import QUnit from 'qunit'; import videojs from 'video.js'; import { useFakeEnvironment, useFakeMediaSource, createPlayer, standardXHRResponse, openMediaSource } from './test-helpers.js'; import manifests from './test-manifests.js'; import { MasterPlaylistController, mimeTypesForPlaylist_, mapLegacyAvcCodecs_ } from '../src/master-playlist-controller'; /* eslint-disable no-unused-vars */ // we need this so that it can register hls with videojs import { Hls } from '../src/videojs-contrib-hls'; /* eslint-enable no-unused-vars */ import Playlist from '../src/playlist'; import Config from '../src/config'; const generateMedia = function(isMaat, isMuxed, hasVideoCodec, hasAudioCodec, isFMP4) { const codec = (hasVideoCodec ? 'avc1.deadbeef' : '') + (hasVideoCodec && hasAudioCodec ? ',' : '') + (hasAudioCodec ? 'mp4a.40.E' : ''); const master = { mediaGroups: {}, playlists: [] }; const media = { attributes: {} }; if (isMaat) { master.mediaGroups.AUDIO = { test: { demuxed: { uri: 'foo.bar' } } }; if (isMuxed) { master.mediaGroups.AUDIO.test.muxed = {}; } media.attributes.AUDIO = 'test'; } if (isFMP4) { // This is not a great way to signal that the playlist is fmp4 but // this is how we currently detect it in HLS so let's emulate it here media.segments = [ { map: 'test' } ]; } if (hasVideoCodec || hasAudioCodec) { media.attributes.CODECS = codec; } return [master, media]; }; QUnit.module('MasterPlaylistController', { beforeEach(assert) { this.env = useFakeEnvironment(assert); this.clock = this.env.clock; this.requests = this.env.requests; this.mse = useFakeMediaSource(); // force the HLS tech to run this.origSupportsNativeHls = videojs.Hls.supportsNativeHls; videojs.Hls.supportsNativeHls = false; this.oldBrowser = videojs.browser; videojs.browser = videojs.mergeOptions({}, videojs.browser); this.player = createPlayer(); this.player.src({ src: 'manifest/master.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.standardXHRResponse = (request, data) => { standardXHRResponse(request, data); // Because SegmentLoader#fillBuffer_ is now scheduled asynchronously // we have to use clock.tick to get the expected side effects of // SegmentLoader#handleUpdateEnd_ this.clock.tick(1); }; this.masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; // Make segment metadata noop since most test segments dont have real data this.masterPlaylistController.mainSegmentLoader_.addSegmentMetadataCue_ = () => {}; }, afterEach() { this.env.restore(); this.mse.restore(); videojs.Hls.supportsNativeHls = this.origSupportsNativeHls; videojs.browser = this.oldBrowser; this.player.dispose(); } }); QUnit.test('throws error when given an empty URL', function(assert) { let options = { url: 'test', tech: this.player.tech_ }; assert.ok(new MasterPlaylistController(options), 'can create with options'); options.url = ''; assert.throws(() => { new MasterPlaylistController(options); // eslint-disable-line no-new }, /A non-empty playlist URL is required/, 'requires a non empty url'); }); QUnit.test('obeys none preload option', function(assert) { this.player.preload('none'); // master this.standardXHRResponse(this.requests.shift()); // playlist this.standardXHRResponse(this.requests.shift()); openMediaSource(this.player, this.clock); assert.equal(this.requests.length, 0, 'no segment requests'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 4194304, 'default bandwidth'); }); QUnit.test('passes options to PlaylistLoader', function(assert) { const options = { url: 'test', tech: this.player.tech_ }; let controller = new MasterPlaylistController(options); assert.notOk(controller.masterPlaylistLoader_.withCredentials, 'credentials wont be sent by default'); assert.notOk(controller.masterPlaylistLoader_.handleManifestRedirects, 'redirects are ignored by default'); controller = new MasterPlaylistController(Object.assign({ withCredentials: true, handleManifestRedirects: true }, options)); assert.ok(controller.masterPlaylistLoader_.withCredentials, 'withCredentials enabled'); assert.ok(controller.masterPlaylistLoader_.handleManifestRedirects, 'handleManifestRedirects enabled'); }); QUnit.test('obeys auto preload option', function(assert) { this.player.preload('auto'); // master this.standardXHRResponse(this.requests.shift()); // playlist this.standardXHRResponse(this.requests.shift()); openMediaSource(this.player, this.clock); assert.equal(this.requests.length, 1, '1 segment request'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 4194304, 'default bandwidth'); }); QUnit.test('obeys metadata preload option', function(assert) { this.player.preload('metadata'); // master this.standardXHRResponse(this.requests.shift()); // playlist this.standardXHRResponse(this.requests.shift()); openMediaSource(this.player, this.clock); assert.equal(this.requests.length, 1, '1 segment request'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 4194304, 'default bandwidth'); }); QUnit.test('resets SegmentLoader when seeking in flash for both in and out of buffer', function(assert) { let resets = 0; // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); this.masterPlaylistController.mediaSource.trigger('sourceopen'); let mpc = this.masterPlaylistController; let segmentLoader = mpc.mainSegmentLoader_; segmentLoader.resetEverything = function() { resets++; }; let buffered; mpc.tech_.buffered = function() { return buffered; }; buffered = videojs.createTimeRanges([[0, 20]]); mpc.mode_ = 'html5'; mpc.setCurrentTime(10); assert.equal(resets, 0, 'does not reset loader when seeking into a buffered region in html5'); mpc.setCurrentTime(21); assert.equal(resets, 1, 'does reset loader when seeking outside of the buffered region in html5'); mpc.mode_ = 'flash'; mpc.setCurrentTime(10); assert.equal(resets, 2, 'does reset loader when seeking into a buffered region in flash'); mpc.setCurrentTime(21); assert.equal(resets, 3, 'does reset loader when seeking outside of the buffered region in flash'); }); QUnit.test('selects lowest bitrate rendition when enableLowInitialPlaylist is set', function(assert) { // Set requests.length to 0, otherwise it will use the requests generated in the // beforeEach function this.requests.length = 0; this.player = createPlayer({ html5: { hls: { enableLowInitialPlaylist: true } } }); this.player.src({ src: 'manifest/master.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; let numCallsToSelectInitialPlaylistCalls = 0; let numCallsToSelectPlaylist = 0; this.masterPlaylistController.selectPlaylist = () => { numCallsToSelectPlaylist++; return this.masterPlaylistController.master().playlists[0]; }; this.masterPlaylistController.selectInitialPlaylist = () => { numCallsToSelectInitialPlaylistCalls++; return this.masterPlaylistController.master().playlists[0]; }; this.masterPlaylistController.mediaSource.trigger('sourceopen'); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); this.clock.tick(1); assert.equal(numCallsToSelectInitialPlaylistCalls, 1, 'selectInitialPlaylist'); assert.equal(numCallsToSelectPlaylist, 0, 'selectPlaylist'); // Simulate a live reload this.masterPlaylistController.masterPlaylistLoader_.trigger('loadedplaylist'); assert.equal(numCallsToSelectInitialPlaylistCalls, 1, 'selectInitialPlaylist'); assert.equal(numCallsToSelectPlaylist, 0, 'selectPlaylist'); }); QUnit.test('resyncs SegmentLoader for a fast quality change', function(assert) { let resyncs = 0; this.masterPlaylistController.mediaSource.trigger('sourceopen'); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); let segmentLoader = this.masterPlaylistController.mainSegmentLoader_; segmentLoader.resyncLoader = function() { resyncs++; }; this.masterPlaylistController.selectPlaylist = () => { return this.masterPlaylistController.master().playlists[0]; }; this.masterPlaylistController.fastQualityChange_(); assert.equal(resyncs, 1, 'resynced the segmentLoader'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 4194304, 'default bandwidth'); }); QUnit.test('does not resync the segmentLoader when no fast quality change occurs', function(assert) { let resyncs = 0; // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); this.masterPlaylistController.mediaSource.trigger('sourceopen'); let segmentLoader = this.masterPlaylistController.mainSegmentLoader_; segmentLoader.resyncLoader = function() { resyncs++; }; this.masterPlaylistController.fastQualityChange_(); assert.equal(resyncs, 0, 'did not resync the segmentLoader'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 4194304, 'default bandwidth'); }); QUnit.test('fast quality change resyncs audio segment loader', function(assert) { this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'alternate-audio-multiple-groups.