| /* |
| * Copyright 2014 The WebRTC project authors. All Rights Reserved. |
| * |
| * Use of this source code is governed by a BSD-style license |
| * that can be found in the LICENSE file in the root of the source |
| * tree. An additional intellectual property rights grant can be found |
| * in the file PATENTS. All contributing project authors may |
| * be found in the AUTHORS file in the root of the source tree. |
| */ |
| |
| package org.webrtc; |
| |
| import android.media.MediaCodec; |
| import android.media.MediaCodecInfo; |
| import android.media.MediaCodecInfo.CodecCapabilities; |
| import android.media.MediaCodecList; |
| import android.media.MediaFormat; |
| import android.os.Build; |
| import android.os.SystemClock; |
| import android.view.Surface; |
| import java.nio.ByteBuffer; |
| import java.util.ArrayDeque; |
| import java.util.Arrays; |
| import java.util.HashSet; |
| import java.util.List; |
| import java.util.Queue; |
| import java.util.Set; |
| import java.util.concurrent.CountDownLatch; |
| import java.util.concurrent.TimeUnit; |
| |
| // Java-side of peerconnection_jni.cc:MediaCodecVideoDecoder. |
| // This class is an implementation detail of the Java PeerConnection API. |
| @SuppressWarnings("deprecation") |
| public class MediaCodecVideoDecoder { |
| // This class is constructed, operated, and destroyed by its C++ incarnation, |
| // so the class and its methods have non-public visibility. The API this |
| // class exposes aims to mimic the webrtc::VideoDecoder API as closely as |
| // possibly to minimize the amount of translation work necessary. |
| |
| private static final String TAG = "MediaCodecVideoDecoder"; |
| private static final long MAX_DECODE_TIME_MS = 200; |
| |
| // TODO(magjed): Use MediaFormat constants when part of the public API. |
| private static final String FORMAT_KEY_STRIDE = "stride"; |
| private static final String FORMAT_KEY_SLICE_HEIGHT = "slice-height"; |
| private static final String FORMAT_KEY_CROP_LEFT = "crop-left"; |
| private static final String FORMAT_KEY_CROP_RIGHT = "crop-right"; |
| private static final String FORMAT_KEY_CROP_TOP = "crop-top"; |
| private static final String FORMAT_KEY_CROP_BOTTOM = "crop-bottom"; |
| |
| // Tracks webrtc::VideoCodecType. |
| public enum VideoCodecType { VIDEO_CODEC_VP8, VIDEO_CODEC_VP9, VIDEO_CODEC_H264 } |
| |
| // Timeout for input buffer dequeue. |
| private static final int DEQUEUE_INPUT_TIMEOUT = 500000; |
| // Timeout for codec releasing. |
| private static final int MEDIA_CODEC_RELEASE_TIMEOUT_MS = 5000; |
| // Max number of output buffers queued before starting to drop decoded frames. |
| private static final int MAX_QUEUED_OUTPUTBUFFERS = 3; |
| // Active running decoder instance. Set in initDecode() (called from native code) |
| // and reset to null in release() call. |
| private static MediaCodecVideoDecoder runningInstance = null; |
| private static MediaCodecVideoDecoderErrorCallback errorCallback = null; |
| private static int codecErrors = 0; |
| // List of disabled codec types - can be set from application. |
| private static Set<String> hwDecoderDisabledTypes = new HashSet<String>(); |
| |
| private Thread mediaCodecThread; |
| private MediaCodec mediaCodec; |
| private ByteBuffer[] inputBuffers; |
| private ByteBuffer[] outputBuffers; |
| private static final String VP8_MIME_TYPE = "video/x-vnd.on2.vp8"; |
| private static final String VP9_MIME_TYPE = "video/x-vnd.on2.vp9"; |
| private static final String H264_MIME_TYPE = "video/avc"; |
| // List of supported HW VP8 decoders. |
| private static final String[] supportedVp8HwCodecPrefixes = { |
| "OMX.qcom.", "OMX.Nvidia.", "OMX.Exynos.", "OMX.Intel."}; |
| // List of supported HW VP9 decoders. |
| private static final String[] supportedVp9HwCodecPrefixes = {"OMX.qcom.", "OMX.Exynos."}; |
| // List of supported HW H.264 decoders. |
| private static final String[] supportedH264HwCodecPrefixes = { |
