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580 lines
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Markdown
580 lines
24 KiB
Markdown
# Stream selection
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History
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```
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v0.1: Jun 11th 2015
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Initial Draft
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v0.2: Sep 18th 2015
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Update to reflect design changes
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v1.0: Jun 28th 2016
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Pre-commit revision
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```
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This document describes the events and objects involved in stream
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selection in GStreamer pipelines, elements and applications
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## Background
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This new API is intended to address the use cases described in
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this section:
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1) As a user/app I want an overview and control of the media streams
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that can be configured within a pipeline for processing, even
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when some streams are mutually exclusive or logical constructs only.
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2) The user/app can disable entirely streams it's not interested
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in so they don't occupy memory or processing power - discarded
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as early as possible in the pipeline. The user/app can also
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(re-)enable them at a later time.
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3) If the set of possible stream configurations is changing,
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the user/app should be aware of the pending change and
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be able to make configuration choices for the new set of streams,
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as well as possibly still reconfiguring the old set
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4) Elements that have some other internal mechanism for triggering
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stream selections (DVD, or maybe some scripted playback
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playlist) should be able to trigger 'selection' of some particular
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stream.
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5) Indicate known relationships between streams - for example that
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2 separate video feeds represent the 2 views of a stereoscopic
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view, or that certain streams are mutually exclusive.
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> Note: the streams that are "available" are not automatically
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> the ones active, or present in the pipeline as pads. Think HLS/DASH
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> alternate streams.
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Use case examples:
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1) Playing an MPEG-TS multi-program stream, we want to tell the
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app that there are multiple programs that could be extracted
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from the incoming feed. Further, we want to provide a mechanism
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for the app to select which program(s) to decode, and once
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that is known to further tell the app which elementary streams
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are then available within those program(s) so the app/user can
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choose which audio track(s) to decode and/or use.
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2) A new PMT arrives for an MPEG-TS stream, due to a codec or
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channel change. The pipeline will need to reconfigure to
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play the desired streams from new program. Equally, there
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may be multiple seconds of content buffered from the old
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program and it should still be possible to switch (for example)
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subtitle tracks responsively in the draining out data, as
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well as selecting which subs track to play from the new feed.
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This same scenario applies when doing gapless transition to a
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new source file/URL, except that likely the element providing
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the list of streams also changes as a new demuxer is installed.
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3) When playing a multi-angle DVD, the DVD Virtual Machine needs to
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extract 1 angle from the data for presentation. It can publish
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the available angles as logical streams, even though only one
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stream can be chosen.
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4) When playing a DVD, the user can make stream selections from the
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DVD menu to choose audio or sub-picture tracks, or the DVD VM
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can trigger automatic selections. In addition, the player UI
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should be able to show which audio/subtitle tracks are available
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and allow direct selection in a GUI the same as for normal
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files with subtitle tracks in them.
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5) Playing a SCHC (3DTV) feed, where one view is MPEG-2 and the other
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is H.264 and they should be combined for 3D presentation, or
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not bother decoding 1 stream if displaying 2D.
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(bug https://bugzilla.gnome.org/show_bug.cgi?id=719333)
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FIXME - need some use cases indicating what alternate streams in
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HLS might require - what are the possibilities?
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## Design Overview
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Stream selection in GStreamer is implemented in several parts:
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1) Objects describing streams : GstStream
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2) Objects describing a collection of streams : GstStreamCollection
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3) Events from the app allowing selection and activation of some streams:
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GST_EVENT_SELECT_STREAMS
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4) Messages informing the user/application about the available
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streams and current status:
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GST_MESSAGE_STREAM_COLLECTION
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GST_MESSAGE_STREAMS_SELECTED
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## GstStream objects
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* API: GstStream
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* API: gst_stream_new(..)
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* API: gst_stream_get_\*(...)
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* API: gst_stream_set_\*()
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* API: gst_event_set_stream(...)
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* API: gst_event_parse_stream(...)
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GstStream objects are a high-level convenience object containing
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information regarding a possible data stream that can be exposed by
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GStreamer elements.
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They are mostly the aggregation of information present in other
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GStreamer components (STREAM_START, CAPS, TAGS event) but are not
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tied to the presence of a GstPad, and for some use-cases provide
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information that the existing components don't provide.
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The various properties of a GstStream object are:
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- stream_id (from the STREAM_START event)
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- flags (from the STREAM_START event)
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- caps
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- tags
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- type (high-level type of stream: Audio, Video, Container,...)
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GstStream objects can be subclassed so that they can be re-used by
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elements already using the notion of stream (which is common for
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example in demuxers).
