Skip to content

SDK / exoplayer

Go to a project
Commit 7798c07f by olly Committed by Oliver Woodman
Options

Remove ExoCast 

PiperOrigin-RevId: 255964199
parent 04959ec6
Inline Side-by-side
Showing with 397 additions and 13771 deletions
cast_receiver_app/BUILD deleted 100644 → 0
# Copyright (C) 2019 The Android Open Source Project
#
# Licensed 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.
load("@io_bazel_rules_closure//closure:defs.bzl", "closure_js_library")
load("@io_bazel_rules_closure//closure:defs.bzl", "closure_js_binary")
load("@io_bazel_rules_closure//closure:defs.bzl", "closure_js_test")
load("@io_bazel_rules_closure//closure:defs.bzl", "closure_css_library")
load("@io_bazel_rules_closure//closure:defs.bzl", "closure_css_binary")
licenses(["notice"]) # Apache 2.0
# The Shaka player library - 2.5.0-beta2 (needs to be cloned from Github).
closure_js_library(
name = "shaka_player_library",
srcs = glob(
[
"external-js/shaka-player/lib/**/*.js",
"external-js/shaka-player/externs/**/*.js",
],
exclude = [
"external-js/shaka-player/lib/debug/asserts.js",
"external-js/shaka-player/externs/mediakeys.js",
"external-js/shaka-player/externs/networkinformation.js",
"external-js/shaka-player/externs/vtt_region.js",
],
),
suppress = [
"strictMissingRequire",
"missingSourcesWarnings",
"analyzerChecks",
"strictCheckTypes",
"checkTypes",
],
deps = [
"@io_bazel_rules_closure//closure/library",
],
)
# The plain player not depending on the cast library.
closure_js_library(
name = "player_lib",
srcs = [
"externs/protocol.js",
"src/configuration_factory.js",
"src/constants.js",
"src/playback_info_view.js",
"src/player.js",
"src/timeout.js",
"src/util.js",
],
suppress = [
"missingSourcesWarnings",
"analyzerChecks",
"strictCheckTypes",
],
deps = [
":shaka_player_library",
"@io_bazel_rules_closure//closure/library",
],
)
# A debug app to test the player with a desktop browser.
closure_js_library(
name = "app_desktop_lib",
srcs = [
"app-desktop/src/main.js",
"app-desktop/src/player_controls.js",
"app-desktop/src/samples.js",
"externs/shaka.js",
],
suppress = [
"reportUnknownTypes",
"strictCheckTypes",
],
deps = [
":player_lib",
":shaka_player_library",
"@io_bazel_rules_closure//closure/library",
],
)
# Includes the javascript files of the cast receiver app.
closure_js_library(
name = "app_lib",
srcs = [
"app/src/main.js",
"app/src/message_dispatcher.js",
"app/src/receiver.js",
"app/src/validation.js",
"externs/cast.js",
"externs/shaka.js",
],
suppress = [
"missingSourcesWarnings",
"analyzerChecks",
"strictCheckTypes",
],
deps = [
":player_lib",
":shaka_player_library",
"@io_bazel_rules_closure//closure/library",
],
)
# Test utils like mocks.
closure_js_library(
name = "test_util_lib",
testonly = 1,
srcs = [
"externs/protocol.js",
"test/externs.js",
"test/mocks.js",
"test/util.js",
],
suppress = [
"checkTypes",
"strictCheckTypes",
"reportUnknownTypes",
"accessControls",
"analyzerChecks",
"missingSourcesWarnings",
],
deps = [
":shaka_player_library",
"@io_bazel_rules_closure//closure/library",
"@io_bazel_rules_closure//closure/library/testing:jsunit",
],
)
# Unit test for the player.
closure_js_test(
name = "player_tests",
srcs = glob([
"test/player_test.js",
]),
entry_points = [
"exoplayer.cast.test",
],
suppress = [
"checkTypes",
"strictCheckTypes",
"reportUnknownTypes",
"accessControls",
"analyzerChecks",
"missingSourcesWarnings",
],
deps = [
":app_lib",
":player_lib",
":test_util_lib",
"@io_bazel_rules_closure//closure/library/testing:asserts",
"@io_bazel_rules_closure//closure/library/testing:jsunit",
"@io_bazel_rules_closure//closure/library/testing:testsuite",
],
)
# Unit test for the queue in the player.
closure_js_test(
name = "queue_tests",
srcs = glob([
"test/queue_test.js",
]),
entry_points = [
"exoplayer.cast.test.queue",
],
suppress = [
"checkTypes",
"strictCheckTypes",
"reportUnknownTypes",
"accessControls",
"analyzerChecks",
"missingSourcesWarnings",
],
deps = [
":app_lib",
":player_lib",
":test_util_lib",
"@io_bazel_rules_closure//closure/library/testing:asserts",
"@io_bazel_rules_closure//closure/library/testing:jsunit",
"@io_bazel_rules_closure//closure/library/testing:testsuite",
],
)
# Unit test for the receiver.
closure_js_test(
name = "receiver_tests",
srcs = glob([
"test/receiver_test.js",
]),
entry_points = [
"exoplayer.cast.test.receiver",
],
suppress = [
"checkTypes",
"strictCheckTypes",
"reportUnknownTypes",
"accessControls",
"analyzerChecks",
"missingSourcesWarnings",
],
deps = [
":app_lib",
":player_lib",
":test_util_lib",
"@io_bazel_rules_closure//closure/library/testing:asserts",
"@io_bazel_rules_closure//closure/library/testing:jsunit",
"@io_bazel_rules_closure//closure/library/testing:testsuite",
],
)
# Unit test for the validations.
closure_js_test(
name = "validation_tests",
srcs = [
"test/validation_test.js",
],
entry_points = [
"exoplayer.cast.test.validation",
],
suppress = [
"checkTypes",
"strictCheckTypes",
"reportUnknownTypes",
"accessControls",
"analyzerChecks",
"missingSourcesWarnings",
],
deps = [
":app_lib",
":player_lib",
":test_util_lib",
"@io_bazel_rules_closure//closure/library/testing:asserts",
"@io_bazel_rules_closure//closure/library/testing:jsunit",
"@io_bazel_rules_closure//closure/library/testing:testsuite",
],
)
# The receiver app as a compiled binary.
closure_js_binary(
name = "app",
entry_points = [
"exoplayer.cast.app",
"shaka.dash.DashParser",
"shaka.hls.HlsParser",
"shaka.abr.SimpleAbrManager",
"shaka.net.HttpFetchPlugin",
"shaka.net.HttpXHRPlugin",
"shaka.media.AdaptationSetCriteria",
],
deps = [":app_lib"],
)
# The debug app for the player as a compiled binary.
closure_js_binary(
name = "app_desktop",
entry_points = [
"exoplayer.cast.debug",
"exoplayer.cast.samples",
"shaka.dash.DashParser",
"shaka.hls.HlsParser",
"shaka.abr.SimpleAbrManager",
"shaka.net.HttpFetchPlugin",
"shaka.net.HttpXHRPlugin",
"shaka.media.AdaptationSetCriteria",
],
deps = [":app_desktop_lib"],
)
# Defines the css style of the receiver app.
closure_css_library(
name = "app_styles_lib",
srcs = [
"app/html/index.css",
"app/html/playback_info_view.css",
],
)
# Defines the css styles of the debug app.
closure_css_library(
name = "app_desktop_styles_lib",
srcs = [
"app-desktop/html/index.css",
"app/html/playback_info_view.css",
],
)
# Compiles the css styles of the receiver app.
closure_css_binary(
name = "app_styles",
renaming = False,
deps = ["app_styles_lib"],
)
# Compiles the css styles of the debug app.
closure_css_binary(
name = "app_desktop_styles",
renaming = False,
deps = ["app_desktop_styles_lib"],
)
cast_receiver_app/README.md deleted 100644 → 0
# ExoPlayer cast receiver #
An HTML/JavaScript app which runs within a Google cast device and can be loaded
and controller by an Android app which uses the ExoPlayer cast extension
(https://github.com/google/ExoPlayer/tree/release-v2/extensions/cast).
# Build the app #
You can build and deploy the app to your web server and register the url as your
cast receiver app (see: https://developers.google.com/cast/docs/registration).
Building the app compiles JavaScript and CSS files. Dead JavaScript code of the
app itself and their dependencies (like ShakaPlayer) is removed and the
remaining code is minimized.
## Prerequisites ##
1. Install the most recent bazel release (https://bazel.build/) which is at
least 0.22.0.
From within the root of the exo_receiver_app project do the following steps:
2. Clone shaka from GitHub into the directory external-js/shaka-player:
```
# git clone https://github.com/google/shaka-player.git \
external-js/shaka-player
```
## 1. Customize html page and css (optional) ##
(Optional) Edit index.html. **Make sure you do not change the id of the video
element**.
(Optional) Customize main.css.
## 2. Build javascript and css files ##
```
# bazel build ...
```
## 3. Assemble the receiver app ##
```
# WEB_DEPLOY_DIR=www
# mkdir ${WEB_DEPLOY_DIR}
# cp bazel-bin/exo_receiver_app.js ${WEB_DEPLOY_DIR}
# cp bazel-bin/exo_receiver_styles_bin.css ${WEB_DEPLOY_DIR}
# cp html/index.html ${WEB_DEPLOY_DIR}
```
Deploy the content of ${WEB_DEPLOY_DIR} to your web server.
## 4. Assemble the debug app (optional) ##
Debugging the player in a cast device is a little bit cumbersome compared to
debugging in a desktop browser. For this reason there is a debug app which
contains the player parts which are not depending on the cast library in a
traditional HTML app which can be run in a desktop browser.
```
# WEB_DEPLOY_DIR=www
# mkdir ${WEB_DEPLOY_DIR}
# cp bazel-bin/debug_app.js ${WEB_DEPLOY_DIR}
# cp bazel-bin/debug_styles_bin.css ${WEB_DEPLOY_DIR}
# cp html/player.html ${WEB_DEPLOY_DIR}
```
Deploy the content of ${WEB_DEPLOY_DIR} to your web server.
# Unit test
Unit tests can be run by the command
```
# bazel test ...
```
cast_receiver_app/WORKSPACE deleted 100644 → 0
# Copyright (C) 2019 The Android Open Source Project
#
# Licensed 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.
load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive")
http_archive(
name = "com_google_protobuf",
sha256 = "73fdad358857e120fd0fa19e071a96e15c0f23bb25f85d3f7009abfd4f264a2a",
strip_prefix = "protobuf-3.6.1.3",
urls = ["https://github.com/google/protobuf/archive/v3.6.1.3.tar.gz"],
)
http_archive(
name = "io_bazel_rules_closure",
sha256 = "b29a8bc2cb10513c864cb1084d6f38613ef14a143797cea0af0f91cd385f5e8c",
strip_prefix = "rules_closure-0.8.0",
urls = [
"https://mirror.bazel.build/github.com/bazelbuild/rules_closure/archive/0.8.0.tar.gz",
"https://github.com/bazelbuild/rules_closure/archive/0.8.0.tar.gz",
],
)
load("@io_bazel_rules_closure//closure:defs.bzl", "closure_repositories")
closure_repositories(
omit_com_google_protobuf = True,
)
cast_receiver_app/app-desktop/html/index.css deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
html, body, section, video, div, span, ul, li {
border: 0;
box-sizing: border-box;
margin: 0;
padding: 0;
}
body, html {
height: 100%;
overflow: auto;
background-color: #333;
color: #eeeeee;
font-family: Roboto, Arial, sans-serif;
}
body {
padding-top: 24px;
}
.exo_controls {
list-style: none;
padding: 0;
white-space: nowrap;
margin-top: 12px;
}
.exo_controls > li {
display: inline-block;
width: 72px;
}
.exo_controls > .large {
width: 140px;
}
/* an action element to add or remove a media item */
.action {
margin: 4px auto;
max-width: 640px;
}
.action.prepared {
background-color: #AA0000;
}
/** marks whether a given media item is in the queue */
.queue-marker {
background-color: #AA0000;
border-radius: 50%;
border: 1px solid #ffc0c0;
display: none;
float: right;
height: 1em;
margin-top: 1px;
width: 1em;
}
.action[data-uuid] .queue-marker {
display: inline-block;
}
.action.prepared .queue-marker {
background-color: #fff900;
}
.playing .action.prepared .queue-marker {
animation-name: spin;
animation-iteration-count: infinite;
animation-duration: 1.6s;
}
/* A simple button. */
.button {
background-color: #45484d;
border: 1px solid #495267;
border-radius: 3px;
color: #FFFFFF;
cursor: pointer;
font-size: 12px;
font-weight: bold;
padding: 10px 10px 10px 10px;
text-decoration: none;
text-shadow: -1px -1px 0 rgba(0,0,0,0.3);
-webkit-user-select: none;
}
.button:hover {
border: 1px solid #363d4c;
background-color: #2d2f32;
background-image: linear-gradient(to bottom, #2d2f32, #1a1a1a);
}
.ribbon {
background-color: #003a5dc2;
box-shadow: 2px 2px 4px #000;
left: -60px;
height: 3.3em;
padding-top: 7px;
position: absolute;
text-align: center;
top: 27px;
transform: rotateZ(-45deg);
width: 220px;
border: 1px dashed #cacaca;
outline-color: #003a5dc2;
outline-width: 2px;
outline-style: solid;
}
.ribbon a {
color: white;
text-decoration: none;
-webkit-user-select: none;
}
#button_prepare {
left: 0;
position: absolute;
}
#button_stop {
position: absolute;
right: 0;
}
#exo_demo_view {
height: 360px;
margin: auto;
overflow: hidden;
position: relative;
width: 640px;
}
#video {
background-color: #000;
border-radius: 8px;
height: 100%;
margin-bottom: auto;
margin-top: auto;
width: 100%;
}
#exo_controls {
display: none;
margin: auto;
position: relative;
text-align: center;
width: 640px;
}
#media-actions {
margin-top: 12px;
}
@keyframes spin {
from {
transform: rotateX(0deg);
}
to {
transform: rotateX(180deg);
}
}
cast_receiver_app/app-desktop/html/index.html deleted 100644 → 0
<!DOCTYPE html>
<!--
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
-->
<html>
<head>
<link rel="stylesheet" href="app_desktop_styles.css"/>
</head>
<body>
<ul id="log"></ul>
<section id="exo_demo_view">
<video id="video"></video>
<div id="exo_playback_info">
<div id="exo_time_bar">
<div id="exo_duration">
<div id="exo_elapsed_time"></div>
</div>
<span id="exo_elapsed_time_label" class="exo_text_label"></span>
<span id="exo_duration_label" class="exo_text_label"></span>
</div>
</div>
<div class="ribbon">
for debugging<br/>purpose only
</div>
</section>
<section id="exo_controls">
<ul class="exo_controls">
<li id="button_prepare" data-method="prepare" class="button">prepare</li>
<li id="button_previous" class="button" data-method="previous">prev</li>
<li data-method="rewind" class="button">rewind</li>
<li id="button_play" class="large button"
data-method="pwr_1">play</li>
<li id="button_pause" class="large button" data-method="pwr_0">pause</li>
<li data-method="fastforward" class="button">ffwd</li>
<li id="button_next" data-method="next" class="button">next</li>
<li id="button_stop" data-method="stop" class="button">stop</li>
</ul>
</section>
<section id="media-actions">
</section>
<script src="app_desktop.js"></script>
</body>
</html>
cast_receiver_app/app-desktop/src/main.js deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.debug');
const ConfigurationFactory = goog.require('exoplayer.cast.ConfigurationFactory');
const PlaybackInfoView = goog.require('exoplayer.cast.PlaybackInfoView');
const Player = goog.require('exoplayer.cast.Player');
const PlayerControls = goog.require('exoplayer.cast.PlayerControls');
const ShakaPlayer = goog.require('shaka.Player');
const SimpleTextDisplayer = goog.require('shaka.text.SimpleTextDisplayer');
const installAll = goog.require('shaka.polyfill.installAll');
const util = goog.require('exoplayer.cast.util');
/** @type {!Array<!MediaItem>} */
let queue = [];
/** @type {number} */
let uuidCounter = 1;
// install all polyfills for the Shaka player
installAll();
/**
* Listens for player state changes and logs the state to the console.
*
* @param {!PlayerState} playerState The player state.
*/
const playerListener = function(playerState) {
util.log(['playerState: ', playerState.playbackPosition, playerState]);
queue = playerState.mediaQueue;
highlightCurrentItem(
playerState.playbackPosition && playerState.playbackPosition.uuid ?
playerState.playbackPosition.uuid :
'');
if (playerState.playWhenReady && playerState.playbackState === 'READY') {
document.body.classList.add('playing');
} else {
document.body.classList.remove('playing');
}
if (playerState.playbackState === 'IDLE' && queue.length === 0) {
// Stop has been called or player not yet prepared.
resetSampleList();
}
};
/**
* Highlights the currently playing item in the samples list.
*
* @param {string} uuid
*/
const highlightCurrentItem = function(uuid) {
const actions = /** @type {!NodeList<!HTMLElement>} */ (
document.querySelectorAll('#media-actions .action'));
for (let action of actions) {
if (action.dataset['uuid'] === uuid) {
action.classList.add('prepared');
} else {
action.classList.remove('prepared');
}
}
};
/**
* Makes sure all items reflect being removed from the timeline.
*/
const resetSampleList = function() {
const actions = /** @type {!NodeList<!HTMLElement>} */ (
document.querySelectorAll('#media-actions .action'));
for (let action of actions) {
action.classList.remove('prepared');
delete action.dataset['uuid'];
}
};
/**
* If the arguments provide a valid media item it is added to the player.
*
* @param {!MediaItem} item The media item.
* @return {string} The uuid which has been created for the item before adding.
*/
const addQueueItem = function(item) {
if (!(item.media && item.media.uri && item.mimeType)) {
throw Error('insufficient arguments to add a queue item');
}
item.uuid = 'uuid-' + uuidCounter++;
player.addQueueItems(queue.length, [item], /* playbackOrder= */ undefined);
return item.uuid;
};
/**
* An event listener which listens for actions.
*
* @param {!Event} ev The DOM event.
*/
const handleAction = (ev) => {
let target = ev.target;
while (target !== document.body && !target.dataset['action']) {
target = target.parentNode;
}
if (!target || !target.dataset['action']) {
return;
}
switch (target.dataset['action']) {
case 'player.addItems':
if (target.dataset['uuid']) {
player.removeQueueItems([target.dataset['uuid']]);
delete target.dataset['uuid'];
} else {
const uuid = addQueueItem(/** @type {!MediaItem} */
(JSON.parse(target.dataset['item'])));
target.dataset['uuid'] = uuid;
}
break;
}
};
/**
* Appends samples to the list of media item actions.
*
* @param {!Array<!MediaItem>} mediaItems The samples to add.
*/
const appendSamples = function(mediaItems) {
const samplesList = document.getElementById('media-actions');
mediaItems.forEach((item) => {
const div = /** @type {!HTMLElement} */ (document.createElement('div'));
div.classList.add('action', 'button');
div.dataset['action'] = 'player.addItems';
div.dataset['item'] = JSON.stringify(item);
div.appendChild(document.createTextNode(item.title));
const marker = document.createElement('span');
marker.classList.add('queue-marker');
div.appendChild(marker);
samplesList.appendChild(div);
});
};
/** @type {!HTMLMediaElement} */
const mediaElement =
/** @type {!HTMLMediaElement} */ (document.getElementById('video'));
// Workaround for https://github.com/google/shaka-player/issues/1819
// TODO(bachinger) Remove line when better fix available.
new SimpleTextDisplayer(mediaElement);
/** @type {!ShakaPlayer} */
const shakaPlayer = new ShakaPlayer(mediaElement);
/** @type {!Player} */
const player = new Player(shakaPlayer, new ConfigurationFactory());
new PlayerControls(player, 'exo_controls');
new PlaybackInfoView(player, 'exo_playback_info');
// register listeners
document.body.addEventListener('click', handleAction);
player.addPlayerListener(playerListener);
// expose the player for debugging purposes.
window['player'] = player;
exports.appendSamples = appendSamples;
cast_receiver_app/app-desktop/src/player_controls.js deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.PlayerControls');
const Player = goog.require('exoplayer.cast.Player');
/**
* A simple UI to control the player.
*
*/
class PlayerControls {
/**
* @param {!Player} player The player.
* @param {string} containerId The id of the container element.
*/
constructor(player, containerId) {
/** @const @private {!Player} */
this.player_ = player;
/** @const @private {?Element} */
this.root_ = document.getElementById(containerId);
/** @const @private {?Element} */
this.playButton_ = this.root_.querySelector('#button_play');
/** @const @private {?Element} */
this.pauseButton_ = this.root_.querySelector('#button_pause');
/** @const @private {?Element} */
this.previousButton_ = this.root_.querySelector('#button_previous');
/** @const @private {?Element} */
this.nextButton_ = this.root_.querySelector('#button_next');
const previous = () => {
const index = player.getPreviousWindowIndex();
if (index !== -1) {
player.seekToWindow(index, 0);
}
};
const next = () => {
const index = player.getNextWindowIndex();
if (index !== -1) {
player.seekToWindow(index, 0);
}
};
const rewind = () => {
player.seekToWindow(
player.getCurrentWindowIndex(),
player.getCurrentPositionMs() - 15000);
};
const fastForward = () => {
player.seekToWindow(
player.getCurrentWindowIndex(),
player.getCurrentPositionMs() + 30000);
};
const actions = {
'pwr_1': (ev) => player.setPlayWhenReady(true),
'pwr_0': (ev) => player.setPlayWhenReady(false),
'rewind': rewind,
'fastforward': fastForward,
'previous': previous,
'next': next,
'prepare': (ev) => player.prepare(),
'stop': (ev) => player.stop(true),
'remove_queue_item': (ev) => {
player.removeQueueItems([ev.target.dataset.id]);
},
};
/**
* @param {!Event} ev The key event.
* @return {boolean} true if the key event has been handled.
*/
const keyListener = (ev) => {
const key = /** @type {!KeyboardEvent} */ (ev).key;
switch (key) {
case 'ArrowUp':
case 'k':
previous();
ev.preventDefault();
return true;
case 'ArrowDown':
case 'j':
next();
ev.preventDefault();
return true;
case 'ArrowLeft':
case 'h':
rewind();
ev.preventDefault();
return true;
case 'ArrowRight':
case 'l':
fastForward();
ev.preventDefault();
return true;
case ' ':
case 'p':
player.setPlayWhenReady(!player.getPlayWhenReady());
ev.preventDefault();
return true;
}
return false;
};
document.addEventListener('keydown', keyListener);
this.root_.addEventListener('click', function(ev) {
const method = ev.target['dataset']['method'];
if (actions[method]) {
actions[method](ev);
}
return true;
});
player.addPlayerListener((playerState) => this.updateUi(playerState));
player.invalidate();
this.setVisible_(true);
}
/**
* Syncs the ui with the player state.
*
* @param {!PlayerState} playerState The state of the player to be reflected
* by the UI.
*/
updateUi(playerState) {
if (playerState.playWhenReady) {
this.playButton_.style.display = 'none';
this.pauseButton_.style.display = 'inline-block';
} else {
this.playButton_.style.display = 'inline-block';
this.pauseButton_.style.display = 'none';
}
if (this.player_.getNextWindowIndex() === -1) {
this.nextButton_.style.visibility = 'hidden';
} else {
this.nextButton_.style.visibility = 'visible';
}
if (this.player_.getPreviousWindowIndex() === -1) {
this.previousButton_.style.visibility = 'hidden';
} else {
this.previousButton_.style.visibility = 'visible';
}
}
/**
* @private
* @param {boolean} visible If `true` thie controls are shown. If `false` the
* controls are hidden.
*/
setVisible_(visible) {
if (this.root_) {
this.root_.style.display = visible ? 'block' : 'none';
}
}
}
exports = PlayerControls;
cast_receiver_app/app-desktop/src/samples.js deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.samples');
const {appendSamples} = goog.require('exoplayer.cast.debug');
appendSamples([
{
title: 'DASH: multi-period',
mimeType: 'application/dash+xml',
media: {
uri: 'https://storage.googleapis.com/exoplayer-test-media-internal-6383' +
'4241aced7884c2544af1a3452e01/dash/multi-period/two-periods-minimal' +
'-duration.mpd',
},
},
{
title: 'HLS: Angel one',
mimeType: 'application/vnd.apple.mpegurl',
media: {
uri: 'https://storage.googleapis.com/shaka-demo-assets/angel-one-hls/hl' +
's.m3u8',
},
},
{
title: 'MP4: Elephants dream',
mimeType: 'video/*',
media: {
uri: 'http://commondatastorage.googleapis.com/gtv-videos-bucket/sample/' +
'ElephantsDream.mp4',
},
},
{
title: 'MKV: Android screens',
mimeType: 'video/*',
media: {
uri: 'https://storage.googleapis.com/exoplayer-test-media-1/mkv/android' +
'-screens-lavf-56.36.100-aac-avc-main-1280x720.mkv',
},
},
{
title: 'WV: HDCP not specified',
mimeType: 'application/dash+xml',
media: {
uri: 'https://storage.googleapis.com/wvmedia/cenc/h264/tears/tears.mpd',
},
drmSchemes: [
{
licenseServer: {
uri: 'https://proxy.uat.widevine.com/proxy?video_id=d286538032258a1' +
'c&provider=widevine_test',
},
uuid: 'edef8ba9-79d6-4ace-a3c8-27dcd51d21ed',
},
],
},
]);
cast_receiver_app/app-desktop/src/samples_internal.js deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.samplesinternal');
const {appendSamples} = goog.require('exoplayer.cast.debug');
appendSamples([
{
title: 'DAS: VOD',
mimeType: 'application/dash+xml',
media: {
uri: 'https://demo-dash-pvr.zahs.tv/hd/manifest.mpd',
},
},
{
title: 'MP3',
mimeType: 'audio/*',
media: {
uri: 'http://www.noiseaddicts.com/samples_1w72b820/4190.mp3',
},
},
{
title: 'DASH: live',
mimeType: 'application/dash+xml',
media: {
uri: 'https://demo-dash-live.zahs.tv/sd/manifest.mpd',
},
},
{
title: 'HLS: live',
mimeType: 'application/vnd.apple.mpegurl',
media: {
uri: 'https://demo-hls5-live.zahs.tv/sd/master.m3u8',
},
},
{
title: 'Live DASH (HD/Widevine)',
mimeType: 'application/dash+xml',
media: {
uri: 'https://demo-dashenc-live.zahs.tv/hd/widevine.mpd',
},
drmSchemes: [
{
licenseServer: {
uri: 'https://demo-dashenc-live.zahs.tv/hd/widevine-license',
},
uuid: 'edef8ba9-79d6-4ace-a3c8-27dcd51d21ed',
},
],
},
{
title: 'VOD DASH (HD/Widevine)',
mimeType: 'application/dash+xml',
media: {
uri: 'https://demo-dashenc-pvr.zahs.tv/hd/widevine.mpd',
},
drmSchemes: [
{
licenseServer: {
uri: 'https://demo-dashenc-live.zahs.tv/hd/widevine-license',
},
uuid: 'edef8ba9-79d6-4ace-a3c8-27dcd51d21ed',
},
],
},
]);
cast_receiver_app/app/html/index.css deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
section, video, div, span, body, html {
border: 0;
box-sizing: border-box;
margin: 0;
padding: 0;
}
html, body {
background-color: #000;
height: 100%;
overflow: hidden;
}
#exo_player_view {
background-color: #000;
height: 100%;
position: relative;
}
#exo_video {
height: 100%;
width: 100%;
}
cast_receiver_app/app/html/index.html deleted 100644 → 0
<!DOCTYPE html>
<!--
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
-->
<html>
<head>
<meta name="viewport" content="width=device-width, initial-scale=1">
<link rel="stylesheet" href="app_styles.css"/>
<script type="text/javascript"
src="//www.gstatic.com/cast/sdk/libs/caf_receiver/v3/cast_receiver_framework.js">
</script>
</head>
<body>
<section id="exo_player_view">
<video id="exo_video"></video>
<div id="exo_playback_info">
<div id="exo_time_bar">
<div id="exo_duration">
<div id="exo_elapsed_time"></div>
</div>
<span id="exo_elapsed_time_label" class="exo_text_label"></span>
<span id="exo_duration_label" class="exo_text_label"></span>
</div>
</div>
</section>
<script src="app.js"></script>
</body>
</html>
cast_receiver_app/app/html/playback_info_view.css deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
.exo_text_label {
color: #fff;
font-family: Roboto, Arial, sans-serif;
font-size: 1em;
margin-top: 4px;
}
#exo_playback_info {
bottom: 5%;
display: none;
left: 4%;
position: absolute;
right: 4%;
width: 92%;
}
#exo_time_bar {
width: 100%;
}
#exo_duration {
background-color: rgba(255, 255, 255, 0.4);
height: 0.5em;
overflow: hidden;
position: relative;
width: 100%;
}
#exo_elapsed_time {
background-color: rgb(73, 128, 218);
height: 100%;
opacity: 1;
width: 0;
}
#exo_duration_label {
float: right;
}
#exo_elapsed_time_label {
float: left;
}
cast_receiver_app/app/src/main.js deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.app');
const ConfigurationFactory = goog.require('exoplayer.cast.ConfigurationFactory');
const MessageDispatcher = goog.require('exoplayer.cast.MessageDispatcher');
const PlaybackInfoView = goog.require('exoplayer.cast.PlaybackInfoView');
const Player = goog.require('exoplayer.cast.Player');
const Receiver = goog.require('exoplayer.cast.Receiver');
const ShakaPlayer = goog.require('shaka.Player');
const SimpleTextDisplayer = goog.require('shaka.text.SimpleTextDisplayer');
const installAll = goog.require('shaka.polyfill.installAll');
/**
* The ExoPlayer namespace for messages sent and received via cast message bus.
*/
const MESSAGE_NAMESPACE_EXOPLAYER = 'urn:x-cast:com.google.exoplayer.cast';
// installs all polyfills for the Shaka player
installAll();
/** @type {?HTMLMediaElement} */
const videoElement =
/** @type {?HTMLMediaElement} */ (document.getElementById('exo_video'));
if (videoElement !== null) {
// Workaround for https://github.com/google/shaka-player/issues/1819
// TODO(bachinger) Remove line when better fix available.
new SimpleTextDisplayer(videoElement);
/** @type {!cast.framework.CastReceiverContext} */
const castReceiverContext = cast.framework.CastReceiverContext.getInstance();
const shakaPlayer = new ShakaPlayer(/** @type {!HTMLMediaElement} */
(videoElement));
const player = new Player(shakaPlayer, new ConfigurationFactory());
new PlaybackInfoView(player, 'exo_playback_info');
if (castReceiverContext !== null) {
const messageDispatcher =
new MessageDispatcher(MESSAGE_NAMESPACE_EXOPLAYER, castReceiverContext);
new Receiver(player, castReceiverContext, messageDispatcher);
}
// expose player for debugging purposes.
window['player'] = player;
}
cast_receiver_app/app/src/message_dispatcher.js deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.MessageDispatcher');
const validation = goog.require('exoplayer.cast.validation');
/**
* A callback function which is called by an action handler to indicate when
* processing has completed.
*
* @typedef {function(?PlayerState): undefined}
*/
const Callback = undefined;
/**
* Handles an action sent by a sender app.
*
* @typedef {function(!Object<string,?>, number, string, !Callback): undefined}
*/
const ActionHandler = undefined;
/**
* Dispatches messages of a cast message bus to registered action handlers.
*
* <p>The dispatcher listens to events of a CastMessageBus for the namespace
* passed to the constructor. The <code>data</code> property of the event is
* parsed as a json document and delegated to a handler registered for the given
* method.
*/
class MessageDispatcher {
/**
* @param {string} namespace The message namespace.
* @param {!cast.framework.CastReceiverContext} castReceiverContext The cast
* receiver manager.
*/
constructor(namespace, castReceiverContext) {
/** @private @const {string} */
this.namespace_ = namespace;
/** @private @const {!cast.framework.CastReceiverContext} */
this.castReceiverContext_ = castReceiverContext;
/** @private @const {!Array<!Message>} */
this.messageQueue_ = [];
/** @private @const {!Object} */
this.actions_ = {};
/** @private @const {!Object<string, number>} */
this.senderSequences_ = {};
/** @private @const {function(string, *)} */
this.jsonStringifyReplacer_ = (key, value) => {
if (value === Infinity || value === null) {
return undefined;
}
return value;
};
this.castReceiverContext_.addCustomMessageListener(
this.namespace_, this.onMessage.bind(this));
}
/**
* Registers a handler of a given action.
*
* @param {string} method The method name for which to register the handler.
* @param {!Array<!Array<string>>} argDefs The name and type of each argument
* or an empty array if the method has no arguments.
* @param {!ActionHandler} handler A function to process the action.
*/
registerActionHandler(method, argDefs, handler) {
this.actions_[method] = {
method,
argDefs,
handler,
};
}
/**
* Unregisters the handler of the given action.
*
* @param {string} action The action to unregister.
*/
unregisterActionHandler(action) {
delete this.actions_[action];
}
/**
* Callback to receive messages sent by sender apps.
*
* @param {!cast.framework.system.Event} event The event received from the
* sender app.
*/
onMessage(event) {
console.log('message arrived from sender', this.namespace_, event);
const message = /** @type {!ExoCastMessage} */ (event.data);
const action = this.actions_[message.method];
if (action) {
const args = message.args;
for (let i = 0; i < action.argDefs.length; i++) {
if (!validation.validateProperty(
args, action.argDefs[i][0], action.argDefs[i][1])) {
console.warn('invalid method call', message);
return;
}
}
this.messageQueue_.push({
senderId: event.senderId,
message: message,
handler: action.handler
});
if (this.messageQueue_.length === 1) {
this.executeNext();
} else {
// Do nothing. An action is executing asynchronously and will call
// executeNext when finished.
}
} else {
console.warn('handler of method not found', message);
}
}
/**
* Executes the next message in the queue.
*/
executeNext() {
if (this.messageQueue_.length === 0) {
return;
}
const head = this.messageQueue_[0];
const message = head.message;
const senderSequence = message.sequenceNumber;
this.senderSequences_[head.senderId] = senderSequence;
try {
head.handler(message.args, senderSequence, head.senderId, (response) => {
if (response) {
this.send(head.senderId, response);
}
this.shiftPendingMessage_(head);
});
} catch (e) {
this.shiftPendingMessage_(head);
console.error('error while executing method : ' + message.method, e);
}
}
/**
* Broadcasts the sender state to all sender apps registered for the
* given message namespace.
*
* @param {!PlayerState} playerState The player state to be sent.
*/
broadcast(playerState) {
this.castReceiverContext_.getSenders().forEach((sender) => {
this.send(sender.id, playerState);
});
delete playerState.sequenceNumber;
}
/**
* Sends the PlayerState to the given sender.
*
* @param {string} senderId The id of the sender.
* @param {!PlayerState} playerState The message to send.
*/
send(senderId, playerState) {
playerState.sequenceNumber = this.senderSequences_[senderId] || -1;
this.castReceiverContext_.sendCustomMessage(
this.namespace_, senderId,
// TODO(bachinger) Find a better solution.
JSON.parse(JSON.stringify(playerState, this.jsonStringifyReplacer_)));
}
/**
* Notifies the message dispatcher that a given sender has disconnected from
* the receiver.
*
* @param {string} senderId The id of the sender.
*/
notifySenderDisconnected(senderId) {
delete this.senderSequences_[senderId];
}
/**
* Shifts the pending message and executes the next if any.
*
* @private
* @param {!Message} pendingMessage The pending message.
*/
shiftPendingMessage_(pendingMessage) {
if (pendingMessage === this.messageQueue_[0]) {
this.messageQueue_.shift();
this.executeNext();
}
}
}
/**
* An item in the message queue.
*
* @record
*/
function Message() {}
/**
* The sender id.
*
* @type {string}
*/
Message.prototype.senderId;
/**
* The ExoCastMessage sent by the sender app.
*
* @type {!ExoCastMessage}
*/
Message.prototype.message;
/**
* The handler function handling the message.
*
* @type {!ActionHandler}
*/
Message.prototype.handler;
exports = MessageDispatcher;
cast_receiver_app/app/src/receiver.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.Receiver');
const MessageDispatcher = goog.require('exoplayer.cast.MessageDispatcher');
const Player = goog.require('exoplayer.cast.Player');
const validation = goog.require('exoplayer.cast.validation');
/**
* The Receiver receives messages from a message bus and delegates to
* the player.
*
* @constructor
* @param {!Player} player The player.
* @param {!cast.framework.CastReceiverContext} context The cast receiver
* context.
* @param {!MessageDispatcher} messageDispatcher The message dispatcher to use.
*/
const Receiver = function(player, context, messageDispatcher) {
addPlayerActions(messageDispatcher, player);
addQueueActions(messageDispatcher, player);
player.addPlayerListener((playerState) => {
messageDispatcher.broadcast(playerState);
});
context.addEventListener(
cast.framework.system.EventType.SENDER_CONNECTED, (event) => {
messageDispatcher.send(event.senderId, player.getPlayerState());
});
context.addEventListener(
cast.framework.system.EventType.SENDER_DISCONNECTED, (event) => {
messageDispatcher.notifySenderDisconnected(event.senderId);
if (event.reason ===
cast.framework.system.DisconnectReason.REQUESTED_BY_SENDER &&
context.getSenders().length === 0) {
window.close();
}
});
// Start the cast receiver context.
context.start();
};
/**
* Registers action handlers for playback messages sent by the sender app.
*
* @param {!MessageDispatcher} messageDispatcher The dispatcher.
* @param {!Player} player The player.
*/
const addPlayerActions = function(messageDispatcher, player) {
messageDispatcher.registerActionHandler(
'player.setPlayWhenReady', [['playWhenReady', 'boolean']],
(args, senderSequence, senderId, callback) => {
const playWhenReady = args['playWhenReady'];
callback(
!player.setPlayWhenReady(playWhenReady) ?
player.getPlayerState() :
null);
});
messageDispatcher.registerActionHandler(
'player.seekTo',
[
['uuid', 'string'],
['positionMs', '?number'],
],
(args, senderSequence, senderId, callback) => {
callback(
!player.seekToUuid(args['uuid'], args['positionMs']) ?
player.getPlayerState() :
null);
});
messageDispatcher.registerActionHandler(
'player.setRepeatMode', [['repeatMode', 'RepeatMode']],
(args, senderSequence, senderId, callback) => {
callback(
!player.setRepeatMode(args['repeatMode']) ?
player.getPlayerState() :
null);
});
messageDispatcher.registerActionHandler(
'player.setShuffleModeEnabled', [['shuffleModeEnabled', 'boolean']],
(args, senderSequence, senderId, callback) => {
callback(
!player.setShuffleModeEnabled(args['shuffleModeEnabled']) ?
player.getPlayerState() :
null);
});
messageDispatcher.registerActionHandler(
'player.onClientConnected', [],
(args, senderSequence, senderId, callback) => {
callback(player.getPlayerState());
});
messageDispatcher.registerActionHandler(
'player.stop', [['reset', 'boolean']],
(args, senderSequence, senderId, callback) => {
player.stop(args['reset']).then(() => {
callback(null);
});
});
messageDispatcher.registerActionHandler(
'player.prepare', [], (args, senderSequence, senderId, callback) => {
player.prepare();
callback(null);
});
messageDispatcher.registerActionHandler(
'player.setTrackSelectionParameters',
[
['preferredAudioLanguage', 'string'],
['preferredTextLanguage', 'string'],
['disabledTextTrackSelectionFlags', 'Array'],
['selectUndeterminedTextLanguage', 'boolean'],
],
(args, senderSequence, senderId, callback) => {
const trackSelectionParameters =
/** @type {!TrackSelectionParameters} */ ({
preferredAudioLanguage: args['preferredAudioLanguage'],
preferredTextLanguage: args['preferredTextLanguage'],
disabledTextTrackSelectionFlags:
args['disabledTextTrackSelectionFlags'],
selectUndeterminedTextLanguage:
args['selectUndeterminedTextLanguage'],
});
callback(
!player.setTrackSelectionParameters(trackSelectionParameters) ?
player.getPlayerState() :
null);
});
};
/**
* Registers action handlers for queue management messages sent by the sender
* app.
*
* @param {!MessageDispatcher} messageDispatcher The dispatcher.
* @param {!Player} player The player.
*/
const addQueueActions =
function (messageDispatcher, player) {
messageDispatcher.registerActionHandler(
'player.addItems',
[
['index', '?number'],
['items', 'Array'],
['shuffleOrder', 'Array'],
],
(args, senderSequence, senderId, callback) => {
const mediaItems = args['items'];
const index = args['index'] || player.getQueueSize();
let addedItemCount;
if (validation.validateMediaItems(mediaItems)) {
addedItemCount =
player.addQueueItems(index, mediaItems, args['shuffleOrder']);
}
callback(addedItemCount === 0 ? player.getPlayerState() : null);
});
messageDispatcher.registerActionHandler(
'player.removeItems', [['uuids', 'Array']],
(args, senderSequence, senderId, callback) => {
const removedItemsCount = player.removeQueueItems(args['uuids']);
callback(removedItemsCount === 0 ? player.getPlayerState() : null);
});
messageDispatcher.registerActionHandler(
'player.moveItem',
[
['uuid', 'string'],
['index', 'number'],
['shuffleOrder', 'Array'],
],
(args, senderSequence, senderId, callback) => {
const hasMoved = player.moveQueueItem(
args['uuid'], args['index'], args['shuffleOrder']);
callback(!hasMoved ? player.getPlayerState() : null);
});
};
exports = Receiver;
cast_receiver_app/app/src/validation.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview A validator for messages received from sender apps.
*/
goog.module('exoplayer.cast.validation');
const {getPlaybackType, PlaybackType, RepeatMode} = goog.require('exoplayer.cast.constants');
/**
* Media item fields.
*
* @enum {string}
*/
const MediaItemField = {
UUID: 'uuid',
MEDIA: 'media',
MIME_TYPE: 'mimeType',
DRM_SCHEMES: 'drmSchemes',
TITLE: 'title',
DESCRIPTION: 'description',
START_POSITION_US: 'startPositionUs',
END_POSITION_US: 'endPositionUs',
};
/**
* DrmScheme fields.
*
* @enum {string}
*/
const DrmSchemeField = {
UUID: 'uuid',
LICENSE_SERVER_URI: 'licenseServer',
};
/**
* UriBundle fields.
*
* @enum {string}
*/
const UriBundleField = {
URI: 'uri',
REQUEST_HEADERS: 'requestHeaders',
};
/**
* Validates an array of media items.
*
* @param {!Array<!MediaItem>} mediaItems An array of media items.
* @return {boolean} true if all media items are valid, otherwise false is
* returned.
*/
const validateMediaItems = function (mediaItems) {
for (let i = 0; i < mediaItems.length; i++) {
if (!validateMediaItem(mediaItems[i])) {
return false;
}
}
return true;
};
/**
* Validates a queue item sent to the receiver by a sender app.
*
* @param {!MediaItem} mediaItem The media item.
* @return {boolean} true if the media item is valid, false otherwise.
*/
const validateMediaItem = function (mediaItem) {
// validate minimal properties
if (!validateProperty(mediaItem, MediaItemField.UUID, 'string')) {
console.log('missing mandatory uuid', mediaItem.uuid);
return false;
}
if (!validateProperty(mediaItem.media, UriBundleField.URI, 'string')) {
console.log('missing mandatory', mediaItem.media ? 'uri' : 'media');
return false;
}
const mimeType = mediaItem.mimeType;
if (!mimeType || getPlaybackType(mimeType) === PlaybackType.UNKNOWN) {
console.log('unsupported mime type:', mimeType);
return false;
}
// validate optional properties
if (goog.isArray(mediaItem.drmSchemes)) {
for (let i = 0; i < mediaItem.drmSchemes.length; i++) {
let drmScheme = mediaItem.drmSchemes[i];
if (!validateProperty(drmScheme, DrmSchemeField.UUID, 'string') ||
!validateProperty(
drmScheme.licenseServer, UriBundleField.URI, 'string')) {
console.log('invalid drm scheme', drmScheme);
return false;
}
}
}
if (!validateProperty(mediaItem, MediaItemField.START_POSITION_US, '?number')
|| !validateProperty(mediaItem, MediaItemField.END_POSITION_US, '?number')
|| !validateProperty(mediaItem, MediaItemField.TITLE, '?string')
|| !validateProperty(mediaItem, MediaItemField.DESCRIPTION, '?string')) {
console.log('invalid type of one of startPositionUs, endPositionUs, title'
+ ' or description', mediaItem);
return false;
}
return true;
};
/**
* Validates the existence and type of a property.
*
* <p>Supported types: number, string, boolean, Array.
* <p>Prefix the type with a ? to indicate that the property is optional.
*
* @param {?Object|?MediaItem|?UriBundle} obj The object to validate.
* @param {string} propertyName The name of the property.
* @param {string} type The type of the property.
* @return {boolean} True if valid, false otherwise.
*/
const validateProperty = function (obj, propertyName, type) {
if (typeof obj === 'undefined' || obj === null) {
return false;
}
const isOptional = type.startsWith('?');
const value = obj[propertyName];
if (isOptional && typeof value === 'undefined') {
return true;
}
type = isOptional ? type.substring(1) : type;
switch (type) {
case 'string':
return typeof value === 'string' || value instanceof String;
case 'number':
return typeof value === 'number' && isFinite(value);
case 'Array':
return typeof value !== 'undefined' && typeof value === 'object'
&& value.constructor === Array;
case 'boolean':
return typeof value === 'boolean';
case 'RepeatMode':
return value === RepeatMode.OFF || value === RepeatMode.ONE ||
value === RepeatMode.ALL;
default:
console.warn('Unsupported type when validating an object property. ' +
'Supported types are string, number, boolean and Array.', type);
return false;
}
};
exports.validateMediaItem = validateMediaItem;
exports.validateMediaItems = validateMediaItems;
exports.validateProperty = validateProperty;
cast_receiver_app/assemble.bazel.sh deleted 100755 → 0
#!/bin/bash
# Copyright (C) 2019 The Android Open Source Project
#
# Licensed 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.
##
# Assembles the html, css and javascript files which have been created by the
# bazel build in a destination directory.
HTML_DIR=app/html
HTML_DEBUG_DIR=app-desktop/html
BIN=bazel-bin
function usage {
echo "usage: `basename "$0"` -d=DESTINATION_DIR"
}
for i in "$@"
do
case $i in
-d=*|--destination=*)
DESTINATION="${i#*=}"
shift # past argument=value
;;
-h|--help)
usage
exit 0
;;
*)
# unknown option
;;
esac
done
if [ ! -d "$DESTINATION" ]; then
echo "destination directory '$DESTINATION' is not declared or is not a\
directory"
usage
exit 1
fi
if [ ! -f "$BIN/app.js" ];then
echo "file $BIN/app.js not found. Did you build already with bazel?"
echo "-> # bazel build .. --incompatible_package_name_is_a_function=false"
exit 1
fi
if [ ! -f "$BIN/app_desktop.js" ];then
echo "file $BIN/app_desktop.js not found. Did you build already with bazel?"
echo "-> # bazel build .. --incompatible_package_name_is_a_function=false"
exit 1
fi
echo "assembling receiver and desktop app in $DESTINATION"
echo "-------"
# cleaning up asset files in destination directory
FILES=(
app.js
app_desktop.js
app_styles.css
app_desktop_styles.css
index.html
player.html
)
for file in ${FILES[@]}; do
if [ -f $DESTINATION/$file ]; then
echo "deleting $file"
rm -f $DESTINATION/$file
fi
done
echo "-------"
echo "copy html files to $DESTINATION"
cp $HTML_DIR/index.html $DESTINATION
cp $HTML_DEBUG_DIR/index.html $DESTINATION/player.html
echo "copy javascript files to $DESTINATION"
cp $BIN/app.js $BIN/app_desktop.js $DESTINATION
echo "copy css style to $DESTINATION"
cp $BIN/app_styles.css $BIN/app_desktop_styles.css $DESTINATION
echo "-------"
echo "done."
cast_receiver_app/externs/protocol.js deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
/**
* @fileoverview Externs for messages sent by a sender app in JSON format.
*
* Fields defined here are prevented from being renamed by the js compiler.
*
* @externs
*/
/**
* An uri bundle with an uri and request parameters.
*
* @record
*/
class UriBundle {
constructor() {
/**
* The URI.
*
* @type {string}
*/
this.uri;
/**
* The request headers.
*
* @type {?Object<string,string>}
*/
this.requestHeaders;
}
}
/**
* @record
*/
class DrmScheme {
constructor() {
/**
* The DRM UUID.
*
* @type {string}
*/
this.uuid;
/**
* The license URI.
*
* @type {?UriBundle}
*/
this.licenseServer;
}
}
/**
* @record
*/
class MediaItem {
constructor() {
/**
* The uuid of the item.
*
* @type {string}
*/
this.uuid;
/**
* The mime type.
*
* @type {string}
*/
this.mimeType;
/**
* The media uri bundle.
*
* @type {!UriBundle}
*/
this.media;
/**
* The DRM schemes.
*
* @type {!Array<!DrmScheme>}
*/
this.drmSchemes;
/**
* The position to start playback from.
*
* @type {number}
*/
this.startPositionUs;
/**
* The position at which to end playback.
*
* @type {number}
*/
this.endPositionUs;
/**
* The title of the media item.
*
* @type {string}
*/
this.title;
/**
* The description of the media item.
*
* @type {string}
*/
this.description;
}
}
/**
* Constraint parameters for track selection.
*
* @record
*/
class TrackSelectionParameters {
constructor() {
/**
* The preferred audio language.
*
* @type {string|undefined}
*/
this.preferredAudioLanguage;
/**
* The preferred text language.
*
* @type {string|undefined}
*/
this.preferredTextLanguage;
/**
* List of selection flags that are disabled for text track selections.
*
* @type {!Array<string>}
*/
this.disabledTextTrackSelectionFlags;
/**
* Whether a text track with undetermined language should be selected if no
* track with `preferredTextLanguage` is available, or if
* `preferredTextLanguage` is unset.
*
* @type {boolean}
*/
this.selectUndeterminedTextLanguage;
}
}
/**
* The PlaybackPosition defined by the position, the uuid of the media item and
* the period id.
*
* @record
*/
class PlaybackPosition {
constructor() {
/**
* The current playback position in milliseconds.
*
* @type {number}
*/
this.positionMs;
/**
* The uuid of the media item.
*
* @type {string}
*/
this.uuid;
/**
* The id of the currently playing period.
*
* @type {string}
*/
this.periodId;
/**
* The reason of a position discontinuity if any.
*
* @type {?string}
*/
this.discontinuityReason;
}
}
/**
* The playback parameters.
*
* @record
*/
class PlaybackParameters {
constructor() {
/**
* The playback speed.
*
* @type {number}
*/
this.speed;
/**
* The playback pitch.
*
* @type {number}
*/
this.pitch;
/**
* Whether silence is skipped.
*
* @type {boolean}
*/
this.skipSilence;
}
}
/**
* The player state.
*
* @record
*/
class PlayerState {
constructor() {
/**
* The playback state.
*
* @type {string}
*/
this.playbackState;
/**
* The playback parameters.
*
* @type {!PlaybackParameters}
*/
this.playbackParameters;
/**
* Playback starts when ready if true.
*
* @type {boolean}
*/
this.playWhenReady;
/**
* The current position within the media.
*
* @type {?PlaybackPosition}
*/
this.playbackPosition;
/**
* The current window index.
*
* @type {number}
*/
this.windowIndex;
/**
* The number of windows.
*
* @type {number}
*/
this.windowCount;
/**
* The audio tracks.
*
* @type {!Array<string>}
*/
this.audioTracks;
/**
* The video tracks in case of adaptive media.
*
* @type {!Array<!Object<string,*>>}
*/
this.videoTracks;
/**
* The repeat mode.
*
* @type {string}
*/
this.repeatMode;
/**
* Whether the shuffle mode is enabled.
*
* @type {boolean}
*/
this.shuffleModeEnabled;
/**
* The playback order to use when shuffle mode is enabled.
*
* @type {!Array<number>}
*/
this.shuffleOrder;
/**
* The queue of media items.
*
* @type {!Array<!MediaItem>}
*/
this.mediaQueue;
/**
* The media item info of the queue items if available.
*
* @type {!Object<string, !MediaItemInfo>}
*/
this.mediaItemsInfo;
/**
* The sequence number of the sender.
*
* @type {number}
*/
this.sequenceNumber;
/**
* The player error.
*
* @type {?PlayerError}
*/
this.error;
}
}
/**
* The error description.
*
* @record
*/
class PlayerError {
constructor() {
/**
* The error message.
*
* @type {string}
*/
this.message;
/**
* The error code.
*
* @type {number}
*/
this.code;
/**
* The error category.
*
* @type {number}
*/
this.category;
}
}
/**
* A period.
*
* @record
*/
class Period {
constructor() {
/**
* The id of the period. Must be unique within a media item.
*
* @type {string}
*/
this.id;
/**
* The duration of the period in microseconds.
*
* @type {number}
*/
this.durationUs;
}
}
/**
* Holds dynamic information for a MediaItem.
*
* <p>Holds information related to preparation for a specific {@link MediaItem}.
* Unprepared items are associated with an {@link #EMPTY} info object until
* prepared.
*
* @record
*/
class MediaItemInfo {
constructor() {
/**
* The duration of the window in microseconds.
*
* @type {number}
*/
this.windowDurationUs;
/**
* The default start position relative to the start of the window in
* microseconds.
*
* @type {number}
*/
this.defaultStartPositionUs;
/**
* The periods conforming the media item.
*
* @type {!Array<!Period>}
*/
this.periods;
/**
* The position of the window in the first period in microseconds.
*
* @type {number}
*/
this.positionInFirstPeriodUs;
/**
* Whether it is possible to seek within the window.
*
* @type {boolean}
*/
this.isSeekable;
/**
* Whether the window may change when the timeline is updated.
*
* @type {boolean}
*/
this.isDynamic;
}
}
/**
* The message envelope send by a sender app.
*
* @record
*/
class ExoCastMessage {
constructor() {
/**
* The clients message sequenec number.
*
* @type {number}
*/
this.sequenceNumber;
/**
* The name of the method.
*
* @type {string}
*/
this.method;
/**
* The arguments of the method.
*
* @type {!Object<string,*>}
*/
this.args;
}
};
cast_receiver_app/externs/shaka.js deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
/**
* @fileoverview Externs of the Shaka configuration.
*
* @externs
*/
/**
* The drm configuration for the Shaka player.
*
* @record
*/
class DrmConfiguration {
constructor() {
/**
* A map of license servers with the UUID of the drm system as the key and the
* license uri as the value.
*
* @type {!Object<string, string>}
*/
this.servers;
}
}
/**
* The configuration of the Shaka player.
*
* @record
*/
class PlayerConfiguration {
constructor() {
/**
* The preferred audio language.
*
* @type {string}
*/
this.preferredAudioLanguage;
/**
* The preferred text language.
*
* @type {string}
*/
this.preferredTextLanguage;
/**
* The drm configuration.
*
* @type {?DrmConfiguration}
*/
this.drm;
}
}
cast_receiver_app/src/configuration_factory.js deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.ConfigurationFactory');
const {DRM_SYSTEMS} = goog.require('exoplayer.cast.constants');
const EMPTY_DRM_CONFIGURATION =
/** @type {!DrmConfiguration} */ (Object.freeze({
servers: {},
}));
/**
* Creates the configuration of the Shaka player.
*/
class ConfigurationFactory {
/**
* Creates the Shaka player configuration.
*
* @param {!MediaItem} mediaItem The media item for which to create the
* configuration.
* @param {!TrackSelectionParameters} trackSelectionParameters The track
* selection parameters.
* @return {!PlayerConfiguration} The shaka player configuration.
