Media Source Extensions

1.1 Goals

This specification was designed with the following goals in mind:

• Allow JavaScript to construct media streams independent of how the media is fetched.
• Define a splicing and buffering model that facilitates use cases like adaptive streaming, ad-insertion, time-shifting, and video editing.
• Minimize the need for media parsing in JavaScript.
• Leverage the browser cache as much as possible.
• Provide byte stream definitions for WebM & the ISO Base Media File Format.
• Not require support for any particular media format or codec.

1.2 Definitions

Initialization Segment

A sequence of bytes that contains all of the initialization information required to decode a sequence of media segments. This includes codec initialization data, Track ID mappings for multiplexed segments, and timestamp offsets (e.g. edit lists).

Note

The byte stream format specifications contain format specific examples.

Media Segment

A sequence of bytes that contain packetized & timestamped media data for a portion of the presentation timeline. Media segments are always associated with the most recently appended initialization segment.

Note

The byte stream format specifications contain format specific examples.

Source Buffer

A hypothetical buffer that contains a distinct sequence of initialization segments & media segments. When media segments are passed to append() they update the state of this buffer. The source buffer only allows a single media segment to cover a specific point in the presentation timeline of each track. If a media segment gets appended that contains media data overlapping (in presentation time) with media data from an existing segment, then the new media data will override the old media data. Since media segments depend on initialization segments the source buffer is also responsible for maintaining these associations. During playback, the media element pulls segment data out of the source buffers, demultiplexes it if necessary, and enqueues it into track buffers so it will get decoded and displayed. buffered describes the time ranges that are covered by media segments in the source buffer.

Active Source Buffers

The set of source buffers that are providing the selected video track, the enabled audio tracks, and the "showing" or "hidden" text tracks. This is a subset of all the source buffers associated with a specific MediaSource object. See Changes to selected/enabled track state for details.

Track Buffer

A hypothetical buffer that represents initialization and media data for a single AudioTrack, VideoTrack, or TextTrack that has been queued for playback. This buffer may not exist in actual implementations, but it is intended to represent media data that will be decoded no matter what media segments are appended to update the source buffer. This distinction is important when considering appends that happen close to the current playback position. See Source Buffer to Track Buffer transfer for details.

Random Access Point

A position in a media segment where decoding and continuous playback can begin without relying on any previous data in the segment. For video this tends to be the location of I-frames. In the case of audio, most audio frames can be treated as a random access point. Since video tracks tend to have a more sparse distribution of random access points, the location of these points are usually considered the random access points for multiplexed streams.

Presentation Start Time

The presentation start time is the earliest time point in the presentation and specifies the initial playback position and earliest possible position. All presentations created using this specification have a presentation start time of 0. Appending media segments with negative timestamps will cause playback to terminate with a MediaError.MEDIA_ERR_DECODE error unless timestampOffset is used to make the timestamps greater than or equal to 0.

MediaSource object URL

A MediaSource object URL is a unique Blob URI created by createObjectURL(). It is used to attach a MediaSource object to an HTMLMediaElement.

These URLs are the same as what the File API specification calls a Blob URI, except that anything in the definition of that feature that refers to File and Blob objects is hereby extended to also apply to MediaSource objects.

Track ID

A Track ID is a byte stream format specific identifier that marks sections of the byte stream as being part of a specific track. The Track ID in a track description identifies which sections of a media segment belong to that track.

Track Description

A byte stream format specific structure that provides the Track ID, codec configuration, and other metadata for a single track. Each track description inside a single initialization segment must have a unique Track ID.

Coded Frame

A unit of compressed media data that has a presentation timestamp and decode timestamp. The presentation timestamp indicates when the frame should be rendered. The decode timestamp indicates when the frame needs to be decoded. If frames can be decoded out of order, then the decode timestamp must be present in the bytestream. If frames cannot be decoded out of order and a decode timestamp is not present in the bytestream, then the decode timestamp is equal to the presentation timestamp.

Parent Media Source

The parent media source of a SourceBuffer object is the MediaSource object that created it.

2.1 Appending a Media Segment over a buffered region

There are several ways that media segments can overlap segments in the source buffer. Behavior for the different overlap situations are described below. If more than one overlap applies, then the start overlap must be resolved first, followed by any complete overlaps, and finally the end overlap. If a segment contains multiple tracks then the overlap is resolved independently for each track.

2.1.1 Complete Overlap

The figure above shows how the source buffer is updated when a new media segment completely overlaps a segment in the buffer. In this case, the new segment completely replaces the old segment.

2.1.2 Start Overlap

The figure above shows how the source buffer is updated when the beginning of a new media segment overlaps a segment in the buffer. In this case, the new segment replaces all the old media data in the overlapping region. Since media segments are constrained to starting with random access points, this provides a seamless transition between segments.

