/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package tv.danmaku.ijk.media.exo.demo.player; import com.google.android.exoplayer.CodecCounters; import com.google.android.exoplayer.DummyTrackRenderer; import com.google.android.exoplayer.ExoPlaybackException; import com.google.android.exoplayer.ExoPlayer; import com.google.android.exoplayer.MediaCodecAudioTrackRenderer; import com.google.android.exoplayer.MediaCodecTrackRenderer; import com.google.android.exoplayer.MediaCodecTrackRenderer.DecoderInitializationException; import com.google.android.exoplayer.MediaCodecVideoTrackRenderer; import com.google.android.exoplayer.MediaFormat; import com.google.android.exoplayer.SingleSampleSource; import com.google.android.exoplayer.TimeRange; import com.google.android.exoplayer.TrackRenderer; import com.google.android.exoplayer.audio.AudioTrack; import com.google.android.exoplayer.chunk.ChunkSampleSource; import com.google.android.exoplayer.chunk.Format; import com.google.android.exoplayer.dash.DashChunkSource; import com.google.android.exoplayer.drm.StreamingDrmSessionManager; import com.google.android.exoplayer.extractor.ExtractorSampleSource; import com.google.android.exoplayer.hls.HlsSampleSource; import com.google.android.exoplayer.metadata.MetadataTrackRenderer.MetadataRenderer; import com.google.android.exoplayer.metadata.id3.Id3Frame; import com.google.android.exoplayer.text.Cue; import com.google.android.exoplayer.text.TextRenderer; import com.google.android.exoplayer.upstream.BandwidthMeter; import com.google.android.exoplayer.upstream.DefaultBandwidthMeter; import com.google.android.exoplayer.util.DebugTextViewHelper; import com.google.android.exoplayer.util.PlayerControl; import android.media.MediaCodec.CryptoException; import android.os.Handler; import android.os.Looper; import android.view.Surface; import java.io.IOException; import java.util.Collections; import java.util.List; import java.util.concurrent.CopyOnWriteArrayList; /** * A wrapper around {link ExoPlayer} that provides a higher level interface. It can be prepared * with one of a number of {link RendererBuilder} classes to suit different use cases (e.g. DASH, * SmoothStreaming and so on). */ public class DemoPlayer implements ExoPlayer.Listener, ChunkSampleSource.EventListener, HlsSampleSource.EventListener, ExtractorSampleSource.EventListener, SingleSampleSource.EventListener, DefaultBandwidthMeter.EventListener, MediaCodecVideoTrackRenderer.EventListener, MediaCodecAudioTrackRenderer.EventListener, StreamingDrmSessionManager.EventListener, DashChunkSource.EventListener, TextRenderer, MetadataRenderer<List<Id3Frame>>, DebugTextViewHelper.Provider { /** * Builds renderers for the player. */ public interface RendererBuilder { /** * Builds renderers for playback. * * @param player The player for which renderers are being built. {link DemoPlayer#onRenderers} * should be invoked once the renderers have been built. If building fails, * {link DemoPlayer#onRenderersError} should be invoked. */ void buildRenderers(DemoPlayer player); /** * Cancels the current build operation, if there is one. Else does nothing. * <p> * A canceled build operation must not invoke {link DemoPlayer#onRenderers} or * {link DemoPlayer#onRenderersError} on the player, which may have been released. */ void cancel(); } /** * A listener for core events. */ public interface Listener { void onStateChanged(boolean playWhenReady, int playbackState); void onError(Exception e); void onVideoSizeChanged(int width, int height, int unappliedRotationDegrees, float pixelWidthHeightRatio); } /** * A listener for internal errors. * <p> * These errors are not visible to the user, and hence this listener is provided for * informational purposes only. Note however that an internal error may cause a fatal * error if the player fails to recover. If this happens, {link Listener#onError(Exception)} * will be invoked. */ public interface InternalErrorListener { void onRendererInitializationError(Exception e); void onAudioTrackInitializationError(AudioTrack.InitializationException e); void onAudioTrackWriteError(AudioTrack.WriteException e); void onAudioTrackUnderrun(int bufferSize, long bufferSizeMs, long elapsedSinceLastFeedMs); void onDecoderInitializationError(DecoderInitializationException e); void onCryptoError(CryptoException e); void onLoadError(int sourceId, IOException e); void