*/
createConfiguration(mediaItem, trackSelectionParameters) {
const configuration = /** @type {!PlayerConfiguration} */ ({});
this.mapLanguageConfiguration(trackSelectionParameters, configuration);
this.mapDrmConfiguration_(mediaItem, configuration);
return configuration;
}
/**
* Maps the preferred audio and text language from the track selection
* parameters to the configuration.
*
* @param {!TrackSelectionParameters} trackSelectionParameters The selection
* parameters.
* @param {!PlayerConfiguration} playerConfiguration The player configuration.
*/
mapLanguageConfiguration(trackSelectionParameters, playerConfiguration) {
playerConfiguration.preferredAudioLanguage =
trackSelectionParameters.preferredAudioLanguage || '';
playerConfiguration.preferredTextLanguage =
trackSelectionParameters.preferredTextLanguage || '';
}
/**
* Maps the drm configuration from the media item to the configuration. If no
* drm is specified for the given media item, null is assigned.
*
* @private
* @param {!MediaItem} mediaItem The media item.
* @param {!PlayerConfiguration} playerConfiguration The player configuration.
*/
mapDrmConfiguration_(mediaItem, playerConfiguration) {
if (!mediaItem.drmSchemes) {
playerConfiguration.drm = EMPTY_DRM_CONFIGURATION;
return;
}
const drmConfiguration = /** @type {!DrmConfiguration} */({
servers: {},
});
let hasDrmServer = false;
mediaItem.drmSchemes.forEach((scheme) => {
const drmSystem = DRM_SYSTEMS[scheme.uuid];
if (drmSystem && scheme.licenseServer && scheme.licenseServer.uri) {
hasDrmServer = true;
drmConfiguration.servers[drmSystem] = scheme.licenseServer.uri;
}
});
playerConfiguration.drm =
hasDrmServer ? drmConfiguration : EMPTY_DRM_CONFIGURATION;
}
}
exports = ConfigurationFactory;
cast_receiver_app/src/constants.js deleted 100644 → 0
/**
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.constants');
/**
* The underyling player.
*
* @enum {number}
*/
const PlaybackType = {
VIDEO_ELEMENT: 1,
SHAKA_PLAYER: 2,
UNKNOWN: 999,
};
/**
* Supported mime types and their playback mode.
*
* @type {!Object<string, !PlaybackType>}
*/
const SUPPORTED_MIME_TYPES = Object.freeze({
'application/dash+xml': PlaybackType.SHAKA_PLAYER,
'application/vnd.apple.mpegurl': PlaybackType.SHAKA_PLAYER,
'application/vnd.ms-sstr+xml': PlaybackType.SHAKA_PLAYER,
'application/x-mpegURL': PlaybackType.SHAKA_PLAYER,
});
/**
* Returns the playback type required for a given mime type, or
* PlaybackType.UNKNOWN if the mime type is not recognized.
*
* @param {string} mimeType The mime type.
* @return {!PlaybackType} The required playback type, or PlaybackType.UNKNOWN
* if the mime type is not recognized.
*/
const getPlaybackType = function(mimeType) {
if (mimeType.startsWith('video/') || mimeType.startsWith('audio/')) {
return PlaybackType.VIDEO_ELEMENT;
} else {
return SUPPORTED_MIME_TYPES[mimeType] || PlaybackType.UNKNOWN;
}
};
/**
* Error messages.
*
* @enum {string}
*/
const ErrorMessages = {
SHAKA_LOAD_ERROR: 'Error while loading media with Shaka.',
SHAKA_UNKNOWN_ERROR: 'Shaka error event captured.',
MEDIA_ELEMENT_UNKNOWN_ERROR: 'Media element error event captured.',
UNKNOWN_FATAL_ERROR: 'Fatal playback error. Shaka instance replaced.',
UNKNOWN_ERROR: 'Unknown error',
};
/**
* ExoPlayer's repeat modes.
*
* @enum {string}
*/
const RepeatMode = {
OFF: 'OFF',
ONE: 'ONE',
ALL: 'ALL',
};
/**
* Error categories. Error categories coming from Shaka are defined in [Shaka
* source
* code](https://shaka-player-demo.appspot.com/docs/api/shaka.util.Error.html).
*
* @enum {number}
*/
const ErrorCategory = {
MEDIA_ELEMENT: 0,
FATAL_SHAKA_ERROR: 1000,
};
/**
* An error object to be used if no media error is assigned to the `error`
* field of the media element when an error event is fired
*
* @type {!PlayerError}
*/
const UNKNOWN_ERROR = /** @type {!PlayerError} */ (Object.freeze({
message: ErrorMessages.UNKNOWN_ERROR,
code: 0,
category: 0,
}));
/**
* UUID for the Widevine DRM scheme.
*
* @type {string}
*/
const WIDEVINE_UUID = 'edef8ba9-79d6-4ace-a3c8-27dcd51d21ed';
/**
* UUID for the PlayReady DRM scheme.
*
* @type {string}
*/
const PLAYREADY_UUID = '9a04f079-9840-4286-ab92-e65be0885f95';
/** @type {!Object<string, string>} */
const drmSystems = {};
drmSystems[WIDEVINE_UUID] = 'com.widevine.alpha';
drmSystems[PLAYREADY_UUID] = 'com.microsoft.playready';
/**
* The uuids of the supported DRM systems.
*
* @type {!Object<string, string>}
*/
const DRM_SYSTEMS = Object.freeze(drmSystems);
exports.PlaybackType = PlaybackType;
exports.ErrorMessages = ErrorMessages;
exports.ErrorCategory = ErrorCategory;
exports.RepeatMode = RepeatMode;
exports.getPlaybackType = getPlaybackType;
exports.WIDEVINE_UUID = WIDEVINE_UUID;
exports.PLAYREADY_UUID = PLAYREADY_UUID;
exports.DRM_SYSTEMS = DRM_SYSTEMS;
exports.UNKNOWN_ERROR = UNKNOWN_ERROR;
cast_receiver_app/src/playback_info_view.js deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.PlaybackInfoView');
const Player = goog.require('exoplayer.cast.Player');
const Timeout = goog.require('exoplayer.cast.Timeout');
const dom = goog.require('goog.dom');
/** The default timeout for hiding the UI in milliseconds. */
const SHOW_TIMEOUT_MS = 5000;
/** The timeout for hiding the UI in audio only mode in milliseconds. */
const SHOW_TIMEOUT_MS_AUDIO = 0;
/** The timeout for updating the UI while being displayed. */
const UPDATE_TIMEOUT_MS = 1000;
/**
* Formats a duration in milliseconds to a string in hh:mm:ss format.
*
* @param {number} durationMs The duration in milliseconds.
* @return {string} The duration formatted as hh:mm:ss.
*/
const formatTimestampMsAsString = function (durationMs) {
const hours = Math.floor(durationMs / 1000 / 60 / 60);
const minutes = Math.floor((durationMs / 1000 / 60) % 60);
const seconds = Math.floor((durationMs / 1000) % 60) % 60;
let timeString = '';
if (hours > 0) {
timeString += hours + ':';
}
if (minutes < 10) {
timeString += '0';
}
timeString += minutes + ":";
if (seconds < 10) {
timeString += '0';
}
timeString += seconds;
return timeString;
};
/**
* A view to display information about the current media item and playback
* progress.
*
* @constructor
* @param {!Player} player The player of which to display the
* playback info.
* @param {string} viewId The id of the playback info view.
*/
const PlaybackInfoView = function (player, viewId) {
/** @const @private {!Player} */
this.player_ = player;
/** @const @private {?Element} */
this.container_ = document.getElementById(viewId);
/** @const @private {?Element} */
this.elapsedTimeBar_ = document.getElementById('exo_elapsed_time');
/** @const @private {?Element} */
this.elapsedTimeLabel_ = document.getElementById('exo_elapsed_time_label');
/** @const @private {?Element} */
this.durationLabel_ = document.getElementById('exo_duration_label');
/** @const @private {!Timeout} */
this.hideTimeout_ = new Timeout();
/** @const @private {!Timeout} */
this.updateTimeout_ = new Timeout();
/** @private {boolean} */
this.wasPlaying_ = player.getPlayWhenReady()
&& player.getPlaybackState() === Player.PlaybackState.READY;
/** @private {number} */
this.showTimeoutMs_ = SHOW_TIMEOUT_MS;
/** @private {number} */
this.showTimeoutMsVideo_ = this.showTimeoutMs_;
if (this.wasPlaying_) {
this.hideAfterTimeout();
} else {
this.show();
}
player.addPlayerListener((playerState) => {
if (this.container_ === null) {
return;
}
const playbackPosition = playerState.playbackPosition;
const discontinuityReason =
playbackPosition ? playbackPosition.discontinuityReason : null;
if (discontinuityReason) {
const currentMediaItem = player.getCurrentMediaItem();
this.showTimeoutMs_ =
currentMediaItem && currentMediaItem.mimeType === 'audio/*' ?
SHOW_TIMEOUT_MS_AUDIO :
this.showTimeoutMsVideo_;
}
const playWhenReady = playerState.playWhenReady;
const state = playerState.playbackState;
const isPlaying = playWhenReady && state === Player.PlaybackState.READY;
const userSeekedInBufferedRange =
discontinuityReason === Player.DiscontinuityReason.SEEK && isPlaying;
if (!isPlaying) {
this.show();
} else if ((!this.wasPlaying_ && isPlaying) || userSeekedInBufferedRange) {
this.hideAfterTimeout();
}
this.wasPlaying_ = isPlaying;
});
};
/** Shows the player info view. */
PlaybackInfoView.prototype.show = function () {
if (this.container_ != null) {
this.hideTimeout_.cancel();
this.updateUi_();
this.container_.style.display = 'block';
this.startUpdateTimeout_();
}
};
/** Hides the player info view. */
PlaybackInfoView.prototype.hideAfterTimeout = function() {
if (this.container_ === null) {
return;
}
this.show();
this.hideTimeout_.postDelayed(this.showTimeoutMs_).then(() => {
this.container_.style.display = 'none';
this.updateTimeout_.cancel();
});
};
/**
* Sets the playback info view timeout. The playback info view is automatically
* hidden after this duration of time has elapsed without show() being called
* again. When playing streams with content type 'audio/*' the view is always
* displayed.
*
* @param {number} showTimeoutMs The duration in milliseconds. A non-positive
* value will cause the view to remain visible indefinitely.
*/
PlaybackInfoView.prototype.setShowTimeoutMs = function(showTimeoutMs) {
this.showTimeoutMs_ = showTimeoutMs;
this.showTimeoutMsVideo_ = showTimeoutMs;
};
/**
* Updates all UI components.
*
* @private
*/
PlaybackInfoView.prototype.updateUi_ = function () {
const elapsedTimeMs = this.player_.getCurrentPositionMs();
const durationMs = this.player_.getDurationMs();
if (this.elapsedTimeLabel_ !== null) {
this.updateDuration_(this.elapsedTimeLabel_, elapsedTimeMs, false);
}
if (this.durationLabel_ !== null) {
this.updateDuration_(this.durationLabel_, durationMs, true);
}
if (this.elapsedTimeBar_ !== null) {
this.updateProgressBar_(elapsedTimeMs, durationMs);
}
};
/**
* Adjust the progress bar indicating the elapsed time relative to the duration.
*
* @private
* @param {number} elapsedTimeMs The elapsed time in milliseconds.
* @param {number} durationMs The duration in milliseconds.
*/
PlaybackInfoView.prototype.updateProgressBar_ =
function(elapsedTimeMs, durationMs) {
if (elapsedTimeMs <= 0 || durationMs <= 0) {
this.elapsedTimeBar_.style.width = 0;
} else {
const widthPercentage = elapsedTimeMs / durationMs * 100;
this.elapsedTimeBar_.style.width = Math.min(100, widthPercentage) + '%';
}
};
/**
* Updates the display value of the duration in the DOM formatted as hh:mm:ss.
*
* @private
* @param {!Element} element The element to update.
* @param {number} durationMs The duration in milliseconds.
* @param {boolean} hideZero If true values of zero and below are not displayed.
*/
PlaybackInfoView.prototype.updateDuration_ =
function (element, durationMs, hideZero) {
while (element.firstChild) {
element.removeChild(element.firstChild);
}
if (durationMs <= 0 && !hideZero) {
element.appendChild(dom.createDom(dom.TagName.SPAN, {},
formatTimestampMsAsString(0)));
} else if (durationMs > 0) {
element.appendChild(dom.createDom(dom.TagName.SPAN, {},
formatTimestampMsAsString(durationMs)));
}
};
/**
* Starts a repeating timeout that updates the UI every UPDATE_TIMEOUT_MS
* milliseconds.
*
* @private
*/
PlaybackInfoView.prototype.startUpdateTimeout_ = function() {
this.updateTimeout_.cancel();
if (!this.player_.getPlayWhenReady() ||
this.player_.getPlaybackState() !== Player.PlaybackState.READY) {
return;
}
this.updateTimeout_.postDelayed(UPDATE_TIMEOUT_MS).then(() => {
this.updateUi_();
this.startUpdateTimeout_();
});
};
exports = PlaybackInfoView;
cast_receiver_app/src/player.js deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.Player');
const ConfigurationFactory = goog.require('exoplayer.cast.ConfigurationFactory');
const NetworkingEngine = goog.require('shaka.net.NetworkingEngine');
const ShakaError = goog.require('shaka.util.Error');
const ShakaPlayer = goog.require('shaka.Player');
const asserts = goog.require('goog.dom.asserts');
const googArray = goog.require('goog.array');
const safedom = goog.require('goog.dom.safe');
const {ErrorMessages, ErrorCategory, PlaybackType, RepeatMode, getPlaybackType, UNKNOWN_ERROR} = goog.require('exoplayer.cast.constants');
const {UuidComparator, createUuidComparator, log} = goog.require('exoplayer.cast.util');
const {assert, fail} = goog.require('goog.asserts');
const {clamp} = goog.require('goog.math');
/**
* Value indicating that no window index is currently set.
*/
const INDEX_UNSET = -1;
/**
* Estimated time for processing the manifest after download in millisecconds.
*
* See: https://github.com/google/shaka-player/issues/1734
*/
const MANIFEST_PROCESSING_ESTIMATE_MS = 350;
/**
* Media element events to listen to.
*
* @enum {string}
*/
const MediaElementEvent = {
ERROR: 'error',
LOADED_DATA: 'loadeddata',
PAUSE: 'pause',
PLAYING: 'playing',
SEEKED: 'seeked',
SEEKING: 'seeking',
WAITING: 'waiting',
};
/**
* Shaka events to listen to.
*
* @enum {string}
*/
const ShakaEvent = {
ERROR: 'error',
STREAMING: 'streaming',
TRACKS_CHANGED: 'trackschanged',
};
/**
* ExoPlayer's playback states.
*
* @enum {string}
*/
const PlaybackState = {
IDLE: 'IDLE',
BUFFERING: 'BUFFERING',
READY: 'READY',
ENDED: 'ENDED',
};
/**
* ExoPlayer's position discontinuity reasons.
*
* @enum {string}
*/
const DiscontinuityReason = {
PERIOD_TRANSITION: 'PERIOD_TRANSITION',
SEEK: 'SEEK',
};
/**
* A dummy `MediaIteminfo` to be used while the actual period is not
* yet available.
*
* @const
* @type {!MediaItemInfo}
*/
const DUMMY_MEDIA_ITEM_INFO = Object.freeze({
isSeekable: false,
isDynamic: true,
positionInFirstPeriodUs: 0,
defaultStartPositionUs: 0,
windowDurationUs: 0,
periods: [{
id: 1,
durationUs: 0,
}],
});
/**
* The Player wraps a Shaka player and maintains a queue of media items.
*
* After construction the player is in `IDLE` state. Calling `#prepare` prepares
* the player with the queue item at the given window index and position. The
* state transitions to `BUFFERING`. When 'playWhenReady' is set to `true`
* playback start when the player becomes 'READY'.
*
* When the player needs to rebuffer the state goes to 'BUFFERING' and becomes
* 'READY' again when playback can be resumed.
*
* The state transitions to `ENDED` when playback reached the end of the last
* item in the queue, when the last item has been removed from the queue if
* `!IDLE`, or when `prepare` is called with an empty queue. Seeking makes the
* player transition away from `ENDED` again.
*
* When `#stop` is called or when a fatal playback error occurs, the player
* transition to `IDLE` state and needs to be prepared again to resume playback.
*
* `playWhenReady`, `repeatMode`, `shuffleModeEnabled` can be manipulated in any
* state, just as media items can be added, moved and removed.
*
* @constructor
* @param {!ShakaPlayer} shakaPlayer The shaka player to wrap.
* @param {!ConfigurationFactory} configurationFactory A factory to create a
* configuration for the Shaka player.
*/
const Player = function(shakaPlayer, configurationFactory) {
/** @private @const {?HTMLMediaElement} */
this.videoElement_ = shakaPlayer.getMediaElement();
/** @private @const {!ConfigurationFactory} */
this.configurationFactory_ = configurationFactory;
/** @private @const {!Array<function(!PlayerState): undefined>} */
this.playerListeners_ = [];
/**
* @private
* @const
* {?function(NetworkingEngine.RequestType<number>, (?|null))}
*/
this.manifestResponseFilter_ = (type, response) => {
if (type === NetworkingEngine.RequestType.MANIFEST) {
setTimeout(() => {
this.updateWindowMediaItemInfo_();
this.invalidate();
}, MANIFEST_PROCESSING_ESTIMATE_MS);
}
};
/** @private {!ShakaPlayer} */
this.shakaPlayer_ = shakaPlayer;
/** @private {boolean} */
this.playWhenReady_ = false;
/** @private {boolean} */
this.shuffleModeEnabled_ = false;
/** @private {!RepeatMode} */
this.repeatMode_ = RepeatMode.OFF;
/** @private {!TrackSelectionParameters} */
this.trackSelectionParameters_ = /** @type {!TrackSelectionParameters} */ ({
preferredAudioLanguage: '',
preferredTextLanguage: '',
disabledTextTrackSelectionFlags: [],
selectUndeterminedTextLanguage: false,
});
/** @private {number} */
this.windowIndex_ = INDEX_UNSET;
/** @private {!Array<!MediaItem>} */
this.queue_ = [];
/** @private {!Object<string, number>} */
this.queueUuidIndexMap_ = {};
/** @private {!UuidComparator} */
this.uuidComparator_ = createUuidComparator(this.queueUuidIndexMap_);
/** @private {!PlaybackState} */
this.playbackState_ = PlaybackState.IDLE;
/** @private {!MediaItemInfo} */
this.windowMediaItemInfo_ = DUMMY_MEDIA_ITEM_INFO;
/** @private {number} */
this.windowPeriodIndex_ = 0;
/** @private {!Object<string, !MediaItemInfo>} */
this.mediaItemInfoMap_ = {};
/** @private {?PlayerError} */
this.playbackError_ = null;
/** @private {?DiscontinuityReason} */
this.discontinuityReason_ = null;
/** @private {!Array<number>} */
this.shuffleOrder_ = [];
/** @private {number} */
this.shuffleIndex_ = 0;
/** @private {!PlaybackType} */
this.playbackType_ = PlaybackType.UNKNOWN;
/** @private {boolean} */
this.isManifestFilterRegistered_ = false;
/** @private {?string} */
this.uuidToPrepare_ = null;
if (!this.shakaPlayer_ || !this.videoElement_) {
throw new Error('an instance of Shaka player with a media element ' +
'attached to it needs to be passed to the constructor.');
}
/** @private @const {function(!Event)} */
this.playbackStateListener_ = (ev) => {
log(['handle event: ', ev.type]);
let invalid = false;
switch (ev.type) {
case ShakaEvent.STREAMING: {
// Arrives once after prepare when the manifest is available.
const uuid = this.queue_[this.windowIndex_].uuid;
const cachedMediaItemInfo = this.mediaItemInfoMap_[uuid];
if (!cachedMediaItemInfo || cachedMediaItemInfo.isDynamic) {
this.updateWindowMediaItemInfo_();
if (this.windowMediaItemInfo_.isDynamic) {
this.registerManifestResponseFilter_();
}
invalid = true;
}
break;
}
case ShakaEvent.TRACKS_CHANGED: {
// Arrives when tracks have changed either initially or at a period
// boundary.
const periods = this.windowMediaItemInfo_.periods;
const previousPeriodIndex = this.windowPeriodIndex_;
this.evaluateAndSetCurrentPeriod_(periods);
invalid = previousPeriodIndex !== this.windowPeriodIndex_;
if (periods.length && this.windowPeriodIndex_ > 0) {
// Player transitions to next period in multiperiod stream.
this.discontinuityReason_ = this.discontinuityReason_ ||
DiscontinuityReason.PERIOD_TRANSITION;
invalid = true;
}
if (this.videoElement_.paused && this.playWhenReady_) {
this.videoElement_.play();
}
break;
}
case MediaElementEvent.LOADED_DATA: {
// Arrives once when the first frame has been rendered.
if (this.playbackType_ === PlaybackType.VIDEO_ELEMENT) {
const uuid = this.queue_[this.windowIndex_].uuid;
let mediaItemInfo = this.mediaItemInfoMap_[uuid];
if (!mediaItemInfo || mediaItemInfo.isDynamic) {
mediaItemInfo = this.buildMediaItemInfoFromElement_();
if (mediaItemInfo !== null) {
this.mediaItemInfoMap_[uuid] = mediaItemInfo;
this.windowMediaItemInfo_ = mediaItemInfo;
}
}
this.evaluateAndSetCurrentPeriod_(mediaItemInfo.periods);
invalid = true;
}
if (this.videoElement_.paused && this.playWhenReady_) {
// Restart after automatic skip to next queue item.
this.videoElement_.play();
} else if (this.videoElement_.paused) {
// If paused, the PLAYING event will not be fired, hence we transition
// to state READY right here.
this.playbackState_ = PlaybackState.READY;
invalid = true;
}
break;
}
case MediaElementEvent.WAITING:
case MediaElementEvent.SEEKING: {
// Arrives at a user seek or when re-buffering starts.
if (this.playbackState_ !== PlaybackState.BUFFERING) {
this.playbackState_ = PlaybackState.BUFFERING;
invalid = true;
}
break;
}
case MediaElementEvent.PLAYING:
case MediaElementEvent.SEEKED: {
// Arrives at the end of a user seek or after re-buffering.
if (this.playbackState_ !== PlaybackState.READY) {
this.playbackState_ = PlaybackState.READY;
invalid = true;
}
break;
}
case MediaElementEvent.PAUSE: {
// Detects end of media and either skips to next or transitions to ended
// state.
if (this.videoElement_.ended) {
let nextWindowIndex = this.getNextWindowIndex();
if (nextWindowIndex !== INDEX_UNSET) {
this.seekToWindowInternal_(nextWindowIndex, undefined);
} else {
this.playbackState_ = PlaybackState.ENDED;
invalid = true;
}
}
break;
}
}
if (invalid) {
this.invalidate();
}
};
/** @private @const {function(!Event)} */
this.mediaElementErrorHandler_ = (ev) => {
console.error('Media element error reported in handler');
this.playbackError_ = !this.videoElement_.error ? UNKNOWN_ERROR : {
message: this.videoElement_.error.message,
code: this.videoElement_.error.code,
category: ErrorCategory.MEDIA_ELEMENT,
};
this.playbackState_ = PlaybackState.IDLE;
this.uuidToPrepare_ = this.queue_[this.windowIndex_] ?
this.queue_[this.windowIndex_].uuid :
null;
this.invalidate();
};
/** @private @const {function(!Event)} */
this.shakaErrorHandler_ = (ev) => {
const shakaError = /** @type {!ShakaError} */ (ev['detail']);
if (shakaError.severity !== ShakaError.Severity.RECOVERABLE) {
this.fatalShakaError_(shakaError, 'Shaka error reported by error event');
this.invalidate();
} else {
console.error('Recoverable Shaka error reported in handler');
}
};
this.shakaPlayer_.addEventListener(
ShakaEvent.STREAMING, this.playbackStateListener_);
this.shakaPlayer_.addEventListener(
ShakaEvent.TRACKS_CHANGED, this.playbackStateListener_);
this.videoElement_.addEventListener(
MediaElementEvent.LOADED_DATA, this.playbackStateListener_);
this.videoElement_.addEventListener(
MediaElementEvent.WAITING, this.playbackStateListener_);
this.videoElement_.addEventListener(
MediaElementEvent.PLAYING, this.playbackStateListener_);
this.videoElement_.addEventListener(
MediaElementEvent.PAUSE, this.playbackStateListener_);
this.videoElement_.addEventListener(
MediaElementEvent.SEEKING, this.playbackStateListener_);
this.videoElement_.addEventListener(
MediaElementEvent.SEEKED, this.playbackStateListener_);
// Attach error handlers.
this.shakaPlayer_.addEventListener(ShakaEvent.ERROR, this.shakaErrorHandler_);
this.videoElement_.addEventListener(
MediaElementEvent.ERROR, this.mediaElementErrorHandler_);
};
/**
* Adds a listener to the player.
*
* @param {function(!PlayerState)} listener The player listener.
*/
Player.prototype.addPlayerListener = function(listener) {
this.playerListeners_.push(listener);
};
/**
* Removes a listener.
*
* @param {function(!Object)} listener The player listener.
*/
Player.prototype.removePlayerListener = function(listener) {
for (let i = 0; i < this.playerListeners_.length; i++) {
if (this.playerListeners_[i] === listener) {
this.playerListeners_.splice(i, 1);
break;
}
}
};
/**
* Gets the current PlayerState.
*
* @return {!PlayerState}
*/
Player.prototype.getPlayerState = function() {
return this.buildPlayerState_();
};
/**
* Sends the current playback state to clients.
*/
Player.prototype.invalidate = function() {
const playbackState = this.buildPlayerState_();
for (let i = 0; i < this.playerListeners_.length; i++) {
this.playerListeners_[i](playbackState);
}
};
/**
* Get the audio tracks.
*
* @return {!Array<string>} An array with the track names}.
*/
Player.prototype.getAudioTracks = function() {
return this.windowMediaItemInfo_ !== DUMMY_MEDIA_ITEM_INFO ?
this.shakaPlayer_.getAudioLanguages() :
[];
};
/**
* Gets the video tracks.
*
* @return {!Array<!Object>} An array with the video tracks.
*/
Player.prototype.getVideoTracks = function() {
return this.windowMediaItemInfo_ !== DUMMY_MEDIA_ITEM_INFO ?
this.shakaPlayer_.getVariantTracks() :
[];
};
/**
* Gets the playback state.
*
* @return {!PlaybackState} The playback state.
*/
Player.prototype.getPlaybackState = function() {
return this.playbackState_;
};
/**
* Gets the playback error if any.
*
* @return {?Object} The playback error.
*/
Player.prototype.getPlaybackError = function() {
return this.playbackError_;
};
/**
* Gets the duration in milliseconds or a negative value if unknown.
*
* @return {number} The duration in milliseconds.
*/
Player.prototype.getDurationMs = function() {
return this.windowMediaItemInfo_ ?
this.windowMediaItemInfo_.windowDurationUs / 1000 : -1;
};
/**
* Gets the current position in milliseconds or a negative value if not known.
*
* @return {number} The current position in milliseconds.
*/
Player.prototype.getCurrentPositionMs = function() {
if (!this.videoElement_.currentTime) {
return 0;
}
return (this.videoElement_.currentTime * 1000) -
(this.windowMediaItemInfo_.positionInFirstPeriodUs / 1000);
};
/**
* Gets the current window index.
*
* @return {number} The current window index.
*/
Player.prototype.getCurrentWindowIndex = function() {
if (this.playbackState_ === PlaybackState.IDLE) {
return this.queueUuidIndexMap_[this.uuidToPrepare_ || ''] || 0;
}
return Math.max(0, this.windowIndex_);
};
/**
* Gets the media item of the current window or null if the queue is empty.
*
* @return {?MediaItem} The media item of the current window.
*/
Player.prototype.getCurrentMediaItem = function() {
return this.windowIndex_ >= 0 ? this.queue_[this.windowIndex_] : null;
};
/**
* Gets the media item info of the current window index or null if not yet
* available.
*
* @return {?MediaItemInfo} The current media item info or undefined.
*/
Player.prototype.getCurrentMediaItemInfo = function () {
return this.windowMediaItemInfo_;
};
/**
* Gets the text tracks.
*
* @return {!TextTrackList} The text tracks.
*/
Player.prototype.getTextTracks = function() {
return this.videoElement_.textTracks;
};
/**
* Gets whether the player should play when ready.
*
* @return {boolean} True when it plays when ready.
*/
Player.prototype.getPlayWhenReady = function() {
return this.playWhenReady_;
};
/**
* Sets whether to play when ready.
*
* @param {boolean} playWhenReady Whether to play when ready.
* @return {boolean} Whether calling this method causes a change of the player
* state.
*/
Player.prototype.setPlayWhenReady = function(playWhenReady) {
if (this.playWhenReady_ === playWhenReady) {
return false;
}
this.playWhenReady_ = playWhenReady;
this.invalidate();
if (this.playbackState_ === PlaybackState.IDLE ||
this.playbackState_ === PlaybackState.ENDED) {
return true;
}
if (this.playWhenReady_) {
this.videoElement_.play();
} else {
this.videoElement_.pause();
}
return true;
};
/**
* Gets the repeat mode.
*
* @return {!RepeatMode} The repeat mode.
*/
Player.prototype.getRepeatMode = function() {
return this.repeatMode_;
};
/**
* Sets the repeat mode. Must be a value of the enum Player.RepeatMode.
*
* @param {!RepeatMode} mode The repeat mode.
* @return {boolean} Whether calling this method causes a change of the player
* state.
*/
Player.prototype.setRepeatMode = function(mode) {
if (this.repeatMode_ === mode) {
return false;
}
if (mode === Player.RepeatMode.OFF ||
mode === Player.RepeatMode.ONE ||
mode === Player.RepeatMode.ALL) {
this.repeatMode_ = mode;
} else {
throw new Error('illegal repeat mode: ' + mode);
}
this.invalidate();
return true;
};
/**
* Enables or disables the shuffle mode.
*
* @param {boolean} enabled Whether the shuffle mode is enabled or not.
* @return {boolean} Whether calling this method causes a change of the player
* state.
*/
Player.prototype.setShuffleModeEnabled = function(enabled) {
if (this.shuffleModeEnabled_ === enabled) {
return false;
}
this.shuffleModeEnabled_ = enabled;
this.invalidate();
return true;
};
/**
* Sets the track selection parameters.
*
* @param {!TrackSelectionParameters} trackSelectionParameters The parameters.
* @return {boolean} Whether calling this method causes a change of the player
* state.
*/
Player.prototype.setTrackSelectionParameters = function(
trackSelectionParameters) {
this.trackSelectionParameters_ = trackSelectionParameters;
/** @type {!PlayerConfiguration} */
const configuration = /** @type {!PlayerConfiguration} */ ({});
this.configurationFactory_.mapLanguageConfiguration(
trackSelectionParameters, configuration);
/** @type {!PlayerConfiguration} */
const currentConfiguration = this.shakaPlayer_.getConfiguration();
/** @type {boolean} */
let isStateChange = false;
if (currentConfiguration.preferredAudioLanguage !==
configuration.preferredAudioLanguage) {
this.shakaPlayer_.selectAudioLanguage(configuration.preferredAudioLanguage);
isStateChange = true;
}
if (currentConfiguration.preferredTextLanguage !==
configuration.preferredTextLanguage) {
this.shakaPlayer_.selectTextLanguage(configuration.preferredTextLanguage);
isStateChange = true;
}
return isStateChange;
};
/**
* Gets the previous window index or a negative number if no item previous to
* the current item is available.
*
* @return {number} The previous window index or a negative number if the
* current item is the first item.
*/
Player.prototype.getPreviousWindowIndex = function() {
if (this.playbackType_ === PlaybackType.UNKNOWN) {
return INDEX_UNSET;
}
switch (this.repeatMode_) {
case RepeatMode.ONE:
return this.windowIndex_;
case RepeatMode.ALL:
if (this.shuffleModeEnabled_) {
const previousIndex = this.shuffleIndex_ > 0 ?
this.shuffleIndex_ - 1 : this.queue_.length - 1;
return this.shuffleOrder_[previousIndex];
} else {
const previousIndex = this.windowIndex_ > 0 ?
this.windowIndex_ - 1 : this.queue_.length - 1;
return previousIndex;
}
break;
case RepeatMode.OFF:
if (this.shuffleModeEnabled_) {
const previousIndex = this.shuffleIndex_ - 1;
return previousIndex < 0 ? -1 : this.shuffleOrder_[previousIndex];
} else {
const previousIndex = this.windowIndex_ - 1;
return previousIndex < 0 ? -1 : previousIndex;
}
break;
default:
throw new Error('illegal state of repeat mode: ' + this.repeatMode_);
}
};
/**
* Gets the next window index or a negative number if the current item is the
* last item.
*
* @return {number} The next window index or a negative number if the current
* item is the last item.
*/
Player.prototype.getNextWindowIndex = function() {
if (this.playbackType_ === PlaybackType.UNKNOWN) {
return INDEX_UNSET;
}
switch (this.repeatMode_) {
case RepeatMode.ONE:
return this.windowIndex_;
case RepeatMode.ALL:
if (this.shuffleModeEnabled_) {
const nextIndex = (this.shuffleIndex_ + 1) % this.queue_.length;
return this.shuffleOrder_[nextIndex];
} else {
return (this.windowIndex_ + 1) % this.queue_.length;
}
break;
case RepeatMode.OFF:
if (this.shuffleModeEnabled_) {
const nextIndex = this.shuffleIndex_ + 1;
return nextIndex < this.shuffleOrder_.length ?
this.shuffleOrder_[nextIndex] : -1;
} else {
const nextIndex = this.windowIndex_ + 1;
return nextIndex < this.queue_.length ? nextIndex : -1;
}
break;
default:
throw new Error('illegal state of repeat mode: ' + this.repeatMode_);
}
};
/**
* Gets whether the current window is seekable.
*
* @return {boolean} True if seekable.
*/
Player.prototype.isCurrentWindowSeekable = function() {
return !!this.videoElement_.seekable;
};
/**
* Seeks to the positionMs of the media item with the given uuid.
*
* @param {string} uuid The uuid of the media item to seek to.
* @param {number|undefined} positionMs The position in milliseconds to seek to.
* @return {boolean} True if a seek operation has been processed, false
* otherwise.
*/
Player.prototype.seekToUuid = function(uuid, positionMs) {
if (this.playbackState_ === PlaybackState.IDLE) {
this.uuidToPrepare_ = uuid;
this.videoElement_.currentTime =
this.getPosition_(positionMs, INDEX_UNSET) / 1000;
this.invalidate();
return true;
}
const windowIndex = this.queueUuidIndexMap_[uuid];
if (windowIndex !== undefined) {
positionMs = this.getPosition_(positionMs, windowIndex);
this.discontinuityReason_ = DiscontinuityReason.SEEK;
this.seekToWindowInternal_(windowIndex, positionMs);
return true;
}
return false;
};
/**
* Seeks to the positionMs of the given window.
*
* The index must be a valid index of the current queue, else this method does
* nothing.
*
* @param {number} windowIndex The index of the window to seek to.
* @param {number|undefined} positionMs The position to seek to within the
* window.
*/
Player.prototype.seekToWindow = function(windowIndex, positionMs) {
if (windowIndex < 0 || windowIndex >= this.queue_.length) {
return;
}
this.seekToUuid(this.queue_[windowIndex].uuid, positionMs);
};
/**
* Gets the number of media items in the queue.
*
* @return {number} The size of the queue.
*/
Player.prototype.getQueueSize = function() {
return this.queue_.length;
};
/**
* Adds an array of items at the given index of the queue.
*
* Items are expected to have been validated with `validation#validateMediaItem`
* or `validation#validateMediaItems` before being passed to this method.
*
* @param {number} index The index where to insert the media item.
* @param {!Array<!MediaItem>} mediaItems The media items.
* @param {!Array<number>|undefined} shuffleOrder The new shuffle order.
* @return {number} The number of added items.
*/
Player.prototype.addQueueItems = function(index, mediaItems, shuffleOrder) {
if (index < 0 || mediaItems.length === 0) {
return 0;
}
let addedItemCount = 0;
index = Math.min(this.queue_.length, index);
mediaItems.forEach((itemToAdd) => {
if (this.queueUuidIndexMap_[itemToAdd.uuid] === undefined) {
this.queue_.splice(index + addedItemCount, 0, itemToAdd);
this.queueUuidIndexMap_[itemToAdd.uuid] = index + addedItemCount;
addedItemCount++;
}
});
if (addedItemCount === 0) {
return 0;
}
this.buildUuidIndexMap_(index + addedItemCount);
this.setShuffleOrder_(shuffleOrder);
if (this.queue_.length === addedItemCount) {
this.windowIndex_ = 0;
this.updateShuffleIndex_();
} else if (
index <= this.windowIndex_ &&
this.playbackType_ !== PlaybackType.UNKNOWN) {
this.windowIndex_ += mediaItems.length;
this.updateShuffleIndex_();
}
this.invalidate();
return addedItemCount;
};
/**
* Removes the queue items with the given uuids.
*
* @param {!Array<string>} uuids The uuids of the queue items to remove.
* @return {number} The number of items removed from the queue.
*/
Player.prototype.removeQueueItems = function(uuids) {
let currentWindowRemoved = false;
let lowestIndexRemoved = this.queue_.length - 1;
const initialQueueSize = this.queue_.length;
// Sort in descending order to start removing from the end.
uuids = uuids.sort(this.uuidComparator_);
uuids.forEach((uuid) => {
const indexToRemove = this.queueUuidIndexMap_[uuid];
if (indexToRemove === undefined) {
return;
}
// Remove the item from the queue.
this.queue_.splice(indexToRemove, 1);
// Remove the corresponding media item info.
delete this.mediaItemInfoMap_[uuid];
// Remove the mapping to the window index.
delete this.queueUuidIndexMap_[uuid];
lowestIndexRemoved = Math.min(lowestIndexRemoved, indexToRemove);
currentWindowRemoved =
currentWindowRemoved || indexToRemove === this.windowIndex_;
// The window index needs to be decreased when the item which has been
// removed was before the current item, when the current item at the last
// position has been removed, or when the queue has been emptied.
if (indexToRemove < this.windowIndex_ ||
(indexToRemove === this.windowIndex_ &&
indexToRemove === this.queue_.length) ||
this.queue_.length === 0) {
this.windowIndex_--;
}
// Adjust the shuffle order.
let shuffleIndexToRemove;
this.shuffleOrder_.forEach((windowIndex, index) => {
if (windowIndex > indexToRemove) {
// Decrease the index in the shuffle order.
this.shuffleOrder_[index]--;
} else if (windowIndex === indexToRemove) {
// Recall index for removal after traversing.
shuffleIndexToRemove = index;
}
});
// Remove the shuffle order entry of the removed item.
this.shuffleOrder_.splice(shuffleIndexToRemove, 1);
});
const removedItemsCount = initialQueueSize - this.queue_.length;
if (removedItemsCount === 0) {
return 0;
}
this.updateShuffleIndex_();
this.buildUuidIndexMap_(lowestIndexRemoved);
if (currentWindowRemoved) {
if (this.queue_.length === 0) {
this.playbackState_ = this.playbackState_ === PlaybackState.IDLE ?
PlaybackState.IDLE :
PlaybackState.ENDED;
this.windowMediaItemInfo_ = DUMMY_MEDIA_ITEM_INFO;
this.windowPeriodIndex_ = 0;
this.videoElement_.currentTime = 0;
this.uuidToPrepare_ = null;
this.unregisterManifestResponseFilter_();
this.unload_(/** reinitialiseMediaSource= */ true);
} else if (this.windowIndex_ >= 0) {
const windowIndexToPrepare = this.windowIndex_;
this.windowIndex_ = INDEX_UNSET;
this.seekToWindowInternal_(windowIndexToPrepare, undefined);
return removedItemsCount;
}
}
this.invalidate();
return removedItemsCount;
};
/**
* Move the queue item with the given id to the given position.
*
* @param {string} uuid The uuid of the queue item to move.
* @param {number} to The position to move the item to.
* @param {!Array<number>|undefined} shuffleOrder The new shuffle order.
* @return {boolean} Whether the item has been moved.
*/
Player.prototype.moveQueueItem = function(uuid, to, shuffleOrder) {
if (to < 0 || to >= this.queue_.length) {
return false;
}
const windowIndex = this.queueUuidIndexMap_[uuid];
if (windowIndex === undefined) {
return false;
}
const itemMoved = this.moveInQueue_(windowIndex, to);
if (itemMoved) {
this.setShuffleOrder_(shuffleOrder);
this.invalidate();
}
return itemMoved;
};
/**
* Prepares the player at the current window index and position.
*
* The playback state immediately transitions to `BUFFERING`. If the queue
* is empty the player transitions to `ENDED`.
*/
Player.prototype.prepare = function() {
if (this.queue_.length === 0) {
this.uuidToPrepare_ = null;
this.playbackState_ = PlaybackState.ENDED;
this.invalidate();
return;
}
if (this.uuidToPrepare_) {
this.windowIndex_ =
this.queueUuidIndexMap_[this.uuidToPrepare_] || INDEX_UNSET;
this.uuidToPrepare_ = null;
}
this.windowIndex_ = clamp(this.windowIndex_, 0, this.queue_.length - 1);
this.prepare_(this.getCurrentPositionMs());
this.invalidate();
};
/**
* Stops the player.
*
* Calling this method causes the player to transition into `IDLE` state.
* If `reset` is `true` the player is reset to the initial state of right
* after construction. If `reset` is `false`, the media queue is preserved
* and calling `prepare()` results in resuming the player state to what it
* was before calling `#stop(false)`.
*
* @param {boolean} reset Whether the state should be reset.
* @return {!Promise<undefined>} A promise which resolves after async unload
* tasks have finished.
*/
Player.prototype.stop = function(reset) {
this.playbackState_ = PlaybackState.IDLE;
this.playbackError_ = null;
this.discontinuityReason_ = null;
this.unregisterManifestResponseFilter_();
this.uuidToPrepare_ = this.uuidToPrepare_ || (this.queue_[this.windowIndex_] ?
this.queue_[this.windowIndex_].uuid :
null);
if (reset) {
this.uuidToPrepare_ = null;
this.queue_ = [];
this.queueUuidIndexMap_ = {};
this.uuidComparator_ = createUuidComparator(this.queueUuidIndexMap_);
this.windowIndex_ = INDEX_UNSET;
this.mediaItemInfoMap_ = {};
this.windowMediaItemInfo_ = DUMMY_MEDIA_ITEM_INFO;
this.windowPeriodIndex_ = 0;
this.videoElement_.currentTime = 0;
this.shuffleOrder_ = [];
this.shuffleIndex_ = 0;
}
this.invalidate();
return this.unload_(/** reinitialiseMediaSource= */ !reset);
};
/**
* Resets player and media element.
*
* @private
* @param {boolean} reinitialiseMediaSource Whether the media source should be
* reinitialized.
* @return {!Promise<undefined>} A promise which resolves after async unload
* tasks have finished.
*/
Player.prototype.unload_ = function(reinitialiseMediaSource) {
const playbackTypeToUnload = this.playbackType_;
this.playbackType_ = PlaybackType.UNKNOWN;
switch (playbackTypeToUnload) {
case PlaybackType.VIDEO_ELEMENT:
this.videoElement_.removeAttribute('src');
this.videoElement_.load();
return Promise.resolve();
case PlaybackType.SHAKA_PLAYER:
return new Promise((resolve, reject) => {
this.shakaPlayer_.unload(reinitialiseMediaSource)
.then(resolve)
.catch(resolve);
});
default:
return Promise.resolve();
}
};
/**
* Releases the current Shaka instance and create a new one.
*
* This function should only be called if the Shaka instance is out of order due
* to https://github.com/google/shaka-player/issues/1785. It assumes the current
* Shaka instance has fallen into a state in which promises returned by
* `shakaPlayer.load` and `shakaPlayer.unload` do not resolve nor are they
* rejected anymore.
*
* @private
*/
Player.prototype.replaceShaka_ = function() {
// Remove all listeners.
this.shakaPlayer_.removeEventListener(
ShakaEvent.STREAMING, this.playbackStateListener_);
this.shakaPlayer_.removeEventListener(
ShakaEvent.TRACKS_CHANGED, this.playbackStateListener_);
this.shakaPlayer_.removeEventListener(
ShakaEvent.ERROR, this.shakaErrorHandler_);
// Unregister response filter if any.
this.unregisterManifestResponseFilter_();
// Unload the old instance.
this.shakaPlayer_.unload(false);
// Reset video element.
this.videoElement_.removeAttribute('src');
this.videoElement_.load();
// Create a new instance and add listeners.
this.shakaPlayer_ = new ShakaPlayer(this.videoElement_);
this.shakaPlayer_.addEventListener(
ShakaEvent.STREAMING, this.playbackStateListener_);
this.shakaPlayer_.addEventListener(
ShakaEvent.TRACKS_CHANGED, this.playbackStateListener_);
this.shakaPlayer_.addEventListener(ShakaEvent.ERROR, this.shakaErrorHandler_);
};
/**
* Moves a queue item within the queue.
*
* @private
* @param {number} from The initial position.
* @param {number} to The position to move the item to.
* @return {boolean} Whether the item has been moved.
*/
Player.prototype.moveInQueue_ = function(from, to) {
if (from < 0 || to < 0
|| from >= this.queue_.length || to >= this.queue_.length
|| from === to) {
return false;
}
this.queue_.splice(to, 0, this.queue_.splice(from, 1)[0]);
this.buildUuidIndexMap_(Math.min(from, to));
if (from === this.windowIndex_) {
this.windowIndex_ = to;
} else if (from > this.windowIndex_ && to <= this.windowIndex_) {
this.windowIndex_++;
} else if (from < this.windowIndex_ && to >= this.windowIndex_) {
this.windowIndex_--;
}
return true;
};
/**
* Shuffles the queue.
*
* @private
*/
Player.prototype.shuffle_ = function() {
this.shuffleOrder_ = this.queue_.map((item, index) => index);
googArray.shuffle(this.shuffleOrder_);
this.updateShuffleIndex_();
};
/**
* Sets the new shuffle order.
*
* @private
* @param {!Array<number>|undefined} shuffleOrder The new shuffle order.
*/
Player.prototype.setShuffleOrder_ = function(shuffleOrder) {
if (shuffleOrder && this.queue_.length === shuffleOrder.length) {
this.shuffleOrder_ = shuffleOrder;
this.updateShuffleIndex_();
} else if (this.shuffleOrder_.length !== this.queue_.length) {
this.shuffle_();
}
};
/**
* Updates the shuffle order to point to the current window index.
*
* @private
*/
Player.prototype.updateShuffleIndex_ = function() {
this.shuffleIndex_ =
this.shuffleOrder_.findIndex((idx) => idx === this.windowIndex_);
};
/**
* Builds the `queueUuidIndexMap` using the uuid of a media item as the key and
* the window index as the value of an entry.
*
* @private
* @param {number} startPosition The window index to start updating at.
*/
Player.prototype.buildUuidIndexMap_ = function(startPosition) {
for (let i = startPosition; i < this.queue_.length; i++) {
this.queueUuidIndexMap_[this.queue_[i].uuid] = i;
}
};
/**
* Gets the default position of the current window.
*
* @private
* @return {number} The default position of the current window.
*/
Player.prototype.getDefaultPosition_ = function() {
return this.windowMediaItemInfo_.defaultStartPositionUs;
};
/**
* Checks whether the given position is buffered.
*
* @private
* @param {number} positionMs The position to check.
* @return {boolean} true if the media data of the current position is buffered.
*/
Player.prototype.isBuffered_ = function(positionMs) {
const ranges = this.videoElement_.buffered;
for (let i = 0; i < ranges.length; i++) {
const start = ranges.start(i) * 1000;
const end = ranges.end(i) * 1000;
if (start <= positionMs && positionMs <= end) {
return true;
}
}
return false;
};
/**
* Seeks to the positionMs of the given window.
*
* To signal a user seek, callers are expected to set the discontinuity reason
* to `DiscontinuityReason.SEEK` before calling this method. If not set this
* method may set the `DiscontinuityReason.PERIOD_TRANSITION` in case the
* `windowIndex` changes.
*
* @private
* @param {number} windowIndex The non-negative index of the window to seek to.
* @param {number|undefined} positionMs The position to seek to within the
* window. If undefined it seeks to the default position of the window.
*/
Player.prototype.seekToWindowInternal_ = function(windowIndex, positionMs) {
const windowChanges = this.windowIndex_ !== windowIndex;
// Update window index and position in any case.
this.windowIndex_ = Math.max(0, windowIndex);
this.updateShuffleIndex_();
const seekPositionMs = this.getPosition_(positionMs, windowIndex);
this.videoElement_.currentTime = seekPositionMs / 1000;
// IDLE or ENDED with empty queue.
if (this.playbackState_ === PlaybackState.IDLE || this.queue_.length === 0) {
// Do nothing but report the change in window index and position.
this.invalidate();
return;
}
// Prepare for a seek to another window or when in ENDED state whilst the
// queue is not empty but prepare has not been called yet.
if (windowChanges || this.playbackType_ === PlaybackType.UNKNOWN) {
// Reset and prepare.
this.unregisterManifestResponseFilter_();
this.discontinuityReason_ =
this.discontinuityReason_ || DiscontinuityReason.PERIOD_TRANSITION;
this.prepare_(seekPositionMs);
this.invalidate();
return;
}
// Sync playWhenReady with video element after ENDED state.
if (this.playbackState_ === PlaybackState.ENDED && this.playWhenReady_) {
this.videoElement_.play();
return;
}
// A seek within the current window when READY or BUFFERING.
this.playbackState_ = this.isBuffered_(seekPositionMs) ?
PlaybackState.READY :
PlaybackState.BUFFERING;
this.invalidate();
};
/**
* Prepares the player at the current window index and the given
* `startPositionMs`.
*
* Calling this method resets the media item information, transitions to
* 'BUFFERING', prepares either the plain video element for progressive
* media, or the Shaka player for adaptive media.
*
* Media items are mapped by media type to a `PlaybackType`s in
* `exoplayer.cast.constants.SupportedMediaTypes`. Unsupported mime types will
* cause the player to transition to the `IDLE` state.
*
* Items in the queue are expected to have been validated with
* `validation#validateMediaItem` or `validation#validateMediaItems`. If this is
* not the case this method might throw an Assertion exception.
*
* @private
* @param {number} startPositionMs The position at which to start playback.
* @throws {!AssertionException} In case an unvalidated item can't be mapped to
* a supported playback type.
*/
Player.prototype.prepare_ = function(startPositionMs) {
const mediaItem = this.queue_[this.windowIndex_];
const windowUuid = this.queue_[this.windowIndex_].uuid;
const mediaItemInfo = this.mediaItemInfoMap_[windowUuid];
if (mediaItemInfo && !mediaItemInfo.isDynamic) {
// Do reuse if not dynamic.
this.windowMediaItemInfo_ = mediaItemInfo;
} else {
// Use the dummy info until manifest/data available.
this.windowMediaItemInfo_ = DUMMY_MEDIA_ITEM_INFO;
this.mediaItemInfoMap_[windowUuid] = DUMMY_MEDIA_ITEM_INFO;
}
this.windowPeriodIndex_ = 0;
this.playbackType_ = getPlaybackType(mediaItem.mimeType);
this.playbackState_ = PlaybackState.BUFFERING;
const uri = mediaItem.media.uri;
switch (this.playbackType_) {
case PlaybackType.VIDEO_ELEMENT:
this.videoElement_.currentTime = startPositionMs / 1000;
this.shakaPlayer_.unload(false)
.then(() => {
this.setMediaElementSrc(uri);
this.videoElement_.currentTime = startPositionMs / 1000;
})
.catch((error) => {
// Let's still try. We actually don't need Shaka right now.
this.setMediaElementSrc(uri);
this.videoElement_.currentTime = startPositionMs / 1000;
console.error('Shaka error while unloading', error);
});
break;
case PlaybackType.SHAKA_PLAYER:
this.shakaPlayer_.configure(
this.configurationFactory_.createConfiguration(
mediaItem, this.trackSelectionParameters_));
this.shakaPlayer_.load(uri, startPositionMs / 1000).catch((error) => {
const shakaError = /** @type {!ShakaError} */ (error);
if (shakaError.severity !== ShakaError.Severity.RECOVERABLE &&
shakaError.code !== ShakaError.Code.LOAD_INTERRUPTED) {
this.fatalShakaError_(shakaError, 'loading failed for uri: ' + uri);
this.invalidate();
} else {
console.error('Recoverable Shaka error while loading', shakaError);
}
});
break;
default:
fail('unknown playback type for mime type: ' + mediaItem.mimeType);
}
};
/**
* Sets the uri to the `src` attribute of the media element in a safe way.
*
* @param {string} uri The uri to set as the value of the `src` attribute.
*/
Player.prototype.setMediaElementSrc = function(uri) {
safedom.setVideoSrc(
asserts.assertIsHTMLVideoElement(this.videoElement_), uri);
};
/**
* Handles a fatal Shaka error by setting the playback error, transitioning to
* state `IDLE` and setting the playback type to `UNKNOWN`. Player needs to be
* reprepared after calling this method.
*
* @private
* @param {!ShakaError} shakaError The error.
* @param {string|undefined} customMessage A custom message.
*/
Player.prototype.fatalShakaError_ = function(shakaError, customMessage) {
this.playbackState_ = PlaybackState.IDLE;
this.playbackType_ = PlaybackType.UNKNOWN;
this.uuidToPrepare_ = this.queue_[this.windowIndex_] ?
this.queue_[this.windowIndex_].uuid :
null;
if (typeof shakaError.severity === 'undefined') {
// Not a Shaka error. We need to assume the worst case.
this.replaceShaka_();
this.playbackError_ = /** @type {!PlayerError} */ ({
message: ErrorMessages.UNKNOWN_FATAL_ERROR,
code: -1,
category: ErrorCategory.FATAL_SHAKA_ERROR,
});
} else {
// A critical ShakaError. Can be recovered from by calling prepare.
this.playbackError_ = /** @type {!PlayerError} */ ({
message: customMessage || shakaError.message ||
ErrorMessages.SHAKA_UNKNOWN_ERROR,
code: shakaError.code,
category: shakaError.category,
});
}
console.error('caught shaka load error', shakaError);
};
/**
* Gets the position to use. If `undefined` or `null` is passed as argument the
* default start position of the media item info of the given windowIndex is
* returned.
*
* @private
* @param {?number|undefined} positionMs The position in milliseconds,
* `undefined` or `null`.
* @param {number} windowIndex The window index for which to evaluate the
* position.
* @return {number} The position to use in milliseconds.
*/
Player.prototype.getPosition_ = function(positionMs, windowIndex) {
if (positionMs !== undefined) {
return Math.max(0, positionMs);
}
const windowUuid = assert(this.queue_[windowIndex]).uuid;
const mediaItemInfo =
this.mediaItemInfoMap_[windowUuid] || DUMMY_MEDIA_ITEM_INFO;
return mediaItemInfo.defaultStartPositionUs;
};
/**
* Refreshes the media item info of the current window.
*
* @private
*/
Player.prototype.updateWindowMediaItemInfo_ = function() {
this.windowMediaItemInfo_ = this.buildMediaItemInfo_();
if (this.windowMediaItemInfo_) {
const mediaItem = this.queue_[this.windowIndex_];
this.mediaItemInfoMap_[mediaItem.uuid] = this.windowMediaItemInfo_;
this.evaluateAndSetCurrentPeriod_(this.windowMediaItemInfo_.periods);
}
};
/**
* Evaluates the current period and stores it in a member variable.
*
* @private
* @param {!Array<!Period>} periods The periods of the current mediaItem.