| "OMX.qcom.", "OMX.Intel.", "OMX.Exynos."}; |
| // List of supported HW H.264 high profile decoders. |
| private static final String supportedQcomH264HighProfileHwCodecPrefix = "OMX.qcom."; |
| private static final String supportedExynosH264HighProfileHwCodecPrefix = "OMX.Exynos."; |
| |
| // NV12 color format supported by QCOM codec, but not declared in MediaCodec - |
| // see /hardware/qcom/media/mm-core/inc/OMX_QCOMExtns.h |
| private static final int COLOR_QCOM_FORMATYVU420PackedSemiPlanar32m4ka = 0x7FA30C01; |
| private static final int COLOR_QCOM_FORMATYVU420PackedSemiPlanar16m4ka = 0x7FA30C02; |
| private static final int COLOR_QCOM_FORMATYVU420PackedSemiPlanar64x32Tile2m8ka = 0x7FA30C03; |
| private static final int COLOR_QCOM_FORMATYUV420PackedSemiPlanar32m = 0x7FA30C04; |
| // Allowable color formats supported by codec - in order of preference. |
| private static final List<Integer> supportedColorList = Arrays.asList( |
| CodecCapabilities.COLOR_FormatYUV420Planar, CodecCapabilities.COLOR_FormatYUV420SemiPlanar, |
| CodecCapabilities.COLOR_QCOM_FormatYUV420SemiPlanar, |
| COLOR_QCOM_FORMATYVU420PackedSemiPlanar32m4ka, COLOR_QCOM_FORMATYVU420PackedSemiPlanar16m4ka, |
| COLOR_QCOM_FORMATYVU420PackedSemiPlanar64x32Tile2m8ka, |
| COLOR_QCOM_FORMATYUV420PackedSemiPlanar32m); |
| |
| private int colorFormat; |
| private int width; |
| private int height; |
| private int stride; |
| private int sliceHeight; |
| private boolean hasDecodedFirstFrame; |
| private final Queue<TimeStamps> decodeStartTimeMs = new ArrayDeque<TimeStamps>(); |
| private boolean useSurface; |
| |
| // The below variables are only used when decoding to a Surface. |
| private TextureListener textureListener; |
| private int droppedFrames; |
| private Surface surface = null; |
| private final Queue<DecodedOutputBuffer> dequeuedSurfaceOutputBuffers = |
| new ArrayDeque<DecodedOutputBuffer>(); |
| |
| // MediaCodec error handler - invoked when critical error happens which may prevent |
| // further use of media codec API. Now it means that one of media codec instances |
| // is hanging and can no longer be used in the next call. |
| public static interface MediaCodecVideoDecoderErrorCallback { |
| void onMediaCodecVideoDecoderCriticalError(int codecErrors); |
| } |
| |
| public static void setErrorCallback(MediaCodecVideoDecoderErrorCallback errorCallback) { |
| Logging.d(TAG, "Set error callback"); |
| MediaCodecVideoDecoder.errorCallback = errorCallback; |
| } |
| |
| // Functions to disable HW decoding - can be called from applications for platforms |
| // which have known HW decoding problems. |
| public static void disableVp8HwCodec() { |
| Logging.w(TAG, "VP8 decoding is disabled by application."); |
| hwDecoderDisabledTypes.add(VP8_MIME_TYPE); |
| } |
| |
| public static void disableVp9HwCodec() { |
| Logging.w(TAG, "VP9 decoding is disabled by application."); |
| hwDecoderDisabledTypes.add(VP9_MIME_TYPE); |
| } |
| |
| public static void disableH264HwCodec() { |
| Logging.w(TAG, "H.264 decoding is disabled by application."); |
| hwDecoderDisabledTypes.add(H264_MIME_TYPE); |
| } |
| |
| // Functions to query if HW decoding is supported. |
| public static boolean isVp8HwSupported() { |
| return !hwDecoderDisabledTypes.contains(VP8_MIME_TYPE) |
| && (findDecoder(VP8_MIME_TYPE, supportedVp8HwCodecPrefixes) != null); |
| } |
| |
| public static boolean isVp9HwSupported() { |
| return !hwDecoderDisabledTypes.contains(VP9_MIME_TYPE) |
| && (findDecoder(VP9_MIME_TYPE, supportedVp9HwCodecPrefixes) != null); |
| } |
| |
| public static boolean isH264HwSupported() { |
| return !hwDecoderDisabledTypes.contains(H264_MIME_TYPE) |
| && (findDecoder(H264_MIME_TYPE, supportedH264HwCodecPrefixes) != null); |
| } |
| |
| public static boolean isH264HighProfileHwSupported() { |
| if (hwDecoderDisabledTypes.contains(H264_MIME_TYPE)) { |
| return false; |
| } |
| // Support H.264 HP decoding on QCOM chips for Android L and above. |
