docs/design/part-element-sink.txt - mtk-gstreamer-debian - Git at Google

 Sink elements
 -------------

 Sink elements consume data and normally have no source pads.

 Typical sink elements include:

  - audio/video renderers
  - network sinks
  - filesinks

 Sinks are harder to construct than other element types as they are
 treated specially by the GStreamer core.

 state changes
 ~~~~~~~~~~~~~

 A sink always returns ASYNC from the state change to PAUSED, this
 includes a state change from READY->PAUSED and PLAYING->PAUSED. The
 reason for this is that this way we can detect when the first buffer
 or event arrives in the sink when the state change completes.

 A sink should block on the first EOS event or buffer received in the
 READY->PAUSED state before commiting the state to PAUSED.

 FLUSHING events have to be handled out of sync with the buffer flow
 and take no part in the preroll procedure.

 Events other than EOS do not complete the preroll stage.

 sink overview
 ~~~~~~~~~~~~~

  - TODO: PREROLL_LOCK can be removed and we can safely use the STREAM_LOCK.


   # Commit the state. We return TRUE if we can continue
   # streaming, FALSE in the case we go to a READY or NULL state.
   # if we go to PLAYING, we don't need to block on preroll.
   commit
   {
     LOCK
     switch (pending)
       case PLAYING:
         need_preroll = FALSE
 	break
       case PAUSED:
 	break
       case READY:
       case NULL:
         return FALSE
       case VOID:
         return TRUE

     # update state
     state = pending
     next = VOID
     pending = VOID
     UNLOCK
     return TRUE
   }

   # Sync an object. We have to wait for the element to reach
   # the PLAYING state before we can wait on the clock.
   # Some items do not need synchronisation (most events) so the
   # get_times method returns FALSE (not syncable)
   # need_preroll indicates that we are not in the PLAYING state
   # and therefore need to commit and potentially block on preroll
   # if our clock_wait got interrupted we commit and block again.
   # The reason for this is that the current item being rendered is
   # not yet finished and we can use that item to finish preroll.
   do_sync (obj)
   {
     # get timing information for this object
     syncable = get_times (obj, &start, &stop)
     if (!syncable)
       return OK;
  again:
     while (need_preroll)
       if (need_commit)
         need_commit = FALSE
         if (!commit)
           return FLUSHING

       if (need_preroll)
         # release PREROLL_LOCK and wait. prerolled can be observed
         # and will be TRUE
         prerolled = TRUE
         PREROLL_WAIT (releasing PREROLL_LOCK)
         prerolled = FALSE
         if (flushing)
           return FLUSHING

     if (valid (start || stop))
       PREROLL_UNLOCK
       end_time = stop
       ret = wait_clock (obj,start)
       PREROLL_LOCK
       if (flushing)
         return FLUSHING
       # if the clock was unscheduled, we redo the
       # preroll
       if (ret == UNSCHEDULED)
         goto again
   }

   # render a prerollable item (EOS or buffer). It is
   # always called with the PREROLL_LOCK helt.
   render_object (obj)
   {
     ret = do_sync (obj)
     if (ret != OK)
       return ret;

     # preroll and syncing done, now we can render
     render(obj)
   }
                                    | # sinks that sync on buffer contents do like this
                                    | while (more_to_render)
                                    |   ret = render
                                    |   if (ret == interrupted)
                                    |     prerolled = TRUE
     render (buffer)          ----->|     PREROLL_WAIT (releasing PREROLL_LOCK)
                                    |     prerolled = FALSE
                                    |     if (flushing)
                                    |       return FLUSHING
                                    |

   # queue a prerollable item (EOS or buffer). It is
   # always called with the PREROLL_LOCK helt.
   # This function will commit the state when receiving the
   # first prerollable item.
   # items are then added to the rendering queue or rendered
   # right away if no preroll is needed.
   queue (obj, prerollable)
   {
     if (need_preroll)
       if (prerollable)
         queuelen++

