| /* |
| * Copyright (C) 2019 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 android.mediav2.cts; |
| |
| import android.media.AudioFormat; |
| import android.media.MediaCodec; |
| import android.media.MediaCodecInfo; |
| import android.media.MediaExtractor; |
| import android.media.MediaFormat; |
| import android.util.Log; |
| import android.view.Surface; |
| |
| import androidx.test.filters.LargeTest; |
| import androidx.test.filters.SmallTest; |
| |
| import org.junit.Assume; |
| import org.junit.Before; |
| import org.junit.Ignore; |
| import org.junit.Test; |
| import org.junit.runner.RunWith; |
| import org.junit.runners.Parameterized; |
| |
| import java.io.File; |
| import java.io.FileInputStream; |
| import java.io.IOException; |
| import java.nio.ByteBuffer; |
| import java.nio.ByteOrder; |
| import java.nio.channels.FileChannel; |
| import java.util.ArrayList; |
| import java.util.Arrays; |
| import java.util.Collection; |
| import java.util.List; |
| |
| import static android.mediav2.cts.CodecTestBase.SupportClass.*; |
| import static org.junit.Assert.assertEquals; |
| import static org.junit.Assert.assertTrue; |
| import static org.junit.Assert.fail; |
| |
| /** |
| * Validate decode functionality of listed decoder components |
| * |
| * The test aims to test all decoders advertised in MediaCodecList. Hence we are not using |
| * MediaCodecList#findDecoderForFormat to create codec. Further, it can so happen that the |
| * test clip chosen is not supported by component (codecCapabilities.isFormatSupported() |
| * fails), then it is better to replace the clip but not skip testing the component. The idea |
| * of these tests are not to cover CDD requirements but to test components and their plugins |
| */ |
| @RunWith(Parameterized.class) |
| public class CodecDecoderTest extends CodecDecoderTestBase { |
| private static final String LOG_TAG = CodecDecoderTest.class.getSimpleName(); |
| private static final float RMS_ERROR_TOLERANCE = 1.05f; // 5% |
| |
| private final String mRefFile; |
| private final String mReconfigFile; |
| private final float mRmsError; |
| private final long mRefCRC; |
| private final SupportClass mSupportRequirements; |
| |
| public CodecDecoderTest(String decoder, String mime, String testFile, String refFile, |
| String reconfigFile, float rmsError, long refCRC, SupportClass supportRequirements) { |
| super(decoder, mime, testFile); |
| mRefFile = refFile; |
| mReconfigFile = reconfigFile; |
| mRmsError = rmsError; |
| mRefCRC = refCRC; |
| mSupportRequirements = supportRequirements; |
| } |
| |
| static ByteBuffer readAudioReferenceFile(String file) throws IOException { |
| File refFile = new File(file); |
| ByteBuffer refBuffer; |
| try (FileInputStream refStream = new FileInputStream(refFile)) { |
| FileChannel fileChannel = refStream.getChannel(); |
| int length = (int) refFile.length(); |
| refBuffer = ByteBuffer.allocate(length); |
| refBuffer.order(ByteOrder.LITTLE_ENDIAN); |
| fileChannel.read(refBuffer); |
| } |
| return refBuffer; |
| } |
| |
| private ArrayList<MediaCodec.BufferInfo> createSubFrames(ByteBuffer buffer, int sfCount) { |
| int size = (int) mExtractor.getSampleSize(); |
| if (size < 0) return null; |
| mExtractor.readSampleData(buffer, 0); |
| long pts = mExtractor.getSampleTime(); |
| int flags = mExtractor.getSampleFlags(); |
| if (size < sfCount) sfCount = size; |
| ArrayList<MediaCodec.BufferInfo> list = new ArrayList<>(); |
| int offset = 0; |
| for (int i = 0; i < sfCount; i++) { |
| MediaCodec.BufferInfo info = new MediaCodec.BufferInfo(); |
| info.offset = offset; |