| if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.LOLLIPOP |
| && findDecoder(H264_MIME_TYPE, new String[] {supportedQcomH264HighProfileHwCodecPrefix}) |
| != null) { |
| return true; |
| } |
| // Support H.264 HP decoding on Exynos chips for Android M and above. |
| if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.M |
| && findDecoder(H264_MIME_TYPE, new String[] {supportedExynosH264HighProfileHwCodecPrefix}) |
| != null) { |
| return true; |
| } |
| return false; |
| } |
| |
| public static void printStackTrace() { |
| if (runningInstance != null && runningInstance.mediaCodecThread != null) { |
| StackTraceElement[] mediaCodecStackTraces = runningInstance.mediaCodecThread.getStackTrace(); |
| if (mediaCodecStackTraces.length > 0) { |
| Logging.d(TAG, "MediaCodecVideoDecoder stacks trace:"); |
| for (StackTraceElement stackTrace : mediaCodecStackTraces) { |
| Logging.d(TAG, stackTrace.toString()); |
| } |
| } |
| } |
| } |
| |
| // Helper struct for findDecoder() below. |
| private static class DecoderProperties { |
| public DecoderProperties(String codecName, int colorFormat) { |
| this.codecName = codecName; |
| this.colorFormat = colorFormat; |
| } |
| public final String codecName; // OpenMax component name for VP8 codec. |
| public final int colorFormat; // Color format supported by codec. |
| } |
| |
| private static DecoderProperties findDecoder(String mime, String[] supportedCodecPrefixes) { |
| if (Build.VERSION.SDK_INT < Build.VERSION_CODES.KITKAT) { |
| return null; // MediaCodec.setParameters is missing. |
| } |
| Logging.d(TAG, "Trying to find HW decoder for mime " + mime); |
| for (int i = 0; i < MediaCodecList.getCodecCount(); ++i) { |
| MediaCodecInfo info = null; |
| try { |
| info = MediaCodecList.getCodecInfoAt(i); |
| } catch (IllegalArgumentException e) { |
| Logging.e(TAG, "Cannot retrieve decoder codec info", e); |
| } |
| if (info == null || info.isEncoder()) { |
| continue; |
| } |
| String name = null; |
| for (String mimeType : info.getSupportedTypes()) { |
| if (mimeType.equals(mime)) { |
| name = info.getName(); |
| break; |
| } |
| } |
| if (name == null) { |
| continue; // No HW support in this codec; try the next one. |
| } |
| Logging.d(TAG, "Found candidate decoder " + name); |
| |
| // Check if this is supported decoder. |
| boolean supportedCodec = false; |
| for (String codecPrefix : supportedCodecPrefixes) { |
| if (name.startsWith(codecPrefix)) { |
| supportedCodec = true; |
| break; |
| } |
| } |
| if (!supportedCodec) { |
| continue; |
| } |
| |
| // Check if codec supports either yuv420 or nv12. |
| CodecCapabilities capabilities; |
| try { |
| capabilities = info.getCapabilitiesForType(mime); |
| } catch (IllegalArgumentException e) { |
| Logging.e(TAG, "Cannot retrieve decoder capabilities", e); |
| continue; |
| } |
| for (int colorFormat : capabilities.colorFormats) { |
| Logging.v(TAG, " Color: 0x" + Integer.toHexString(colorFormat)); |
| } |
| for (int supportedColorFormat : supportedColorList) { |
| for (int codecColorFormat : capabilities.colorFormats) { |
| if (codecColorFormat == supportedColorFormat) { |
| // Found supported HW decoder. |
| Logging.d(TAG, "Found target decoder " + name + ". Color: 0x" |
| + Integer.toHexString(codecColorFormat)); |
| return new DecoderProperties(name, codecColorFormat); |
| } |
| } |
| } |
| } |
| Logging.d(TAG, "No HW decoder found for mime " + mime); |
| return null; // No HW decoder. |
| } |
| |
| private void checkOnMediaCodecThread() throws IllegalStateException { |
| if (mediaCodecThread.getId() != Thread.currentThread().getId()) { |
| throw new IllegalStateException("MediaCodecVideoDecoder previously operated on " |
| + mediaCodecThread + " but is now called on " + Thread.currentThread()); |
| } |
| } |
| |
| // Pass null in |surfaceTextureHelper| to configure the codec for ByteBuffer output. |
| private boolean initDecode( |