       # first item in the queue while we need preroll
       # will complete state change and call preroll
       if (queuelen == 1)
         preroll (obj)
         if (need_commit)
           need_commit = FALSE
           if (!commit)
             return FLUSHING

       # then see if we need more preroll items before we
       # can block
       if (need_preroll)
         if (queuelen <= maxqueue)
           queue.add (obj)
           return OK

     # now clear the queue and render each item before
     # rendering the current item.
     while (queue.hasItem)
       render_object (queue.remove())

     render_object (obj)
     queuelen = 0
   }

   # various event functions
   event
     EOS:
       # events must complete preroll too
       STREAM_LOCK
       PREROLL_LOCK
       if (flushing)
         return FALSE
       ret = queue (event, TRUE)
       if (ret == FLUSHING)
         return FALSE
       PREROLL_UNLOCK
       STREAM_UNLOCK
       break
     SEGMENT:
       # the segment must be used to clip incoming
       # buffers. Then then go into the queue as non-prerollable
       # items used for syncing the buffers
       STREAM_LOCK
       PREROLL_LOCK
       if (flushing)
         return FALSE
       set_clip
       ret = queue (event, FALSE)
       if (ret == FLUSHING)
         return FALSE
       PREROLL_UNLOCK
       STREAM_UNLOCK
       break
     FLUSH_START:
       # set flushing and unblock all that is waiting
       event                   ----> subclasses can interrupt render
       PREROLL_LOCK
       flushing = TRUE
       unlock_clock
       PREROLL_SIGNAL
       PREROLL_UNLOCK
       STREAM_LOCK
       lost_state
       STREAM_UNLOCK
       break
     FLUSH_END:
       # unset flushing and clear all data and eos
       STREAM_LOCK
       event
       PREROLL_LOCK
       queue.clear
       queuelen = 0
       flushing = FALSE
       eos = FALSE
       PREROLL_UNLOCK
       STREAM_UNLOCK
       break

   # the chain function checks the buffer falls within the
   # configured segment and queues the buffer for preroll and
   # rendering
   chain
     STREAM_LOCK
     PREROLL_LOCK
     if (flushing)
       return FLUSHING
     if (clip)
       queue (buffer, TRUE)
     PREROLL_UNLOCK
     STREAM_UNLOCK

   state
     switch (transition)
       READY_PAUSED:
         # no datapassing is going on so we always return ASYNC
         ret = ASYNC
 	need_commit = TRUE
         eos = FALSE
         flushing = FALSE
 	need_preroll = TRUE
 	prerolled = FALSE
         break
       PAUSED_PLAYING:
         # we grab the preroll lock. This we can only do if the
 	# chain function is either doing some clock sync, we are
 	# waiting for preroll or the chain function is not being called.
         PREROLL_LOCK
 	if (prerolled || eos)
           ret = OK
 	  need_commit = FALSE
 	  need_preroll = FALSE
 	  if (eos)
 	    post_eos
 	  else
             PREROLL_SIGNAL
 	else
 	  need_preroll = TRUE
 	  need_commit = TRUE
           ret = ASYNC
         PREROLL_UNLOCK
         break
       PLAYING_PAUSED:
                            ---> subclass can interrupt render
         # we grab the preroll lock. This we can only do if the
 	# chain function is either doing some clock sync
 	# or the chain function is not being called.
         PREROLL_LOCK
 	need_preroll = TRUE
         unlock_clock
 	if (prerolled || eos)
           ret = OK
 	else
           ret = ASYNC
         PREROLL_UNLOCK
         break
       PAUSED_READY:
                            ---> subclass can interrupt render
         # we grab the preroll lock. Set to flushing and unlock
 	# everything. This should exit the chain functions and stop
 	# streaming.
         PREROLL_LOCK
         flushing = TRUE
         unlock_clock
         queue.clear
         queuelen = 0
         PREROLL_SIGNAL
         ret = OK
         PREROLL_UNLOCK
         break
	Sink elements
	-------------

	Sink elements consume data and normally have no source pads.