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); const masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; masterPlaylistController.selectPlaylist = () => { return masterPlaylistController.master().playlists[0]; }; // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); masterPlaylistController.mediaSource.trigger('sourceopen'); this.player.audioTracks()[0].enabled = true; let resyncs = 0; let resets = 0; let realReset = masterPlaylistController.audioSegmentLoader_.resetLoader; masterPlaylistController.audioSegmentLoader_.resetLoader = function() { resets++; realReset.call(this); }; masterPlaylistController.audioSegmentLoader_.resyncLoader = () => resyncs++; masterPlaylistController.fastQualityChange_(); assert.equal(resyncs, 0, 'does not resync the audio segment loader when media same'); // force different media masterPlaylistController.selectPlaylist = () => { return masterPlaylistController.master().playlists[1]; }; assert.equal(this.requests.length, 1, 'one request'); masterPlaylistController.fastQualityChange_(); assert.equal(this.requests.length, 2, 'added a request for new media'); assert.equal(resyncs, 0, 'does not resync the audio segment loader yet'); // new media request this.standardXHRResponse(this.requests[1]); assert.equal(resyncs, 1, 'resyncs the audio segment loader when media changes'); assert.equal(resets, 0, 'does not reset the audio segment loader when media changes'); }); QUnit.test('audio segment loader is reset on audio track change', function(assert) { this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'alternate-audio-multiple-groups.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); const masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; masterPlaylistController.selectPlaylist = () => { return masterPlaylistController.master().playlists[0]; }; // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); masterPlaylistController.mediaSource.trigger('sourceopen'); let resyncs = 0; let resets = 0; let realReset = masterPlaylistController.audioSegmentLoader_.resetLoader; masterPlaylistController.audioSegmentLoader_.resetLoader = function() { resets++; realReset.call(this); }; masterPlaylistController.audioSegmentLoader_.resyncLoader = () => resyncs++; assert.equal(this.requests.length, 1, 'one request'); assert.equal(resyncs, 0, 'does not resync the audio segment loader yet'); this.player.audioTracks()[1].enabled = true; assert.equal(this.requests.length, 2, 'two requests'); assert.equal(resyncs, 1, 'resyncs the audio segment loader when audio track changes'); assert.equal(resets, 1, 'resets the audio segment loader when audio track changes'); }); QUnit.test('if buffered, will request second segment byte range', function(assert) { this.requests.length = 0; this.player.src({ src: 'manifest/playlist.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; // Make segment metadata noop since most test segments dont have real data this.masterPlaylistController.mainSegmentLoader_.addSegmentMetadataCue_ = () => {}; // mock that the user has played the video before this.player.tech_.triggerReady(); this.clock.tick(1); this.player.tech_.trigger('play'); this.player.tech_.paused_ = false; this.player.tech_.played = () => videojs.createTimeRanges([[0, 20]]); openMediaSource(this.player, this.clock); // playlist this.standardXHRResponse(this.requests[0]); this.masterPlaylistController.mainSegmentLoader_.sourceUpdater_.buffered = () => { return videojs.createTimeRanges([[0, 20]]); }; // 1ms has passed to upload 1kb // that gives us a bandwidth of 1024 / 1 * 8 * 1000 = 8192000 this.clock.tick(1); // segment this.standardXHRResponse(this.requests[1]); this.masterPlaylistController.mainSegmentLoader_.fetchAtBuffer_ = true; this.masterPlaylistController.mediaSource.sourceBuffers[0].trigger('updateend'); this.clock.tick(10 * 1000); this.clock.tick(1); assert.equal(this.requests[2].headers.Range, 'bytes=522828-1110327'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 8192000, 'Live stream'); assert.equal(this.player.tech_.hls.stats.mediaRequests, 1, '1 segment request'); assert.equal(this.player.tech_.hls.stats.mediaBytesTransferred, 1024, '1024 bytes downloaded'); }); QUnit.test('re-initializes the combined playlist loader when switching sources', function(assert) { openMediaSource(this.player, this.clock); // master this.standardXHRResponse(this.requests.shift()); // playlist this.standardXHRResponse(this.requests.shift()); // segment this.standardXHRResponse(this.requests.shift()); // change the source this.player.src({ src: 'manifest/master.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; // Make segment metadata noop since most test segments dont have real data this.masterPlaylistController.mainSegmentLoader_.addSegmentMetadataCue_ = () => {}; // maybe not needed if https://github.com/videojs/video.js/issues/2326 gets fixed this.clock.tick(1); assert.ok(!this.masterPlaylistController.masterPlaylistLoader_.media(), 'no media playlist'); assert.equal(this.masterPlaylistController.masterPlaylistLoader_.state, 'HAVE_NOTHING', 'reset the playlist loader state'); assert.equal(this.requests.length, 1, 'requested the new src'); // buffer check this.clock.tick(10 * 1000); assert.equal(this.requests.length, 1, 'did not request a stale segment'); // sourceopen openMediaSource(this.player, this.clock); assert.equal(this.requests.length, 1, 'made one request'); assert.ok( this.requests[0].url.indexOf('master.m3u8') >= 0, 'requested only the new playlist' ); }); QUnit.test('updates the combined segment loader on live playlist refreshes', function(assert) { let updates = []; openMediaSource(this.player, this.clock); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); this.masterPlaylistController.mainSegmentLoader_.playlist = function(update) { updates.push(update); }; this.masterPlaylistController.masterPlaylistLoader_.trigger('loadedplaylist'); assert.equal(updates.length, 1, 'updated the segment list'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 4194304, 'default bandwidth'); }); QUnit.test( 'fires a progress event after downloading a segment from combined segment loader', function(assert) { let progressCount = 0; openMediaSource(this.player, this.clock); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); this.player.tech_.on('progress', function() { progressCount++; }); // 1ms has passed to upload 1kb // that gives us a bandwidth of 1024 / 1 * 8 * 1000 = 8192000 this.clock.tick(1); // segment this.standardXHRResponse(this.requests.shift()); this.masterPlaylistController.mainSegmentLoader_.trigger('progress'); assert.equal(progressCount, 1, 'fired a progress event'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 8192000, 'Live stream'); assert.equal(this.player.tech_.hls.stats.mediaRequests, 1, '1 segment request'); assert.equal(this.player.tech_.hls.stats.mediaBytesTransferred, 1024, '1024 bytes downloaded'); }); QUnit.test('updates the active loader when switching from unmuxed to muxed audio group', function(assert) { openMediaSource(this.player, this.clock); // master this.requests.shift().respond(200, null, manifests.multipleAudioGroupsCombinedMain); // media this.standardXHRResponse(this.requests.shift()); // init segment this.standardXHRResponse(this.requests.shift()); // video segment this.standardXHRResponse(this.requests.shift()); // audio media this.standardXHRResponse(this.requests.shift()); // ignore audio segment requests this.requests.length = 0; let mpc = this.masterPlaylistController; let combinedPlaylist = mpc.master().playlists[0]; assert.ok(mpc.mediaTypes_.AUDIO.activePlaylistLoader, 'starts with an active playlist loader'); mpc.masterPlaylistLoader_.media(combinedPlaylist); // updated media this.requests.shift().respond(200, null, '#EXTM3U\n' + '#EXTINF:5.0\n' + '0.ts\n' + '#EXT-X-ENDLIST\n'); assert.notOk(mpc.mediaTypes_.AUDIO.activePlaylistLoader, 'enabled a track in the new audio group'); }); QUnit.test('waits for both main and audio loaders to finish before calling endOfStream', function(assert) { openMediaSource(this.player, this.clock); const videoMedia = '#EXTM3U\n' + '#EXT-X-VERSION:3\n' + '#EXT-X-PLAYLIST-TYPE:VOD\n' + '#EXT-X-MEDIA-SEQUENCE:0\n' + '#EXT-X-TARGETDURATION:10\n' + '#EXTINF:10,\n' + 'video-0.ts\n' + '#EXT-X-ENDLIST\n'; const audioMedia = '#EXTM3U\n' + '#EXT-X-VERSION:3\n' + '#EXT-X-PLAYLIST-TYPE:VOD\n' + '#EXT-X-MEDIA-SEQUENCE:0\n' + '#EXT-X-TARGETDURATION:10\n' + '#EXTINF:10,\n' + 'audio-0.ts\n' + '#EXT-X-ENDLIST\n'; let videoEnded = 0; let audioEnded = 0; const MPC = this.masterPlaylistController; MPC.mainSegmentLoader_.on('ended', () => videoEnded++); MPC.audioSegmentLoader_.on('ended', () => audioEnded++); // master this.standardXHRResponse(this.requests.shift(), manifests.demuxed); // video media this.standardXHRResponse(this.requests.shift(), videoMedia); // audio media this.standardXHRResponse(this.requests.shift(), audioMedia); // video segment this.standardXHRResponse(this.requests.shift()); MPC.mediaSource.sourceBuffers[0].trigger('updateend'); assert.equal(videoEnded, 1, 'main segment loader triggered endded'); assert.equal(audioEnded, 0, 'audio segment loader did not trigger ended'); assert.equal(MPC.mediaSource.readyState, 'open', 'Media Source not yet ended'); // audio segment this.standardXHRResponse(this.requests.shift()); MPC.mediaSource.sourceBuffers[1].trigger('updateend'); assert.equal(videoEnded, 