onDrmSessionManagerError(Exception e); } /** * A listener for debugging information. */ public interface InfoListener { void onVideoFormatEnabled(Format format, int trigger, long mediaTimeMs); void onAudioFormatEnabled(Format format, int trigger, long mediaTimeMs); void onDroppedFrames(int count, long elapsed); void onBandwidthSample(int elapsedMs, long bytes, long bitrateEstimate); void onLoadStarted(int sourceId, long length, int type, int trigger, Format format, long mediaStartTimeMs, long mediaEndTimeMs); void onLoadCompleted(int sourceId, long bytesLoaded, int type, int trigger, Format format, long mediaStartTimeMs, long mediaEndTimeMs, long elapsedRealtimeMs, long loadDurationMs); void onDecoderInitialized(String decoderName, long elapsedRealtimeMs, long initializationDurationMs); void onAvailableRangeChanged(int sourceId, TimeRange availableRange); } /** * A listener for receiving notifications of timed text. */ public interface CaptionListener { void onCues(List<Cue> cues); } /** * A listener for receiving ID3 metadata parsed from the media stream. */ public interface Id3MetadataListener { void onId3Metadata(List<Id3Frame> id3Frames); } // Constants pulled into this class for convenience. public static final int STATE_IDLE = ExoPlayer.STATE_IDLE; public static final int STATE_PREPARING = ExoPlayer.STATE_PREPARING; public static final int STATE_BUFFERING = ExoPlayer.STATE_BUFFERING; public static final int STATE_READY = ExoPlayer.STATE_READY; public static final int STATE_ENDED = ExoPlayer.STATE_ENDED; public static final int TRACK_DISABLED = ExoPlayer.TRACK_DISABLED; public static final int TRACK_DEFAULT = ExoPlayer.TRACK_DEFAULT; public static final int RENDERER_COUNT = 4; public static final int TYPE_VIDEO = 0; public static final int TYPE_AUDIO = 1; public static final int TYPE_TEXT = 2; public static final int TYPE_METADATA = 3; private static final int RENDERER_BUILDING_STATE_IDLE = 1; private static final int RENDERER_BUILDING_STATE_BUILDING = 2; private static final int RENDERER_BUILDING_STATE_BUILT = 3; private final RendererBuilder rendererBuilder; private final ExoPlayer player; private final PlayerControl playerControl; private final Handler mainHandler; private final CopyOnWriteArrayList<Listener> listeners; private int rendererBuildingState; private int lastReportedPlaybackState; private boolean lastReportedPlayWhenReady; private Surface surface; private TrackRenderer videoRenderer; private CodecCounters codecCounters; private Format videoFormat; private int videoTrackToRestore; private BandwidthMeter bandwidthMeter; private boolean backgrounded; private CaptionListener captionListener; private Id3MetadataListener id3MetadataListener; private InternalErrorListener internalErrorListener; private InfoListener infoListener; public DemoPlayer(RendererBuilder rendererBuilder) { this.rendererBuilder = rendererBuilder; player = ExoPlayer.Factory.newInstance(RENDERER_COUNT, 1000, 5000); player.addListener(this); playerControl = new PlayerControl(player); mainHandler = new Handler(); listeners = new CopyOnWriteArrayList<>(); lastReportedPlaybackState = STATE_IDLE; rendererBuildingState = RENDERER_BUILDING_STATE_IDLE; // Disable text initially. player.setSelectedTrack(TYPE_TEXT, TRACK_DISABLED); } public PlayerControl getPlayerControl() { return playerControl; } public void addListener(Listener listener) { listeners.add(listener); } public void removeListener(Listener listener) { listeners.remove(listener); } public void setInternalErrorListener(InternalErrorListener listener) { internalErrorListener = listener; } public void setInfoListener(InfoListener listener) { infoListener = listener; } public void setCaptionListener(CaptionListener listener) { captionListener = listener; } public void setMetadataListener(Id3MetadataListener listener) { id3MetadataListener = listener; } public void setSurface(Surface surface) { this.surface = surface; pushSurface(false); } public Surface getSurface() { return surface; } public void blockingClearSurface() { surface = null; pushSurface(true); } public int getTrackCount(int type) { return player.getTrackCount(type); } public MediaFormat getTrackFormat(int type, int index) { return player.getTrackFormat(type, index); } public int getSelectedTrack(int type) { return player.getSelectedTrack(type); } public void setSelectedTrack(int type, int index) { player.setSelectedTrack(type, index); if (type == TYPE_TEXT && index < 0 && captionListener != null) { captionListener.onCues(Collections.