| VideoCodecType type, int width, int height, SurfaceTextureHelper surfaceTextureHelper) { |
| if (mediaCodecThread != null) { |
| throw new RuntimeException("initDecode: Forgot to release()?"); |
| } |
| |
| String mime = null; |
| useSurface = (surfaceTextureHelper != null); |
| String[] supportedCodecPrefixes = null; |
| if (type == VideoCodecType.VIDEO_CODEC_VP8) { |
| mime = VP8_MIME_TYPE; |
| supportedCodecPrefixes = supportedVp8HwCodecPrefixes; |
| } else if (type == VideoCodecType.VIDEO_CODEC_VP9) { |
| mime = VP9_MIME_TYPE; |
| supportedCodecPrefixes = supportedVp9HwCodecPrefixes; |
| } else if (type == VideoCodecType.VIDEO_CODEC_H264) { |
| mime = H264_MIME_TYPE; |
| supportedCodecPrefixes = supportedH264HwCodecPrefixes; |
| } else { |
| throw new RuntimeException("initDecode: Non-supported codec " + type); |
| } |
| DecoderProperties properties = findDecoder(mime, supportedCodecPrefixes); |
| if (properties == null) { |
| throw new RuntimeException("Cannot find HW decoder for " + type); |
| } |
| |
| Logging.d(TAG, "Java initDecode: " + type + " : " + width + " x " + height + ". Color: 0x" |
| + Integer.toHexString(properties.colorFormat) + ". Use Surface: " + useSurface); |
| |
| runningInstance = this; // Decoder is now running and can be queried for stack traces. |
| mediaCodecThread = Thread.currentThread(); |
| try { |
| this.width = width; |
| this.height = height; |
| stride = width; |
| sliceHeight = height; |
| |
| if (useSurface) { |
| textureListener = new TextureListener(surfaceTextureHelper); |
| surface = new Surface(surfaceTextureHelper.getSurfaceTexture()); |
| } |
| |
| MediaFormat format = MediaFormat.createVideoFormat(mime, width, height); |
| if (!useSurface) { |
| format.setInteger(MediaFormat.KEY_COLOR_FORMAT, properties.colorFormat); |
| } |
| Logging.d(TAG, " Format: " + format); |
| mediaCodec = MediaCodecVideoEncoder.createByCodecName(properties.codecName); |
| if (mediaCodec == null) { |
| Logging.e(TAG, "Can not create media decoder"); |
| return false; |
| } |
| mediaCodec.configure(format, surface, null, 0); |
| mediaCodec.start(); |
| |
| colorFormat = properties.colorFormat; |
| outputBuffers = mediaCodec.getOutputBuffers(); |
| inputBuffers = mediaCodec.getInputBuffers(); |
| decodeStartTimeMs.clear(); |
| hasDecodedFirstFrame = false; |
| dequeuedSurfaceOutputBuffers.clear(); |
| droppedFrames = 0; |
| Logging.d(TAG, |
| "Input buffers: " + inputBuffers.length + ". Output buffers: " + outputBuffers.length); |
| return true; |
| } catch (IllegalStateException e) { |
| Logging.e(TAG, "initDecode failed", e); |
| return false; |
| } |
| } |
| |
| // Resets the decoder so it can start decoding frames with new resolution. |
| // Flushes MediaCodec and clears decoder output buffers. |
| private void reset(int width, int height) { |
| if (mediaCodecThread == null || mediaCodec == null) { |
| throw new RuntimeException("Incorrect reset call for non-initialized decoder."); |
| } |
| Logging.d(TAG, "Java reset: " + width + " x " + height); |
| |
| mediaCodec.flush(); |
| |
| this.width = width; |
| this.height = height; |
| decodeStartTimeMs.clear(); |
| dequeuedSurfaceOutputBuffers.clear(); |
| hasDecodedFirstFrame = false; |
| droppedFrames = 0; |
| } |
| |
| private void release() { |
| Logging.d(TAG, "Java releaseDecoder. Total number of dropped frames: " + droppedFrames); |
| checkOnMediaCodecThread(); |
| |
| // Run Mediacodec stop() and release() on separate thread since sometime |
| // Mediacodec.stop() may hang. |
| final CountDownLatch releaseDone = new CountDownLatch(1); |
| |
| Runnable runMediaCodecRelease = new Runnable() { |
| @Override |
| public void run() { |
| try { |
| Logging.d(TAG, "Java releaseDecoder on release thread"); |
| mediaCodec.stop(); |
| mediaCodec.release(); |
| Logging.d(TAG, "Java releaseDecoder on release thread done"); |
| } catch (Exception e) { |
| Logging.e(TAG, "Media decoder release failed", e); |