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Elements that create GstStream should also set it on the
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GST_EVENT_STREAM_START event of the relevant pad. This helps
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downstream elements to have all information in one location.
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## Exposing collections of streams
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* API: GstStreamCollection
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* API: gst_stream_collection_new(...)
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* API: gst_stream_collection_add_stream(...)
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* API: gst_stream_collection_get_size(...)
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* API: gst_stream_collection_get_stream(...)
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* API: GST_MESSAGE_STREAM_COLLECTION
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* API: gst_message_new_stream_collection(...)
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* API: gst_message_parse_stream_collection(...)
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* API: GST_EVENT_STREAM_COLLECTION
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* API: gst_event_new_stream_collection(...)
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* API: gst_event_parse_stream_collection(...)
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Elements that create new streams (such as demuxers) or can create
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new streams (like the HLS/DASH alternative streams) can list the
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streams they can make available with the GstStreamCollection object.
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Other elements that might generate GstStreamCollections are the
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DVD-VM, which handles internal switching of tracks, or parsebin and
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decodebin3 when it aggregates and presents multiple internal stream
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sources as a single configurable collection.
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The GstStreamCollection object is a flat listing of GstStream objects.
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The various properties of a GstStreamCollection are:
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- 'identifier'
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- the identifier of the collection (unique name)
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- Generated from the 'upstream stream id' (or stream ids, plural)
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- the list of GstStreams in the collection.
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- (Not implemented) : Flags -
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For now, the only flag is 'INFORMATIONAL' - used by container parsers to
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publish information about detected streams without allowing selection of
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the streams.
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- (Not implemented yet) : The relationship between the various streams
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This specifies which streams are exclusive (can not be selected at the
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same time), are related (such as LINKED_VIEW or ENHANCEMENT), or need to
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be selected together.
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An element will inform outside components about that collection via:
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* a GST_MESSAGE_STREAM_COLLECTION message on the bus.
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* a GST_EVENT_STREAM_COLLECTION on each source pads.
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Applications and container bin elements can listen and collect the
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various stream collections to know the full range of streams
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available within a bin/pipeline.
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Once posted on the bus, a GstStreamCollection is immutable. It is
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updated by subsequent messages with a matching identifier.
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If the element that provided the collection goes away, there is no way
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to know that the streams are no longer valid (without having the
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user/app track that element). The exception to that is if the bin
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containing that element (such as parsebin or decodebin3) informs that
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the next collection is a replacement of the former one.
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The mutual exclusion and relationship lists use stream-ids
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rather than GstStream references in order to avoid circular
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referencing problems.
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### Usage from elements
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When a demuxer knows the list of streams it can expose, it
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creates a new GstStream for each stream it can provide with the
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appropriate information (stream id, flag, tags, caps, ...).
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The demuxer then creates a GstStreamCollection object in which it
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will put the list of GstStream it can expose. That collection is
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then both posted on the bus (via a GST_MESSAGE_COLLECTION) and on
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each pad (via a GST_EVENT_STREAM_COLLECTION).
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That new collection must be posted on the bus *before* the changes
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are made available. i.e. before pads corresponding to that selection
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are added/removed.
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In order to be backwards-compatible and support elements that don't
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create streams/collection yet, the new 'parsebin' element used by
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decodebin3 will automatically create those if not provided.
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### Usage from application
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Applications can know what streams are available by listening to the
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GST_MESSAGE_STREAM_COLLECTION messages posted on the bus.
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The application can list the available streams per-type (such as all
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the audio streams, or all the video streams) by iterating the
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streams available in the collection by GST_STREAM_TYPE.
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The application will also be able to use these stream information to
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decide which streams should be activated or not (see the stream
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selection event below).
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### Backwards compatibility
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Not all demuxers will create the various GstStream and
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GstStreamCollection objects. In order to remain backwards
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compatible, a parent bin (parsebin in decodebin3) will create the
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GstStream and GstStreamCollection based on the pads being
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added/removed from an element.
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This allows providing stream listing/selection for any demuxer-like
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element even if it doesn't implement the GstStreamCollection usage.
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## Stream selection event
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* API: GST_EVENT_SELECT_STREAMS
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* API: gst_event_new_select_streams(...)
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* API: gst_event_parse_select_streams(...)
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Stream selection events are generated by the application and
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sent into the pipeline to configure the streams.
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The event carries:
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* List of GstStreams to activate - a subset of the GstStreamCollection
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* (Not implemented) - List of GstStreams to be kept discarded - a
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subset of streams for which hot-swapping will not be desired,
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allowing elements (such as decodebin3, demuxers, ...) to not parse or
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buffer those streams at all.