1, 'main segment loader did not trigger ended again'); assert.equal(audioEnded, 1, 'audio segment loader triggered ended'); assert.equal(MPC.mediaSource.readyState, 'ended', 'Media Source ended'); }); QUnit.test('Segment loaders are unpaused when seeking after player has ended', function(assert) { openMediaSource(this.player, this.clock); const videoMedia = '#EXTM3U\n' + '#EXT-X-VERSION:3\n' + '#EXT-X-PLAYLIST-TYPE:VOD\n' + '#EXT-X-MEDIA-SEQUENCE:0\n' + '#EXT-X-TARGETDURATION:10\n' + '#EXTINF:10,\n' + 'video-0.ts\n' + '#EXT-X-ENDLIST\n'; let ended = 0; this.masterPlaylistController.mainSegmentLoader_.on('ended', () => ended++); this.player.tech_.trigger('play'); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift(), videoMedia); // segment this.standardXHRResponse(this.requests.shift()); assert.notOk(this.masterPlaylistController.mainSegmentLoader_.paused(), 'segment loader not yet paused'); this.masterPlaylistController.mediaSource.sourceBuffers[0].trigger('updateend'); assert.ok(this.masterPlaylistController.mainSegmentLoader_.paused(), 'segment loader is paused after ending'); assert.equal(ended, 1, 'segment loader triggered ended event'); this.player.currentTime(5); this.clock.tick(1); assert.notOk(this.masterPlaylistController.mainSegmentLoader_.paused(), 'segment loader unpaused after a seek'); assert.equal(ended, 1, 'segment loader did not trigger ended event again yet'); }); QUnit.test('detects if the player is stuck at the playlist end', function(assert) { let playlistCopy = Hls.Playlist.playlistEnd; this.masterPlaylistController.mediaSource.trigger('sourceopen'); this.standardXHRResponse(this.requests.shift()); let playlist = this.player.tech_.hls.selectPlaylist(); // not stuck at playlist end when no seekable, even if empty buffer // and positive currentTime this.masterPlaylistController.seekable = () => videojs.createTimeRange(); this.player.tech_.buffered = () => videojs.createTimeRange(); this.player.tech_.setCurrentTime(170); assert.ok(!this.masterPlaylistController.stuckAtPlaylistEnd_(playlist), 'not stuck at playlist end'); // not stuck at playlist end when no seekable, even if empty buffer // and currentTime 0 this.player.tech_.setCurrentTime(0); assert.ok(!this.masterPlaylistController.stuckAtPlaylistEnd_(playlist), 'not stuck at playlist end'); // not stuck at playlist end when no seekable but current time is at // the end of the buffered range this.player.tech_.buffered = () => videojs.createTimeRange(0, 170); assert.ok(!this.masterPlaylistController.stuckAtPlaylistEnd_(playlist), 'not stuck at playlist end'); // not stuck at playlist end when currentTime not at seekable end // even if the buffer is empty this.masterPlaylistController.seekable = () => videojs.createTimeRange(0, 130); this.masterPlaylistController.syncController_.getExpiredTime = () => 0; this.player.tech_.setCurrentTime(50); this.player.tech_.buffered = () => videojs.createTimeRange(); Hls.Playlist.playlistEnd = () => 130; assert.ok(!this.masterPlaylistController.stuckAtPlaylistEnd_(playlist), 'not stuck at playlist end'); // not stuck at playlist end when buffer reached the absolute end of the playlist // and current time is in the buffered range this.player.tech_.setCurrentTime(159); this.player.tech_.buffered = () => videojs.createTimeRange(0, 160); Hls.Playlist.playlistEnd = () => 160; assert.ok(!this.masterPlaylistController.stuckAtPlaylistEnd_(playlist), 'not stuck at playlist end'); // stuck at playlist end when there is no buffer and playhead // reached absolute end of playlist this.player.tech_.setCurrentTime(160); assert.ok(this.masterPlaylistController.stuckAtPlaylistEnd_(playlist), 'stuck at playlist end'); // stuck at playlist end when current time reached the buffer end // and buffer has reached absolute end of playlist this.masterPlaylistController.seekable = () => videojs.createTimeRange(90, 130); this.player.tech_.buffered = () => videojs.createTimeRange(0, 170); this.player.tech_.setCurrentTime(170); Hls.Playlist.playlistEnd = () => 170; assert.ok(this.masterPlaylistController.stuckAtPlaylistEnd_(playlist), 'stuck at playlist end'); Hls.Playlist.playlistEnd = playlistCopy; }); QUnit.test('blacklists switching from video+audio playlists to audio only', function(assert) { let audioPlaylist; openMediaSource(this.player, this.clock); this.player.tech_.hls.bandwidth = 1e10; // master this.requests.shift().respond(200, null, '#EXTM3U\n' + '#EXT-X-STREAM-INF:BANDWIDTH=1,CODECS="mp4a.40.2"\n' + 'media.m3u8\n' + '#EXT-X-STREAM-INF:BANDWIDTH=10,RESOLUTION=1x1\n' + 'media1.m3u8\n'); // media1 this.standardXHRResponse(this.requests.shift()); assert.equal(this.masterPlaylistController.masterPlaylistLoader_.media(), this.masterPlaylistController.masterPlaylistLoader_.master.playlists[1], 'selected video+audio'); audioPlaylist = this.masterPlaylistController.masterPlaylistLoader_.master.playlists[0]; assert.equal(audioPlaylist.excludeUntil, Infinity, 'excluded incompatible playlist'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 1e10, 'bandwidth we set above'); }); QUnit.test('blacklists switching from audio-only playlists to video+audio', function(assert) { let videoAudioPlaylist; openMediaSource(this.player, this.clock); this.player.tech_.hls.bandwidth = 1; // master this.requests.shift().respond(200, null, '#EXTM3U\n' + '#EXT-X-STREAM-INF:BANDWIDTH=1,CODECS="mp4a.40.2"\n' + 'media.m3u8\n' + '#EXT-X-STREAM-INF:BANDWIDTH=10,RESOLUTION=1x1\n' + 'media1.m3u8\n'); // media1 this.standardXHRResponse(this.requests.shift()); assert.equal(this.masterPlaylistController.masterPlaylistLoader_.media(), this.masterPlaylistController.masterPlaylistLoader_.master.playlists[0], 'selected audio only'); videoAudioPlaylist = this.masterPlaylistController.masterPlaylistLoader_.master.playlists[1]; assert.equal(videoAudioPlaylist.excludeUntil, Infinity, 'excluded incompatible playlist'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 1, 'bandwidth we set above'); }); QUnit.test('blacklists switching from video-only playlists to video+audio', function(assert) { let videoAudioPlaylist; openMediaSource(this.player, this.clock); this.player.tech_.hls.bandwidth = 1; // master this.requests.shift() .respond(200, null, '#EXTM3U\n' + '#EXT-X-STREAM-INF:BANDWIDTH=1,CODECS="avc1.4d400d"\n' + 'media.m3u8\n' + '#EXT-X-STREAM-INF:BANDWIDTH=10,CODECS="avc1.4d400d,mp4a.40.2"\n' + 'media1.m3u8\n'); // media this.standardXHRResponse(this.requests.shift()); assert.equal(this.masterPlaylistController.masterPlaylistLoader_.media(), this.masterPlaylistController.masterPlaylistLoader_.master.playlists[0], 'selected video only'); videoAudioPlaylist = this.masterPlaylistController.masterPlaylistLoader_.master.playlists[1]; assert.equal(videoAudioPlaylist.excludeUntil, Infinity, 'excluded incompatible playlist'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 1, 'bandwidth we set above'); }); QUnit.test('blacklists switching between playlists with incompatible audio codecs', function(assert) { let alternatePlaylist; openMediaSource(this.player, this.clock); this.player.tech_.hls.bandwidth = 1; // master this.requests.shift() .respond(200, null, '#EXTM3U\n' + '#EXT-X-STREAM-INF:BANDWIDTH=1,CODECS="avc1.4d400d,mp4a.40.5"\n' + 'media.m3u8\n' + '#EXT-X-STREAM-INF:BANDWIDTH=10,CODECS="avc1.4d400d,mp4a.40.2"\n' + 'media1.m3u8\n'); // media this.standardXHRResponse(this.requests.shift()); assert.equal(this.masterPlaylistController.masterPlaylistLoader_.media(), this.masterPlaylistController.masterPlaylistLoader_.master.playlists[0], 'selected HE-AAC stream'); alternatePlaylist = this.masterPlaylistController.masterPlaylistLoader_.master.playlists[1]; assert.equal(alternatePlaylist.excludeUntil, undefined, 'not excluded incompatible playlist'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 1, 'bandwidth we set above'); }); QUnit.test('updates the combined segment loader on media changes', function(assert) { let updates = []; this.masterPlaylistController.mediaSource.trigger('sourceopen'); this.masterPlaylistController.mainSegmentLoader_.bandwidth = 1; // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); this.masterPlaylistController.mainSegmentLoader_.playlist = function(update) { updates.push(update); }; // 1ms has passed to upload 1kb // that gives us a bandwidth of 1024 / 1 * 8 * 1000 = 8192000 this.clock.tick(1); this.masterPlaylistController.mainSegmentLoader_.mediaIndex = 0; // downloading the new segment will update bandwidth and cause a // playlist change // segment 0 this.standardXHRResponse(this.requests.shift()); // update the buffer to reflect the appended segment, and have enough buffer to // change playlist this.masterPlaylistController.tech_.buffered = () => { return videojs.createTimeRanges([[0, 30]]); }; this.masterPlaylistController.mediaSource.sourceBuffers[0].trigger('updateend'); // media this.standardXHRResponse(this.requests.shift()); assert.ok(updates.length > 0, 'updated the segment list'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 