| } |
| releaseDone.countDown(); |
| } |
| }; |
| new Thread(runMediaCodecRelease).start(); |
| |
| if (!ThreadUtils.awaitUninterruptibly(releaseDone, MEDIA_CODEC_RELEASE_TIMEOUT_MS)) { |
| Logging.e(TAG, "Media decoder release timeout"); |
| codecErrors++; |
| if (errorCallback != null) { |
| Logging.e(TAG, "Invoke codec error callback. Errors: " + codecErrors); |
| errorCallback.onMediaCodecVideoDecoderCriticalError(codecErrors); |
| } |
| } |
| |
| mediaCodec = null; |
| mediaCodecThread = null; |
| runningInstance = null; |
| if (useSurface) { |
| surface.release(); |
| surface = null; |
| textureListener.release(); |
| } |
| Logging.d(TAG, "Java releaseDecoder done"); |
| } |
| |
| // Dequeue an input buffer and return its index, -1 if no input buffer is |
| // available, or -2 if the codec is no longer operative. |
| private int dequeueInputBuffer() { |
| checkOnMediaCodecThread(); |
| try { |
| return mediaCodec.dequeueInputBuffer(DEQUEUE_INPUT_TIMEOUT); |
| } catch (IllegalStateException e) { |
| Logging.e(TAG, "dequeueIntputBuffer failed", e); |
| return -2; |
| } |
| } |
| |
| private boolean queueInputBuffer(int inputBufferIndex, int size, long presentationTimeStamUs, |
| long timeStampMs, long ntpTimeStamp) { |
| checkOnMediaCodecThread(); |
| try { |
| inputBuffers[inputBufferIndex].position(0); |
| inputBuffers[inputBufferIndex].limit(size); |
| decodeStartTimeMs.add( |
| new TimeStamps(SystemClock.elapsedRealtime(), timeStampMs, ntpTimeStamp)); |
| mediaCodec.queueInputBuffer(inputBufferIndex, 0, size, presentationTimeStamUs, 0); |
| return true; |
| } catch (IllegalStateException e) { |
| Logging.e(TAG, "decode failed", e); |
| return false; |
| } |
| } |
| |
| private static class TimeStamps { |
| public TimeStamps(long decodeStartTimeMs, long timeStampMs, long ntpTimeStampMs) { |
| this.decodeStartTimeMs = decodeStartTimeMs; |
| this.timeStampMs = timeStampMs; |
| this.ntpTimeStampMs = ntpTimeStampMs; |
| } |
| // Time when this frame was queued for decoding. |
| private final long decodeStartTimeMs; |
| // Only used for bookkeeping in Java. Stores C++ inputImage._timeStamp value for input frame. |
| private final long timeStampMs; |
| // Only used for bookkeeping in Java. Stores C++ inputImage.ntp_time_ms_ value for input frame. |
| private final long ntpTimeStampMs; |
| } |
| |
| // Helper struct for dequeueOutputBuffer() below. |
| private static class DecodedOutputBuffer { |
| public DecodedOutputBuffer(int index, int offset, int size, long presentationTimeStampMs, |
| long timeStampMs, long ntpTimeStampMs, long decodeTime, long endDecodeTime) { |
| this.index = index; |
| this.offset = offset; |
| this.size = size; |
| this.presentationTimeStampMs = presentationTimeStampMs; |
| this.timeStampMs = timeStampMs; |
| this.ntpTimeStampMs = ntpTimeStampMs; |
| this.decodeTimeMs = decodeTime; |
| this.endDecodeTimeMs = endDecodeTime; |
| } |
| |
| private final int index; |
| private final int offset; |
| private final int size; |
| // Presentation timestamp returned in dequeueOutputBuffer call. |
| private final long presentationTimeStampMs; |
| // C++ inputImage._timeStamp value for output frame. |
| private final long timeStampMs; |
| // C++ inputImage.ntp_time_ms_ value for output frame. |
| private final long ntpTimeStampMs; |
| // Number of ms it took to decode this frame. |
| private final long decodeTimeMs; |
| // System time when this frame decoding finished. |
| private final long endDecodeTimeMs; |
| } |
| |
| // Helper struct for dequeueTextureBuffer() below. |
| private static class DecodedTextureBuffer { |
| private final int textureID; |
| private final float[] transformMatrix; |
| // Presentation timestamp returned in dequeueOutputBuffer call. |
| private final long presentationTimeStampMs; |
| // C++ inputImage._timeStamp value for output frame. |
| private final long timeStampMs; |
| // C++ inputImage.ntp_time_ms_ value for output frame. |