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### Usage from application
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There are two use-cases where an application needs to specify in a
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generic fashion which streams it wants in output:
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1) When there are several present streams of which it only wants a
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subset (such as one audio, one video and one subtitle
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stream). Those streams are demuxed and present in the pipeline.
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2) When the stream the user wants require some element to undertake
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some action to expose that stream in the pipeline (such as
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DASH/HLS alternative streams).
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From the point of view of the application, those two use-cases are
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treated identically. The streams are all available through the
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GstStreamCollection posted on the bus, and it will select a subset.
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The application can select the streams it wants by creating a
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GST_EVENT_SELECT_STREAMS event with the list of stream-id of the
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streams it wants. That event is then sent on the pipeline,
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eventually traveling all the way upstream from each sink.
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In some cases, selecting one stream may trigger the availability of
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other dependent streams, resulting in new GstStreamCollection
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messages. This can happen in the case where choosing a different DVB
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channel would create a new single-program collection.
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### Usage in elements
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Elements that receive the GST_EVENT_SELECT_STREAMS event and that
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can activate/deactivate streams need to look at the list of
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stream-id contained in the event and decide if they need to do some
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action.
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In the standard demuxer case (demuxing and exposing all streams),
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there is nothing to do by default.
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In decodebin3, activating or deactivating streams is taken care of by
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linking only the streams present in the event to decoders and output
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ghostpad.
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In the case of elements that can expose alternate streams that are
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not present in the pipeline as pads, they will take the appropriate
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action to add/remove those streams.
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Containers that receive the event should pass it to any elements
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with no downstream peers, so that streams can be configured during
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pre-roll before a pipeline is completely linked down to sinks.
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## decodebin3 usage and example
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This is an example of how decodebin3 works by using the
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above-mentioned objects/events/messages.
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For clarity/completeness, we will consider a mpeg-ts stream that has
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multiple audio streams. Furthermore that stream might have changes
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at some point (switching video codec, or adding/removing audio
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streams).
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### Initial differences
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decodebin3 is different, compared to decodebin2, in the sense that, by
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default:
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* it will only expose as output ghost source pads one stream of each
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type (one audio, one video, ..).
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* It will only decode the exposed streams
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The multiqueue element is still used and takes in all elementary
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(non-decoded) streams. If parsers are needed/present they are placed
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before the multiqueue. This is needed in order for multiqueue to
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work only with packetized and properly timestamped streams.
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Note that the whole typefinding of streams, and optional depayloading,
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demuxing and parsing are done in a new 'parsebin' element.
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Just like the current implementation, demuxers will expose all
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streams present within a program as source pads. They will connect
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to parsers and multiqueue.
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Initial setup. 1 video stream, 2 audio streams.
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```
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+---------------------+
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| parsebin |
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| --------- | +-------------+
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| | demux |--[parser]-+-| multiqueue |--[videodec]---[
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]-+-| |--[parser]-+-| |
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| | |--[parser]-+-| |--[audiodec]---[
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| --------- | +-------------+
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+---------------------+
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```
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### GstStreamCollection
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When parsing the initial PAT/PMT, the demuxer will:
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1) create the various GstStream objects for each stream.
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2) create the GstStreamCollection for that initial PMT
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3) post the GST_MESSAGE_STREAM_COLLECTION Decodebin will intercept that message
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and know what the demuxer will be exposing.
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4) The demuxer creates the various pads and sends the corresponding
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STREAM_START event (with the same stream-id as the corresponding
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GstStream objects), CAPS event, and TAGS event.
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* parsebin will add all relevant parsers and expose those streams.
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* Decodebin will be able to correlate, based on STREAM_START event
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stream-id, what pad corresponds to which stream. It links each stream
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from parsebin to multiqueue.
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* Decodebin knows all the streams that will be available. Since by
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default it is configured to only expose a stream of each type, it
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will pick a stream of each for which it will complete the
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auto-plugging (finding a decoder and then exposing that stream as a
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source ghostpad.
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> Note: If the demuxer doesn't create/post the GstStreamCollection,
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> parsebin will create it on itself, as explained in section 2.3
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> above.
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### Changing the active selection from the application
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The user wants to change the audio track. The application received
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the GST_MESSAGE_STREAM_COLLECTION containing the list of available
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streams. For clarity, we will assume those stream-ids are
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"video-main", "audio-english" and "audio-french".
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The user prefers to use the french soundtrack (which it knows based
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on the language tag contained in the GstStream objects).
