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Original commit message from CVS: * docs/design/draft-latency.txt: * docs/design/draft-push-pull.txt: * docs/design/draft-tagreading.txt: * docs/design/part-MT-refcounting.txt: * docs/design/part-activation.txt: * docs/design/part-block.txt: * docs/design/part-element-source.txt: * docs/design/part-events.txt: * docs/design/part-gstbin.txt: * docs/design/part-gstelement.txt: * docs/design/part-gstobject.txt: * docs/design/part-gstpipeline.txt: * docs/design/part-messages.txt: * docs/design/part-preroll.txt: * docs/design/part-push-pull.txt: * docs/design/part-qos.txt: * docs/design/part-query.txt: * docs/design/part-scheduling.txt: * docs/design/part-seeking.txt: * docs/design/part-segments.txt: * docs/design/part-states.txt: Documentation updates and typo fixes.
88 lines
4.4 KiB
Text
88 lines
4.4 KiB
Text
Pad activation
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--------------
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When changing states, a bin will set the state on all of its children in
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sink-to-source order. As elements undergo the READY->PAUSED transition,
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their pads are activated so as to prepare for data flow. Some pads will
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start tasks to drive the data flow.
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An element activates its pads from sourcepads to sinkpads. This to make
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sure that when the sinkpads are activated and ready to accept data, the
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sourcepads are already active to pass the data downstream.
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Pads can be activated in one of two modes, PUSH and PULL. PUSH pads are
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the normal case, where the source pad in a link sends data to the sink
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pad via gst_pad_push(). PULL pads instead have sink pads request data
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from the source pads via gst_pad_pull_range().
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To activate a pad, the core will call gst_pad_set_active() with a TRUE
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argument, indicating that the pad should be active. If the pad is
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already active, be it in a PUSH or PULL mode, gst_pad_set_active() will
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return without doing anything. Otherwise it will call the activation
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function of the pad.
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Because the core does not know in which mode to activate a pad (PUSH or
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PULL), it delegates that choice to a method on the pad, activate(). The
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activate() function of a pad should choose whether to operate in PUSH or
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PULL mode. Once the choice is made, it should call one of the two
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mode-specific activation functions, activate_push() or activate_pull().
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The default activate() function will call activate_push(), as it is the
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default mechanism for data flow. A sink pad that supports either mode of
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operation might call activate_pull() if calling check_get_range()
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returns TRUE, and activate_push() otherwise.
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Consider the case fakesrc ! fakesink, where fakesink is configured to
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operate in PULL mode. State changes in the pipeline will start with
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fakesink, which is the most downstream element. The core will call
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activate() on fakesink's sink pad. For fakesink to go into PULL mode, it
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needs to implement a custom activate() function that will call
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activate_pull() on its sink pad (because the default is to use PUSH
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mode). activate_pull() is then responsible for starting the task that
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pulls from fakesrc:src. Clearly, fakesrc needs to be notified that
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fakesrc is about to pull on its src pad, even though the pipeline has
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not yet changed fakesrc's state. For this reason, activate_pull() must
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first call activate_pull() on fakesink:sink's peer before starting
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fakesink's task.
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In short, upstream elements operating in PULL mode must be ready to
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produce data in READY, after having activate_pull() called on their
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source pad. Also, a call to activate_pull() needs to propagate through
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the pipeline to every pad that a gst_pad_pull() will reach. In the case
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fakesrc ! identity ! fakesink, calling activate_pull() on identity's
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source pad would need to activate its sink pad in pull mode as well,
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which should propagate all the way to fakesrc.
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If, on the other hand, fakesrc ! fakesink is operating in PUSH mode, the
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activation sequence is different. First, activate() on fakesink:sink
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calls activate_push() on fakesink:sink. Then fakesrc's pads are
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activated: sources first, then sinks (of which fakesrc has none).
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fakesrc:src's activation function is then called.
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Note that it does not make sense to set an activation function on a
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source pad. The peer of a source pad is downstream, meaning it should
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have been activated first. If it was activated in PULL mode, the the
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source pad should have already had activate_pull() called on it, and
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thus needs no further activation. Otherwise it should be in PUSH mode,
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which is the choice of the default activation function.
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So, in the PUSH case, the default activation function chooses PUSH mode,
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which calls activate_push(), which will then start a task on the source
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pad and begin pushing. In this way PUSH scheduling is a bit easier,
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because it follows the order of state changes in a pipeline. fakesink is
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already in PAUSED with an active sink pad by the time fakesrc starts
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pushing data.
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Deactivation
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------------
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Pad deactivation occurs when its parent goes into the READY state or when the
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pad is deactivated explicitly by the application or element.
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gst_pad_set_active() is called with a FALSE argument, which then calls
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activate_push() or activate_pull() with a FALSE argument, depending on the
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activation mode of the pad.
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Mode switching
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--------------
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Changing from push to pull modes needs a bit of thought. This is actually
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possible and implemented but not yet documented here.
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