| private final long ntpTimeStampMs; |
| // Number of ms it took to decode this frame. |
| private final long decodeTimeMs; |
| // Interval from when the frame finished decoding until this buffer has been created. |
| // Since there is only one texture, this interval depend on the time from when |
| // a frame is decoded and provided to C++ and until that frame is returned to the MediaCodec |
| // so that the texture can be updated with the next decoded frame. |
| private final long frameDelayMs; |
| |
| // A DecodedTextureBuffer with zero |textureID| has special meaning and represents a frame |
| // that was dropped. |
| public DecodedTextureBuffer(int textureID, float[] transformMatrix, |
| long presentationTimeStampMs, long timeStampMs, long ntpTimeStampMs, long decodeTimeMs, |
| long frameDelay) { |
| this.textureID = textureID; |
| this.transformMatrix = transformMatrix; |
| this.presentationTimeStampMs = presentationTimeStampMs; |
| this.timeStampMs = timeStampMs; |
| this.ntpTimeStampMs = ntpTimeStampMs; |
| this.decodeTimeMs = decodeTimeMs; |
| this.frameDelayMs = frameDelay; |
| } |
| } |
| |
| // Poll based texture listener. |
| private static class TextureListener |
| implements SurfaceTextureHelper.OnTextureFrameAvailableListener { |
| private final SurfaceTextureHelper surfaceTextureHelper; |
| // |newFrameLock| is used to synchronize arrival of new frames with wait()/notifyAll(). |
| private final Object newFrameLock = new Object(); |
| // |bufferToRender| is non-null when waiting for transition between addBufferToRender() to |
| // onTextureFrameAvailable(). |
| private DecodedOutputBuffer bufferToRender; |
| private DecodedTextureBuffer renderedBuffer; |
| |
| public TextureListener(SurfaceTextureHelper surfaceTextureHelper) { |
| this.surfaceTextureHelper = surfaceTextureHelper; |
| surfaceTextureHelper.startListening(this); |
| } |
| |
| public void addBufferToRender(DecodedOutputBuffer buffer) { |
| if (bufferToRender != null) { |
| Logging.e(TAG, "Unexpected addBufferToRender() called while waiting for a texture."); |
| throw new IllegalStateException("Waiting for a texture."); |
| } |
| bufferToRender = buffer; |
| } |
| |
| public boolean isWaitingForTexture() { |
| synchronized (newFrameLock) { |
| return bufferToRender != null; |
| } |
| } |
| |
| // Callback from |surfaceTextureHelper|. May be called on an arbitrary thread. |
| @Override |
| public void onTextureFrameAvailable( |
| int oesTextureId, float[] transformMatrix, long timestampNs) { |
| synchronized (newFrameLock) { |
| if (renderedBuffer != null) { |
| Logging.e( |
| TAG, "Unexpected onTextureFrameAvailable() called while already holding a texture."); |
| throw new IllegalStateException("Already holding a texture."); |
| } |
| // |timestampNs| is always zero on some Android versions. |
| renderedBuffer = new DecodedTextureBuffer(oesTextureId, transformMatrix, |
| bufferToRender.presentationTimeStampMs, bufferToRender.timeStampMs, |
| bufferToRender.ntpTimeStampMs, bufferToRender.decodeTimeMs, |
| SystemClock.elapsedRealtime() - bufferToRender.endDecodeTimeMs); |
| bufferToRender = null; |
| newFrameLock.notifyAll(); |
| } |
| } |
| |
| // Dequeues and returns a DecodedTextureBuffer if available, or null otherwise. |
| @SuppressWarnings("WaitNotInLoop") |
| public DecodedTextureBuffer dequeueTextureBuffer(int timeoutMs) { |
| synchronized (newFrameLock) { |
| if (renderedBuffer == null && timeoutMs > 0 && isWaitingForTexture()) { |
| try { |
| newFrameLock.wait(timeoutMs); |
| } catch (InterruptedException e) { |
| // Restore the interrupted status by reinterrupting the thread. |
| Thread.currentThread().interrupt(); |
| } |
| } |
| DecodedTextureBuffer returnedBuffer = renderedBuffer; |
| renderedBuffer = null; |
| return returnedBuffer; |
| } |
| } |
| |
| public void release() { |
| // SurfaceTextureHelper.stopListening() will block until any onTextureFrameAvailable() in |
