There is a bug in CompositionVideoSinkProvider where the rotation
effect is applied only on the first video and the same effect
is applied on subsequent videos without checking if the next
items in the playlist must be rotated.
The bug applies only on devices with API < 21.
PiperOrigin-RevId: 589823797
We currently pause playback to prevent further progress while the
app thread runs assertion and triggers additional actions. This is
not ideal because we do not actually want to pause playback in
almost all cases where this method used.
This can be improved by keeping the playback thread blocked and only
unblock it the next time the app thread waits for the player (either
via RobolectricUtil methods or by blocking the thread itself). To
add this automatic handling, this change introduces a new util class
for the tests that can keep the list of waiting threads statically
(because the access to this logic is spread across multiple independent
classes).
PiperOrigin-RevId: 589784204
Fix a bug where CompositingVideoSinkProvider.isInitialized() returns
true even after releasing the CompositingVideoSinkProvider.
PiperOrigin-RevId: 588481744
This change moves the instantiation of the CompositingVideoSinkProvider
out of MediaCodecVideoRenderer so that the composition preview player can
re-use the CompositingVideoSinkProvider instance for driving the rendering of
images.
The main point of the change is the ownership of the
VideoFrameReleaseControl, which decides when a frame should be rendered
and so far was owned by the MediaCodecVideoRenderer. With this change,
in the context of composition preview, the VideoFrameReleaseControl
is no longer owned by MediaCodecVideoRenderer, but provided to it.
This way, the CompositingVideoSinkProvider instance, hence the
VideoFrameReleaseControl can be re-used to funnel images into the
video pipeline and render the pipeline from elsewhere (and not
MediaCodecVideoRenderer).
PiperOrigin-RevId: 588459007
This image has two video tracks in the MP4 data, one is a 'real' video
which we want to play by default, and the other is a low-fps video track
which isn't intended to be directly played, it's encoded in HEVC for
compression and decoding efficiency.
This test demonstrates ExoPlayer's current behaviour default extraction
and playback, which results in selecting the high-res, low-fps track
(actually single sample in this example), instead of playing the actual
video.
PiperOrigin-RevId: 588068908
As Opus decoders skip some bytes prior to playback during a seek, the renderer for bypass playback should send samples to the decoder even if they would be decode-only. However, the renderer should not send samples with time preceding that range. This change adds that constraint.
#minor-release
PiperOrigin-RevId: 588014983
Both the extension OPUS decoder and the OMX/C2 MediaCodec
implementations for OPUS and VORBIS decode into the channel
layout defined by VORBIS. See
https://www.xiph.org/vorbis/doc/Vorbis_I_spec.html#x1-140001.2.3
While this is technically correct for a stand-alone OPUS or VORBIS
decoder, it doesn't match the channel layout expected by Android.
See https://developer.android.com/reference/android/media/AudioFormat#channelMask
The fix is to apply the channel mapping after decoding if needed.
Also add e2e tests with audio dumps for the extension renderer,
including a new 5.1 channel test file.
Issue: google/ExoPlayer#8396
#minor-release
PiperOrigin-RevId: 588004832
`mediaCrypto` is initialized before `codec` in
`maybeInitCodecOrBypass`. Before this change, it was possible for
`maybeInitCodecOrBypass` to complete with `mediaCrypto != null` and
`codec == null`, in particular if it was run as part of clearing the
player surface (since in that case, no video codec is initialized).
This inconsistent state then causes issues during a later invocation of
`maybeInitCodecOrBypass`, when `mediaCrypto` is still non-null, and
`mediaCryptoRequiresSecureDecoder = true`, but the
content has been changed to unencrypted with no associated DRM session.
This results in a playback error, because a secure decoder is
initialized but there's no DRM session available to work with it.
This change ensures that when `maybeInitCodecOrBypass` completes,
either both `mediaCrypto != null` and `codec != null` (i.e. codec
initialization was completed) or `mediaCrypto == null` and
`codec == null` (i.e. codec initialization was not completed). We also
ensure that when nulling out `mediaCrypto` we also set
`maybeInitCodecOrBypass = false`. A later change should be able to
demote `maybeInitCodecOrBypass` from a field to a local in order to
remove any risk of that part of state becoming out of sync. This
resolves the issue, because during the second invocation of
`maybeInitCodecOrBypass` an insecure decoder is now (correctly)
initialized and the unencrypted content is successfully played.