8192000, 'Live stream'); assert.equal(this.player.tech_.hls.stats.mediaRequests, 1, '1 segment request'); assert.equal(this.player.tech_.hls.stats.mediaBytesTransferred, 1024, '1024 bytes downloaded'); }); QUnit.test('selects a playlist after main/combined segment downloads', function(assert) { let calls = 0; this.masterPlaylistController.selectPlaylist = () => { calls++; return this.masterPlaylistController.masterPlaylistLoader_.master.playlists[0]; }; this.masterPlaylistController.mediaSource.trigger('sourceopen'); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); // "downloaded" a segment this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.strictEqual(calls, 2, 'selects after the initial segment'); // and another this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.strictEqual(calls, 3, 'selects after additional segments'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 4194304, 'default bandwidth'); }); QUnit.test('re-triggers bandwidthupdate events on the tech', function(assert) { this.masterPlaylistController.mediaSource.trigger('sourceopen'); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); let bandwidthupdateEvents = 0; this.player.tech_.on('bandwidthupdate', () => bandwidthupdateEvents++); this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(bandwidthupdateEvents, 1, 'triggered bandwidthupdate'); this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(bandwidthupdateEvents, 2, 'triggered bandwidthupdate'); }); QUnit.test('switches to lower renditions immediately, higher dependent on buffer', function(assert) { this.masterPlaylistController.mediaSource.trigger('sourceopen'); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); let buffered = []; let currentPlaylistBandwidth = 0; let nextPlaylistBandwidth = 0; let mediaChanges = []; let currentTime = 0; let endList = true; let duration = 100; this.masterPlaylistController.tech_.currentTime = () => currentTime; this.masterPlaylistController.tech_.buffered = () => videojs.createTimeRanges(buffered); this.masterPlaylistController.duration = () => duration; this.masterPlaylistController.selectPlaylist = () => { return { attributes: { BANDWIDTH: nextPlaylistBandwidth }, endList }; }; this.masterPlaylistController.masterPlaylistLoader_.media = (media) => { if (!media) { return { attributes: { BANDWIDTH: currentPlaylistBandwidth }, endList }; } mediaChanges.push(media); }; currentTime = 0; currentPlaylistBandwidth = 1000; nextPlaylistBandwidth = 1000; buffered = []; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 1, 'changes media when no buffer and equal bandwidth playlist'); buffered = [[0, 9]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 2, 'changes media when sufficient forward buffer and equal ' + 'bandwidth playlist'); buffered = [[0, 30]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 3, 'changes media when sufficient forward buffer and equal ' + 'bandwidth playlist'); mediaChanges.length = 0; currentTime = 10; currentPlaylistBandwidth = 1000; nextPlaylistBandwidth = 1001; buffered = []; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 0, 'did not change media when no buffer and and higher bandwidth playlist'); buffered = [[0, 19]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 0, 'did not change media when insufficient forward buffer and higher ' + 'bandwidth playlist'); buffered = [[0, 20]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 1, 'changes media when sufficient forward buffer and higher ' + 'bandwidth playlist'); buffered = [[0, 21]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 2, 'changes media when sufficient forward buffer and higher ' + 'bandwidth playlist'); mediaChanges.length = 0; currentTime = 100; currentPlaylistBandwidth = 1000; nextPlaylistBandwidth = 1001; buffered = []; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 0, 'did not change media when no buffer and higher bandwidth playlist'); buffered = [[0, 100], [100, 109]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 0, 'did not change media when insufficient forward buffer and higher ' + 'bandwidth playlist'); buffered = [[0, 100], [100, 130]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 1, 'changes media when sufficient forward buffer and higher ' + 'bandwidth playlist'); mediaChanges.length = 0; buffered = []; currentPlaylistBandwidth = 1000; nextPlaylistBandwidth = 999; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 1, 'changes media when no buffer but lower bandwidth playlist'); buffered = [[100, 109]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 2, 'changes media when insufficient forward buffer but lower ' + 'bandwidth playlist'); buffered = [[100, 110]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 3, 'changes media when sufficient forward buffer and lower ' + 'bandwidth playlist'); mediaChanges.length = 0; endList = false; currentTime = 100; currentPlaylistBandwidth = 1000; nextPlaylistBandwidth = 1001; buffered = []; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 1, 'changes live media when no buffer and higher bandwidth playlist'); buffered = [[0, 100], [100, 109]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 2, 'changes live media when insufficient forward buffer and higher ' + 'bandwidth playlist'); buffered = [[0, 100], [100, 130]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 3, 'changes live media when sufficient forward buffer and higher ' + 'bandwidth playlist'); mediaChanges.length = 0; endList = true; currentTime = 9; duration = 18; buffered = []; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 1, 'changes media when no buffer and duration less than low water line'); buffered = [[0, 10]]; this.masterPlaylistController.mainSegmentLoader_.trigger('bandwidthupdate'); assert.equal(mediaChanges.length, 2, 'changes media when insufficient forward buffer and duration ' + 'less than low water line'); }); QUnit.test('blacklists playlist on earlyabort', function(assert) { this.masterPlaylistController.mediaSource.trigger('sourceopen'); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); let mediaChanges = []; const playlistLoader = this.masterPlaylistController.masterPlaylistLoader_; const currentMedia = playlistLoader.media(); const origMedia = playlistLoader.media.bind(playlistLoader); const origWarn = videojs.log.warn; let warnings = []; this.masterPlaylistController.masterPlaylistLoader_.media = (media) => { if (media) { mediaChanges.push(media); } return origMedia(media); }; videojs.log.warn = (text) => warnings.push(text); assert.notOk(currentMedia.excludeUntil > 0, 'playlist not blacklisted'); assert.equal(mediaChanges.length, 0, 'no media change'); this.masterPlaylistController.mainSegmentLoader_.trigger('earlyabort'); assert.ok(currentMedia.excludeUntil > 0, 'playlist blacklisted'); assert.equal(mediaChanges.length, 1, 'one media change'); assert.equal(warnings.length, 1, 'one warning logged'); assert.equal(warnings[0], 'Problem encountered with the current HLS playlist. ' + 'Aborted early because there isn\'t enough bandwidth to complete the ' + 'request without rebuffering. Switching to another playlist.', 'warning message is correct'); videojs.log.warn = origWarn; }); QUnit.test('does not get stuck in a loop due to inconsistent network/caching', function(assert) { /* * This test is a long one, but it is meant to follow a true path to a possible loop. * The reason for the loop is due to inconsistent network bandwidth, often caused or * amplified by caching at the browser or edge server level. * The steps are as follows: * * 1) Request segment 0 from low bandwidth playlist * 2) Request segment 1 from low bandwidth playlist * 3) Switch up due to good bandwidth (2 segments are required before upswitching) * 4) Request segment 0 from high bandwidth playlist * 5) Abort request early due to low bandwidth * 6) Request segment 0 from low bandwidth playlist * 7) Request segment 1 from low bandwidth playlist * 8) Request segment 2 from low bandwidth playlist, despite enough bandwidth to * upswitch. This part is the key, as the behavior we want to avoid is an upswitch * back to the high bandwidth playlist (thus starting a potentially infinite loop). */ const mediaContents = '#EXTM3U\n' + '#EXTINF:10\n' + '0.ts\n' + '#EXTINF:10\n' + '1.ts\n' + '#EXTINF:10\n' + '2.ts\n' + '#EXTINF:10\n' + '3.ts\n' + '#EXT-X-ENDLIST\n'; const segmentLoader = this.masterPlaylistController.mainSegmentLoader_; // start on lowest bandwidth rendition (will be media.m3u8) segmentLoader.bandwidth = 0; this.player.tech_.paused = () => false; this.masterPlaylistController.mediaSource.trigger('sourceopen'); // master this.requests.shift().respond(200, null, '#EXTM3U\n' + '#EXT-X-STREAM-INF:BANDWIDTH=10\n' + 'media.m3u8\n' + '#EXT-X-STREAM-INF:BANDWIDTH=100\n' + 'media1.m3u8\n'); // media.m3u8 this.requests.shift().respond(200, null, mediaContents); let playlistLoader = this.masterPlaylistController.masterPlaylistLoader_; let origMedia = playlistLoader.media.bind(playlistLoader); let