*/
Player.prototype.evaluateAndSetCurrentPeriod_ = function(periods) {
const positionUs = this.getCurrentPositionMs() * 1000;
let positionInWindowUs = 0;
periods.some((period, i) => {
positionInWindowUs += period.durationUs;
if (positionUs < positionInWindowUs) {
this.windowPeriodIndex_ = i;
return true;
}
return false;
});
};
/**
* Registers a response filter which is notified when a manifest has been
* downloaded.
*
* @private
*/
Player.prototype.registerManifestResponseFilter_ = function() {
if (this.isManifestFilterRegistered_) {
return;
}
this.shakaPlayer_.getNetworkingEngine().registerResponseFilter(
this.manifestResponseFilter_);
this.isManifestFilterRegistered_ = true;
};
/**
* Unregisters the manifest response filter.
*
* @private
*/
Player.prototype.unregisterManifestResponseFilter_ = function() {
if (this.isManifestFilterRegistered_) {
this.shakaPlayer_.getNetworkingEngine().unregisterResponseFilter(
this.manifestResponseFilter_);
this.isManifestFilterRegistered_ = false;
}
};
/**
* Builds a MediaItemInfo from the media element.
*
* @private
* @return {!MediaItemInfo} A media item info.
*/
Player.prototype.buildMediaItemInfoFromElement_ = function() {
const durationUs = this.videoElement_.duration * 1000 * 1000;
return /** @type {!MediaItemInfo} */ ({
isSeekable: !!this.videoElement_.seekable,
isDynamic: false,
positionInFirstPeriodUs: 0,
defaultStartPositionUs: 0,
windowDurationUs: durationUs,
periods: [{
id: 0,
durationUs: durationUs,
}],
});
};
/**
* Builds a MediaItemInfo from the manifest or null if no manifest is available.
*
* @private
* @return {!MediaItemInfo}
*/
Player.prototype.buildMediaItemInfo_ = function() {
const manifest = this.shakaPlayer_.getManifest();
if (manifest === null) {
return DUMMY_MEDIA_ITEM_INFO;
}
const timeline = manifest.presentationTimeline;
const isDynamic = timeline.isLive();
const windowStartUs = isDynamic ?
timeline.getSeekRangeStart() * 1000 * 1000 :
timeline.getSegmentAvailabilityStart() * 1000 * 1000;
const windowDurationUs = isDynamic ?
(timeline.getSeekRangeEnd() - timeline.getSeekRangeStart()) * 1000 *
1000 :
timeline.getDuration() * 1000 * 1000;
const defaultStartPositionUs = isDynamic ?
timeline.getSeekRangeEnd() * 1000 * 1000 :
timeline.getSegmentAvailabilityStart() * 1000 * 1000;
const periods = [];
let previousStartTimeUs = 0;
let positionInFirstPeriodUs = 0;
manifest.periods.forEach((period, index) => {
const startTimeUs = period.startTime * 1000 * 1000;
periods.push({
id: Math.floor(startTimeUs),
});
if (index > 0) {
// calculate duration of previous period
periods[index - 1].durationUs = startTimeUs - previousStartTimeUs;
if (previousStartTimeUs <= windowStartUs && windowStartUs < startTimeUs) {
positionInFirstPeriodUs = windowStartUs - previousStartTimeUs;
}
}
previousStartTimeUs = startTimeUs;
});
// calculate duration of last period
if (periods.length) {
const lastPeriodDurationUs =
isDynamic ? Infinity : windowDurationUs - previousStartTimeUs;
periods.slice(-1)[0].durationUs = lastPeriodDurationUs;
if (previousStartTimeUs <= windowStartUs) {
positionInFirstPeriodUs = windowStartUs - previousStartTimeUs;
}
}
return /** @type {!MediaItemInfo} */ ({
windowDurationUs: Math.floor(windowDurationUs),
defaultStartPositionUs: Math.floor(defaultStartPositionUs),
isSeekable: this.videoElement_ ? !!this.videoElement_.seekable : false,
positionInFirstPeriodUs: Math.floor(positionInFirstPeriodUs),
isDynamic: isDynamic,
periods: periods,
});
};
/**
* Builds the player state message.
*
* @private
* @return {!PlayerState} The player state.
*/
Player.prototype.buildPlayerState_ = function() {
const playerState = {
playbackState: this.getPlaybackState(),
playbackParameters: {
speed: 1,
pitch: 1,
skipSilence: false,
},
playbackPosition: this.buildPlaybackPosition_(),
playWhenReady: this.getPlayWhenReady(),
windowIndex: this.getCurrentWindowIndex(),
windowCount: this.queue_.length,
audioTracks: this.getAudioTracks() || [],
videoTracks: this.getVideoTracks(),
repeatMode: this.repeatMode_,
shuffleModeEnabled: this.shuffleModeEnabled_,
mediaQueue: this.queue_.slice(),
mediaItemsInfo: this.mediaItemInfoMap_,
shuffleOrder: this.shuffleOrder_,
sequenceNumber: -1,
};
if (this.playbackError_) {
playerState.error = this.playbackError_;
this.playbackError_ = null;
}
return playerState;
};
/**
* Builds the playback position. Returns null if all properties of the playback
* position are empty.
*
* @private
* @return {?PlaybackPosition} The playback position.
*/
Player.prototype.buildPlaybackPosition_ = function() {
if ((this.playbackState_ === PlaybackState.IDLE && !this.uuidToPrepare_) ||
this.playbackState_ === PlaybackState.ENDED && this.queue_.length === 0) {
this.discontinuityReason_ = null;
return null;
}
/** @type {!PlaybackPosition} */
const playbackPosition = {
positionMs: this.getCurrentPositionMs(),
uuid: this.uuidToPrepare_ || this.queue_[this.windowIndex_].uuid,
periodId: this.windowMediaItemInfo_.periods[this.windowPeriodIndex_].id,
discontinuityReason: null,
};
if (this.discontinuityReason_ !== null) {
playbackPosition.discontinuityReason = this.discontinuityReason_;
this.discontinuityReason_ = null;
}
return playbackPosition;
};
exports = Player;
exports.RepeatMode = RepeatMode;
exports.PlaybackState = PlaybackState;
exports.DiscontinuityReason = DiscontinuityReason;
exports.DUMMY_MEDIA_ITEM_INFO = DUMMY_MEDIA_ITEM_INFO;
cast_receiver_app/src/timeout.js deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.Timeout');
/**
* A timeout which can be cancelled.
*/
class Timeout {
constructor() {
/** @private {?number} */
this.timeout_ = null;
}
/**
* Returns a promise which resolves when the duration of time defined by
* delayMs has elapsed and cancel() has not been called earlier.
*
* If the timeout is already set, the former timeout is cancelled and a new
* one is started.
*
* @param {number} delayMs The delay after which to resolve or a non-positive
* value if it should never resolve.
* @return {!Promise<undefined>} Resolves after the given delayMs or never
* for a non-positive delay.
*/
postDelayed(delayMs) {
this.cancel();
return new Promise((resolve, reject) => {
if (delayMs <= 0) {
return;
}
this.timeout_ = setTimeout(() => {
if (this.timeout_) {
this.timeout_ = null;
resolve();
}
}, delayMs);
});
}
/** Cancels the timeout. */
cancel() {
if (this.timeout_) {
clearTimeout(this.timeout_);
this.timeout_ = null;
}
}
/** @return {boolean} true if the timeout is currently ongoing. */
isOngoing() {
return this.timeout_ !== null;
}
}
exports = Timeout;
cast_receiver_app/src/util.js deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.util');
/**
* Indicates whether the logging is turned on.
*/
const enableLogging = true;
/**
* Logs to the console if logging enabled.
*
* @param {!Array<*>} statements The log statements to be logged.
*/
const log = function(statements) {
if (enableLogging) {
console.log.apply(console, statements);
}
};
/**
* A comparator function for uuids.
*
* @typedef {function(string,string):number}
*/
let UuidComparator;
/**
* Creates a comparator function which sorts uuids in descending order by the
* corresponding index of the given map.
*
* @param {!Object<string, number>} uuidIndexMap The map with uuids as the key
* and the window index as the value.
* @return {!UuidComparator} The comparator for sorting.
*/
const createUuidComparator = function(uuidIndexMap) {
return (a, b) => {
const indexA = uuidIndexMap[a] || -1;
const indexB = uuidIndexMap[b] || -1;
return indexB - indexA;
};
};
exports = {
log,
createUuidComparator,
UuidComparator,
};
cast_receiver_app/test/caf_bootstrap.js deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
/**
* @fileoverview Declares constants which are provided by the CAF externs and
* are not included in uncompiled unit tests.
*/
cast = {
framework: {
system: {
EventType: {
SENDER_CONNECTED: 'sender_connected',
SENDER_DISCONNECTED: 'sender_disconnected',
},
DisconnectReason: {
REQUESTED_BY_SENDER: 'requested_by_sender',
},
},
},
};
cast_receiver_app/test/configuration_factory_test.js deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
goog.module('exoplayer.cast.test.configurationfactory');
goog.setTestOnly();
const ConfigurationFactory = goog.require('exoplayer.cast.ConfigurationFactory');
const testSuite = goog.require('goog.testing.testSuite');
const util = goog.require('exoplayer.cast.test.util');
let configurationFactory;
testSuite({
setUp() {
configurationFactory = new ConfigurationFactory();
},
/** Tests creating the most basic configuration. */
testCreateBasicConfiguration() {
/** @type {!TrackSelectionParameters} */
const selectionParameters = /** @type {!TrackSelectionParameters} */ ({
preferredAudioLanguage: 'en',
preferredTextLanguage: 'it',
});
const configuration = configurationFactory.createConfiguration(
util.queue.slice(0, 1), selectionParameters);
assertEquals('en', configuration.preferredAudioLanguage);
assertEquals('it', configuration.preferredTextLanguage);
// Assert empty drm configuration as default.
assertArrayEquals(['servers'], Object.keys(configuration.drm));
assertArrayEquals([], Object.keys(configuration.drm.servers));
},
/** Tests defaults for undefined audio and text languages. */
testCreateBasicConfiguration_languagesUndefined() {
const configuration = configurationFactory.createConfiguration(
util.queue.slice(0, 1), /** @type {!TrackSelectionParameters} */ ({}));
assertEquals('', configuration.preferredAudioLanguage);
assertEquals('', configuration.preferredTextLanguage);
},
/** Tests creating a drm configuration */
testCreateDrmConfiguration() {
/** @type {!MediaItem} */
const mediaItem = util.queue[1];
mediaItem.drmSchemes = [
{
uuid: 'edef8ba9-79d6-4ace-a3c8-27dcd51d21ed',
licenseServer: {
uri: 'drm-uri0',
},
},
{
uuid: '9a04f079-9840-4286-ab92-e65be0885f95',
licenseServer: {
uri: 'drm-uri1',
},
},
{
uuid: 'unsupported-drm-uuid',
licenseServer: {
uri: 'drm-uri2',
},
},
];
const configuration =
configurationFactory.createConfiguration(mediaItem, {});
assertEquals('drm-uri0', configuration.drm.servers['com.widevine.alpha']);
assertEquals(
'drm-uri1', configuration.drm.servers['com.microsoft.playready']);
assertEquals(2, Object.entries(configuration.drm.servers).length);
}
});
cast_receiver_app/test/externs.js deleted 100644 → 0
/*
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*/
/**
* Externs for unit tests to avoid renaming of properties.
*
* These externs are only required when building with bazel because the
* closure_js_test compiles tests as well.
*
* @externs
*/
/** @record */
function ValidationObject() {}
/** @type {*} */
ValidationObject.prototype.field;
/** @record */
function Uuids() {}
/** @type {!Array<string>} */
Uuids.prototype.uuids;
cast_receiver_app/test/message_dispatcher_test.js deleted 100644 → 0
/**
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Unit tests for the message dispatcher.
*/
goog.module('exoplayer.cast.test.messagedispatcher');
goog.setTestOnly();
const MessageDispatcher = goog.require('exoplayer.cast.MessageDispatcher');
const mocks = goog.require('exoplayer.cast.test.mocks');
const testSuite = goog.require('goog.testing.testSuite');
let contextMock;
let messageDispatcher;
testSuite({
setUp() {
mocks.setUp();
contextMock = mocks.createCastReceiverContextFake();
messageDispatcher = new MessageDispatcher(
'urn:x-cast:com.google.exoplayer.cast', contextMock);
},
/** Test marshalling Infinity */
testStringifyInfinity() {
const senderId = 'sender0';
const name = 'Federico Vespucci';
messageDispatcher.send(senderId, {name: name, duration: Infinity});
const msg = mocks.state().outputMessages[senderId][0];
assertUndefined(msg.duration);
assertFalse(msg.hasOwnProperty('duration'));
assertEquals(name, msg.name);
assertTrue(msg.hasOwnProperty('name'));
}
});
cast_receiver_app/test/mocks.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Mocks for testing cast components.
*/
goog.module('exoplayer.cast.test.mocks');
goog.setTestOnly();
const NetworkingEngine = goog.require('shaka.net.NetworkingEngine');
let mockState;
let manifest;
/**
* Initializes the state of the mocks. Needs to be called in the setUp method of
* the unit test.
*/
const setUp = function() {
mockState = {
outputMessages: {},
listeners: {},
loadedUri: null,
preferredTextLanguage: '',
preferredAudioLanguage: '',
configuration: null,
responseFilter: null,
isSilent: false,
customMessageListener: undefined,
mediaElementState: {
removedAttributes: [],
},
manifestState: {
isLive: false,
windowDuration: 20,
startTime: 0,
delay: 10,
},
getManifest: () => manifest,
setManifest: (m) => {
manifest = m;
},
shakaError: {
severity: /** CRITICAL */ 2,
code: /** not 7000 (LOAD_INTERUPTED) */ 3,
category: /** any */ 1,
},
simulateLoad: simulateLoadSuccess,
/** @type {function(boolean)} */
setShakaThrowsOnLoad: (doThrow) => {
mockState.simulateLoad = doThrow ? throwShakaError : simulateLoadSuccess;
},
simulateUnload: simulateUnloadSuccess,
/** @type {function(boolean)} */
setShakaThrowsOnUnload: (doThrow) => {
mockState.simulateUnload =
doThrow ? throwShakaError : simulateUnloadSuccess;
},
onSenderConnected: undefined,
onSenderDisconnected: undefined,
};
manifest = {
periods: [{startTime: mockState.manifestState.startTime}],
presentationTimeline: {
getDuration: () => mockState.manifestState.windowDuration,
isLive: () => mockState.manifestState.isLive,
getSegmentAvailabilityStart: () => 0,
getSegmentAvailabilityEnd: () => mockState.manifestState.windowDuration,
getSeekRangeStart: () => 0,
getSeekRangeEnd: () => mockState.manifestState.windowDuration -
mockState.manifestState.delay,
},
};
};
/**
* Simulates a successful `shakaPlayer.load` call.
*
* @param {string} uri The uri to load.
*/
const simulateLoadSuccess = (uri) => {
mockState.loadedUri = uri;
notifyListeners('streaming');
};
/** Simulates a successful `shakaPlayer.unload` call. */
const simulateUnloadSuccess = () => {
mockState.loadedUri = undefined;
notifyListeners('unloading');
};
/** @throws {!ShakaError} Thrown in any case. */
const throwShakaError = () => {
throw mockState.shakaError;
};
/**
* Adds a fake event listener.
*
* @param {string} type The type of the listener.
* @param {function(!Object)} listener The callback listener.
*/
const addEventListener = function(type, listener) {
mockState.listeners[type] = mockState.listeners[type] || [];
mockState.listeners[type].push(listener);
};
/**
* Notifies the fake listeners of the given type.
*
* @param {string} type The type of the listener to notify.
*/
const notifyListeners = function(type) {
if (mockState.isSilent || !mockState.listeners[type]) {
return;
}
for (let i = 0; i < mockState.listeners[type].length; i++) {
mockState.listeners[type][i]({
type: type
});
}
};
/**
* Creates an observable for which listeners can be added.
*
* @return {!Object} An observable object.
*/
const createObservable = () => {
return {
addEventListener: (type, listener) => {
addEventListener(type, listener);
},
};
};
/**
* Creates a fake for the shaka player.
*
* @return {!shaka.Player} A shaka player mock object.
*/
const createShakaFake = () => {
const shakaFake = /** @type {!shaka.Player} */(createObservable());
const mediaElement = createMediaElementFake();
/**
* @return {!HTMLMediaElement} A media element.
*/
shakaFake.getMediaElement = () => mediaElement;
shakaFake.getAudioLanguages = () => [];
shakaFake.getVariantTracks = () => [];
shakaFake.configure = (configuration) => {
mockState.configuration = configuration;
return true;
};
shakaFake.selectTextLanguage = (language) => {
mockState.preferredTextLanguage = language;
};
shakaFake.selectAudioLanguage = (language) => {
mockState.preferredAudioLanguage = language;
};
shakaFake.getManifest = () => manifest;
shakaFake.unload = async () => mockState.simulateUnload();
shakaFake.load = async (uri) => mockState.simulateLoad(uri);
shakaFake.getNetworkingEngine = () => {
return /** @type {!NetworkingEngine} */ ({
registerResponseFilter: (responseFilter) => {
mockState.responseFilter = responseFilter;
},
unregisterResponseFilter: (responseFilter) => {
if (mockState.responseFilter !== responseFilter) {
throw new Error('unregistering invalid response filter');
} else {
mockState.responseFilter = null;
}
},
});
};
return shakaFake;
};
/**
* Creates a fake for a media element.
*
* @return {!HTMLMediaElement} A media element fake.
*/
const createMediaElementFake = () => {
const mediaElementFake = /** @type {!HTMLMediaElement} */(createObservable());
mediaElementFake.load = () => {
// Do nothing.
};
mediaElementFake.play = () => {
mediaElementFake.paused = false;
notifyListeners('playing');
return Promise.resolve();
};
mediaElementFake.pause = () => {
mediaElementFake.paused = true;
notifyListeners('pause');
};
mediaElementFake.seekable = /** @type {!TimeRanges} */({
length: 1,
start: (index) => mockState.manifestState.startTime,
end: (index) => mockState.manifestState.windowDuration,
});
mediaElementFake.removeAttribute = (name) => {
mockState.mediaElementState.removedAttributes.push(name);
if (name === 'src') {
mockState.loadedUri = null;
}
};
mediaElementFake.hasAttribute = (name) => {
return name === 'src' && !!mockState.loadedUri;
};
mediaElementFake.buffered = /** @type {!TimeRanges} */ ({
length: 0,
start: (index) => null,
end: (index) => null,
});
mediaElementFake.paused = true;
return mediaElementFake;
};
/**
* Creates a cast receiver manager fake.
*
* @return {!Object} A cast receiver manager fake.
*/
const createCastReceiverContextFake = () => {
return {
addCustomMessageListener: (namespace, listener) => {
mockState.customMessageListener = listener;
},
sendCustomMessage: (namespace, senderId, message) => {
mockState.outputMessages[senderId] =
mockState.outputMessages[senderId] || [];
mockState.outputMessages[senderId].push(message);
},
addEventListener: (eventName, listener) => {
switch (eventName) {
case 'sender_connected':
mockState.onSenderConnected = listener;
break;
case 'sender_disconnected':
mockState.onSenderDisconnected = listener;
break;
}
},
getSenders: () => [{id: 'sender0'}],
start: () => {},
};
};
/**
* Returns the state of the mocks.
*
* @return {?Object}
*/
const state = () => mockState;
exports.createCastReceiverContextFake = createCastReceiverContextFake;
exports.createShakaFake = createShakaFake;
exports.notifyListeners = notifyListeners;
exports.setUp = setUp;
exports.state = state;
cast_receiver_app/test/playback_info_view_test.js deleted 100644 → 0
/**
* Copyright (C) 2019 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Unit tests for the playback info view.
*/
goog.module('exoplayer.cast.test.PlaybackInfoView');
goog.setTestOnly();
const PlaybackInfoView = goog.require('exoplayer.cast.PlaybackInfoView');
const Player = goog.require('exoplayer.cast.Player');
const testSuite = goog.require('goog.testing.testSuite');
/** The state of the player mock */
let mockState;
/**
* Initializes the state of the mock. Needs to be called in the setUp method of
* the unit test.
*/
const setUpMockState = function() {
mockState = {
playWhenReady: false,
currentPositionMs: 1000,
durationMs: 10 * 1000,
playbackState: 'READY',
discontinuityReason: undefined,
listeners: [],
currentMediaItem: {
mimeType: 'video/*',
},
};
};
/** Notifies registered listeners with the current player state. */
const notifyListeners = function() {
if (!mockState) {
console.warn(
'mock state not initialized. Did you call setUp ' +
'when setting up the test case?');
}
mockState.listeners.forEach((listener) => {
listener({
playWhenReady: mockState.playWhenReady,
playbackState: mockState.playbackState,
playbackPosition: {
currentPositionMs: mockState.currentPositionMs,
discontinuityReason: mockState.discontinuityReason,
},
});
});
};
/**
* Creates a sufficient mock of the Player.
*
* @return {!Player}
*/
const createPlayerMock = function() {
return /** @type {!Player} */ ({
addPlayerListener: (listener) => {
mockState.listeners.push(listener);
},
getPlayWhenReady: () => mockState.playWhenReady,
getPlaybackState: () => mockState.playbackState,
getCurrentPositionMs: () => mockState.currentPositionMs,
getDurationMs: () => mockState.durationMs,
getCurrentMediaItem: () => mockState.currentMediaItem,
});
};
/** Inserts the DOM structure the playback info view needs. */
const insertComponentDom = function() {
const container = appendChild(document.body, 'div', 'container-id');
appendChild(container, 'div', 'exo_elapsed_time');
appendChild(container, 'div', 'exo_elapsed_time_label');
appendChild(container, 'div', 'exo_duration_label');
};
/**
* Creates and appends a child to the parent element.
*
* @param {!Element} parent The parent element.
* @param {string} tagName The tag name of the child element.
* @param {string} id The id of the child element.
* @return {!Element} The appended child element.
*/
const appendChild = function(parent, tagName, id) {
const child = document.createElement(tagName);
child.id = id;
parent.appendChild(child);
return child;
};
/** Removes the inserted elements from the DOM again. */
const removeComponentDom = function() {
const container = document.getElementById('container-id');
if (container) {
container.parentNode.removeChild(container);
}
};
let playbackInfoView;
testSuite({
setUp() {
insertComponentDom();
setUpMockState();
playbackInfoView = new PlaybackInfoView(
createPlayerMock(), /** containerId= */ 'container-id');
playbackInfoView.setShowTimeoutMs(1);
},
tearDown() {
removeComponentDom();
},
/** Tests setting the show timeout. */
testSetShowTimeout() {
assertEquals(1, playbackInfoView.showTimeoutMs_);
playbackInfoView.setShowTimeoutMs(10);
assertEquals(10, playbackInfoView.showTimeoutMs_);
},
/** Tests rendering the duration to the DOM. */
testRenderDuration() {
const el = document.getElementById('exo_duration_label');
assertEquals('00:10', el.firstChild.firstChild.nodeValue);
mockState.durationMs = 35 * 1000;
notifyListeners();
assertEquals('00:35', el.firstChild.firstChild.nodeValue);
mockState.durationMs =
(12 * 60 * 60 * 1000) + (20 * 60 * 1000) + (13 * 1000);
notifyListeners();
assertEquals('12:20:13', el.firstChild.firstChild.nodeValue);
mockState.durationMs = -1000;
notifyListeners();
assertNull(el.nodeValue);
},
/** Tests rendering the playback position to the DOM. */
testRenderPlaybackPosition() {
const el = document.getElementById('exo_elapsed_time_label');
assertEquals('00:01', el.firstChild.firstChild.nodeValue);
mockState.currentPositionMs = 2000;
notifyListeners();
assertEquals('00:02', el.firstChild.firstChild.nodeValue);
mockState.currentPositionMs =
(12 * 60 * 60 * 1000) + (20 * 60 * 1000) + (13 * 1000);
notifyListeners();
assertEquals('12:20:13', el.firstChild.firstChild.nodeValue);
mockState.currentPositionMs = -1000;
notifyListeners();
assertNull(el.nodeValue);
mockState.currentPositionMs = 0;
notifyListeners();
assertEquals('00:00', el.firstChild.firstChild.nodeValue);
},
/** Tests rendering the timebar width reflects position and duration. */
testRenderTimebar() {
const el = document.getElementById('exo_elapsed_time');
assertEquals('10%', el.style.width);
mockState.currentPositionMs = 0;
notifyListeners();
assertEquals('0px', el.style.width);
mockState.currentPositionMs = 5 * 1000;
notifyListeners();
assertEquals('50%', el.style.width);
mockState.currentPositionMs = mockState.durationMs * 2;
notifyListeners();
assertEquals('100%', el.style.width);
mockState.currentPositionMs = -1;
notifyListeners();
assertEquals('0px', el.style.width);
},
/** Tests whether the update timeout is set and removed. */
testUpdateTimeout_setAndRemoved() {
assertFalse(playbackInfoView.updateTimeout_.isOngoing());
mockState.playWhenReady = true;
notifyListeners();
assertTrue(playbackInfoView.updateTimeout_.isOngoing());
mockState.playWhenReady = false;
notifyListeners();
assertFalse(playbackInfoView.updateTimeout_.isOngoing());
},
/** Tests whether the show timeout is set when playback starts. */
testHideTimeout_setAndRemoved() {
assertFalse(playbackInfoView.hideTimeout_.isOngoing());
mockState.playWhenReady = true;
notifyListeners();
assertNotUndefined(playbackInfoView.hideTimeout_);
assertTrue(playbackInfoView.hideTimeout_.isOngoing());
mockState.playWhenReady = false;
notifyListeners();
assertFalse(playbackInfoView.hideTimeout_.isOngoing());
},
/** Test whether the view switches to always on for audio media. */
testAlwaysOnForAudio() {
playbackInfoView.setShowTimeoutMs(50);
assertEquals(50, playbackInfoView.showTimeoutMs_);
// The player transitions from video to audio stream.
mockState.discontinuityReason = 'PERIOD_TRANSITION';
mockState.currentMediaItem.mimeType = 'audio/*';
notifyListeners();
assertEquals(0, playbackInfoView.showTimeoutMs_);
mockState.discontinuityReason = 'PERIOD_TRANSITION';
mockState.currentMediaItem.mimeType = 'video/*';
notifyListeners();
assertEquals(50, playbackInfoView.showTimeoutMs_);
},
});
cast_receiver_app/test/player_test.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Unit tests for playback methods.
*/
goog.module('exoplayer.cast.test');
goog.setTestOnly();
const ConfigurationFactory = goog.require('exoplayer.cast.ConfigurationFactory');
const Player = goog.require('exoplayer.cast.Player');
const mocks = goog.require('exoplayer.cast.test.mocks');
const testSuite = goog.require('goog.testing.testSuite');
const util = goog.require('exoplayer.cast.test.util');
let player;
let shakaFake;
testSuite({
setUp() {
mocks.setUp();
shakaFake = mocks.createShakaFake();
player = new Player(shakaFake, new ConfigurationFactory());
},
/** Tests the player initialisation */
testPlayerInitialisation() {
mocks.state().isSilent = true;
const states = [];
let stateCounter = 0;
let currentState;
player.addPlayerListener((playerState) => {
states.push(playerState);
});
// Dump the initial state manually.
player.invalidate();
stateCounter++;
assertEquals(stateCounter, states.length);
currentState = states[stateCounter - 1];
assertEquals(0, currentState.mediaQueue.length);
assertEquals(0, currentState.windowIndex);
assertNull(currentState.playbackPosition);
// Seek with uuid to prepare with later
const uuid = 'uuid1';
player.seekToUuid(uuid, 30 * 1000);
stateCounter++;
assertEquals(stateCounter, states.length);
currentState = states[stateCounter - 1];
assertEquals(30 * 1000, player.getCurrentPositionMs());
assertEquals(0, player.getCurrentWindowIndex());
assertEquals(-1, player.windowIndex_);
assertEquals(1, currentState.playbackPosition.periodId);
assertEquals(uuid, currentState.playbackPosition.uuid);
assertEquals(uuid, player.uuidToPrepare_);
// Add a DASH media item.
player.addQueueItems(0, util.queue.slice(0, 2));
stateCounter++;
assertEquals(stateCounter, states.length);
currentState = states[stateCounter - 1];
assertEquals('IDLE', currentState.playbackState);
assertNotNull(currentState.playbackPosition);
util.assertUuidIndexMap(player.queueUuidIndexMap_, currentState.mediaQueue);
// Prepare.
player.prepare();
stateCounter++;
assertEquals(stateCounter, states.length);
currentState = states[stateCounter - 1];
assertEquals(2, currentState.mediaQueue.length);
assertEquals('BUFFERING', currentState.playbackState);
assertEquals(
Player.DUMMY_MEDIA_ITEM_INFO, currentState.mediaItemsInfo[uuid]);
assertNull(player.uuidToPrepare_);
// The video element starts waiting.
mocks.state().isSilent = false;
mocks.notifyListeners('waiting');
// Nothing happens, masked buffering state after preparing.
assertEquals(stateCounter, states.length);
// The manifest arrives.
mocks.notifyListeners('streaming');
stateCounter++;
assertEquals(stateCounter, states.length);
currentState = states[stateCounter - 1];
assertEquals(2, currentState.mediaQueue.length);
assertEquals('BUFFERING', currentState.playbackState);
assertEquals(uuid, currentState.playbackPosition.uuid);
assertEquals(0, currentState.playbackPosition.periodId);
assertEquals(30 * 1000, currentState.playbackPosition.positionMs);
// The dummy media item info has been replaced by the real one.
assertEquals(20000000, currentState.mediaItemsInfo[uuid].windowDurationUs);
assertEquals(0, currentState.mediaItemsInfo[uuid].defaultStartPositionUs);
assertEquals(0, currentState.mediaItemsInfo[uuid].positionInFirstPeriodUs);
assertTrue(currentState.mediaItemsInfo[uuid].isSeekable);
assertFalse(currentState.mediaItemsInfo[uuid].isDynamic);
// Tracks have initially changed.
mocks.notifyListeners('trackschanged');
// Nothing happens because the media item info remains the same.
assertEquals(stateCounter, states.length);
// The video element reports the first frame rendered.
mocks.notifyListeners('loadeddata');
stateCounter++;
assertEquals(stateCounter, states.length);
currentState = states[stateCounter - 1];
assertEquals(2, currentState.mediaQueue.length);
assertEquals('READY', currentState.playbackState);
assertEquals(uuid, currentState.playbackPosition.uuid);
assertEquals(0, currentState.playbackPosition.periodId);
assertEquals(30 * 1000, currentState.playbackPosition.positionMs);
// Playback starts.
mocks.notifyListeners('playing');
// Nothing happens; we are ready already.
assertEquals(stateCounter, states.length);
// Add another queue item.
player.addQueueItems(1, util.queue.slice(3, 4));
stateCounter++;
assertEquals(stateCounter, states.length);
mocks.state().isSilent = true;
// Seek to the next queue item.
player.seekToWindow(1, 0);
stateCounter++;
assertEquals(stateCounter, states.length);
currentState = states[stateCounter - 1];
const uuid1 = currentState.mediaQueue[1].uuid;
assertEquals(
Player.DUMMY_MEDIA_ITEM_INFO, currentState.mediaItemsInfo[uuid1]);
util.assertUuidIndexMap(player.queueUuidIndexMap_, currentState.mediaQueue);
// The video element starts waiting.
mocks.state().isSilent = false;
mocks.notifyListeners('waiting');
// Nothing happens, masked buffering state after preparing.
assertEquals(stateCounter, states.length);
// The manifest arrives.
mocks.notifyListeners('streaming');
stateCounter++;
assertEquals(stateCounter, states.length);
currentState = states[stateCounter - 1];
// The dummy media item info has been replaced by the real one.
assertEquals(20000000, currentState.mediaItemsInfo[uuid].windowDurationUs);
assertEquals(0, currentState.mediaItemsInfo[uuid].defaultStartPositionUs);
assertEquals(0, currentState.mediaItemsInfo[uuid].positionInFirstPeriodUs);
assertTrue(currentState.mediaItemsInfo[uuid].isSeekable);
assertFalse(currentState.mediaItemsInfo[uuid].isDynamic);
},
/** Tests next and previous window when not yet prepared. */
testNextPreviousWindow_notPrepared() {
assertEquals(-1, player.getNextWindowIndex());
assertEquals(-1, player.getPreviousWindowIndex());
player.addQueueItems(0, util.queue.slice(0, 2));
assertEquals(-1, player.getNextWindowIndex());
assertEquals(-1, player.getPreviousWindowIndex());
},
/** Tests setting play when ready. */
testPlayWhenReady() {
player.addQueueItems(0, util.queue.slice(0, 3));
let playWhenReady = false;
player.addPlayerListener((state) => {
playWhenReady = state.playWhenReady;
});
assertEquals(false, player.getPlayWhenReady());
assertEquals(false, playWhenReady);
player.setPlayWhenReady(true);
assertEquals(true, player.getPlayWhenReady());
assertEquals(true, playWhenReady);
player.setPlayWhenReady(false);
assertEquals(false, player.getPlayWhenReady());
assertEquals(false, playWhenReady);
},
/** Tests seeking to another position in the actual window. */
async testSeek_inWindow() {
player.addQueueItems(0, util.queue.slice(0, 3));
await player.seekToWindow(0, 1000);
assertEquals(1, shakaFake.getMediaElement().currentTime);
assertEquals(1000, player.getCurrentPositionMs());
assertEquals(0, player.getCurrentWindowIndex());
},
/** Tests seeking to another window. */
async testSeek_nextWindow() {
player.addQueueItems(0, util.queue.slice(0, 3));
await player.prepare();
assertEquals(util.queue[0].media.uri, shakaFake.getMediaElement().src);
assertEquals(-1, player.getPreviousWindowIndex());
assertEquals(1, player.getNextWindowIndex());
player.seekToWindow(1, 2000);
assertEquals(0, player.getPreviousWindowIndex());
assertEquals(2, player.getNextWindowIndex());
assertEquals(2000, player.getCurrentPositionMs());
assertEquals(1, player.getCurrentWindowIndex());
assertEquals(util.queue[1].media.uri, mocks.state().loadedUri);
},
/** Tests the repeat mode 'none' */
testRepeatMode_none() {
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
assertEquals(Player.RepeatMode.OFF, player.getRepeatMode());
assertEquals(-1, player.getPreviousWindowIndex());
assertEquals(1, player.getNextWindowIndex());
player.seekToWindow(2, 0);
assertEquals(1, player.getPreviousWindowIndex());
assertEquals(-1, player.getNextWindowIndex());
},
/** Tests the repeat mode 'all'. */
testRepeatMode_all() {
let repeatMode;
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
player.addPlayerListener((state) => {
repeatMode = state.repeatMode;
});
player.setRepeatMode(Player.RepeatMode.ALL);
assertEquals(Player.RepeatMode.ALL, repeatMode);
player.seekToWindow(0,0);
assertEquals(2, player.getPreviousWindowIndex());
assertEquals(1, player.getNextWindowIndex());
player.seekToWindow(2, 0);
assertEquals(1, player.getPreviousWindowIndex());
assertEquals(0, player.getNextWindowIndex());
},
/**
* Tests navigation within the queue when repeat mode and shuffle mode is on.
*/
testRepeatMode_all_inShuffleMode() {
const initialOrder = [2, 1, 0];
let shuffleOrder;
let windowIndex;
player.addQueueItems(0, util.queue.slice(0, 3), initialOrder);
player.prepare();
player.addPlayerListener((state) => {
shuffleOrder = state.shuffleOrder;
windowIndex = state.windowIndex;
});
player.setRepeatMode(Player.RepeatMode.ALL);
player.setShuffleModeEnabled(true);
assertEquals(windowIndex, player.shuffleOrder_[player.shuffleIndex_]);
assertArrayEquals(initialOrder, shuffleOrder);
player.seekToWindow(shuffleOrder[2], 0);
assertEquals(shuffleOrder[2], windowIndex);
assertEquals(shuffleOrder[0], player.getNextWindowIndex());
assertEquals(shuffleOrder[1], player.getPreviousWindowIndex());
player.seekToWindow(shuffleOrder[0], 0);
assertEquals(shuffleOrder[0], windowIndex);
},
/** Tests the repeat mode 'one' */
testRepeatMode_one() {
let repeatMode;
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
player.addPlayerListener((state) => {
repeatMode = state.repeatMode;
});
player.setRepeatMode(Player.RepeatMode.ONE);
assertEquals(Player.RepeatMode.ONE, repeatMode);
assertEquals(0, player.getPreviousWindowIndex());
assertEquals(0, player.getNextWindowIndex());
player.seekToWindow(1, 0);
assertEquals(1, player.getPreviousWindowIndex());
assertEquals(1, player.getNextWindowIndex());
player.setShuffleModeEnabled(true);
assertEquals(1, player.getPreviousWindowIndex());
assertEquals(1, player.getNextWindowIndex());
},
/** Tests building a media item info from the manifest. */
testBuildMediaItemInfo_fromManifest() {
let mediaItemInfos = null;
player.addQueueItems(0, util.queue.slice(0, 3));
player.addPlayerListener((state) => {
mediaItemInfos = state.mediaItemsInfo;
});
player.seekToWindow(1, 0);
player.prepare();
assertUndefined(mediaItemInfos['uuid0']);
const mediaItemInfo = mediaItemInfos['uuid1'];
assertNotUndefined(mediaItemInfo);
assertFalse(mediaItemInfo.isDynamic);
assertTrue(mediaItemInfo.isSeekable);
assertEquals(0, mediaItemInfo.defaultStartPositionUs);
assertEquals(20 * 1000 * 1000, mediaItemInfo.windowDurationUs);
assertEquals(1, mediaItemInfo.periods.length);
assertEquals(20 * 1000 * 1000, mediaItemInfo.periods[0].durationUs);
},
/** Tests building a media item info with multiple periods. */
testBuildMediaItemInfo_fromManifest_multiPeriod() {
let mediaItemInfos = null;
player.addQueueItems(0, util.queue.slice(0, 3));
player.addPlayerListener((state) => {
mediaItemInfos = state.mediaItemsInfo;
});
// Setting manifest properties to emulate a multiperiod stream manifest.
mocks.state().getManifest().periods.push({startTime: 20});
mocks.state().manifestState.windowDuration = 50;
player.seekToWindow(1, 0);
player.prepare();
const mediaItemInfo = mediaItemInfos['uuid1'];
assertNotUndefined(mediaItemInfo);
assertFalse(mediaItemInfo.isDynamic);
assertTrue(mediaItemInfo.isSeekable);
assertEquals(0, mediaItemInfo.defaultStartPositionUs);
assertEquals(50 * 1000 * 1000, mediaItemInfo.windowDurationUs);
assertEquals(2, mediaItemInfo.periods.length);
assertEquals(20 * 1000 * 1000, mediaItemInfo.periods[0].durationUs);
assertEquals(30 * 1000 * 1000, mediaItemInfo.periods[1].durationUs);
},
/** Tests building a media item info from a live manifest. */
testBuildMediaItemInfo_fromManifest_live() {
let mediaItemInfos = null;
player.addQueueItems(0, util.queue.slice(0, 3));
player.addPlayerListener((state) => {
mediaItemInfos = state.mediaItemsInfo;
});
// Setting manifest properties to emulate a live stream manifest.
mocks.state().manifestState.isLive = true;
mocks.state().manifestState.windowDuration = 30;
mocks.state().manifestState.delay = 10;
mocks.state().getManifest().periods.push({startTime: 20});
player.seekToWindow(1, 0);
player.prepare();
const mediaItemInfo = mediaItemInfos['uuid1'];
assertNotUndefined(mediaItemInfo);
assertTrue(mediaItemInfo.isDynamic);
assertTrue(mediaItemInfo.isSeekable);
assertEquals(20 * 1000 * 1000, mediaItemInfo.defaultStartPositionUs);
assertEquals(20 * 1000 * 1000, mediaItemInfo.windowDurationUs);
assertEquals(2, mediaItemInfo.periods.length);
assertEquals(20 * 1000 * 1000, mediaItemInfo.periods[0].durationUs);
assertEquals(Infinity, mediaItemInfo.periods[1].durationUs);
},
/** Tests whether the shaka request filter is set for life streams. */
testRequestFilterIsSetAndRemovedForLive() {
player.addQueueItems(0, util.queue.slice(0, 3));
// Set manifest properties to emulate a live stream manifest.
mocks.state().manifestState.isLive = true;
mocks.state().manifestState.windowDuration = 30;
mocks.state().manifestState.delay = 10;
mocks.state().getManifest().periods.push({startTime: 20});
assertNull(mocks.state().responseFilter);
assertFalse(player.isManifestFilterRegistered_);
player.seekToWindow(1, 0);
player.prepare();
assertNotNull(mocks.state().responseFilter);
assertTrue(player.isManifestFilterRegistered_);
// Set manifest properties to emulate a non-live stream */
mocks.state().manifestState.isLive = false;
mocks.state().manifestState.windowDuration = 20;
mocks.state().manifestState.delay = 0;
mocks.state().getManifest().periods.push({startTime: 20});
player.seekToWindow(0, 0);
assertNull(mocks.state().responseFilter);
assertFalse(player.isManifestFilterRegistered_);
},
/** Tests whether the media info is removed when queue item is removed. */
testRemoveMediaItemInfo() {
let mediaItemInfos = null;
player.addQueueItems(0, util.queue.slice(0, 3));
player.addPlayerListener((state) => {
mediaItemInfos = state.mediaItemsInfo;
});
player.seekToWindow(1, 0);
player.prepare();
assertNotUndefined(mediaItemInfos['uuid1']);
player.removeQueueItems(['uuid1']);
assertUndefined(mediaItemInfos['uuid1']);
},
/** Tests shuffling. */
testSetShuffeModeEnabled() {
let shuffleModeEnabled = false;
player.addQueueItems(0, util.queue.slice(0, 3));
player.addPlayerListener((state) => {
shuffleModeEnabled = state.shuffleModeEnabled;
});
player.setShuffleModeEnabled(true);
assertTrue(shuffleModeEnabled);
player.setShuffleModeEnabled(false);
assertFalse(shuffleModeEnabled);
},
/** Tests setting a new playback order. */
async testSetShuffleOrder() {
const defaultOrder = [0, 1, 2];
let shuffleOrder;
player.addPlayerListener((state) => {
shuffleOrder = state.shuffleOrder;
});
await player.addQueueItems(0, util.queue.slice(0, 3), defaultOrder);
assertArrayEquals(defaultOrder, shuffleOrder);
player.setShuffleOrder_([2, 1, 0]);
assertArrayEquals([2, 1, 0], player.shuffleOrder_);
},
/** Tests setting a new playback order with incorrect length. */
async testSetShuffleOrder_incorrectLength() {
const defaultOrder = [0, 1, 2];
let shuffleOrder;
player.addPlayerListener((state) => {
shuffleOrder = state.shuffleOrder;
});
await player.addQueueItems(0, util.queue.slice(0, 3), defaultOrder);
assertArrayEquals(defaultOrder, shuffleOrder);
shuffleOrder = undefined;
player.setShuffleOrder_([2, 1]);
assertUndefined(shuffleOrder);
},
/** Tests falling into ENDED when prepared with empty queue. */
testPrepare_withEmptyQueue() {
player.seekToUuid('uuid1000', 1000);
assertEquals('uuid1000', player.uuidToPrepare_);
player.prepare();
assertEquals('ENDED', player.getPlaybackState());
assertNull(player.uuidToPrepare_);
player.seekToUuid('uuid1000', 1000);
assertNull(player.uuidToPrepare_);
},
});
cast_receiver_app/test/queue_test.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Unit tests for queue manipulations.
*/
goog.module('exoplayer.cast.test.queue');
goog.setTestOnly();
const ConfigurationFactory = goog.require('exoplayer.cast.ConfigurationFactory');
const Player = goog.require('exoplayer.cast.Player');
const mocks = goog.require('exoplayer.cast.test.mocks');
const testSuite = goog.require('goog.testing.testSuite');
const util = goog.require('exoplayer.cast.test.util');
let player;
testSuite({
setUp() {
mocks.setUp();
player = new Player(mocks.createShakaFake(), new ConfigurationFactory());
},
/** Tests adding queue items. */
testAddQueueItem() {
let queue = [];
player.addPlayerListener((state) => {
queue = state.mediaQueue;
});
assertEquals(0, queue.length);
player.addQueueItems(0, util.queue.slice(0, 3));
assertEquals(util.queue[0].media.uri, queue[0].media.uri);
assertEquals(util.queue[1].media.uri, queue[1].media.uri);
assertEquals(util.queue[2].media.uri, queue[2].media.uri);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests that duplicate queue items are ignored. */
testAddDuplicateQueueItem() {
let queue = [];
player.addPlayerListener((state) => {
queue = state.mediaQueue;
});
assertEquals(0, queue.length);
// Insert three items.
player.addQueueItems(0, util.queue.slice(0, 3));
// Insert two of which the first is a duplicate.
player.addQueueItems(1, util.queue.slice(2, 4));
assertEquals(4, queue.length);
assertArrayEquals(
['uuid0', 'uuid3', 'uuid1', 'uuid2'], queue.slice().map((i) => i.uuid));
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests moving queue items. */
testMoveQueueItem() {
const shuffleOrder = [0, 2, 1];
let queue = [];
player.addPlayerListener((state) => {
queue = state.mediaQueue;
});
player.addQueueItems(0, util.queue.slice(0, 3));
player.moveQueueItem('uuid0', 1, shuffleOrder);
assertEquals(util.queue[1].media.uri, queue[0].media.uri);
assertEquals(util.queue[0].media.uri, queue[1].media.uri);
assertEquals(util.queue[2].media.uri, queue[2].media.uri);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
queue = undefined;
// invalid to index
player.moveQueueItem('uuid0', 11, [0, 1, 2]);
assertTrue(typeof queue === 'undefined');
assertArrayEquals(shuffleOrder, player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, player.queue_);
// negative to index
player.moveQueueItem('uuid0', -11, shuffleOrder);
assertTrue(typeof queue === 'undefined');
assertArrayEquals(shuffleOrder, player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, player.queue_);
// unknown uuid
player.moveQueueItem('unknown', 1, shuffleOrder);
assertTrue(typeof queue === 'undefined');
assertArrayEquals(shuffleOrder, player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, player.queue_);
},
/** Tests removing queue items. */
testRemoveQueueItems() {
let queue = [];
player.addPlayerListener((state) => {
queue = state.mediaQueue;
});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
player.prepare();
player.seekToWindow(1, 0);
assertEquals(1, player.getCurrentWindowIndex());
util.assertUuidIndexMap(player.queueUuidIndexMap_, player.queue_);
// Remove the first item.
player.removeQueueItems(['uuid0']);
assertEquals(2, queue.length);
assertEquals(util.queue[1].media.uri, queue[0].media.uri);
assertEquals(util.queue[2].media.uri, queue[1].media.uri);
assertEquals(0, player.getCurrentWindowIndex());
assertArrayEquals([1,0], player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, player.queue_);
// Calling stop without reseting preserves the queue.
player.stop(false);
assertEquals('uuid1', player.uuidToPrepare_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, player.queue_);
// Remove the item at the end of the queue.
player.removeQueueItems(['uuid2']);
util.assertUuidIndexMap(player.queueUuidIndexMap_, player.queue_);
// Remove the last remaining item in the queue.
player.removeQueueItems(['uuid1']);
assertEquals(0, queue.length);
assertEquals('IDLE', player.getPlaybackState());
assertEquals(0, player.getCurrentWindowIndex());
assertArrayEquals([], player.shuffleOrder_);
assertNull(player.uuidToPrepare_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, player.queue_);
},
/** Tests removing multiple unordered queue items at once. */
testRemoveQueueItems_multiple() {
let queue = [];
player.addPlayerListener((state) => {
queue = state.mediaQueue;
});
player.addQueueItems(0, util.queue.slice(0, 6), []);
player.prepare();
assertEquals(6, queue.length);
player.removeQueueItems(['uuid1', 'uuid5', 'uuid3']);
assertArrayEquals(['uuid0', 'uuid2', 'uuid4'], queue.map((i) => i.uuid));
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests whether stopping with reset=true resets queue and uuidToIndexMap */
testStop_resetTrue() {
let queue = [];
player.addPlayerListener((state) => {
queue = state.mediaQueue;
});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
player.prepare();
player.stop(true);
assertEquals(0, player.queue_.length);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
});
cast_receiver_app/test/receiver_test.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Unit tests for receiver.
*/
goog.module('exoplayer.cast.test.receiver');
goog.setTestOnly();
const ConfigurationFactory = goog.require('exoplayer.cast.ConfigurationFactory');
const MessageDispatcher = goog.require('exoplayer.cast.MessageDispatcher');
const Player = goog.require('exoplayer.cast.Player');
const Receiver = goog.require('exoplayer.cast.Receiver');
const mocks = goog.require('exoplayer.cast.test.mocks');
const testSuite = goog.require('goog.testing.testSuite');
const util = goog.require('exoplayer.cast.test.util');
/** @type {?Player|undefined} */
let player;
/** @type {!Array<!MediaItem>} */
let queue = [];
let shakaFake;
let castContextMock;
/**
* Sends a message to the receiver under test.
*
* @param {!Object} message The message to send as json.
*/
const sendMessage = function(message) {
mocks.state().customMessageListener({
data: message,
senderId: 'sender0',
});
};
/**
* Creates a valid media item with the suffix appended to each field.
*
* @param {string} suffix The suffix to append to the fields value.
* @return {!Object} The media item.
*/
const createMediaItem = function(suffix) {
return {
uuid: 'uuid' + suffix,
media: {uri: 'uri' + suffix},
mimeType: 'application/dash+xml',
};
};
let messageSequence = 0;
/**
* Creates a message in the format sent bey the sender app.
*
* @param {string} method The name of the method.
* @param {?Object} args The arguments.
* @return {!Object} The message.
*/
const createMessage = function (method, args) {
return {
method: method,
args: args,
sequenceNumber: ++messageSequence,
};
};
/**
* Asserts the `playerState` is in the same state as just after creation of the
* player.
*
* @param {!PlayerState} playerState The player state to assert.
* @param {string} playbackState The expected playback state.
*/
const assertInitialState = function(playerState, playbackState) {
assertEquals(playbackState, playerState.playbackState);
// Assert the state is in initial state.
assertArrayEquals([], queue);
assertEquals(0, playerState.windowCount);
assertEquals(0, playerState.windowIndex);
assertUndefined(playerState.playbackError);
assertNull(playerState.playbackPosition);
// Assert player properties.
assertEquals(0, player.getDurationMs());
assertArrayEquals([], Object.entries(player.mediaItemInfoMap_));
assertEquals(0, player.windowPeriodIndex_);
assertEquals(999, player.playbackType_);
assertEquals(0, player.getCurrentWindowIndex());
assertEquals(Player.DUMMY_MEDIA_ITEM_INFO, player.windowMediaItemInfo_);
};
testSuite({
setUp() {
mocks.setUp();
shakaFake = mocks.createShakaFake();
castContextMock = mocks.createCastReceiverContextFake();
player = new Player(shakaFake, new ConfigurationFactory());
player.addPlayerListener((playerState) => {
queue = playerState.mediaQueue;
});
const messageDispatcher = new MessageDispatcher(
'urn:x-cast:com.google.exoplayer.cast', castContextMock);
new Receiver(player, castContextMock, messageDispatcher);
},
tearDown() {
queue = [];
},
/** Tests whether a status was sent to the sender on connect. */
testNotifyClientConnected() {
assertUndefined(mocks.state().outputMessages['sender0']);
sendMessage(createMessage('player.onClientConnected', {}));
const message = mocks.state().outputMessages['sender0'][0];
assertEquals(messageSequence, message.sequenceNumber);
},
/**
* Tests whether a custom message listener has been registered after
* construction.
