/*! @license
* Shaka Player
* Copyright 2016 Google LLC
* SPDX-License-Identifier: Apache-2.0
*/
/**
* @externs
*/
/**
* @typedef {{
* basic: boolean,
* encrypted: !Object.<string, boolean>
* }}
*
* @property {boolean} basic
* True if offline is usable at all.
* @property {!Object.<string, boolean>} encrypted
* A map of key system name to whether it supports offline playback.
* @exportDoc
*/
shaka.extern.OfflineSupport;
/**
* @typedef {{
* offlineUri: ?string,
* originalManifestUri: string,
* duration: number,
* size: number,
* expiration: number,
* tracks: !Array.<shaka.extern.Track>,
* appMetadata: Object
* }}
*
* @property {?string} offlineUri
* An offline URI to access the content. This can be passed directly to
* Player. If the uri is null, it means that the content has not finished
* downloading and is not ready to play.
* @property {string} originalManifestUri
* The original manifest URI of the content stored.
* @property {number} duration
* The duration of the content, in seconds.
* @property {number} size
* The size of the content, in bytes.
* @property {number} expiration
* The time that the encrypted license expires, in milliseconds. If the media
* is clear or the license never expires, this will equal Infinity.
* @property {!Array.<shaka.extern.Track>} tracks
* The tracks that are stored.
* @property {Object} appMetadata
* The metadata passed to store().
* @exportDoc
*/
shaka.extern.StoredContent;
/**
* @typedef {{
* creationTime: number,
* originalManifestUri: string,
* duration: number,
* size: number,
* expiration: number,
* streams: !Array.<shaka.extern.StreamDB>,
* sessionIds: !Array.<string>,
* drmInfo: ?shaka.extern.DrmInfo,
* appMetadata: Object
* }}
*
* @property {number} creationTime
* The date time when the asset was created.
* @property {string} originalManifestUri
* The URI that the manifest was originally loaded from.
* @property {number} duration
* The total duration of the media, in seconds.
* @property {number} size
* The total size of all stored segments, in bytes.
* @property {number} expiration
* The license expiration, in milliseconds; or Infinity if not applicable.
* Note that upon JSON serialization, Infinity becomes null, and must be
* converted back upon loading from storage.
* @property {!Array.<shaka.extern.StreamDB>} streams
* The Streams that are stored.
* @property {!Array.<string>} sessionIds
* The DRM offline session IDs for the media.
* @property {?shaka.extern.DrmInfo} drmInfo
* The DRM info used to initialize EME.
* @property {Object} appMetadata
* A metadata object passed from the application.
*/
shaka.extern.ManifestDB;
/**
* @typedef {{
* id: number,
* originalId: ?string,
* primary: boolean,
* type: string,
* mimeType: string,
* codecs: string,
* frameRate: (number|undefined),
* pixelAspectRatio: (string|undefined),
* hdr: (string|undefined),
* kind: (string|undefined),
* language: string,
* label: ?string,
* width: ?number,
* height: ?number,
* encrypted: boolean,
* keyIds: !Set.<string>,
* segments: !Array.<shaka.extern.SegmentDB>,
* variantIds: !Array.<number>,
* roles: !Array.<string>,
* forced: boolean,
* channelsCount: ?number,
* audioSamplingRate: ?number,
* spatialAudio: boolean,
* closedCaptions: Map.<string, string>,
* tilesLayout: (string|undefined)
* }}
*
* @property {number} id
* The unique id of the stream.
* @property {?string} originalId
* The original ID, if any, that appeared in the manifest. For example, in
* DASH, this is the "id" attribute of the Representation element.
* @property {boolean} primary
* Whether the stream set was primary.
* @property {string} type
* The type of the stream, 'audio', 'text', or 'video'.
* @property {string} mimeType
* The MIME type of the stream.
* @property {string} codecs
* The codecs of the stream.
* @property {(number|undefined)} frameRate
* The Stream's framerate in frames per second.
* @property {(string|undefined)} pixelAspectRatio
* The Stream's pixel aspect ratio
* @property {(string|undefined)} hdr
* The Stream's HDR info
* @property {(string|undefined)} kind
* The kind of text stream; undefined for audio/video.
* @property {string} language
* The language of the stream; '' for video.
* @property {?string} label
* The label of the stream; '' for video.
* @property {?number} width
* The width of the stream; null for audio/text.
* @property {?number} height
* The height of the stream; null for audio/text.
* @property {boolean} encrypted
* Whether this stream is encrypted.