mediaChanges = []; this.masterPlaylistController.masterPlaylistLoader_.media = (media) => { if (media) { mediaChanges.push(media); } return origMedia(media); }; this.clock.tick(1); let segmentRequest = this.requests[0]; assert.equal(segmentRequest.uri.substring(segmentRequest.uri.length - 4), '0.ts', 'requested first segment'); // 100ms for the segment response this.clock.tick(100); // 10 bytes in 100ms = 800 bits/s this.requests[0].response = new Uint8Array(10).buffer; this.requests.shift().respond(200, null, ''); segmentLoader.mediaSource_.sourceBuffers[0].trigger('updateend'); this.clock.tick(1); segmentRequest = this.requests[0]; // should be walking forwards (need two segments before we can switch) assert.equal(segmentLoader.bandwidth, 800, 'bandwidth is correct'); assert.equal(segmentRequest.uri.substring(segmentRequest.uri.length - 4), '1.ts', 'requested second segment'); assert.equal(mediaChanges.length, 0, 'no media changes'); // 100ms for the segment response this.clock.tick(100); // 11 bytes in 100ms = 880 bits/s this.requests[0].response = new Uint8Array(11).buffer; this.requests.shift().respond(200, null, ''); segmentLoader.mediaSource_.sourceBuffers[0].trigger('updateend'); this.clock.tick(1); let mediaRequest = this.requests[0]; // after two segments, bandwidth is high enough to switch up to media1.m3u8 assert.equal(segmentLoader.bandwidth, 880, 'bandwidth is correct'); assert.equal(mediaChanges.length, 1, 'changed media'); assert.equal(mediaChanges[0].uri, 'media1.m3u8', 'changed to media1'); assert.equal(mediaRequest.uri.substring(mediaRequest.uri.length - 'media1.m3u8'.length), 'media1.m3u8', 'requested media1'); // media1.m3u8 this.requests.shift().respond(200, null, mediaContents); this.clock.tick(1); segmentRequest = this.requests[0]; assert.equal(segmentLoader.playlist_.uri, 'media1.m3u8', 'segment loader playlist is media1'); const media1ResolvedPlaylist = segmentLoader.playlist_; assert.notOk(media1ResolvedPlaylist.excludeUntil, 'media1 not blacklisted'); assert.equal(segmentRequest.uri.substring(segmentRequest.uri.length - 4), '0.ts', 'requested first segment'); // needs a timeout for early abort to occur (we skip the function otherwise, since no // timeout means we are on the last rendition) segmentLoader.xhrOptions_.timeout = 60000; // we need to wait 1 second from first byte receieved in order to consider aborting this.requests[0].downloadProgress({ target: this.requests[0], total: 100, loaded: 1 }); this.clock.tick(1000); // should abort request early because we don't have enough bandwidth this.requests[0].downloadProgress({ target: this.requests[0], total: 100, // 1 bit per second loaded: 2 }); this.clock.tick(1); // aborted request, so switched back to lowest rendition assert.equal(segmentLoader.bandwidth, 10 * Config.BANDWIDTH_VARIANCE + 1, 'bandwidth is correct for abort'); assert.equal(mediaChanges.length, 2, 'changed media'); assert.equal(mediaChanges[1].uri, 'media.m3u8', 'changed to media'); assert.ok(media1ResolvedPlaylist.excludeUntil, 'blacklisted media1'); assert.equal(segmentRequest.uri.substring(segmentRequest.uri.length - 4), '0.ts', 'requested first segment'); // remove aborted request this.requests.shift(); // 1ms for the cached segment response this.clock.tick(1); // 10 bytes in 1ms = 80 kbps this.requests[0].response = new Uint8Array(10).buffer; this.requests.shift().respond(200, null, ''); segmentLoader.mediaSource_.sourceBuffers[0].trigger('updateend'); this.clock.tick(1); segmentRequest = this.requests[0]; // walking forwards, still need two segments before trying to change rendition assert.equal(segmentLoader.bandwidth, 80000, 'bandwidth is correct'); assert.equal(mediaChanges.length, 2, 'did not change media'); assert.equal(segmentRequest.uri.substring(segmentRequest.uri.length - 4), '1.ts', 'requested second segment'); // 1ms for the cached segment response this.clock.tick(1); // 11 bytes in 1ms = 88 kbps this.requests[0].response = new Uint8Array(11).buffer; this.requests.shift().respond(200, null, ''); segmentLoader.mediaSource_.sourceBuffers[0].trigger('updateend'); this.clock.tick(1); // Media may be changed, but it should be changed to the same media. In the future, this // can safely not be changed. assert.equal(segmentLoader.bandwidth, 88000, 'bandwidth is correct'); assert.equal(mediaChanges.length, 3, 'changed media'); assert.equal(mediaChanges[2].uri, 'media.m3u8', 'media remains unchanged'); segmentRequest = this.requests[0]; assert.equal(segmentRequest.uri.substring(segmentRequest.uri.length - 4), '2.ts', 'requested third segment'); assert.equal(this.env.log.warn.callCount, 1, 'logged a warning'); this.env.log.warn.callCount = 0; }); QUnit.test('updates the duration after switching playlists', function(assert) { let selectedPlaylist = false; this.masterPlaylistController.mediaSource.trigger('sourceopen'); this.masterPlaylistController.bandwidth = 1e20; // master this.standardXHRResponse(this.requests[0]); // media this.standardXHRResponse(this.requests[1]); this.masterPlaylistController.selectPlaylist = () => { selectedPlaylist = true; // this duration should be overwritten by the playlist change this.masterPlaylistController.mediaSource.duration = 0; this.masterPlaylistController.mediaSource.readyState = 'open'; return this.masterPlaylistController.masterPlaylistLoader_.master.playlists[1]; }; // 1ms has passed to upload 1kb // that gives us a bandwidth of 1024 / 1 * 8 * 1000 = 8192000 this.clock.tick(1); this.masterPlaylistController.mainSegmentLoader_.mediaIndex = 0; // segment 0 this.standardXHRResponse(this.requests[2]); this.masterPlaylistController.mediaSource.sourceBuffers[0].trigger('updateend'); // media1 this.standardXHRResponse(this.requests[3]); assert.ok(selectedPlaylist, 'selected playlist'); assert.ok(this.masterPlaylistController.mediaSource.duration !== 0, 'updates the duration'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 8192000, 'Live stream'); assert.equal(this.player.tech_.hls.stats.mediaRequests, 1, '1 segment request'); assert.equal(this.player.tech_.hls.stats.mediaBytesTransferred, 1024, '1024 bytes downloaded'); }); QUnit.test('playlist selection uses systemBandwidth', function(assert) { this.masterPlaylistController.mediaSource.trigger('sourceopen'); this.player.width(1000); this.player.height(900); // master this.standardXHRResponse(this.requests[0]); // media this.standardXHRResponse(this.requests[1]); assert.ok(/media3\.m3u8/i.test(this.requests[1].url), 'Selected the highest rendition'); // 1ms has passed to upload 1kb // that gives us a bandwidth of 1024 / 1 * 8 * 1000 = 8192000 this.clock.tick(1); this.masterPlaylistController.mainSegmentLoader_.mediaIndex = 0; // segment 0 this.standardXHRResponse(this.requests[2]); // 20ms have passed to upload 1kb // that gives us a throughput of 1024 / 20 * 8 * 1000 = 409600 this.clock.tick(20); this.masterPlaylistController.mediaSource.sourceBuffers[0].trigger('updateend'); // systemBandwidth is 1 / (1 / 8192000 + 1 / 409600) = ~390095 // media1 this.standardXHRResponse(this.requests[3]); assert.ok(/media\.m3u8/i.test(this.requests[3].url), 'Selected the rendition < 390095'); assert.ok(this.masterPlaylistController.mediaSource.duration !== 0, 'updates the duration'); // verify stats assert.equal(this.player.tech_.hls.stats.bandwidth, 8192000, 'Live stream'); assert.equal(this.player.tech_.hls.stats.mediaRequests, 1, '1 segment request'); assert.equal(this.player.tech_.hls.stats.mediaBytesTransferred, 1024, '1024 bytes downloaded'); }); QUnit.test('removes request timeout when segment timesout on lowest rendition', function(assert) { this.masterPlaylistController.mediaSource.trigger('sourceopen'); // master this.standardXHRResponse(this.requests[0]); // media this.standardXHRResponse(this.requests[1]); assert.equal(this.masterPlaylistController.requestOptions_.timeout, this.masterPlaylistController.masterPlaylistLoader_.targetDuration * 1.5 * 1000, 'default request timeout'); assert.ok(!Playlist.isLowestEnabledRendition( this.masterPlaylistController.masterPlaylistLoader_.master, this.masterPlaylistController.masterPlaylistLoader_.media()), 'not on lowest rendition'); // Cause segment to timeout to force player into lowest rendition this.requests[2].timedout = true; // Downloading segment should cause media change and timeout removal // segment 0 this.standardXHRResponse(this.requests[2]); // Download new segment after media change this.standardXHRResponse(this.requests[3]); assert.ok(Playlist.isLowestEnabledRendition( this.masterPlaylistController.masterPlaylistLoader_.master, this.masterPlaylistController.masterPlaylistLoader_.media()), 'on lowest rendition'); assert.equal(this.masterPlaylistController.requestOptions_.timeout, 0, 'request timeout 0'); }); QUnit.test('removes request timeout when the source is a media playlist and not master', function(assert) { this.requests.length = 0; this.player.src({ src: 'manifest/media.