GST_VIDEO_FRAME_PLANE_STRIDE() should be used to get the actual buffer stride,
as reported in the buffers's GstVideoMeta, when copying data to that buffer.
https://bugzilla.gnome.org/show_bug.cgi?id=768173
Modified to use gstglmemoryegl to avoid texture creation/copy operations
at the glupload.
[Matthew Waters]: gst-indent the sources and port testegl to GstGLMemoryEGL
https://bugzilla.gnome.org/show_bug.cgi?id=760918
Without this commit the decoder streaming thread stops without ever attending
the drain request, leaving the decoder input thread waiting forever.
https://bugzilla.gnome.org/show_bug.cgi?id=758274
Instead of the audiodecoder one. The OMX audioo decoders have their
valid input in the template pad, so just check against that to
avoid doing a query downstream.
Instead of the videodecoder one. The OMX video decoders have their
valid input in the template pad, so just check against that to
avoid doing a query downstream.
The omxvideodecoder class only checks some of the caps parameters but if
other fields change such as h264 profile and/or level it wouldn't trigger a
reconfiguration.
https://bugzilla.gnome.org/show_bug.cgi?id=752376
ret is set to GST_STATE_CHANGE_SUCCESS and never touched, so it is impossible
for it to be anything else at the if check. Remove the if check.
CID #1287053
There is one rare case where calling handle_messages() more than once can cause a deadlock
in the video decoder element:
- sink pad thread starts the src pad task (gst_omx_video_dec_loop())
- _video_dec_loop() calls gst_omx_port_acquire_buffer() on dec_out_port
- blocks in gst_omx_component_wait_message() releasing comp->lock and comp->messages_lock
(initially, there are no buffers configured on that port, so it waits for OMX_EventPortSettingsChanged)
- the sink pad thread pushes a buffer to the decoder with gst_omx_port_release_buffer()
- _release_buffer() grabs comp->lock and sends the buffer to OMX, which consumes it immediately
- EmptyBufferDone gets called at this point, which signals _wait_message() to unblock
- the message from EmptyBufferDone is processed in gst_omx_component_handle_messages()
called from gst_omx_port_release_buffer()
- gst_omx_port_release_buffer releases comp->lock
- the src pad thread now gets to run, grabbing comp->lock while it exits from _wait_message()
- _acquire_buffer() calls the _handle_messages() on the next line after _wait_message(),
which does nothing (no pending messages)
- then it goes to "retry:" and calls _handle_messages() again, which also does nothing
(still no pending messages)
- scheduler switches to a videocore thread that calls EventHandler, informing us about the
OMX_EventPortSettingsChanged event that just arrived
- EventHandler graps comp->messages_lock, but not comp->lock, so it can run in parallel at
this point just fine.
- scheduler switches back to the src pad thread (which is in the middle of _acquire_buffer())
- the next _handle_messages() which is right before if (g_queue_is_empty (&port->pending_buffers))
processes the OMX_EventPortSettingsChanged
- the buffer queue is still empty, so that thread blocks again in _wait_message()
- the sink pad thread tries to acquire the next input port buffer
- _acquire_buffer() also blocks this thread in:
if (comp->pending_reconfigure_outports) { ... _wait_message() ... }
- DEADLOCK. gstreamer is waiting for omx to do something, omx waits for gstreamer to do something.
By removing those extra _handle_messages() calls, we can ensure that all the checks of
_acquire_buffer() will re-run. In the above case, after the scheduler switches back to
the middle of _acquire_buffer(), the code will enter _wait_message(), which will see that
there are pending messages and will return immediately, going back to "retry:" and
re-doing all the checks properly.
https://bugzilla.gnome.org/show_bug.cgi?id=741854
Interlaced stream could make the decoder use two input frames to produce
one output frame causing the gstvideodecoder frame list to grow.
Assuming the video decoder output frame in display order rather than in
decoding order, this commit add a way to release frames with PTS less
than current output frame.
https://bugzilla.gnome.org/show_bug.cgi?id=730995
Make code implementation conditionally built for RaspberryPI because
OMX_IndexConfigAudioRenderingLatency seems to be a Broadcom extension.
On other targets the query position might not be accurate without
implementing _delay appropriatelly.
Provides omxanalogaudiosink and omxhdmiaudiosink elements on
the Raspberry PI.
- omxanalogaudiosink is capable to render raw mono or stereo audio
through the jack output.
- omxhdmiaudiosink is capable to render raw audio up to 8 channels
and transmit ac3/dts(IEC 61937) through the HDMI output.
- sinks provide a clock derived from rendered samples
- sinks support the GstStreamVolume interface by implementing
the volume and mute properties.
https://bugzilla.gnome.org/show_bug.cgi?id=728962
Previously when using gst EGLImage allocator the caps was
video/x-raw, format=RGBA instead of
video/x-raw(memory:EGLImage), format=RGBA
Kepp previous behavior in case negotiation fails with caps feature.
It means it will still have a chance to use EGLImage even if the
feature is not in the caps.
https://bugzilla.gnome.org/show_bug.cgi?id=729196
We have to return the buffers back to the pool in when stopping to
not mess with the GstBufferPool accounting.
The OMX buffers will be freed when those won't be in charge of the
pool in the chained up call to 'stop'.
Fixes segfaults on finalize and pool not being properly deactivated.
https://bugzilla.gnome.org/show_bug.cgi?id=726337
When using GstOMXBufferPool on an output port, it internally uses
a GPtrArray to manage the GstBuffers instead of the default queue
from the GstBufferPool base class.
In this case GstBufferPool::default_free_buffer is not called when
the pool is stopped. Because the queue is empty. So explicitely
call gst_omx_buffer_pool_free_buffer on each buffer contained in
the GPtrArray.
https://bugzilla.gnome.org/show_bug.cgi?id=726337
