2016-12-05 21:12:24 +00:00
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# Negotiation
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Capabilities negotiation is the process of deciding on an adequate
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format for dataflow within a GStreamer pipeline. Ideally, negotiation
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(also known as "capsnego") transfers information from those parts of the
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pipeline that have information to those parts of the pipeline that are
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flexible, constrained by those parts of the pipeline that are not
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flexible.
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## Basic rules
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These simple rules must be followed:
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1) downstream suggests formats
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2) upstream decides on format
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There are 4 queries/events used in caps negotiation:
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1) `GST_QUERY_CAPS`: get possible formats
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2) `GST_QUERY_ACCEPT_CAPS`: check if format is possible
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3) `GST_EVENT_CAPS`: configure format (downstream)
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4) `GST_EVENT_RECONFIGURE`: inform upstream of possibly new caps
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2016-12-19 19:49:57 +00:00
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## Queries
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2016-12-29 05:45:20 +00:00
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A pad can ask the peer pad for its supported `GstCaps`. It does this with
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the CAPS query. The list of supported caps can be used to choose an
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appropriate `GstCaps` for the data transfer. The CAPS query works
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recursively, elements should take their peers into consideration when
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constructing the possible caps. Because the result caps can be very
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2016-12-14 01:24:09 +00:00
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large, a filter can be used to restrict the caps. Only the caps that
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2016-12-05 21:12:24 +00:00
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match the filter will be returned as the result caps. The order of the
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filter caps gives the order of preference of the caller and should be
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taken into account for the returned caps.
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2016-12-29 05:45:20 +00:00
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* **`filter`** (in) `GST_TYPE_CAPS` (default NULL): - a `GstCaps` to filter the results against
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* **`caps`** (out) `GST_TYPE_CAPS` (default NULL): - the result caps
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2016-12-05 21:12:24 +00:00
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A pad can ask the peer pad if it supports a given caps. It does this
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2016-12-19 20:04:53 +00:00
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with the `ACCEPT_CAPS` query. The caps must be fixed. The `ACCEPT_CAPS`
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2016-12-05 21:12:24 +00:00
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query is not required to work recursively, it can simply return TRUE if
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a subsequent CAPS event with those caps would return success.
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2016-12-29 05:45:20 +00:00
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* **`caps`** (in) `GST_TYPE_CAPS`: - a `GstCaps` to check, must be fixed
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* **`result`** (out) `G_TYPE_BOOLEAN` (default FALSE): - TRUE if the caps are accepted
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## Events
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When a media format is negotiated, peer elements are notified of the
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`GstCaps` with the CAPS event. The caps must be fixed.
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* **`caps`** `GST_TYPE_CAPS`: - the negotiated `GstCaps`, must be fixed
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2016-12-05 21:12:24 +00:00
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## Operation
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GStreamer’s two scheduling modes, push mode and pull mode, lend
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themselves to different mechanisms to achieve this goal. As it is more
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common we describe push mode negotiation first.
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2016-12-19 19:49:57 +00:00
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### Push-mode negotiation
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2016-12-05 21:12:24 +00:00
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Push-mode negotiation happens when elements want to push buffers and
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need to decide on the format. This is called downstream negotiation
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because the upstream element decides the format for the downstream
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element. This is the most common case.
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Negotiation can also happen when a downstream element wants to receive
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another data format from an upstream element. This is called upstream
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negotiation.
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The basics of negotiation are as follows:
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- `GstCaps` (see [caps](design/caps.md)) are refcounted before they are pushed as
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an event to describe the contents of the following buffer.
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- An element should reconfigure itself to the new format received as a
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CAPS event before processing the following buffers. If the data type
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in the caps event is not acceptable, the element should refuse the
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event. The element should also refuse the next buffers by returning
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an appropriate `GST_FLOW_NOT_NEGOTIATED` return value from the
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chain function.
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- Downstream elements can request a format change of the stream by
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sending a RECONFIGURE event upstream. Upstream elements will
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renegotiate a new format when they receive a RECONFIGURE event.
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The general flow for a source pad starting the negotiation.