When an audio frame in the source buffer overlaps with the start of the new media segment special behavior is required. At a minimum implementations must support dropping the old audio frame that overlaps the start of the new segment and insert silence for the small gap that is created. Higher quality implementations may support crossfading or crosslapping between the overlapping audio frames. No matter which strategy is implemented, no gaps are created in the ranges reported by buffered and playback must never stall at the overlap.

2.1.3 End Overlap

The figure above shows how the source buffer is updated when the end of a new media segment overlaps the beginning of a segment in the buffer. In this case, the source buffer tries to keep as much of the old segment as possible. The amount saved depends on where the closest random access point, in the old segment, is to the end of the new segment. In the case of audio, if the gap is smaller than the size of an audio frame, then the source buffer should insert silence for this gap and not reflect it in buffered. The entire new segment must be added to the source buffer, but it is up to the implementation to determine how much of the old segment data is retained.

Note

An implementation may keep old segment data before the end of the new segment to avoid creating a gap if it wishes. Doing this though can significantly increase implementation complexity and could cause delays at the splice point.

Note

The web application can use buffered to determine how much of the old segment was preserved.

2.1.4 Middle Overlap

The figure above shows how the source buffer is updated when the new media segment is in the middle of the old segment. This condition is handled by first resolving the start overlap and then resolving the end overlap.

2.2 Source Buffer to Track Buffer transfer

3.1 Attributes

activeSourceBuffers of type SourceBufferList, readonly

Contains the subset of sourceBuffers that represents the active source buffers.

duration of type unrestricted double

Allows the web application to set the presentation duration. The duration is initially set to NaN when the MediaSource object is created.

On getting, run the following steps:

1. If the readyState attribute is "closed" then return NaN and abort these steps.
2. Return the current value of the attribute.

On setting, run the following steps:

1. If the value being set is negative or NaN then throw an INVALID_ACCESS_ERR exception and abort these steps.
2. If the readyState attribute is not "open" then throw an INVALID_STATE_ERR exception and abort these steps.
3. Run the duration change algorithm with new duration set to the value being set.
   Note

   append() and endOfStream() can update the duration under certain circumstances.

readyState of type ReadyState, readonly

Indicates the current state of the MediaSource object. When the MediaSource is created readyState must be set to "closed".

sourceBuffers of type SourceBufferList, readonly

Contains the list of SourceBuffer objects associated with this MediaSource. When readyState equals "closed" this list will be empty. Once readyState transitions to "open" SourceBuffer objects can be added to this list by using addSourceBuffer().

3.2 Methods

addSourceBuffer

Adds a new SourceBuffer to sourceBuffers.

Parameter	Type	Nullable	Optional	Description
type	DOMString	✘	✘

Return type: SourceBuffer

When this method is invoked, the user agent must run the following steps:

1. If type is null or an empty string then throw an INVALID_ACCESS_ERR exception and abort these steps.
2. If type contains a MIME type that is not supported or contains a MIME type that is not supported with the types specified for the other SourceBuffer objects in sourceBuffers, then throw a NOT_SUPPORTED_ERR exception and abort these steps.
3. If the user agent can't handle any more SourceBuffer objects then throw a QUOTA_EXCEEDED_ERR exception and abort these steps.
4. If the readyState attribute is not in the "open" state then throw an INVALID_STATE_ERR exception and abort these steps.
5. Create a new SourceBuffer object and associated resources.
6. Add the new object to sourceBuffers and queue a task to fire a simple event named addsourcebuffer at sourceBuffers.
7. Return the new object.

endOfStream

Signals the end of the stream.

Parameter	Type	Nullable	Optional	Description
error	EndOfStreamError	✘	✔

Return type: void

When this method is invoked, the user agent must run the following steps:

1. If the readyState attribute is not in the "open" state then throw an INVALID_STATE_ERR exception and abort these steps.
2. Change the readyState attribute value to "ended".
3. Queue a task to fire a simple event named sourceended at the MediaSource.

4. If error is not set, null, or an empty string

   1. Run the duration change algorithm with new duration set to the highest end timestamp across all SourceBuffer objects in sourceBuffers.
      
      Note

      This allows the duration to properly reflect the end of the appended media segments. For example, if the duration was explicitly set to 10 seconds and only media segments for 0 to 5 seconds were appended before endOfStream() was called, then the duration will get updated to 5 seconds.

   2. Notify the media element that it now has all of the media data. Playback should continue until all the media passed in via append() has been played.

   If error is set to "network"

   If the HTMLMediaElement.readyState attribute equals HAVE_NOTHING

   Run the steps of the resource fetch algorithm.

   If the HTMLMediaElement.readyState attribute is greater than HAVE_NOTHING

   Run the "If the connection is interrupted after some media data has been received, causing the user agent to give up trying to fetch the resource" steps of the resource fetch algorithm.