<Cue>emptyList()); } } public boolean getBackgrounded() { return backgrounded; } public void setBackgrounded(boolean backgrounded) { if (this.backgrounded == backgrounded) { return; } this.backgrounded = backgrounded; if (backgrounded) { videoTrackToRestore = getSelectedTrack(TYPE_VIDEO); setSelectedTrack(TYPE_VIDEO, TRACK_DISABLED); blockingClearSurface(); } else { setSelectedTrack(TYPE_VIDEO, videoTrackToRestore); } } public void prepare() { if (rendererBuildingState == RENDERER_BUILDING_STATE_BUILT) { player.stop(); } rendererBuilder.cancel(); videoFormat = null; videoRenderer = null; rendererBuildingState = RENDERER_BUILDING_STATE_BUILDING; maybeReportPlayerState(); rendererBuilder.buildRenderers(this); } /** * Invoked with the results from a {link RendererBuilder}. * * @param renderers Renderers indexed by {link DemoPlayer} TYPE_* constants. An individual * element may be null if there do not exist tracks of the corresponding type. * @param bandwidthMeter Provides an estimate of the currently available bandwidth. May be null. */ /* package */ void onRenderers(TrackRenderer[] renderers, BandwidthMeter bandwidthMeter) { for (int i = 0; i < RENDERER_COUNT; i++) { if (renderers[i] == null) { // Convert a null renderer to a dummy renderer. renderers[i] = new DummyTrackRenderer(); } } // Complete preparation. this.videoRenderer = renderers[TYPE_VIDEO]; this.codecCounters = videoRenderer instanceof MediaCodecTrackRenderer ? ((MediaCodecTrackRenderer) videoRenderer).codecCounters : renderers[TYPE_AUDIO] instanceof MediaCodecTrackRenderer ? ((MediaCodecTrackRenderer) renderers[TYPE_AUDIO]).codecCounters : null; this.bandwidthMeter = bandwidthMeter; pushSurface(false); player.prepare(renderers); rendererBuildingState = RENDERER_BUILDING_STATE_BUILT; } /** * Invoked if a {link RendererBuilder} encounters an error. * * @param e Describes the error. */ /* package */ void onRenderersError(Exception e) { if (internalErrorListener != null) { internalErrorListener.onRendererInitializationError(e); } for (Listener listener : listeners) { listener.onError(e); } rendererBuildingState = RENDERER_BUILDING_STATE_IDLE; maybeReportPlayerState(); } public void setPlayWhenReady(boolean playWhenReady) { player.setPlayWhenReady(playWhenReady); } public void seekTo(long positionMs) { player.seekTo(positionMs); } public void release() { rendererBuilder.cancel(); rendererBuildingState = RENDERER_BUILDING_STATE_IDLE; surface = null; player.release(); } public int getPlaybackState() { if (rendererBuildingState == RENDERER_BUILDING_STATE_BUILDING) { return STATE_PREPARING; } int playerState = player.getPlaybackState(); if (rendererBuildingState == RENDERER_BUILDING_STATE_BUILT && playerState == STATE_IDLE) { // This is an edge case where the renderers are built, but are still being passed to the // player's playback thread. return STATE_PREPARING; } return playerState; } @Override public Format getFormat() { return videoFormat; } @Override public BandwidthMeter getBandwidthMeter() { return bandwidthMeter; } @Override public CodecCounters getCodecCounters() { return codecCounters; } @Override public long getCurrentPosition() { return player.getCurrentPosition(); } public long getDuration() { return player.getDuration(); } public int getBufferedPercentage() { return player.getBufferedPercentage(); } public boolean getPlayWhenReady() { return player.getPlayWhenReady(); } /* package */ Looper getPlaybackLooper() { return player.getPlaybackLooper(); } /* package */ Handler getMainHandler() { return mainHandler; } @Override public void onPlayerStateChanged(boolean playWhenReady, int state) { maybeReportPlayerState(); } @Override public void onPlayerError(ExoPlaybackException exception) { rendererBuildingState = RENDERER_BUILDING_STATE_IDLE; for (Listener listener : listeners) { listener.onError(exception); } } @Override public void onVideoSizeChanged(int width, int height, int unappliedRotationDegrees, float pixelWidthHeightRatio) { for (Listener listener : listeners) { listener.onVideoSizeChanged(width, height, unappliedRotationDegrees, pixelWidthHeightRatio); } } @Override public void onDroppedFrames(int count, long elapsed) { if (infoListener != null) { infoListener.onDroppedFrames(count, elapsed); } } @Override