| info.presentationTimeUs = pts; |
| info.flags = 0; |
| if ((flags & MediaExtractor.SAMPLE_FLAG_SYNC) != 0) { |
| info.flags |= MediaCodec.BUFFER_FLAG_KEY_FRAME; |
| } |
| if ((flags & MediaExtractor.SAMPLE_FLAG_PARTIAL_FRAME) != 0) { |
| info.flags |= MediaCodec.BUFFER_FLAG_PARTIAL_FRAME; |
| } |
| if (i != sfCount - 1) { |
| info.size = size / sfCount; |
| info.flags |= MediaExtractor.SAMPLE_FLAG_PARTIAL_FRAME; |
| } else { |
| info.size = size - offset; |
| } |
| list.add(info); |
| offset += info.size; |
| } |
| return list; |
| } |
| |
| @Parameterized.Parameters(name = "{index}({0}_{1})") |
| public static Collection<Object[]> input() { |
| final boolean isEncoder = false; |
| final boolean needAudio = true; |
| final boolean needVideo = true; |
| // mediaType, testClip, referenceClip, reconfigureTestClip, refRmsError, refCRC32, |
| // SupportClass |
| final List<Object[]> exhaustiveArgsList = new ArrayList<>(Arrays.asList(new Object[][]{ |
| {MediaFormat.MIMETYPE_AUDIO_MPEG, "bbb_1ch_8kHz_lame_cbr.mp3", |
| "bbb_1ch_8kHz_s16le.raw", "bbb_2ch_44kHz_lame_vbr.mp3", 91.026749f, -1L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_MPEG, "bbb_2ch_44kHz_lame_cbr.mp3", |
| "bbb_2ch_44kHz_s16le.raw", "bbb_1ch_16kHz_lame_vbr.mp3", 103.603081f, -1L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_AMR_WB, "bbb_1ch_16kHz_16kbps_amrwb.3gp", |
| "bbb_1ch_16kHz_s16le.raw", "bbb_1ch_16kHz_23kbps_amrwb.3gp", 2393.5979f, |
| -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_AMR_NB, "bbb_1ch_8kHz_10kbps_amrnb.3gp", |
| "bbb_1ch_8kHz_s16le.raw", "bbb_1ch_8kHz_8kbps_amrnb.3gp", -1.0f, -1L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_FLAC, "bbb_1ch_16kHz_flac.mka", |
| "bbb_1ch_16kHz_s16le.raw", "bbb_2ch_44kHz_flac.mka", 0.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_FLAC, "bbb_2ch_44kHz_flac.mka", |
| "bbb_2ch_44kHz_s16le.raw", "bbb_1ch_16kHz_flac.mka", 0.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_RAW, "bbb_1ch_16kHz.wav", "bbb_1ch_16kHz_s16le.raw", |
| "bbb_2ch_44kHz.wav", 0.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_RAW, "bbb_2ch_44kHz.wav", "bbb_2ch_44kHz_s16le.raw", |
| "bbb_1ch_16kHz.wav", 0.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_G711_ALAW, "bbb_1ch_8kHz_alaw.wav", |
| "bbb_1ch_8kHz_s16le.raw", "bbb_2ch_8kHz_alaw.wav", 23.087402f, -1L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_G711_MLAW, "bbb_1ch_8kHz_mulaw.wav", |
| "bbb_1ch_8kHz_s16le.raw", "bbb_2ch_8kHz_mulaw.wav", 24.413954f, -1L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_MSGSM, "bbb_1ch_8kHz_gsm.wav", |
| "bbb_1ch_8kHz_s16le.raw", "bbb_1ch_8kHz_gsm.wav", 946.026978f, -1L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_VORBIS, "bbb_1ch_16kHz_vorbis.mka", |
| "bbb_1ch_8kHz_s16le.raw", "bbb_2ch_44kHz_vorbis.mka", -1.0f, -1L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_OPUS, "bbb_2ch_48kHz_opus.mka", |
| "bbb_2ch_48kHz_s16le.raw", "bbb_1ch_48kHz_opus.mka", -1.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_AUDIO_AAC, "bbb_1ch_16kHz_aac.mp4", |
| "bbb_1ch_16kHz_s16le.raw", "bbb_2ch_44kHz_aac.mp4", -1.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_MPEG2, "bbb_340x280_768kbps_30fps_mpeg2.mp4", null, |
| "bbb_520x390_1mbps_30fps_mpeg2.mp4", -1.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_AVC, "bbb_340x280_768kbps_30fps_avc.mp4", null, |
| "bbb_520x390_1mbps_30fps_avc.mp4", -1.0f, 1746312400L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_HEVC, "bbb_520x390_1mbps_30fps_hevc.mp4", null, |
| "bbb_340x280_768kbps_30fps_hevc.mp4", -1.0f, 3061322606L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_MPEG4, "bbb_128x96_64kbps_12fps_mpeg4.mp4", |