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```
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src sink
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| querycaps? |
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|---------------->|
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| caps |
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select caps |< - - - - - - - -|
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from the | |
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candidates | |
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| accepts? | |
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type A |---------------->| | optional
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| yes | |
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|< - - - - - - - -| |
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| send_event() |
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send CAPS |---------------->| Receive type A, reconfigure to
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event A | | process type A.
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| push |
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push buffer |---------------->| Process buffer of type A
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```
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One possible implementation in pseudo code:
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```
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[element wants to create a buffer]
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if not format
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# see what we can do
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ourcaps = gst_pad_query_caps (srcpad)
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# see what the peer can do filtered against our caps
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candidates = gst_pad_peer_query_caps (srcpad, ourcaps)
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foreach candidate in candidates
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# make sure the caps is fixed
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fixedcaps = gst_pad_fixate_caps (srcpad, candidate)
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# see if the peer accepts it
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if gst_pad_peer_accept_caps (srcpad, fixedcaps)
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# store the caps as the negotiated caps, this will
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# call the setcaps function on the pad
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gst_pad_push_event (srcpad, gst_event_new_caps (fixedcaps))
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break
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endif
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done
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endif
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```
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2016-12-19 19:49:57 +00:00
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#### Negotiate allocator/bufferpool with the ALLOCATION query
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2016-12-29 05:45:20 +00:00
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```
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buffer = gst_buffer_new_allocate (NULL, size, 0);
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# fill buffer and push
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```
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The general flow for a sink pad starting a renegotiation.
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```
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src sink
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| accepts? |
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|<----------------| type B
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| yes |
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|- - - - - - - - >|-.
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| | | suggest B caps next
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| push_event() |
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mark .-|<----------------| send RECONFIGURE event
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renegotiate| | |
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'>| |
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| querycaps() |
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renegotiate |---------------->|
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| suggest B |
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|< - - - - - - - -|
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| send_event() |
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send CAPS |---------------->| Receive type B, reconfigure to
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event B | | process type B.
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| push |
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push buffer |---------------->| Process buffer of type B
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```
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#### Use cases:
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2016-12-19 19:49:57 +00:00
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##### `videotestsrc ! xvimagesink`
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* Who decides what format to use?
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- src pad always decides, by convention. sinkpad can suggest a format
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by putting it high in the caps query result `GstCaps`.
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- since the src decides, it can always choose something that it can do,
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so this step can only fail if the sinkpad stated it could accept
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something while later on it couldn't.
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* When does negotiation happen?
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- before srcpad does a push, it figures out a type as stated in 1), then
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it pushes a caps event with the type. The sink checks the media type and
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configures itself for this type.
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- the source then usually does an ALLOCATION query to negotiate a bufferpool
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with the sink. It then allocates a buffer from the pool and pushes it to
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the sink. since the sink accepted the caps, it can create a pool for the
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format.
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- since the sink stated in 1) it could accept the type, it will be able to
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handle it.
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* How can sink request another format?
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- sink asks if new format is possible for the source.
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- sink pushes RECONFIGURE event upstream
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- src receives the RECONFIGURE event and marks renegotiation
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- On the next buffer push, the source renegotiates the caps and the
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bufferpool. The sink will put the new new preferred format high in the list
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of caps it returns from its caps query.
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##### `videotestsrc ! queue ! xvimagesink`
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- queue proxies all accept and caps queries to the other peer pad.
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- queue proxies the bufferpool
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- queue proxies the RECONFIGURE event
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- queue stores CAPS event in the queue. This means that the queue can
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contain buffers with different types.
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2016-12-19 19:49:57 +00:00
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### Pull-mode negotiation
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A pipeline in pull mode has different negotiation needs than one
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activated in push mode. Push mode is optimized for two use cases:
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- Playback of media files, in which the demuxers and the decoders are
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the points from which format information should disseminate to the
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rest of the pipeline; and
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- Recording from live sources, in which users are accustomed to
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putting a capsfilter directly after the source element; thus the
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caps information flow proceeds from the user, through the potential
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caps of the source, to the sinks of the pipeline.