	Typical sink elements include:

	- audio/video renderers
	- network sinks
	- filesinks

	Sinks are harder to construct than other element types as they are
	treated specially by the GStreamer core.

	state changes
	~~~~~~~~~~~~~

	A sink always returns ASYNC from the state change to PAUSED, this
	includes a state change from READY->PAUSED and PLAYING->PAUSED. The
	reason for this is that this way we can detect when the first buffer
	or event arrives in the sink when the state change completes.

	A sink should block on the first EOS event or buffer received in the
	READY->PAUSED state before commiting the state to PAUSED.

	FLUSHING events have to be handled out of sync with the buffer flow
	and take no part in the preroll procedure.

	Events other than EOS do not complete the preroll stage.

	sink overview
	~~~~~~~~~~~~~

	- TODO: PREROLL_LOCK can be removed and we can safely use the STREAM_LOCK.



	# Commit the state. We return TRUE if we can continue
	# streaming, FALSE in the case we go to a READY or NULL state.
	# if we go to PLAYING, we don't need to block on preroll.
	commit
	{
	LOCK
	switch (pending)
	case PLAYING:
	need_preroll = FALSE
	break
	case PAUSED:
	break
	case READY:
	case NULL:
	return FALSE
	case VOID:
	return TRUE

	# update state
	state = pending
	next = VOID
	pending = VOID
	UNLOCK
	return TRUE
	}

	# Sync an object. We have to wait for the element to reach
	# the PLAYING state before we can wait on the clock.
	# Some items do not need synchronisation (most events) so the
	# get_times method returns FALSE (not syncable)
	# need_preroll indicates that we are not in the PLAYING state
	# and therefore need to commit and potentially block on preroll
	# if our clock_wait got interrupted we commit and block again.
	# The reason for this is that the current item being rendered is
	# not yet finished and we can use that item to finish preroll.
	do_sync (obj)
	{
	# get timing information for this object
	syncable = get_times (obj, &start, &stop)
	if (!syncable)
	return OK;
	again:
	while (need_preroll)
	if (need_commit)
	need_commit = FALSE
	if (!commit)
	return FLUSHING

	if (need_preroll)
	# release PREROLL_LOCK and wait. prerolled can be observed
	# and will be TRUE
	prerolled = TRUE
	PREROLL_WAIT (releasing PREROLL_LOCK)
	prerolled = FALSE
	if (flushing)
	return FLUSHING

	if (valid (start \|\| stop))
	PREROLL_UNLOCK
	end_time = stop
	ret = wait_clock (obj,start)
	PREROLL_LOCK
	if (flushing)
	return FLUSHING
	# if the clock was unscheduled, we redo the
	# preroll
	if (ret == UNSCHEDULED)
	goto again
	}

	# render a prerollable item (EOS or buffer). It is
	# always called with the PREROLL_LOCK helt.
	render_object (obj)
	{
	ret = do_sync (obj)
	if (ret != OK)
	return ret;

	# preroll and syncing done, now we can render
	render(obj)
	}
	\| # sinks that sync on buffer contents do like this
	\| while (more_to_render)
	\| ret = render
	\| if (ret == interrupted)
	\| prerolled = TRUE
	render (buffer) ----->\| PREROLL_WAIT (releasing PREROLL_LOCK)
	\| prerolled = FALSE
	\| if (flushing)
	\| return FLUSHING
	\|

	# queue a prerollable item (EOS or buffer). It is
	# always called with the PREROLL_LOCK helt.
	# This function will commit the state when receiving the
	# first prerollable item.
	# items are then added to the rendering queue or rendered
	# right away if no preroll is needed.
	queue (obj, prerollable)
	{
	if (need_preroll)
	if (prerollable)
	queuelen++