| null, "bbb_176x144_192kbps_15fps_mpeg4.mp4", -1.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_H263, "bbb_176x144_128kbps_15fps_h263.3gp", |
| null, "bbb_176x144_192kbps_10fps_h263.3gp", -1.0f, -1L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_VP8, "bbb_340x280_768kbps_30fps_vp8.webm", null, |
| "bbb_520x390_1mbps_30fps_vp8.webm", -1.0f, 2030620796L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_VP9, "bbb_340x280_768kbps_30fps_vp9.webm", null, |
| "bbb_520x390_1mbps_30fps_vp9.webm", -1.0f, 4122701060L, CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_AV1, "bbb_340x280_768kbps_30fps_av1.mp4", null, |
| "bbb_520x390_1mbps_30fps_av1.mp4", -1.0f, 400672933L, CODEC_ALL}, |
| })); |
| // P010 support was added in Android T, hence limit the following tests to Android T and |
| // above |
| if (IS_AT_LEAST_T) { |
| exhaustiveArgsList.addAll(Arrays.asList(new Object[][]{ |
| {MediaFormat.MIMETYPE_VIDEO_AVC, "cosmat_340x280_24fps_crf22_avc_10bit.mkv", |
| null, "cosmat_520x390_24fps_crf22_avc_10bit.mkv", -1.0f, 1462636611L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_HEVC, "cosmat_340x280_24fps_crf22_hevc_10bit.mkv", |
| null, "cosmat_520x390_24fps_crf22_hevc_10bit.mkv", -1.0f, 2611796790L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_VP9, "cosmat_340x280_24fps_crf22_vp9_10bit.mkv", |
| null, "cosmat_520x390_24fps_crf22_vp9_10bit.mkv", -1.0f, 2419292938L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_AV1, "cosmat_340x280_24fps_512kbps_av1_10bit.mkv", |
| null, "cosmat_520x390_24fps_768kbps_av1_10bit.mkv", -1.0f, 1021109556L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_AVC, "cosmat_340x280_24fps_crf22_avc_10bit.mkv", |
| null, "bbb_520x390_1mbps_30fps_avc.mp4", -1.0f, 1462636611L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_HEVC, "cosmat_340x280_24fps_crf22_hevc_10bit.mkv", |
| null, "bbb_520x390_1mbps_30fps_hevc.mp4", -1.0f, 2611796790L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_VP9, "cosmat_340x280_24fps_crf22_vp9_10bit.mkv", |
| null, "bbb_520x390_1mbps_30fps_vp9.webm", -1.0f, 2419292938L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_AV1, "cosmat_340x280_24fps_512kbps_av1_10bit.mkv", |
| null, "bbb_520x390_1mbps_30fps_av1.mp4", -1.0f, 1021109556L, |
| CODEC_ALL}, |
| {MediaFormat.MIMETYPE_VIDEO_AVC, "cosmat_520x390_24fps_crf22_avc_10bit.mkv", |
| null, "bbb_340x280_768kbps_30fps_avc.mp4", -1.0f, 2245243696L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_HEVC, "cosmat_520x390_24fps_crf22_hevc_10bit.mkv" |
| , null, "bbb_340x280_768kbps_30fps_hevc.mp4", -1.0f, 2486118612L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_VP9, "cosmat_520x390_24fps_crf22_vp9_10bit.mkv", |
| null, "bbb_340x280_768kbps_30fps_vp9.webm", -1.0f, 3677982654L, |
| CODEC_OPTIONAL}, |
| {MediaFormat.MIMETYPE_VIDEO_AV1, "cosmat_520x390_24fps_768kbps_av1_10bit.mkv", |
| null, "bbb_340x280_768kbps_30fps_av1.mp4", -1.0f, 1139081423L, |
| CODEC_ALL}, |
| })); |
| } |
| return prepareParamList(exhaustiveArgsList, isEncoder, needAudio, needVideo, true); |
| } |
| |
| private native boolean nativeTestSimpleDecode(String decoder, Surface surface, String mime, |
| String testFile, String refFile, int colorFormat, float rmsError, long checksum); |
| |
| static void verify(OutputManager outBuff, String refFile, float rmsError, int audioFormat, |
| long refCRC) throws IOException { |
| if (rmsError >= 0) { |
| int bytesPerSample = AudioFormat.getBytesPerSample(audioFormat); |
| ByteBuffer bb = readAudioReferenceFile(mInpPrefix + refFile); |
| bb.position(0); |