   If error is set to "decode"

   If the HTMLMediaElement.readyState attribute equals HAVE_NOTHING

   Run the "If the media data can be fetched but is found by inspection to be in an unsupported format, or can otherwise not be rendered at all" steps of the resource fetch algorithm.

   If the HTMLMediaElement.readyState attribute is greater than HAVE_NOTHING

   Run the media data is corrupted steps of the resource fetch algorithm.

   Otherwise

   Throw an INVALID_ACCESS_ERR exception.

getSourceBuffer

Gets the SourceBuffer object that created a specific VideoTrack.

Parameter	Type	Nullable	Optional	Description
videoTrack	VideoTrack	✘	✘

Return type: SourceBuffer, nullable

When this method is invoked, the user agent must run the following steps:

1. If videoTrack was not created by any SourceBuffer object in sourceBuffers then return null.
2. Return the SourceBuffer object in sourceBuffers that created videoTrack.

getSourceBuffer

Gets the SourceBuffer object that created a specific AudioTrack.

Parameter	Type	Nullable	Optional	Description
audioTrack	AudioTrack	✘	✘

Return type: SourceBuffer, nullable

When this method is invoked, the user agent must run the following steps:

1. If audioTrack was not created by any SourceBuffer object in sourceBuffers then return null.
2. Return the SourceBuffer object in sourceBuffers that created audioTrack.

getSourceBuffer

Gets the SourceBuffer object that created a specific TextTrack.

Parameter	Type	Nullable	Optional	Description
textTrack	TextTrack	✘	✘

Return type: SourceBuffer, nullable

When this method is invoked, the user agent must run the following steps:

1. If textTrack was not created by any SourceBuffer object in sourceBuffers then return null.
2. Return the SourceBuffer object in sourceBuffers that created textTrack.

isTypeSupported, static

Check to see whether the MediaSource is capable of creating SourceBuffer objects for the the specified MIME type.

Note

If true is returned from this method, it only indicates that the MediaSource implementation is capable of creating SourceBuffer objects for the specified MIME type. A addSourceBuffer() call may still fail if sufficient resources are not available to support the addition of a new SourceBuffer.

Note

This method returning true implies that HTMLMediaElement.canPlayType() will return "maybe" or "probably" since it does not make sense for a MediaSource to support a type the HTMLMediaElement knows it cannot play.

Parameter	Type	Nullable	Optional	Description
type	DOMString	✘	✘

Return type: bool

When this method is invoked, the user agent must run the following steps:

1. If type an empty string, then return false.
2. If type does not contain a valid MIME type string, then return false.
3. If type contains a media type or media subtype that the MediaSource does not support, then return false.
4. If type contains at a codec that the MediaSource does not support, then return false.
5. If the MediaSource does not support the specified combination of media type, media subtype, and codecs then return false.
6. Return true.

removeSourceBuffer

Removes a SourceBuffer from sourceBuffers.

Parameter	Type	Nullable	Optional	Description
sourceBuffer	SourceBuffer	✘	✘

Return type: void

When this method is invoked, the user agent must run the following steps:

1. If sourceBuffer is null then throw an INVALID_ACCESS_ERR exception and abort these steps.
2. If sourceBuffer specifies an object that is not in sourceBuffers then throw a NOT_FOUND_ERR exception and abort these steps.
3. Remove track information from audioTracks, videoTracks, and textTracks for all tracks associated with sourceBuffer and queue a task to fire a simple event named change at the modified lists.
4. If sourceBuffer is in activeSourceBuffers, then remove it from activeSourceBuffers and queue a task to fire a simple event named removesourcebuffer at activeSourceBuffers.
5. Remove sourceBuffer from sourceBuffers and queue a task to fire a simple event named removesourcebuffer at sourceBuffers.
6. Destroy all resources for sourceBuffer.

3.3 Event Summary

3.4 Algorithms

4.1 Attributes

buffered of type TimeRanges, readonly

Indicates what TimeRanges are buffered in the SourceBuffer.

When the attribute is read the following steps must occur:

1. If this object has been removed from the sourceBuffers attribute of the parent media source then throw an INVALID_STATE_ERR exception and abort these steps.
2. Return a new static normalized TimeRanges object for the media segments buffered.

timestampOffset of type double

Controls the offset applied to timestamps inside subsequent media segments that are appended to this SourceBuffer. The timestampOffset is initially set to 0 which indicates that no offset is being applied.

On getting, the initial value or the last value that was successfully set is returned.

On setting, run following steps:

1. If this object has been removed from the sourceBuffers attribute of the parent media source, then throw an INVALID_STATE_ERR exception and abort these steps.
2. If the readyState attribute of the parent media source is not in the "open" state, then throw an INVALID_STATE_ERR exception and abort these steps.
3. If this object is waiting for the end of a media segment to be appended, then throw an INVALID_STATE_ERR and abort these steps.
4. Update the attribute to the new value.

