'getPlaybackRate': 2,
'getTextLanguages': 4,
'getTextLanguagesAndRoles': 4,
'getTextTracks': 2,
'getStats': 5,
'getVariantTracks': 2,
'isAudioOnly': 10,
'isBuffering': 1,
'isInProgress': 1,
'isLive': 10,
'isTextTrackVisible': 1,
'keySystem': 10,
'seekRange': 1,
'getLoadMode': 10,
};
/**
* Player getter methods that are proxied while casting, but only when casting
* a livestream.
* The key is the method, the value is the frequency of updates.
* Frequency 1 translates to every update; frequency 2 to every 2 updates, etc.
* @const {!Object.<string, number>}
*/
shaka.cast.CastUtils.PlayerGetterMethodsThatRequireLive = {
'getPlayheadTimeAsDate': 1,
'getPresentationStartTimeAsDate': 20,
};
/**
* Player getter and setter methods that are used to transfer state when casting
* begins.
* @const {!Array.<!Array.<string>>}
*/
shaka.cast.CastUtils.PlayerInitState = [
['getConfiguration', 'configure'],
];
/**
* Player getter and setter methods that are used to transfer state after
* load() is resolved.
* @const {!Array.<!Array.<string>>}
*/
shaka.cast.CastUtils.PlayerInitAfterLoadState = [
['isTextTrackVisible', 'setTextTrackVisibility'],
];
/**
* Player methods with no return value that are proxied while casting.
* @const {!Array.<string>}
*/
shaka.cast.CastUtils.PlayerVoidMethods = [
'addTextTrack',
'cancelTrickPlay',
'configure',
'resetConfiguration',
'retryStreaming',
'selectAudioLanguage',
'selectTextLanguage',
'selectTextTrack',
'selectVariantTrack',
'selectVariantsByLabel',
'setTextTrackVisibility',
'trickPlay',
];
/**
* Player methods returning a Promise that are proxied while casting.
* @const {!Array.<string>}
*/
shaka.cast.CastUtils.PlayerPromiseMethods = [
'attach',
'detach',
// The manifestFactory parameter of load is not supported.
'load',
'unload',
];
/**
* @typedef {{
* video: Object,
* player: Object,
* manifest: ?string,
* startTime: ?number
* }}
* @property {Object} video
* Dictionary of video properties to be set.
* @property {Object} player
* Dictionary of player setters to be called.
* @property {?string} manifest
* The currently-selected manifest, if present.
* @property {?number} startTime
* The playback start time, if currently playing.
*/
shaka.cast.CastUtils.InitStateType;
/**
* The namespace for Shaka messages on the cast bus.
* @const {string}
*/
shaka.cast.CastUtils.SHAKA_MESSAGE_NAMESPACE = 'urn:x-cast:com.google.shaka.v2';
/**
* The namespace for generic messages on the cast bus.
* @const {string}
*/
shaka.cast.CastUtils.GENERIC_MESSAGE_NAMESPACE =
'urn:x-cast:com.google.cast.media';