| int bufferSize = bb.limit(); |
| assertEquals (0, bufferSize % bytesPerSample); |
| Object refObject = null; |
| int refObjectLen = bufferSize / bytesPerSample; |
| switch (audioFormat) { |
| case AudioFormat.ENCODING_PCM_8BIT: |
| refObject = new byte[refObjectLen]; |
| bb.get((byte[]) refObject); |
| break; |
| case AudioFormat.ENCODING_PCM_16BIT: |
| refObject = new short[refObjectLen]; |
| bb.asShortBuffer().get((short[]) refObject); |
| break; |
| case AudioFormat.ENCODING_PCM_24BIT_PACKED: |
| refObject = new int[refObjectLen]; |
| int[] refArray = (int[]) refObject; |
| for (int i = 0, j = 0; i < bufferSize; i += 3, j++) { |
| int byte1 = (bb.get() & 0xff); |
| int byte2 = (bb.get() & 0xff); |
| int byte3 = (bb.get() & 0xff); |
| refArray[j] = byte1 | (byte2 << 8) | (byte3 << 16); |
| } |
| break; |
| case AudioFormat.ENCODING_PCM_32BIT: |
| refObject = new int[refObjectLen]; |
| bb.asIntBuffer().get((int[]) refObject); |
| break; |
| case AudioFormat.ENCODING_PCM_FLOAT: |
| refObject = new float[refObjectLen]; |
| bb.asFloatBuffer().get((float[]) refObject); |
| break; |
| default: |
| fail("unrecognized audio encoding type " + audioFormat); |
| } |
| float currError = outBuff.getRmsError(refObject, audioFormat); |
| float errMargin = rmsError * RMS_ERROR_TOLERANCE; |
| assertTrue(String.format("%s rms error too high ref/exp/got %f/%f/%f", refFile, |
| rmsError, errMargin, currError), currError <= errMargin); |
| } else if (refCRC >= 0) { |
| assertEquals("checksum mismatch", refCRC, outBuff.getCheckSumImage()); |
| } |
| } |
| |
| @Before |
| public void setUp() throws IOException { |
| MediaFormat format = setUpSource(mTestFile); |
| mExtractor.release(); |
| ArrayList<MediaFormat> formatList = new ArrayList<>(); |
| formatList.add(format); |
| checkFormatSupport(mCodecName, mMime, false, formatList, null, mSupportRequirements); |
| } |
| |
| /** |
| * Tests decoder for combinations: |
| * 1. Codec Sync Mode, Signal Eos with Last frame |
| * 2. Codec Sync Mode, Signal Eos Separately |
| * 3. Codec Async Mode, Signal Eos with Last frame |
| * 4. Codec Async Mode, Signal Eos Separately |
| * In all these scenarios, Timestamp ordering is verified, For audio the Rms of output has to be |
| * within the allowed tolerance. The output has to be consistent (not flaky) in all runs. |
| */ |
| @LargeTest |
| @Test(timeout = PER_TEST_TIMEOUT_LARGE_TEST_MS) |
| public void testSimpleDecode() throws IOException, InterruptedException { |
| MediaFormat format = setUpSource(mTestFile); |
| boolean[] boolStates = {true, false}; |
| mSaveToMem = true; |
| OutputManager ref = new OutputManager(); |
| OutputManager test = new OutputManager(); |
| { |
| mCodec = MediaCodec.createByCodecName(mCodecName); |
| assertTrue("codec name act/got: " + mCodec.getName() + '/' + mCodecName, |
| mCodec.getName().equals(mCodecName)); |
| assertTrue("error! codec canonical name is null", |
| mCodec.getCanonicalName() != null && !mCodec.getCanonicalName().isEmpty()); |
| validateMetrics(mCodecName); |
| int loopCounter = 0; |
| for (boolean eosType : boolStates) { |
| for (boolean isAsync : boolStates) { |
| boolean validateFormat = true; |
| String log = String.format("codec: %s, file: %s, mode: %s, eos type: %s:: ", |
| mCodecName, mTestFile, (isAsync ? "async" : "sync"), |
| (eosType ? "eos with last frame" : "eos separate")); |
| mOutputBuff = loopCounter == 0 ? ref : test; |
| mOutputBuff.reset(); |
| mExtractor.seekTo(0, MediaExtractor.SEEK_TO_CLOSEST_SYNC); |
| configureCodec(format, isAsync, eosType, false); |
| MediaFormat defFormat = mCodec.getOutputFormat(); |