4.2 Methods

abort

Aborts the current segment and resets the segment parser.

No parameters.

Return type: void

When this method is invoked, the user agent must run the following steps:

1. If this object has been removed from the sourceBuffers attribute of the parent media source then throw an INVALID_STATE_ERR exception and abort these steps.
2. If the readyState attribute of the parent media source is not in the "open" state then throw an INVALID_STATE_ERR exception and abort these steps.
3. The media element aborts parsing the current segment.
4. If the append state equals PARSING_MEDIA_SEGMENT and the input buffer contains some complete coded frames, then run the coded frame processing algorithm as if the media segment only contained these frames.
5. Remove all bytes from the input buffer.
6. Set append state to WAITING_FOR_SEGMENT.

append

Appends segment data to the source buffer.

Parameter	Type	Nullable	Optional	Description
data	Uint8Array	✘	✘

Return type: void

When this method is invoked, the user agent must run the following steps:

1. If data is null then throw an INVALID_ACCESS_ERR exception and abort these steps.
2. If this object has been removed from the sourceBuffers attribute of the parent media source then throw an INVALID_STATE_ERR exception and abort these steps.
3. If the readyState attribute of the parent media source is in the "closed" state then throw an INVALID_STATE_ERR exception and abort these steps.

4. If the readyState attribute of the parent media source is in the "ended" state then run the following steps:

   1. Set the readyState attribute of the parent media source to "open"
   2. Queue a task to fire a simple event named sourceopen at the parent media source .
5. If data.byteLength is 0, then abort these steps.

6. If the buffer full flag equals true, then throw a QUOTA_EXCEEDED_ERR exception and abort these step.

   Note

   The web application must use remove() to free up space in the SourceBuffer.

7. Add data to the end of the input buffer
8. Run the segment parser loop.

remove

Removes media for a specific time range.

Parameter	Type	Nullable	Optional	Description
start	double	✘	✘
end	double	✘	✘

Return type: void

When this method is invoked, the user agent must run the following steps:

1. If start is negative or greater than duration, then throw an INVALID_ACCESS_ERR exception and abort these steps.
2. If end is less than or equal to start, then throw an INVALID_ACCESS_ERR exception and abort these steps.
3. If this object has been removed from the sourceBuffers attribute of the parent media source then throw an INVALID_STATE_ERR exception and abort these steps.
4. If the readyState attribute of the parent media source is not in the "open" state then throw an INVALID_STATE_ERR exception and abort these steps.

5. For each track in this source buffer, run the following steps:

   1. Let remove end timestamp be the current value of duration

   2. If this track has a random access point timestamp that is greater than or equal to end, then update remove end timestamp to that timestamp.

      Note

      Random access point timestamps can be different across tracks because the dependencies between coded frames within a track are usually different than the dependencies in another track.

   3. Remove all media data, for this track, that contain starting timestamps greater than or equal to start and less than the remove end timestamp.

   4. If this object is in activeSourceBuffers, the current playback position is greater than or equal to start and less than the remove end timestamp, and HTMLMediaElement.readyState is greater than HAVE_METADATA, then set the HTMLMediaElement.readyState attribute to HAVE_METADATA and stall playback.

      Note

      This transition occurs because media data for the current position has been removed. Playback cannot progress until media for the current playback position is appended or the selected/enabled tracks change.

6. If buffer full flag equals true and this object is ready to accept more bytes, then set the buffer full flag to false.

4.3 Algorithms

5.1 Attributes

length of type unsigned long, readonly

Indicates the number of SourceBuffer objects in the list.

5.2 Methods

SourceBuffer

Allows the SourceBuffer objects in the list to be accessed with an array operator (i.e. []).

Parameter	Type	Nullable	Optional	Description
index	unsigned long	✘	✘

Return type: getter

When this method is invoked, the user agent must run the following steps:

1. If index is greater than or equal to the length attribute then return undefined and abort these steps.
2. Return the index'th SourceBuffer object in the list.

5.3 Event Summary

6.1 Methods

createObjectURL, static

Creates URLs for MediaSource objects.

Note

This algorithm is intended to mirror the behavior of the File API createObjectURL() method with autoRevoke set to true.

Parameter	Type	Nullable	Optional	Description
mediaSource	MediaSource	✘	✘

Return type: DOMString

When this method is invoked, the user agent must run the following steps:

1. If mediaSource is NULL the return null.
2. Return a unique MediaSource object URL that can be used to dereference the mediaSource argument, and run the rest of the algorithm asynchronously.
3. provide a stable state
4. Revoke the MediaSource object URL by calling revokeObjectURL() on it.