*/
testCustomMessageListener() {
assertTrue(goog.isFunction(mocks.state().customMessageListener));
},
/** Tests set playWhenReady. */
testSetPlayWhenReady() {
let playWhenReady;
player.addPlayerListener((playerState) => {
playWhenReady = playerState.playWhenReady;
});
sendMessage(createMessage(
'player.setPlayWhenReady',
{ playWhenReady: true }
));
assertTrue(playWhenReady);
sendMessage(createMessage(
'player.setPlayWhenReady',
{ playWhenReady: false }
));
assertFalse(playWhenReady);
},
/** Tests setting repeat modes. */
testSetRepeatMode() {
let repeatMode;
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
player.addPlayerListener((playerState) => {
repeatMode = playerState.repeatMode;
});
sendMessage(createMessage(
'player.setRepeatMode',
{ repeatMode: Player.RepeatMode.ONE }
));
assertEquals(Player.RepeatMode.ONE, repeatMode);
assertEquals(0, player.getNextWindowIndex());
assertEquals(0, player.getPreviousWindowIndex());
sendMessage(createMessage(
'player.setRepeatMode',
{ repeatMode: Player.RepeatMode.ALL }
));
assertEquals(Player.RepeatMode.ALL, repeatMode);
assertEquals(1, player.getNextWindowIndex());
assertEquals(2, player.getPreviousWindowIndex());
sendMessage(createMessage(
'player.setRepeatMode',
{ repeatMode: Player.RepeatMode.OFF }
));
assertEquals(Player.RepeatMode.OFF, repeatMode);
assertEquals(1, player.getNextWindowIndex());
assertTrue(player.getPreviousWindowIndex() < 0);
},
/** Tests setting an invalid repeat mode value. */
testSetRepeatMode_invalid_noStateChange() {
let repeatMode;
player.addPlayerListener((playerState) => {
repeatMode = playerState.repeatMode;
});
sendMessage(createMessage(
'player.setRepeatMode',
{ repeatMode: "UNKNOWN" }
));
assertEquals(Player.RepeatMode.OFF, player.repeatMode_);
assertUndefined(repeatMode);
player.invalidate();
assertEquals(Player.RepeatMode.OFF, repeatMode);
},
/** Tests enabling and disabling shuffle mode. */
testSetShuffleModeEnabled() {
const enableMessage = createMessage('player.setShuffleModeEnabled', {
shuffleModeEnabled: true,
});
const disableMessage = createMessage('player.setShuffleModeEnabled', {
shuffleModeEnabled: false,
});
let shuffleModeEnabled;
player.addPlayerListener((state) => {
shuffleModeEnabled = state.shuffleModeEnabled;
});
assertFalse(player.shuffleModeEnabled_);
sendMessage(enableMessage);
assertTrue(shuffleModeEnabled);
sendMessage(disableMessage);
assertFalse(shuffleModeEnabled);
},
/** Tests adding a single media item to the queue. */
testAddMediaItem_single() {
const suffix = '0';
const jsonMessage = createMessage('player.addItems', {
index: 0,
items: [
createMediaItem(suffix),
],
shuffleOrder: [0],
});
sendMessage(jsonMessage);
assertEquals(1, queue.length);
assertEquals('uuid0', queue[0].uuid);
assertEquals('uri0', queue[0].media.uri);
assertArrayEquals([0], player.shuffleOrder_);
},
/** Tests adding multiple media items to the queue. */
testAddMediaItem_multiple() {
const shuffleOrder = [0, 2, 1];
const jsonMessage = createMessage('player.addItems', {
index: 0,
items: [
createMediaItem('0'),
createMediaItem('1'),
createMediaItem('2'),
],
shuffleOrder: shuffleOrder,
});
sendMessage(jsonMessage);
assertArrayEquals(['uuid0', 'uuid1', 'uuid2'], queue.map((x) => x.uuid));
assertArrayEquals(shuffleOrder, player.shuffleOrder_);
},
/** Tests adding a media item to end of the queue by omitting the index. */
testAddMediaItem_noindex_addstoend() {
const shuffleOrder = [1, 3, 2, 0];
const jsonMessage = createMessage('player.addItems', {
items: [createMediaItem('99')],
shuffleOrder: shuffleOrder,
});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
let queue = [];
player.addPlayerListener((playerState) => {
queue = playerState.mediaQueue;
});
sendMessage(jsonMessage);
assertEquals(4, queue.length);
assertEquals('uuid99', queue[3].uuid);
assertArrayEquals(shuffleOrder, player.shuffleOrder_);
},
/** Tests adding items with a shuffle order of invalid length. */
testAddMediaItems_invalidShuffleOrderLength() {
const shuffleOrder = [1, 3, 2];
const jsonMessage = createMessage('player.addItems', {
items: [createMediaItem('99')],
shuffleOrder: shuffleOrder,
});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
let queue = [];
player.addPlayerListener((playerState) => {
queue = playerState.mediaQueue;
});
sendMessage(jsonMessage);
assertEquals(4, queue.length);
assertEquals('uuid99', queue[3].uuid);
assertEquals(4, player.shuffleOrder_.length);
},
/** Tests inserting a media item to the queue. */
testAddMediaItem_insert() {
const index = 1;
const shuffleOrder = [1, 0, 3, 2, 4];
const firstInsertionMessage = createMessage('player.addItems', {
index,
items: [
createMediaItem('99'),
createMediaItem('100'),
],
shuffleOrder,
});
const prepareMessage = createMessage('player.prepare', {});
const secondInsertionMessage = createMessage('player.addItems', {
index,
items: [
createMediaItem('199'),
createMediaItem('1100'),
],
shuffleOrder,
});
// fill with three items
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
player.seekToUuid('uuid99', 0);
sendMessage(firstInsertionMessage);
// The window index does not change when IDLE.
assertEquals(1, player.getCurrentWindowIndex());
assertEquals(5, queue.length);
assertArrayEquals(shuffleOrder, player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
// Prepare sets the index by the uuid to which we seeked.
sendMessage(prepareMessage);
assertEquals(1, player.getCurrentWindowIndex());
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
// Add two items at the current window index.
sendMessage(secondInsertionMessage);
// Current window index is adjusted.
assertEquals(3, player.getCurrentWindowIndex());
assertEquals(7, queue.length);
assertEquals('uuid199', queue[index].uuid);
assertEquals(7, player.shuffleOrder_.length);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests adding a media item with an index larger than the queue size. */
testAddMediaItem_indexLargerThanQueueSize_addsToEnd() {
const index = 4;
const jsonMessage = createMessage('player.addItems', {
index: index,
items: [
createMediaItem('99'),
createMediaItem('100'),
],
shuffleOrder: [],
});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
assertArrayEquals(['uuid0', 'uuid1', 'uuid2'], queue.map((x) => x.uuid));
sendMessage(jsonMessage);
assertArrayEquals(['uuid0', 'uuid1', 'uuid2', 'uuid99', 'uuid100'],
queue.map((x) => x.uuid));
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests removing an item from the queue. */
testRemoveMediaItem() {
const jsonMessage =
createMessage('player.removeItems', {uuids: ['uuid1', 'uuid0']});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
assertArrayEquals(['uuid0', 'uuid1', 'uuid2'], queue.map((x) => x.uuid));
sendMessage(jsonMessage);
assertArrayEquals(['uuid2'], queue.map((x) => x.uuid));
assertArrayEquals([0], player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests removing the currently playing item from the queue. */
async testRemoveMediaItem_currentItem() {
const jsonMessage =
createMessage('player.removeItems', {uuids: ['uuid1', 'uuid0']});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
player.seekToWindow(1, 0);
player.prepare();
await sendMessage(jsonMessage);
assertArrayEquals(['uuid2'], queue.map((x) => x.uuid));
assertEquals(0, player.getCurrentWindowIndex());
assertEquals(util.queue[2].media.uri, shakaFake.getMediaElement().src);
assertArrayEquals([0], player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests removing items which affect the current window index. */
async testRemoveMediaItem_affectsWindowIndex() {
const jsonMessage =
createMessage('player.removeItems', {uuids: ['uuid1', 'uuid0']});
const currentUri = util.queue[4].media.uri;
player.addQueueItems(0, util.queue.slice(0, 6), [3, 2, 1, 4, 0, 5]);
player.prepare();
await player.seekToWindow(4, 2000);
assertEquals(currentUri, shakaFake.getMediaElement().src);
sendMessage(jsonMessage);
assertEquals(4, queue.length);
assertEquals('uuid4', queue[player.getCurrentWindowIndex()].uuid);
assertEquals(2, player.getCurrentWindowIndex());
assertEquals(currentUri, shakaFake.getMediaElement().src);
assertArrayEquals([1, 0, 2, 3], player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests removing the last item of the queue. */
testRemoveMediaItem_firstItem_windowIndexIsCorrect() {
const jsonMessage =
createMessage('player.removeItems', {uuids: ['uuid0']});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
player.seekToWindow(1, 0);
sendMessage(jsonMessage);
assertArrayEquals(['uuid1', 'uuid2'], queue.map((x) => x.uuid));
assertEquals(0, player.getCurrentWindowIndex());
assertArrayEquals([1, 0], player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests removing the last item of the queue. */
testRemoveMediaItem_lastItem_windowIndexIsCorrect() {
const jsonMessage =
createMessage('player.removeItems', {uuids: ['uuid2']});
player.addQueueItems(0, util.queue.slice(0, 3), [0, 2, 1]);
player.seekToWindow(2, 0);
player.prepare();
mocks.state().isSilent = true;
const states = [];
player.addPlayerListener((playerState) => {
states.push(playerState);
});
sendMessage(jsonMessage);
assertArrayEquals(['uuid0', 'uuid1'], queue.map((x) => x.uuid));
assertEquals(1, player.getCurrentWindowIndex());
assertArrayEquals([0, 1], player.shuffleOrder_);
assertEquals(1, states.length);
assertEquals(Player.PlaybackState.BUFFERING, states[0].playbackState);
assertEquals(
Player.DiscontinuityReason.PERIOD_TRANSITION,
states[0].playbackPosition.discontinuityReason);
assertEquals(
Player.DUMMY_MEDIA_ITEM_INFO, states[0].mediaItemsInfo['uuid1']);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests removing items all items. */
testRemoveMediaItem_removeAll() {
const jsonMessage = createMessage('player.removeItems',
{uuids: ['uuid1', 'uuid0', 'uuid2']});
player.addQueueItems(0, util.queue.slice(0, 3));
player.seekToWindow(2, 2000);
player.prepare();
let playerState;
player.addPlayerListener((state) => {
playerState = state;
});
sendMessage(jsonMessage);
assertInitialState(playerState, 'ENDED');
assertEquals(0, player.getCurrentWindowIndex());
assertArrayEquals([], player.shuffleOrder_);
assertEquals(Player.PlaybackState.ENDED, player.getPlaybackState());
util.assertUuidIndexMap(player.queueUuidIndexMap_, []);
},
/** Tests moving an item in the queue. */
testMoveItem() {
let shuffleOrder = [0, 2, 1];
const jsonMessage = createMessage('player.moveItem', {
uuid: 'uuid2',
index: 0,
shuffleOrder: shuffleOrder,
});
player.addQueueItems(0, util.queue.slice(0, 3));
assertArrayEquals(['uuid0', 'uuid1', 'uuid2'], queue.map((x) => x.uuid));
sendMessage(jsonMessage);
assertArrayEquals(['uuid2', 'uuid0', 'uuid1'], queue.map((x) => x.uuid));
assertArrayEquals(shuffleOrder, player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests moving the currently playing item in the queue. */
testMoveItem_currentWindowIndex() {
let shuffleOrder = [0, 2, 1];
const jsonMessage = createMessage('player.moveItem', {
uuid: 'uuid2',
index: 0,
shuffleOrder: shuffleOrder,
});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
player.seekToUuid('uuid2', 0);
assertEquals(2, player.getCurrentWindowIndex());
assertArrayEquals(['uuid0', 'uuid1', 'uuid2'], queue.map((x) => x.uuid));
sendMessage(jsonMessage);
assertArrayEquals(['uuid2', 'uuid0', 'uuid1'], queue.map((x) => x.uuid));
assertEquals(0, player.getCurrentWindowIndex());
assertArrayEquals(shuffleOrder, player.shuffleOrder_);
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests moving an item from before to after the currently playing item. */
testMoveItem_decreaseCurrentWindowIndex() {
const jsonMessage = createMessage('player.moveItem', {
uuid: 'uuid0',
index: 5,
shuffleOrder: [],
});
player.addQueueItems(0, util.queue.slice(0, 6));
player.prepare();
player.seekToWindow(2, 0);
assertEquals(2, player.getCurrentWindowIndex());
assertArrayEquals(['uuid0', 'uuid1', 'uuid2', 'uuid3', 'uuid4', 'uuid5'],
queue.map((x) => x.uuid));
sendMessage(jsonMessage);
assertArrayEquals(['uuid1', 'uuid2', 'uuid3', 'uuid4', 'uuid5', 'uuid0'],
queue.map((x) => x.uuid));
assertEquals(1, player.getCurrentWindowIndex());
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests moving an item from after to before the currently playing item. */
testMoveItem_increaseCurrentWindowIndex() {
const jsonMessage = createMessage('player.moveItem', {
uuid: 'uuid5',
index: 0,
shuffleOrder: [],
});
player.addQueueItems(0, util.queue.slice(0, 6));
player.prepare();
player.seekToWindow(2, 0);
assertEquals(2, player.getCurrentWindowIndex());
assertArrayEquals(['uuid0', 'uuid1', 'uuid2', 'uuid3', 'uuid4', 'uuid5'],
queue.map((x) => x.uuid));
sendMessage(jsonMessage);
assertArrayEquals(['uuid5', 'uuid0', 'uuid1', 'uuid2', 'uuid3', 'uuid4'],
queue.map((x) => x.uuid));
assertEquals(3, player.getCurrentWindowIndex());
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests moving an item from after to the current window index. */
testMoveItem_toCurrentWindowIndex_fromAfter() {
const jsonMessage = createMessage('player.moveItem', {
uuid: 'uuid5',
index: 2,
shuffleOrder: [],
});
player.addQueueItems(0, util.queue.slice(0, 6));
player.prepare();
player.seekToWindow(2, 0);
assertEquals(2, player.getCurrentWindowIndex());
assertArrayEquals(['uuid0', 'uuid1', 'uuid2', 'uuid3', 'uuid4', 'uuid5'],
queue.map((x) => x.uuid));
sendMessage(jsonMessage);
assertArrayEquals(['uuid0', 'uuid1', 'uuid5', 'uuid2', 'uuid3', 'uuid4'],
queue.map((x) => x.uuid));
assertEquals(3, player.getCurrentWindowIndex());
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests moving an item from before to the current window index. */
testMoveItem_toCurrentWindowIndex_fromBefore() {
const jsonMessage = createMessage('player.moveItem', {
uuid: 'uuid0',
index: 2,
shuffleOrder: [],
});
player.addQueueItems(0, util.queue.slice(0, 6));
player.prepare();
player.seekToWindow(2, 0);
assertEquals(2, player.getCurrentWindowIndex());
assertArrayEquals(['uuid0', 'uuid1', 'uuid2', 'uuid3', 'uuid4', 'uuid5'],
queue.map((x) => x.uuid));
sendMessage(jsonMessage);
assertArrayEquals(['uuid1', 'uuid2', 'uuid0', 'uuid3', 'uuid4', 'uuid5'],
queue.map((x) => x.uuid));
assertEquals(1, player.getCurrentWindowIndex());
util.assertUuidIndexMap(player.queueUuidIndexMap_, queue);
},
/** Tests seekTo. */
testSeekTo() {
const jsonMessage = createMessage('player.seekTo',
{
'uuid': 'uuid1',
'positionMs': 2000
});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
sendMessage(jsonMessage);
assertEquals(2000, player.getCurrentPositionMs());
assertEquals(1, player.getCurrentWindowIndex());
},
/** Tests seekTo to unknown uuid. */
testSeekTo_unknownUuid() {
const jsonMessage = createMessage('player.seekTo',
{
'uuid': 'unknown',
});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
player.seekToWindow(1, 2000);
assertEquals(2000, player.getCurrentPositionMs());
assertEquals(1, player.getCurrentWindowIndex());
sendMessage(jsonMessage);
assertEquals(2000, player.getCurrentPositionMs());
assertEquals(1, player.getCurrentWindowIndex());
},
/** Tests seekTo without position. */
testSeekTo_noPosition_defaultsToZero() {
const jsonMessage = createMessage('player.seekTo',
{
'uuid': 'uuid1',
});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
sendMessage(jsonMessage);
assertEquals(0, player.getCurrentPositionMs());
assertEquals(1, player.getCurrentWindowIndex());
},
/** Tests seekTo to negative position. */
testSeekTo_negativePosition_defaultsToZero() {
const jsonMessage = createMessage('player.seekTo',
{
'uuid': 'uuid2',
'positionMs': -1,
});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
player.seekToWindow(1, 2000);
assertEquals(2000, player.getCurrentPositionMs());
assertEquals(1, player.getCurrentWindowIndex());
sendMessage(jsonMessage);
assertEquals(0, player.getCurrentPositionMs());
assertEquals(2, player.getCurrentWindowIndex());
},
/** Tests whether validation is turned on. */
testMediaItemValidation_isOn() {
const index = 0;
const mediaItem = createMediaItem('99');
delete mediaItem.uuid;
const jsonMessage = createMessage('player.addItems', {
index: index,
items: [mediaItem],
shuffleOrder: [],
});
sendMessage(jsonMessage);
assertEquals(0, queue.length);
},
/** Tests whether the state is sent to sender apps on state transition. */
testPlayerStateIsSent_withCorrectSequenceNumber() {
assertUndefined(mocks.state().outputMessages['sender0']);
const playMessage =
createMessage('player.setPlayWhenReady', {playWhenReady: true});
sendMessage(playMessage);
const playerState = mocks.state().outputMessages['sender0'][0];
assertTrue(playerState.playWhenReady);
assertEquals(playMessage.sequenceNumber, playerState.sequenceNumber);
},
/** Tests whether a connect of a sender app sends the current player state. */
testSenderConnection() {
const onSenderConnected = mocks.state().onSenderConnected;
assertTrue(goog.isFunction(onSenderConnected));
onSenderConnected({senderId: 'sender0'});
const playerState = mocks.state().outputMessages['sender0'][0];
assertEquals(Player.RepeatMode.OFF, playerState.repeatMode);
assertEquals('IDLE', playerState.playbackState);
assertArrayEquals([], playerState.mediaQueue);
assertEquals(-1, playerState.sequenceNumber);
},
/** Tests whether a disconnect of a sender notifies the message dispatcher. */
testSenderDisconnection_callsMessageDispatcher() {
mocks.setUp();
let notifiedSenderId;
const myPlayer = new Player(mocks.createShakaFake());
const myManagerFake = mocks.createCastReceiverContextFake();
new Receiver(myPlayer, myManagerFake, {
registerActionHandler() {},
notifySenderDisconnected(senderId) {
notifiedSenderId = senderId;
},
});
const onSenderDisconnected = mocks.state().onSenderDisconnected;
assertTrue(goog.isFunction(onSenderDisconnected));
onSenderDisconnected({senderId: 'sender0'});
assertEquals('sender0', notifiedSenderId);
},
/**
* Tests whether the state right after creation of the player matches
* expectations.
*/
testInitialState() {
mocks.state().isSilent = true;
let playerState;
player.addPlayerListener((state) => {
playerState = state;
});
assertEquals(0, player.getCurrentPositionMs());
// Dump a player state to the listener.
player.invalidate();
// Asserts the state just after creation.
assertInitialState(playerState, 'IDLE');
},
/** Tests whether user properties can be changed when in IDLE state */
testChangingUserPropertiesWhenIdle() {
mocks.state().isSilent = true;
const states = [];
let counter = 0;
player.addPlayerListener((state) => {
states.push(state);
});
// Adding items when IDLE.
player.addQueueItems(0, util.queue.slice(0, 3));
counter++;
assertEquals(counter, states.length);
assertEquals(Player.PlaybackState.IDLE, states[counter - 1].playbackState);
assertArrayEquals(
['uuid0', 'uuid1', 'uuid2'],
states[counter - 1].mediaQueue.map((i) => i.uuid));
// Set playWhenReady when IDLE.
assertFalse(player.getPlayWhenReady());
player.setPlayWhenReady(true);
counter++;
assertTrue(player.getPlayWhenReady());
assertEquals(counter, states.length);
assertEquals(Player.PlaybackState.IDLE, states[counter - 1].playbackState);
// Seeking when IDLE.
player.seekToUuid('uuid2', 1000);
counter++;
// Window index not set when idle.
assertEquals(2, player.getCurrentWindowIndex());
assertEquals(1000, player.getCurrentPositionMs());
assertEquals(counter, states.length);
assertEquals(Player.PlaybackState.IDLE, states[counter - 1].playbackState);
// But window index is set when prepared.
player.prepare();
assertEquals(2, player.getCurrentWindowIndex());
},
/** Tests the state after calling prepare. */
testPrepare() {
mocks.state().isSilent = true;
const states = [];
let counter = 0;
player.addPlayerListener((state) => {
states.push(state);
});
const prepareMessage = createMessage('player.prepare', {});
player.addQueueItems(0, util.queue.slice(0, 3));
player.seekToWindow(1, 1000);
counter += 2;
// Sends prepare message.
sendMessage(prepareMessage);
counter++;
assertEquals(counter, states.length);
assertEquals('uuid1', states[counter - 1].playbackPosition.uuid);
assertEquals(
Player.PlaybackState.BUFFERING, states[counter - 1].playbackState);
// Fakes Shaka events.
mocks.state().isSilent = false;
mocks.notifyListeners('streaming');
mocks.notifyListeners('loadeddata');
counter += 2;
assertEquals(counter, states.length);
assertEquals(Player.PlaybackState.READY, states[counter - 1].playbackState);
},
/** Tests stopping the player with `reset=true`. */
testStop_resetTrue() {
mocks.state().isSilent = true;
let playerState;
player.addPlayerListener((state) => {
playerState = state;
});
const stopMessage = createMessage('player.stop', {reset: true});
player.setRepeatMode(Player.RepeatMode.ALL);
player.setShuffleModeEnabled(true);
player.setPlayWhenReady(true);
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
mocks.state().isSilent = false;
mocks.notifyListeners('loadeddata');
assertArrayEquals(['uuid0', 'uuid1', 'uuid2'], queue.map((i) => i.uuid));
assertEquals(0, playerState.windowIndex);
assertNotEquals(Player.DUMMY_MEDIA_ITEM_INFO, player.windowMediaItemInfo_);
assertEquals(1, player.playbackType_);
// Stop the player.
sendMessage(stopMessage);
// Asserts the state looks the same as just after creation.
assertInitialState(playerState, 'IDLE');
assertNull(playerState.playbackPosition);
// Assert player properties are preserved.
assertTrue(playerState.shuffleModeEnabled);
assertTrue(playerState.playWhenReady);
assertEquals(Player.RepeatMode.ALL, playerState.repeatMode);
},
/** Tests stopping the player with `reset=false`. */
testStop_resetFalse() {
mocks.state().isSilent = true;
let playerState;
player.addPlayerListener((state) => {
playerState = state;
});
const stopMessage = createMessage('player.stop', {reset: false});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
player.seekToUuid('uuid1', 1000);
mocks.state().isSilent = false;
mocks.notifyListeners('streaming');
mocks.notifyListeners('trackschanged');
mocks.notifyListeners('loadeddata');
assertArrayEquals(['uuid0', 'uuid1', 'uuid2'], queue.map((i) => i.uuid));
assertEquals(1, playerState.windowIndex);
assertNotEquals(Player.DUMMY_MEDIA_ITEM_INFO, player.windowMediaItemInfo_);
assertEquals(2, player.playbackType_);
// Stop the player.
sendMessage(stopMessage);
assertEquals('IDLE', playerState.playbackState);
assertUndefined(playerState.playbackError);
// Assert the timeline is preserved.
assertEquals(3, queue.length);
assertEquals(3, playerState.windowCount);
assertEquals(1, player.windowIndex_);
assertEquals(1, playerState.windowIndex);
// Assert the playback position is correct.
assertEquals(1000, playerState.playbackPosition.positionMs);
assertEquals('uuid1', playerState.playbackPosition.uuid);
assertEquals(0, playerState.playbackPosition.periodId);
assertNull(playerState.playbackPosition.discontinuityReason);
assertEquals(1000, player.getCurrentPositionMs());
// Assert player properties are preserved.
assertEquals(20000, player.getDurationMs());
assertEquals(2, Object.entries(player.mediaItemInfoMap_).length);
assertEquals(0, player.windowPeriodIndex_);
assertEquals(1, player.getCurrentWindowIndex());
assertEquals(1, player.windowIndex_);
assertNotEquals(Player.DUMMY_MEDIA_ITEM_INFO, player.windowMediaItemInfo_);
assertEquals(999, player.playbackType_);
assertEquals('uuid1', player.uuidToPrepare_);
},
/**
* Tests the state after having removed the last item in the queue. This
* resolves to the same state like calling `stop(true)` except that the state
* is ENDED and the queue is naturally empty and hence the windowIndex is
* unset.
*/
testRemoveLastQueueItem() {
mocks.state().isSilent = true;
let playerState;
player.addPlayerListener((state) => {
playerState = state;
});
const removeAllItemsMessage = createMessage(
'player.removeItems', {uuids: ['uuid0', 'uuid1', 'uuid2']});
player.addQueueItems(0, util.queue.slice(0, 3));
player.seekToWindow(0, 1000);
player.prepare();
mocks.state().isSilent = false;
mocks.notifyListeners('loadeddata');
// Remove all items.
sendMessage(removeAllItemsMessage);
// Assert the state after removal of all items.
assertInitialState(playerState, 'ENDED');
},
/** Tests whether a player state is sent when no item is added. */
testAddItem_noop() {
mocks.state().isSilent = true;
let playerStates = [];
player.addPlayerListener((state) => {
playerStates.push(state);
});
const noOpMessage = createMessage('player.addItems', {
index: 0,
items: [
util.queue[0],
],
shuffleOrder: [0],
});
player.addQueueItems(0, [util.queue[0]], []);
player.prepare();
assertEquals(2, playerStates.length);
assertEquals(2, mocks.state().outputMessages['sender0'].length);
sendMessage(noOpMessage);
assertEquals(2, playerStates.length);
assertEquals(3, mocks.state().outputMessages['sender0'].length);
},
/** Tests whether a player state is sent when no item is removed. */
testRemoveItem_noop() {
mocks.state().isSilent = true;
let playerStates = [];
player.addPlayerListener((state) => {
playerStates.push(state);
});
const noOpMessage =
createMessage('player.removeItems', {uuids: ['uuid00']});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
assertEquals(2, playerStates.length);
assertEquals(2, mocks.state().outputMessages['sender0'].length);
sendMessage(noOpMessage);
assertEquals(2, playerStates.length);
assertEquals(3, mocks.state().outputMessages['sender0'].length);
},
/** Tests whether a player state is sent when item is not moved. */
testMoveItem_noop() {
mocks.state().isSilent = true;
let playerStates = [];
player.addPlayerListener((state) => {
playerStates.push(state);
});
const noOpMessage = createMessage('player.moveItem', {
uuid: 'uuid00',
index: 0,
shuffleOrder: [],
});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
assertEquals(2, playerStates.length);
assertEquals(2, mocks.state().outputMessages['sender0'].length);
sendMessage(noOpMessage);
assertEquals(2, playerStates.length);
assertEquals(3, mocks.state().outputMessages['sender0'].length);
},
/** Tests whether playback actions send a state when no-op */
testNoOpPlaybackActionsSendPlayerState() {
mocks.state().isSilent = true;
let playerStates = [];
let parsedMessage;
player.addPlayerListener((state) => {
playerStates.push(state);
});
player.addQueueItems(0, util.queue.slice(0, 3));
player.prepare();
const outputMessages = mocks.state().outputMessages['sender0'];
const setupMessageCount = playerStates.length;
let totalMessageCount = setupMessageCount;
assertEquals(setupMessageCount, playerStates.length);
assertEquals(totalMessageCount, outputMessages.length);
const firstNoOpMessage = createMessage('player.setPlayWhenReady', {
playWhenReady: false,
});
let expectedSequenceNumber = firstNoOpMessage.sequenceNumber;
sendMessage(firstNoOpMessage);
totalMessageCount++;
assertEquals(setupMessageCount, playerStates.length);
assertEquals(totalMessageCount, outputMessages.length);
parsedMessage = outputMessages[totalMessageCount - 1];
assertEquals(expectedSequenceNumber++, parsedMessage.sequenceNumber);
sendMessage(createMessage('player.setRepeatMode', {
repeatMode: 'OFF',
}));
totalMessageCount++;
assertEquals(setupMessageCount, playerStates.length);
assertEquals(totalMessageCount, outputMessages.length);
parsedMessage = outputMessages[totalMessageCount - 1];
assertEquals(expectedSequenceNumber++, parsedMessage.sequenceNumber);
sendMessage(createMessage('player.setShuffleModeEnabled', {
shuffleModeEnabled: false,
}));
totalMessageCount++;
assertEquals(setupMessageCount, playerStates.length);
assertEquals(totalMessageCount, outputMessages.length);
parsedMessage = outputMessages[totalMessageCount - 1];
assertEquals(expectedSequenceNumber++, parsedMessage.sequenceNumber);
sendMessage(createMessage('player.seekTo', {
uuid: 'not_existing',
positionMs: 0,
}));
totalMessageCount++;
assertEquals(setupMessageCount, playerStates.length);
assertEquals(totalMessageCount, outputMessages.length);
parsedMessage = outputMessages[totalMessageCount - 1];
assertEquals(expectedSequenceNumber++, parsedMessage.sequenceNumber);
},
});
cast_receiver_app/test/shaka_error_handling_test.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Unit tests for playback methods.
*/
goog.module('exoplayer.cast.test.shaka');
goog.setTestOnly();
const ConfigurationFactory = goog.require('exoplayer.cast.ConfigurationFactory');
const Player = goog.require('exoplayer.cast.Player');
const mocks = goog.require('exoplayer.cast.test.mocks');
const testSuite = goog.require('goog.testing.testSuite');
const util = goog.require('exoplayer.cast.test.util');
let player;
let shakaFake;
testSuite({
setUp() {
mocks.setUp();
shakaFake = mocks.createShakaFake();
player = new Player(shakaFake, new ConfigurationFactory());
},
/** Tests Shaka critical error handling on load. */
async testShakaCriticalError_onload() {
mocks.state().isSilent = true;
mocks.state().setShakaThrowsOnLoad(true);
let playerState;
player.addPlayerListener((state) => {
playerState = state;
});
player.addQueueItems(0, util.queue.slice(0, 2));
player.seekToUuid('uuid1', 2000);
player.setPlayWhenReady(true);
// Calling prepare triggers a critical Shaka error.
await player.prepare();
// Assert player state after error.
assertEquals('IDLE', playerState.playbackState);
assertEquals(mocks.state().shakaError.category, playerState.error.category);
assertEquals(mocks.state().shakaError.code, playerState.error.code);
assertEquals(
'loading failed for uri: http://example1.com',
playerState.error.message);
assertEquals(999, player.playbackType_);
// Assert player properties are preserved.
assertEquals(2000, player.getCurrentPositionMs());
assertTrue(player.getPlayWhenReady());
assertEquals(1, player.getCurrentWindowIndex());
assertEquals(1, player.windowIndex_);
},
/** Tests Shaka critical error handling on unload. */
async testShakaCriticalError_onunload() {
mocks.state().isSilent = true;
mocks.state().setShakaThrowsOnUnload(true);
let playerState;
player.addPlayerListener((state) => {
playerState = state;
});
player.addQueueItems(0, util.queue.slice(0, 2));
player.setPlayWhenReady(true);
assertUndefined(player.videoElement_.src);
// Calling prepare triggers a critical Shaka error.
await player.prepare();
// Assert player state after caught and ignored error.
await assertEquals('BUFFERING', playerState.playbackState);
assertEquals('http://example.com', player.videoElement_.src);
assertEquals(1, player.playbackType_);
},
});
cast_receiver_app/test/util.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Description of this file.
*/
goog.module('exoplayer.cast.test.util');
goog.setTestOnly();
/**
* The queue of sample media items
*
* @type {!Array<!MediaItem>}
*/
const queue = [
{
uuid: 'uuid0',
media: {
uri: 'http://example.com',
},
mimeType: 'video/*',
},
{
uuid: 'uuid1',
media: {
uri: 'http://example1.com',
},
mimeType: 'application/dash+xml',
},
{
uuid: 'uuid2',
media: {
uri: 'http://example2.com',
},
mimeType: 'video/*',
},
{
uuid: 'uuid3',
media: {
uri: 'http://example3.com',
},
mimeType: 'application/dash+xml',
},
{
uuid: 'uuid4',
media: {
uri: 'http://example4.com',
},
mimeType: 'video/*',
},
{
uuid: 'uuid5',
media: {
uri: 'http://example5.com',
},
mimeType: 'application/dash+xml',
},
];
/**
* Asserts whether the map of uuids is complete and points to the correct
* indices.
*
* @param {!Object<string, number>} uuidIndexMap The uuid to index map.
* @param {!Array<!MediaItem>} queue The media item queue.
*/
const assertUuidIndexMap = (uuidIndexMap, queue) => {
assertEquals(queue.length, Object.entries(uuidIndexMap).length);
queue.forEach((mediaItem, index) => {
assertEquals(uuidIndexMap[mediaItem.uuid], index);
});
};
exports.queue = queue;
exports.assertUuidIndexMap = assertUuidIndexMap;
cast_receiver_app/test/validation_test.js deleted 100644 → 0
/**
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*
* @fileoverview Unit tests for queue manipulations.
*/
goog.module('exoplayer.cast.test.validation');
goog.setTestOnly();
const testSuite = goog.require('goog.testing.testSuite');
const validation = goog.require('exoplayer.cast.validation');
/**
* Creates a sample drm media for validation tests.
*
* @return {!Object} A dummy media item with a drm scheme.
*/
const createDrmMedia = function() {
return {
uuid: 'string',
media: {
uri: 'string',
},
mimeType: 'application/dash+xml',
drmSchemes: [
{
uuid: 'string',
licenseServer: {
uri: 'string',
requestHeaders: {
'string': 'string',
},
},
},
],
};
};
testSuite({
/** Tests minimal valid media item. */
testValidateMediaItem_minimal() {
const mediaItem = {
uuid: 'string',
media: {
uri: 'string',
},
mimeType: 'application/dash+xml',
};
assertTrue(validation.validateMediaItem(mediaItem));
const uuid = mediaItem.uuid;
delete mediaItem.uuid;
assertFalse(validation.validateMediaItem(mediaItem));
mediaItem.uuid = uuid;
assertTrue(validation.validateMediaItem(mediaItem));
const mimeType = mediaItem.mimeType;
delete mediaItem.mimeType;
assertFalse(validation.validateMediaItem(mediaItem));
mediaItem.mimeType = mimeType;
assertTrue(validation.validateMediaItem(mediaItem));
const media = mediaItem.media;
delete mediaItem.media;
assertFalse(validation.validateMediaItem(mediaItem));
mediaItem.media = media;
assertTrue(validation.validateMediaItem(mediaItem));
const uri = mediaItem.media.uri;
delete mediaItem.media.uri;
assertFalse(validation.validateMediaItem(mediaItem));
mediaItem.media.uri = uri;
assertTrue(validation.validateMediaItem(mediaItem));
},
/** Tests media item drm property validation. */
testValidateMediaItem_drmSchemes() {
const mediaItem = createDrmMedia();
assertTrue(validation.validateMediaItem(mediaItem));
const uuid = mediaItem.drmSchemes[0].uuid;
delete mediaItem.drmSchemes[0].uuid;
assertFalse(validation.validateMediaItem(mediaItem));
mediaItem.drmSchemes[0].uuid = uuid;
assertTrue(validation.validateMediaItem(mediaItem));
const licenseServer = mediaItem.drmSchemes[0].licenseServer;
delete mediaItem.drmSchemes[0].licenseServer;
assertFalse(validation.validateMediaItem(mediaItem));
mediaItem.drmSchemes[0].licenseServer = licenseServer;
assertTrue(validation.validateMediaItem(mediaItem));
const uri = mediaItem.drmSchemes[0].licenseServer.uri;
delete mediaItem.drmSchemes[0].licenseServer.uri;
assertFalse(validation.validateMediaItem(mediaItem));
mediaItem.drmSchemes[0].licenseServer.uri = uri;
assertTrue(validation.validateMediaItem(mediaItem));
},
/** Tests validation of startPositionUs and endPositionUs. */
testValidateMediaItem_endAndStartPositionUs() {
const mediaItem = createDrmMedia();
mediaItem.endPositionUs = 0;
mediaItem.startPositionUs = 120 * 1000;
assertTrue(validation.validateMediaItem(mediaItem));
mediaItem.endPositionUs = '0';
assertFalse(validation.validateMediaItem(mediaItem));
mediaItem.endPositionUs = 0;
assertTrue(validation.validateMediaItem(mediaItem));
mediaItem.startPositionUs = true;
assertFalse(validation.validateMediaItem(mediaItem));
},
/** Tests validation of the title. */
testValidateMediaItem_title() {
const mediaItem = createDrmMedia();
mediaItem.title = '0';
assertTrue(validation.validateMediaItem(mediaItem));
mediaItem.title = 0;
assertFalse(validation.validateMediaItem(mediaItem));
},
/** Tests validation of the description. */
testValidateMediaItem_description() {
const mediaItem = createDrmMedia();
mediaItem.description = '0';
assertTrue(validation.validateMediaItem(mediaItem));
mediaItem.description = 0;
assertFalse(validation.validateMediaItem(mediaItem));
},
/** Tests validating property of type string. */
testValidateProperty_string() {
const obj = {
field: 'string',
};
assertTrue(validation.validateProperty(obj, 'field', 'string'));
assertTrue(validation.validateProperty(obj, 'field', '?string'));
obj.field = 0;
assertFalse(validation.validateProperty(obj, 'field', 'string'));
assertFalse(validation.validateProperty(obj, 'field', '?string'));
obj.field = true;
assertFalse(validation.validateProperty(obj, 'field', 'string'));
assertFalse(validation.validateProperty(obj, 'field', '?string'));
obj.field = {};
assertFalse(validation.validateProperty(obj, 'field', 'string'));
assertFalse(validation.validateProperty(obj, 'field', '?string'));
delete obj.field;
assertFalse(validation.validateProperty(obj, 'field', 'string'));
assertTrue(validation.validateProperty(obj, 'field', '?string'));
},
/** Tests validating property of type number. */
testValidateProperty_number() {
const obj = {
field: 0,
};
assertTrue(validation.validateProperty(obj, 'field', 'number'));
assertTrue(validation.validateProperty(obj, 'field', '?number'));
obj.field = '0';
assertFalse(validation.validateProperty(obj, 'field', 'number'));
assertFalse(validation.validateProperty(obj, 'field', '?number'));
obj.field = true;
assertFalse(validation.validateProperty(obj, 'field', 'number'));
assertFalse(validation.validateProperty(obj, 'field', '?number'));
obj.field = {};
assertFalse(validation.validateProperty(obj, 'field', 'number'));
assertFalse(validation.validateProperty(obj, 'field', '?number'));
delete obj.field;
assertFalse(validation.validateProperty(obj, 'field', 'number'));
assertTrue(validation.validateProperty(obj, 'field', '?number'));
},
/** Tests validating property of type boolean. */
testValidateProperty_boolean() {
const obj = {
field: true,
};
assertTrue(validation.validateProperty(obj, 'field', 'boolean'));
assertTrue(validation.validateProperty(obj, 'field', '?boolean'));
obj.field = '0';
assertFalse(validation.validateProperty(obj, 'field', 'boolean'));
assertFalse(validation.validateProperty(obj, 'field', '?boolean'));
obj.field = 1000;
assertFalse(validation.validateProperty(obj, 'field', 'boolean'));
assertFalse(validation.validateProperty(obj, 'field', '?boolean'));
obj.field = [true];
assertFalse(validation.validateProperty(obj, 'field', 'boolean'));
assertFalse(validation.validateProperty(obj, 'field', '?boolean'));
delete obj.field;
assertFalse(validation.validateProperty(obj, 'field', 'boolean'));
assertTrue(validation.validateProperty(obj, 'field', '?boolean'));
},
/** Tests validating property of type array. */
testValidateProperty_array() {
const obj = {
field: [],
};
assertTrue(validation.validateProperty(obj, 'field', 'Array'));
assertTrue(validation.validateProperty(obj, 'field', '?Array'));
obj.field = '0';
assertFalse(validation.validateProperty(obj, 'field', 'Array'));
assertFalse(validation.validateProperty(obj, 'field', '?Array'));
obj.field = 1000;
assertFalse(validation.validateProperty(obj, 'field', 'Array'));
assertFalse(validation.validateProperty(obj, 'field', '?Array'));
obj.field = true;
assertFalse(validation.validateProperty(obj, 'field', 'Array'));
assertFalse(validation.validateProperty(obj, 'field', '?Array'));
delete obj.field;
assertFalse(validation.validateProperty(obj, 'field', 'Array'));
assertTrue(validation.validateProperty(obj, 'field', '?Array'));
},
/** Tests validating properties of type RepeatMode */
testValidateProperty_repeatMode() {
const obj = {
off: 'OFF',
one: 'ONE',
all: 'ALL',
invalid: 'invalid',
};
assertTrue(validation.validateProperty(obj, 'off', 'RepeatMode'));
assertTrue(validation.validateProperty(obj, 'one', 'RepeatMode'));
assertTrue(validation.validateProperty(obj, 'all', 'RepeatMode'));
assertFalse(validation.validateProperty(obj, 'invalid', 'RepeatMode'));
},
});
demos/cast/src/main/java/com/google/android/exoplayer2/castdemo/DefaultReceiverPlayerManager.java deleted 100644 → 0
/*
* Copyright (C) 2017 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.castdemo;
import android.content.Context;
import android.net.Uri;
import androidx.annotation.Nullable;
import android.view.KeyEvent;
import android.view.View;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.DefaultRenderersFactory;
import com.google.android.exoplayer2.ExoPlayerFactory;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.Player.DiscontinuityReason;
import com.google.android.exoplayer2.Player.EventListener;
import com.google.android.exoplayer2.Player.TimelineChangeReason;
import com.google.android.exoplayer2.RenderersFactory;
import com.google.android.exoplayer2.SimpleExoPlayer;
import com.google.android.exoplayer2.Timeline;
import com.google.android.exoplayer2.Timeline.Period;
import com.google.android.exoplayer2.ext.cast.CastPlayer;
import com.google.android.exoplayer2.ext.cast.MediaItem;
import com.google.android.exoplayer2.ext.cast.SessionAvailabilityListener;
import com.google.android.exoplayer2.source.ConcatenatingMediaSource;
import com.google.android.exoplayer2.source.MediaSource;
import com.google.android.exoplayer2.source.ProgressiveMediaSource;
import com.google.android.exoplayer2.source.dash.DashMediaSource;
import com.google.android.exoplayer2.source.hls.HlsMediaSource;
import com.google.android.exoplayer2.source.smoothstreaming.SsMediaSource;
import com.google.android.exoplayer2.trackselection.DefaultTrackSelector;
import com.google.android.exoplayer2.ui.PlayerControlView;
import com.google.android.exoplayer2.ui.PlayerView;
import com.google.android.exoplayer2.upstream.DefaultHttpDataSourceFactory;
import com.google.android.exoplayer2.util.Assertions;
import com.google.android.gms.cast.MediaInfo;
import com.google.android.gms.cast.MediaMetadata;
import com.google.android.gms.cast.MediaQueueItem;
import com.google.android.gms.cast.framework.CastContext;
import java.util.ArrayList;
import org.json.JSONException;
import org.json.JSONObject;
/** Manages players and an internal media queue for the ExoPlayer/Cast demo app. */
/* package */ class DefaultReceiverPlayerManager
implements PlayerManager, EventListener, SessionAvailabilityListener {
private static final String USER_AGENT = "ExoCastDemoPlayer";
private static final DefaultHttpDataSourceFactory DATA_SOURCE_FACTORY =
new DefaultHttpDataSourceFactory(USER_AGENT);
private final PlayerView localPlayerView;
private final PlayerControlView castControlView;
private final SimpleExoPlayer exoPlayer;
private final CastPlayer castPlayer;
private final ArrayList<MediaItem> mediaQueue;
private final Listener listener;
private final ConcatenatingMediaSource concatenatingMediaSource;
private int currentItemIndex;
private Player currentPlayer;
/**
* Creates a new manager for {@link SimpleExoPlayer} and {@link CastPlayer}.
*
* @param listener A {@link Listener} for queue position changes.
* @param localPlayerView The {@link PlayerView} for local playback.
* @param castControlView The {@link PlayerControlView} to control remote playback.
* @param context A {@link Context}.
* @param castContext The {@link CastContext}.
*/
public DefaultReceiverPlayerManager(
Listener listener,
PlayerView localPlayerView,
PlayerControlView castControlView,
Context context,
CastContext castContext) {
this.listener = listener;
this.localPlayerView = localPlayerView;
this.castControlView = castControlView;
mediaQueue = new ArrayList<>();
currentItemIndex = C.INDEX_UNSET;
concatenatingMediaSource = new ConcatenatingMediaSource();
DefaultTrackSelector trackSelector = new DefaultTrackSelector();
RenderersFactory renderersFactory = new DefaultRenderersFactory(context);
exoPlayer = ExoPlayerFactory.newSimpleInstance(context, renderersFactory, trackSelector);
exoPlayer.addListener(this);
localPlayerView.setPlayer(exoPlayer);
castPlayer = new CastPlayer(castContext);
castPlayer.addListener(this);
castPlayer.setSessionAvailabilityListener(this);
castControlView.setPlayer(castPlayer);
setCurrentPlayer(castPlayer.isCastSessionAvailable() ? castPlayer : exoPlayer);
}
// Queue manipulation methods.
/**
* Plays a specified queue item in the current player.
*
* @param itemIndex The index of the item to play.
*/
@Override
public void selectQueueItem(int itemIndex) {
setCurrentItem(itemIndex, C.TIME_UNSET, true);
}
/** Returns the index of the currently played item. */
@Override
public int getCurrentItemIndex() {
return currentItemIndex;
}
/**
* Appends {@code item} to the media queue.
*
* @param item The {@link MediaItem} to append.
*/
@Override
public void addItem(MediaItem item) {
mediaQueue.add(item);
concatenatingMediaSource.addMediaSource(buildMediaSource(item));
if (currentPlayer == castPlayer) {
castPlayer.addItems(buildMediaQueueItem(item));
}
}
/** Returns the size of the media queue. */
@Override
public int getMediaQueueSize() {
return mediaQueue.size();
}
/**
* Returns the item at the given index in the media queue.
*
* @param position The index of the item.
* @return The item at the given index in the media queue.
*/
@Override
public MediaItem getItem(int position) {
return mediaQueue.get(position);
}
/**
* Removes the item at the given index from the media queue.
*
* @param item The item to remove.
* @return Whether the removal was successful.
*/
@Override
public boolean removeItem(MediaItem item) {
int itemIndex = mediaQueue.indexOf(item);
if (itemIndex == -1) {
return false;
}
concatenatingMediaSource.removeMediaSource(itemIndex);
if (currentPlayer == castPlayer) {
if (castPlayer.getPlaybackState() != Player.STATE_IDLE) {
Timeline castTimeline = castPlayer.getCurrentTimeline();
if (castTimeline.getPeriodCount() <= itemIndex) {
return false;
}
castPlayer.removeItem((int) castTimeline.getPeriod(itemIndex, new Period()).id);
}
}
mediaQueue.remove(itemIndex);
if (itemIndex == currentItemIndex && itemIndex == mediaQueue.size()) {
maybeSetCurrentItemAndNotify(C.INDEX_UNSET);
} else if (itemIndex < currentItemIndex) {
maybeSetCurrentItemAndNotify(currentItemIndex - 1);
}
return true;
}
/**
* Moves an item within the queue.
*
* @param item The item to move.
* @param toIndex The target index of the item in the queue.
* @return Whether the item move was successful.
*/
@Override
public boolean moveItem(MediaItem item, int toIndex) {
int fromIndex = mediaQueue.indexOf(item);
if (fromIndex == -1) {
return false;
}
// Player update.
concatenatingMediaSource.moveMediaSource(fromIndex, toIndex);
if (currentPlayer == castPlayer && castPlayer.getPlaybackState() != Player.STATE_IDLE) {
Timeline castTimeline = castPlayer.getCurrentTimeline();
int periodCount = castTimeline.getPeriodCount();
if (periodCount <= fromIndex || periodCount <= toIndex) {
return false;
}
int elementId = (int) castTimeline.getPeriod(fromIndex, new Period()).id;
castPlayer.moveItem(elementId, toIndex);
}
mediaQueue.add(toIndex, mediaQueue.remove(fromIndex));
// Index update.
if (fromIndex == currentItemIndex) {
maybeSetCurrentItemAndNotify(toIndex);
} else if (fromIndex < currentItemIndex && toIndex >= currentItemIndex) {
maybeSetCurrentItemAndNotify(currentItemIndex - 1);
} else if (fromIndex > currentItemIndex && toIndex <= currentItemIndex) {
maybeSetCurrentItemAndNotify(currentItemIndex + 1);
}
return true;
}
/**
* Dispatches a given {@link KeyEvent} to the corresponding view of the current player.
*
* @param event The {@link KeyEvent}.
* @return Whether the event was handled by the target view.
*/
@Override
public boolean dispatchKeyEvent(KeyEvent event) {
if (currentPlayer == exoPlayer) {
return localPlayerView.dispatchKeyEvent(event);
} else /* currentPlayer == castPlayer */ {
return castControlView.dispatchKeyEvent(event);
}
}
/** Releases the manager and the players that it holds. */
@Override
public void release() {
currentItemIndex = C.INDEX_UNSET;
mediaQueue.clear();
concatenatingMediaSource.clear();
castPlayer.setSessionAvailabilityListener(null);
castPlayer.release();
localPlayerView.setPlayer(null);
exoPlayer.release();
}
// Player.EventListener implementation.
@Override
public void onPlayerStateChanged(boolean playWhenReady, @Player.State int playbackState) {
updateCurrentItemIndex();
}
@Override
public void onPositionDiscontinuity(@DiscontinuityReason int reason) {
updateCurrentItemIndex();
}
@Override
public void onTimelineChanged(
Timeline timeline, @Nullable Object manifest, @TimelineChangeReason int reason) {
updateCurrentItemIndex();
}
// CastPlayer.SessionAvailabilityListener implementation.
@Override
public void onCastSessionAvailable() {
setCurrentPlayer(castPlayer);
}
@Override
public void onCastSessionUnavailable() {
setCurrentPlayer(exoPlayer);
}
// Internal methods.
private void updateCurrentItemIndex() {
int playbackState = currentPlayer.getPlaybackState();
maybeSetCurrentItemAndNotify(
playbackState != Player.STATE_IDLE && playbackState != Player.STATE_ENDED
? currentPlayer.getCurrentWindowIndex()
: C.INDEX_UNSET);
}
private void setCurrentPlayer(Player currentPlayer) {
if (this.currentPlayer == currentPlayer) {
return;
}
// View management.
if (currentPlayer == exoPlayer) {
localPlayerView.setVisibility(View.VISIBLE);
castControlView.hide();
} else /* currentPlayer == castPlayer */ {
localPlayerView.setVisibility(View.GONE);
castControlView.show();
}
// Player state management.
long playbackPositionMs = C.TIME_UNSET;
int windowIndex = C.INDEX_UNSET;
boolean playWhenReady = false;
if (this.currentPlayer != null) {
int playbackState = this.currentPlayer.getPlaybackState();
if (playbackState != Player.STATE_ENDED) {
playbackPositionMs = this.currentPlayer.getCurrentPosition();
playWhenReady = this.currentPlayer.getPlayWhenReady();
windowIndex = this.currentPlayer.getCurrentWindowIndex();
if (windowIndex != currentItemIndex) {
playbackPositionMs = C.TIME_UNSET;
windowIndex = currentItemIndex;
}
}
this.currentPlayer.stop(true);
} else {
// This is the initial setup. No need to save any state.
}
this.currentPlayer = currentPlayer;
// Media queue management.
if (currentPlayer == exoPlayer) {
exoPlayer.prepare(concatenatingMediaSource);
}
// Playback transition.
if (windowIndex != C.INDEX_UNSET) {
setCurrentItem(windowIndex, playbackPositionMs, playWhenReady);
}
}
/**
* Starts playback of the item at the given position.
*
* @param itemIndex The index of the item to play.
* @param positionMs The position at which playback should start.
* @param playWhenReady Whether the player should proceed when ready to do so.
*/
private void setCurrentItem(int itemIndex, long positionMs, boolean playWhenReady) {
maybeSetCurrentItemAndNotify(itemIndex);
if (currentPlayer == castPlayer && castPlayer.getCurrentTimeline().isEmpty()) {
MediaQueueItem[] items = new MediaQueueItem[mediaQueue.size()];
for (int i = 0; i < items.length; i++) {
items[i] = buildMediaQueueItem(mediaQueue.get(i));
}
castPlayer.loadItems(items, itemIndex, positionMs, Player.REPEAT_MODE_OFF);
} else {
currentPlayer.seekTo(itemIndex, positionMs);
currentPlayer.setPlayWhenReady(playWhenReady);
}
}
private void maybeSetCurrentItemAndNotify(int currentItemIndex) {
if (this.currentItemIndex != currentItemIndex) {
int oldIndex = this.currentItemIndex;
this.currentItemIndex = currentItemIndex;
listener.onQueuePositionChanged(oldIndex, currentItemIndex);
}
}
private static MediaSource buildMediaSource(MediaItem item) {
Uri uri = item.media.uri;
switch (item.mimeType) {
case DemoUtil.MIME_TYPE_SS:
return new SsMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_DASH:
return new DashMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_HLS:
return new HlsMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_VIDEO_MP4:
return new ProgressiveMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
default:
{
throw new IllegalStateException("Unsupported type: " + item.mimeType);
}
}
}
private static MediaQueueItem buildMediaQueueItem(MediaItem item) {
MediaMetadata movieMetadata = new MediaMetadata(MediaMetadata.MEDIA_TYPE_MOVIE);
movieMetadata.putString(MediaMetadata.KEY_TITLE, item.title);
MediaInfo.Builder mediaInfoBuilder =
new MediaInfo.Builder(item.media.uri.toString())
.setStreamType(MediaInfo.STREAM_TYPE_BUFFERED)
.setContentType(item.mimeType)
.setMetadata(movieMetadata);
if (!item.drmSchemes.isEmpty()) {
MediaItem.DrmScheme scheme = item.drmSchemes.get(0);
try {
// This configuration is only intended for testing and should *not* be used in production
// environments. See comment in the Cast Demo app's options provider.
JSONObject drmConfiguration = getDrmConfigurationJson(scheme);
if (drmConfiguration != null) {
mediaInfoBuilder.setCustomData(drmConfiguration);
}
} catch (JSONException e) {
throw new RuntimeException(e);
}
}
return new MediaQueueItem.Builder(mediaInfoBuilder.build()).build();
}
@Nullable
private static JSONObject getDrmConfigurationJson(MediaItem.DrmScheme scheme)
throws JSONException {
String drmScheme;
if (C.WIDEVINE_UUID.equals(scheme.uuid)) {
drmScheme = "widevine";
} else if (C.PLAYREADY_UUID.equals(scheme.uuid)) {
drmScheme = "playready";
} else {
return null;
}
MediaItem.UriBundle licenseServer = Assertions.checkNotNull(scheme.licenseServer);
JSONObject exoplayerConfig =
new JSONObject().put("withCredentials", false).put("protectionSystem", drmScheme);
if (!licenseServer.uri.equals(Uri.EMPTY)) {
exoplayerConfig.put("licenseUrl", licenseServer.uri.toString());
}
if (!licenseServer.requestHeaders.isEmpty()) {
exoplayerConfig.put("headers", new JSONObject(licenseServer.requestHeaders));
}
return new JSONObject().put("exoPlayerConfig", exoplayerConfig);
}
}
demos/cast/src/main/java/com/google/android/exoplayer2/castdemo/DemoUtil.java
...@@ -100,6 +100,11 @@ import java.util.UUID; ...@@ -100,6 +100,11 @@ import java.util.UUID;
MIME_TYPE_DASH)); MIME_TYPE_DASH));
samples.add( samples.add(
new Sample( new Sample(
"https://storage.googleapis.com/shaka-demo-assets/angel-one-hls/hls.m3u8",
"Clear HLS: Angel one",
MIME_TYPE_HLS));
samples.add(
new Sample(
"https://html5demos.com/assets/dizzy.mp4", "Clear MP4: Dizzy", MIME_TYPE_VIDEO_MP4)); "https://html5demos.com/assets/dizzy.mp4", "Clear MP4: Dizzy", MIME_TYPE_VIDEO_MP4));
SAMPLES = Collections.unmodifiableList(samples); SAMPLES = Collections.unmodifiableList(samples);
......
demos/cast/src/main/java/com/google/android/exoplayer2/castdemo/ExoCastPlayerManager.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.castdemo;
import android.content.Context;
import android.net.Uri;
import androidx.annotation.Nullable;
import android.view.KeyEvent;
import android.view.View;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.DefaultRenderersFactory;
import com.google.android.exoplayer2.ExoPlaybackException;
import com.google.android.exoplayer2.ExoPlayerFactory;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.Player.DiscontinuityReason;
import com.google.android.exoplayer2.Player.EventListener;
import com.google.android.exoplayer2.Player.TimelineChangeReason;
import com.google.android.exoplayer2.RenderersFactory;
import com.google.android.exoplayer2.SimpleExoPlayer;
import com.google.android.exoplayer2.Timeline;
import com.google.android.exoplayer2.ext.cast.DefaultCastSessionManager;
import com.google.android.exoplayer2.ext.cast.ExoCastPlayer;
import com.google.android.exoplayer2.ext.cast.MediaItem;
import com.google.android.exoplayer2.ext.cast.SessionAvailabilityListener;
import com.google.android.exoplayer2.source.ConcatenatingMediaSource;
import com.google.android.exoplayer2.source.MediaSource;
import com.google.android.exoplayer2.source.ProgressiveMediaSource;
import com.google.android.exoplayer2.source.dash.DashMediaSource;
import com.google.android.exoplayer2.source.hls.HlsMediaSource;
import com.google.android.exoplayer2.source.smoothstreaming.SsMediaSource;
import com.google.android.exoplayer2.trackselection.DefaultTrackSelector;
import com.google.android.exoplayer2.ui.PlayerControlView;
import com.google.android.exoplayer2.ui.PlayerView;
import com.google.android.exoplayer2.upstream.DefaultHttpDataSourceFactory;
import com.google.android.exoplayer2.util.Assertions;
import com.google.android.exoplayer2.util.Log;
import com.google.android.gms.cast.framework.CastContext;
import java.util.ArrayList;
/** Manages players and an internal media queue for the Cast demo app. */
/* package */ class ExoCastPlayerManager
implements PlayerManager, EventListener, SessionAvailabilityListener {
private static final String TAG = "ExoCastPlayerManager";
private static final String USER_AGENT = "ExoCastDemoPlayer";
private static final DefaultHttpDataSourceFactory DATA_SOURCE_FACTORY =
new DefaultHttpDataSourceFactory(USER_AGENT);
private final PlayerView localPlayerView;
private final PlayerControlView castControlView;
private final SimpleExoPlayer exoPlayer;
private final ExoCastPlayer exoCastPlayer;
private final ArrayList<MediaItem> mediaQueue;
private final Listener listener;
private final ConcatenatingMediaSource concatenatingMediaSource;
private int currentItemIndex;
private Player currentPlayer;
/**
* Creates a new manager for {@link SimpleExoPlayer} and {@link ExoCastPlayer}.