| if (isFormatSimilar(format, defFormat)) { |
| if (ENABLE_LOGS) { |
| Log.d("Input format is same as default for format for %s", mCodecName); |
| } |
| validateFormat = false; |
| } |
| mCodec.start(); |
| doWork(Integer.MAX_VALUE); |
| queueEOS(); |
| waitForAllOutputs(); |
| validateMetrics(mCodecName, format); |
| /* TODO(b/147348711) */ |
| if (false) mCodec.stop(); |
| else mCodec.reset(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| assertTrue(log + "no input sent", 0 != mInputCount); |
| assertTrue(log + "output received", 0 != mOutputCount); |
| if (loopCounter != 0) { |
| assertTrue(log + "decoder output is flaky", ref.equals(test)); |
| } else { |
| if (mIsAudio) { |
| assertTrue(log + " pts is not strictly increasing", |
| ref.isPtsStrictlyIncreasing(mPrevOutputPts)); |
| } else { |
| // TODO: Timestamps for deinterlaced content are under review. |
| // (E.g. can decoders produce multiple progressive frames?) |
| // For now, do not verify timestamps. |
| if (!mIsInterlaced) { |
| assertTrue( |
| log + |
| " input pts list and output pts list are not identical", |
| ref.isOutPtsListIdenticalToInpPtsList(false)); |
| } |
| } |
| } |
| if (validateFormat) { |
| assertTrue(log + "not received format change", |
| mIsCodecInAsyncMode ? mAsyncHandle.hasOutputFormatChanged() : |
| mSignalledOutFormatChanged); |
| assertTrue(log + "configured format and output format are not similar", |
| isFormatSimilar(format, |
| mIsCodecInAsyncMode ? mAsyncHandle.getOutputFormat() : |
| mOutFormat)); |
| } |
| loopCounter++; |
| } |
| } |
| mCodec.release(); |
| mExtractor.release(); |
| int colorFormat = mIsAudio ? 0 : format.getInteger(MediaFormat.KEY_COLOR_FORMAT); |
| assertTrue(nativeTestSimpleDecode(mCodecName, null, mMime, mInpPrefix + mTestFile, |
| mInpPrefix + mRefFile, colorFormat, mRmsError, ref.getCheckSumBuffer())); |
| if (mSaveToMem) { |
| int audioEncoding = mIsAudio ? format.getInteger(MediaFormat.KEY_PCM_ENCODING, |
| AudioFormat.ENCODING_PCM_16BIT) : AudioFormat.ENCODING_INVALID; |
| Assume.assumeFalse("skip checksum due to tone mapping", mSkipChecksumVerification); |
| verify(mOutputBuff, mRefFile, mRmsError, audioEncoding, mRefCRC); |
| } |
| } |
| } |
| |
| /** |
| * Tests flush when codec is in sync and async mode. In these scenarios, Timestamp |
| * ordering is verified. The output has to be consistent (not flaky) in all runs |
| */ |
| @Ignore("TODO(b/147576107)") |
| @LargeTest |
| @Test(timeout = PER_TEST_TIMEOUT_LARGE_TEST_MS) |
| public void testFlush() throws IOException, InterruptedException { |
| MediaFormat format = setUpSource(mTestFile); |
| mExtractor.release(); |
| mCsdBuffers.clear(); |
| for (int i = 0; ; i++) { |
| String csdKey = "csd-" + i; |
| if (format.containsKey(csdKey)) { |
| mCsdBuffers.add(format.getByteBuffer(csdKey)); |
| } else break; |
| } |
| final long pts = 500000; |
| final int mode = MediaExtractor.SEEK_TO_CLOSEST_SYNC; |
| boolean[] boolStates = {true, false}; |
| OutputManager test = new OutputManager(); |
| { |
| decodeToMemory(mTestFile, mCodecName, pts, mode, Integer.MAX_VALUE); |
| OutputManager ref = mOutputBuff; |
| if (mIsAudio) { |
| assertTrue("reference output pts is not strictly increasing", |
| ref.isPtsStrictlyIncreasing(mPrevOutputPts)); |
| } else { |
| // TODO: Timestamps for deinterlaced content are under review. (E.g. can decoders |
| // produce multiple progressive frames?) For now, do not verify timestamps. |
| if (!mIsInterlaced) { |
| assertTrue("input pts list and output pts list are not identical", |
| ref.isOutPtsListIdenticalToInpPtsList(false)); |
| } |