* @property {!Set.<string>} keyIds
* The key IDs this stream is encrypted with.
* @property {!Array.<shaka.extern.SegmentDB>} segments
* An array of segments that make up the stream.
* @property {!Array.<number>} variantIds
* An array of ids of variants the stream is a part of.
* @property {!Array.<string>} roles
* The roles of the stream as they appear on the manifest,
* e.g. 'main', 'caption', or 'commentary'.
* @property {boolean} forced
* Whether the stream set was forced.
* @property {?number} channelsCount
* The channel count information for the audio stream.
* @property {?number} audioSamplingRate
* Specifies the maximum sampling rate of the content.
* @property {boolean} spatialAudio
* Whether the stream set has spatial audio.
* @property {Map.<string, string>} closedCaptions
* A map containing the description of closed captions, with the caption
* channel number (CC1 | CC2 | CC3 | CC4) as the key and the language code
* as the value. If the channel number is not provided by the description,
* we'll set an 0-based index as the key.
* Example: {'CC1': 'eng'; 'CC3': 'swe'}, or {'1', 'eng'; '2': 'swe'}, etc.
* @property {(string|undefined)} tilesLayout
* The value is a grid-item-dimension consisting of two positive decimal
* integers in the format: column-x-row ('4x3'). It describes the arrangement
* of Images in a Grid. The minimum valid LAYOUT is '1x1'.
*/
shaka.extern.StreamDB;
/**
* @typedef {{
* initSegmentKey: ?number,
* startTime: number,
* endTime: number,
* appendWindowStart: number,
* appendWindowEnd: number,
* timestampOffset: number,
* dataKey: number
* }}
*
* @property {?number} initSegmentKey
* The storage key where the init segment is found; null if no init segment.
* @property {number} startTime
* The start time of the segment in the presentation timeline.
* @property {number} endTime
* The end time of the segment in the presentation timeline.
* @property {number} appendWindowStart
* A start timestamp before which media samples will be truncated.
* @property {number} appendWindowEnd
* An end timestamp beyond which media samples will be truncated.
* @property {number} timestampOffset
* An offset which MediaSource will add to the segment's media timestamps
* during ingestion, to align to the presentation timeline.
* @property {number} dataKey
* The key to the data in storage.
*/
shaka.extern.SegmentDB;
/**
* @typedef {{
* data: !ArrayBuffer
* }}
*
* @property {!ArrayBuffer} data
* The data contents of the segment.
*/
shaka.extern.SegmentDataDB;
/**
* @typedef {{
* sessionId: string,
* keySystem: string,
* licenseUri: string,
* serverCertificate: Uint8Array,
* audioCapabilities: !Array.<MediaKeySystemMediaCapability>,
* videoCapabilities: !Array.<MediaKeySystemMediaCapability>
* }}
*
* @property {string} sessionId
* The EME session ID.
* @property {string} keySystem
* The EME key system string the session belongs to.
* @property {string} licenseUri
* The URI for the license server.
* @property {Uint8Array} serverCertificate
* A key-system-specific server certificate used to encrypt license requests.
* Its use is optional and is meant as an optimization to avoid a round-trip
* to request a certificate.
* @property {!Array.<MediaKeySystemMediacapability>} audioCapabilities
* The EME audio capabilities used to create the session.
* @property {!Array.<MediaKeySystemMediacapability>} videoCapabilities
* The EME video capabilities used to create the session.
*/
shaka.extern.EmeSessionDB;
/**
* An interface that defines access to collection of segments and manifests. All
* methods are designed to be batched operations allowing the implementations to
* optimize their operations based on how they store data.
*
* The storage cell is one of two exposed APIs used to control where and how
* offline content is saved. The storage cell is responsible for converting
* information between its internal structures and the external (library)
* structures.
*
* @interface
*/
shaka.extern.StorageCell = class {
constructor() {}
/**
* Free all resources used by this cell. This should not affect the stored
* content.
*
* @return {!Promise}
*/
destroy() {}
/**
* Check if the cell can support new keys. If a cell has a fixed key space,
* then all add-operations will fail as no new keys can be added. All
* remove-operations and update-operations should still work.
*
* @return {boolean}
*/
hasFixedKeySpace() {}
/**
* Add a group of segments. Will return a promise that resolves with a list
* of keys for each segment. If one segment fails to be added, all segments
* should fail to be added.
*
* @param {!Array.<shaka.extern.SegmentDataDB>} segments
* @return {!Promise.<!Array.<number>>}
*/
addSegments(segments) {}
/**
* Remove a group of segments using their keys to identify them. If a key
* is not found, then that removal should be considered successful.