	# first item in the queue while we need preroll
	# will complete state change and call preroll
	if (queuelen == 1)
	preroll (obj)
	if (need_commit)
	need_commit = FALSE
	if (!commit)
	return FLUSHING

	# then see if we need more preroll items before we
	# can block
	if (need_preroll)
	if (queuelen <= maxqueue)
	queue.add (obj)
	return OK

	# now clear the queue and render each item before
	# rendering the current item.
	while (queue.hasItem)
	render_object (queue.remove())

	render_object (obj)
	queuelen = 0
	}

	# various event functions
	event
	EOS:
	# events must complete preroll too
	STREAM_LOCK
	PREROLL_LOCK
	if (flushing)
	return FALSE
	ret = queue (event, TRUE)
	if (ret == FLUSHING)
	return FALSE
	PREROLL_UNLOCK
	STREAM_UNLOCK
	break
	SEGMENT:
	# the segment must be used to clip incoming
	# buffers. Then then go into the queue as non-prerollable
	# items used for syncing the buffers
	STREAM_LOCK
	PREROLL_LOCK
	if (flushing)
	return FALSE
	set_clip
	ret = queue (event, FALSE)
	if (ret == FLUSHING)
	return FALSE
	PREROLL_UNLOCK
	STREAM_UNLOCK
	break
	FLUSH_START:
	# set flushing and unblock all that is waiting
	event ----> subclasses can interrupt render
	PREROLL_LOCK
	flushing = TRUE
	unlock_clock
	PREROLL_SIGNAL
	PREROLL_UNLOCK
	STREAM_LOCK
	lost_state
	STREAM_UNLOCK
	break
	FLUSH_END:
	# unset flushing and clear all data and eos
	STREAM_LOCK
	event
	PREROLL_LOCK
	queue.clear
	queuelen = 0
	flushing = FALSE
	eos = FALSE
	PREROLL_UNLOCK
	STREAM_UNLOCK
	break

	# the chain function checks the buffer falls within the
	# configured segment and queues the buffer for preroll and
	# rendering
	chain
	STREAM_LOCK
	PREROLL_LOCK
	if (flushing)
	return FLUSHING
	if (clip)
	queue (buffer, TRUE)
	PREROLL_UNLOCK
	STREAM_UNLOCK

	state
	switch (transition)
	READY_PAUSED:
	# no datapassing is going on so we always return ASYNC
	ret = ASYNC
	need_commit = TRUE
	eos = FALSE
	flushing = FALSE
	need_preroll = TRUE
	prerolled = FALSE
	break
	PAUSED_PLAYING:
	# we grab the preroll lock. This we can only do if the
	# chain function is either doing some clock sync, we are
	# waiting for preroll or the chain function is not being called.
	PREROLL_LOCK
	if (prerolled \|\| eos)
	ret = OK
	need_commit = FALSE
	need_preroll = FALSE
	if (eos)
	post_eos
	else
	PREROLL_SIGNAL
	else
	need_preroll = TRUE
	need_commit = TRUE
	ret = ASYNC
	PREROLL_UNLOCK
	break
	PLAYING_PAUSED:
	---> subclass can interrupt render
	# we grab the preroll lock. This we can only do if the
	# chain function is either doing some clock sync
	# or the chain function is not being called.
	PREROLL_LOCK
	need_preroll = TRUE
	unlock_clock
	if (prerolled \|\| eos)
	ret = OK
	else
	ret = ASYNC
	PREROLL_UNLOCK
	break
	PAUSED_READY:
	---> subclass can interrupt render
	# we grab the preroll lock. Set to flushing and unlock
	# everything. This should exit the chain functions and stop
	# streaming.
	PREROLL_LOCK
	flushing = TRUE
	unlock_clock
	queue.clear
	queuelen = 0
	PREROLL_SIGNAL
	ret = OK
	PREROLL_UNLOCK
	break