| } |
| mOutputBuff = test; |
| setUpSource(mTestFile); |
| mCodec = MediaCodec.createByCodecName(mCodecName); |
| for (boolean isAsync : boolStates) { |
| String log = String.format("decoder: %s, input file: %s, mode: %s:: ", mCodecName, |
| mTestFile, (isAsync ? "async" : "sync")); |
| mExtractor.seekTo(0, mode); |
| configureCodec(format, isAsync, true, false); |
| MediaFormat defFormat = mCodec.getOutputFormat(); |
| boolean validateFormat = true; |
| if (isFormatSimilar(format, defFormat)) { |
| if (ENABLE_LOGS) { |
| Log.d("Input format is same as default for format for %s", mCodecName); |
| } |
| validateFormat = false; |
| } |
| mCodec.start(); |
| |
| /* test flush in running state before queuing input */ |
| flushCodec(); |
| if (mIsCodecInAsyncMode) mCodec.start(); |
| queueCodecConfig(); /* flushed codec too soon after start, resubmit csd */ |
| |
| doWork(1); |
| flushCodec(); |
| if (mIsCodecInAsyncMode) mCodec.start(); |
| queueCodecConfig(); /* flushed codec too soon after start, resubmit csd */ |
| |
| mExtractor.seekTo(0, mode); |
| test.reset(); |
| doWork(23); |
| if (!mIsInterlaced) { |
| assertTrue(log + " pts is not strictly increasing", |
| test.isPtsStrictlyIncreasing(mPrevOutputPts)); |
| } |
| |
| boolean checkMetrics = (mOutputCount != 0); |
| |
| /* test flush in running state */ |
| flushCodec(); |
| if (checkMetrics) validateMetrics(mCodecName, format); |
| if (mIsCodecInAsyncMode) mCodec.start(); |
| mSaveToMem = true; |
| test.reset(); |
| mExtractor.seekTo(pts, mode); |
| doWork(Integer.MAX_VALUE); |
| queueEOS(); |
| waitForAllOutputs(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| assertTrue(log + "no input sent", 0 != mInputCount); |
| assertTrue(log + "output received", 0 != mOutputCount); |
| assertTrue(log + "decoder output is flaky", ref.equals(test)); |
| |
| /* test flush in eos state */ |
| flushCodec(); |
| if (mIsCodecInAsyncMode) mCodec.start(); |
| test.reset(); |
| mExtractor.seekTo(pts, mode); |
| doWork(Integer.MAX_VALUE); |
| queueEOS(); |
| waitForAllOutputs(); |
| /* TODO(b/147348711) */ |
| if (false) mCodec.stop(); |
| else mCodec.reset(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| assertTrue(log + "no input sent", 0 != mInputCount); |
| assertTrue(log + "output received", 0 != mOutputCount); |
| assertTrue(log + "decoder output is flaky", ref.equals(test)); |
| if (validateFormat) { |
| assertTrue(log + "not received format change", |
| mIsCodecInAsyncMode ? mAsyncHandle.hasOutputFormatChanged() : |
| mSignalledOutFormatChanged); |
| assertTrue(log + "configured format and output format are not similar", |
| isFormatSimilar(format, |
| mIsCodecInAsyncMode ? mAsyncHandle.getOutputFormat() : |
| mOutFormat)); |
| } |
| mSaveToMem = false; |
| } |
| mCodec.release(); |
| mExtractor.release(); |
| } |
| } |
| |
| private native boolean nativeTestFlush(String decoder, Surface surface, String mime, |
| String testFile, int colorFormat); |
| |
| @Ignore("TODO(b/147576107)") |
| @LargeTest |
| @Test(timeout = PER_TEST_TIMEOUT_LARGE_TEST_MS) |
| public void testFlushNative() throws IOException { |
| int colorFormat = 0; |
| if (!mIsAudio) { |
| MediaFormat format = setUpSource(mTestFile); |
| mExtractor.release(); |
| colorFormat = format.getInteger(MediaFormat.KEY_COLOR_FORMAT); |
| } |
| assertTrue(nativeTestFlush(mCodecName, null, mMime, mInpPrefix + mTestFile, colorFormat)); |
| } |
| |
| /** |
| * Tests reconfigure when codec is in sync and async mode. In these scenarios, Timestamp |
| * ordering is verified. The output has to be consistent (not flaky) in all runs |
| */ |
