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282 lines
12 KiB
Markdown
282 lines
12 KiB
Markdown
# Events
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Events are objects passed around in parallel to the buffer dataflow to
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notify elements of various events.
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Events are received on pads using the event function. Some events should
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be interleaved with the data stream so they require taking the
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`STREAM_LOCK`, others don’t.
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Different types of events exist to implement various functionalities.
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* `GST_EVENT_FLUSH_START`: data is to be discarded
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* `GST_EVENT_FLUSH_STOP`: data is allowed again
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* `GST_EVENT_CAPS`: Format information about the following buffers
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* `GST_EVENT_SEGMENT`: Timing information for the following buffers
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* `GST_EVENT_TAG`: Stream metadata.
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* `GST_EVENT_BUFFERSIZE`: Buffer size requirements
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* `GST_EVENT_SINK_MESSAGE`: An event turned into a message by sinks
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* `GST_EVENT_EOS`: no more data is to be expected on a pad.
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* `GST_EVENT_QOS`: A notification of the quality of service of the stream
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* `GST_EVENT_SEEK`: A seek should be performed to a new position in the stream
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* `GST_EVENT_NAVIGATION`: A navigation event.
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* `GST_EVENT_LATENCY`: Configure the latency in a pipeline
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* `GST_EVENT_STEP`: Stepping event
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* `GST_EVENT_RECONFIGURE`: stream reconfigure event
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- `GST_EVENT_DRAIN`: Play all data downstream before returning.
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> not yet implemented, under investigation, might be needed to do
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still frames in DVD.
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## src pads
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A `gst_pad_push_event()` on a srcpad will first store the sticky event
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in the sticky array before sending the event to the peer pad. If there
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is no peer pad and the event was not stored in the sticky array, FALSE
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is returned.
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Flushing pads will refuse the events and will not store the sticky
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events.
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## sink pads
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A `gst_pad_send_event()` on a sinkpad will call the event function on
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the pad. If the event function returns success, the sticky event is
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stored in the sticky event array and the event is marked for update.
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When the pad is flushing, the `_send_event()` function returns FALSE
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immediately.
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When the next data item is pushed, the pending events are pushed first.
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This ensures that the event function is never called for flushing pads
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and that the sticky array only contains events for which the event
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function returned success.
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## pad link
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When linking pads, the srcpad sticky events are marked for update when
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they are different from the sinkpad events. The next buffer push will
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push the events to the sinkpad.
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## FLUSH_START/STOP
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A flush event is sent both downstream and upstream to clear any pending
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data from the pipeline. This might be needed to make the graph more
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responsive when the normal dataflow gets interrupted by for example a
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seek event.
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Flushing happens in two stages.
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1) a source element sends the `FLUSH_START` event to the downstream peer element.
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The downstream element starts rejecting buffers from the upstream elements. It
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sends the flush event further downstream and discards any buffers it is
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holding as well as return from the chain function as soon as possible.
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This makes sure that all upstream elements get unblocked.
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This event is not synchronized with the `STREAM_LOCK` and can be done in the
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application thread.
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2) a source element sends the `FLUSH_STOP` event to indicate
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that the downstream element can accept buffers again. The downstream
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element sends the flush event to its peer elements. After this step dataflow
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continues. The `FLUSH_STOP` call is synchronized with the `STREAM_LOCK` so any
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data used by the chain function can safely freed here if needed. Any
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pending EOS events should be discarded too.
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After the flush completes the second stage, data is flowing again in the
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pipeline and all buffers are more recent than those before the flush.
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For elements that use the pullrange function, they send both flush
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events to the upstream pads in the same way to make sure that the
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pullrange function unlocks and any pending buffers are cleared in the
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upstream elements.
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A `FLUSH_START` may instruct the pipeline to distribute a new `base_time`
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to elements so that the `running_time` is reset to 0. (see
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[clocks](design/clocks.md) and [synchronisation](design/synchronisation.md)).
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## EOS
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The EOS event can only be sent on a sinkpad. It is typically emitted by
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the source element when it has finished sending data. This event is
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mainly sent in the streaming thread but can also be sent from the
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application thread.
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The downstream element should forward the EOS event to its downstream
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peer elements. This way the event will eventually reach the sinks which
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should then post an EOS message on the bus when in PLAYING.
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An element might want to flush its internally queued data before
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forwarding the EOS event downstream. This flushing can be done in the
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same thread as the one handling the EOS event.
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For elements with multiple sink pads it might be possible to wait for
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EOS on all the pads before forwarding the event.
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The EOS event should always be interleaved with the data flow, therefore
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the GStreamer core will take the `STREAM_LOCK`.
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Sometimes the EOS event is generated by another element than the source,
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for example a demuxer element can generate an EOS event before the
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source element. This is not a problem, the demuxer does not send an EOS
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event to the upstream element but returns `GST_FLOW_EOS`, causing the
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source element to stop sending data.
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An element that sends EOS on a pad should stop sending data on that pad.
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Source elements typically `pause()` their task for that purpose.
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By default, a GstBin collects all EOS messages from all its sinks before
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posting the EOS message to its parent.
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The EOS is only posted on the bus by the sink elements in the PLAYING
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state. If the EOS event is received in the PAUSED state, it is queued
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until the element goes to PLAYING.