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; // media this.standardXHRResponse(this.requests.shift()); assert.equal(this.masterPlaylistController.requestOptions_.timeout, 0, 'request timeout set to 0 when loading a non master playlist'); }); QUnit.test('seekable uses the intersection of alternate audio and combined tracks', function(assert) { let origSeekable = Playlist.seekable; let mpc = this.masterPlaylistController; let mainMedia = {}; let audioMedia = {}; let mainTimeRanges = []; let audioTimeRanges = []; let assertTimeRangesEqual = (left, right, message) => { if (left.length === 0 && right.length === 0) { return; } assert.equal(left.length, 1, message); assert.equal(right.length, 1, message); assert.equal(left.start(0), right.start(0), message); assert.equal(left.end(0), right.end(0), message); }; this.masterPlaylistController.masterPlaylistLoader_.media = () => mainMedia; this.masterPlaylistController.syncController_.getExpiredTime = () => 0; Playlist.seekable = (media) => { if (media === mainMedia) { return videojs.createTimeRanges(mainTimeRanges); } return videojs.createTimeRanges(audioTimeRanges); }; assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges(), 'empty when main empty'); mainTimeRanges = [[0, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[0, 10]]), 'main when no audio'); mpc.mediaTypes_.AUDIO.activePlaylistLoader = { media: () => audioMedia, dispose() {}, expired_: 0 }; mainTimeRanges = []; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges(), 'empty when both empty'); mainTimeRanges = [[0, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges(), 'empty when audio empty'); mainTimeRanges = []; audioTimeRanges = [[0, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges(), 'empty when main empty'); mainTimeRanges = [[0, 10]]; audioTimeRanges = [[0, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[0, 10]]), 'ranges equal'); mainTimeRanges = [[5, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[5, 10]]), 'main later start'); mainTimeRanges = [[0, 10]]; audioTimeRanges = [[5, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[5, 10]]), 'audio later start'); mainTimeRanges = [[0, 9]]; audioTimeRanges = [[0, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[0, 9]]), 'main earlier end'); mainTimeRanges = [[0, 10]]; audioTimeRanges = [[0, 9]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[0, 9]]), 'audio earlier end'); mainTimeRanges = [[1, 10]]; audioTimeRanges = [[0, 9]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[1, 9]]), 'main later start, audio earlier end'); mainTimeRanges = [[0, 9]]; audioTimeRanges = [[1, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[1, 9]]), 'audio later start, main earlier end'); mainTimeRanges = [[2, 9]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[2, 9]]), 'main later start, main earlier end'); mainTimeRanges = [[1, 10]]; audioTimeRanges = [[2, 9]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[2, 9]]), 'audio later start, audio earlier end'); mainTimeRanges = [[1, 10]]; audioTimeRanges = [[11, 20]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[1, 10]]), 'no intersection, audio later'); mainTimeRanges = [[11, 20]]; audioTimeRanges = [[1, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assertTimeRangesEqual(mpc.seekable(), videojs.createTimeRanges([[11, 20]]), 'no intersection, main later'); Playlist.seekable = origSeekable; }); QUnit.test('syncInfoUpdate triggers seekablechanged when seekable is updated', function(assert) { let origSeekable = Playlist.seekable; let mpc = this.masterPlaylistController; let tech = this.player.tech_; let mainTimeRanges = []; let media = {}; let seekablechanged = 0; tech.on('seekablechanged', () => seekablechanged++); Playlist.seekable = () => { return videojs.createTimeRanges(mainTimeRanges); }; this.masterPlaylistController.masterPlaylistLoader_.media = () => media; this.masterPlaylistController.syncController_.getExpiredTime = () => 0; mainTimeRanges = [[0, 10]]; mpc.seekable_ = videojs.createTimeRanges(); mpc.onSyncInfoUpdate_(); assert.equal(seekablechanged, 1, 'seekablechanged triggered'); Playlist.seekable = origSeekable; }); QUnit.test('calls to update cues on new media', function(assert) { let origHlsOptions = videojs.options.hls; videojs.options.hls = { useCueTags: true }; this.player = createPlayer(); this.player.src({ src: 'manifest/media.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; let callCount = 0; this.masterPlaylistController.updateAdCues_ = (media) => callCount++; // master this.standardXHRResponse(this.requests.shift()); assert.equal(callCount, 0, 'no call to update cues on master'); // media this.standardXHRResponse(this.requests.shift()); assert.equal(callCount, 1, 'calls to update cues on first media'); this.masterPlaylistController.masterPlaylistLoader_.trigger('loadedplaylist'); assert.equal(callCount, 2, 'calls to update cues on subsequent media'); videojs.options.hls = origHlsOptions; }); QUnit.test('calls to update cues on media when no master', function(assert) { this.requests.length = 0; this.player.src({ src: 'manifest/media.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; this.masterPlaylistController.useCueTags_ = true; let callCount = 0; this.masterPlaylistController.updateAdCues_ = (media) => callCount++; // media this.standardXHRResponse(this.requests.shift()); assert.equal(callCount, 1, 'calls to update cues on first media'); this.masterPlaylistController.masterPlaylistLoader_.trigger('loadedplaylist'); assert.equal(callCount, 2, 'calls to update cues on subsequent media'); }); QUnit.test('respects useCueTags option', function(assert) { let origHlsOptions = videojs.options.hls; let hlsPlaylistCueTagsEvents = 0; videojs.options.hls = { useCueTags: true }; this.player = createPlayer(); this.player.tech_.on('usage', (event) => { if (event.name === 'hls-playlist-cue-tags') { hlsPlaylistCueTagsEvents++; } }); this.player.src({ src: 'manifest/media.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; this.standardXHRResponse(this.requests.shift()); this.standardXHRResponse(this.requests.shift()); assert.equal(hlsPlaylistCueTagsEvents, 1, 'cue tags event has been triggered once'); assert.ok(this.masterPlaylistController.cueTagsTrack_, 'creates cueTagsTrack_ if useCueTags is truthy'); assert.equal(this.masterPlaylistController.cueTagsTrack_.label, 'ad-cues', 'cueTagsTrack_ has label of ad-cues'); assert.equal(this.player.textTracks()[0], this.masterPlaylistController.cueTagsTrack_, 'adds cueTagsTrack as a text track if useCueTags is truthy'); videojs.options.hls = origHlsOptions; }); QUnit.test('correctly sets alternate audio track kinds', function(assert) { this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/alternate-audio-accessibility.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); // master this.standardXHRResponse(this.requests.shift()); // media - required for loadedmetadata this.standardXHRResponse(this.requests.shift()); const audioTracks = this.player.tech_.audioTracks(); assert.equal(audioTracks.length, 4, 'added 4 audio tracks'); assert.equal(audioTracks[0].id, 'English', 'contains english track'); assert.equal(audioTracks[0].kind, 'main', 'english track\'s kind is "main"'); assert.equal(audioTracks[1].id, 'English Descriptions', 'contains english descriptions track'); assert.equal(audioTracks[1].kind, 'main-desc', 'english descriptions track\'s kind is "main-desc"'); assert.equal(audioTracks[2].id, 'Français', 'contains french track'); assert.equal(audioTracks[2].kind, 'alternative', 'french track\'s kind is "alternative"'); assert.equal(audioTracks[3].id, 'Espanol', 'contains spanish track'); assert.equal(audioTracks[3].kind, 'alternative', 'spanish track\'s kind is "alternative"'); }); QUnit.test('trigger events when video and audio is demuxed by default', function(assert) { let hlsDemuxedEvents = 0; this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/multipleAudioGroups.m3u8', type: 'application/vnd.apple.mpegurl' }); this.player.tech_.on('usage', (event) => { if (event.name === 'hls-demuxed') { hlsDemuxedEvents++; } }); openMediaSource(this.player, this.clock); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); assert.equal(hlsDemuxedEvents, 1, 'video and audio is demuxed by default'); }); QUnit.test('trigger events when an AES is detected', function(assert) { let hlsAesEvents = 0; let isAesCopy = Hls.Playlist.isAes; Hls.Playlist.isAes = (media) => { return true; }; this.player.tech_.on('usage', (event) => { if (event.name === 'hls-aes') { hlsAesEvents++; } }); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); this.masterPlaylistController.mediaSource.trigger('sourceopen'); assert.equal(hlsAesEvents, 1, 'an AES HLS stream is detected'); Hls.Playlist.isAes = isAesCopy; }); QUnit.test('trigger events when an fMP4 stream is detected', function(assert) { let hlsFmp4Events = 0; let isFmp4Copy = Hls.Playlist.isFmp4; Hls.Playlist.isFmp4 = (media) => { return true; }; this.player.tech_.on('usage', (event) => { if (event.name === 'hls-fmp4') { hlsFmp4Events++; } }); // master