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The application will create and send a GST_EVENT_SELECT_STREAM event
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containing the list of streams: "video-main", "audio-french".
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That event gets sent on the pipeline, the sinks send it upstream and
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eventually reach decodebin.
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Decodebin compares:
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* The currently active selection ("video-main", "audio-english")
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* The available stream collection ("video-main", "audio-english",
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"audio-french")
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* The list of streams in the event ("video-main", "audio-french")
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Decodebin determines that no change is required for "video-main",
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but sees that it needs to deactivate "audio-english" and activate
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"audio-french".
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It unlinks the multiqueue source pad connected to the audiodec. Then
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it queries audiodec, using the GST_QUERY_ACCEPT_CAPS, whether it can
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accept as-is the caps from the "audio-french" stream.
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1) If it does, the multiqueue source pad corresponding to
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"audio-french" is linked to the decoder.
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2) If it does not, the existing audio decoder is removed,
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a new decoder is selected (like during initial
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auto-plugging), and replaces the old audio decoder element.
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The newly selected stream gets decoded and output through the same
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pad as the previous audio stream.
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Note:
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The default behaviour would be to only expose one stream of each
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type. But nothing prevents decodebin from outputting more/less of
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each type if the GST_EVENT_SELECT_STREAM event specifies that. This
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allows covering more use-case than the simple playback one.
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Such examples could be :
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* Wanting just a video stream or just an audio stream
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* Wanting all decoded streams
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* Wanting all audio streams
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...
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### Changes coming from upstream
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At some point in time, a PMT change happens. Let's assume a change
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in video-codec and/or PID.
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The demuxer creates a new GstStream for the changed/new stream,
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creates a new GstStreamCollection for the updated PMT and posts it.
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Decodebin sees the new GstStreamCollection message.
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The demuxer (and parsebin) then adds and removes pads.
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1) decodebin will match the new pads to GstStream in the "new"
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GstStreamCollection the same way it did for the initial pads in
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section 4.2 above.
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2) decodebin will see whether the new stream can re-use a multiqueue
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slot used by a stream of the same type no longer present (it
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compares the old collection to the new collection).
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In this case, decodebin sees that the new video stream can re-use
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the same slot as the previous video stream.
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3) If the new stream is going to be active by default (in this case
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it does because we are replacing the only video stream, which was
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active), it will check whether the caps are compatible with the
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existing videodec (in the same way it was done for the audio
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decoder switch in section 4.3).
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Eventually, the stream that switched will be decoded and output
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through the same pad as the previous video stream in a gapless fashion.
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### Further examples
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##### HLS alternates
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There is a main (multi-bitrate or not) stream with audio and
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video interleaved in mpeg-ts. The manifest also indicates the
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presence of alternate language audio-only streams.
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HLS would expose one collection containing:
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1) The main A+V CONTAINER stream (mpeg-ts), initially active,
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downloaded and exposed as a pad
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2) The alternate A-only streams, initially inactive and not exposed as pads
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the tsdemux element connected to the first stream will also expose
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a collection containing
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1.1) A video stream
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1.2) An audio stream
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```
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[ Collection 1 ] [ Collection 2 ]
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[ (hlsdemux) ] [ (tsdemux) ]
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[ upstream:nil ] /----[ upstream:main]
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[ ] / [ ]
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[ "main" (A+V) ]<-/ [ "video" (V) ] viddec1 : "video"
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[ "fre" (A) ] [ "eng" (A) ] auddec1 : "eng"
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[ "kor" (A) ] [ ]
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```
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The user might want to use the korean audio track instead of the
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default english one.
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=> SELECT_STREAMS ("video", "kor")
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1) decodebin3 receives and sends the event further upstream
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2) tsdemux sees that "video" is part of its current upstream,
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so adds the corresponding stream-id ("main") to the event
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and sends it upstream ("main", "video", "kor")
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3) hlsdemux receives the event
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=> It activates "kor" in addition to "main"
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4) The event travels back to decodebin3 which will remember the
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requested selection. If "kor" is already present it will switch
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the "eng" stream from the audio decoder to the "kor" stream.
|
|
If it appears a bit later, it will wait until that "kor" stream
|
|
is available before switching
|
|
|
|
#### multi-program MPEG-TS
|
|
|
|
Assuming the case of a mpeg-ts stream which contains multiple
|
|
programs.