*
* @param listener A {@link Listener}.
* @param localPlayerView The {@link PlayerView} for local playback.
* @param castControlView The {@link PlayerControlView} to control remote playback.
* @param context A {@link Context}.
* @param castContext The {@link CastContext}.
*/
public ExoCastPlayerManager(
Listener listener,
PlayerView localPlayerView,
PlayerControlView castControlView,
Context context,
CastContext castContext) {
this.listener = listener;
this.localPlayerView = localPlayerView;
this.castControlView = castControlView;
mediaQueue = new ArrayList<>();
currentItemIndex = C.INDEX_UNSET;
concatenatingMediaSource = new ConcatenatingMediaSource();
DefaultTrackSelector trackSelector = new DefaultTrackSelector();
RenderersFactory renderersFactory = new DefaultRenderersFactory(context);
exoPlayer = ExoPlayerFactory.newSimpleInstance(context, renderersFactory, trackSelector);
exoPlayer.addListener(this);
localPlayerView.setPlayer(exoPlayer);
exoCastPlayer =
new ExoCastPlayer(
sessionManagerListener ->
new DefaultCastSessionManager(castContext, sessionManagerListener));
exoCastPlayer.addListener(this);
exoCastPlayer.setSessionAvailabilityListener(this);
castControlView.setPlayer(exoCastPlayer);
setCurrentPlayer(exoCastPlayer.isCastSessionAvailable() ? exoCastPlayer : exoPlayer);
}
// Queue manipulation methods.
/**
* Plays a specified queue item in the current player.
*
* @param itemIndex The index of the item to play.
*/
@Override
public void selectQueueItem(int itemIndex) {
setCurrentItem(itemIndex, C.TIME_UNSET, true);
}
/** Returns the index of the currently played item. */
@Override
public int getCurrentItemIndex() {
return currentItemIndex;
}
/**
* Appends {@code item} to the media queue.
*
* @param item The {@link MediaItem} to append.
*/
@Override
public void addItem(MediaItem item) {
mediaQueue.add(item);
concatenatingMediaSource.addMediaSource(buildMediaSource(item));
if (currentPlayer == exoCastPlayer) {
exoCastPlayer.addItemsToQueue(item);
}
}
/** Returns the size of the media queue. */
@Override
public int getMediaQueueSize() {
return mediaQueue.size();
}
/**
* Returns the item at the given index in the media queue.
*
* @param position The index of the item.
* @return The item at the given index in the media queue.
*/
@Override
public MediaItem getItem(int position) {
return mediaQueue.get(position);
}
/**
* Removes the item at the given index from the media queue.
*
* @param item The item to remove.
* @return Whether the removal was successful.
*/
@Override
public boolean removeItem(MediaItem item) {
int itemIndex = mediaQueue.indexOf(item);
if (itemIndex == -1) {
// This may happen if another sender app removes items while this sender app is in "swiping
// an item" state.
return false;
}
concatenatingMediaSource.removeMediaSource(itemIndex);
mediaQueue.remove(itemIndex);
if (currentPlayer == exoCastPlayer) {
exoCastPlayer.removeItemFromQueue(itemIndex);
}
if (itemIndex == currentItemIndex && itemIndex == mediaQueue.size()) {
maybeSetCurrentItemAndNotify(C.INDEX_UNSET);
} else if (itemIndex < currentItemIndex) {
maybeSetCurrentItemAndNotify(currentItemIndex - 1);
}
return true;
}
/**
* Moves an item within the queue.
*
* @param item The item to move. This method does nothing if {@code item} is not contained in the
* queue.
* @param toIndex The target index of the item in the queue. If {@code toIndex} exceeds the last
* position in the queue, {@code toIndex} is clamped to match the largest possible value.
* @return True if {@code item} was contained in the queue, and {@code toIndex} was a valid
* position. False otherwise.
*/
@Override
public boolean moveItem(MediaItem item, int toIndex) {
int indexOfItem = mediaQueue.indexOf(item);
if (indexOfItem == -1) {
// This may happen if another sender app removes items while this sender app is in "dragging
// an item" state.
return false;
}
int clampedToIndex = Math.min(toIndex, mediaQueue.size() - 1);
mediaQueue.add(clampedToIndex, mediaQueue.remove(indexOfItem));
concatenatingMediaSource.moveMediaSource(indexOfItem, clampedToIndex);
if (currentPlayer == exoCastPlayer) {
exoCastPlayer.moveItemInQueue(indexOfItem, clampedToIndex);
}
// Index update.
maybeSetCurrentItemAndNotify(currentPlayer.getCurrentWindowIndex());
return clampedToIndex == toIndex;
}
@Override
public boolean dispatchKeyEvent(KeyEvent event) {
if (currentPlayer == exoPlayer) {
return localPlayerView.dispatchKeyEvent(event);
} else /* currentPlayer == exoCastPlayer */ {
return castControlView.dispatchKeyEvent(event);
}
}
/** Releases the manager and the players that it holds. */
@Override
public void release() {
currentItemIndex = C.INDEX_UNSET;
mediaQueue.clear();
concatenatingMediaSource.clear();
exoCastPlayer.setSessionAvailabilityListener(null);
exoCastPlayer.release();
localPlayerView.setPlayer(null);
exoPlayer.release();
}
// Player.EventListener implementation.
@Override
public void onPlayerStateChanged(boolean playWhenReady, @Player.State int playbackState) {
updateCurrentItemIndex();
}
@Override
public void onPositionDiscontinuity(@DiscontinuityReason int reason) {
updateCurrentItemIndex();
}
@Override
public void onTimelineChanged(
Timeline timeline, @Nullable Object manifest, @TimelineChangeReason int reason) {
if (currentPlayer == exoCastPlayer && reason != Player.TIMELINE_CHANGE_REASON_RESET) {
maybeUpdateLocalQueueWithRemoteQueueAndNotify();
}
updateCurrentItemIndex();
}
@Override
public void onPlayerError(ExoPlaybackException error) {
Log.e(TAG, "The player encountered an error.", error);
listener.onPlayerError();
}
// CastPlayer.SessionAvailabilityListener implementation.
@Override
public void onCastSessionAvailable() {
setCurrentPlayer(exoCastPlayer);
}
@Override
public void onCastSessionUnavailable() {
setCurrentPlayer(exoPlayer);
}
// Internal methods.
private void maybeUpdateLocalQueueWithRemoteQueueAndNotify() {
Assertions.checkState(currentPlayer == exoCastPlayer);
boolean mediaQueuesMatch = mediaQueue.size() == exoCastPlayer.getQueueSize();
for (int i = 0; mediaQueuesMatch && i < mediaQueue.size(); i++) {
mediaQueuesMatch = mediaQueue.get(i).uuid.equals(exoCastPlayer.getQueueItem(i).uuid);
}
if (mediaQueuesMatch) {
// The media queues match. Do nothing.
return;
}
mediaQueue.clear();
concatenatingMediaSource.clear();
for (int i = 0; i < exoCastPlayer.getQueueSize(); i++) {
MediaItem item = exoCastPlayer.getQueueItem(i);
mediaQueue.add(item);
concatenatingMediaSource.addMediaSource(buildMediaSource(item));
}
listener.onQueueContentsExternallyChanged();
}
private void updateCurrentItemIndex() {
int playbackState = currentPlayer.getPlaybackState();
maybeSetCurrentItemAndNotify(
playbackState != Player.STATE_IDLE && playbackState != Player.STATE_ENDED
? currentPlayer.getCurrentWindowIndex()
: C.INDEX_UNSET);
}
private void setCurrentPlayer(Player currentPlayer) {
if (this.currentPlayer == currentPlayer) {
return;
}
// View management.
if (currentPlayer == exoPlayer) {
localPlayerView.setVisibility(View.VISIBLE);
castControlView.hide();
} else /* currentPlayer == exoCastPlayer */ {
localPlayerView.setVisibility(View.GONE);
castControlView.show();
}
// Player state management.
long playbackPositionMs = C.TIME_UNSET;
int windowIndex = C.INDEX_UNSET;
boolean playWhenReady = false;
if (this.currentPlayer != null) {
int playbackState = this.currentPlayer.getPlaybackState();
if (playbackState != Player.STATE_ENDED) {
playbackPositionMs = this.currentPlayer.getCurrentPosition();
playWhenReady = this.currentPlayer.getPlayWhenReady();
windowIndex = this.currentPlayer.getCurrentWindowIndex();
if (windowIndex != currentItemIndex) {
playbackPositionMs = C.TIME_UNSET;
windowIndex = currentItemIndex;
}
}
this.currentPlayer.stop(true);
} else {
// This is the initial setup. No need to save any state.
}
this.currentPlayer = currentPlayer;
// Media queue management.
boolean shouldSeekInNewCurrentPlayer;
if (currentPlayer == exoPlayer) {
exoPlayer.prepare(concatenatingMediaSource);
shouldSeekInNewCurrentPlayer = true;
} else /* currentPlayer == exoCastPlayer */ {
if (exoCastPlayer.getPlaybackState() == Player.STATE_IDLE) {
exoCastPlayer.prepare();
}
if (mediaQueue.isEmpty()) {
// Casting started with no local queue. We take the receiver app's queue as our own.
maybeUpdateLocalQueueWithRemoteQueueAndNotify();
shouldSeekInNewCurrentPlayer = false;
} else {
// Casting started when the sender app had no queue. We just load our items into the
// receiver app's queue. If the receiver had no items in its queue, we also seek to wherever
// the sender app was playing.
int currentExoCastPlayerState = exoCastPlayer.getPlaybackState();
shouldSeekInNewCurrentPlayer =
currentExoCastPlayerState == Player.STATE_IDLE
|| currentExoCastPlayerState == Player.STATE_ENDED;
exoCastPlayer.addItemsToQueue(mediaQueue.toArray(new MediaItem[0]));
}
}
// Playback transition.
if (shouldSeekInNewCurrentPlayer && windowIndex != C.INDEX_UNSET) {
setCurrentItem(windowIndex, playbackPositionMs, playWhenReady);
} else if (getMediaQueueSize() > 0) {
maybeSetCurrentItemAndNotify(currentPlayer.getCurrentWindowIndex());
}
}
/**
* Starts playback of the item at the given position.
*
* @param itemIndex The index of the item to play.
* @param positionMs The position at which playback should start.
* @param playWhenReady Whether the player should proceed when ready to do so.
*/
private void setCurrentItem(int itemIndex, long positionMs, boolean playWhenReady) {
maybeSetCurrentItemAndNotify(itemIndex);
currentPlayer.seekTo(itemIndex, positionMs);
if (currentPlayer.getPlaybackState() == Player.STATE_IDLE) {
if (currentPlayer == exoCastPlayer) {
exoCastPlayer.prepare();
} else {
exoPlayer.prepare(concatenatingMediaSource);
}
}
currentPlayer.setPlayWhenReady(playWhenReady);
}
private void maybeSetCurrentItemAndNotify(int currentItemIndex) {
if (this.currentItemIndex != currentItemIndex) {
int oldIndex = this.currentItemIndex;
this.currentItemIndex = currentItemIndex;
listener.onQueuePositionChanged(oldIndex, currentItemIndex);
}
}
private static MediaSource buildMediaSource(MediaItem item) {
Uri uri = item.media.uri;
switch (item.mimeType) {
case DemoUtil.MIME_TYPE_SS:
return new SsMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_DASH:
return new DashMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_HLS:
return new HlsMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_VIDEO_MP4:
return new ProgressiveMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
default:
{
throw new IllegalStateException("Unsupported type: " + item.mimeType);
}
}
}
}
demos/cast/src/main/java/com/google/android/exoplayer2/castdemo/MainActivity.java
...@@ -34,14 +34,11 @@ import android.view.ViewGroup; ...@@ -34,14 +34,11 @@ import android.view.ViewGroup;
import android.widget.ArrayAdapter; import android.widget.ArrayAdapter;
import android.widget.ListView; import android.widget.ListView;
import android.widget.TextView; import android.widget.TextView;
import android.widget.Toast;
import com.google.android.exoplayer2.C; import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.SimpleExoPlayer; import com.google.android.exoplayer2.SimpleExoPlayer;
import com.google.android.exoplayer2.ext.cast.DefaultCastOptionsProvider;
import com.google.android.exoplayer2.ext.cast.MediaItem; import com.google.android.exoplayer2.ext.cast.MediaItem;
import com.google.android.exoplayer2.ui.PlayerControlView; import com.google.android.exoplayer2.ui.PlayerControlView;
import com.google.android.exoplayer2.ui.PlayerView; import com.google.android.exoplayer2.ui.PlayerView;
import com.google.android.gms.cast.CastMediaControlIntent;
import com.google.android.gms.cast.framework.CastButtonFactory; import com.google.android.gms.cast.framework.CastButtonFactory;
import com.google.android.gms.cast.framework.CastContext; import com.google.android.gms.cast.framework.CastContext;
import com.google.android.gms.dynamite.DynamiteModule; import com.google.android.gms.dynamite.DynamiteModule;
...@@ -120,21 +117,13 @@ public class MainActivity extends AppCompatActivity ...@@ -120,21 +117,13 @@ public class MainActivity extends AppCompatActivity
// There is no Cast context to work with. Do nothing. // There is no Cast context to work with. Do nothing.
return; return;
} }
String applicationId = castContext.getCastOptions().getReceiverApplicationId();
switch (applicationId) {
case CastMediaControlIntent.DEFAULT_MEDIA_RECEIVER_APPLICATION_ID:
case DefaultCastOptionsProvider.APP_ID_DEFAULT_RECEIVER_WITH_DRM:
playerManager = playerManager =
new DefaultReceiverPlayerManager( new PlayerManager(
/* listener= */ this, /* listener= */ this,
localPlayerView, localPlayerView,
castControlView, castControlView,
/* context= */ this, /* context= */ this,
castContext); castContext);
break;
default:
throw new IllegalStateException("Illegal receiver app id: " + applicationId);
}
mediaQueueList.setAdapter(mediaQueueListAdapter); mediaQueueList.setAdapter(mediaQueueListAdapter);
} }
...@@ -181,16 +170,6 @@ public class MainActivity extends AppCompatActivity ...@@ -181,16 +170,6 @@ public class MainActivity extends AppCompatActivity
} }
} }
@Override
public void onQueueContentsExternallyChanged() {
mediaQueueListAdapter.notifyDataSetChanged();
}
@Override
public void onPlayerError() {
Toast.makeText(getApplicationContext(), R.string.player_error_msg, Toast.LENGTH_LONG).show();
}
// Internal methods. // Internal methods.
private View buildSampleListView() { private View buildSampleListView() {
......
demos/cast/src/main/java/com/google/android/exoplayer2/castdemo/PlayerManager.java
...@@ -15,53 +15,419 @@ ...@@ -15,53 +15,419 @@
*/ */
package com.google.android.exoplayer2.castdemo; package com.google.android.exoplayer2.castdemo;
import android.content.Context;
import android.net.Uri;
import androidx.annotation.Nullable;
import android.view.KeyEvent; import android.view.KeyEvent;
import android.view.View;
import com.google.android.exoplayer2.C; import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.DefaultRenderersFactory;
import com.google.android.exoplayer2.ExoPlayerFactory;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.Player.DiscontinuityReason;
import com.google.android.exoplayer2.Player.EventListener;
import com.google.android.exoplayer2.Player.TimelineChangeReason;
import com.google.android.exoplayer2.RenderersFactory;
import com.google.android.exoplayer2.SimpleExoPlayer;
import com.google.android.exoplayer2.Timeline;
import com.google.android.exoplayer2.Timeline.Period;
import com.google.android.exoplayer2.ext.cast.CastPlayer;
import com.google.android.exoplayer2.ext.cast.MediaItem; import com.google.android.exoplayer2.ext.cast.MediaItem;
import com.google.android.exoplayer2.ext.cast.SessionAvailabilityListener;
import com.google.android.exoplayer2.source.ConcatenatingMediaSource;
import com.google.android.exoplayer2.source.MediaSource;
import com.google.android.exoplayer2.source.ProgressiveMediaSource;
import com.google.android.exoplayer2.source.dash.DashMediaSource;
import com.google.android.exoplayer2.source.hls.HlsMediaSource;
import com.google.android.exoplayer2.source.smoothstreaming.SsMediaSource;
import com.google.android.exoplayer2.trackselection.DefaultTrackSelector;
import com.google.android.exoplayer2.ui.PlayerControlView;
import com.google.android.exoplayer2.ui.PlayerView;
import com.google.android.exoplayer2.upstream.DefaultHttpDataSourceFactory;
import com.google.android.exoplayer2.util.Assertions;
import com.google.android.gms.cast.MediaInfo;
import com.google.android.gms.cast.MediaMetadata;
import com.google.android.gms.cast.MediaQueueItem;
import com.google.android.gms.cast.framework.CastContext;
import java.util.ArrayList;
import org.json.JSONException;
import org.json.JSONObject;
/** Manages the players in the Cast demo app. */ /** Manages players and an internal media queue for the demo app. */
/* package */ interface PlayerManager { /* package */ class PlayerManager implements EventListener, SessionAvailabilityListener {
/** Listener for events. */ /** Listener for events. */
interface Listener { interface Listener {
/** Called when the currently played item of the media queue changes. */ /** Called when the currently played item of the media queue changes. */
void onQueuePositionChanged(int previousIndex, int newIndex); void onQueuePositionChanged(int previousIndex, int newIndex);
}
private static final String USER_AGENT = "ExoCastDemoPlayer";
private static final DefaultHttpDataSourceFactory DATA_SOURCE_FACTORY =
new DefaultHttpDataSourceFactory(USER_AGENT);
private final PlayerView localPlayerView;
private final PlayerControlView castControlView;
private final SimpleExoPlayer exoPlayer;
private final CastPlayer castPlayer;
private final ArrayList<MediaItem> mediaQueue;
private final Listener listener;
private final ConcatenatingMediaSource concatenatingMediaSource;
private int currentItemIndex;
private Player currentPlayer;
/**
* Creates a new manager for {@link SimpleExoPlayer} and {@link CastPlayer}.
*
* @param listener A {@link Listener} for queue position changes.
* @param localPlayerView The {@link PlayerView} for local playback.
* @param castControlView The {@link PlayerControlView} to control remote playback.
* @param context A {@link Context}.
* @param castContext The {@link CastContext}.
*/
public PlayerManager(
Listener listener,
PlayerView localPlayerView,
PlayerControlView castControlView,
Context context,
CastContext castContext) {
this.listener = listener;
this.localPlayerView = localPlayerView;
this.castControlView = castControlView;
mediaQueue = new ArrayList<>();
currentItemIndex = C.INDEX_UNSET;
concatenatingMediaSource = new ConcatenatingMediaSource();
DefaultTrackSelector trackSelector = new DefaultTrackSelector();
RenderersFactory renderersFactory = new DefaultRenderersFactory(context);
exoPlayer = ExoPlayerFactory.newSimpleInstance(context, renderersFactory, trackSelector);
exoPlayer.addListener(this);
localPlayerView.setPlayer(exoPlayer);
castPlayer = new CastPlayer(castContext);
castPlayer.addListener(this);
castPlayer.setSessionAvailabilityListener(this);
castControlView.setPlayer(castPlayer);
setCurrentPlayer(castPlayer.isCastSessionAvailable() ? castPlayer : exoPlayer);
}
// Queue manipulation methods.
/**
* Plays a specified queue item in the current player.
*
* @param itemIndex The index of the item to play.
*/
public void selectQueueItem(int itemIndex) {
setCurrentItem(itemIndex, C.TIME_UNSET, true);
}
/** Returns the index of the currently played item. */
public int getCurrentItemIndex() {
return currentItemIndex;
}
/**
* Appends {@code item} to the media queue.
*
* @param item The {@link MediaItem} to append.
*/
public void addItem(MediaItem item) {
mediaQueue.add(item);
concatenatingMediaSource.addMediaSource(buildMediaSource(item));
if (currentPlayer == castPlayer) {
castPlayer.addItems(buildMediaQueueItem(item));
}
}
/** Returns the size of the media queue. */
public int getMediaQueueSize() {
return mediaQueue.size();
}
/**
* Returns the item at the given index in the media queue.
*
* @param position The index of the item.
* @return The item at the given index in the media queue.
*/
public MediaItem getItem(int position) {
return mediaQueue.get(position);
}
/**
* Removes the item at the given index from the media queue.
*
* @param item The item to remove.
* @return Whether the removal was successful.
*/
public boolean removeItem(MediaItem item) {
int itemIndex = mediaQueue.indexOf(item);
if (itemIndex == -1) {
return false;
}
concatenatingMediaSource.removeMediaSource(itemIndex);
if (currentPlayer == castPlayer) {
if (castPlayer.getPlaybackState() != Player.STATE_IDLE) {
Timeline castTimeline = castPlayer.getCurrentTimeline();
if (castTimeline.getPeriodCount() <= itemIndex) {
return false;
}
castPlayer.removeItem((int) castTimeline.getPeriod(itemIndex, new Period()).id);
}
}
mediaQueue.remove(itemIndex);
if (itemIndex == currentItemIndex && itemIndex == mediaQueue.size()) {
maybeSetCurrentItemAndNotify(C.INDEX_UNSET);
} else if (itemIndex < currentItemIndex) {
maybeSetCurrentItemAndNotify(currentItemIndex - 1);
}
return true;
}
/**
* Moves an item within the queue.
*
* @param item The item to move.
* @param toIndex The target index of the item in the queue.
* @return Whether the item move was successful.
*/
public boolean moveItem(MediaItem item, int toIndex) {
int fromIndex = mediaQueue.indexOf(item);
if (fromIndex == -1) {
return false;
}
// Player update.
concatenatingMediaSource.moveMediaSource(fromIndex, toIndex);
if (currentPlayer == castPlayer && castPlayer.getPlaybackState() != Player.STATE_IDLE) {
Timeline castTimeline = castPlayer.getCurrentTimeline();
int periodCount = castTimeline.getPeriodCount();
if (periodCount <= fromIndex || periodCount <= toIndex) {
return false;
}
int elementId = (int) castTimeline.getPeriod(fromIndex, new Period()).id;
castPlayer.moveItem(elementId, toIndex);
}
mediaQueue.add(toIndex, mediaQueue.remove(fromIndex));
/** Called when the media queue changes due to modifications not caused by this manager. */ // Index update.
void onQueueContentsExternallyChanged(); if (fromIndex == currentItemIndex) {
maybeSetCurrentItemAndNotify(toIndex);
} else if (fromIndex < currentItemIndex && toIndex >= currentItemIndex) {
maybeSetCurrentItemAndNotify(currentItemIndex - 1);
} else if (fromIndex > currentItemIndex && toIndex <= currentItemIndex) {
maybeSetCurrentItemAndNotify(currentItemIndex + 1);
}
return true;
}
/**
* Dispatches a given {@link KeyEvent} to the corresponding view of the current player.
*
* @param event The {@link KeyEvent}.
* @return Whether the event was handled by the target view.
*/
public boolean dispatchKeyEvent(KeyEvent event) {
if (currentPlayer == exoPlayer) {
return localPlayerView.dispatchKeyEvent(event);
} else /* currentPlayer == castPlayer */ {
return castControlView.dispatchKeyEvent(event);
}
}
/** Releases the manager and the players that it holds. */
public void release() {
currentItemIndex = C.INDEX_UNSET;
mediaQueue.clear();
concatenatingMediaSource.clear();
castPlayer.setSessionAvailabilityListener(null);
castPlayer.release();
localPlayerView.setPlayer(null);
exoPlayer.release();
}
// Player.EventListener implementation.
@Override
public void onPlayerStateChanged(boolean playWhenReady, @Player.State int playbackState) {
updateCurrentItemIndex();
}
/** Called when an error occurs in the current player. */ @Override
void onPlayerError(); public void onPositionDiscontinuity(@DiscontinuityReason int reason) {
updateCurrentItemIndex();
} }
/** Redirects the given {@code keyEvent} to the active player. */ @Override
boolean dispatchKeyEvent(KeyEvent keyEvent); public void onTimelineChanged(
Timeline timeline, @Nullable Object manifest, @TimelineChangeReason int reason) {
updateCurrentItemIndex();
}
/** Appends the given {@link MediaItem} to the media queue. */ // CastPlayer.SessionAvailabilityListener implementation.
void addItem(MediaItem mediaItem);
/** Returns the number of items in the media queue. */ @Override
int getMediaQueueSize(); public void onCastSessionAvailable() {
setCurrentPlayer(castPlayer);
}
/** Selects the item at the given position for playback. */ @Override
void selectQueueItem(int position); public void onCastSessionUnavailable() {
setCurrentPlayer(exoPlayer);
}
// Internal methods.
private void updateCurrentItemIndex() {
int playbackState = currentPlayer.getPlaybackState();
maybeSetCurrentItemAndNotify(
playbackState != Player.STATE_IDLE && playbackState != Player.STATE_ENDED
? currentPlayer.getCurrentWindowIndex()
: C.INDEX_UNSET);
}
private void setCurrentPlayer(Player currentPlayer) {
if (this.currentPlayer == currentPlayer) {
return;
}
// View management.
if (currentPlayer == exoPlayer) {
localPlayerView.setVisibility(View.VISIBLE);
castControlView.hide();
} else /* currentPlayer == castPlayer */ {
localPlayerView.setVisibility(View.GONE);
castControlView.show();
}
// Player state management.
long playbackPositionMs = C.TIME_UNSET;
int windowIndex = C.INDEX_UNSET;
boolean playWhenReady = false;
Player previousPlayer = this.currentPlayer;
if (previousPlayer != null) {
// Save state from the previous player.
int playbackState = previousPlayer.getPlaybackState();
if (playbackState != Player.STATE_ENDED) {
playbackPositionMs = previousPlayer.getCurrentPosition();
playWhenReady = previousPlayer.getPlayWhenReady();
windowIndex = previousPlayer.getCurrentWindowIndex();
if (windowIndex != currentItemIndex) {
playbackPositionMs = C.TIME_UNSET;
windowIndex = currentItemIndex;
}
}
previousPlayer.stop(true);
}
this.currentPlayer = currentPlayer;
// Media queue management.
if (currentPlayer == exoPlayer) {
exoPlayer.prepare(concatenatingMediaSource);
}
// Playback transition.
if (windowIndex != C.INDEX_UNSET) {
setCurrentItem(windowIndex, playbackPositionMs, playWhenReady);
}
}
/** /**
* Returns the position of the item currently being played, or {@link C#INDEX_UNSET} if no item is * Starts playback of the item at the given position.
* being played. *
* @param itemIndex The index of the item to play.
* @param positionMs The position at which playback should start.
* @param playWhenReady Whether the player should proceed when ready to do so.
*/ */
int getCurrentItemIndex(); private void setCurrentItem(int itemIndex, long positionMs, boolean playWhenReady) {
maybeSetCurrentItemAndNotify(itemIndex);
if (currentPlayer == castPlayer && castPlayer.getCurrentTimeline().isEmpty()) {
MediaQueueItem[] items = new MediaQueueItem[mediaQueue.size()];
for (int i = 0; i < items.length; i++) {
items[i] = buildMediaQueueItem(mediaQueue.get(i));
}
castPlayer.loadItems(items, itemIndex, positionMs, Player.REPEAT_MODE_OFF);
} else {
currentPlayer.seekTo(itemIndex, positionMs);
currentPlayer.setPlayWhenReady(playWhenReady);
}
}
/** Returns the {@link MediaItem} at the given {@code position}. */ private void maybeSetCurrentItemAndNotify(int currentItemIndex) {
MediaItem getItem(int position); if (this.currentItemIndex != currentItemIndex) {
int oldIndex = this.currentItemIndex;
this.currentItemIndex = currentItemIndex;
listener.onQueuePositionChanged(oldIndex, currentItemIndex);
}
}
/** Moves the item at position {@code from} to position {@code to}. */ private static MediaSource buildMediaSource(MediaItem item) {
boolean moveItem(MediaItem item, int to); Uri uri = item.media.uri;
switch (item.mimeType) {
case DemoUtil.MIME_TYPE_SS:
return new SsMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_DASH:
return new DashMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_HLS:
return new HlsMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
case DemoUtil.MIME_TYPE_VIDEO_MP4:
return new ProgressiveMediaSource.Factory(DATA_SOURCE_FACTORY).createMediaSource(uri);
default:
throw new IllegalStateException("Unsupported type: " + item.mimeType);
}
}
/** Removes the item at position {@code index}. */ private static MediaQueueItem buildMediaQueueItem(MediaItem item) {
boolean removeItem(MediaItem item); MediaMetadata movieMetadata = new MediaMetadata(MediaMetadata.MEDIA_TYPE_MOVIE);
movieMetadata.putString(MediaMetadata.KEY_TITLE, item.title);
MediaInfo.Builder mediaInfoBuilder =
new MediaInfo.Builder(item.media.uri.toString())
.setStreamType(MediaInfo.STREAM_TYPE_BUFFERED)
.setContentType(item.mimeType)
.setMetadata(movieMetadata);
if (!item.drmSchemes.isEmpty()) {
MediaItem.DrmScheme scheme = item.drmSchemes.get(0);
try {
// This configuration is only intended for testing and should *not* be used in production
// environments. See comment in the Cast Demo app's options provider.
JSONObject drmConfiguration = getDrmConfigurationJson(scheme);
if (drmConfiguration != null) {
mediaInfoBuilder.setCustomData(drmConfiguration);
}
} catch (JSONException e) {
throw new RuntimeException(e);
}
}
return new MediaQueueItem.Builder(mediaInfoBuilder.build()).build();
}
/** Releases any acquired resources. */ @Nullable
void release(); private static JSONObject getDrmConfigurationJson(MediaItem.DrmScheme scheme)
throws JSONException {
String drmScheme;
if (C.WIDEVINE_UUID.equals(scheme.uuid)) {
drmScheme = "widevine";
} else if (C.PLAYREADY_UUID.equals(scheme.uuid)) {
drmScheme = "playready";
} else {
return null;
}
MediaItem.UriBundle licenseServer = Assertions.checkNotNull(scheme.licenseServer);
JSONObject exoplayerConfig =
new JSONObject().put("withCredentials", false).put("protectionSystem", drmScheme);
if (!licenseServer.uri.equals(Uri.EMPTY)) {
exoplayerConfig.put("licenseUrl", licenseServer.uri.toString());
}
if (!licenseServer.requestHeaders.isEmpty()) {
exoplayerConfig.put("headers", new JSONObject(licenseServer.requestHeaders));
}
return new JSONObject().put("exoPlayerConfig", exoplayerConfig);
}
} }
demos/cast/src/main/res/values/strings.xml
...@@ -24,6 +24,4 @@ ...@@ -24,6 +24,4 @@
<string name="cast_context_error">Failed to get Cast context. Try updating Google Play Services and restart the app.</string> <string name="cast_context_error">Failed to get Cast context. Try updating Google Play Services and restart the app.</string>
<string name="player_error_msg">Player error encountered. Select a queue item to reprepare. Check the logcat and receiver app\'s console for more info.</string>
</resources> </resources>
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/CastSessionManager.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
/** Handles communication with the receiver app using a cast session. */
public interface CastSessionManager {
/** Factory for {@link CastSessionManager} instances. */
interface Factory {
/**
* Creates a {@link CastSessionManager} instance with the given listener.
*
* @param listener The listener to notify on receiver app and session state updates.
* @return The created instance.
*/
CastSessionManager create(StateListener listener);
}
/**
* Extends {@link SessionAvailabilityListener} by adding receiver app state notifications.
*
* <p>Receiver app state notifications contain a sequence number that matches the sequence number
* of the last {@link ExoCastMessage} sent (using {@link #send(ExoCastMessage)}) by this session
* manager and processed by the receiver app. Sequence numbers are non-negative numbers.
*/
interface StateListener extends SessionAvailabilityListener {
/**
* Called when a status update is received from the Cast Receiver app.
*
* @param stateUpdate A {@link ReceiverAppStateUpdate} containing the fields included in the
* message.
*/
void onStateUpdateFromReceiverApp(ReceiverAppStateUpdate stateUpdate);
}
/**
* Special constant representing an unset sequence number. It is guaranteed to be a negative
* value.
*/
long SEQUENCE_NUMBER_UNSET = Long.MIN_VALUE;
/**
* Connects the session manager to the cast message bus and starts listening for session
* availability changes. Also announces that this sender app is connected to the message bus.
*/
void start();
/** Stops tracking the state of the cast session and closes any existing session. */
void stopTrackingSession();
/**
* Same as {@link #stopTrackingSession()}, but also stops the receiver app if a session is
* currently available.
*/
void stopTrackingSessionAndCasting();
/** Whether a cast session is available. */
boolean isCastSessionAvailable();
/**
* Sends an {@link ExoCastMessage} to the receiver app.
*
* <p>A sequence number is assigned to every sent message. Message senders may mask the local
* state until a status update from the receiver app (see {@link StateListener}) is received with
* a greater or equal sequence number.
*
* @param message The message to send.
* @return The sequence number assigned to the message.
*/
long send(ExoCastMessage message);
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/DefaultCastSessionManager.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import androidx.annotation.Nullable;
import com.google.android.exoplayer2.util.Assertions;
import com.google.android.exoplayer2.util.Log;
import com.google.android.gms.cast.Cast;
import com.google.android.gms.cast.CastDevice;
import com.google.android.gms.cast.framework.CastContext;
import com.google.android.gms.cast.framework.CastSession;
import com.google.android.gms.cast.framework.SessionManager;
import com.google.android.gms.cast.framework.SessionManagerListener;
import java.io.IOException;
import org.json.JSONException;
/** Implements {@link CastSessionManager} by using JSON message passing. */
public class DefaultCastSessionManager implements CastSessionManager {
private static final String TAG = "DefaultCastSessionManager";
private static final String EXOPLAYER_CAST_NAMESPACE = "urn:x-cast:com.google.exoplayer.cast";
private final SessionManager sessionManager;
private final CastSessionListener castSessionListener;
private final StateListener stateListener;
private final Cast.MessageReceivedCallback messageReceivedCallback;
private boolean started;
private long sequenceNumber;
private long expectedInitialStateUpdateSequence;
@Nullable private CastSession currentSession;
/**
* @param context The Cast context from which the cast session is obtained.
* @param stateListener The listener to notify of state changes.
*/
public DefaultCastSessionManager(CastContext context, StateListener stateListener) {
this.stateListener = stateListener;
sessionManager = context.getSessionManager();
currentSession = sessionManager.getCurrentCastSession();
castSessionListener = new CastSessionListener();
messageReceivedCallback = new CastMessageCallback();
expectedInitialStateUpdateSequence = SEQUENCE_NUMBER_UNSET;
}
@Override
public void start() {
started = true;
sessionManager.addSessionManagerListener(castSessionListener, CastSession.class);
currentSession = sessionManager.getCurrentCastSession();
if (currentSession != null) {
setMessageCallbackOnSession();
}
}
@Override
public void stopTrackingSession() {
stop(/* stopCasting= */ false);
}
@Override
public void stopTrackingSessionAndCasting() {
stop(/* stopCasting= */ true);
}
@Override
public boolean isCastSessionAvailable() {
return currentSession != null && expectedInitialStateUpdateSequence == SEQUENCE_NUMBER_UNSET;
}
@Override
public long send(ExoCastMessage message) {
if (currentSession != null) {
currentSession.sendMessage(EXOPLAYER_CAST_NAMESPACE, message.toJsonString(sequenceNumber));
} else {
Log.w(TAG, "Tried to send a message with no established session. Method: " + message.method);
}
return sequenceNumber++;
}
private void stop(boolean stopCasting) {
sessionManager.removeSessionManagerListener(castSessionListener, CastSession.class);
if (currentSession != null) {
sessionManager.endCurrentSession(stopCasting);
}
currentSession = null;
started = false;
}
private void setCastSession(@Nullable CastSession session) {
Assertions.checkState(started);
boolean hadSession = currentSession != null;
currentSession = session;
if (!hadSession && session != null) {
setMessageCallbackOnSession();
} else if (hadSession && session == null) {
stateListener.onCastSessionUnavailable();
}
}
private void setMessageCallbackOnSession() {
try {
Assertions.checkNotNull(currentSession)
.setMessageReceivedCallbacks(EXOPLAYER_CAST_NAMESPACE, messageReceivedCallback);
expectedInitialStateUpdateSequence = send(new ExoCastMessage.OnClientConnected());
} catch (IOException e) {
throw new IllegalStateException(e);
}
}
/** Listens for Cast session state changes. */
private class CastSessionListener implements SessionManagerListener<CastSession> {
@Override
public void onSessionStarting(CastSession castSession) {}
@Override
public void onSessionStarted(CastSession castSession, String sessionId) {
setCastSession(castSession);
}
@Override
public void onSessionStartFailed(CastSession castSession, int error) {}
@Override
public void onSessionEnding(CastSession castSession) {}
@Override
public void onSessionEnded(CastSession castSession, int error) {
setCastSession(null);
}
@Override
public void onSessionResuming(CastSession castSession, String sessionId) {}
@Override
public void onSessionResumed(CastSession castSession, boolean wasSuspended) {
setCastSession(castSession);
}
@Override
public void onSessionResumeFailed(CastSession castSession, int error) {}
@Override
public void onSessionSuspended(CastSession castSession, int reason) {
setCastSession(null);
}
}
private class CastMessageCallback implements Cast.MessageReceivedCallback {
@Override
public void onMessageReceived(CastDevice castDevice, String namespace, String message) {
if (!EXOPLAYER_CAST_NAMESPACE.equals(namespace)) {
// Non-matching namespace. Ignore.
Log.e(TAG, String.format("Unrecognized namespace: '%s'.", namespace));
return;
}
try {
ReceiverAppStateUpdate receivedUpdate = ReceiverAppStateUpdate.fromJsonMessage(message);
if (expectedInitialStateUpdateSequence == SEQUENCE_NUMBER_UNSET
|| receivedUpdate.sequenceNumber >= expectedInitialStateUpdateSequence) {
stateListener.onStateUpdateFromReceiverApp(receivedUpdate);
if (expectedInitialStateUpdateSequence != SEQUENCE_NUMBER_UNSET) {
expectedInitialStateUpdateSequence = SEQUENCE_NUMBER_UNSET;
stateListener.onCastSessionAvailable();
}
}
} catch (JSONException e) {
Log.e(TAG, "Error while parsing state update from receiver: ", e);
}
}
}
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/ExoCastConstants.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
/** Defines constants used by the Cast extension. */
public final class ExoCastConstants {
private ExoCastConstants() {}
public static final int PROTOCOL_VERSION = 0;
// String representations.
public static final String STR_STATE_IDLE = "IDLE";
public static final String STR_STATE_BUFFERING = "BUFFERING";
public static final String STR_STATE_READY = "READY";
public static final String STR_STATE_ENDED = "ENDED";
public static final String STR_REPEAT_MODE_OFF = "OFF";
public static final String STR_REPEAT_MODE_ONE = "ONE";
public static final String STR_REPEAT_MODE_ALL = "ALL";
public static final String STR_DISCONTINUITY_REASON_PERIOD_TRANSITION = "PERIOD_TRANSITION";
public static final String STR_DISCONTINUITY_REASON_SEEK = "SEEK";
public static final String STR_DISCONTINUITY_REASON_SEEK_ADJUSTMENT = "SEEK_ADJUSTMENT";
public static final String STR_DISCONTINUITY_REASON_AD_INSERTION = "AD_INSERTION";
public static final String STR_DISCONTINUITY_REASON_INTERNAL = "INTERNAL";
public static final String STR_SELECTION_FLAG_DEFAULT = "DEFAULT";
public static final String STR_SELECTION_FLAG_FORCED = "FORCED";
public static final String STR_SELECTION_FLAG_AUTOSELECT = "AUTOSELECT";
// Methods.
public static final String METHOD_BASE = "player.";
public static final String METHOD_ON_CLIENT_CONNECTED = METHOD_BASE + "onClientConnected";
public static final String METHOD_ADD_ITEMS = METHOD_BASE + "addItems";
public static final String METHOD_MOVE_ITEM = METHOD_BASE + "moveItem";
public static final String METHOD_PREPARE = METHOD_BASE + "prepare";
public static final String METHOD_REMOVE_ITEMS = METHOD_BASE + "removeItems";
public static final String METHOD_SET_PLAY_WHEN_READY = METHOD_BASE + "setPlayWhenReady";
public static final String METHOD_SET_REPEAT_MODE = METHOD_BASE + "setRepeatMode";
public static final String METHOD_SET_SHUFFLE_MODE_ENABLED =
METHOD_BASE + "setShuffleModeEnabled";
public static final String METHOD_SEEK_TO = METHOD_BASE + "seekTo";
public static final String METHOD_SET_PLAYBACK_PARAMETERS = METHOD_BASE + "setPlaybackParameters";
public static final String METHOD_SET_TRACK_SELECTION_PARAMETERS =
METHOD_BASE + ".setTrackSelectionParameters";
public static final String METHOD_STOP = METHOD_BASE + "stop";
// JSON message keys.
public static final String KEY_ARGS = "args";
public static final String KEY_DEFAULT_START_POSITION_US = "defaultStartPositionUs";
public static final String KEY_DESCRIPTION = "description";
public static final String KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS =
"disabledTextTrackSelectionFlags";
public static final String KEY_DISCONTINUITY_REASON = "discontinuityReason";
public static final String KEY_DRM_SCHEMES = "drmSchemes";
public static final String KEY_DURATION_US = "durationUs";
public static final String KEY_END_POSITION_US = "endPositionUs";
public static final String KEY_ERROR_MESSAGE = "error";
public static final String KEY_ID = "id";
public static final String KEY_INDEX = "index";
public static final String KEY_IS_DYNAMIC = "isDynamic";
public static final String KEY_IS_LOADING = "isLoading";
public static final String KEY_IS_SEEKABLE = "isSeekable";
public static final String KEY_ITEMS = "items";
public static final String KEY_LICENSE_SERVER = "licenseServer";
public static final String KEY_MEDIA = "media";
public static final String KEY_MEDIA_ITEMS_INFO = "mediaItemsInfo";
public static final String KEY_MEDIA_QUEUE = "mediaQueue";
public static final String KEY_METHOD = "method";
public static final String KEY_MIME_TYPE = "mimeType";
public static final String KEY_PERIOD_ID = "periodId";
public static final String KEY_PERIODS = "periods";
public static final String KEY_PITCH = "pitch";
public static final String KEY_PLAY_WHEN_READY = "playWhenReady";
public static final String KEY_PLAYBACK_PARAMETERS = "playbackParameters";
public static final String KEY_PLAYBACK_POSITION = "playbackPosition";
public static final String KEY_PLAYBACK_STATE = "playbackState";
public static final String KEY_POSITION_IN_FIRST_PERIOD_US = "positionInFirstPeriodUs";
public static final String KEY_POSITION_MS = "positionMs";
public static final String KEY_PREFERRED_AUDIO_LANGUAGE = "preferredAudioLanguage";
public static final String KEY_PREFERRED_TEXT_LANGUAGE = "preferredTextLanguage";
public static final String KEY_PROTOCOL_VERSION = "protocolVersion";
public static final String KEY_REPEAT_MODE = "repeatMode";
public static final String KEY_REQUEST_HEADERS = "requestHeaders";
public static final String KEY_RESET = "reset";
public static final String KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE =
"selectUndeterminedTextLanguage";
public static final String KEY_SEQUENCE_NUMBER = "sequenceNumber";
public static final String KEY_SHUFFLE_MODE_ENABLED = "shuffleModeEnabled";
public static final String KEY_SHUFFLE_ORDER = "shuffleOrder";
public static final String KEY_SKIP_SILENCE = "skipSilence";
public static final String KEY_SPEED = "speed";
public static final String KEY_START_POSITION_US = "startPositionUs";
public static final String KEY_TITLE = "title";
public static final String KEY_TRACK_SELECTION_PARAMETERS = "trackSelectionParameters";
public static final String KEY_URI = "uri";
public static final String KEY_UUID = "uuid";
public static final String KEY_UUIDS = "uuids";
public static final String KEY_WINDOW_DURATION_US = "windowDurationUs";
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/ExoCastMessage.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import static com.google.android.exoplayer2.Player.REPEAT_MODE_ALL;
import static com.google.android.exoplayer2.Player.REPEAT_MODE_OFF;
import static com.google.android.exoplayer2.Player.REPEAT_MODE_ONE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ARGS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DESCRIPTION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DRM_SCHEMES;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_END_POSITION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_INDEX;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ITEMS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_LICENSE_SERVER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MEDIA;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_METHOD;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MIME_TYPE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PITCH;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAY_WHEN_READY;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_POSITION_MS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PREFERRED_AUDIO_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PREFERRED_TEXT_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PROTOCOL_VERSION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_REPEAT_MODE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_REQUEST_HEADERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_RESET;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SEQUENCE_NUMBER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SHUFFLE_MODE_ENABLED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SHUFFLE_ORDER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SKIP_SILENCE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SPEED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_START_POSITION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_TITLE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_URI;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_UUID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_UUIDS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_ADD_ITEMS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_MOVE_ITEM;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_ON_CLIENT_CONNECTED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_PREPARE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_REMOVE_ITEMS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SEEK_TO;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_PLAYBACK_PARAMETERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_PLAY_WHEN_READY;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_REPEAT_MODE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_SHUFFLE_MODE_ENABLED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_TRACK_SELECTION_PARAMETERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_STOP;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.PROTOCOL_VERSION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_ALL;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_OFF;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_ONE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_SELECTION_FLAG_AUTOSELECT;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_SELECTION_FLAG_DEFAULT;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_SELECTION_FLAG_FORCED;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.PlaybackParameters;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.ext.cast.MediaItem.UriBundle;
import com.google.android.exoplayer2.source.ShuffleOrder;
import com.google.android.exoplayer2.trackselection.TrackSelectionParameters;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.UUID;
import org.json.JSONArray;
import org.json.JSONException;
import org.json.JSONObject;
// TODO(Internal b/118432277): Evaluate using a proto for sending to the receiver app.
/** A serializable message for operating a media player. */
public abstract class ExoCastMessage {
/** Notifies the receiver app of the connection of a sender app to the message bus. */
public static final class OnClientConnected extends ExoCastMessage {
public OnClientConnected() {
super(METHOD_ON_CLIENT_CONNECTED);
}
@Override
protected JSONObject getArgumentsAsJsonObject() {
// No arguments needed.
return new JSONObject();
}
}
/** Transitions the player out of {@link Player#STATE_IDLE}. */
public static final class Prepare extends ExoCastMessage {
public Prepare() {
super(METHOD_PREPARE);
}
@Override
protected JSONObject getArgumentsAsJsonObject() {
// No arguments needed.
return new JSONObject();
}
}
/** Transitions the player to {@link Player#STATE_IDLE} and optionally resets its state. */
public static final class Stop extends ExoCastMessage {
/** Whether the player state should be reset. */
public final boolean reset;
public Stop(boolean reset) {
super(METHOD_STOP);
this.reset = reset;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
return new JSONObject().put(KEY_RESET, reset);
}
}
/** Adds items to a media player queue. */
public static final class AddItems extends ExoCastMessage {
/**
* The index at which the {@link #items} should be inserted. If {@link C#INDEX_UNSET}, the items
* are appended to the queue.
*/
public final int index;
/** The {@link MediaItem items} to add to the media queue. */
public final List<MediaItem> items;
/**
* The shuffle order to use for the media queue that results of adding the items to the queue.
*/
public final ShuffleOrder shuffleOrder;
/**
* @param index See {@link #index}.
* @param items See {@link #items}.
* @param shuffleOrder See {@link #shuffleOrder}.
*/
public AddItems(int index, List<MediaItem> items, ShuffleOrder shuffleOrder) {
super(METHOD_ADD_ITEMS);
this.index = index;
this.items = Collections.unmodifiableList(new ArrayList<>(items));
this.shuffleOrder = shuffleOrder;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
JSONObject arguments =
new JSONObject()
.put(KEY_ITEMS, getItemsAsJsonArray())
.put(KEY_SHUFFLE_ORDER, getShuffleOrderAsJson(shuffleOrder));
maybePutValue(arguments, KEY_INDEX, index, C.INDEX_UNSET);
return arguments;
}
private JSONArray getItemsAsJsonArray() throws JSONException {
JSONArray result = new JSONArray();
for (MediaItem item : items) {
result.put(mediaItemAsJsonObject(item));
}
return result;
}
}
/** Moves an item in a player media queue. */
public static final class MoveItem extends ExoCastMessage {
/** The {@link MediaItem#uuid} of the item to move. */
public final UUID uuid;
/** The index in the queue to which the item should be moved. */
public final int index;
/** The shuffle order to use for the media queue that results of moving the item. */
public ShuffleOrder shuffleOrder;
/**
* @param uuid See {@link #uuid}.
* @param index See {@link #index}.
* @param shuffleOrder See {@link #shuffleOrder}.
*/
public MoveItem(UUID uuid, int index, ShuffleOrder shuffleOrder) {
super(METHOD_MOVE_ITEM);
this.uuid = uuid;
this.index = index;
this.shuffleOrder = shuffleOrder;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
return new JSONObject()
.put(KEY_UUID, uuid)
.put(KEY_INDEX, index)
.put(KEY_SHUFFLE_ORDER, getShuffleOrderAsJson(shuffleOrder));
}
}
/** Removes items from a player queue. */
public static final class RemoveItems extends ExoCastMessage {
/** The {@link MediaItem#uuid} of the items to remove from the queue. */
public final List<UUID> uuids;
/** @param uuids See {@link #uuids}. */
public RemoveItems(List<UUID> uuids) {
super(METHOD_REMOVE_ITEMS);
this.uuids = Collections.unmodifiableList(new ArrayList<>(uuids));
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
return new JSONObject().put(KEY_UUIDS, new JSONArray(uuids));
}
}
/** See {@link Player#setPlayWhenReady(boolean)}. */
public static final class SetPlayWhenReady extends ExoCastMessage {
/** The {@link Player#setPlayWhenReady(boolean) playWhenReady} value to set. */
public final boolean playWhenReady;
/** @param playWhenReady See {@link #playWhenReady}. */
public SetPlayWhenReady(boolean playWhenReady) {
super(METHOD_SET_PLAY_WHEN_READY);
this.playWhenReady = playWhenReady;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
return new JSONObject().put(KEY_PLAY_WHEN_READY, playWhenReady);
}
}
/**
* Sets the repeat mode of the media player.
*
* @see Player#setRepeatMode(int)
*/
public static final class SetRepeatMode extends ExoCastMessage {
/** The {@link Player#setRepeatMode(int) repeatMode} to set. */
@Player.RepeatMode public final int repeatMode;
/** @param repeatMode See {@link #repeatMode}. */
public SetRepeatMode(@Player.RepeatMode int repeatMode) {
super(METHOD_SET_REPEAT_MODE);
this.repeatMode = repeatMode;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
return new JSONObject().put(KEY_REPEAT_MODE, repeatModeToString(repeatMode));
}
private static String repeatModeToString(@Player.RepeatMode int repeatMode) {
switch (repeatMode) {
case REPEAT_MODE_OFF:
return STR_REPEAT_MODE_OFF;
case REPEAT_MODE_ONE:
return STR_REPEAT_MODE_ONE;
case REPEAT_MODE_ALL:
return STR_REPEAT_MODE_ALL;
default:
throw new AssertionError("Illegal repeat mode: " + repeatMode);
}
}
}
/**
* Enables and disables shuffle mode in the media player.
*
* @see Player#setShuffleModeEnabled(boolean)
*/
public static final class SetShuffleModeEnabled extends ExoCastMessage {
/** The {@link Player#setShuffleModeEnabled(boolean) shuffleModeEnabled} value to set. */
public boolean shuffleModeEnabled;
/** @param shuffleModeEnabled See {@link #shuffleModeEnabled}. */
public SetShuffleModeEnabled(boolean shuffleModeEnabled) {
super(METHOD_SET_SHUFFLE_MODE_ENABLED);
this.shuffleModeEnabled = shuffleModeEnabled;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
return new JSONObject().put(KEY_SHUFFLE_MODE_ENABLED, shuffleModeEnabled);
}
}
/** See {@link Player#seekTo(int, long)}. */
public static final class SeekTo extends ExoCastMessage {
/** The {@link MediaItem#uuid} of the item to seek to. */
public final UUID uuid;
/**
* The seek position in milliseconds in the specified item. If {@link C#TIME_UNSET}, the target
* position is the item's default position.
*/
public final long positionMs;
/**
* @param uuid See {@link #uuid}.
* @param positionMs See {@link #positionMs}.
*/
public SeekTo(UUID uuid, long positionMs) {
super(METHOD_SEEK_TO);
this.uuid = uuid;
this.positionMs = positionMs;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
JSONObject result = new JSONObject().put(KEY_UUID, uuid);
ExoCastMessage.maybePutValue(result, KEY_POSITION_MS, positionMs, C.TIME_UNSET);
return result;
}
}
/** See {@link Player#setPlaybackParameters(PlaybackParameters)}. */
public static final class SetPlaybackParameters extends ExoCastMessage {
/** The {@link Player#setPlaybackParameters(PlaybackParameters) parameters} to set. */
public final PlaybackParameters playbackParameters;
/** @param playbackParameters See {@link #playbackParameters}. */
public SetPlaybackParameters(PlaybackParameters playbackParameters) {
super(METHOD_SET_PLAYBACK_PARAMETERS);
this.playbackParameters = playbackParameters;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
return new JSONObject()
.put(KEY_SPEED, playbackParameters.speed)
.put(KEY_PITCH, playbackParameters.pitch)
.put(KEY_SKIP_SILENCE, playbackParameters.skipSilence);
}
}
/** See {@link ExoCastPlayer#setTrackSelectionParameters(TrackSelectionParameters)}. */
public static final class SetTrackSelectionParameters extends ExoCastMessage {
/**
* The {@link ExoCastPlayer#setTrackSelectionParameters(TrackSelectionParameters) parameters} to
* set
*/
public final TrackSelectionParameters trackSelectionParameters;
public SetTrackSelectionParameters(TrackSelectionParameters trackSelectionParameters) {
super(METHOD_SET_TRACK_SELECTION_PARAMETERS);
this.trackSelectionParameters = trackSelectionParameters;
}
@Override
protected JSONObject getArgumentsAsJsonObject() throws JSONException {
JSONArray disabledTextSelectionFlagsJson = new JSONArray();
int disabledSelectionFlags = trackSelectionParameters.disabledTextTrackSelectionFlags;
if ((disabledSelectionFlags & C.SELECTION_FLAG_AUTOSELECT) != 0) {
disabledTextSelectionFlagsJson.put(STR_SELECTION_FLAG_AUTOSELECT);
}
if ((disabledSelectionFlags & C.SELECTION_FLAG_FORCED) != 0) {
disabledTextSelectionFlagsJson.put(STR_SELECTION_FLAG_FORCED);
}
if ((disabledSelectionFlags & C.SELECTION_FLAG_DEFAULT) != 0) {
disabledTextSelectionFlagsJson.put(STR_SELECTION_FLAG_DEFAULT);
}
return new JSONObject()
.put(KEY_PREFERRED_AUDIO_LANGUAGE, trackSelectionParameters.preferredAudioLanguage)
.put(KEY_PREFERRED_TEXT_LANGUAGE, trackSelectionParameters.preferredTextLanguage)
.put(KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS, disabledTextSelectionFlagsJson)
.put(
KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE,
trackSelectionParameters.selectUndeterminedTextLanguage);
}
}
public final String method;
/**
* Creates a message with the given method.
*
* @param method The method of the message.
*/
protected ExoCastMessage(String method) {
this.method = method;
}
/**
* Returns a string containing a JSON representation of this message.
*
* @param sequenceNumber The sequence number to associate with this message.
* @return A string containing a JSON representation of this message.