| // progress is done. Therefore, the call must be outside any synchronized |
| // statement that is also used in the onTextureFrameAvailable() above to avoid deadlocks. |
| surfaceTextureHelper.stopListening(); |
| synchronized (newFrameLock) { |
| if (renderedBuffer != null) { |
| surfaceTextureHelper.returnTextureFrame(); |
| renderedBuffer = null; |
| } |
| } |
| } |
| } |
| |
| // Returns null if no decoded buffer is available, and otherwise a DecodedByteBuffer. |
| // Throws IllegalStateException if call is made on the wrong thread, if color format changes to an |
| // unsupported format, or if |mediaCodec| is not in the Executing state. Throws CodecException |
| // upon codec error. |
| private DecodedOutputBuffer dequeueOutputBuffer(int dequeueTimeoutMs) { |
| checkOnMediaCodecThread(); |
| if (decodeStartTimeMs.isEmpty()) { |
| return null; |
| } |
| // Drain the decoder until receiving a decoded buffer or hitting |
| // MediaCodec.INFO_TRY_AGAIN_LATER. |
| final MediaCodec.BufferInfo info = new MediaCodec.BufferInfo(); |
| while (true) { |
| final int result = |
| mediaCodec.dequeueOutputBuffer(info, TimeUnit.MILLISECONDS.toMicros(dequeueTimeoutMs)); |
| switch (result) { |
| case MediaCodec.INFO_OUTPUT_BUFFERS_CHANGED: |
| outputBuffers = mediaCodec.getOutputBuffers(); |
| Logging.d(TAG, "Decoder output buffers changed: " + outputBuffers.length); |
| if (hasDecodedFirstFrame) { |
| throw new RuntimeException("Unexpected output buffer change event."); |
| } |
| break; |
| case MediaCodec.INFO_OUTPUT_FORMAT_CHANGED: |
| MediaFormat format = mediaCodec.getOutputFormat(); |
| Logging.d(TAG, "Decoder format changed: " + format.toString()); |
| final int newWidth; |
| final int newHeight; |
| if (format.containsKey(FORMAT_KEY_CROP_LEFT) && format.containsKey(FORMAT_KEY_CROP_RIGHT) |
| && format.containsKey(FORMAT_KEY_CROP_BOTTOM) |
| && format.containsKey(FORMAT_KEY_CROP_TOP)) { |
| newWidth = 1 + format.getInteger(FORMAT_KEY_CROP_RIGHT) |
| - format.getInteger(FORMAT_KEY_CROP_LEFT); |
| newHeight = 1 + format.getInteger(FORMAT_KEY_CROP_BOTTOM) |
| - format.getInteger(FORMAT_KEY_CROP_TOP); |
| } else { |
| newWidth = format.getInteger(MediaFormat.KEY_WIDTH); |
| newHeight = format.getInteger(MediaFormat.KEY_HEIGHT); |
| } |
| if (hasDecodedFirstFrame && (newWidth != width || newHeight != height)) { |
| throw new RuntimeException("Unexpected size change. Configured " + width + "*" + height |
| + ". New " + newWidth + "*" + newHeight); |
| } |
| width = newWidth; |
| height = newHeight; |
| |
| if (!useSurface && format.containsKey(MediaFormat.KEY_COLOR_FORMAT)) { |
| colorFormat = format.getInteger(MediaFormat.KEY_COLOR_FORMAT); |
| Logging.d(TAG, "Color: 0x" + Integer.toHexString(colorFormat)); |
| if (!supportedColorList.contains(colorFormat)) { |
| throw new IllegalStateException("Non supported color format: " + colorFormat); |
| } |
| } |
| if (format.containsKey(FORMAT_KEY_STRIDE)) { |
| stride = format.getInteger(FORMAT_KEY_STRIDE); |
| } |
| if (format.containsKey(FORMAT_KEY_SLICE_HEIGHT)) { |
| sliceHeight = format.getInteger(FORMAT_KEY_SLICE_HEIGHT); |
| } |
| Logging.d(TAG, "Frame stride and slice height: " + stride + " x " + sliceHeight); |
| stride = Math.max(width, stride); |
| sliceHeight = Math.max(height, sliceHeight); |
| break; |
| case MediaCodec.INFO_TRY_AGAIN_LATER: |
| return null; |
| default: |
| hasDecodedFirstFrame = true; |
| TimeStamps timeStamps = decodeStartTimeMs.remove(); |
| long decodeTimeMs = SystemClock.elapsedRealtime() - timeStamps.decodeStartTimeMs; |
| if (decodeTimeMs > MAX_DECODE_TIME_MS) { |
| Logging.e(TAG, "Very high decode time: " + decodeTimeMs + "ms" |
| + ". Q size: " + decodeStartTimeMs.size() |
| + ". Might be caused by resuming H264 decoding after a pause."); |
| decodeTimeMs = MAX_DECODE_TIME_MS; |
| } |
| return new DecodedOutputBuffer(result, info.offset, info.size, |