#minor-release
PiperOrigin-RevId: 587713911
We set the `playerId` only in the constructor currently. But in the case of this source doesn't have `preload` called, the player's release of this source will set the playerId to `null`, which makes this source un-reusable with a null `playerId`.
PiperOrigin-RevId: 587698214
Add an check when loading progressive media in case the load
is canceled. If the player is released very early, the progressive
media period may carry on with the initial loading unnecessarily.
PiperOrigin-RevId: 586288385
At least some Android 14 devices still have the same invalid URL issue
when using ClearKey DRM, so might as well apply the check to newer
versions of Android as well.
We don't get the buffer back after decoding to make a proper decision
about whether dropping the buffer is needed, so we do the next best
thing and tell the codec to drop the buffer if its input timestamp is
less than the intended start time.
PiperOrigin-RevId: 584863144
Move the reflective loading of VideoFrameProcessor from
MediaCodecVideoRenderer to the CompositingVideoSinkProvider. This is so
that all reflective code lives in one place. The
CompositingVideoSinkProvider already has reflective code to load the
default PreviewingVideoGraph.Factory.
PiperOrigin-RevId: 584852547
Split CompositingVideoSinkProvider.VideoSinkImpl in two classes:
- VideoSinkImpl now only receives input from MediaCodecVideoRenderer and
forwards frames to its connected VideoFrameProcessor
- VideoFrameRenderControl takes composited frames out of the VideoGraph
and schedules the rendering of those.
- CompositingVideoSinkProvider connects VideoSinkImpl with
VideoFramesRenderer.
PiperOrigin-RevId: 584605078
The live offset override is used to replace the media-defined
live offset after user seeks to ensure the live adjustment adjusts
to the new user-provided live offset and doesn't go back to the
original one.
However, the code currently clips the override to the min/max
live offsets defined in LiveConfiguration. This is useful to
clip the default value (in case of inconsistent values in the media),
but the clipping shouldn't be applied to user overrides as
the player will then adjust the position back to the min/max
and doesn't stay at the desired user position.
See 2416d99857 (r132871601)
#minor-release
PiperOrigin-RevId: 584311004
Currently, ads are only defined by a single URL, which makes it
impossible to define additional fields needed to play ads correctly.
This can be fixed by using a full MediaItem in AdPlaybackState,
replacing the previous Uri field.
PiperOrigin-RevId: 582331588
MIME types are case-insensitive, but none of the many existing
comparisons across our code base take this into account. The
code can be made more robust by normalizing all MIME types at the
moment they are first set into a class/builder and adding toLowerCase
as part of the normalization.
Most concretely, this fixes an issue with playing HLS streams via
the IMA SDK where the stream MIME type is indicated with all lower
case "application/x-mpegurl", which failed the MIME type comparison
in DefaultMediaSourceFactory.
PiperOrigin-RevId: 582317261
BundledChunkExtractor creates a JpegExtractor or a PngExtractor if the
chunk's MIME type is JPEG or PNG respectively.
The JpegExtractor is instantiated to load an image track.
PiperOrigin-RevId: 582005828
Instantiate an ImageRenderer and add it to the list returned by
DefaultRenderersFactory.buildRenderers.
Add Renderer.MessageType.MSG_SET_IMAGE_OUTPUT and
ExoPlayer.setImageOutput to enable setting a custom
ImageRenderer.imageOutput.
Add ImageRenderer.handleMessage to process messages sent to the
renderer.
PiperOrigin-RevId: 581962451
Both interfaces are not really needed as the methods can be called
on the respective classes directly. This also avoid error-prone
situations where classes define to/fromBundle methods with parameters
that should be used instead of the parameter-less version.
Also deprecate all existing CREATOR static instances and make the
corresponding fromBundle method public where needed.
PiperOrigin-RevId: 579189766
DefaultTrackSelector now has all logic necessary for selecting an
image track.
If isPrioritizeImageOverVideoEnabled is set to true, image track will
try to be selected first and a video track will only be selected if no
image track is available. If isPrioritizeImageOverVideoEnabled is set
to false, image track will be selected only if video track wasn't
selected.