| @LargeTest |
| @Test(timeout = PER_TEST_TIMEOUT_LARGE_TEST_MS) |
| public void testReconfigure() throws IOException, InterruptedException { |
| Assume.assumeTrue("Test needs Android 11", IS_AT_LEAST_R); |
| |
| MediaFormat format = setUpSource(mTestFile); |
| mExtractor.release(); |
| MediaFormat newFormat = setUpSource(mReconfigFile); |
| mExtractor.release(); |
| ArrayList<MediaFormat> formatList = new ArrayList<>(); |
| formatList.add(newFormat); |
| checkFormatSupport(mCodecName, mMime, false, formatList, null, mSupportRequirements); |
| final long startTs = 0; |
| final long seekTs = 500000; |
| final int mode = MediaExtractor.SEEK_TO_CLOSEST_SYNC; |
| boolean[] boolStates = {true, false}; |
| OutputManager test = new OutputManager(); |
| { |
| decodeToMemory(mTestFile, mCodecName, startTs, mode, Integer.MAX_VALUE); |
| OutputManager ref = mOutputBuff; |
| decodeToMemory(mReconfigFile, mCodecName, seekTs, mode, Integer.MAX_VALUE); |
| OutputManager configRef = mOutputBuff; |
| if (mIsAudio) { |
| assertTrue("reference output pts is not strictly increasing", |
| ref.isPtsStrictlyIncreasing(mPrevOutputPts)); |
| assertTrue("config reference output pts is not strictly increasing", |
| configRef.isPtsStrictlyIncreasing(mPrevOutputPts)); |
| } else { |
| // TODO: Timestamps for deinterlaced content are under review. (E.g. can decoders |
| // produce multiple progressive frames?) For now, do not verify timestamps. |
| if (!mIsInterlaced) { |
| assertTrue("input pts list and reference pts list are not identical", |
| ref.isOutPtsListIdenticalToInpPtsList(false)); |
| assertTrue("input pts list and reconfig ref output pts list are not identical", |
| ref.isOutPtsListIdenticalToInpPtsList(false)); |
| } |
| } |
| mOutputBuff = test; |
| mCodec = MediaCodec.createByCodecName(mCodecName); |
| for (boolean isAsync : boolStates) { |
| setUpSource(mTestFile); |
| String log = String.format("decoder: %s, input file: %s, mode: %s:: ", mCodecName, |
| mTestFile, (isAsync ? "async" : "sync")); |
| mExtractor.seekTo(startTs, MediaExtractor.SEEK_TO_CLOSEST_SYNC); |
| configureCodec(format, isAsync, true, false); |
| MediaFormat defFormat = mCodec.getOutputFormat(); |
| boolean validateFormat = true; |
| if (isFormatSimilar(format, defFormat)) { |
| if (ENABLE_LOGS) { |
| Log.d("Input format is same as default for format for %s", mCodecName); |
| } |
| validateFormat = false; |
| } |
| |
| /* test reconfigure in stopped state */ |
| reConfigureCodec(format, !isAsync, false, false); |
| mCodec.start(); |
| |
| /* test reconfigure in running state before queuing input */ |
| reConfigureCodec(format, !isAsync, false, false); |
| mCodec.start(); |
| doWork(23); |
| |
| if (mOutputCount != 0) { |
| if (validateFormat) { |
| assertTrue(log + "not received format change", |
| mIsCodecInAsyncMode ? mAsyncHandle.hasOutputFormatChanged() : |
| mSignalledOutFormatChanged); |
| assertTrue(log + "configured format and output format are not similar", |
| isFormatSimilar(format, |
| mIsCodecInAsyncMode ? mAsyncHandle.getOutputFormat() : |
| mOutFormat)); |
| } |
| validateMetrics(mCodecName, format); |
| } |
| |
| /* test reconfigure codec in running state */ |
| reConfigureCodec(format, isAsync, true, false); |
| mCodec.start(); |
| mSaveToMem = true; |
| test.reset(); |
| mExtractor.seekTo(startTs, mode); |
| doWork(Integer.MAX_VALUE); |
| queueEOS(); |
| waitForAllOutputs(); |
| /* TODO(b/147348711) */ |
| if (false) mCodec.stop(); |
| else mCodec.reset(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| assertTrue(log + "no input sent", 0 != mInputCount); |