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In contrast, pull mode has other typical use cases:
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- Playback from a lossy source, such as RTP, in which more knowledge
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about the latency of the pipeline can increase quality; or
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- Audio synthesis, in which audio APIs are tuned to produce only the
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necessary number of samples, typically driven by a hardware
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interrupt to fill a DMA buffer or a Jack[0] port buffer.
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- Low-latency effects processing, whereby filters should be applied as
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data is transferred from a ring buffer to a sink instead of
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beforehand. For example, instead of using the internal alsasink
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ringbuffer thread in push-mode wavsrc \! volume \! alsasink, placing
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the volume inside the sound card writer thread via wavsrc \!
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audioringbuffer \! volume \! alsasink.
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[0] <http://jackit.sf.net>
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The problem with pull mode is that the sink has to know the format in
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order to know how many bytes to pull via `gst_pad_pull_range()`. This
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means that before pulling, the sink must initiate negotation to decide
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on a format.
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Recalling the principles of capsnego, whereby information must flow from
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those that have it to those that do not, we see that the three named use
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cases have different negotiation requirements:
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- RTP and low-latency playback are both like the normal playback case,
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in which information flows downstream.
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- In audio synthesis, the part of the pipeline that has the most
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information is the sink, constrained by the capabilities of the
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graph that feeds it. However the caps are not completely specified;
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at some point the user has to intervene to choose the sample rate,
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at least. This can be done externally to gstreamer, as in the jack
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elements, or internally via a capsfilter, as is customary with live
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sources.
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Given that sinks potentially need the input of sources, as in the RTP
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case and at least as a filter in the synthesis case, there must be a
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negotiation phase before the pull thread is activated. Also, given the
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low latency offered by pull mode, we want to avoid capsnego from within
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the pulling thread, in case it causes us to miss our scheduling
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deadlines.
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The pull thread is usually started in the PAUSED→PLAYING state change.
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We must be able to complete the negotiation before this state change
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happens.
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The time to do capsnego, then, is after the SCHEDULING query has
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succeeded, but before the sink has spawned the pulling thread.
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2016-12-19 19:49:57 +00:00
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#### Mechanism
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The sink determines that the upstream elements support pull based
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scheduling by doing a SCHEDULING query.
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The sink initiates the negotiation process by intersecting the results
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of `gst_pad_query_caps()` on its sink pad and its peer src pad. This is
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the operation performed by `gst_pad_get_allowed_caps()` In the simple
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passthrough case, the peer pad’s caps query should return the
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intersection of calling `get_allowed_caps()` on all of its sink pads. In
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this way the sink element knows the capabilities of the entire pipeline.
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The sink element then fixates the resulting caps, if necessary,
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resulting in the flow caps. From now on, the caps query of the sinkpad
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will only return these fixed caps meaning that upstream elements will
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only be able to produce this format.
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If the sink element could not set caps on its sink pad, it should post
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an error message on the bus indicating that negotiation was not
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possible.
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When negotiation succeeded, the sinkpad and all upstream internally
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linked pads are activated in pull mode. Typically, this operation will
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trigger negotiation on the downstream elements, which will now be forced
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to negotiate to the final fixed desired caps of the sinkpad.
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After these steps, the sink element returns ASYNC from the state change
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function. The state will commit to PAUSED when the first buffer is
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received in the sink. This is needed to provide a consistent API to the
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applications that expect ASYNC return values from sinks but it also
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allows us to perform the remainder of the negotiation outside of the
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context of the pulling thread.
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2016-12-19 19:49:57 +00:00
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### Patterns
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2016-12-05 21:12:24 +00:00
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We can identify 3 patterns in negotiation:
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* Fixed : Can't choose the output format
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- Caps encoded in the stream
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- A video/audio decoder
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2016-12-29 05:45:20 +00:00
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- usually uses `gst_pad_use_fixed_caps()`
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2016-12-05 21:12:24 +00:00
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* Transform
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- Caps not modified (passthrough)
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- can do caps transform based on element property
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- fixed caps get transformed into fixed caps
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- videobox
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* Dynamic : can choose output format
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- A converter element
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- depends on downstream caps, needs to do a CAPS query to find
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transform.
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- usually prefers to use the identity transform
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- fixed caps can be transformed into unfixed caps.
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