this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); this.masterPlaylistController.mediaSource.trigger('sourceopen'); assert.equal(hlsFmp4Events, 1, 'an fMP4 stream is detected'); Hls.Playlist.isFmp4 = isFmp4Copy; }); QUnit.test('adds only CEA608 closed-caption tracks when a master playlist is loaded', function(assert) { this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/master-captions.m3u8', type: 'application/vnd.apple.mpegurl' }); // wait for async player.src to complete this.clock.tick(1); const masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; assert.equal(this.player.textTracks().length, 1, 'one text track to start'); assert.equal(this.player.textTracks()[0].label, 'segment-metadata', 'only segment-metadata text track'); // master, contains media groups for captions this.standardXHRResponse(this.requests.shift()); // we wait for loadedmetadata before setting caption tracks, so we need to wait for a // media playlist assert.equal(this.player.textTracks().length, 1, 'only one text track after master'); // media this.standardXHRResponse(this.requests.shift()); const master = masterPlaylistController.masterPlaylistLoader_.master; const caps = master.mediaGroups['CLOSED-CAPTIONS'].CCs; const capsArr = Object.keys(caps).map(key => Object.assign({name: key}, caps[key])); const addedCaps = masterPlaylistController.mediaTypes_['CLOSED-CAPTIONS'].groups.CCs .map(cap => Object.assign({name: cap.id}, cap)); assert.equal(capsArr.length, 4, '4 closed-caption tracks defined in playlist'); assert.equal(addedCaps.length, 2, '2 CEA608 tracks added internally'); assert.equal(addedCaps[0].instreamId, 'CC1', 'first 608 track is CC1'); assert.equal(addedCaps[1].instreamId, 'CC3', 'second 608 track is CC3'); const textTracks = this.player.textTracks(); assert.equal(textTracks.length, 3, '2 text tracks were added'); assert.equal(textTracks[1].mode, 'disabled', 'track starts disabled'); assert.equal(textTracks[2].mode, 'disabled', 'track starts disabled'); assert.equal(textTracks[1].id, addedCaps[0].instreamId, 'text track 1\'s id is CC\'s instreamId'); assert.equal(textTracks[2].id, addedCaps[1].instreamId, 'text track 2\'s id is CC\'s instreamId'); assert.equal(textTracks[1].label, addedCaps[0].name, 'text track 1\'s label is CC\'s name'); assert.equal(textTracks[2].label, addedCaps[1].name, 'text track 2\'s label is CC\'s name'); }); QUnit.test('adds subtitle tracks when a media playlist is loaded', function(assert) { let hlsWebvttEvents = 0; this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/master-subtitles.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); this.player.tech_.on('usage', (event) => { if (event.name === 'hls-webvtt') { hlsWebvttEvents++; } }); const masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; assert.equal(hlsWebvttEvents, 0, 'there is no webvtt detected'); assert.equal(this.player.textTracks().length, 1, 'one text track to start'); assert.equal(this.player.textTracks()[0].label, 'segment-metadata', 'only segment-metadata text track'); // master, contains media groups for subtitles this.standardXHRResponse(this.requests.shift()); // we wait for loadedmetadata before setting subtitle tracks, so we need to wait for a // media playlist assert.equal(this.player.textTracks().length, 1, 'only one text track after master'); // media this.standardXHRResponse(this.requests.shift()); const master = masterPlaylistController.masterPlaylistLoader_.master; const subs = master.mediaGroups.SUBTITLES.subs; const subsArr = Object.keys(subs).map(key => subs[key]); assert.equal(subsArr.length, 4, 'got 4 subtitles'); assert.equal(subsArr.filter(sub => sub.forced === false).length, 2, '2 forced'); assert.equal(subsArr.filter(sub => sub.forced === true).length, 2, '2 non-forced'); const textTracks = this.player.textTracks(); assert.equal(textTracks.length, 3, 'non-forced text tracks were added'); assert.equal(textTracks[1].mode, 'disabled', 'track starts disabled'); assert.equal(textTracks[2].mode, 'disabled', 'track starts disabled'); assert.equal(hlsWebvttEvents, 1, 'there is webvtt detected in the rendition'); // change source to make sure tracks are cleaned up this.player.src({ src: 'http://example.com/media.mp4', type: 'video/mp4' }); this.clock.tick(1); assert.equal(this.player.textTracks().length, 0, 'text tracks cleaned'); }); QUnit.test('switches off subtitles on subtitle errors', function(assert) { this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/master-subtitles.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); const masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; // sets up listener for text track changes masterPlaylistController.trigger('sourceopen'); // master, contains media groups for subtitles this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); const textTracks = this.player.textTracks(); assert.equal(this.requests.length, 0, 'no outstanding requests'); // enable first subtitle text track assert.notEqual(textTracks[0].kind, 'subtitles', 'kind is not subtitles'); assert.equal(textTracks[1].kind, 'subtitles', 'kind is subtitles'); textTracks[1].mode = 'showing'; assert.equal(this.requests.length, 1, 'made a request'); assert.equal(textTracks[1].mode, 'showing', 'text track still showing'); // request failed this.requests.shift().respond(404, null, ''); assert.equal(textTracks[1].mode, 'disabled', 'disabled text track'); assert.equal(this.env.log.warn.callCount, 1, 'logged a warning'); this.env.log.warn.callCount = 0; assert.equal(this.requests.length, 0, 'no outstanding requests'); // re-enable first text track textTracks[1].mode = 'showing'; assert.equal(this.requests.length, 1, 'made a request'); assert.equal(textTracks[1].mode, 'showing', 'text track still showing'); this.requests.shift().respond(200, null, ` #EXTM3U #EXT-X-TARGETDURATION:10 #EXT-X-MEDIA-SEQUENCE:0 #EXTINF:10 0.webvtt #EXT-X-ENDLIST `); const syncController = masterPlaylistController.subtitleSegmentLoader_.syncController_; // required for the vtt request to be made syncController.timestampOffsetForTimeline = () => 0; this.clock.tick(1); assert.equal(this.requests.length, 1, 'made a request'); assert.ok(this.requests[0].url.endsWith('0.webvtt'), 'made a webvtt request'); assert.equal(textTracks[1].mode, 'showing', 'text track still showing'); this.requests.shift().respond(404, null, ''); assert.equal(textTracks[1].mode, 'disabled', 'disabled text track'); assert.equal(this.env.log.warn.callCount, 1, 'logged a warning'); this.env.log.warn.callCount = 0; }); QUnit.test('pauses subtitle segment loader on tech errors', function(assert) { this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/master-subtitles.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); const masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; // sets up listener for text track changes masterPlaylistController.trigger('sourceopen'); // master, contains media groups for subtitles this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); const textTracks = this.player.textTracks(); // enable first subtitle text track assert.notEqual(textTracks[0].kind, 'subtitles', 'kind is not subtitles'); assert.equal(textTracks[1].kind, 'subtitles', 'kind is subtitles'); textTracks[1].mode = 'showing'; let pauseCount = 0; masterPlaylistController.subtitleSegmentLoader_.pause = () => pauseCount++; this.player.tech_.trigger('error'); assert.equal(pauseCount, 1, 'paused subtitle segment loader'); }); QUnit.test('disposes subtitle loaders on dispose', function(assert) { this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/master-subtitles.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); let masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; assert.notOk(masterPlaylistController.mediaTypes_.SUBTITLES.activePlaylistLoader, 'does not start with a subtitle playlist loader'); assert.ok(masterPlaylistController.subtitleSegmentLoader_, 'starts with a subtitle segment loader'); let segmentLoaderDisposeCount = 0; masterPlaylistController.subtitleSegmentLoader_.dispose = () => segmentLoaderDisposeCount++; masterPlaylistController.dispose(); assert.equal(segmentLoaderDisposeCount, 1, 'disposed the subtitle segment loader'); this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/master-subtitles.