*/
public final String toJsonString(long sequenceNumber) {
try {
JSONObject message =
new JSONObject()
.put(KEY_PROTOCOL_VERSION, PROTOCOL_VERSION)
.put(KEY_METHOD, method)
.put(KEY_SEQUENCE_NUMBER, sequenceNumber)
.put(KEY_ARGS, getArgumentsAsJsonObject());
return message.toString();
} catch (JSONException e) {
throw new AssertionError(e);
}
}
/** Returns a {@link JSONObject} representation of the given item. */
protected static JSONObject mediaItemAsJsonObject(MediaItem item) throws JSONException {
JSONObject itemAsJson = new JSONObject();
itemAsJson.put(KEY_UUID, item.uuid);
itemAsJson.put(KEY_TITLE, item.title);
itemAsJson.put(KEY_DESCRIPTION, item.description);
itemAsJson.put(KEY_MEDIA, uriBundleAsJsonObject(item.media));
// TODO(Internal b/118431961): Add attachment management.
JSONArray drmSchemesAsJson = new JSONArray();
for (MediaItem.DrmScheme drmScheme : item.drmSchemes) {
JSONObject drmSchemeAsJson = new JSONObject();
drmSchemeAsJson.put(KEY_UUID, drmScheme.uuid);
if (drmScheme.licenseServer != null) {
drmSchemeAsJson.put(KEY_LICENSE_SERVER, uriBundleAsJsonObject(drmScheme.licenseServer));
}
drmSchemesAsJson.put(drmSchemeAsJson);
}
itemAsJson.put(KEY_DRM_SCHEMES, drmSchemesAsJson);
maybePutValue(itemAsJson, KEY_START_POSITION_US, item.startPositionUs, C.TIME_UNSET);
maybePutValue(itemAsJson, KEY_END_POSITION_US, item.endPositionUs, C.TIME_UNSET);
itemAsJson.put(KEY_MIME_TYPE, item.mimeType);
return itemAsJson;
}
/** Returns a {@link JSONObject JSON object} containing the arguments of the message. */
protected abstract JSONObject getArgumentsAsJsonObject() throws JSONException;
/** Returns a JSON representation of the given {@link UriBundle}. */
protected static JSONObject uriBundleAsJsonObject(UriBundle uriBundle) throws JSONException {
return new JSONObject()
.put(KEY_URI, uriBundle.uri)
.put(KEY_REQUEST_HEADERS, new JSONObject(uriBundle.requestHeaders));
}
private static JSONArray getShuffleOrderAsJson(ShuffleOrder shuffleOrder) {
JSONArray shuffleOrderJson = new JSONArray();
int index = shuffleOrder.getFirstIndex();
while (index != C.INDEX_UNSET) {
shuffleOrderJson.put(index);
index = shuffleOrder.getNextIndex(index);
}
return shuffleOrderJson;
}
private static void maybePutValue(JSONObject target, String key, long value, long unsetValue)
throws JSONException {
if (value != unsetValue) {
target.put(key, value);
}
}
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/ExoCastOptionsProvider.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import android.content.Context;
import androidx.annotation.Nullable;
import com.google.android.gms.cast.framework.CastOptions;
import com.google.android.gms.cast.framework.OptionsProvider;
import com.google.android.gms.cast.framework.SessionProvider;
import java.util.List;
/** Cast options provider to target ExoPlayer's custom receiver app. */
public final class ExoCastOptionsProvider implements OptionsProvider {
public static final String RECEIVER_ID = "365DCC88";
@Override
public CastOptions getCastOptions(Context context) {
return new CastOptions.Builder().setReceiverApplicationId(RECEIVER_ID).build();
}
@Override
@Nullable
public List<SessionProvider> getAdditionalSessionProviders(Context context) {
return null;
}
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/ExoCastPlayer.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import android.os.Looper;
import androidx.annotation.Nullable;
import com.google.android.exoplayer2.BasePlayer;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.ExoPlaybackException;
import com.google.android.exoplayer2.IllegalSeekPositionException;
import com.google.android.exoplayer2.PlaybackParameters;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.Timeline;
import com.google.android.exoplayer2.ext.cast.ExoCastMessage.AddItems;
import com.google.android.exoplayer2.ext.cast.ExoCastMessage.MoveItem;
import com.google.android.exoplayer2.ext.cast.ExoCastMessage.RemoveItems;
import com.google.android.exoplayer2.ext.cast.ExoCastMessage.SetRepeatMode;
import com.google.android.exoplayer2.ext.cast.ExoCastMessage.SetShuffleModeEnabled;
import com.google.android.exoplayer2.ext.cast.ExoCastMessage.SetTrackSelectionParameters;
import com.google.android.exoplayer2.ext.cast.ExoCastTimeline.PeriodUid;
import com.google.android.exoplayer2.source.ShuffleOrder;
import com.google.android.exoplayer2.source.TrackGroupArray;
import com.google.android.exoplayer2.trackselection.TrackSelectionArray;
import com.google.android.exoplayer2.trackselection.TrackSelectionParameters;
import com.google.android.exoplayer2.util.Assertions;
import com.google.android.exoplayer2.util.Clock;
import com.google.android.exoplayer2.util.Util;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.UUID;
import java.util.concurrent.CopyOnWriteArrayList;
import org.checkerframework.checker.nullness.compatqual.NullableType;
/**
* Plays media in a Cast receiver app that implements the ExoCast message protocol.
*
* <p>The ExoCast communication protocol consists in exchanging serialized {@link ExoCastMessage
* ExoCastMessages} and {@link ReceiverAppStateUpdate receiver app state updates}.
*
* <p>All methods in this class must be invoked on the main thread. Operations that change the state
* of the receiver app are masked locally as if their effect was immediate in the receiver app.
*
* <p>Methods that change the state of the player must only be invoked when a session is available,
* according to {@link CastSessionManager#isCastSessionAvailable()}.
*/
public final class ExoCastPlayer extends BasePlayer {
private static final String TAG = "ExoCastPlayer";
private static final int RENDERER_COUNT = 4;
private static final int RENDERER_INDEX_VIDEO = 0;
private static final int RENDERER_INDEX_AUDIO = 1;
private static final int RENDERER_INDEX_TEXT = 2;
private static final int RENDERER_INDEX_METADATA = 3;
private final Clock clock;
private final CastSessionManager castSessionManager;
private final CopyOnWriteArrayList<ListenerHolder> listeners;
private final ArrayList<ListenerNotificationTask> notificationsBatch;
private final ArrayDeque<ListenerNotificationTask> ongoingNotificationsTasks;
private final Timeline.Period scratchPeriod;
@Nullable private SessionAvailabilityListener sessionAvailabilityListener;
// Player state.
private final List<MediaItem> mediaItems;
private final StateHolder<ExoCastTimeline> currentTimeline;
private ShuffleOrder currentShuffleOrder;
private final StateHolder<Integer> playbackState;
private final StateHolder<Boolean> playWhenReady;
private final StateHolder<Integer> repeatMode;
private final StateHolder<Boolean> shuffleModeEnabled;
private final StateHolder<Boolean> isLoading;
private final StateHolder<PlaybackParameters> playbackParameters;
private final StateHolder<TrackSelectionParameters> trackselectionParameters;
private final StateHolder<TrackGroupArray> currentTrackGroups;
private final StateHolder<TrackSelectionArray> currentTrackSelections;
private final StateHolder<@NullableType Object> currentManifest;
private final StateHolder<@NullableType PeriodUid> currentPeriodUid;
private final StateHolder<Long> playbackPositionMs;
private final HashMap<UUID, MediaItemInfo> currentMediaItemInfoMap;
private long lastPlaybackPositionChangeTimeMs;
@Nullable private ExoPlaybackException playbackError;
/**
* Creates an instance using the system clock for calculating time deltas.
*
* @param castSessionManagerFactory Factory to create the {@link CastSessionManager}.
*/
public ExoCastPlayer(CastSessionManager.Factory castSessionManagerFactory) {
this(castSessionManagerFactory, Clock.DEFAULT);
}
/**
* Creates an instance using a custom {@link Clock} implementation.
*
* @param castSessionManagerFactory Factory to create the {@link CastSessionManager}.
* @param clock The clock to use for time delta calculations.
*/
public ExoCastPlayer(CastSessionManager.Factory castSessionManagerFactory, Clock clock) {
this.clock = clock;
castSessionManager = castSessionManagerFactory.create(new SessionManagerStateListener());
listeners = new CopyOnWriteArrayList<>();
notificationsBatch = new ArrayList<>();
ongoingNotificationsTasks = new ArrayDeque<>();
scratchPeriod = new Timeline.Period();
mediaItems = new ArrayList<>();
currentShuffleOrder = new ShuffleOrder.DefaultShuffleOrder(/* length= */ mediaItems.size());
playbackState = new StateHolder<>(STATE_IDLE);
playWhenReady = new StateHolder<>(false);
repeatMode = new StateHolder<>(REPEAT_MODE_OFF);
shuffleModeEnabled = new StateHolder<>(false);
isLoading = new StateHolder<>(false);
playbackParameters = new StateHolder<>(PlaybackParameters.DEFAULT);
trackselectionParameters = new StateHolder<>(TrackSelectionParameters.DEFAULT);
currentTrackGroups = new StateHolder<>(TrackGroupArray.EMPTY);
currentTrackSelections = new StateHolder<>(new TrackSelectionArray(null, null, null, null));
currentManifest = new StateHolder<>(null);
currentTimeline = new StateHolder<>(ExoCastTimeline.EMPTY);
playbackPositionMs = new StateHolder<>(0L);
currentPeriodUid = new StateHolder<>(null);
currentMediaItemInfoMap = new HashMap<>();
castSessionManager.start();
}
/** Returns whether a Cast session is available. */
public boolean isCastSessionAvailable() {
return castSessionManager.isCastSessionAvailable();
}
/**
* Sets a listener for updates on the Cast session availability.
*
* @param listener The {@link SessionAvailabilityListener}.
*/
public void setSessionAvailabilityListener(@Nullable SessionAvailabilityListener listener) {
sessionAvailabilityListener = listener;
}
/**
* Prepares the player for playback.
*
* <p>Sends a preparation message to the receiver. If the player is in {@link #STATE_IDLE},
* updates the timeline with the media queue contents.
*/
public void prepare() {
long sequence = castSessionManager.send(new ExoCastMessage.Prepare());
if (playbackState.value == STATE_IDLE) {
playbackState.sequence = sequence;
setPlaybackStateInternal(mediaItems.isEmpty() ? STATE_ENDED : STATE_BUFFERING);
if (!currentTimeline.value.representsMediaQueue(
mediaItems, currentMediaItemInfoMap, currentShuffleOrder)) {
updateTimelineInternal(TIMELINE_CHANGE_REASON_PREPARED);
}
}
flushNotifications();
}
/**
* Returns the item at the given index.
*
* @param index The index of the item to retrieve.
* @return The item at the given index.
*/
public MediaItem getQueueItem(int index) {
return mediaItems.get(index);
}
/**
* Equivalent to {@link #addItemsToQueue(int, MediaItem...) addItemsToQueue(C.INDEX_UNSET,
* items)}.
*/
public void addItemsToQueue(MediaItem... items) {
addItemsToQueue(C.INDEX_UNSET, items);
}
/**
* Adds the given sequence of items to the queue at the given position, so that the first of
* {@code items} is placed at the given index.
*
* <p>This method discards {@code items} with a uuid that already appears in the media queue. This
* method does nothing if {@code items} contains no new items.
*
* @param optionalIndex The index at which {@code items} will be inserted. If {@link
* C#INDEX_UNSET} is passed, the items are appended to the media queue.
* @param items The sequence of items to append. {@code items} must not contain items with
* matching uuids.
* @throws IllegalArgumentException If two or more elements in {@code items} contain matching
* uuids.
*/
public void addItemsToQueue(int optionalIndex, MediaItem... items) {
// Filter out items whose uuid already appears in the queue.
ArrayList<MediaItem> itemsToAdd = new ArrayList<>();
HashSet<UUID> addedUuids = new HashSet<>();
for (MediaItem item : items) {
Assertions.checkArgument(
addedUuids.add(item.uuid), "Added items must contain distinct uuids");
if (playbackState.value == STATE_IDLE
|| currentTimeline.value.getWindowIndexFromUuid(item.uuid) == C.INDEX_UNSET) {
// Prevent adding items that exist in the timeline. If the player is not yet prepared,
// ignore this check, since the timeline may not reflect the current media queue.
// Preparation will filter any duplicates.
itemsToAdd.add(item);
}
}
if (itemsToAdd.isEmpty()) {
return;
}
int normalizedIndex;
if (optionalIndex != C.INDEX_UNSET) {
normalizedIndex = optionalIndex;
mediaItems.addAll(optionalIndex, itemsToAdd);
} else {
normalizedIndex = mediaItems.size();
mediaItems.addAll(itemsToAdd);
}
currentShuffleOrder = currentShuffleOrder.cloneAndInsert(normalizedIndex, itemsToAdd.size());
long sequence =
castSessionManager.send(new AddItems(optionalIndex, itemsToAdd, currentShuffleOrder));
if (playbackState.value != STATE_IDLE) {
currentTimeline.sequence = sequence;
updateTimelineInternal(TIMELINE_CHANGE_REASON_DYNAMIC);
}
flushNotifications();
}
/**
* Moves an existing item within the queue.
*
* <p>Calling this method is equivalent to removing the item at position {@code indexFrom} and
* immediately inserting it at position {@code indexTo}. If the moved item is being played at the
* moment of the invocation, playback will stick with the moved item.
*
* @param index The index of the item to move.
* @param newIndex The index at which the item will be placed after this operation.
*/
public void moveItemInQueue(int index, int newIndex) {
MediaItem movedItem = mediaItems.remove(index);
mediaItems.add(newIndex, movedItem);
currentShuffleOrder =
currentShuffleOrder
.cloneAndRemove(index, index + 1)
.cloneAndInsert(newIndex, /* insertionCount= */ 1);
long sequence =
castSessionManager.send(new MoveItem(movedItem.uuid, newIndex, currentShuffleOrder));
if (playbackState.value != STATE_IDLE) {
currentTimeline.sequence = sequence;
updateTimelineInternal(TIMELINE_CHANGE_REASON_DYNAMIC);
}
flushNotifications();
}
/**
* Removes an item from the queue.
*
* @param index The index of the item to remove from the queue.
*/
public void removeItemFromQueue(int index) {
removeRangeFromQueue(index, index + 1);
}
/**
* Removes a range of items from the queue.
*
* <p>If the currently-playing item is removed, the playback position moves to the item following
* the removed range. If no item follows the removed range, the position is set to the last item
* in the queue and the player state transitions to {@link #STATE_ENDED}. Does nothing if an empty
* range ({@code from == exclusiveTo}) is passed.
*
* @param indexFrom The inclusive index at which the range to remove starts.
* @param indexExclusiveTo The exclusive index at which the range to remove ends.
*/
public void removeRangeFromQueue(int indexFrom, int indexExclusiveTo) {
UUID[] uuidsToRemove = new UUID[indexExclusiveTo - indexFrom];
for (int i = 0; i < uuidsToRemove.length; i++) {
uuidsToRemove[i] = mediaItems.get(i + indexFrom).uuid;
}
int windowIndexBeforeRemoval = getCurrentWindowIndex();
boolean currentItemWasRemoved =
windowIndexBeforeRemoval >= indexFrom && windowIndexBeforeRemoval < indexExclusiveTo;
boolean shouldTransitionToEnded =
currentItemWasRemoved && indexExclusiveTo == mediaItems.size();
Util.removeRange(mediaItems, indexFrom, indexExclusiveTo);
long sequence = castSessionManager.send(new RemoveItems(Arrays.asList(uuidsToRemove)));
currentShuffleOrder = currentShuffleOrder.cloneAndRemove(indexFrom, indexExclusiveTo);
if (playbackState.value != STATE_IDLE) {
currentTimeline.sequence = sequence;
updateTimelineInternal(TIMELINE_CHANGE_REASON_DYNAMIC);
if (currentItemWasRemoved) {
int newWindowIndex = Math.max(0, indexFrom - (shouldTransitionToEnded ? 1 : 0));
PeriodUid periodUid =
currentTimeline.value.isEmpty()
? null
: (PeriodUid)
currentTimeline.value.getPeriodPosition(
window,
scratchPeriod,
newWindowIndex,
/* windowPositionUs= */ C.TIME_UNSET)
.first;
currentPeriodUid.sequence = sequence;
playbackPositionMs.sequence = sequence;
setPlaybackPositionInternal(
periodUid,
/* positionMs= */ C.TIME_UNSET,
/* discontinuityReason= */ DISCONTINUITY_REASON_SEEK);
}
playbackState.sequence = sequence;
setPlaybackStateInternal(shouldTransitionToEnded ? STATE_ENDED : STATE_BUFFERING);
}
flushNotifications();
}
/** Removes all items in the queue. */
public void clearQueue() {
removeRangeFromQueue(0, getQueueSize());
}
/** Returns the number of items in this queue. */
public int getQueueSize() {
return mediaItems.size();
}
// Track selection.
/**
* Provides a set of constrains for the receiver app to execute track selection.
*
* <p>{@link TrackSelectionParameters} passed to this method may be {@link
* TrackSelectionParameters#buildUpon() built upon} by this player as a result of a remote
* operation, which means {@link TrackSelectionParameters} obtained from {@link
* #getTrackSelectionParameters()} may have field differences with {@code parameters} passed to
* this method. However, only fields modified remotely will present differences. Other fields will
* remain unchanged.
*/
public void setTrackSelectionParameters(TrackSelectionParameters trackselectionParameters) {
this.trackselectionParameters.value = trackselectionParameters;
this.trackselectionParameters.sequence =
castSessionManager.send(new SetTrackSelectionParameters(trackselectionParameters));
}
/**
* Retrieves the current {@link TrackSelectionParameters}. See {@link
* #setTrackSelectionParameters(TrackSelectionParameters)}.
*/
public TrackSelectionParameters getTrackSelectionParameters() {
return trackselectionParameters.value;
}
// Player Implementation.
@Override
@Nullable
public AudioComponent getAudioComponent() {
// TODO: Implement volume controls using the audio component.
return null;
}
@Override
@Nullable
public VideoComponent getVideoComponent() {
return null;
}
@Override
@Nullable
public TextComponent getTextComponent() {
return null;
}
@Override
@Nullable
public MetadataComponent getMetadataComponent() {
return null;
}
@Override
public Looper getApplicationLooper() {
return Looper.getMainLooper();
}
@Override
public void addListener(EventListener listener) {
listeners.addIfAbsent(new ListenerHolder(listener));
}
@Override
public void removeListener(EventListener listener) {
for (ListenerHolder listenerHolder : listeners) {
if (listenerHolder.listener.equals(listener)) {
listenerHolder.release();
listeners.remove(listenerHolder);
}
}
}
@Override
@Player.State
public int getPlaybackState() {
return playbackState.value;
}
@Nullable
@Override
public ExoPlaybackException getPlaybackError() {
return playbackError;
}
@Override
public void setPlayWhenReady(boolean playWhenReady) {
this.playWhenReady.sequence =
castSessionManager.send(new ExoCastMessage.SetPlayWhenReady(playWhenReady));
// Take a snapshot of the playback position before pausing to ensure future calculations are
// correct.
setPlaybackPositionInternal(
currentPeriodUid.value, getCurrentPosition(), /* discontinuityReason= */ null);
setPlayWhenReadyInternal(playWhenReady);
flushNotifications();
}
@Override
public boolean getPlayWhenReady() {
return playWhenReady.value;
}
@Override
public void setRepeatMode(@RepeatMode int repeatMode) {
this.repeatMode.sequence = castSessionManager.send(new SetRepeatMode(repeatMode));
setRepeatModeInternal(repeatMode);
flushNotifications();
}
@Override
@RepeatMode
public int getRepeatMode() {
return repeatMode.value;
}
@Override
public void setShuffleModeEnabled(boolean shuffleModeEnabled) {
this.shuffleModeEnabled.sequence =
castSessionManager.send(new SetShuffleModeEnabled(shuffleModeEnabled));
setShuffleModeEnabledInternal(shuffleModeEnabled);
flushNotifications();
}
@Override
public boolean getShuffleModeEnabled() {
return shuffleModeEnabled.value;
}
@Override
public boolean isLoading() {
return isLoading.value;
}
@Override
public void seekTo(int windowIndex, long positionMs) {
if (mediaItems.isEmpty()) {
// TODO: Handle seeking in empty timeline.
setPlaybackPositionInternal(/* periodUid= */ null, 0, DISCONTINUITY_REASON_SEEK);
return;
} else if (windowIndex >= mediaItems.size()) {
throw new IllegalSeekPositionException(currentTimeline.value, windowIndex, positionMs);
}
long sequence =
castSessionManager.send(
new ExoCastMessage.SeekTo(mediaItems.get(windowIndex).uuid, positionMs));
currentPeriodUid.sequence = sequence;
playbackPositionMs.sequence = sequence;
PeriodUid periodUid =
(PeriodUid)
currentTimeline.value.getPeriodPosition(
window, scratchPeriod, windowIndex, C.msToUs(positionMs))
.first;
setPlaybackPositionInternal(periodUid, positionMs, DISCONTINUITY_REASON_SEEK);
if (playbackState.value != STATE_IDLE) {
playbackState.sequence = sequence;
setPlaybackStateInternal(STATE_BUFFERING);
}
flushNotifications();
}
@Override
public void setPlaybackParameters(@Nullable PlaybackParameters playbackParameters) {
playbackParameters =
playbackParameters != null ? playbackParameters : PlaybackParameters.DEFAULT;
this.playbackParameters.value = playbackParameters;
this.playbackParameters.sequence =
castSessionManager.send(new ExoCastMessage.SetPlaybackParameters(playbackParameters));
this.playbackParameters.value = playbackParameters;
// Note: This method, unlike others, does not immediately notify the change. See the Player
// interface for more information.
}
@Override
public PlaybackParameters getPlaybackParameters() {
return playbackParameters.value;
}
@Override
public void stop(boolean reset) {
long sequence = castSessionManager.send(new ExoCastMessage.Stop(reset));
playbackState.sequence = sequence;
setPlaybackStateInternal(STATE_IDLE);
if (reset) {
currentTimeline.sequence = sequence;
mediaItems.clear();
currentShuffleOrder = new ShuffleOrder.DefaultShuffleOrder(/* length =*/ 0);
setPlaybackPositionInternal(
/* periodUid= */ null, /* positionMs= */ 0, DISCONTINUITY_REASON_INTERNAL);
updateTimelineInternal(TIMELINE_CHANGE_REASON_RESET);
}
flushNotifications();
}
@Override
public void release() {
setSessionAvailabilityListener(null);
castSessionManager.stopTrackingSession();
flushNotifications();
}
@Override
public int getRendererCount() {
return RENDERER_COUNT;
}
@Override
public int getRendererType(int index) {
switch (index) {
case RENDERER_INDEX_VIDEO:
return C.TRACK_TYPE_VIDEO;
case RENDERER_INDEX_AUDIO:
return C.TRACK_TYPE_AUDIO;
case RENDERER_INDEX_TEXT:
return C.TRACK_TYPE_TEXT;
case RENDERER_INDEX_METADATA:
return C.TRACK_TYPE_METADATA;
default:
throw new IndexOutOfBoundsException();
}
}
@Override
public TrackGroupArray getCurrentTrackGroups() {
// TODO (Internal b/62080507): Implement using track information from currentMediaItemInfoMap.
return currentTrackGroups.value;
}
@Override
public TrackSelectionArray getCurrentTrackSelections() {
// TODO (Internal b/62080507): Implement using track information from currentMediaItemInfoMap.
return currentTrackSelections.value;
}
@Override
@Nullable
public Object getCurrentManifest() {
// TODO (Internal b/62080507): Implement using track information from currentMediaItemInfoMap.
return currentManifest.value;
}
@Override
public Timeline getCurrentTimeline() {
return currentTimeline.value;
}
@Override
public int getCurrentPeriodIndex() {
int periodIndex =
currentPeriodUid.value == null
? C.INDEX_UNSET
: currentTimeline.value.getIndexOfPeriod(currentPeriodUid.value);
return periodIndex != C.INDEX_UNSET ? periodIndex : 0;
}
@Override
public int getCurrentWindowIndex() {
int windowIndex =
currentPeriodUid.value == null
? C.INDEX_UNSET
: currentTimeline.value.getWindowIndexContainingPeriod(currentPeriodUid.value);
return windowIndex != C.INDEX_UNSET ? windowIndex : 0;
}
@Override
public long getDuration() {
return getContentDuration();
}
@Override
public long getCurrentPosition() {
return playbackPositionMs.value
+ (getPlaybackState() == STATE_READY && getPlayWhenReady()
? projectPlaybackTimeElapsedMs()
: 0L);
}
@Override
public long getBufferedPosition() {
return getCurrentPosition();
}
@Override
public long getTotalBufferedDuration() {
return 0;
}
@Override
public boolean isPlayingAd() {
// TODO (Internal b/119293631): Add support for ads.
return false;
}
@Override
public int getCurrentAdGroupIndex() {
return C.INDEX_UNSET;
}
@Override
public int getCurrentAdIndexInAdGroup() {
return C.INDEX_UNSET;
}
@Override
public long getContentPosition() {
return getCurrentPosition();
}
@Override
public long getContentBufferedPosition() {
return getCurrentPosition();
}
// Local state modifications.
private void setPlayWhenReadyInternal(boolean playWhenReady) {
if (this.playWhenReady.value != playWhenReady) {
this.playWhenReady.value = playWhenReady;
notificationsBatch.add(
new ListenerNotificationTask(
listener -> listener.onPlayerStateChanged(playWhenReady, playbackState.value)));
}
}
private void setPlaybackStateInternal(int playbackState) {
if (this.playbackState.value != playbackState) {
if (this.playbackState.value == STATE_IDLE) {
// We are transitioning out of STATE_IDLE. We clear any errors.
setPlaybackErrorInternal(null);
}
this.playbackState.value = playbackState;
notificationsBatch.add(
new ListenerNotificationTask(
listener -> listener.onPlayerStateChanged(playWhenReady.value, playbackState)));
}
}
private void setRepeatModeInternal(int repeatMode) {
if (this.repeatMode.value != repeatMode) {
this.repeatMode.value = repeatMode;
notificationsBatch.add(
new ListenerNotificationTask(listener -> listener.onRepeatModeChanged(repeatMode)));
}
}
private void setShuffleModeEnabledInternal(boolean shuffleModeEnabled) {
if (this.shuffleModeEnabled.value != shuffleModeEnabled) {
this.shuffleModeEnabled.value = shuffleModeEnabled;
notificationsBatch.add(
new ListenerNotificationTask(
listener -> listener.onShuffleModeEnabledChanged(shuffleModeEnabled)));
}
}
private void setIsLoadingInternal(boolean isLoading) {
if (this.isLoading.value != isLoading) {
this.isLoading.value = isLoading;
notificationsBatch.add(
new ListenerNotificationTask(listener -> listener.onLoadingChanged(isLoading)));
}
}
private void setPlaybackParametersInternal(PlaybackParameters playbackParameters) {
if (!this.playbackParameters.value.equals(playbackParameters)) {
this.playbackParameters.value = playbackParameters;
notificationsBatch.add(
new ListenerNotificationTask(
listener -> listener.onPlaybackParametersChanged(playbackParameters)));
}
}
private void setPlaybackErrorInternal(@Nullable String errorMessage) {
if (errorMessage != null) {
playbackError = ExoPlaybackException.createForRemote(errorMessage);
notificationsBatch.add(
new ListenerNotificationTask(
listener -> listener.onPlayerError(Assertions.checkNotNull(playbackError))));
} else {
playbackError = null;
}
}
private void setPlaybackPositionInternal(
@Nullable PeriodUid periodUid, long positionMs, @Nullable Integer discontinuityReason) {
currentPeriodUid.value = periodUid;
if (periodUid == null) {
positionMs = 0L;
} else if (positionMs == C.TIME_UNSET) {
int windowIndex = currentTimeline.value.getWindowIndexContainingPeriod(periodUid);
if (windowIndex == C.INDEX_UNSET) {
positionMs = 0;
} else {
positionMs =
C.usToMs(
currentTimeline.value.getWindow(windowIndex, window, /* setTag= */ false)
.defaultPositionUs);
}
}
playbackPositionMs.value = positionMs;
lastPlaybackPositionChangeTimeMs = clock.elapsedRealtime();
if (discontinuityReason != null) {
notificationsBatch.add(
new ListenerNotificationTask(
listener -> listener.onPositionDiscontinuity(discontinuityReason)));
}
}
// Internal methods.
private void updateTimelineInternal(@TimelineChangeReason int changeReason) {
currentTimeline.value =
ExoCastTimeline.createTimelineFor(mediaItems, currentMediaItemInfoMap, currentShuffleOrder);
removeStaleMediaItemInfo();
notificationsBatch.add(
new ListenerNotificationTask(
listener ->
listener.onTimelineChanged(
currentTimeline.value, /* manifest= */ null, changeReason)));
}
private long projectPlaybackTimeElapsedMs() {
return (long)
((clock.elapsedRealtime() - lastPlaybackPositionChangeTimeMs)
* playbackParameters.value.speed);
}
private void flushNotifications() {
boolean recursiveNotification = !ongoingNotificationsTasks.isEmpty();
ongoingNotificationsTasks.addAll(notificationsBatch);
notificationsBatch.clear();
if (recursiveNotification) {
// This will be handled once the current notification task is finished.
return;
}
while (!ongoingNotificationsTasks.isEmpty()) {
ongoingNotificationsTasks.peekFirst().execute();
ongoingNotificationsTasks.removeFirst();
}
}
/**
* Updates the current media item information by including any extra entries received from the
* receiver app.
*
* @param mediaItemsInformation A map of media item information received from the receiver app.
*/
private void updateMediaItemsInfo(Map<UUID, MediaItemInfo> mediaItemsInformation) {
for (Map.Entry<UUID, MediaItemInfo> entry : mediaItemsInformation.entrySet()) {
MediaItemInfo currentInfoForEntry = currentMediaItemInfoMap.get(entry.getKey());
boolean shouldPutEntry =
currentInfoForEntry == null || !currentInfoForEntry.equals(entry.getValue());
if (shouldPutEntry) {
currentMediaItemInfoMap.put(entry.getKey(), entry.getValue());
}
}
}
/**
* Removes stale media info entries. An entry is considered stale when the corresponding media
* item is not present in the current media queue.
*/
private void removeStaleMediaItemInfo() {
for (Iterator<UUID> iterator = currentMediaItemInfoMap.keySet().iterator();
iterator.hasNext(); ) {
UUID uuid = iterator.next();
if (currentTimeline.value.getWindowIndexFromUuid(uuid) == C.INDEX_UNSET) {
iterator.remove();
}
}
}
// Internal classes.
private class SessionManagerStateListener implements CastSessionManager.StateListener {
@Override
public void onCastSessionAvailable() {
if (sessionAvailabilityListener != null) {
sessionAvailabilityListener.onCastSessionAvailable();
}
}
@Override
public void onCastSessionUnavailable() {
if (sessionAvailabilityListener != null) {
sessionAvailabilityListener.onCastSessionUnavailable();
}
}
@Override
public void onStateUpdateFromReceiverApp(ReceiverAppStateUpdate stateUpdate) {
long sequence = stateUpdate.sequenceNumber;
if (stateUpdate.errorMessage != null) {
setPlaybackErrorInternal(stateUpdate.errorMessage);
}
if (sequence >= playbackState.sequence && stateUpdate.playbackState != null) {
setPlaybackStateInternal(stateUpdate.playbackState);
}
if (sequence >= currentTimeline.sequence) {
if (stateUpdate.items != null) {
mediaItems.clear();
mediaItems.addAll(stateUpdate.items);
}
currentShuffleOrder =
stateUpdate.shuffleOrder != null
? new ShuffleOrder.DefaultShuffleOrder(
Util.toArray(stateUpdate.shuffleOrder), clock.elapsedRealtime())
: currentShuffleOrder;
updateMediaItemsInfo(stateUpdate.mediaItemsInformation);
if (playbackState.value != STATE_IDLE
&& !currentTimeline.value.representsMediaQueue(
mediaItems, currentMediaItemInfoMap, currentShuffleOrder)) {
updateTimelineInternal(TIMELINE_CHANGE_REASON_DYNAMIC);
}
}
if (sequence >= currentPeriodUid.sequence
&& stateUpdate.currentPlayingItemUuid != null
&& stateUpdate.currentPlaybackPositionMs != null) {
PeriodUid periodUid;
if (stateUpdate.currentPlayingPeriodId == null) {
int windowIndex =
currentTimeline.value.getWindowIndexFromUuid(stateUpdate.currentPlayingItemUuid);
periodUid =
(PeriodUid)
currentTimeline.value.getPeriodPosition(
window,
scratchPeriod,
windowIndex,
C.msToUs(stateUpdate.currentPlaybackPositionMs))
.first;
} else {
periodUid =
ExoCastTimeline.createPeriodUid(
stateUpdate.currentPlayingItemUuid, stateUpdate.currentPlayingPeriodId);
}
setPlaybackPositionInternal(
periodUid, stateUpdate.currentPlaybackPositionMs, stateUpdate.discontinuityReason);
}
if (sequence >= isLoading.sequence && stateUpdate.isLoading != null) {
setIsLoadingInternal(stateUpdate.isLoading);
}
if (sequence >= playWhenReady.sequence && stateUpdate.playWhenReady != null) {
setPlayWhenReadyInternal(stateUpdate.playWhenReady);
}
if (sequence >= shuffleModeEnabled.sequence && stateUpdate.shuffleModeEnabled != null) {
setShuffleModeEnabledInternal(stateUpdate.shuffleModeEnabled);
}
if (sequence >= repeatMode.sequence && stateUpdate.repeatMode != null) {
setRepeatModeInternal(stateUpdate.repeatMode);
}
if (sequence >= playbackParameters.sequence && stateUpdate.playbackParameters != null) {
setPlaybackParametersInternal(stateUpdate.playbackParameters);
}
TrackSelectionParameters parameters = stateUpdate.trackSelectionParameters;
if (sequence >= trackselectionParameters.sequence && parameters != null) {
trackselectionParameters.value =
trackselectionParameters
.value
.buildUpon()
.setDisabledTextTrackSelectionFlags(parameters.disabledTextTrackSelectionFlags)
.setPreferredAudioLanguage(parameters.preferredAudioLanguage)
.setPreferredTextLanguage(parameters.preferredTextLanguage)
.setSelectUndeterminedTextLanguage(parameters.selectUndeterminedTextLanguage)
.build();
}
flushNotifications();
}
}
private static final class StateHolder<T> {
public T value;
public long sequence;
public StateHolder(T initialValue) {
value = initialValue;
sequence = CastSessionManager.SEQUENCE_NUMBER_UNSET;
}
}
private final class ListenerNotificationTask {
private final Iterator<ListenerHolder> listenersSnapshot;
private final ListenerInvocation listenerInvocation;
private ListenerNotificationTask(ListenerInvocation listenerInvocation) {
this.listenersSnapshot = listeners.iterator();
this.listenerInvocation = listenerInvocation;
}
public void execute() {
while (listenersSnapshot.hasNext()) {
listenersSnapshot.next().invoke(listenerInvocation);
}
}
}
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/ExoCastTimeline.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import androidx.annotation.Nullable;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.Timeline;
import com.google.android.exoplayer2.source.ShuffleOrder;
import com.google.android.exoplayer2.util.Assertions;
import com.google.android.exoplayer2.util.Util;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.UUID;
/**
* A {@link Timeline} for Cast receiver app media queues.
*
* <p>Each {@link MediaItem} in the timeline is exposed as a window. Unprepared media items are
* exposed as an unset-duration {@link Window}, with a single unset-duration {@link Period}.
*/
/* package */ final class ExoCastTimeline extends Timeline {
/** Opaque object that uniquely identifies a period across timeline changes. */
public interface PeriodUid {}
/** A timeline for an empty media queue. */
public static final ExoCastTimeline EMPTY =
createTimelineFor(
Collections.emptyList(), Collections.emptyMap(), new ShuffleOrder.DefaultShuffleOrder(0));
/**
* Creates {@link PeriodUid} from the given arguments.
*
* @param itemUuid The UUID that identifies the item.
* @param periodId The id of the period for which the unique identifier is required.
* @return An opaque unique identifier for a period.
*/
public static PeriodUid createPeriodUid(UUID itemUuid, Object periodId) {
return new PeriodUidImpl(itemUuid, periodId);
}
/**
* Returns a new timeline representing the given media queue information.
*
* @param mediaItems The media items conforming the timeline.
* @param mediaItemInfoMap Maps {@link MediaItem media items} in {@code mediaItems} to a {@link
* MediaItemInfo} through their {@link MediaItem#uuid}. Media items may not have a {@link
* MediaItemInfo} mapped to them.
* @param shuffleOrder The {@link ShuffleOrder} of the timeline. {@link ShuffleOrder#getLength()}
* must be equal to {@code mediaItems.size()}.
* @return A new timeline representing the given media queue information.
*/
public static ExoCastTimeline createTimelineFor(
List<MediaItem> mediaItems,
Map<UUID, MediaItemInfo> mediaItemInfoMap,
ShuffleOrder shuffleOrder) {
Assertions.checkArgument(mediaItems.size() == shuffleOrder.getLength());
int[] accumulativePeriodCount = new int[mediaItems.size()];
int periodCount = 0;
for (int i = 0; i < accumulativePeriodCount.length; i++) {
periodCount += getInfoOrEmpty(mediaItemInfoMap, mediaItems.get(i).uuid).periods.size();
accumulativePeriodCount[i] = periodCount;
}
HashMap<UUID, Integer> uuidToIndex = new HashMap<>();
for (int i = 0; i < mediaItems.size(); i++) {
uuidToIndex.put(mediaItems.get(i).uuid, i);
}
return new ExoCastTimeline(
Collections.unmodifiableList(new ArrayList<>(mediaItems)),
Collections.unmodifiableMap(new HashMap<>(mediaItemInfoMap)),
Collections.unmodifiableMap(new HashMap<>(uuidToIndex)),
shuffleOrder,
accumulativePeriodCount);
}
// Timeline backing information.
private final List<MediaItem> mediaItems;
private final Map<UUID, MediaItemInfo> mediaItemInfoMap;
private final ShuffleOrder shuffleOrder;
// Precomputed for quick access.
private final Map<UUID, Integer> uuidToIndex;
private final int[] accumulativePeriodCount;
private ExoCastTimeline(
List<MediaItem> mediaItems,
Map<UUID, MediaItemInfo> mediaItemInfoMap,
Map<UUID, Integer> uuidToIndex,
ShuffleOrder shuffleOrder,
int[] accumulativePeriodCount) {
this.mediaItems = mediaItems;
this.mediaItemInfoMap = mediaItemInfoMap;
this.uuidToIndex = uuidToIndex;
this.shuffleOrder = shuffleOrder;
this.accumulativePeriodCount = accumulativePeriodCount;
}
/**
* Returns whether the given media queue information would produce a timeline equivalent to this
* one.
*
* @see ExoCastTimeline#createTimelineFor(List, Map, ShuffleOrder)
*/
public boolean representsMediaQueue(
List<MediaItem> mediaItems,
Map<UUID, MediaItemInfo> mediaItemInfoMap,
ShuffleOrder shuffleOrder) {
if (this.shuffleOrder.getLength() != shuffleOrder.getLength()) {
return false;
}
int index = shuffleOrder.getFirstIndex();
if (this.shuffleOrder.getFirstIndex() != index) {
return false;
}
while (index != C.INDEX_UNSET) {
int nextIndex = shuffleOrder.getNextIndex(index);
if (nextIndex != this.shuffleOrder.getNextIndex(index)) {
return false;
}
index = nextIndex;
}
if (mediaItems.size() != this.mediaItems.size()) {
return false;
}
for (int i = 0; i < mediaItems.size(); i++) {
UUID uuid = mediaItems.get(i).uuid;
MediaItemInfo mediaItemInfo = getInfoOrEmpty(mediaItemInfoMap, uuid);
if (!uuid.equals(this.mediaItems.get(i).uuid)
|| !mediaItemInfo.equals(getInfoOrEmpty(this.mediaItemInfoMap, uuid))) {
return false;
}
}
return true;
}
/**
* Returns the index of the window that contains the period identified by the given {@code
* periodUid} or {@link C#INDEX_UNSET} if this timeline does not contain any period with the given
* {@code periodUid}.
*/
public int getWindowIndexContainingPeriod(PeriodUid periodUid) {
if (!(periodUid instanceof PeriodUidImpl)) {
return C.INDEX_UNSET;
}
return getWindowIndexFromUuid(((PeriodUidImpl) periodUid).itemUuid);
}
/**
* Returns the index of the window that represents the media item with the given {@code uuid} or
* {@link C#INDEX_UNSET} if no item in this timeline has the given {@code uuid}.
*/
public int getWindowIndexFromUuid(UUID uuid) {
Integer index = uuidToIndex.get(uuid);
return index != null ? index : C.INDEX_UNSET;
}
// Timeline implementation.
@Override
public int getWindowCount() {
return mediaItems.size();
}
@Override
public Window getWindow(
int windowIndex, Window window, boolean setTag, long defaultPositionProjectionUs) {
MediaItem mediaItem = mediaItems.get(windowIndex);
MediaItemInfo mediaItemInfo = getInfoOrEmpty(mediaItemInfoMap, mediaItem.uuid);
return window.set(
/* tag= */ setTag ? mediaItem.attachment : null,
/* presentationStartTimeMs= */ C.TIME_UNSET,
/* windowStartTimeMs= */ C.TIME_UNSET,
/* isSeekable= */ mediaItemInfo.isSeekable,
/* isDynamic= */ mediaItemInfo.isDynamic,
/* defaultPositionUs= */ mediaItemInfo.defaultStartPositionUs,
/* durationUs= */ mediaItemInfo.windowDurationUs,
/* firstPeriodIndex= */ windowIndex == 0 ? 0 : accumulativePeriodCount[windowIndex - 1],
/* lastPeriodIndex= */ accumulativePeriodCount[windowIndex] - 1,
mediaItemInfo.positionInFirstPeriodUs);
}
@Override
public int getPeriodCount() {
return mediaItems.isEmpty() ? 0 : accumulativePeriodCount[accumulativePeriodCount.length - 1];
}
@Override
public Period getPeriodByUid(Object periodUidObject, Period period) {
return getPeriodInternal((PeriodUidImpl) periodUidObject, period, /* setIds= */ true);
}
@Override
public Period getPeriod(int periodIndex, Period period, boolean setIds) {
return getPeriodInternal((PeriodUidImpl) getUidOfPeriod(periodIndex), period, setIds);
}
@Override
public int getIndexOfPeriod(Object uid) {
if (!(uid instanceof PeriodUidImpl)) {
return C.INDEX_UNSET;
}
PeriodUidImpl periodUid = (PeriodUidImpl) uid;
UUID uuid = periodUid.itemUuid;
Integer itemIndex = uuidToIndex.get(uuid);
if (itemIndex == null) {
return C.INDEX_UNSET;
}
int indexOfPeriodInItem =
getInfoOrEmpty(mediaItemInfoMap, uuid).getIndexOfPeriod(periodUid.periodId);
if (indexOfPeriodInItem == C.INDEX_UNSET) {
return C.INDEX_UNSET;
}
return indexOfPeriodInItem + (itemIndex == 0 ? 0 : accumulativePeriodCount[itemIndex - 1]);
}
@Override
public PeriodUid getUidOfPeriod(int periodIndex) {
int mediaItemIndex = getMediaItemIndexForPeriodIndex(periodIndex);
int periodIndexInMediaItem =
periodIndex - (mediaItemIndex > 0 ? accumulativePeriodCount[mediaItemIndex - 1] : 0);
UUID uuid = mediaItems.get(mediaItemIndex).uuid;
MediaItemInfo mediaItemInfo = getInfoOrEmpty(mediaItemInfoMap, uuid);
return new PeriodUidImpl(uuid, mediaItemInfo.periods.get(periodIndexInMediaItem).id);
}
@Override
public int getFirstWindowIndex(boolean shuffleModeEnabled) {
return shuffleModeEnabled ? shuffleOrder.getFirstIndex() : 0;
}
@Override
public int getLastWindowIndex(boolean shuffleModeEnabled) {
return shuffleModeEnabled ? shuffleOrder.getLastIndex() : mediaItems.size() - 1;
}
@Override
public int getPreviousWindowIndex(int windowIndex, int repeatMode, boolean shuffleModeEnabled) {
if (repeatMode == Player.REPEAT_MODE_ONE) {
return windowIndex;
} else if (windowIndex == getFirstWindowIndex(shuffleModeEnabled)) {
return repeatMode == Player.REPEAT_MODE_OFF
? C.INDEX_UNSET
: getLastWindowIndex(shuffleModeEnabled);
} else if (shuffleModeEnabled) {
return shuffleOrder.getPreviousIndex(windowIndex);
} else {
return windowIndex - 1;
}
}
@Override
public int getNextWindowIndex(int windowIndex, int repeatMode, boolean shuffleModeEnabled) {
if (repeatMode == Player.REPEAT_MODE_ONE) {
return windowIndex;
} else if (windowIndex == getLastWindowIndex(shuffleModeEnabled)) {
return repeatMode == Player.REPEAT_MODE_OFF
? C.INDEX_UNSET
: getFirstWindowIndex(shuffleModeEnabled);
} else if (shuffleModeEnabled) {
return shuffleOrder.getNextIndex(windowIndex);
} else {
return windowIndex + 1;
}
}
// Internal methods.
private Period getPeriodInternal(PeriodUidImpl uid, Period period, boolean setIds) {
UUID uuid = uid.itemUuid;
int itemIndex = Assertions.checkNotNull(uuidToIndex.get(uuid));
MediaItemInfo mediaItemInfo = getInfoOrEmpty(mediaItemInfoMap, uuid);
MediaItemInfo.Period mediaInfoPeriod =
mediaItemInfo.periods.get(mediaItemInfo.getIndexOfPeriod(uid.periodId));
return period.set(
setIds ? mediaInfoPeriod.id : null,
setIds ? uid : null,
/* windowIndex= */ itemIndex,
mediaInfoPeriod.durationUs,
mediaInfoPeriod.positionInWindowUs);
}
private int getMediaItemIndexForPeriodIndex(int periodIndex) {
return Util.binarySearchCeil(
accumulativePeriodCount, periodIndex, /* inclusive= */ false, /* stayInBounds= */ false);
}
private static MediaItemInfo getInfoOrEmpty(Map<UUID, MediaItemInfo> map, UUID uuid) {
MediaItemInfo info = map.get(uuid);
return info != null ? info : MediaItemInfo.EMPTY;
}
// Internal classes.
private static final class PeriodUidImpl implements PeriodUid {
public final UUID itemUuid;
public final Object periodId;
private PeriodUidImpl(UUID itemUuid, Object periodId) {
this.itemUuid = itemUuid;
this.periodId = periodId;
}
@Override
public boolean equals(@Nullable Object other) {
if (this == other) {
return true;
}
if (other == null || getClass() != other.getClass()) {
return false;
}
PeriodUidImpl periodUid = (PeriodUidImpl) other;
return itemUuid.equals(periodUid.itemUuid) && periodId.equals(periodUid.periodId);
}
@Override
public int hashCode() {
int result = itemUuid.hashCode();
result = 31 * result + periodId.hashCode();
return result;
}
}
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/MediaItemInfo.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import androidx.annotation.Nullable;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.util.Util;
import java.util.Collections;
import java.util.List;
// TODO (Internal b/119293631): Add ad playback state info.
/**
* Holds dynamic information for a {@link MediaItem}.
*
* <p>Holds information related to preparation for a specific {@link MediaItem}. Unprepared items
* are associated with an {@link #EMPTY} info object until prepared.
*/
public final class MediaItemInfo {
/** Placeholder information for media items that have not yet been prepared by the player. */
public static final MediaItemInfo EMPTY =
new MediaItemInfo(
/* windowDurationUs= */ C.TIME_UNSET,
/* defaultStartPositionUs= */ 0L,
Collections.singletonList(
new Period(
/* id= */ new Object(),
/* durationUs= */ C.TIME_UNSET,
/* positionInWindowUs= */ 0L)),
/* positionInFirstPeriodUs= */ 0L,
/* isSeekable= */ false,
/* isDynamic= */ true);
/** Holds the information of one of the periods of a {@link MediaItem}. */
public static final class Period {
/**
* The id of the period. Must be unique within the {@link MediaItem} but may match with periods
* in other items.
*/
public final Object id;
/** The duration of the period in microseconds. */
public final long durationUs;
/** The position of this period in the window in microseconds. */
public final long positionInWindowUs;
// TODO: Add track information.
public Period(Object id, long durationUs, long positionInWindowUs) {
this.id = id;
this.durationUs = durationUs;
this.positionInWindowUs = positionInWindowUs;
}
@Override
public boolean equals(@Nullable Object other) {
if (this == other) {
return true;
}
if (other == null || getClass() != other.getClass()) {
return false;
}
Period period = (Period) other;
return durationUs == period.durationUs
&& positionInWindowUs == period.positionInWindowUs
&& id.equals(period.id);
}
@Override
public int hashCode() {
int result = id.hashCode();
result = 31 * result + (int) (durationUs ^ (durationUs >>> 32));
result = 31 * result + (int) (positionInWindowUs ^ (positionInWindowUs >>> 32));
return result;
}
}
/** The duration of the window in microseconds. */
public final long windowDurationUs;
/** The default start position relative to the start of the window, in microseconds. */
public final long defaultStartPositionUs;
/** The periods conforming the media item. */
public final List<Period> periods;
/** The position of the window in the first period in microseconds. */
public final long positionInFirstPeriodUs;
/** Whether it is possible to seek within the window. */
public final boolean isSeekable;
/** Whether the window may change when the timeline is updated. */
public final boolean isDynamic;
public MediaItemInfo(
long windowDurationUs,
long defaultStartPositionUs,
List<Period> periods,
long positionInFirstPeriodUs,
boolean isSeekable,
boolean isDynamic) {
this.windowDurationUs = windowDurationUs;
this.defaultStartPositionUs = defaultStartPositionUs;
this.periods = Collections.unmodifiableList(periods);
this.positionInFirstPeriodUs = positionInFirstPeriodUs;
this.isSeekable = isSeekable;
this.isDynamic = isDynamic;
}
/**
* Returns the index of the period with {@link Period#id} equal to {@code periodId}, or {@link
* C#INDEX_UNSET} if none of the periods has the given id.
*/
public int getIndexOfPeriod(Object periodId) {
for (int i = 0; i < periods.size(); i++) {
if (Util.areEqual(periods.get(i).id, periodId)) {
return i;
}
}
return C.INDEX_UNSET;
}
@Override
public boolean equals(@Nullable Object other) {
if (this == other) {
return true;
}
if (other == null || getClass() != other.getClass()) {
return false;
}
MediaItemInfo that = (MediaItemInfo) other;
return windowDurationUs == that.windowDurationUs
&& defaultStartPositionUs == that.defaultStartPositionUs
&& positionInFirstPeriodUs == that.positionInFirstPeriodUs
&& isSeekable == that.isSeekable
&& isDynamic == that.isDynamic
&& periods.equals(that.periods);
}
@Override
public int hashCode() {
int result = (int) (windowDurationUs ^ (windowDurationUs >>> 32));
result = 31 * result + (int) (defaultStartPositionUs ^ (defaultStartPositionUs >>> 32));
result = 31 * result + periods.hashCode();
result = 31 * result + (int) (positionInFirstPeriodUs ^ (positionInFirstPeriodUs >>> 32));
result = 31 * result + (isSeekable ? 1 : 0);
result = 31 * result + (isDynamic ? 1 : 0);
return result;
}
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/MediaItemQueue.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
/** Represents a sequence of {@link MediaItem MediaItems}. */
public interface MediaItemQueue {
/**
* Returns the item at the given index.
*
* @param index The index of the item to retrieve.
* @return The item at the given index.
* @throws IndexOutOfBoundsException If {@code index < 0 || index >= getSize()}.
*/
MediaItem get(int index);
/** Returns the number of items in this queue. */
int getSize();
/**
* Appends the given sequence of items to the queue.
*
* @param items The sequence of items to append.
*/
void add(MediaItem... items);
/**
* Adds the given sequence of items to the queue at the given position, so that the first of
* {@code items} is placed at the given index.
*
* @param index The index at which {@code items} will be inserted.
* @param items The sequence of items to append.
* @throws IndexOutOfBoundsException If {@code index < 0 || index > getSize()}.
*/
void add(int index, MediaItem... items);
/**
* Moves an existing item within the playlist.
*
* <p>Calling this method is equivalent to removing the item at position {@code indexFrom} and
* immediately inserting it at position {@code indexTo}. If the moved item is being played at the
* moment of the invocation, playback will stick with the moved item.
*
* @param indexFrom The index of the item to move.
* @param indexTo The index at which the item will be placed after this operation.
* @throws IndexOutOfBoundsException If for either index, {@code index < 0 || index >= getSize()}.
*/
void move(int indexFrom, int indexTo);
/**
* Removes an item from the queue.
*
* @param index The index of the item to remove from the queue.
* @throws IndexOutOfBoundsException If {@code index < 0 || index >= getSize()}.
*/
void remove(int index);
/**
* Removes a range of items from the queue.
*
* <p>Does nothing if an empty range ({@code from == exclusiveTo}) is passed.
*
* @param from The inclusive index at which the range to remove starts.
* @param exclusiveTo The exclusive index at which the range to remove ends.
* @throws IndexOutOfBoundsException If {@code from < 0 || exclusiveTo > getSize() || from >
* exclusiveTo}.