PiperOrigin-RevId: 578806006
BundleableUtil is the only class that really depends on the type
inheritence from Bundleable. However, it only needs this as a way
to define Function<T, Bundle> and Function<Bundle, T>, which could
just be passed in as parameters as it's already done for some of
these methods.
Also rename the class to BundleCollectionUtil accordingly.
PiperOrigin-RevId: 578791946
This change applies to standalone TTML files linked directly from the manifest.
As a result, we no longer have the flakiness in the DashPlaybackTest which uses sidecar-loaded (standalone file) TTML subtitles. We experimentally opt into parsing subtitles during extraction and use SubtitleExtractor in hybrid mode.
PiperOrigin-RevId: 577457256
This CL adds an isPrioritizeImageOverVideoEnabled flag to
TrackSelectionParameters and an API to set the flag value.
The flag will be used by DefaultTrackSelector to determine whether
to select an image track if both an image track and a video track are available.
PiperOrigin-RevId: 576175162
The events happens in the following order, assuming two media items:
1. First media item is fully decoded, record the last frame's pts
- Note frame processing is still ongoing for this media item
2. Renderer sends `onOutputFormatChanged()` to signal the second media item
3. **Block sending the frames of the second media item to the `VideoSink`**
4. Frame processing finishes on the first media item
5. The last frame of the first media item is released
6. **Reconfigure the `VideoSink` to apply new effects**
7. **Start sending the frames of the second media item to the `VideoSink`**
This CL implements the **events in bold**
PiperOrigin-RevId: 576098798
Some devices supporting Performance Points for decoder coverage are missing coverage over the CDD requirements for H264. For these cases ExoPlayer should fall back to legacy resolution and frame rate support checks. If there is an H264 stream evaluated as a `PerformancePointCoverageResult` of `COVERAGE_RESULT_NO`, then ExoPlayer checks for coverage of the [720p CDD requirement](https://source.android.com/docs/compatibility/10/android-10-cdd#5_3_4_h_264).
Issue: google/ExoPlayer#10898
Issue: androidx/media#693
PiperOrigin-RevId: 575768836
Since DEFAULT_MAX_CHANNEL_COUNT was increased from 8 to 10,
getMaxSupportedChannelCountForPassthrough always throws if its loop
enters its second iteration (channelCount of 9). This is due to
Util.getAudioTrackChannelConfig returning CHANNEL_INVALID when passed a
channelCount of 9, and setting CHANNEL_INVALID as the AudioFormat's
channel mask throws an exception.
This change skips each iteration where CHANNEL_INVALID is returned.
As Opus decoders skip some bytes prior to playback during a seek, the renderer for bypass playback should send samples to the decoder even if they would be decode-only.
#minor-release
PiperOrigin-RevId: 574494666
The `PreloadMediaSource` has below two new public methods that suppose to be called by the app:
* `preload(long)` allows the apps to preload the source at the passed start position before playback. The preload efforts include preparing the source for a `Timeline`, creating and caching a `MediaPeriod`, preparing the period, selecting tracks on the period and continuing loading the data on the period.
* `releasePreloadMediaSource()` allows the apps to release the preloaded progress.
The `PreloadMediaPeriod` is designed to facilitate the `PreloadMediaSource` for the preloading work. It has a new package-private method `selectTracksForPreloading` which will cache the `SampleStream` that corresponds to the track selection made during the preloading, and when the `PreloadMediaPeriod.selectTracks` is called for playback, it will uses the preloaded streams if the new selection is equal to the selection made during the preloading.
Also add a shortform demo module to demo the usage of `PreloadMediaSource` with the short-form content use case.
PiperOrigin-RevId: 574439529
This change moves the release timestamp adjustment logic out of
MediaCodecVideoRenderer and into a standalone component, the
VideoFrameReleaseControl. The plan for VideoFrameReleaseControl is to use
it:
- from MediaCodecVideoRenderer, when ExoPlayer plays video in standalone
mode.
- from the CompositionPlayer's DefaultVideoSink, when CompositionPlayer
supports multiple sequences.
- (temporarily) from the CompositionPlayer's custom ImageRenderer while
we are implementing single-sequence preview, which is an intermediate
milestone for composition preview.
PiperOrigin-RevId: 574420427
