/*! @license
* Shaka Player
* Copyright 2016 Google LLC
* SPDX-License-Identifier: Apache-2.0
*/
goog.provide('shaka.offline.indexeddb.V1StorageCell');
goog.require('goog.asserts');
goog.require('shaka.log');
goog.require('shaka.offline.indexeddb.BaseStorageCell');
goog.require('shaka.util.Error');
goog.require('shaka.util.ManifestParserUtils');
goog.require('shaka.util.PeriodCombiner');
goog.require('shaka.util.PublicPromise');
/**
* The V1StorageCell is for all stores that follow the shaka.externs V1 offline
* types, introduced in Shaka Player v2.0 and deprecated in v2.3.
*
* @implements {shaka.extern.StorageCell}
*/
shaka.offline.indexeddb.V1StorageCell = class
extends shaka.offline.indexeddb.BaseStorageCell {
/** @override */
async updateManifestExpiration(key, newExpiration) {
const op = this.connection_.startReadWriteOperation(this.manifestStore_);
/** @type {IDBObjectStore} */
const store = op.store();
/** @type {!shaka.util.PublicPromise} */
const p = new shaka.util.PublicPromise();
store.get(key).onsuccess = (event) => {
// Make sure a defined value was found. Indexeddb treats "no value found"
// as a success with an undefined result.
const manifest = /** @type {shaka.extern.ManifestDBV1} */(
event.target.result);
// Indexeddb does not fail when you get a value that is not in the
// database. It will return an undefined value. However, we expect
// the value to never be null, so something is wrong if we get a
// falsey value.
if (manifest) {
// Since this store's scheme uses in-line keys, we don't specify the key
// with |put|. This difference is why we must override the base class.
goog.asserts.assert(
manifest.key == key,
'With in-line keys, the keys should match');
manifest.expiration = newExpiration;
store.put(manifest);
p.resolve();
} else {
p.reject(new shaka.util.Error(
shaka.util.Error.Severity.CRITICAL,
shaka.util.Error.Category.STORAGE,
shaka.util.Error.Code.KEY_NOT_FOUND,
'Could not find values for ' + key));
}
};
await Promise.all([op.promise(), p]);
}
/**
* @override
* @param {shaka.extern.ManifestDBV1} old
* @return {!Promise.<shaka.extern.ManifestDB>}
*/
async convertManifest(old) {
const V1StorageCell = shaka.offline.indexeddb.V1StorageCell;
const streamsPerPeriod = [];
for (let i = 0; i < old.periods.length; ++i) {
// The last period ends at the end of the presentation.
const periodEnd = i == old.periods.length - 1 ?
old.duration : old.periods[i + 1].startTime;
const duration = periodEnd - old.periods[i].startTime;
const streams = V1StorageCell.convertPeriod_(old.periods[i], duration);
streamsPerPeriod.push(streams);
}
const streams = await shaka.util.PeriodCombiner.combineDbStreams(
streamsPerPeriod);
return {
creationTime: 0,
originalManifestUri: old.originalManifestUri,
duration: old.duration,
size: old.size,
expiration: old.expiration == null ? Infinity : old.expiration,
streams,
sessionIds: old.sessionIds,
drmInfo: old.drmInfo,
appMetadata: old.appMetadata,
sequenceMode: false,
};
}
/**
* @param {shaka.extern.PeriodDBV1} old
* @param {number} periodDuration
* @return {!Array.<shaka.extern.StreamDB>}
* @private
*/
static convertPeriod_(old, periodDuration) {
const V1StorageCell = shaka.offline.indexeddb.V1StorageCell;
// In the case that this is really old (like really old, like dinosaurs
// roaming the Earth old) there may be no variants, so we need to add those.
V1StorageCell.fillMissingVariants_(old);
for (const stream of old.streams) {
const message = 'After filling in missing variants, ' +
'each stream should have variant ids';
goog.asserts.assert(stream.variantIds, message);
}
return old.streams.map((stream) => V1StorageCell.convertStream_(
stream, old.startTime, periodDuration));
}
/**
* @param {shaka.extern.StreamDBV1} old
* @param {number} periodStart
* @param {number} periodDuration
* @return {shaka.extern.StreamDB}
* @private
*/
static convertStream_(old, periodStart, periodDuration) {
const V1StorageCell = shaka.offline.indexeddb.V1StorageCell;
const initSegmentKey = old.initSegmentUri ?
V1StorageCell.getKeyFromSegmentUri_(old.initSegmentUri) : null;
// timestampOffset in the new format is the inverse of
// presentationTimeOffset in the old format. Also, PTO did not include the
// period start, while TO does.