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; // sets up listener for text track changes masterPlaylistController.trigger('sourceopen'); // master, contains media groups for subtitles this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); const textTracks = this.player.textTracks(); // enable first subtitle text track assert.notEqual(textTracks[0].kind, 'subtitles', 'kind is not subtitles'); assert.equal(textTracks[1].kind, 'subtitles', 'kind is subtitles'); textTracks[1].mode = 'showing'; assert.ok(masterPlaylistController.mediaTypes_.SUBTITLES.activePlaylistLoader, 'has a subtitle playlist loader'); assert.ok(masterPlaylistController.subtitleSegmentLoader_, 'has a subtitle segment loader'); let playlistLoaderDisposeCount = 0; segmentLoaderDisposeCount = 0; masterPlaylistController.mediaTypes_.SUBTITLES.activePlaylistLoader.dispose = () => playlistLoaderDisposeCount++; masterPlaylistController.subtitleSegmentLoader_.dispose = () => segmentLoaderDisposeCount++; masterPlaylistController.dispose(); assert.equal(playlistLoaderDisposeCount, 1, 'disposed the subtitle playlist loader'); assert.equal(segmentLoaderDisposeCount, 1, 'disposed the subtitle segment loader'); }); QUnit.test('subtitle segment loader resets on seeks', function(assert) { this.requests.length = 0; this.player = createPlayer(); this.player.src({ src: 'manifest/master-subtitles.m3u8', type: 'application/vnd.apple.mpegurl' }); this.clock.tick(1); const masterPlaylistController = this.player.tech_.hls.masterPlaylistController_; // sets up listener for text track changes masterPlaylistController.trigger('sourceopen'); // master, contains media groups for subtitles this.standardXHRResponse(this.requests.shift()); // media this.standardXHRResponse(this.requests.shift()); const textTracks = this.player.textTracks(); // enable first subtitle text track assert.notEqual(textTracks[0].kind, 'subtitles', 'kind is not subtitles'); assert.equal(textTracks[1].kind, 'subtitles', 'kind is subtitles'); textTracks[1].mode = 'showing'; let resetCount = 0; let abortCount = 0; let loadCount = 0; masterPlaylistController.subtitleSegmentLoader_.resetEverything = () => resetCount++; masterPlaylistController.subtitleSegmentLoader_.abort = () => abortCount++; masterPlaylistController.subtitleSegmentLoader_.load = () => loadCount++; this.player.pause(); masterPlaylistController.setCurrentTime(5); assert.equal(resetCount, 1, 'reset subtitle segment loader'); assert.equal(abortCount, 1, 'aborted subtitle segment loader'); assert.equal(loadCount, 1, 'called load on subtitle segment loader'); this.player.play(); resetCount = 0; abortCount = 0; loadCount = 0; masterPlaylistController.setCurrentTime(10); assert.equal(resetCount, 1, 'reset subtitle segment loader'); assert.equal(abortCount, 1, 'aborted subtitle segment loader'); assert.equal(loadCount, 1, 'called load on subtitle segment loader'); }); QUnit.test('calculates dynamic GOAL_BUFFER_LENGTH', function(assert) { const configOld = { GOAL_BUFFER_LENGTH: Config.GOAL_BUFFER_LENGTH, MAX_GOAL_BUFFER_LENGTH: Config.MAX_GOAL_BUFFER_LENGTH, GOAL_BUFFER_LENGTH_RATE: Config.GOAL_BUFFER_LENGTH_RATE }; const mpc = this.masterPlaylistController; let currentTime = 0; Config.GOAL_BUFFER_LENGTH = 30; Config.MAX_GOAL_BUFFER_LENGTH = 60; Config.GOAL_BUFFER_LENGTH_RATE = 0.5; mpc.tech_.currentTime = () => currentTime; assert.equal(mpc.goalBufferLength(), 30, 'dynamic GBL uses starting value at time 0'); currentTime = 10; assert.equal(mpc.goalBufferLength(), 35, 'dynamic GBL increases by currentTime * rate'); currentTime = 60; assert.equal(mpc.goalBufferLength(), 60, 'dynamic GBL uses max value'); currentTime = 70; assert.equal(mpc.goalBufferLength(), 60, 'dynamic GBL continues to use max value'); // restore config Object.keys(configOld).forEach((key) => Config[key] = configOld[key]); }); QUnit.test('calculates dynamic BUFFER_LOW_WATER_LINE', function(assert) { const configOld = { BUFFER_LOW_WATER_LINE: Config.BUFFER_LOW_WATER_LINE, MAX_BUFFER_LOW_WATER_LINE: Config.MAX_BUFFER_LOW_WATER_LINE, BUFFER_LOW_WATER_LINE_RATE: Config.BUFFER_LOW_WATER_LINE_RATE }; const mpc = this.masterPlaylistController; let currentTime = 0; Config.BUFFER_LOW_WATER_LINE = 0; Config.MAX_BUFFER_LOW_WATER_LINE = 30; Config.BUFFER_LOW_WATER_LINE_RATE = 0.5; mpc.tech_.currentTime = () => currentTime; assert.equal(mpc.bufferLowWaterLine(), 0, 'dynamic BLWL uses starting value at time 0'); currentTime = 10; assert.equal(mpc.bufferLowWaterLine(), 5, 'dynamic BLWL increases by currentTime * rate'); currentTime = 60; assert.equal(mpc.bufferLowWaterLine(), 30, 'dynamic BLWL uses max value'); currentTime = 70; assert.equal(mpc.bufferLowWaterLine(), 30, 'dynamic BLWL continues to use max value'); // restore config Object.keys(configOld).forEach((key) => Config[key] = configOld[key]); }); QUnit.test('Exception in play promise should be caught', function(assert) { const mpc = this.masterPlaylistController; mpc.setupSourceBuffers = () => true; mpc.tech_ = { autoplay: () => true, play: () => new Promise(function(resolve, reject) { reject(new DOMException()); }) }; mpc.handleSourceOpen_(); assert.ok(true, 'rejects dom exception'); }); QUnit.module('Codec to MIME Type Conversion'); const testMimeTypes = function(assert, isFMP4) { let container = isFMP4 ? 'mp4' : 'mp2t'; let videoMime = `video/${container}`; let audioMime = `audio/${container}`; // no MAAT assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(false, true, false, false, isFMP4)), [`${videoMime}; codecs="avc1.4d400d, mp4a.40.2"`], `no MAAT, container: ${container}, codecs: none`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(false, true, true, false, isFMP4)), [`${videoMime}; codecs="avc1.deadbeef"`], `no MAAT, container: ${container}, codecs: video`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(false, true, false, true, isFMP4)), [`${audioMime}; codecs="mp4a.40.E"`], `no MAAT, container: ${container}, codecs: audio`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(false, true, true, true, isFMP4)), [`${videoMime}; codecs="avc1.deadbeef, mp4a.40.E"`], `no MAAT, container: ${container}, codecs: video, audio`); // MAAT, not muxed assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(true, false, false, false, isFMP4)), [`${videoMime}; codecs="avc1.4d400d"`, `${audioMime}; codecs="mp4a.40.2"`], `MAAT, demuxed, container: ${container}, codecs: none`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(true, false, true, false, isFMP4)), [`${videoMime}; codecs="avc1.deadbeef"`, `${audioMime}; codecs="mp4a.40.2"`], `MAAT, demuxed, container: ${container}, codecs: video`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(true, false, false, true, isFMP4)), [`${videoMime}; codecs="mp4a.40.E"`, `${audioMime}; codecs="mp4a.40.E"`], `MAAT, demuxed, container: ${container}, codecs: audio`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(true, false, true, true, isFMP4)), [`${videoMime}; codecs="avc1.deadbeef"`, `${audioMime}; codecs="mp4a.40.E"`], `MAAT, demuxed, container: ${container}, codecs: video, audio`); // MAAT, muxed assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(true, true, false, false, isFMP4)), [`${videoMime}; codecs="avc1.4d400d, mp4a.40.2"`, `${audioMime}; codecs="mp4a.40.2"`], `MAAT, muxed, container: ${container}, codecs: none`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(true, true, true, false, isFMP4)), [`${videoMime}; codecs="avc1.deadbeef, mp4a.40.2"`, `${audioMime}; codecs="mp4a.40.2"`], `MAAT, muxed, container: ${container}, codecs: video`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(true, true, false, true, isFMP4)), [`${videoMime}; codecs="mp4a.40.E"`, `${audioMime}; codecs="mp4a.40.E"`], `MAAT, muxed, container: ${container}, codecs: audio`); assert.deepEqual(mimeTypesForPlaylist_.apply(null, generateMedia(true, true, true, true, isFMP4)), [`${videoMime}; codecs="avc1.deadbeef, mp4a.40.E"`, `${audioMime}; codecs="mp4a.40.E"`], `MAAT, muxed, container: ${container}, codecs: video, audio`); }; QUnit.test('recognizes muxed codec configurations', function(assert) { testMimeTypes(assert, false); testMimeTypes(assert, true); }); QUnit.module('Map Legacy AVC Codec'); QUnit.test('maps legacy AVC codecs', function(assert) { assert.equal(mapLegacyAvcCodecs_('avc1.deadbeef'), 'avc1.deadbeef', 'does nothing for non legacy pattern'); assert.equal(mapLegacyAvcCodecs_('avc1.dead.beef, mp4a.something'), 'avc1.dead.beef, mp4a.something', 'does nothing for non legacy pattern'); assert.equal(mapLegacyAvcCodecs_('avc1.dead.beef,mp4a.something'), 'avc1.dead.beef,mp4a.something', 'does nothing for non legacy pattern'); assert.equal(mapLegacyAvcCodecs_('mp4a.something,avc1.dead.beef'), 'mp4a.something,avc1.dead.beef', 'does nothing for non legacy pattern'); assert.equal(mapLegacyAvcCodecs_('mp4a.something, avc1.dead.beef'), 'mp4a.something, avc1.dead.beef', 'does nothing for non legacy pattern'); assert.equal(mapLegacyAvcCodecs_('avc1.42001e'), 'avc1.42001e', 'does nothing for non legacy pattern'); assert.equal(mapLegacyAvcCodecs_('avc1.4d0020,mp4a.40.2'), 'avc1.4d0020,mp4a.40.2', 'does nothing for non legacy pattern'); assert.equal(mapLegacyAvcCodecs_('mp4a.40.2,avc1.4d0020'), 'mp4a.40.2,avc1.4d0020', 'does nothing for non legacy pattern'); assert.equal(mapLegacyAvcCodecs_('mp4a.40.40'), 'mp4a.40.40', 'does nothing for non video codecs'); assert.equal(mapLegacyAvcCodecs_('avc1.66.30'), 'avc1.42001e', 'translates legacy video codec alone'); assert.equal(mapLegacyAvcCodecs_('avc1.66.30, mp4a.40.2'), 'avc1.42001e, mp4a.40.2', 'translates legacy video codec when paired with audio'); assert.equal(mapLegacyAvcCodecs_('mp4a.40.2, avc1.66.30'), 'mp4a.40.2, avc1.42001e', 'translates video codec when specified second'); });