public void onBandwidthSample(int elapsedMs, long bytes, long bitrateEstimate) { if (infoListener != null) { infoListener.onBandwidthSample(elapsedMs, bytes, bitrateEstimate); } } @Override public void onDownstreamFormatChanged(int sourceId, Format format, int trigger, long mediaTimeMs) { if (infoListener == null) { return; } if (sourceId == TYPE_VIDEO) { videoFormat = format; infoListener.onVideoFormatEnabled(format, trigger, mediaTimeMs); } else if (sourceId == TYPE_AUDIO) { infoListener.onAudioFormatEnabled(format, trigger, mediaTimeMs); } } @Override public void onDrmKeysLoaded() { // Do nothing. } @Override public void onDrmSessionManagerError(Exception e) { if (internalErrorListener != null) { internalErrorListener.onDrmSessionManagerError(e); } } @Override public void onDecoderInitializationError(DecoderInitializationException e) { if (internalErrorListener != null) { internalErrorListener.onDecoderInitializationError(e); } } @Override public void onAudioTrackInitializationError(AudioTrack.InitializationException e) { if (internalErrorListener != null) { internalErrorListener.onAudioTrackInitializationError(e); } } @Override public void onAudioTrackWriteError(AudioTrack.WriteException e) { if (internalErrorListener != null) { internalErrorListener.onAudioTrackWriteError(e); } } @Override public void onAudioTrackUnderrun(int bufferSize, long bufferSizeMs, long elapsedSinceLastFeedMs) { if (internalErrorListener != null) { internalErrorListener.onAudioTrackUnderrun(bufferSize, bufferSizeMs, elapsedSinceLastFeedMs); } } @Override public void onCryptoError(CryptoException e) { if (internalErrorListener != null) { internalErrorListener.onCryptoError(e); } } @Override public void onDecoderInitialized(String decoderName, long elapsedRealtimeMs, long initializationDurationMs) { if (infoListener != null) { infoListener.onDecoderInitialized(decoderName, elapsedRealtimeMs, initializationDurationMs); } } @Override public void onLoadError(int sourceId, IOException e) { if (internalErrorListener != null) { internalErrorListener.onLoadError(sourceId, e); } } @Override public void onCues(List<Cue> cues) { if (captionListener != null && getSelectedTrack(TYPE_TEXT) != TRACK_DISABLED) { captionListener.onCues(cues); } } @Override public void onMetadata(List<Id3Frame> id3Frames) { if (id3MetadataListener != null && getSelectedTrack(TYPE_METADATA) != TRACK_DISABLED) { id3MetadataListener.onId3Metadata(id3Frames); } } @Override public void onAvailableRangeChanged(int sourceId, TimeRange availableRange) { if (infoListener != null) { infoListener.onAvailableRangeChanged(sourceId, availableRange); } } @Override public void onPlayWhenReadyCommitted() { // Do nothing. } @Override public void onDrawnToSurface(Surface surface) { // Do nothing. } @Override public void onLoadStarted(int sourceId, long length, int type, int trigger, Format format, long mediaStartTimeMs, long mediaEndTimeMs) { if (infoListener != null) { infoListener.onLoadStarted(sourceId, length, type, trigger, format, mediaStartTimeMs, mediaEndTimeMs); } } @Override public void onLoadCompleted(int sourceId, long bytesLoaded, int type, int trigger, Format format, long mediaStartTimeMs, long mediaEndTimeMs, long elapsedRealtimeMs, long loadDurationMs) { if (infoListener != null) { infoListener.onLoadCompleted(sourceId, bytesLoaded, type, trigger, format, mediaStartTimeMs, mediaEndTimeMs, elapsedRealtimeMs, loadDurationMs); } } @Override public void onLoadCanceled(int sourceId, long bytesLoaded) { // Do nothing. } @Override public void onUpstreamDiscarded(int sourceId, long mediaStartTimeMs, long mediaEndTimeMs) { // Do nothing. } private void maybeReportPlayerState() { boolean playWhenReady = player.getPlayWhenReady(); int playbackState = getPlaybackState(); if (lastReportedPlayWhenReady != playWhenReady || lastReportedPlaybackState != playbackState) { for (Listener listener : listeners) { listener.onStateChanged(playWhenReady, playbackState); } lastReportedPlayWhenReady = playWhenReady; lastReportedPlaybackState = playbackState; } } private void pushSurface(boolean blockForSurfacePush) { if (videoRenderer == null) { return; } if (blockForSurfacePush) { player.blockingSendMessage( videoRenderer, MediaCodecVideoTrackRenderer.MSG_SET_SURFACE, surface); } else { player.sendMessage( videoRenderer, MediaCodecVideoTrackRenderer.MSG_SET_SURFACE, surface); } } }