const timestampOffset = periodStart + old.presentationTimeOffset;
const appendWindowStart = periodStart;
const appendWindowEnd = periodStart + periodDuration;
return {
id: old.id,
originalId: null,
groupId: null,
primary: old.primary,
type: old.contentType,
mimeType: old.mimeType,
codecs: old.codecs,
frameRate: old.frameRate,
pixelAspectRatio: undefined,
hdr: undefined,
colorGamut: undefined,
videoLayout: undefined,
kind: old.kind,
language: old.language,
originalLanguage: old.language || null,
label: old.label,
width: old.width,
height: old.height,
initSegmentKey: initSegmentKey,
encrypted: old.encrypted,
keyIds: new Set([old.keyId]),
segments: old.segments.map((segment) => V1StorageCell.convertSegment_(
segment, initSegmentKey, appendWindowStart, appendWindowEnd,
timestampOffset)),
variantIds: old.variantIds,
roles: [],
forced: false,
audioSamplingRate: null,
channelsCount: null,
spatialAudio: false,
closedCaptions: null,
tilesLayout: undefined,
external: false,
fastSwitching: false,
isAudioMuxedInVideo: false,
};
}
/**
* @param {shaka.extern.SegmentDBV1} old
* @param {?number} initSegmentKey
* @param {number} appendWindowStart
* @param {number} appendWindowEnd
* @param {number} timestampOffset
* @return {shaka.extern.SegmentDB}
* @private
*/
static convertSegment_(
old, initSegmentKey, appendWindowStart, appendWindowEnd,
timestampOffset) {
const V1StorageCell = shaka.offline.indexeddb.V1StorageCell;
// Since we don't want to use the uri anymore, we need to parse the key
// from it.
const dataKey = V1StorageCell.getKeyFromSegmentUri_(old.uri);
return {
startTime: appendWindowStart + old.startTime,
endTime: appendWindowStart + old.endTime,
dataKey,
initSegmentKey,
appendWindowStart,
appendWindowEnd,
timestampOffset,
tilesLayout: '',
mimeType: null,
codecs: null,
thumbnailSprite: null,
};
}
/**
* @override
* @param {shaka.extern.SegmentDataDBV1} old
* @return {shaka.extern.SegmentDataDB}
*/
convertSegmentData(old) {
return {data: old.data};
}
/**
* @param {string} uri
* @return {number}
* @private
*/
static getKeyFromSegmentUri_(uri) {
let parts = null;
// Try parsing the uri as the original Shaka Player 2.0 uri.
parts = /^offline:[0-9]+\/[0-9]+\/([0-9]+)$/.exec(uri);
if (parts) {
return Number(parts[1]);
}
// Just before Shaka Player 2.3 the uri format was changed to remove some
// of the un-used information from the uri and make the segment uri and
// manifest uri follow a similar format. However the old storage system
// was still in place, so it is possible for Storage V1 Cells to have
// Storage V2 uris.
parts = /^offline:segment\/([0-9]+)$/.exec(uri);
if (parts) {
return Number(parts[1]);
}
throw new shaka.util.Error(
shaka.util.Error.Severity.CRITICAL,
shaka.util.Error.Category.STORAGE,
shaka.util.Error.Code.MALFORMED_OFFLINE_URI,
'Could not parse uri ' + uri);
}
/**
* Take a period and check if the streams need to have variants generated.
* Before Shaka Player moved to its variants model, there were no variants.
* This will fill missing variants into the given object.
*
* @param {shaka.extern.PeriodDBV1} period
* @private
*/
static fillMissingVariants_(period) {
const AUDIO = shaka.util.ManifestParserUtils.ContentType.AUDIO;
const VIDEO = shaka.util.ManifestParserUtils.ContentType.VIDEO;
// There are three cases:
// 1. All streams' variant ids are null
// 2. All streams' variant ids are non-null
// 3. Some streams' variant ids are null and other are non-null
// Case 3 is invalid and should never happen in production.
const audio = period.streams.filter((s) => s.contentType == AUDIO);
const video = period.streams.filter((s) => s.contentType == VIDEO);
// Case 2 - There is nothing we need to do, so let's just get out of here.
if (audio.every((s) => s.variantIds) && video.every((s) => s.variantIds)) {
return;
}
// Case 3... We don't want to be in case three.
goog.asserts.assert(
audio.every((s) => !s.variantIds),
'Some audio streams have variant ids and some do not.');
goog.asserts.assert(
video.every((s) => !s.variantIds),
'Some video streams have variant ids and some do not.');
// Case 1 - Populate all the variant ids (putting us back to case 2).
// Since all the variant ids are null, we need to first make them into
// valid arrays.
for (const s of audio) {
s.variantIds = [];
}
for (const s of video) {
s.variantIds = [];
}
let nextId = 0;
// It is not possible in Shaka Player's pre-variant world to have audio-only
// and video-only content mixed in with audio-video content. So we can
// assume that there is only audio-only or video-only if one group is empty.
// Everything is video-only content - so each video stream gets to be its
// own variant.
if (video.length && !audio.length) {
shaka.log.debug('Found video-only content. Creating variants for video.');
const variantId = nextId++;
for (const s of video) {
s.variantIds.push(variantId);
}
}
// Everything is audio-only content - so each audio stream gets to be its
// own variant.
if (!video.length && audio.length) {
shaka.log.debug('Found audio-only content. Creating variants for audio.');
const variantId = nextId++;
for (const s of audio) {
s.variantIds.push(variantId);
}
}
// Everything is audio-video content.
if (video.length && audio.length) {
shaka.log.debug('Found audio-video content. Creating variants.');
for (const a of audio) {
for (const v of video) {
const variantId = nextId++;
a.variantIds.push(variantId);
v.variantIds.push(variantId);
}
}
}
}
};