gstreamer/docs/manual/advanced-clocks.xml

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<chapter id="chapter-clocks">
<title>Clocks in GStreamer</title>
<para>
To maintain sync in pipeline playback (which is the only case where this
really matters), &GStreamer; uses <emphasis>clocks</emphasis>. Clocks
are exposed by some elements, whereas other elements are merely clock
slaves. The primary task of a clock is to represent the time progress
according to the element exposing the clock, based on its own playback
rate. If no clock provider is available in a pipeline, the system clock
is used instead.
</para>
<para>
&GStreamer; derives several <emphasis>time value</emphasis> from the clock
and the playback state.
It is important to note, that a <emphasis>clock-time</emphasis> is
monotonically rising, but the value itself is not meaningful.
Subtracting the <emphasis>base-time</emphasis> yields the
<emphasis>running-time</emphasis>. It is the same as the
<emphasis>stream-time</emphasis> if one plays from start to end at original
rate. The <emphasis>stream-time</emphasis> indicates the position in the
media. The <emphasis>running-time</emphasis> is (re-)set to 0 when the
pipeline starts to play and also after <emphasis>flushing</emphasis> seeks.
</para>
<figure float="1" id="chapter-clock-img">
<title>&GStreamer; clock and various times</title>
<mediaobject>
<imageobject>
<imagedata scale="75" fileref="images/clocks.&image;" format="&IMAGE;" />
</imageobject>
</mediaobject>
</figure>
<sect1 id="section-clocks-providers">
<title>Clock providers</title>
<para>
Clock providers exist because they play back media at some rate, and
this rate is not necessarily the same as the system clock rate. For
example, a soundcard may playback at 44,1 kHz, but that doesn't mean
that after <emphasis>exactly</emphasis> 1 second <emphasis>according
to the system clock</emphasis>, the soundcard has played back 44.100
samples. This is only true by approximation. Therefore, generally,
pipelines with an audio output use the audiosink as clock provider.
This ensures that one second of video will be played back at the same
rate as that the soundcard plays back 1 second of audio.
</para>
<para>
Whenever some part of the pipeline requires to know the current clock
time, it will be requested from the clock through
<function>gst_clock_get_time ()</function>. The clock-time does not
need to start at 0. The pipeline, which contains the global clock that
all elements in the pipeline will use, in addition has a <quote>base
time</quote>, which is the clock time at the point where the
pipeline went to the PLAYING state. Each element can subtract the
<quote>base time</quote> from the clock-time to know the current
running time.
</para>
<para>
The clock provider is responsible for making sure that the clock time
always represents the current media time as closely as possible; it
has to take care of things such as playback latencies, buffering in
audio-kernel modules, and so on, since all those could affect a/v sync
and thus decrease the user experience.
</para>
</sect1>
<sect1 id="section-clocks-slaves">
<title>Clock slaves</title>
<para>
Clock slaves get assigned a clock by their containing pipeline. Their
task is to make sure that media playback follows the time progress as
represented by this clock as closely as possible. For most elements,
that will simply mean to wait until the buffer running-time is reached
before playing back their current sample.
</para>
<para>
The buffer running-time is derived from the buffer timestamp and the
newsegment event preceeding the buffer. A buffer is played synchronized
with the clock when the clock's running-time has reached exactly the
buffer running-time; this can be done with the function
<function>gst_clock_id_wait ()</function>.
</para>
<para>
For more information on how to write elements that conform to this
required behaviour, see the Plugin Writer's Guide.
</para>
</sect1>
</chapter>