*/
void removeRange(int from, int exclusiveTo);
/** Removes all items in the queue. */
void clear();
}
extensions/cast/src/main/java/com/google/android/exoplayer2/ext/cast/ReceiverAppStateUpdate.java deleted 100644 → 0
/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import static com.google.android.exoplayer2.Player.DISCONTINUITY_REASON_AD_INSERTION;
import static com.google.android.exoplayer2.Player.DISCONTINUITY_REASON_INTERNAL;
import static com.google.android.exoplayer2.Player.DISCONTINUITY_REASON_PERIOD_TRANSITION;
import static com.google.android.exoplayer2.Player.DISCONTINUITY_REASON_SEEK;
import static com.google.android.exoplayer2.Player.DISCONTINUITY_REASON_SEEK_ADJUSTMENT;
import static com.google.android.exoplayer2.Player.REPEAT_MODE_ALL;
import static com.google.android.exoplayer2.Player.REPEAT_MODE_OFF;
import static com.google.android.exoplayer2.Player.REPEAT_MODE_ONE;
import static com.google.android.exoplayer2.Player.STATE_BUFFERING;
import static com.google.android.exoplayer2.Player.STATE_ENDED;
import static com.google.android.exoplayer2.Player.STATE_IDLE;
import static com.google.android.exoplayer2.Player.STATE_READY;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DEFAULT_START_POSITION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DESCRIPTION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DISCONTINUITY_REASON;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DRM_SCHEMES;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DURATION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_END_POSITION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ERROR_MESSAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_IS_DYNAMIC;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_IS_LOADING;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_IS_SEEKABLE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_LICENSE_SERVER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MEDIA;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MEDIA_ITEMS_INFO;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MEDIA_QUEUE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MIME_TYPE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PERIODS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PERIOD_ID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PITCH;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAYBACK_PARAMETERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAYBACK_POSITION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAYBACK_STATE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAY_WHEN_READY;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_POSITION_IN_FIRST_PERIOD_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_POSITION_MS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PREFERRED_AUDIO_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PREFERRED_TEXT_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_REPEAT_MODE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_REQUEST_HEADERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SEQUENCE_NUMBER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SHUFFLE_MODE_ENABLED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SHUFFLE_ORDER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SKIP_SILENCE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SPEED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_START_POSITION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_TITLE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_TRACK_SELECTION_PARAMETERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_URI;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_UUID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_WINDOW_DURATION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_DISCONTINUITY_REASON_AD_INSERTION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_DISCONTINUITY_REASON_INTERNAL;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_DISCONTINUITY_REASON_PERIOD_TRANSITION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_DISCONTINUITY_REASON_SEEK;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_DISCONTINUITY_REASON_SEEK_ADJUSTMENT;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_ALL;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_OFF;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_ONE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_STATE_BUFFERING;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_STATE_ENDED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_STATE_IDLE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_STATE_READY;
import android.net.Uri;
import androidx.annotation.Nullable;
import androidx.annotation.VisibleForTesting;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.PlaybackParameters;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.trackselection.TrackSelectionParameters;
import com.google.android.exoplayer2.util.Assertions;
import com.google.android.exoplayer2.util.Util;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.UUID;
import org.checkerframework.checker.nullness.qual.MonotonicNonNull;
import org.json.JSONArray;
import org.json.JSONException;
import org.json.JSONObject;
/** Holds a playback state update from the receiver app. */
public final class ReceiverAppStateUpdate {
/** Builder for {@link ReceiverAppStateUpdate}. */
public static final class Builder {
private final long sequenceNumber;
private @MonotonicNonNull Boolean playWhenReady;
private @MonotonicNonNull Integer playbackState;
private @MonotonicNonNull List<MediaItem> items;
private @MonotonicNonNull Integer repeatMode;
private @MonotonicNonNull Boolean shuffleModeEnabled;
private @MonotonicNonNull Boolean isLoading;
private @MonotonicNonNull PlaybackParameters playbackParameters;
private @MonotonicNonNull TrackSelectionParameters trackSelectionParameters;
private @MonotonicNonNull String errorMessage;
private @MonotonicNonNull Integer discontinuityReason;
private @MonotonicNonNull UUID currentPlayingItemUuid;
private @MonotonicNonNull String currentPlayingPeriodId;
private @MonotonicNonNull Long currentPlaybackPositionMs;
private @MonotonicNonNull List<Integer> shuffleOrder;
private Map<UUID, MediaItemInfo> mediaItemsInformation;
private Builder(long sequenceNumber) {
this.sequenceNumber = sequenceNumber;
mediaItemsInformation = Collections.emptyMap();
}
/** See {@link ReceiverAppStateUpdate#playWhenReady}. */
public Builder setPlayWhenReady(Boolean playWhenReady) {
this.playWhenReady = playWhenReady;
return this;
}
/** See {@link ReceiverAppStateUpdate#playbackState}. */
public Builder setPlaybackState(Integer playbackState) {
this.playbackState = playbackState;
return this;
}
/** See {@link ReceiverAppStateUpdate#items}. */
public Builder setItems(List<MediaItem> items) {
this.items = Collections.unmodifiableList(items);
return this;
}
/** See {@link ReceiverAppStateUpdate#repeatMode}. */
public Builder setRepeatMode(Integer repeatMode) {
this.repeatMode = repeatMode;
return this;
}
/** See {@link ReceiverAppStateUpdate#shuffleModeEnabled}. */
public Builder setShuffleModeEnabled(Boolean shuffleModeEnabled) {
this.shuffleModeEnabled = shuffleModeEnabled;
return this;
}
/** See {@link ReceiverAppStateUpdate#isLoading}. */
public Builder setIsLoading(Boolean isLoading) {
this.isLoading = isLoading;
return this;
}
/** See {@link ReceiverAppStateUpdate#playbackParameters}. */
public Builder setPlaybackParameters(PlaybackParameters playbackParameters) {
this.playbackParameters = playbackParameters;
return this;
}
/** See {@link ReceiverAppStateUpdate#trackSelectionParameters} */
public Builder setTrackSelectionParameters(TrackSelectionParameters trackSelectionParameters) {
this.trackSelectionParameters = trackSelectionParameters;
return this;
}
/** See {@link ReceiverAppStateUpdate#errorMessage}. */
public Builder setErrorMessage(String errorMessage) {
this.errorMessage = errorMessage;
return this;
}
/** See {@link ReceiverAppStateUpdate#discontinuityReason}. */
public Builder setDiscontinuityReason(Integer discontinuityReason) {
this.discontinuityReason = discontinuityReason;
return this;
}
/**
* See {@link ReceiverAppStateUpdate#currentPlayingItemUuid} and {@link
* ReceiverAppStateUpdate#currentPlaybackPositionMs}.
*/
public Builder setPlaybackPosition(
UUID currentPlayingItemUuid,
String currentPlayingPeriodId,
Long currentPlaybackPositionMs) {
this.currentPlayingItemUuid = currentPlayingItemUuid;
this.currentPlayingPeriodId = currentPlayingPeriodId;
this.currentPlaybackPositionMs = currentPlaybackPositionMs;
return this;
}
/**
* See {@link ReceiverAppStateUpdate#currentPlayingItemUuid} and {@link
* ReceiverAppStateUpdate#currentPlaybackPositionMs}.
*/
public Builder setMediaItemsInformation(Map<UUID, MediaItemInfo> mediaItemsInformation) {
this.mediaItemsInformation = Collections.unmodifiableMap(mediaItemsInformation);
return this;
}
/** See {@link ReceiverAppStateUpdate#shuffleOrder}. */
public Builder setShuffleOrder(List<Integer> shuffleOrder) {
this.shuffleOrder = Collections.unmodifiableList(shuffleOrder);
return this;
}
/**
* Returns a new {@link ReceiverAppStateUpdate} instance with the current values in this
* builder.
*/
public ReceiverAppStateUpdate build() {
return new ReceiverAppStateUpdate(
sequenceNumber,
playWhenReady,
playbackState,
items,
repeatMode,
shuffleModeEnabled,
isLoading,
playbackParameters,
trackSelectionParameters,
errorMessage,
discontinuityReason,
currentPlayingItemUuid,
currentPlayingPeriodId,
currentPlaybackPositionMs,
mediaItemsInformation,
shuffleOrder);
}
}
/** Returns a {@link ReceiverAppStateUpdate} builder. */
public static Builder builder(long sequenceNumber) {
return new Builder(sequenceNumber);
}
/**
* Creates an instance from parsing a state update received from the Receiver App.
*
* @param jsonMessage The state update encoded as a JSON string.
* @return The parsed state update.
* @throws JSONException If an error is encountered when parsing the {@code jsonMessage}.
*/
public static ReceiverAppStateUpdate fromJsonMessage(String jsonMessage) throws JSONException {
JSONObject stateAsJson = new JSONObject(jsonMessage);
Builder builder = builder(stateAsJson.getLong(KEY_SEQUENCE_NUMBER));
if (stateAsJson.has(KEY_PLAY_WHEN_READY)) {
builder.setPlayWhenReady(stateAsJson.getBoolean(KEY_PLAY_WHEN_READY));
}
if (stateAsJson.has(KEY_PLAYBACK_STATE)) {
builder.setPlaybackState(
playbackStateStringToConstant(stateAsJson.getString(KEY_PLAYBACK_STATE)));
}
if (stateAsJson.has(KEY_MEDIA_QUEUE)) {
builder.setItems(
toMediaItemArrayList(Assertions.checkNotNull(stateAsJson.optJSONArray(KEY_MEDIA_QUEUE))));
}
if (stateAsJson.has(KEY_REPEAT_MODE)) {
builder.setRepeatMode(stringToRepeatMode(stateAsJson.getString(KEY_REPEAT_MODE)));
}
if (stateAsJson.has(KEY_SHUFFLE_MODE_ENABLED)) {
builder.setShuffleModeEnabled(stateAsJson.getBoolean(KEY_SHUFFLE_MODE_ENABLED));
}
if (stateAsJson.has(KEY_IS_LOADING)) {
builder.setIsLoading(stateAsJson.getBoolean(KEY_IS_LOADING));
}
if (stateAsJson.has(KEY_PLAYBACK_PARAMETERS)) {
builder.setPlaybackParameters(
toPlaybackParameters(
Assertions.checkNotNull(stateAsJson.optJSONObject(KEY_PLAYBACK_PARAMETERS))));
}
if (stateAsJson.has(KEY_TRACK_SELECTION_PARAMETERS)) {
JSONObject trackSelectionParametersJson =
stateAsJson.getJSONObject(KEY_TRACK_SELECTION_PARAMETERS);
TrackSelectionParameters parameters =
TrackSelectionParameters.DEFAULT
.buildUpon()
.setPreferredTextLanguage(
trackSelectionParametersJson.getString(KEY_PREFERRED_TEXT_LANGUAGE))
.setPreferredAudioLanguage(
trackSelectionParametersJson.getString(KEY_PREFERRED_AUDIO_LANGUAGE))
.setSelectUndeterminedTextLanguage(
trackSelectionParametersJson.getBoolean(KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE))
.setDisabledTextTrackSelectionFlags(
jsonArrayToSelectionFlags(
trackSelectionParametersJson.getJSONArray(
KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS)))
.build();
builder.setTrackSelectionParameters(parameters);
}
if (stateAsJson.has(KEY_ERROR_MESSAGE)) {
builder.setErrorMessage(stateAsJson.getString(KEY_ERROR_MESSAGE));
}
if (stateAsJson.has(KEY_PLAYBACK_POSITION)) {
JSONObject playbackPosition = stateAsJson.getJSONObject(KEY_PLAYBACK_POSITION);
String discontinuityReason = playbackPosition.optString(KEY_DISCONTINUITY_REASON);
if (!discontinuityReason.isEmpty()) {
builder.setDiscontinuityReason(stringToDiscontinuityReason(discontinuityReason));
}
UUID currentPlayingItemUuid = UUID.fromString(playbackPosition.getString(KEY_UUID));
String currentPlayingPeriodId = playbackPosition.getString(KEY_PERIOD_ID);
Long currentPlaybackPositionMs = playbackPosition.getLong(KEY_POSITION_MS);
builder.setPlaybackPosition(
currentPlayingItemUuid, currentPlayingPeriodId, currentPlaybackPositionMs);
}
if (stateAsJson.has(KEY_MEDIA_ITEMS_INFO)) {
HashMap<UUID, MediaItemInfo> mediaItemInformation = new HashMap<>();
JSONObject mediaItemsInfo = stateAsJson.getJSONObject(KEY_MEDIA_ITEMS_INFO);
for (Iterator<String> i = mediaItemsInfo.keys(); i.hasNext(); ) {
String key = i.next();
mediaItemInformation.put(
UUID.fromString(key), jsonToMediaitemInfo(mediaItemsInfo.getJSONObject(key)));
}
builder.setMediaItemsInformation(mediaItemInformation);
}
if (stateAsJson.has(KEY_SHUFFLE_ORDER)) {
ArrayList<Integer> shuffleOrder = new ArrayList<>();
JSONArray shuffleOrderJson = stateAsJson.getJSONArray(KEY_SHUFFLE_ORDER);
for (int i = 0; i < shuffleOrderJson.length(); i++) {
shuffleOrder.add(shuffleOrderJson.getInt(i));
}
builder.setShuffleOrder(shuffleOrder);
}
return builder.build();
}
/** The sequence number of the status update. */
public final long sequenceNumber;
/** Optional {@link Player#getPlayWhenReady playWhenReady} value. */
@Nullable public final Boolean playWhenReady;
/** Optional {@link Player#getPlaybackState() playbackState}. */
@Nullable public final Integer playbackState;
/** Optional list of media items. */
@Nullable public final List<MediaItem> items;
/** Optional {@link Player#getRepeatMode() repeatMode}. */
@Nullable public final Integer repeatMode;
/** Optional {@link Player#getShuffleModeEnabled() shuffleMode}. */
@Nullable public final Boolean shuffleModeEnabled;
/** Optional {@link Player#isLoading() isLoading} value. */
@Nullable public final Boolean isLoading;
/** Optional {@link Player#getPlaybackParameters() playbackParameters}. */
@Nullable public final PlaybackParameters playbackParameters;
/** Optional {@link TrackSelectionParameters}. */
@Nullable public final TrackSelectionParameters trackSelectionParameters;
/** Optional error message string. */
@Nullable public final String errorMessage;
/**
* Optional reason for a {@link Player.EventListener#onPositionDiscontinuity(int) discontinuity }
* in the playback position.
*/
@Nullable public final Integer discontinuityReason;
/** Optional {@link UUID} of the {@link Player#getCurrentWindowIndex() currently played item}. */
@Nullable public final UUID currentPlayingItemUuid;
/** Optional id of the current {@link Player#getCurrentPeriodIndex() period being played}. */
@Nullable public final String currentPlayingPeriodId;
/** Optional {@link Player#getCurrentPosition() playbackPosition} in milliseconds. */
@Nullable public final Long currentPlaybackPositionMs;
/** Holds information about the {@link MediaItem media items} in the media queue. */
public final Map<UUID, MediaItemInfo> mediaItemsInformation;
/** Holds the indices of the media queue items in shuffle order. */
@Nullable public final List<Integer> shuffleOrder;
/** Creates an instance with the given values. */
private ReceiverAppStateUpdate(
long sequenceNumber,
@Nullable Boolean playWhenReady,
@Nullable Integer playbackState,
@Nullable List<MediaItem> items,
@Nullable Integer repeatMode,
@Nullable Boolean shuffleModeEnabled,
@Nullable Boolean isLoading,
@Nullable PlaybackParameters playbackParameters,
@Nullable TrackSelectionParameters trackSelectionParameters,
@Nullable String errorMessage,
@Nullable Integer discontinuityReason,
@Nullable UUID currentPlayingItemUuid,
@Nullable String currentPlayingPeriodId,
@Nullable Long currentPlaybackPositionMs,
Map<UUID, MediaItemInfo> mediaItemsInformation,
@Nullable List<Integer> shuffleOrder) {
this.sequenceNumber = sequenceNumber;
this.playWhenReady = playWhenReady;
this.playbackState = playbackState;
this.items = items;
this.repeatMode = repeatMode;
this.shuffleModeEnabled = shuffleModeEnabled;
this.isLoading = isLoading;
this.playbackParameters = playbackParameters;
this.trackSelectionParameters = trackSelectionParameters;
this.errorMessage = errorMessage;
this.discontinuityReason = discontinuityReason;
this.currentPlayingItemUuid = currentPlayingItemUuid;
this.currentPlayingPeriodId = currentPlayingPeriodId;
this.currentPlaybackPositionMs = currentPlaybackPositionMs;
this.mediaItemsInformation = mediaItemsInformation;
this.shuffleOrder = shuffleOrder;
}
@Override
public boolean equals(@Nullable Object other) {
if (this == other) {
return true;
}
if (other == null || getClass() != other.getClass()) {
return false;
}
ReceiverAppStateUpdate that = (ReceiverAppStateUpdate) other;
return sequenceNumber == that.sequenceNumber
&& Util.areEqual(playWhenReady, that.playWhenReady)
&& Util.areEqual(playbackState, that.playbackState)
&& Util.areEqual(items, that.items)
&& Util.areEqual(repeatMode, that.repeatMode)
&& Util.areEqual(shuffleModeEnabled, that.shuffleModeEnabled)
&& Util.areEqual(isLoading, that.isLoading)
&& Util.areEqual(playbackParameters, that.playbackParameters)
&& Util.areEqual(trackSelectionParameters, that.trackSelectionParameters)
&& Util.areEqual(errorMessage, that.errorMessage)
&& Util.areEqual(discontinuityReason, that.discontinuityReason)
&& Util.areEqual(currentPlayingItemUuid, that.currentPlayingItemUuid)
&& Util.areEqual(currentPlayingPeriodId, that.currentPlayingPeriodId)
&& Util.areEqual(currentPlaybackPositionMs, that.currentPlaybackPositionMs)
&& Util.areEqual(mediaItemsInformation, that.mediaItemsInformation)
&& Util.areEqual(shuffleOrder, that.shuffleOrder);
}
@Override
public int hashCode() {
int result = (int) (sequenceNumber ^ (sequenceNumber >>> 32));
result = 31 * result + (playWhenReady != null ? playWhenReady.hashCode() : 0);
result = 31 * result + (playbackState != null ? playbackState.hashCode() : 0);
result = 31 * result + (items != null ? items.hashCode() : 0);
result = 31 * result + (repeatMode != null ? repeatMode.hashCode() : 0);
result = 31 * result + (shuffleModeEnabled != null ? shuffleModeEnabled.hashCode() : 0);
result = 31 * result + (isLoading != null ? isLoading.hashCode() : 0);
result = 31 * result + (playbackParameters != null ? playbackParameters.hashCode() : 0);
result =
31 * result + (trackSelectionParameters != null ? trackSelectionParameters.hashCode() : 0);
result = 31 * result + (errorMessage != null ? errorMessage.hashCode() : 0);
result = 31 * result + (discontinuityReason != null ? discontinuityReason.hashCode() : 0);
result = 31 * result + (currentPlayingItemUuid != null ? currentPlayingItemUuid.hashCode() : 0);
result = 31 * result + (currentPlayingPeriodId != null ? currentPlayingPeriodId.hashCode() : 0);
result =
31 * result
+ (currentPlaybackPositionMs != null ? currentPlaybackPositionMs.hashCode() : 0);
result = 31 * result + mediaItemsInformation.hashCode();
result = 31 * result + (shuffleOrder != null ? shuffleOrder.hashCode() : 0);
return result;
}
// Internal methods.
@VisibleForTesting
/* package */ static List<MediaItem> toMediaItemArrayList(JSONArray mediaItemsAsJson)
throws JSONException {
ArrayList<MediaItem> mediaItems = new ArrayList<>();
for (int i = 0; i < mediaItemsAsJson.length(); i++) {
mediaItems.add(toMediaItem(mediaItemsAsJson.getJSONObject(i)));
}
return mediaItems;
}
private static MediaItem toMediaItem(JSONObject mediaItemAsJson) throws JSONException {
MediaItem.Builder builder = new MediaItem.Builder();
builder.setUuid(UUID.fromString(mediaItemAsJson.getString(KEY_UUID)));
builder.setTitle(mediaItemAsJson.getString(KEY_TITLE));
builder.setDescription(mediaItemAsJson.getString(KEY_DESCRIPTION));
builder.setMedia(jsonToUriBundle(mediaItemAsJson.getJSONObject(KEY_MEDIA)));
// TODO(Internal b/118431961): Add attachment management.
builder.setDrmSchemes(jsonArrayToDrmSchemes(mediaItemAsJson.getJSONArray(KEY_DRM_SCHEMES)));
if (mediaItemAsJson.has(KEY_START_POSITION_US)) {
builder.setStartPositionUs(mediaItemAsJson.getLong(KEY_START_POSITION_US));
}
if (mediaItemAsJson.has(KEY_END_POSITION_US)) {
builder.setEndPositionUs(mediaItemAsJson.getLong(KEY_END_POSITION_US));
}
builder.setMimeType(mediaItemAsJson.getString(KEY_MIME_TYPE));
return builder.build();
}
private static PlaybackParameters toPlaybackParameters(JSONObject parameters)
throws JSONException {
float speed = (float) parameters.getDouble(KEY_SPEED);
float pitch = (float) parameters.getDouble(KEY_PITCH);
boolean skipSilence = parameters.getBoolean(KEY_SKIP_SILENCE);
return new PlaybackParameters(speed, pitch, skipSilence);
}
private static int playbackStateStringToConstant(String string) {
switch (string) {
case STR_STATE_IDLE:
return STATE_IDLE;
case STR_STATE_BUFFERING:
return STATE_BUFFERING;
case STR_STATE_READY:
return STATE_READY;
case STR_STATE_ENDED:
return STATE_ENDED;
default:
throw new AssertionError("Unexpected state string: " + string);
}
}
private static Integer stringToRepeatMode(String repeatModeStr) {
switch (repeatModeStr) {
case STR_REPEAT_MODE_OFF:
return REPEAT_MODE_OFF;
case STR_REPEAT_MODE_ONE:
return REPEAT_MODE_ONE;
case STR_REPEAT_MODE_ALL:
return REPEAT_MODE_ALL;
default:
throw new AssertionError("Illegal repeat mode: " + repeatModeStr);
}
}
private static Integer stringToDiscontinuityReason(String discontinuityReasonStr) {
switch (discontinuityReasonStr) {
case STR_DISCONTINUITY_REASON_PERIOD_TRANSITION:
return DISCONTINUITY_REASON_PERIOD_TRANSITION;
case STR_DISCONTINUITY_REASON_SEEK:
return DISCONTINUITY_REASON_SEEK;
case STR_DISCONTINUITY_REASON_SEEK_ADJUSTMENT:
return DISCONTINUITY_REASON_SEEK_ADJUSTMENT;
case STR_DISCONTINUITY_REASON_AD_INSERTION:
return DISCONTINUITY_REASON_AD_INSERTION;
case STR_DISCONTINUITY_REASON_INTERNAL:
return DISCONTINUITY_REASON_INTERNAL;
default:
throw new AssertionError("Illegal discontinuity reason: " + discontinuityReasonStr);
}
}
@C.SelectionFlags
private static int jsonArrayToSelectionFlags(JSONArray array) throws JSONException {
int result = 0;
for (int i = 0; i < array.length(); i++) {
switch (array.getString(i)) {
case ExoCastConstants.STR_SELECTION_FLAG_AUTOSELECT:
result |= C.SELECTION_FLAG_AUTOSELECT;
break;
case ExoCastConstants.STR_SELECTION_FLAG_FORCED:
result |= C.SELECTION_FLAG_FORCED;
break;
case ExoCastConstants.STR_SELECTION_FLAG_DEFAULT:
result |= C.SELECTION_FLAG_DEFAULT;
break;
default:
// Do nothing.
break;
}
}
return result;
}
private static List<MediaItem.DrmScheme> jsonArrayToDrmSchemes(JSONArray drmSchemesAsJson)
throws JSONException {
ArrayList<MediaItem.DrmScheme> drmSchemes = new ArrayList<>();
for (int i = 0; i < drmSchemesAsJson.length(); i++) {
JSONObject drmSchemeAsJson = drmSchemesAsJson.getJSONObject(i);
MediaItem.UriBundle uriBundle =
drmSchemeAsJson.has(KEY_LICENSE_SERVER)
? jsonToUriBundle(drmSchemeAsJson.getJSONObject(KEY_LICENSE_SERVER))
: null;
drmSchemes.add(
new MediaItem.DrmScheme(UUID.fromString(drmSchemeAsJson.getString(KEY_UUID)), uriBundle));
}
return Collections.unmodifiableList(drmSchemes);
}
private static MediaItem.UriBundle jsonToUriBundle(JSONObject json) throws JSONException {
Uri uri = Uri.parse(json.getString(KEY_URI));
JSONObject requestHeadersAsJson = json.getJSONObject(KEY_REQUEST_HEADERS);
HashMap<String, String> requestHeaders = new HashMap<>();
for (Iterator<String> i = requestHeadersAsJson.keys(); i.hasNext(); ) {
String key = i.next();
requestHeaders.put(key, requestHeadersAsJson.getString(key));
}
return new MediaItem.UriBundle(uri, requestHeaders);
}
private static MediaItemInfo jsonToMediaitemInfo(JSONObject json) throws JSONException {
long durationUs = json.getLong(KEY_WINDOW_DURATION_US);
long defaultPositionUs = json.optLong(KEY_DEFAULT_START_POSITION_US, /* fallback= */ 0L);
JSONArray periodsJson = json.getJSONArray(KEY_PERIODS);
ArrayList<MediaItemInfo.Period> periods = new ArrayList<>();
long positionInFirstPeriodUs = json.getLong(KEY_POSITION_IN_FIRST_PERIOD_US);
long windowPositionUs = -positionInFirstPeriodUs;
for (int i = 0; i < periodsJson.length(); i++) {
JSONObject periodJson = periodsJson.getJSONObject(i);
long periodDurationUs = periodJson.optLong(KEY_DURATION_US, C.TIME_UNSET);
periods.add(
new MediaItemInfo.Period(
periodJson.getString(KEY_ID), periodDurationUs, windowPositionUs));
windowPositionUs += periodDurationUs;
}
boolean isDynamic = json.getBoolean(KEY_IS_DYNAMIC);
boolean isSeekable = json.getBoolean(KEY_IS_SEEKABLE);
return new MediaItemInfo(
durationUs, defaultPositionUs, periods, positionInFirstPeriodUs, isSeekable, isDynamic);
}
}
extensions/cast/src/test/java/com/google/android/exoplayer2/ext/cast/ExoCastMessageTest.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ARGS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DESCRIPTION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DRM_SCHEMES;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_END_POSITION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_INDEX;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ITEMS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_LICENSE_SERVER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MEDIA;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_METHOD;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MIME_TYPE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PITCH;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAY_WHEN_READY;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_POSITION_MS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PREFERRED_AUDIO_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PREFERRED_TEXT_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_REPEAT_MODE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_REQUEST_HEADERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SEQUENCE_NUMBER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SHUFFLE_MODE_ENABLED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SHUFFLE_ORDER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SKIP_SILENCE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SPEED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_START_POSITION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_TITLE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_URI;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_UUID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_UUIDS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_ADD_ITEMS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_MOVE_ITEM;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_REMOVE_ITEMS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SEEK_TO;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_PLAYBACK_PARAMETERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_PLAY_WHEN_READY;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_REPEAT_MODE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_SHUFFLE_MODE_ENABLED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.METHOD_SET_TRACK_SELECTION_PARAMETERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_ALL;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_OFF;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_ONE;
import static com.google.common.truth.Truth.assertThat;
import android.net.Uri;
import androidx.annotation.Nullable;
import androidx.test.ext.junit.runners.AndroidJUnit4;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.PlaybackParameters;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.ext.cast.MediaItem.DrmScheme;
import com.google.android.exoplayer2.ext.cast.MediaItem.UriBundle;
import com.google.android.exoplayer2.source.ShuffleOrder;
import com.google.android.exoplayer2.trackselection.TrackSelectionParameters;
import com.google.android.exoplayer2.util.MimeTypes;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.UUID;
import org.json.JSONArray;
import org.json.JSONException;
import org.json.JSONObject;
import org.junit.Test;
import org.junit.runner.RunWith;
/** Unit tests for {@link ExoCastMessage}. */
@RunWith(AndroidJUnit4.class)
public class ExoCastMessageTest {
@Test
public void addItems_withUnsetIndex_doesNotAddIndexToJson() throws JSONException {
MediaItem sampleItem = new MediaItem.Builder().build();
ExoCastMessage message =
new ExoCastMessage.AddItems(
C.INDEX_UNSET,
Collections.singletonList(sampleItem),
new ShuffleOrder.UnshuffledShuffleOrder(1));
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
JSONArray items = arguments.getJSONArray(KEY_ITEMS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_ADD_ITEMS);
assertThat(arguments.has(KEY_INDEX)).isFalse();
assertThat(items.length()).isEqualTo(1);
}
@Test
public void addItems_withMultipleItems_producesExpectedJsonList() throws JSONException {
MediaItem sampleItem1 = new MediaItem.Builder().build();
MediaItem sampleItem2 = new MediaItem.Builder().build();
ExoCastMessage message =
new ExoCastMessage.AddItems(
1, Arrays.asList(sampleItem2, sampleItem1), new ShuffleOrder.UnshuffledShuffleOrder(2));
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 1));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
JSONArray items = arguments.getJSONArray(KEY_ITEMS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(1);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_ADD_ITEMS);
assertThat(arguments.getInt(KEY_INDEX)).isEqualTo(1);
assertThat(items.length()).isEqualTo(2);
}
@Test
public void addItems_withoutItemOptionalFields_doesNotAddFieldsToJson() throws JSONException {
MediaItem itemWithoutOptionalFields =
new MediaItem.Builder()
.setTitle("title")
.setMimeType(MimeTypes.AUDIO_MP4)
.setDescription("desc")
.setDrmSchemes(Collections.singletonList(new DrmScheme(C.WIDEVINE_UUID, null)))
.setMedia("www.google.com")
.build();
ExoCastMessage message =
new ExoCastMessage.AddItems(
C.INDEX_UNSET,
Collections.singletonList(itemWithoutOptionalFields),
new ShuffleOrder.UnshuffledShuffleOrder(1));
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
JSONArray items = arguments.getJSONArray(KEY_ITEMS);
assertJsonEqualsMediaItem(items.getJSONObject(/* index= */ 0), itemWithoutOptionalFields);
}
@Test
public void addItems_withAllItemFields_addsFieldsToJson() throws JSONException {
HashMap<String, String> headersMedia = new HashMap<>();
headersMedia.put("header1", "value1");
headersMedia.put("header2", "value2");
UriBundle media = new UriBundle(Uri.parse("www.google.com"), headersMedia);
HashMap<String, String> headersWidevine = new HashMap<>();
headersWidevine.put("widevine", "value");
UriBundle widevingUriBundle = new UriBundle(Uri.parse("www.widevine.com"), headersWidevine);
HashMap<String, String> headersPlayready = new HashMap<>();
headersPlayready.put("playready", "value");
UriBundle playreadyUriBundle = new UriBundle(Uri.parse("www.playready.com"), headersPlayready);
DrmScheme[] drmSchemes =
new DrmScheme[] {
new DrmScheme(C.WIDEVINE_UUID, widevingUriBundle),
new DrmScheme(C.PLAYREADY_UUID, playreadyUriBundle)
};
MediaItem itemWithAllFields =
new MediaItem.Builder()
.setTitle("title")
.setMimeType(MimeTypes.VIDEO_MP4)
.setDescription("desc")
.setStartPositionUs(3)
.setEndPositionUs(10)
.setDrmSchemes(Arrays.asList(drmSchemes))
.setMedia(media)
.build();
ExoCastMessage message =
new ExoCastMessage.AddItems(
C.INDEX_UNSET,
Collections.singletonList(itemWithAllFields),
new ShuffleOrder.UnshuffledShuffleOrder(1));
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
JSONArray items = arguments.getJSONArray(KEY_ITEMS);
assertJsonEqualsMediaItem(items.getJSONObject(/* index= */ 0), itemWithAllFields);
}
@Test
public void addItems_withShuffleOrder_producesExpectedJson() throws JSONException {
MediaItem.Builder builder = new MediaItem.Builder();
MediaItem sampleItem1 = builder.build();
MediaItem sampleItem2 = builder.build();
MediaItem sampleItem3 = builder.build();
MediaItem sampleItem4 = builder.build();
ExoCastMessage message =
new ExoCastMessage.AddItems(
C.INDEX_UNSET,
Arrays.asList(sampleItem1, sampleItem2, sampleItem3, sampleItem4),
new ShuffleOrder.DefaultShuffleOrder(new int[] {2, 1, 3, 0}, /* randomSeed= */ 0));
JSONObject arguments =
new JSONObject(message.toJsonString(/* sequenceNumber= */ 0)).getJSONObject(KEY_ARGS);
JSONArray shuffledIndices = arguments.getJSONArray(KEY_SHUFFLE_ORDER);
assertThat(shuffledIndices.getInt(0)).isEqualTo(2);
assertThat(shuffledIndices.getInt(1)).isEqualTo(1);
assertThat(shuffledIndices.getInt(2)).isEqualTo(3);
assertThat(shuffledIndices.getInt(3)).isEqualTo(0);
}
@Test
public void moveItem_producesExpectedJson() throws JSONException {
ExoCastMessage message =
new ExoCastMessage.MoveItem(
new UUID(0, 1),
/* index= */ 3,
new ShuffleOrder.DefaultShuffleOrder(new int[] {2, 1, 3, 0}, /* randomSeed= */ 0));
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 1));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(1);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_MOVE_ITEM);
assertThat(arguments.getString(KEY_UUID)).isEqualTo(new UUID(0, 1).toString());
assertThat(arguments.getInt(KEY_INDEX)).isEqualTo(3);
JSONArray shuffledIndices = arguments.getJSONArray(KEY_SHUFFLE_ORDER);
assertThat(shuffledIndices.getInt(0)).isEqualTo(2);
assertThat(shuffledIndices.getInt(1)).isEqualTo(1);
assertThat(shuffledIndices.getInt(2)).isEqualTo(3);
assertThat(shuffledIndices.getInt(3)).isEqualTo(0);
}
@Test
public void removeItems_withSingleItem_producesExpectedJson() throws JSONException {
ExoCastMessage message =
new ExoCastMessage.RemoveItems(Collections.singletonList(new UUID(0, 1)));
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONArray uuids = messageAsJson.getJSONObject(KEY_ARGS).getJSONArray(KEY_UUIDS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_REMOVE_ITEMS);
assertThat(uuids.length()).isEqualTo(1);
assertThat(uuids.getString(0)).isEqualTo(new UUID(0, 1).toString());
}
@Test
public void removeItems_withMultipleItems_producesExpectedJson() throws JSONException {
ExoCastMessage message =
new ExoCastMessage.RemoveItems(
Arrays.asList(new UUID(0, 1), new UUID(0, 2), new UUID(0, 3)));
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONArray uuids = messageAsJson.getJSONObject(KEY_ARGS).getJSONArray(KEY_UUIDS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_REMOVE_ITEMS);
assertThat(uuids.length()).isEqualTo(3);
assertThat(uuids.getString(0)).isEqualTo(new UUID(0, 1).toString());
assertThat(uuids.getString(1)).isEqualTo(new UUID(0, 2).toString());
assertThat(uuids.getString(2)).isEqualTo(new UUID(0, 3).toString());
}
@Test
public void setPlayWhenReady_producesExpectedJson() throws JSONException {
ExoCastMessage message = new ExoCastMessage.SetPlayWhenReady(true);
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_SET_PLAY_WHEN_READY);
assertThat(messageAsJson.getJSONObject(KEY_ARGS).getBoolean(KEY_PLAY_WHEN_READY)).isTrue();
}
@Test
public void setRepeatMode_withRepeatModeOff_producesExpectedJson() throws JSONException {
ExoCastMessage message = new ExoCastMessage.SetRepeatMode(Player.REPEAT_MODE_OFF);
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_SET_REPEAT_MODE);
assertThat(messageAsJson.getJSONObject(KEY_ARGS).getString(KEY_REPEAT_MODE))
.isEqualTo(STR_REPEAT_MODE_OFF);
}
@Test
public void setRepeatMode_withRepeatModeOne_producesExpectedJson() throws JSONException {
ExoCastMessage message = new ExoCastMessage.SetRepeatMode(Player.REPEAT_MODE_ONE);
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_SET_REPEAT_MODE);
assertThat(messageAsJson.getJSONObject(KEY_ARGS).getString(KEY_REPEAT_MODE))
.isEqualTo(STR_REPEAT_MODE_ONE);
}
@Test
public void setRepeatMode_withRepeatModeAll_producesExpectedJson() throws JSONException {
ExoCastMessage message = new ExoCastMessage.SetRepeatMode(Player.REPEAT_MODE_ALL);
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_SET_REPEAT_MODE);
assertThat(messageAsJson.getJSONObject(KEY_ARGS).getString(KEY_REPEAT_MODE))
.isEqualTo(STR_REPEAT_MODE_ALL);
}
@Test
public void setShuffleModeEnabled_producesExpectedJson() throws JSONException {
ExoCastMessage message =
new ExoCastMessage.SetShuffleModeEnabled(/* shuffleModeEnabled= */ false);
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_SET_SHUFFLE_MODE_ENABLED);
assertThat(messageAsJson.getJSONObject(KEY_ARGS).getBoolean(KEY_SHUFFLE_MODE_ENABLED))
.isFalse();
}
@Test
public void seekTo_withPositionInItem_addsPositionField() throws JSONException {
ExoCastMessage message = new ExoCastMessage.SeekTo(new UUID(0, 1), /* positionMs= */ 10);
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_SEEK_TO);
assertThat(arguments.getString(KEY_UUID)).isEqualTo(new UUID(0, 1).toString());
assertThat(arguments.getLong(KEY_POSITION_MS)).isEqualTo(10);
}
@Test
public void seekTo_withUnsetPosition_doesNotAddPositionField() throws JSONException {
ExoCastMessage message =
new ExoCastMessage.SeekTo(new UUID(0, 1), /* positionMs= */ C.TIME_UNSET);
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_SEEK_TO);
assertThat(arguments.getString(KEY_UUID)).isEqualTo(new UUID(0, 1).toString());
assertThat(arguments.has(KEY_POSITION_MS)).isFalse();
}
@Test
public void setPlaybackParameters_producesExpectedJson() throws JSONException {
ExoCastMessage message =
new ExoCastMessage.SetPlaybackParameters(
new PlaybackParameters(/* speed= */ 0.5f, /* pitch= */ 2, /* skipSilence= */ false));
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD)).isEqualTo(METHOD_SET_PLAYBACK_PARAMETERS);
assertThat(arguments.getDouble(KEY_SPEED)).isEqualTo(0.5);
assertThat(arguments.getDouble(KEY_PITCH)).isEqualTo(2.0);
assertThat(arguments.getBoolean(KEY_SKIP_SILENCE)).isFalse();
}
@Test
public void setSelectionParameters_producesExpectedJson() throws JSONException {
ExoCastMessage message =
new ExoCastMessage.SetTrackSelectionParameters(
TrackSelectionParameters.DEFAULT
.buildUpon()
.setDisabledTextTrackSelectionFlags(
C.SELECTION_FLAG_AUTOSELECT | C.SELECTION_FLAG_DEFAULT)
.setSelectUndeterminedTextLanguage(true)
.setPreferredAudioLanguage("esp")
.setPreferredTextLanguage("deu")
.build());
JSONObject messageAsJson = new JSONObject(message.toJsonString(/* sequenceNumber= */ 0));
JSONObject arguments = messageAsJson.getJSONObject(KEY_ARGS);
assertThat(messageAsJson.getLong(KEY_SEQUENCE_NUMBER)).isEqualTo(0);
assertThat(messageAsJson.getString(KEY_METHOD))
.isEqualTo(METHOD_SET_TRACK_SELECTION_PARAMETERS);
assertThat(arguments.getBoolean(KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE)).isTrue();
assertThat(arguments.getString(KEY_PREFERRED_AUDIO_LANGUAGE)).isEqualTo("esp");
assertThat(arguments.getString(KEY_PREFERRED_TEXT_LANGUAGE)).isEqualTo("deu");
ArrayList<String> selectionFlagStrings = new ArrayList<>();
JSONArray selectionFlagsJson = arguments.getJSONArray(KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS);
for (int i = 0; i < selectionFlagsJson.length(); i++) {
selectionFlagStrings.add(selectionFlagsJson.getString(i));
}
assertThat(selectionFlagStrings).contains(ExoCastConstants.STR_SELECTION_FLAG_AUTOSELECT);
assertThat(selectionFlagStrings).doesNotContain(ExoCastConstants.STR_SELECTION_FLAG_FORCED);
assertThat(selectionFlagStrings).contains(ExoCastConstants.STR_SELECTION_FLAG_DEFAULT);
}
private static void assertJsonEqualsMediaItem(JSONObject itemAsJson, MediaItem mediaItem)
throws JSONException {
assertThat(itemAsJson.getString(KEY_UUID)).isEqualTo(mediaItem.uuid.toString());
assertThat(itemAsJson.getString(KEY_TITLE)).isEqualTo(mediaItem.title);
assertThat(itemAsJson.getString(KEY_MIME_TYPE)).isEqualTo(mediaItem.mimeType);
assertThat(itemAsJson.getString(KEY_DESCRIPTION)).isEqualTo(mediaItem.description);
assertJsonMatchesTimestamp(itemAsJson, KEY_START_POSITION_US, mediaItem.startPositionUs);
assertJsonMatchesTimestamp(itemAsJson, KEY_END_POSITION_US, mediaItem.endPositionUs);
assertJsonMatchesUriBundle(itemAsJson, KEY_MEDIA, mediaItem.media);
List<DrmScheme> drmSchemes = mediaItem.drmSchemes;
int drmSchemesLength = drmSchemes.size();
JSONArray drmSchemesAsJson = itemAsJson.getJSONArray(KEY_DRM_SCHEMES);
assertThat(drmSchemesAsJson.length()).isEqualTo(drmSchemesLength);
for (int i = 0; i < drmSchemesLength; i++) {
DrmScheme drmScheme = drmSchemes.get(i);
JSONObject drmSchemeAsJson = drmSchemesAsJson.getJSONObject(i);
assertThat(drmSchemeAsJson.getString(KEY_UUID)).isEqualTo(drmScheme.uuid.toString());
assertJsonMatchesUriBundle(drmSchemeAsJson, KEY_LICENSE_SERVER, drmScheme.licenseServer);
}
}
private static void assertJsonMatchesUriBundle(
JSONObject jsonObject, String key, @Nullable UriBundle uriBundle) throws JSONException {
if (uriBundle == null) {
assertThat(jsonObject.has(key)).isFalse();
return;
}
JSONObject uriBundleAsJson = jsonObject.getJSONObject(key);
assertThat(uriBundleAsJson.getString(KEY_URI)).isEqualTo(uriBundle.uri.toString());
Map<String, String> requestHeaders = uriBundle.requestHeaders;
JSONObject requestHeadersAsJson = uriBundleAsJson.getJSONObject(KEY_REQUEST_HEADERS);
assertThat(requestHeadersAsJson.length()).isEqualTo(requestHeaders.size());
for (String headerKey : requestHeaders.keySet()) {
assertThat(requestHeadersAsJson.getString(headerKey))
.isEqualTo(requestHeaders.get(headerKey));
}
}
private static void assertJsonMatchesTimestamp(JSONObject object, String key, long timestamp)
throws JSONException {
if (timestamp == C.TIME_UNSET) {
assertThat(object.has(key)).isFalse();
} else {
assertThat(object.getLong(key)).isEqualTo(timestamp);
}
}
}
extensions/cast/src/test/java/com/google/android/exoplayer2/ext/cast/ExoCastPlayerTest.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ARGS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_INDEX;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ITEMS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_UUID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_UUIDS;
import static com.google.common.truth.Truth.assertThat;
import static org.junit.Assert.fail;
import static org.mockito.ArgumentMatchers.any;
import static org.mockito.Matchers.eq;
import static org.mockito.Matchers.isNull;
import static org.mockito.Mockito.never;
import static org.mockito.Mockito.times;
import static org.mockito.Mockito.verify;
import static org.mockito.Mockito.verifyNoMoreInteractions;
import static org.mockito.Mockito.when;
import static org.mockito.MockitoAnnotations.initMocks;
import androidx.test.ext.junit.runners.AndroidJUnit4;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.PlaybackParameters;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.Timeline;
import com.google.android.exoplayer2.testutil.FakeClock;
import com.google.android.exoplayer2.trackselection.DefaultTrackSelector;
import com.google.android.exoplayer2.trackselection.TrackSelectionParameters;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.UUID;
import org.json.JSONArray;
import org.json.JSONException;
import org.json.JSONObject;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.mockito.ArgumentCaptor;
import org.mockito.Mock;
/** Unit test for {@link ExoCastPlayer}. */
@RunWith(AndroidJUnit4.class)
public class ExoCastPlayerTest {
private static final long MOCK_SEQUENCE_NUMBER = 1;
private ExoCastPlayer player;
private MediaItem.Builder itemBuilder;
private CastSessionManager.StateListener receiverAppStateListener;
private FakeClock clock;
@Mock private CastSessionManager sessionManager;
@Mock private SessionAvailabilityListener sessionAvailabilityListener;
@Mock private Player.EventListener playerEventListener;
@Before
public void setUp() {
initMocks(this);
clock = new FakeClock(/* initialTimeMs= */ 0);
player =
new ExoCastPlayer(
listener -> {
receiverAppStateListener = listener;
return sessionManager;
},
clock);
player.addListener(playerEventListener);
itemBuilder = new MediaItem.Builder();
}
@Test
public void exoCastPlayer_startsAndStopsSessionManager() {
// The session manager should have been started when setting up, with the creation of
// ExoCastPlayer.
verify(sessionManager).start();
verifyNoMoreInteractions(sessionManager);
player.release();
verify(sessionManager).stopTrackingSession();
verifyNoMoreInteractions(sessionManager);
}
@Test
public void exoCastPlayer_propagatesSessionStatus() {
player.setSessionAvailabilityListener(sessionAvailabilityListener);
verify(sessionAvailabilityListener, never()).onCastSessionAvailable();
receiverAppStateListener.onCastSessionAvailable();
verify(sessionAvailabilityListener).onCastSessionAvailable();
verifyNoMoreInteractions(sessionAvailabilityListener);
receiverAppStateListener.onCastSessionUnavailable();
verify(sessionAvailabilityListener).onCastSessionUnavailable();
verifyNoMoreInteractions(sessionAvailabilityListener);
}
@Test
public void addItemsToQueue_producesExpectedMessages() throws JSONException {
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
MediaItem item3 = itemBuilder.setUuid(toUuid(3)).build();
MediaItem item4 = itemBuilder.setUuid(toUuid(4)).build();
MediaItem item5 = itemBuilder.setUuid(toUuid(5)).build();
player.addItemsToQueue(item1, item2);
assertMediaItemQueue(item1, item2);
player.addItemsToQueue(1, item3, item4);
assertMediaItemQueue(item1, item3, item4, item2);
player.addItemsToQueue(item5);
assertMediaItemQueue(item1, item3, item4, item2, item5);
ArgumentCaptor<ExoCastMessage> messageCaptor = ArgumentCaptor.forClass(ExoCastMessage.class);
verify(sessionManager, times(3)).send(messageCaptor.capture());
assertMessageAddsItems(
/* message= */ messageCaptor.getAllValues().get(0),
/* index= */ C.INDEX_UNSET,
Arrays.asList(item1, item2));
assertMessageAddsItems(
/* message= */ messageCaptor.getAllValues().get(1),
/* index= */ 1,
Arrays.asList(item3, item4));
assertMessageAddsItems(
/* message= */ messageCaptor.getAllValues().get(2),
/* index= */ C.INDEX_UNSET,
Collections.singletonList(item5));
}
@Test
public void addItemsToQueue_masksRemoteUpdates() {
player.prepare();
when(sessionManager.send(any(ExoCastMessage.class))).thenReturn(3L);
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
MediaItem item3 = itemBuilder.setUuid(toUuid(3)).build();
MediaItem item4 = itemBuilder.setUuid(toUuid(4)).build();
player.addItemsToQueue(item1, item2);
assertMediaItemQueue(item1, item2);
// Should be ignored due to a lower sequence number.
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 2)
.setItems(Arrays.asList(item3, item4))
.build());
// Should override the current state.
assertMediaItemQueue(item1, item2);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 3)
.setItems(Arrays.asList(item3, item4))
.build());
assertMediaItemQueue(item3, item4);
}
@Test
public void addItemsToQueue_masksWindowIndexAsExpected() {
player.prepare();
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build(), itemBuilder.build());
player.seekTo(/* windowIndex= */ 2, /* positionMs= */ 500);
assertThat(player.getCurrentWindowIndex()).isEqualTo(2);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(2);
player.addItemsToQueue(/* optionalIndex= */ 0, itemBuilder.build());
assertThat(player.getCurrentWindowIndex()).isEqualTo(3);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(3);
player.addItemsToQueue(itemBuilder.build());
assertThat(player.getCurrentWindowIndex()).isEqualTo(3);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(3);
}
@Test
public void addItemsToQueue_doesNotAddDuplicateUuids() {
player.prepare();
player.addItemsToQueue(itemBuilder.setUuid(toUuid(1)).build());
assertThat(player.getQueueSize()).isEqualTo(1);
player.addItemsToQueue(
itemBuilder.setUuid(toUuid(1)).build(), itemBuilder.setUuid(toUuid(2)).build());
assertThat(player.getQueueSize()).isEqualTo(2);
try {
player.addItemsToQueue(
itemBuilder.setUuid(toUuid(3)).build(), itemBuilder.setUuid(toUuid(3)).build());
fail();
} catch (IllegalArgumentException e) {
// Expected.
}
}
@Test
public void moveItemInQueue_behavesAsExpected() throws JSONException {
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
MediaItem item3 = itemBuilder.setUuid(toUuid(3)).build();
player.addItemsToQueue(item1, item2, item3);
assertMediaItemQueue(item1, item2, item3);
player.moveItemInQueue(/* index= */ 0, /* newIndex= */ 2);
assertMediaItemQueue(item2, item3, item1);
player.moveItemInQueue(/* index= */ 1, /* newIndex= */ 1);
assertMediaItemQueue(item2, item3, item1);
player.moveItemInQueue(/* index= */ 1, /* newIndex= */ 0);
assertMediaItemQueue(item3, item2, item1);
ArgumentCaptor<ExoCastMessage> messageCaptor = ArgumentCaptor.forClass(ExoCastMessage.class);
verify(sessionManager, times(4)).send(messageCaptor.capture());
// First sent message is an "add" message.
assertMessageMovesItem(
/* message= */ messageCaptor.getAllValues().get(1), item1, /* index= */ 2);
assertMessageMovesItem(
/* message= */ messageCaptor.getAllValues().get(2), item3, /* index= */ 1);
assertMessageMovesItem(
/* message= */ messageCaptor.getAllValues().get(3), item3, /* index= */ 0);
}
@Test
public void moveItemInQueue_moveBeforeToAfter_masksWindowIndexAsExpected() {
player.prepare();
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build(), itemBuilder.build());
player.seekTo(/* windowIndex= */ 1, /* positionMs= */ 500);
assertThat(player.getCurrentWindowIndex()).isEqualTo(1);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(1);
player.moveItemInQueue(/* index= */ 0, /* newIndex= */ 1);
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(0);
}
@Test
public void moveItemInQueue_moveAfterToBefore_masksWindowIndexAsExpected() {
player.prepare();
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build(), itemBuilder.build());
player.seekTo(/* windowIndex= */ 0, /* positionMs= */ 500);
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(0);
player.moveItemInQueue(/* index= */ 1, /* newIndex= */ 0);
assertThat(player.getCurrentWindowIndex()).isEqualTo(1);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(1);
}
@Test
public void moveItemInQueue_moveCurrent_masksWindowIndexAsExpected() {
player.prepare();
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build(), itemBuilder.build());
player.seekTo(/* windowIndex= */ 0, /* positionMs= */ 500);
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(0);
player.moveItemInQueue(/* index= */ 0, /* newIndex= */ 2);
assertThat(player.getCurrentWindowIndex()).isEqualTo(2);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(2);
}
@Test
public void removeItemsFromQueue_masksMediaQueue() throws JSONException {
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
MediaItem item3 = itemBuilder.setUuid(toUuid(3)).build();
MediaItem item4 = itemBuilder.setUuid(toUuid(4)).build();
MediaItem item5 = itemBuilder.setUuid(toUuid(5)).build();
player.addItemsToQueue(item1, item2, item3, item4, item5);
assertMediaItemQueue(item1, item2, item3, item4, item5);
player.removeItemFromQueue(2);
assertMediaItemQueue(item1, item2, item4, item5);
player.removeRangeFromQueue(1, 3);
assertMediaItemQueue(item1, item5);
player.clearQueue();
assertMediaItemQueue();
ArgumentCaptor<ExoCastMessage> messageCaptor = ArgumentCaptor.forClass(ExoCastMessage.class);
verify(sessionManager, times(4)).send(messageCaptor.capture());
// First sent message is an "add" message.
assertMessageRemovesItems(
messageCaptor.getAllValues().get(1), Collections.singletonList(item3));
assertMessageRemovesItems(messageCaptor.getAllValues().get(2), Arrays.asList(item2, item4));
assertMessageRemovesItems(messageCaptor.getAllValues().get(3), Arrays.asList(item1, item5));
}
@Test
public void removeRangeFromQueue_beforeCurrentItem_masksWindowIndexAsExpected() {
player.prepare();
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build(), itemBuilder.build());
player.seekTo(/* windowIndex= */ 2, /* positionMs= */ 500);
assertThat(player.getCurrentWindowIndex()).isEqualTo(2);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(2);
player.removeRangeFromQueue(/* indexFrom= */ 0, /* indexExclusiveTo= */ 2);
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(0);
}
@Test
public void removeRangeFromQueue_currentItem_masksWindowIndexAsExpected() {
player.prepare();
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build(), itemBuilder.build());
player.seekTo(/* windowIndex= */ 1, /* positionMs= */ 500);
assertThat(player.getCurrentWindowIndex()).isEqualTo(1);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(1);
player.removeRangeFromQueue(/* indexFrom= */ 0, /* indexExclusiveTo= */ 2);
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(0);
}
@Test
public void removeRangeFromQueue_currentItemWhichIsLast_transitionsToEnded() {
player.prepare();
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build(), itemBuilder.build());
player.seekTo(/* windowIndex= */ 1, /* positionMs= */ 500);
assertThat(player.getCurrentWindowIndex()).isEqualTo(1);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(1);
player.removeRangeFromQueue(/* indexFrom= */ 1, /* indexExclusiveTo= */ 3);
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(0);
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_ENDED);
}
@Test
public void clearQueue_resetsPlaybackPosition() {
player.prepare();
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build(), itemBuilder.build());
player.seekTo(/* windowIndex= */ 1, /* positionMs= */ 500);
assertThat(player.getCurrentWindowIndex()).isEqualTo(1);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(1);
player.clearQueue();
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(0);
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_ENDED);
}
@Test
public void prepare_emptyQueue_transitionsToEnded() {
player.prepare();
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_ENDED);
verify(playerEventListener).onPlayerStateChanged(/* playWhenReady=*/ false, Player.STATE_ENDED);
}
@Test
public void prepare_withQueue_transitionsToBuffering() {
player.addItemsToQueue(itemBuilder.build());
player.prepare();
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_BUFFERING);
verify(playerEventListener)
.onPlayerStateChanged(/* playWhenReady=*/ false, Player.STATE_BUFFERING);
ArgumentCaptor<Timeline> argumentCaptor = ArgumentCaptor.forClass(Timeline.class);
verify(playerEventListener)
.onTimelineChanged(
argumentCaptor.capture(),
/* manifest= */ isNull(),
eq(Player.TIMELINE_CHANGE_REASON_PREPARED));
assertThat(argumentCaptor.getValue().getWindowCount()).isEqualTo(1);
}
@Test
public void stop_withoutReset_leavesCurrentTimeline() {
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_IDLE);
player.addItemsToQueue(itemBuilder.setUuid(toUuid(1)).build());
player.prepare();
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_BUFFERING);
player.seekTo(/* windowIndex= */ 0, /* positionMs= */ C.TIME_UNSET);
verify(playerEventListener)
.onPlayerStateChanged(/* playWhenReady =*/ false, Player.STATE_BUFFERING);
verify(playerEventListener).onPositionDiscontinuity(Player.DISCONTINUITY_REASON_SEEK);
player.stop(/* reset= */ false);
verify(playerEventListener).onPlayerStateChanged(/* playWhenReady =*/ false, Player.STATE_IDLE);
ArgumentCaptor<Timeline> argumentCaptor = ArgumentCaptor.forClass(Timeline.class);
// Update for prepare.
verify(playerEventListener)
.onTimelineChanged(
argumentCaptor.capture(),
/* manifest= */ isNull(),
eq(Player.TIMELINE_CHANGE_REASON_PREPARED));
assertThat(argumentCaptor.getValue().getWindowCount()).isEqualTo(1);
// Update for stop.
verifyNoMoreInteractions(playerEventListener);
assertThat(player.getCurrentTimeline().getWindowCount()).isEqualTo(1);
}
@Test
public void stop_withReset_clearsQueue() {
player.prepare();
player.addItemsToQueue(itemBuilder.setUuid(toUuid(1)).build());
verify(playerEventListener)
.onTimelineChanged(
any(Timeline.class), isNull(), eq(Player.TIMELINE_CHANGE_REASON_DYNAMIC));
player.seekTo(/* windowIndex= */ 0, /* positionMs= */ C.TIME_UNSET);
verify(playerEventListener)
.onPlayerStateChanged(/* playWhenReady =*/ false, Player.STATE_BUFFERING);
player.stop(/* reset= */ true);
verify(playerEventListener).onPlayerStateChanged(/* playWhenReady =*/ false, Player.STATE_IDLE);
// Update for add.