|
|
There would be three "levels" of collection:
|
|
1) The collection of programs presents in the stream
|
|
2) The collection of elementary streams presents in a stream
|
|
3) The collection of streams decodebin can expose
|
|
|
|
Initially tsdemux exposes the first program present (default)
|
|
|
|
```
|
|
[ Collection 1 ] [ Collection 2 ] [ Collection 3 ]
|
|
[ (tsdemux) ] [ (tsdemux) ] [ (decodebin) ]
|
|
[ id:Programs ]<-\ [ id:BBC1 ]<-\ [ id:BBC1-decoded ]
|
|
[ upstream:nil ] \-----[ upstream:Programs] \----[ upstream:BBC1 ]
|
|
[ ] [ ] [ ]
|
|
[ "BBC1" (C) ] [ id:"bbcvideo"(V) ] [ id:"bbcvideo"(V)]
|
|
[ "ITV" (C) ] [ id:"bbcaudio"(A) ] [ id:"bbcaudio"(A)]
|
|
[ "NBC" (C) ] [ ] [ ]
|
|
```
|
|
|
|
At some point the user wants to switch to ITV (of which we do not
|
|
know the topology at this point in time. A SELECT_STREAMS event
|
|
is sent with "ITV" in it and the pointer to the Collection1.
|
|
1) The event travels up the pipeline until tsdemux receives it
|
|
and begins the switch.
|
|
2) tsdemux publishes a new 'Collection 2a/ITV' and marks 'Collection 2/BBC'
|
|
as replaced.
|
|
2a) App may send a SELECT_STREAMS event configuring which demuxer output
|
|
streams should be selected (parsed)
|
|
3) tsdemux adds/removes pads as needed (flushing pads as it removes them?)
|
|
4) Decodebin feeds new pad streams through existing parsers/decoders as
|
|
needed. As data from the new collection arrives out each decoder,
|
|
decodebin sends new GstStreamCollection messages to the app so it
|
|
can know that the new streams are now switchable at that level.
|
|
4a) As new GstStreamCollections are published, the app may override
|
|
the default decodebin stream selection to expose more/fewer streams.
|
|
The default is to decode and output 1 stream of each type.
|
|
|
|
Final state:
|
|
|
|
```
|
|
[ Collection 1 ] [ Collection 4 ] [ Collection 5 ]
|
|
[ (tsdemux) ] [ (tsdemux) ] [ (decodebin) ]
|
|
[ id:Programs ]<-\ [ id:ITV ]<-\ [ id:ITV-decoded ]
|
|
[ upstream:nil ] \-----[ upstream:Programs] \----[ upstream:ITV ]
|
|
[ ] [ ] [ ]
|
|
[ "BBC1" (C) ] [ id:"itvvideo"(V) ] [ id:"itvvideo"(V)]
|
|
[ "ITV" (C) ] [ id:"itvaudio"(A) ] [ id:"itvaudio"(A)]
|
|
[ "NBC" (C) ] [ ] [ ]
|
|
```
|
|
|
|
### TODO
|
|
|
|
- Add missing implementation
|
|
|
|
- Add flags to GstStreamCollection
|
|
|
|
- Add mutual-exclusion and relationship API to GstStreamCollection
|
|
|
|
- Add helper API to figure out whether a collection is a replacement
|
|
of another or a completely new one. This will require a more generic
|
|
system to know whether a certain stream-id is a replacement of
|
|
another or not.
|
|
|
|
### OPEN QUESTIONS
|
|
|
|
- Is a FLUSHING flag for stream-selection required or not ? This would
|
|
make the handler of the SELECT\_STREAMS event send FLUSH START/STOP
|
|
before switching to the other streams. This is tricky when dealing
|
|
where situations where we keep some streams and only switch some
|
|
others. Do we flush all streams ? Do we only flush the new streams,
|
|
potentially resulting in delay to fully switch ? Furthermore, due to
|
|
efficient buffering in decodebin3, the switching time has been
|
|
minimized extensively, to the point where flushing might not bring a
|
|
noticeable improvement.
|
|
|
|
- Store the stream collection in bins/pipelines ? A Bin/Pipeline could
|
|
store all active collection internally, so that it could be queried
|
|
later on. This could be useful to then get, on any pipeline, at any
|
|
point in time, the full list of collections available without having
|
|
to listen to all COLLECTION messages on the bus. This would require
|
|
fixing the "is a collection a replacement or not" issue first.
|
|
|
|
- When switching to new collections, should decodebin3 make any effort
|
|
to *map* corresponding streams from the old to new PMT - that is,
|
|
try and stick to the *english* language audio track, for example?
|
|
Alternatively, rely on the app to do such smarts with stream-select
|
|
messages ?
|