| TimeUnit.MICROSECONDS.toMillis(info.presentationTimeUs), timeStamps.timeStampMs, |
| timeStamps.ntpTimeStampMs, decodeTimeMs, SystemClock.elapsedRealtime()); |
| } |
| } |
| } |
| |
| // Returns null if no decoded buffer is available, and otherwise a DecodedTextureBuffer. |
| // Throws IllegalStateException if call is made on the wrong thread, if color format changes to an |
| // unsupported format, or if |mediaCodec| is not in the Executing state. Throws CodecException |
| // upon codec error. If |dequeueTimeoutMs| > 0, the oldest decoded frame will be dropped if |
| // a frame can't be returned. |
| private DecodedTextureBuffer dequeueTextureBuffer(int dequeueTimeoutMs) { |
| checkOnMediaCodecThread(); |
| if (!useSurface) { |
| throw new IllegalStateException("dequeueTexture() called for byte buffer decoding."); |
| } |
| DecodedOutputBuffer outputBuffer = dequeueOutputBuffer(dequeueTimeoutMs); |
| if (outputBuffer != null) { |
| dequeuedSurfaceOutputBuffers.add(outputBuffer); |
| } |
| |
| MaybeRenderDecodedTextureBuffer(); |
| // Check if there is texture ready now by waiting max |dequeueTimeoutMs|. |
| DecodedTextureBuffer renderedBuffer = textureListener.dequeueTextureBuffer(dequeueTimeoutMs); |
| if (renderedBuffer != null) { |
| MaybeRenderDecodedTextureBuffer(); |
| return renderedBuffer; |
| } |
| |
| if ((dequeuedSurfaceOutputBuffers.size() |
| >= Math.min(MAX_QUEUED_OUTPUTBUFFERS, outputBuffers.length) |
| || (dequeueTimeoutMs > 0 && !dequeuedSurfaceOutputBuffers.isEmpty()))) { |
| ++droppedFrames; |
| // Drop the oldest frame still in dequeuedSurfaceOutputBuffers. |
| // The oldest frame is owned by |textureListener| and can't be dropped since |
| // mediaCodec.releaseOutputBuffer has already been called. |
| final DecodedOutputBuffer droppedFrame = dequeuedSurfaceOutputBuffers.remove(); |
| if (dequeueTimeoutMs > 0) { |
| // TODO(perkj): Re-add the below log when VideoRenderGUI has been removed or fixed to |
| // return the one and only texture even if it does not render. |
| Logging.w(TAG, "Draining decoder. Dropping frame with TS: " |
| + droppedFrame.presentationTimeStampMs + ". Total number of dropped frames: " |
| + droppedFrames); |
| } else { |
| Logging.w(TAG, "Too many output buffers " + dequeuedSurfaceOutputBuffers.size() |
| + ". Dropping frame with TS: " + droppedFrame.presentationTimeStampMs |
| + ". Total number of dropped frames: " + droppedFrames); |
| } |
| |
| mediaCodec.releaseOutputBuffer(droppedFrame.index, false /* render */); |
| return new DecodedTextureBuffer(0, null, droppedFrame.presentationTimeStampMs, |
| droppedFrame.timeStampMs, droppedFrame.ntpTimeStampMs, droppedFrame.decodeTimeMs, |
| SystemClock.elapsedRealtime() - droppedFrame.endDecodeTimeMs); |
| } |
| return null; |
| } |
| |
| private void MaybeRenderDecodedTextureBuffer() { |
| if (dequeuedSurfaceOutputBuffers.isEmpty() || textureListener.isWaitingForTexture()) { |
| return; |
| } |
| // Get the first frame in the queue and render to the decoder output surface. |
| final DecodedOutputBuffer buffer = dequeuedSurfaceOutputBuffers.remove(); |
| textureListener.addBufferToRender(buffer); |
| mediaCodec.releaseOutputBuffer(buffer.index, true /* render */); |
| } |
| |
| // Release a dequeued output byte buffer back to the codec for re-use. Should only be called for |
| // non-surface decoding. |
| // Throws IllegalStateException if the call is made on the wrong thread, if codec is configured |
| // for surface decoding, or if |mediaCodec| is not in the Executing state. Throws |
| // MediaCodec.CodecException upon codec error. |
| private void returnDecodedOutputBuffer(int index) |
| throws IllegalStateException, MediaCodec.CodecException { |
| checkOnMediaCodecThread(); |
| if (useSurface) { |
| throw new IllegalStateException("returnDecodedOutputBuffer() called for surface decoding."); |
| } |
| mediaCodec.releaseOutputBuffer(index, false /* render */); |
| } |
| } |