ArgumentCaptor<Timeline> argumentCaptor = ArgumentCaptor.forClass(Timeline.class);
verify(playerEventListener)
.onTimelineChanged(
argumentCaptor.capture(),
/* manifest= */ isNull(),
eq(Player.TIMELINE_CHANGE_REASON_DYNAMIC));
assertThat(argumentCaptor.getValue().getWindowCount()).isEqualTo(1);
// Update for stop.
verify(playerEventListener)
.onTimelineChanged(
argumentCaptor.capture(),
/* manifest= */ isNull(),
eq(Player.TIMELINE_CHANGE_REASON_RESET));
assertThat(argumentCaptor.getValue().getWindowCount()).isEqualTo(0);
assertThat(player.getCurrentTimeline().isEmpty()).isTrue();
}
@Test
public void getCurrentTimeline_masksRemoteUpdates() {
player.prepare();
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
assertThat(player.getCurrentTimeline().isEmpty()).isTrue();
player.addItemsToQueue(item1, item2);
ArgumentCaptor<Timeline> messageCaptor = ArgumentCaptor.forClass(Timeline.class);
verify(playerEventListener)
.onTimelineChanged(
messageCaptor.capture(),
/* manifest= */ isNull(),
eq(Player.TIMELINE_CHANGE_REASON_DYNAMIC));
Timeline reportedTimeline = messageCaptor.getValue();
assertThat(reportedTimeline).isSameInstanceAs(player.getCurrentTimeline());
assertThat(reportedTimeline.getWindowCount()).isEqualTo(2);
assertThat(reportedTimeline.getWindow(/* windowIndex= */ 0, new Timeline.Window()).durationUs)
.isEqualTo(C.TIME_UNSET);
assertThat(reportedTimeline.getWindow(/* windowIndex= */ 1, new Timeline.Window()).durationUs)
.isEqualTo(C.TIME_UNSET);
}
@Test
public void getCurrentTimeline_exposesReceiverState() {
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1)
.setPlaybackState(Player.STATE_BUFFERING)
.setItems(Arrays.asList(item1, item2))
.setShuffleOrder(Arrays.asList(1, 0))
.build());
ArgumentCaptor<Timeline> messageCaptor = ArgumentCaptor.forClass(Timeline.class);
verify(playerEventListener)
.onTimelineChanged(
messageCaptor.capture(),
/* manifest= */ isNull(),
eq(Player.TIMELINE_CHANGE_REASON_DYNAMIC));
Timeline reportedTimeline = messageCaptor.getValue();
assertThat(reportedTimeline).isSameInstanceAs(player.getCurrentTimeline());
assertThat(reportedTimeline.getWindowCount()).isEqualTo(2);
assertThat(reportedTimeline.getWindow(/* windowIndex= */ 0, new Timeline.Window()).durationUs)
.isEqualTo(C.TIME_UNSET);
assertThat(reportedTimeline.getWindow(/* windowIndex= */ 1, new Timeline.Window()).durationUs)
.isEqualTo(C.TIME_UNSET);
}
@Test
public void timelineUpdateFromReceiver_matchesLocalState_doesNotCallEventLsitener() {
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
MediaItem item3 = itemBuilder.setUuid(toUuid(3)).build();
MediaItem item4 = itemBuilder.setUuid(toUuid(4)).build();
MediaItemInfo.Period period1 =
new MediaItemInfo.Period("id1", /* durationUs= */ 1000000L, /* positionInWindowUs= */ 0);
MediaItemInfo.Period period2 =
new MediaItemInfo.Period(
"id2", /* durationUs= */ 1000000L, /* positionInWindowUs= */ 1000000L);
MediaItemInfo.Period period3 =
new MediaItemInfo.Period(
"id3", /* durationUs= */ 1000000L, /* positionInWindowUs= */ 2000000L);
HashMap<UUID, MediaItemInfo> mediaItemInfoMap1 = new HashMap<>();
mediaItemInfoMap1.put(
toUuid(1),
new MediaItemInfo(
/* windowDurationUs= */ 3000L,
/* defaultStartPositionUs= */ 10,
/* periods= */ Arrays.asList(period1, period2, period3),
/* positionInFirstPeriodUs= */ 0,
/* isSeekable= */ true,
/* isDynamic= */ false));
mediaItemInfoMap1.put(
toUuid(3),
new MediaItemInfo(
/* windowDurationUs= */ 2000L,
/* defaultStartPositionUs= */ 10,
/* periods= */ Arrays.asList(period1, period2),
/* positionInFirstPeriodUs= */ 500,
/* isSeekable= */ true,
/* isDynamic= */ false));
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(1)
.setPlaybackState(Player.STATE_BUFFERING)
.setItems(Arrays.asList(item1, item2, item3, item4))
.setShuffleOrder(Arrays.asList(1, 0, 2, 3))
.setMediaItemsInformation(mediaItemInfoMap1)
.build());
verify(playerEventListener)
.onTimelineChanged(
any(), /* manifest= */ isNull(), eq(Player.TIMELINE_CHANGE_REASON_DYNAMIC));
verify(playerEventListener)
.onPlayerStateChanged(
/* playWhenReady= */ false, /* playbackState= */ Player.STATE_BUFFERING);
HashMap<UUID, MediaItemInfo> mediaItemInfoMap2 = new HashMap<>(mediaItemInfoMap1);
mediaItemInfoMap2.put(
toUuid(5),
new MediaItemInfo(
/* windowDurationUs= */ 5,
/* defaultStartPositionUs= */ 0,
/* periods= */ Arrays.asList(period1, period2),
/* positionInFirstPeriodUs= */ 500,
/* isSeekable= */ true,
/* isDynamic= */ false));
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(1).setMediaItemsInformation(mediaItemInfoMap2).build());
verifyNoMoreInteractions(playerEventListener);
}
@Test
public void getPeriodIndex_producesExpectedOutput() {
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
MediaItem item3 = itemBuilder.setUuid(toUuid(3)).build();
MediaItem item4 = itemBuilder.setUuid(toUuid(4)).build();
MediaItemInfo.Period period1 =
new MediaItemInfo.Period("id1", /* durationUs= */ 1000000L, /* positionInWindowUs= */ 0);
MediaItemInfo.Period period2 =
new MediaItemInfo.Period(
"id2", /* durationUs= */ 1000000L, /* positionInWindowUs= */ 1000000L);
MediaItemInfo.Period period3 =
new MediaItemInfo.Period(
"id3", /* durationUs= */ 1000000L, /* positionInWindowUs= */ 2000000L);
HashMap<UUID, MediaItemInfo> mediaItemInfoMap = new HashMap<>();
mediaItemInfoMap.put(
toUuid(1),
new MediaItemInfo(
/* windowDurationUs= */ 3000L,
/* defaultStartPositionUs= */ 10,
/* periods= */ Arrays.asList(period1, period2, period3),
/* positionInFirstPeriodUs= */ 0,
/* isSeekable= */ true,
/* isDynamic= */ false));
mediaItemInfoMap.put(
toUuid(3),
new MediaItemInfo(
/* windowDurationUs= */ 2000L,
/* defaultStartPositionUs= */ 10,
/* periods= */ Arrays.asList(period1, period2),
/* positionInFirstPeriodUs= */ 500,
/* isSeekable= */ true,
/* isDynamic= */ false));
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1L)
.setPlaybackState(Player.STATE_BUFFERING)
.setItems(Arrays.asList(item1, item2, item3, item4))
.setShuffleOrder(Arrays.asList(1, 0, 3, 2))
.setMediaItemsInformation(mediaItemInfoMap)
.setPlaybackPosition(
/* currentPlayingItemUuid= */ item3.uuid,
/* currentPlayingPeriodId= */ "id2",
/* currentPlaybackPositionMs= */ 500L)
.build());
assertThat(player.getCurrentPeriodIndex()).isEqualTo(5);
player.seekTo(/* windowIndex= */ 1, /* positionMs= */ 0L);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(3);
player.seekTo(/* windowIndex= */ 0, /* positionMs= */ 1500L);
assertThat(player.getCurrentPeriodIndex()).isEqualTo(1);
}
@Test
public void exoCastPlayer_propagatesPlayerStateFromReceiver() {
ReceiverAppStateUpdate.Builder builder =
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1);
// The first idle state update should be discarded, since it matches the current state.
receiverAppStateListener.onStateUpdateFromReceiverApp(
builder.setPlaybackState(Player.STATE_IDLE).build());
receiverAppStateListener.onStateUpdateFromReceiverApp(
builder.setPlaybackState(Player.STATE_BUFFERING).build());
receiverAppStateListener.onStateUpdateFromReceiverApp(
builder.setPlaybackState(Player.STATE_READY).build());
receiverAppStateListener.onStateUpdateFromReceiverApp(
builder.setPlaybackState(Player.STATE_ENDED).build());
ArgumentCaptor<Integer> messageCaptor = ArgumentCaptor.forClass(Integer.class);
verify(playerEventListener, times(3))
.onPlayerStateChanged(/* playWhenReady= */ eq(false), messageCaptor.capture());
List<Integer> states = messageCaptor.getAllValues();
assertThat(states).hasSize(3);
assertThat(states)
.isEqualTo(Arrays.asList(Player.STATE_BUFFERING, Player.STATE_READY, Player.STATE_ENDED));
}
@Test
public void setPlayWhenReady_changedLocally_notifiesListeners() {
player.setPlayWhenReady(false);
verify(playerEventListener, never()).onPlayerStateChanged(false, Player.STATE_IDLE);
player.setPlayWhenReady(true);
verify(playerEventListener).onPlayerStateChanged(true, Player.STATE_IDLE);
player.setPlayWhenReady(false);
verify(playerEventListener).onPlayerStateChanged(false, Player.STATE_IDLE);
}
@Test
public void setPlayWhenReady_changedRemotely_notifiesListeners() {
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 0).setPlayWhenReady(true).build());
verify(playerEventListener)
.onPlayerStateChanged(/* playWhenReady= */ true, /* playbackState= */ Player.STATE_IDLE);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 0).setPlayWhenReady(true).build());
verifyNoMoreInteractions(playerEventListener);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 0).setPlayWhenReady(false).build());
verify(playerEventListener)
.onPlayerStateChanged(/* playWhenReady= */ false, /* playbackState= */ Player.STATE_IDLE);
verifyNoMoreInteractions(playerEventListener);
}
@Test
public void getPlayWhenReady_masksRemoteUpdates() {
when(sessionManager.send(any(ExoCastMessage.class))).thenReturn(3L);
player.setPlayWhenReady(true);
verify(playerEventListener)
.onPlayerStateChanged(/* playWhenReady= */ true, /* playbackState= */ Player.STATE_IDLE);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 2).setPlayWhenReady(false).build());
verifyNoMoreInteractions(playerEventListener);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 3).setPlayWhenReady(true).build());
verifyNoMoreInteractions(playerEventListener);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 3).setPlayWhenReady(false).build());
verify(playerEventListener)
.onPlayerStateChanged(/* playWhenReady= */ false, /* playbackState= */ Player.STATE_IDLE);
}
@Test
public void setRepeatMode_changedLocally_notifiesListeners() {
player.setRepeatMode(Player.REPEAT_MODE_OFF);
verifyNoMoreInteractions(playerEventListener);
player.setRepeatMode(Player.REPEAT_MODE_ONE);
verify(playerEventListener).onRepeatModeChanged(Player.REPEAT_MODE_ONE);
player.setRepeatMode(Player.REPEAT_MODE_ONE);
verifyNoMoreInteractions(playerEventListener);
}
@Test
public void setRepeatMode_changedRemotely_notifiesListeners() {
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 0)
.setRepeatMode(Player.REPEAT_MODE_ONE)
.build());
verify(playerEventListener).onRepeatModeChanged(Player.REPEAT_MODE_ONE);
assertThat(player.getRepeatMode()).isEqualTo(Player.REPEAT_MODE_ONE);
}
@Test
public void getRepeatMode_masksRemoteUpdates() {
when(sessionManager.send(any(ExoCastMessage.class))).thenReturn(3L);
player.setRepeatMode(Player.REPEAT_MODE_ALL);
assertThat(player.getRepeatMode()).isEqualTo(Player.REPEAT_MODE_ALL);
verify(playerEventListener).onRepeatModeChanged(Player.REPEAT_MODE_ALL);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 2)
.setRepeatMode(Player.REPEAT_MODE_ONE)
.build());
verifyNoMoreInteractions(playerEventListener);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 3)
.setRepeatMode(Player.REPEAT_MODE_ONE)
.build());
verify(playerEventListener).onRepeatModeChanged(Player.REPEAT_MODE_ONE);
}
@Test
public void getPlaybackPosition_withStateChanges_producesExpectedOutput() {
UUID uuid = toUuid(1);
HashMap<UUID, MediaItemInfo> mediaItemInfoMap = new HashMap<>();
MediaItemInfo.Period period1 = new MediaItemInfo.Period("id1", 1000L, 0);
MediaItemInfo.Period period2 = new MediaItemInfo.Period("id2", 1000L, 0);
MediaItemInfo.Period period3 = new MediaItemInfo.Period("id3", 1000L, 0);
mediaItemInfoMap.put(
uuid,
new MediaItemInfo(
/* windowDurationUs= */ 1000L,
/* defaultStartPositionUs= */ 10,
/* periods= */ Arrays.asList(period1, period2, period3),
/* positionInFirstPeriodUs= */ 500,
/* isSeekable= */ true,
/* isDynamic= */ false));
when(sessionManager.send(any(ExoCastMessage.class))).thenReturn(1L);
player.addItemsToQueue(itemBuilder.setUuid(uuid).build());
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1)
.setPlaybackState(Player.STATE_BUFFERING)
.setMediaItemsInformation(mediaItemInfoMap)
.setPlaybackPosition(uuid, "id2", /* currentPlaybackPositionMs= */ 1000L)
.build());
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPosition()).isEqualTo(1000L);
clock.advanceTime(/* timeDiffMs= */ 1L);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1)
.setPlaybackState(Player.STATE_READY)
.build());
// Play when ready is still false, so position should not change.
assertThat(player.getCurrentPosition()).isEqualTo(1000L);
player.setPlayWhenReady(true);
clock.advanceTime(1);
assertThat(player.getCurrentPosition()).isEqualTo(1001L);
clock.advanceTime(1);
assertThat(player.getCurrentPosition()).isEqualTo(1002L);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1)
.setPlaybackState(Player.STATE_BUFFERING)
.setMediaItemsInformation(mediaItemInfoMap)
.setPlaybackPosition(uuid, "id2", /* currentPlaybackPositionMs= */ 1010L)
.build());
clock.advanceTime(1);
assertThat(player.getCurrentPosition()).isEqualTo(1010L);
clock.advanceTime(1);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1)
.setPlaybackState(Player.STATE_READY)
.setMediaItemsInformation(mediaItemInfoMap)
.setPlaybackPosition(uuid, "id2", /* currentPlaybackPositionMs= */ 1011L)
.build());
clock.advanceTime(10);
assertThat(player.getCurrentPosition()).isEqualTo(1021L);
}
@Test
public void getPlaybackPosition_withNonDefaultPlaybackSpeed_producesExpectedOutput() {
MediaItem item = itemBuilder.setUuid(toUuid(1)).build();
MediaItemInfo info =
new MediaItemInfo(
/* windowDurationUs= */ 10000000,
/* defaultStartPositionUs= */ 3000000,
/* periods= */ Collections.singletonList(
new MediaItemInfo.Period(
/* id= */ "id", /* durationUs= */ 10000000, /* positionInWindowUs= */ 0)),
/* positionInFirstPeriodUs= */ 0,
/* isSeekable= */ true,
/* isDynamic= */ false);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1)
.setMediaItemsInformation(Collections.singletonMap(toUuid(1), info))
.setShuffleOrder(Collections.singletonList(0))
.setItems(Collections.singletonList(item))
.setPlaybackPosition(
toUuid(1), /* currentPlayingPeriodId= */ "id", /* currentPlaybackPositionMs= */ 20L)
.setPlaybackState(Player.STATE_READY)
.setPlayWhenReady(true)
.build());
assertThat(player.getCurrentPeriodIndex()).isEqualTo(0);
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPosition()).isEqualTo(20);
clock.advanceTime(10);
assertThat(player.getCurrentPosition()).isEqualTo(30);
clock.advanceTime(10);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(1)
.setPlaybackPosition(
toUuid(1), /* currentPlayingPeriodId= */ "id", /* currentPlaybackPositionMs= */ 40L)
.setPlaybackParameters(new PlaybackParameters(2))
.build());
clock.advanceTime(10);
assertThat(player.getCurrentPosition()).isEqualTo(60);
}
@Test
public void positionChanges_notifiesDiscontinuities() {
UUID uuid = toUuid(1);
HashMap<UUID, MediaItemInfo> mediaItemInfoMap = new HashMap<>();
MediaItemInfo.Period period1 = new MediaItemInfo.Period("id1", 1000L, 0);
MediaItemInfo.Period period2 = new MediaItemInfo.Period("id2", 1000L, 0);
MediaItemInfo.Period period3 = new MediaItemInfo.Period("id3", 1000L, 0);
mediaItemInfoMap.put(
uuid,
new MediaItemInfo(
/* windowDurationUs= */ 1000L,
/* defaultStartPositionUs= */ 10,
/* periods= */ Arrays.asList(period1, period2, period3),
/* positionInFirstPeriodUs= */ 500,
/* isSeekable= */ true,
/* isDynamic= */ false));
player.addItemsToQueue(itemBuilder.setUuid(uuid).build());
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 1)
.setPlaybackState(Player.STATE_BUFFERING)
.setMediaItemsInformation(mediaItemInfoMap)
.setPlaybackPosition(uuid, "id2", /* currentPlaybackPositionMs= */ 1000L)
.setDiscontinuityReason(Player.DISCONTINUITY_REASON_SEEK)
.build());
verify(playerEventListener).onPositionDiscontinuity(Player.DISCONTINUITY_REASON_SEEK);
player.seekTo(/* windowIndex= */ 0, /* positionMs= */ 999);
verify(playerEventListener, times(2)).onPositionDiscontinuity(Player.DISCONTINUITY_REASON_SEEK);
}
@Test
public void setShuffleModeEnabled_changedLocally_notifiesListeners() {
player.setShuffleModeEnabled(true);
verify(playerEventListener).onShuffleModeEnabledChanged(true);
player.setShuffleModeEnabled(true);
verifyNoMoreInteractions(playerEventListener);
}
@Test
public void setShuffleModeEnabled_changedRemotely_notifiesListeners() {
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 0)
.setShuffleModeEnabled(true)
.build());
verify(playerEventListener).onShuffleModeEnabledChanged(true);
assertThat(player.getShuffleModeEnabled()).isTrue();
}
@Test
public void getShuffleMode_masksRemoteUpdates() {
when(sessionManager.send(any(ExoCastMessage.class))).thenReturn(3L);
player.setShuffleModeEnabled(true);
assertThat(player.getShuffleModeEnabled()).isTrue();
verify(playerEventListener).onShuffleModeEnabledChanged(true);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 2)
.setShuffleModeEnabled(false)
.build());
verifyNoMoreInteractions(playerEventListener);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 3)
.setShuffleModeEnabled(false)
.build());
verify(playerEventListener).onShuffleModeEnabledChanged(false);
assertThat(player.getShuffleModeEnabled()).isFalse();
}
@Test
public void seekTo_inIdle_doesNotChangePlaybackState() {
player.prepare();
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_ENDED);
player.addItemsToQueue(itemBuilder.build(), itemBuilder.build());
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_ENDED);
player.seekTo(/* windowIndex= */ 0, /* positionMs= */ 0);
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_BUFFERING);
player.stop(false);
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_IDLE);
player.seekTo(/* windowIndex= */ 0, /* positionMs= */ 0);
assertThat(player.getPlaybackState()).isEqualTo(Player.STATE_IDLE);
}
@Test
public void seekTo_withTwoItems_producesExpectedMessage() {
player.prepare();
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
player.addItemsToQueue(item1, item2);
player.seekTo(/* windowIndex= */ 1, /* positionMs= */ 1000);
ArgumentCaptor<ExoCastMessage> messageCaptor = ArgumentCaptor.forClass(ExoCastMessage.class);
verify(sessionManager, times(3)).send(messageCaptor.capture());
// Messages should be prepare, add and seek.
ExoCastMessage.SeekTo seekToMessage =
(ExoCastMessage.SeekTo) messageCaptor.getAllValues().get(2);
assertThat(seekToMessage.positionMs).isEqualTo(1000);
assertThat(seekToMessage.uuid).isEqualTo(toUuid(2));
}
@Test
public void seekTo_masksRemoteUpdates() {
player.prepare();
when(sessionManager.send(any(ExoCastMessage.class))).thenReturn(3L);
MediaItem item1 = itemBuilder.setUuid(toUuid(1)).build();
MediaItem item2 = itemBuilder.setUuid(toUuid(2)).build();
player.addItemsToQueue(item1, item2);
player.seekTo(/* windowIndex= */ 1, /* positionMs= */ 1000L);
verify(playerEventListener).onPositionDiscontinuity(Player.DISCONTINUITY_REASON_SEEK);
verify(playerEventListener)
.onPlayerStateChanged(
/* playWhenReady= */ false, /* playbackState= */ Player.STATE_BUFFERING);
assertThat(player.getCurrentWindowIndex()).isEqualTo(1);
assertThat(player.getCurrentPosition()).isEqualTo(1000);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 2)
.setPlaybackPosition(toUuid(1), "id", 500L)
.build());
assertThat(player.getCurrentWindowIndex()).isEqualTo(1);
assertThat(player.getCurrentPosition()).isEqualTo(1000);
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 3)
.setPlaybackPosition(toUuid(1), "id", 500L)
.setDiscontinuityReason(Player.DISCONTINUITY_REASON_SEEK)
.build());
verify(playerEventListener, times(2)).onPositionDiscontinuity(Player.DISCONTINUITY_REASON_SEEK);
assertThat(player.getCurrentWindowIndex()).isEqualTo(0);
assertThat(player.getCurrentPosition()).isEqualTo(500);
}
@Test
public void setPlaybackParameters_producesExpectedMessage() {
PlaybackParameters playbackParameters =
new PlaybackParameters(/* speed= */ .5f, /* pitch= */ .25f, /* skipSilence= */ true);
player.setPlaybackParameters(playbackParameters);
ArgumentCaptor<ExoCastMessage> messageCaptor = ArgumentCaptor.forClass(ExoCastMessage.class);
verify(sessionManager).send(messageCaptor.capture());
ExoCastMessage.SetPlaybackParameters message =
(ExoCastMessage.SetPlaybackParameters) messageCaptor.getValue();
assertThat(message.playbackParameters).isEqualTo(playbackParameters);
}
@Test
public void getTrackSelectionParameters_doesNotOverrideUnexpectedFields() {
when(sessionManager.send(any(ExoCastMessage.class))).thenReturn(3L);
DefaultTrackSelector.Parameters parameters =
DefaultTrackSelector.Parameters.DEFAULT
.buildUpon()
.setPreferredAudioLanguage("spa")
.setMaxVideoSize(/* maxVideoWidth= */ 3, /* maxVideoHeight= */ 3)
.build();
player.setTrackSelectionParameters(parameters);
TrackSelectionParameters returned =
TrackSelectionParameters.DEFAULT.buildUpon().setPreferredAudioLanguage("deu").build();
receiverAppStateListener.onStateUpdateFromReceiverApp(
ReceiverAppStateUpdate.builder(/* sequenceNumber= */ 3)
.setTrackSelectionParameters(returned)
.build());
DefaultTrackSelector.Parameters result =
(DefaultTrackSelector.Parameters) player.getTrackSelectionParameters();
assertThat(result.preferredAudioLanguage).isEqualTo("deu");
assertThat(result.maxVideoHeight).isEqualTo(3);
assertThat(result.maxVideoWidth).isEqualTo(3);
}
@Test
public void testExoCast_getRendererType() {
assertThat(player.getRendererCount()).isEqualTo(4);
assertThat(player.getRendererType(/* index= */ 0)).isEqualTo(C.TRACK_TYPE_VIDEO);
assertThat(player.getRendererType(/* index= */ 1)).isEqualTo(C.TRACK_TYPE_AUDIO);
assertThat(player.getRendererType(/* index= */ 2)).isEqualTo(C.TRACK_TYPE_TEXT);
assertThat(player.getRendererType(/* index= */ 3)).isEqualTo(C.TRACK_TYPE_METADATA);
}
private static UUID toUuid(long lowerBits) {
return new UUID(0, lowerBits);
}
private void assertMediaItemQueue(MediaItem... mediaItemQueue) {
assertThat(player.getQueueSize()).isEqualTo(mediaItemQueue.length);
for (int i = 0; i < mediaItemQueue.length; i++) {
assertThat(player.getQueueItem(i).uuid).isEqualTo(mediaItemQueue[i].uuid);
}
}
private static void assertMessageAddsItems(
ExoCastMessage message, int index, List<MediaItem> mediaItems) throws JSONException {
assertThat(message.method).isEqualTo(ExoCastConstants.METHOD_ADD_ITEMS);
JSONObject args =
new JSONObject(message.toJsonString(MOCK_SEQUENCE_NUMBER)).getJSONObject(KEY_ARGS);
if (index != C.INDEX_UNSET) {
assertThat(args.getInt(KEY_INDEX)).isEqualTo(index);
} else {
assertThat(args.has(KEY_INDEX)).isFalse();
}
JSONArray itemsAsJson = args.getJSONArray(KEY_ITEMS);
assertThat(ReceiverAppStateUpdate.toMediaItemArrayList(itemsAsJson)).isEqualTo(mediaItems);
}
private static void assertMessageMovesItem(ExoCastMessage message, MediaItem item, int index)
throws JSONException {
assertThat(message.method).isEqualTo(ExoCastConstants.METHOD_MOVE_ITEM);
JSONObject args =
new JSONObject(message.toJsonString(MOCK_SEQUENCE_NUMBER)).getJSONObject(KEY_ARGS);
assertThat(args.getString(KEY_UUID)).isEqualTo(item.uuid.toString());
assertThat(args.getInt(KEY_INDEX)).isEqualTo(index);
}
private static void assertMessageRemovesItems(ExoCastMessage message, List<MediaItem> items)
throws JSONException {
assertThat(message.method).isEqualTo(ExoCastConstants.METHOD_REMOVE_ITEMS);
JSONObject args =
new JSONObject(message.toJsonString(MOCK_SEQUENCE_NUMBER)).getJSONObject(KEY_ARGS);
JSONArray uuidsAsJson = args.getJSONArray(KEY_UUIDS);
for (int i = 0; i < uuidsAsJson.length(); i++) {
assertThat(uuidsAsJson.getString(i)).isEqualTo(items.get(i).uuid.toString());
}
}
}
extensions/cast/src/test/java/com/google/android/exoplayer2/ext/cast/ExoCastTimelineTest.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import static com.google.common.truth.Truth.assertThat;
import androidx.test.ext.junit.runners.AndroidJUnit4;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.Timeline;
import com.google.android.exoplayer2.source.ShuffleOrder.DefaultShuffleOrder;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.UUID;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
/** Unit test for {@link ExoCastTimeline}. */
@RunWith(AndroidJUnit4.class)
public class ExoCastTimelineTest {
private MediaItem mediaItem1;
private MediaItem mediaItem2;
private MediaItem mediaItem3;
private MediaItem mediaItem4;
private MediaItem mediaItem5;
@Before
public void setUp() {
MediaItem.Builder builder = new MediaItem.Builder();
mediaItem1 = builder.setUuid(asUUID(1)).build();
mediaItem2 = builder.setUuid(asUUID(2)).build();
mediaItem3 = builder.setUuid(asUUID(3)).build();
mediaItem4 = builder.setUuid(asUUID(4)).build();
mediaItem5 = builder.setUuid(asUUID(5)).build();
}
@Test
public void getWindowCount_withNoItems_producesExpectedCount() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Collections.emptyList(), Collections.emptyMap(), new DefaultShuffleOrder(0));
assertThat(timeline.getWindowCount()).isEqualTo(0);
}
@Test
public void getWindowCount_withFiveItems_producesExpectedCount() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(5));
assertThat(timeline.getWindowCount()).isEqualTo(5);
}
@Test
public void getWindow_withNoMediaItemInfo_returnsEmptyWindow() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(5));
Timeline.Window window = timeline.getWindow(2, new Timeline.Window(), /* setTag= */ true);
assertThat(window.tag).isNull();
assertThat(window.presentationStartTimeMs).isEqualTo(C.TIME_UNSET);
assertThat(window.windowStartTimeMs).isEqualTo(C.TIME_UNSET);
assertThat(window.isSeekable).isFalse();
assertThat(window.isDynamic).isTrue();
assertThat(window.defaultPositionUs).isEqualTo(0L);
assertThat(window.durationUs).isEqualTo(C.TIME_UNSET);
assertThat(window.firstPeriodIndex).isEqualTo(2);
assertThat(window.lastPeriodIndex).isEqualTo(2);
assertThat(window.positionInFirstPeriodUs).isEqualTo(0L);
}
@Test
public void getWindow_withMediaItemInfo_returnsPopulatedWindow() {
MediaItem populatedMediaItem = new MediaItem.Builder().setAttachment("attachment").build();
HashMap<UUID, MediaItemInfo> mediaItemInfos = new HashMap<>();
MediaItemInfo.Period period1 =
new MediaItemInfo.Period("id1", /* durationUs= */ 1000000L, /* positionInWindowUs= */ 0L);
MediaItemInfo.Period period2 =
new MediaItemInfo.Period(
"id2", /* durationUs= */ 5000000L, /* positionInWindowUs= */ 1000000L);
mediaItemInfos.put(
populatedMediaItem.uuid,
new MediaItemInfo(
/* windowDurationUs= */ 4000000L,
/* defaultStartPositionUs= */ 20L,
Arrays.asList(period1, period2),
/* positionInFirstPeriodUs= */ 500L,
/* isSeekable= */ true,
/* isDynamic= */ false));
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, populatedMediaItem),
mediaItemInfos,
new DefaultShuffleOrder(5));
Timeline.Window window = timeline.getWindow(4, new Timeline.Window(), /* setTag= */ true);
assertThat(window.tag).isSameInstanceAs(populatedMediaItem.attachment);
assertThat(window.presentationStartTimeMs).isEqualTo(C.TIME_UNSET);
assertThat(window.windowStartTimeMs).isEqualTo(C.TIME_UNSET);
assertThat(window.isSeekable).isTrue();
assertThat(window.isDynamic).isFalse();
assertThat(window.defaultPositionUs).isEqualTo(20L);
assertThat(window.durationUs).isEqualTo(4000000L);
assertThat(window.firstPeriodIndex).isEqualTo(4);
assertThat(window.lastPeriodIndex).isEqualTo(5);
assertThat(window.positionInFirstPeriodUs).isEqualTo(500L);
}
@Test
public void getPeriodCount_producesExpectedOutput() {
HashMap<UUID, MediaItemInfo> mediaItemInfos = new HashMap<>();
MediaItemInfo.Period period1 =
new MediaItemInfo.Period(
"id1", /* durationUs= */ 5000000L, /* positionInWindowUs= */ 1000000L);
MediaItemInfo.Period period2 =
new MediaItemInfo.Period(
"id2", /* durationUs= */ 5000000L, /* positionInWindowUs= */ 6000000L);
mediaItemInfos.put(
asUUID(2),
new MediaItemInfo(
/* windowDurationUs= */ 7000000L,
/* defaultStartPositionUs= */ 20L,
Arrays.asList(period1, period2),
/* positionInFirstPeriodUs= */ 0L,
/* isSeekable= */ true,
/* isDynamic= */ false));
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
mediaItemInfos,
new DefaultShuffleOrder(5));
assertThat(timeline.getPeriodCount()).isEqualTo(6);
}
@Test
public void getPeriod_forPopulatedPeriod_producesExpectedOutput() {
HashMap<UUID, MediaItemInfo> mediaItemInfos = new HashMap<>();
MediaItemInfo.Period period1 =
new MediaItemInfo.Period(
"id1", /* durationUs= */ 4000000L, /* positionInWindowUs= */ 1000000L);
MediaItemInfo.Period period2 =
new MediaItemInfo.Period(
"id2", /* durationUs= */ 5000000L, /* positionInWindowUs= */ 6000000L);
mediaItemInfos.put(
asUUID(5),
new MediaItemInfo(
/* windowDurationUs= */ 7000000L,
/* defaultStartPositionUs= */ 20L,
Arrays.asList(period1, period2),
/* positionInFirstPeriodUs= */ 0L,
/* isSeekable= */ true,
/* isDynamic= */ false));
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
mediaItemInfos,
new DefaultShuffleOrder(5));
Timeline.Period period =
timeline.getPeriod(/* periodIndex= */ 5, new Timeline.Period(), /* setIds= */ true);
Object periodUid = timeline.getUidOfPeriod(/* periodIndex= */ 5);
assertThat(period.durationUs).isEqualTo(5000000L);
assertThat(period.windowIndex).isEqualTo(4);
assertThat(period.id).isEqualTo("id2");
assertThat(period.uid).isEqualTo(periodUid);
}
@Test
public void getPeriod_forEmptyPeriod_producesExpectedOutput() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(5));
Timeline.Period period = timeline.getPeriod(2, new Timeline.Period(), /* setIds= */ true);
Object uid = timeline.getUidOfPeriod(/* periodIndex= */ 2);
assertThat(period.durationUs).isEqualTo(C.TIME_UNSET);
assertThat(period.windowIndex).isEqualTo(2);
assertThat(period.id).isEqualTo(MediaItemInfo.EMPTY.periods.get(0).id);
assertThat(period.uid).isEqualTo(uid);
}
@Test
public void getIndexOfPeriod_worksAcrossDifferentTimelines() {
MediaItemInfo.Period period1 =
new MediaItemInfo.Period(
"id1", /* durationUs= */ 4000000L, /* positionInWindowUs= */ 1000000L);
MediaItemInfo.Period period2 =
new MediaItemInfo.Period(
"id2", /* durationUs= */ 5000000L, /* positionInWindowUs= */ 1000000L);
HashMap<UUID, MediaItemInfo> mediaItemInfos1 = new HashMap<>();
mediaItemInfos1.put(
asUUID(1),
new MediaItemInfo(
/* windowDurationUs= */ 5000000L,
/* defaultStartPositionUs= */ 20L,
Collections.singletonList(period2),
/* positionInFirstPeriodUs= */ 0L,
/* isSeekable= */ true,
/* isDynamic= */ false));
ExoCastTimeline timeline1 =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2), mediaItemInfos1, new DefaultShuffleOrder(2));
HashMap<UUID, MediaItemInfo> mediaItemInfos2 = new HashMap<>();
mediaItemInfos2.put(
asUUID(1),
new MediaItemInfo(
/* windowDurationUs= */ 7000000L,
/* defaultStartPositionUs= */ 20L,
Arrays.asList(period1, period2),
/* positionInFirstPeriodUs= */ 0L,
/* isSeekable= */ true,
/* isDynamic= */ false));
ExoCastTimeline timeline2 =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem2, mediaItem1, mediaItem3, mediaItem4, mediaItem5),
mediaItemInfos2,
new DefaultShuffleOrder(5));
Object uidOfFirstPeriod = timeline1.getUidOfPeriod(0);
assertThat(timeline1.getIndexOfPeriod(uidOfFirstPeriod)).isEqualTo(0);
assertThat(timeline2.getIndexOfPeriod(uidOfFirstPeriod)).isEqualTo(2);
}
@Test
public void getIndexOfPeriod_forLastPeriod_producesExpectedOutput() {
MediaItemInfo.Period period1 =
new MediaItemInfo.Period(
"id1", /* durationUs= */ 4000000L, /* positionInWindowUs= */ 1000000L);
MediaItemInfo.Period period2 =
new MediaItemInfo.Period(
"id2", /* durationUs= */ 5000000L, /* positionInWindowUs= */ 1000000L);
HashMap<UUID, MediaItemInfo> mediaItemInfos1 = new HashMap<>();
mediaItemInfos1.put(
asUUID(5),
new MediaItemInfo(
/* windowDurationUs= */ 4000000L,
/* defaultStartPositionUs= */ 20L,
Collections.singletonList(period2),
/* positionInFirstPeriodUs= */ 0L,
/* isSeekable= */ true,
/* isDynamic= */ false));
ExoCastTimeline singlePeriodTimeline =
ExoCastTimeline.createTimelineFor(
Collections.singletonList(mediaItem5), mediaItemInfos1, new DefaultShuffleOrder(1));
Object periodUid = singlePeriodTimeline.getUidOfPeriod(0);
HashMap<UUID, MediaItemInfo> mediaItemInfos2 = new HashMap<>();
mediaItemInfos2.put(
asUUID(5),
new MediaItemInfo(
/* windowDurationUs= */ 7000000L,
/* defaultStartPositionUs= */ 20L,
Arrays.asList(period1, period2),
/* positionInFirstPeriodUs= */ 0L,
/* isSeekable= */ true,
/* isDynamic= */ false));
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
mediaItemInfos2,
new DefaultShuffleOrder(5));
assertThat(timeline.getIndexOfPeriod(periodUid)).isEqualTo(5);
}
@Test
public void getUidOfPeriod_withInvalidUid_returnsUnsetIndex() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(/* length= */ 5));
assertThat(timeline.getIndexOfPeriod(new Object())).isEqualTo(C.INDEX_UNSET);
}
@Test
public void getFirstWindowIndex_returnsIndexAccordingToShuffleMode() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(new int[] {1, 2, 0, 4, 3}, /* randomSeed= */ 0));
assertThat(timeline.getFirstWindowIndex(/* shuffleModeEnabled= */ false)).isEqualTo(0);
assertThat(timeline.getFirstWindowIndex(/* shuffleModeEnabled= */ true)).isEqualTo(1);
}
@Test
public void getLastWindowIndex_returnsIndexAccordingToShuffleMode() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(new int[] {1, 2, 0, 4, 3}, /* randomSeed= */ 0));
assertThat(timeline.getLastWindowIndex(/* shuffleModeEnabled= */ false)).isEqualTo(4);
assertThat(timeline.getLastWindowIndex(/* shuffleModeEnabled= */ true)).isEqualTo(3);
}
@Test
public void getNextWindowIndex_repeatModeOne_returnsSameIndex() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(5));
for (int i = 0; i < 5; i++) {
assertThat(
timeline.getNextWindowIndex(
i, Player.REPEAT_MODE_ONE, /* shuffleModeEnabled= */ true))
.isEqualTo(i);
assertThat(
timeline.getNextWindowIndex(
i, Player.REPEAT_MODE_ONE, /* shuffleModeEnabled= */ false))
.isEqualTo(i);
}
}
@Test
public void getNextWindowIndex_onLastIndex_returnsExpectedIndex() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(new int[] {1, 2, 0, 4, 3}, /* randomSeed= */ 0));
// Shuffle mode disabled:
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 4, Player.REPEAT_MODE_OFF, /* shuffleModeEnabled= */ false))
.isEqualTo(C.INDEX_UNSET);
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 4, Player.REPEAT_MODE_ALL, /* shuffleModeEnabled= */ false))
.isEqualTo(0);
// Shuffle mode enabled:
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 3, Player.REPEAT_MODE_OFF, /* shuffleModeEnabled= */ true))
.isEqualTo(C.INDEX_UNSET);
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 3, Player.REPEAT_MODE_ALL, /* shuffleModeEnabled= */ true))
.isEqualTo(1);
}
@Test
public void getNextWindowIndex_inMiddleOfQueue_returnsNextIndex() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(new int[] {1, 2, 0, 4, 3}, /* randomSeed= */ 0));
// Shuffle mode disabled:
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 2, Player.REPEAT_MODE_OFF, /* shuffleModeEnabled= */ false))
.isEqualTo(3);
// Shuffle mode enabled:
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 2, Player.REPEAT_MODE_OFF, /* shuffleModeEnabled= */ true))
.isEqualTo(0);
}
@Test
public void getPreviousWindowIndex_repeatModeOne_returnsSameIndex() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(new int[] {1, 2, 0, 4, 3}, /* randomSeed= */ 0));
for (int i = 0; i < 5; i++) {
assertThat(
timeline.getPreviousWindowIndex(
/* windowIndex= */ i, Player.REPEAT_MODE_ONE, /* shuffleModeEnabled= */ true))
.isEqualTo(i);
assertThat(
timeline.getPreviousWindowIndex(
/* windowIndex= */ i, Player.REPEAT_MODE_ONE, /* shuffleModeEnabled= */ false))
.isEqualTo(i);
}
}
@Test
public void getPreviousWindowIndex_onFirstIndex_returnsExpectedIndex() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(new int[] {1, 2, 0, 4, 3}, /* randomSeed= */ 0));
// Shuffle mode disabled:
assertThat(
timeline.getPreviousWindowIndex(
/* windowIndex= */ 0, Player.REPEAT_MODE_OFF, /* shuffleModeEnabled= */ false))
.isEqualTo(C.INDEX_UNSET);
assertThat(
timeline.getPreviousWindowIndex(
/* windowIndex= */ 0, Player.REPEAT_MODE_ALL, /* shuffleModeEnabled= */ false))
.isEqualTo(4);
// Shuffle mode enabled:
assertThat(
timeline.getPreviousWindowIndex(
/* windowIndex= */ 1, Player.REPEAT_MODE_OFF, /* shuffleModeEnabled= */ true))
.isEqualTo(C.INDEX_UNSET);
assertThat(
timeline.getPreviousWindowIndex(
/* windowIndex= */ 1, Player.REPEAT_MODE_ALL, /* shuffleModeEnabled= */ true))
.isEqualTo(3);
}
@Test
public void getPreviousWindowIndex_inMiddleOfQueue_returnsPreviousIndex() {
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(mediaItem1, mediaItem2, mediaItem3, mediaItem4, mediaItem5),
Collections.emptyMap(),
new DefaultShuffleOrder(new int[] {1, 2, 0, 4, 3}, /* randomSeed= */ 0));
assertThat(
timeline.getPreviousWindowIndex(
/* windowIndex= */ 4, Player.REPEAT_MODE_ALL, /* shuffleModeEnabled= */ false))
.isEqualTo(3);
assertThat(
timeline.getPreviousWindowIndex(
/* windowIndex= */ 4, Player.REPEAT_MODE_OFF, /* shuffleModeEnabled= */ true))
.isEqualTo(0);
}
private static UUID asUUID(long number) {
return new UUID(/* mostSigBits= */ 0L, number);
}
}
extensions/cast/src/test/java/com/google/android/exoplayer2/ext/cast/ReceiverAppStateUpdateTest.java deleted 100644 → 0
/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed 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.
*/
package com.google.android.exoplayer2.ext.cast;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DEFAULT_START_POSITION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DISCONTINUITY_REASON;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_DURATION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ERROR_MESSAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_ID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_IS_DYNAMIC;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_IS_LOADING;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_IS_SEEKABLE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MEDIA_ITEMS_INFO;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_MEDIA_QUEUE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PERIODS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PERIOD_ID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PITCH;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAYBACK_PARAMETERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAYBACK_POSITION;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAYBACK_STATE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PLAY_WHEN_READY;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_POSITION_IN_FIRST_PERIOD_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_POSITION_MS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PREFERRED_AUDIO_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_PREFERRED_TEXT_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_REPEAT_MODE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SEQUENCE_NUMBER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SHUFFLE_MODE_ENABLED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SHUFFLE_ORDER;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SKIP_SILENCE;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_SPEED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_TRACK_SELECTION_PARAMETERS;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_UUID;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.KEY_WINDOW_DURATION_US;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_DISCONTINUITY_REASON_SEEK;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_REPEAT_MODE_OFF;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_SELECTION_FLAG_FORCED;
import static com.google.android.exoplayer2.ext.cast.ExoCastConstants.STR_STATE_BUFFERING;
import static com.google.common.truth.Truth.assertThat;
import android.net.Uri;
import androidx.test.ext.junit.runners.AndroidJUnit4;
import com.google.android.exoplayer2.C;
import com.google.android.exoplayer2.PlaybackParameters;
import com.google.android.exoplayer2.Player;
import com.google.android.exoplayer2.Timeline;
import com.google.android.exoplayer2.source.ShuffleOrder;
import com.google.android.exoplayer2.trackselection.TrackSelectionParameters;
import com.google.android.exoplayer2.util.Util;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.UUID;
import org.json.JSONArray;
import org.json.JSONException;
import org.json.JSONObject;
import org.junit.Test;
import org.junit.runner.RunWith;
/** Unit tests for {@link ReceiverAppStateUpdate}. */
@RunWith(AndroidJUnit4.class)
public class ReceiverAppStateUpdateTest {
private static final long MOCK_SEQUENCE_NUMBER = 1;
@Test
public void statusUpdate_withPlayWhenReady_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER).setPlayWhenReady(true).build();
JSONObject stateMessage = createStateMessage().put(KEY_PLAY_WHEN_READY, true);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withPlaybackState_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER)
.setPlaybackState(Player.STATE_BUFFERING)
.build();
JSONObject stateMessage = createStateMessage().put(KEY_PLAYBACK_STATE, STR_STATE_BUFFERING);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withMediaQueue_producesExpectedUpdate() throws JSONException {
HashMap<String, String> requestHeaders = new HashMap<>();
requestHeaders.put("key", "value");
MediaItem.UriBundle media = new MediaItem.UriBundle(Uri.parse("www.media.com"), requestHeaders);
MediaItem.DrmScheme drmScheme1 =
new MediaItem.DrmScheme(
C.WIDEVINE_UUID,
new MediaItem.UriBundle(Uri.parse("www.widevine.com"), requestHeaders));
MediaItem.DrmScheme drmScheme2 =
new MediaItem.DrmScheme(
C.PLAYREADY_UUID,
new MediaItem.UriBundle(Uri.parse("www.playready.com"), requestHeaders));
MediaItem item =
new MediaItem.Builder()
.setTitle("title")
.setDescription("description")
.setMedia(media)
.setDrmSchemes(Arrays.asList(drmScheme1, drmScheme2))
.setStartPositionUs(10)
.setEndPositionUs(20)
.build();
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER)
.setItems(Collections.singletonList(item))
.build();
JSONObject object =
createStateMessage()
.put(KEY_MEDIA_QUEUE, new JSONArray().put(ExoCastMessage.mediaItemAsJsonObject(item)));
assertThat(ReceiverAppStateUpdate.fromJsonMessage(object.toString())).isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withRepeatMode_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER)
.setRepeatMode(Player.REPEAT_MODE_OFF)
.build();
JSONObject stateMessage = createStateMessage().put(KEY_REPEAT_MODE, STR_REPEAT_MODE_OFF);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withShuffleModeEnabled_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER).setShuffleModeEnabled(false).build();
JSONObject stateMessage = createStateMessage().put(KEY_SHUFFLE_MODE_ENABLED, false);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withIsLoading_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER).setIsLoading(true).build();
JSONObject stateMessage = createStateMessage().put(KEY_IS_LOADING, true);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withPlaybackParameters_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER)
.setPlaybackParameters(
new PlaybackParameters(
/* speed= */ .5f, /* pitch= */ .25f, /* skipSilence= */ false))
.build();
JSONObject playbackParamsJson =
new JSONObject().put(KEY_SPEED, .5).put(KEY_PITCH, .25).put(KEY_SKIP_SILENCE, false);
JSONObject stateMessage = createStateMessage().put(KEY_PLAYBACK_PARAMETERS, playbackParamsJson);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withTrackSelectionParameters_producesExpectedUpdate()
throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER)
.setTrackSelectionParameters(
TrackSelectionParameters.DEFAULT
.buildUpon()
.setDisabledTextTrackSelectionFlags(
C.SELECTION_FLAG_FORCED | C.SELECTION_FLAG_DEFAULT)
.setPreferredAudioLanguage("esp")
.setPreferredTextLanguage("deu")
.setSelectUndeterminedTextLanguage(true)
.build())
.build();
JSONArray selectionFlagsJson =
new JSONArray()
.put(ExoCastConstants.STR_SELECTION_FLAG_DEFAULT)
.put(STR_SELECTION_FLAG_FORCED);
JSONObject playbackParamsJson =
new JSONObject()
.put(KEY_DISABLED_TEXT_TRACK_SELECTION_FLAGS, selectionFlagsJson)
.put(KEY_PREFERRED_AUDIO_LANGUAGE, "esp")
.put(KEY_PREFERRED_TEXT_LANGUAGE, "deu")
.put(KEY_SELECT_UNDETERMINED_TEXT_LANGUAGE, true);
JSONObject object =
createStateMessage().put(KEY_TRACK_SELECTION_PARAMETERS, playbackParamsJson);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(object.toString())).isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withError_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER)
.setErrorMessage("error message")
.build();
JSONObject stateMessage = createStateMessage().put(KEY_ERROR_MESSAGE, "error message");
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withPlaybackPosition_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER)
.setPlaybackPosition(
new UUID(/* mostSigBits= */ 0, /* leastSigBits= */ 1), "period", 10L)
.build();
JSONObject positionJson =
new JSONObject()
.put(KEY_UUID, new UUID(0, 1))
.put(KEY_POSITION_MS, 10)
.put(KEY_PERIOD_ID, "period");
JSONObject stateMessage = createStateMessage().put(KEY_PLAYBACK_POSITION, positionJson);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withDiscontinuity_producesExpectedUpdate() throws JSONException {
ReceiverAppStateUpdate stateUpdate =
ReceiverAppStateUpdate.builder(MOCK_SEQUENCE_NUMBER)
.setPlaybackPosition(
new UUID(/* mostSigBits= */ 0, /* leastSigBits= */ 1), "period", 10L)
.setDiscontinuityReason(Player.DISCONTINUITY_REASON_SEEK)
.build();
JSONObject positionJson =
new JSONObject()
.put(KEY_UUID, new UUID(0, 1))
.put(KEY_POSITION_MS, 10)
.put(KEY_PERIOD_ID, "period")
.put(KEY_DISCONTINUITY_REASON, STR_DISCONTINUITY_REASON_SEEK);
JSONObject stateMessage = createStateMessage().put(KEY_PLAYBACK_POSITION, positionJson);
assertThat(ReceiverAppStateUpdate.fromJsonMessage(stateMessage.toString()))
.isEqualTo(stateUpdate);
}
@Test
public void statusUpdate_withMediaItemInfo_producesExpectedTimeline() throws JSONException {
MediaItem.Builder builder = new MediaItem.Builder();
MediaItem item1 = builder.setUuid(new UUID(0, 1)).build();
MediaItem item2 = builder.setUuid(new UUID(0, 2)).build();
JSONArray periodsJson = new JSONArray();
periodsJson
.put(new JSONObject().put(KEY_ID, "id1").put(KEY_DURATION_US, 5000000L))
.put(new JSONObject().put(KEY_ID, "id2").put(KEY_DURATION_US, 7000000L))
.put(new JSONObject().put(KEY_ID, "id3").put(KEY_DURATION_US, 6000000L));
JSONObject mediaItemInfoForUuid1 = new JSONObject();
mediaItemInfoForUuid1
.put(KEY_WINDOW_DURATION_US, 10000000L)
.put(KEY_DEFAULT_START_POSITION_US, 1000000L)
.put(KEY_PERIODS, periodsJson)
.put(KEY_POSITION_IN_FIRST_PERIOD_US, 2000000L)
.put(KEY_IS_DYNAMIC, false)
.put(KEY_IS_SEEKABLE, true);
JSONObject mediaItemInfoMapJson =
new JSONObject().put(new UUID(0, 1).toString(), mediaItemInfoForUuid1);
JSONObject receiverAppStateUpdateJson =
createStateMessage().put(KEY_MEDIA_ITEMS_INFO, mediaItemInfoMapJson);
ReceiverAppStateUpdate receiverAppStateUpdate =
ReceiverAppStateUpdate.fromJsonMessage(receiverAppStateUpdateJson.toString());
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
Arrays.asList(item1, item2),
receiverAppStateUpdate.mediaItemsInformation,
new ShuffleOrder.DefaultShuffleOrder(
/* shuffledIndices= */ new int[] {1, 0}, /* randomSeed= */ 0));
Timeline.Window window0 =
timeline.getWindow(/* windowIndex= */ 0, new Timeline.Window(), /* setTag= */ true);
Timeline.Window window1 =
timeline.getWindow(/* windowIndex= */ 1, new Timeline.Window(), /* setTag= */ true);
Timeline.Period[] periods = new Timeline.Period[4];
for (int i = 0; i < 4; i++) {
periods[i] =
timeline.getPeriod(/* periodIndex= */ i, new Timeline.Period(), /* setIds= */ true);
}
assertThat(timeline.getWindowCount()).isEqualTo(2);
assertThat(window0.positionInFirstPeriodUs).isEqualTo(2000000L);
assertThat(window0.durationUs).isEqualTo(10000000L);
assertThat(window0.isDynamic).isFalse();
assertThat(window0.isSeekable).isTrue();
assertThat(window0.defaultPositionUs).isEqualTo(1000000L);
assertThat(window1.positionInFirstPeriodUs).isEqualTo(0L);
assertThat(window1.durationUs).isEqualTo(C.TIME_UNSET);
assertThat(window1.isDynamic).isTrue();
assertThat(window1.isSeekable).isFalse();
assertThat(window1.defaultPositionUs).isEqualTo(0L);
assertThat(timeline.getPeriodCount()).isEqualTo(4);
assertThat(periods[0].id).isEqualTo("id1");
assertThat(periods[0].getPositionInWindowUs()).isEqualTo(-2000000L);
assertThat(periods[0].durationUs).isEqualTo(5000000L);
assertThat(periods[1].id).isEqualTo("id2");
assertThat(periods[1].durationUs).isEqualTo(7000000L);
assertThat(periods[1].getPositionInWindowUs()).isEqualTo(3000000L);
assertThat(periods[2].id).isEqualTo("id3");
assertThat(periods[2].durationUs).isEqualTo(6000000L);
assertThat(periods[2].getPositionInWindowUs()).isEqualTo(10000000L);
assertThat(periods[3].durationUs).isEqualTo(C.TIME_UNSET);
}
@Test
public void statusUpdate_withShuffleOrder_producesExpectedTimeline() throws JSONException {
MediaItem.Builder builder = new MediaItem.Builder();
JSONObject receiverAppStateUpdateJson =
createStateMessage().put(KEY_SHUFFLE_ORDER, new JSONArray(Arrays.asList(2, 3, 1, 0)));
ReceiverAppStateUpdate receiverAppStateUpdate =
ReceiverAppStateUpdate.fromJsonMessage(receiverAppStateUpdateJson.toString());
ExoCastTimeline timeline =
ExoCastTimeline.createTimelineFor(
/* mediaItems= */ Arrays.asList(
builder.build(), builder.build(), builder.build(), builder.build()),
/* mediaItemInfoMap= */ Collections.emptyMap(),
/* shuffleOrder= */ new ShuffleOrder.DefaultShuffleOrder(
Util.toArray(receiverAppStateUpdate.shuffleOrder), /* randomSeed= */ 0));
assertThat(timeline.getFirstWindowIndex(/* shuffleModeEnabled= */ true)).isEqualTo(2);
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 2,
/* repeatMode= */ Player.REPEAT_MODE_OFF,
/* shuffleModeEnabled= */ true))
.isEqualTo(3);
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 3,
/* repeatMode= */ Player.REPEAT_MODE_OFF,
/* shuffleModeEnabled= */ true))
.isEqualTo(1);
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 1,
/* repeatMode= */ Player.REPEAT_MODE_OFF,
/* shuffleModeEnabled= */ true))
.isEqualTo(0);
assertThat(
timeline.getNextWindowIndex(
/* windowIndex= */ 0,
/* repeatMode= */ Player.REPEAT_MODE_OFF,
/* shuffleModeEnabled= */ true))
.isEqualTo(C.INDEX_UNSET);
}
private static JSONObject createStateMessage() throws JSONException {
return new JSONObject().put(KEY_SEQUENCE_NUMBER, MOCK_SEQUENCE_NUMBER);
}
}
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or sign in to comment