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A `FLUSH_STOP` event on an element flushes the EOS state and all pending
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EOS messages.
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## SEGMENT
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A segment event is sent downstream by an element to indicate that the
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following group of buffers start and end at the specified positions. The
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newsegment event also contains the playback speed and the applied rate
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of the stream.
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Since the stream time is always set to 0 at start and after a seek, a 0
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point for all next buffer’s timestamps has to be propagated through the
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pipeline using the SEGMENT event.
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Before sending buffers, an element must send a SEGMENT event. An element
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is free to refuse buffers if they were not preceded by a SEGMENT event.
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Elements that sync to the clock should store the SEGMENT start and end
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values and subtract the start value from the buffer timestamp before
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comparing it against the stream time (see [clocks](design/clocks.md)).
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An element is allowed to send out buffers with the SEGMENT start time
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already subtracted from the timestamp. If it does so, it needs to send a
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corrected SEGMENT downstream, ie, one with start time 0.
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A SEGMENT event should be generated as soon as possible in the pipeline
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and is usually generated by a demuxer or source. The event is generated
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before pushing the first buffer and after a seek, right before pushing
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the new buffer.
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The SEGMENT event should be sent from the streaming thread and should be
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serialized with the buffers.
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Buffers should be clipped within the range indicated by the newsegment
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event start and stop values. Sinks must drop buffers with timestamps out
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of the indicated segment range.
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## TAG
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The tag event is sent downstream when an element has discovered metadata
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tags in a media file. Encoders can use this event to adjust their
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tagging system. A tag is serialized with buffers.
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## BUFFERSIZE
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> **Note**
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>
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> This event is not yet implemented.
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An element can suggest a buffersize for downstream elements. This is
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typically done by elements that produce data on multiple source pads
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such as demuxers.
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## QOS
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A QOS, or quality of service message, is generated in an element to
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report to the upstream elements about the current quality of real-time
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performance of the stream. This is typically done by the sinks that
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measure the amount of framedrops they have. (see [qos](design/qos.md))
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## SEEK
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A seek event is issued by the application to configure the playback
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range of a stream. It is called form the application thread and travels
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upstream.
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The seek event contains the new start and stop position of playback
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after the seek is performed. Optionally the stop position can be left at
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-1 to continue playback to the end of the stream. The seek event also
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contains the new playback rate of the stream, 1.0 is normal playback,
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2.0 double speed and negative values mean backwards playback.
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A seek usually flushes the graph to minimize latency after the seek.
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This behaviour is triggered by using the `SEEK_FLUSH` flag on the seek
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event.
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The seek event usually starts from the sink elements and travels
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upstream from element to element until it reaches an element that can
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perform the seek. No intermediate element is allowed to assume that a
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seek to this location will happen. It is allowed to modify the start and
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stop times if it needs to do so. this is typically the case if a seek is
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requested for a non-time position.
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The actual seek is performed in the application thread so that success
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or failure can be reported as a return value of the seek event. It is
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therefore important that before executing the seek, the element acquires
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the `STREAM_LOCK` so that the streaming thread and the seek get
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serialized.
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The general flow of executing the seek with FLUSH is as follows:
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1) unblock the streaming threads, they could be blocked in a chain
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function. This is done by sending a `FLUSH_START` on all srcpads or by pausing
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the streaming task, depending on the seek FLUSH flag.
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The flush will make sure that all downstream elements unlock and
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that control will return to this element chain/loop function.
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We cannot lock the `STREAM_LOCK` before doing this since it might
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cause a deadlock.
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2) acquire the `STREAM_LOCK`. This will work since the chain/loop function
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was unlocked/paused in step 1).
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3) perform the seek. since the `STREAM_LOCK` is held, the streaming thread
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will wait for the seek to complete. Most likely, the stream thread
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will pause because the peer elements are flushing.
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4) send a `FLUSH_STOP` event to all peer elements to allow streaming again.
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5) create a SEGMENT event to signal the new buffer timestamp base time.
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This event must be queued to be sent by the streaming thread.
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6) start stopped tasks and unlock the `STREAM_LOCK`, dataflow will continue
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now from the new position.
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More information about the different seek types can be found in
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[seeking](design/seeking.md).
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## NAVIGATION
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A navigation event is generated by a sink element to signal the elements
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of a navigation event such as a mouse movement or button click.
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Navigation events travel upstream.
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## LATENCY
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A latency event is used to configure a certain latency in the pipeline.
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It contains a single GstClockTime with the required latency. The latency
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value is calculated by the pipeline and distributed to all sink elements
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before they are set to PLAYING. The sinks will add the configured
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latency value to the timestamps of the buffer in order to delay their
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presentation. (See also [latency](design/latency.md)).
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## DRAIN
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> **Note**
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>
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> This event is not yet implemented.
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Drain event indicates that upstream is about to perform a real-time
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event, such as pausing to present an interactive menu or such, and needs
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to wait for all data it has sent to be played-out in the sink.
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Drain should only be used by live elements, as it may otherwise occur
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during prerolling.
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Usually after draining the pipeline, an element either needs to modify
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timestamps, or FLUSH to prevent subsequent data being discarded at the
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sinks for arriving late (only applies during playback scenarios).
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