Live sources ------------ A live source such as an element capturing audio or video need to be handled in a special way. It does not make sense to start the dataflow in the PAUSED state for those devices as the user might wait a long time between going from PAUSED to PLAYING, making the previously captured buffers irrelevant. A live source therefore only produces buffers in the PLAYING state. This has implications for sinks waiting for a buffer to complete the preroll state since such a buffer might never arrive. Live sources return NO_PREROLL when going to the PAUSED state to inform the bin/pipeline that this element will not be able to produce data in the PAUSED state. When performing a get_state() on a bin with a non-zero timeout value, the bin must be sure that there are no live sources in the pipeline because else the get_state() function would block on the sinks. A gstbin therefore always performs a zero timeout get_state() on its elements to discover the NO_PREROLL (and ERROR) elements before performing a blocking wait. Scheduling ---------- Live sources can not produce data in the paused state. They block in the getrange function or in the loop function until they go to PLAYING. Latency ------- The live source timestamps its data with the time of the clock at the time the data was captured. Normally it will take some time to capture the first sample of data and the last sample. This means that when the buffer arrives at the sink, it will already be late and will be dropped. The latency is the time it takes to construct one buffer of data. This latency could be exposed by latency queries. Theses latency queries could to be done by the managing pipeline for all sinks. In that case they can only be done after the meassurements have been taken (all are prerolled). Thus in pipeline:state_changed:PAUSED_TO_PLAYING we need get the max-latency and set this as a sync-offset in all sinks. The problem is that in a live pipeline, we set the pipeline to PLAYING before waiting for the sinks to preroll. Another possibility would be to configure a fixed latency in a pipeline that would automatically be configured on any sink in the case of a NO_PREROLL element. For decoupled elements this is practically the only viable way to introduce enough latency that does not starve the sinks. The current latency can also be measured in the sinks and the pipeline could optimize it to the lowest possible latency.