*
* @param {!Array.<number>} keys
* @param {function(number)} onRemove A callback for when a segment is removed
* from the cell. The key of the segment
* will be passed to the callback.
* @return {!Promise}
*/
removeSegments(keys, onRemove) {}
/**
* Get a group of segments using their keys to identify them. If any key is
* not found, the promise chain will be rejected.
*
* @param {!Array.<number>} keys
* @return {!Promise.<!Array.<shaka.extern.SegmentDataDB>>}
*/
getSegments(keys) {}
/**
* Add a group of manifests. Will return a promise that resolves with a list
* of keys for each manifest. If one manifest fails to be added, all manifests
* should fail to be added.
*
* @param {!Array.<shaka.extern.ManifestDB>} manifests
* @return {!Promise<!Array.<number>>} keys
*/
addManifests(manifests) {}
/**
* Replace the expiration time of the manifest stored under |key| with
* |newExpiration|. If no manifest is found under |key| then this should
* act as a no-op.
*
* @param {number} key
* @param {number} expiration
* @return {!Promise}
*/
updateManifestExpiration(key, expiration) {}
/**
* Remove a group of manifests using their keys to identify them. If a key
* is not found, then that removal should be considered successful.
*
* @param {!Array.<number>} keys
* @param {function(number)} onRemove A callback for when a manifest is
* removed from the cell. The key of the
* manifest will be passed to the callback.
* @return {!Promise}
*/
removeManifests(keys, onRemove) {}
/**
* Get a group of manifests using their keys to identify them. If any key is
* not found, the promise chain will be rejected.
*
* @param {!Array.<number>} keys
* @return {!Promise<!Array.<shaka.extern.ManifestDB>>}
*/
getManifests(keys) {}
/**
* Get all manifests stored in this cell. Since manifests are small compared
* to the asset they describe, it is assumed that it is feasible to have them
* all in main memory at one time.
*
* @return {!Promise<!Map.<number, shaka.extern.ManifestDB>>}
*/
getAllManifests() {}
};
/**
* Similar to storage cells (shaka.extern.StorageCell), an EmeSessionStorageCell
* stores data persistently. This only stores the license's session info, not
* the license itself. The license itself is stored using EME.
*
* @interface
*/
shaka.extern.EmeSessionStorageCell = class {
constructor() {}
/**
* Free all resources used by this cell. This won't affect the stored content.
* @return {!Promise}
*/
destroy() {}
/**
* Gets the currently stored sessions.
* @return {!Promise.<!Array.<shaka.extern.EmeSessionDB>>}
*/
getAll() {}
/**
* Adds the given sessions to the store.
* @param {!Array.<shaka.extern.EmeSessionDB>} sessions
* @return {!Promise}
*/
add(sessions) {}
/**
* Removes the given session IDs from the store.
* @param {!Array.<string>} sessionIds
* @return {!Promise}
*/
remove(sessionIds) {}
};
/**
* Storage mechanisms are one of two exported storage APIs. Storage mechanisms
* are groups of storage cells (shaka.extern.StorageCell). Storage mechanisms
* are responsible for managing the life cycle of resources shared between
* storage cells in the same block.
*
* For example, a storage mechanism may manage a single database connection
* while each cell would manage different tables in the database via the same
* connection.
*
* @interface
*/
shaka.extern.StorageMechanism = class {
constructor() {}
/**
* Initialize the storage mechanism for first use. This should only be called
* once. Calling |init| multiple times has an undefined behaviour.
*
* @return {!Promise}
*/
init() {}
/**
* Free all resources used by the storage mechanism and its cells. This should
* not affect the stored content.
*
* @return {!Promise}
*/
destroy() {}
/**
* Get a map of all the cells managed by the storage mechanism. Editing the
* map should have no effect on the storage mechanism. The map key is the
* cell's address in the mechanism and should be consistent between calls to
* |getCells|.
*
* @return {!Map.<string, !shaka.extern.StorageCell>}
*/
getCells() {}
/**
* Get the current EME session storage cell.
* @return {!shaka.extern.EmeSessionStorageCell}
*/
getEmeSessionCell() {}
/**
* Erase all content from storage and leave storage in an empty state. Erase
* may be called with or without |init|. This allows for storage to be wiped
* in case of a version mismatch.
*
* After calling |erase|, the mechanism will be in an initialized state.
*
* @return {!Promise}
*/
erase() {}
};