| assertTrue(log + "output received", 0 != mOutputCount); |
| assertTrue(log + "decoder output is flaky", ref.equals(test)); |
| if (validateFormat) { |
| assertTrue(log + "not received format change", |
| mIsCodecInAsyncMode ? mAsyncHandle.hasOutputFormatChanged() : |
| mSignalledOutFormatChanged); |
| assertTrue(log + "configured format and output format are not similar", |
| isFormatSimilar(format, |
| mIsCodecInAsyncMode ? mAsyncHandle.getOutputFormat() : |
| mOutFormat)); |
| } |
| |
| /* test reconfigure codec at eos state */ |
| reConfigureCodec(format, !isAsync, false, false); |
| mCodec.start(); |
| test.reset(); |
| mExtractor.seekTo(startTs, mode); |
| doWork(Integer.MAX_VALUE); |
| queueEOS(); |
| waitForAllOutputs(); |
| /* TODO(b/147348711) */ |
| if (false) mCodec.stop(); |
| else mCodec.reset(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| assertTrue(log + "no input sent", 0 != mInputCount); |
| assertTrue(log + "output received", 0 != mOutputCount); |
| assertTrue(log + "decoder output is flaky", ref.equals(test)); |
| if (validateFormat) { |
| assertTrue(log + "not received format change", |
| mIsCodecInAsyncMode ? mAsyncHandle.hasOutputFormatChanged() : |
| mSignalledOutFormatChanged); |
| assertTrue(log + "configured format and output format are not similar", |
| isFormatSimilar(format, |
| mIsCodecInAsyncMode ? mAsyncHandle.getOutputFormat() : |
| mOutFormat)); |
| } |
| mExtractor.release(); |
| |
| /* test reconfigure codec for new file */ |
| setUpSource(mReconfigFile); |
| log = String.format("decoder: %s, input file: %s, mode: %s:: ", mCodecName, |
| mReconfigFile, (isAsync ? "async" : "sync")); |
| reConfigureCodec(newFormat, isAsync, false, false); |
| if (isFormatSimilar(newFormat, defFormat)) { |
| if (ENABLE_LOGS) { |
| Log.d("Input format is same as default for format for %s", mCodecName); |
| } |
| validateFormat = false; |
| } |
| mCodec.start(); |
| test.reset(); |
| mExtractor.seekTo(seekTs, mode); |
| doWork(Integer.MAX_VALUE); |
| queueEOS(); |
| waitForAllOutputs(); |
| validateMetrics(mCodecName, newFormat); |
| /* TODO(b/147348711) */ |
| if (false) mCodec.stop(); |
| else mCodec.reset(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| assertTrue(log + "no input sent", 0 != mInputCount); |
| assertTrue(log + "output received", 0 != mOutputCount); |
| assertTrue(log + "decoder output is flaky", configRef.equals(test)); |
| if (validateFormat) { |
| assertTrue(log + "not received format change", |
| mIsCodecInAsyncMode ? mAsyncHandle.hasOutputFormatChanged() : |
| mSignalledOutFormatChanged); |
| assertTrue(log + "configured format and output format are not similar", |
| isFormatSimilar(newFormat, |
| mIsCodecInAsyncMode ? mAsyncHandle.getOutputFormat() : |
| mOutFormat)); |
| } |
| mSaveToMem = false; |
| mExtractor.release(); |
| } |
| mCodec.release(); |
| } |
| } |
| |
| /** |
| * Tests decoder for only EOS frame |
| */ |
| @SmallTest |
| @Test(timeout = PER_TEST_TIMEOUT_SMALL_TEST_MS) |
| public void testOnlyEos() throws IOException, InterruptedException { |
| MediaFormat format = setUpSource(mTestFile); |
| boolean[] boolStates = {true, false}; |
| OutputManager ref = new OutputManager(); |
| OutputManager test = new OutputManager(); |
| mSaveToMem = true; |
| { |
| mCodec = MediaCodec.createByCodecName(mCodecName); |
| int loopCounter = 0; |
| for (boolean isAsync : boolStates) { |
| String log = String.format("decoder: %s, input file: %s, mode: %s:: ", mCodecName, |
| mTestFile, (isAsync ? "async" : "sync")); |
| configureCodec(format, isAsync, false, false); |
| mOutputBuff = loopCounter == 0 ? ref : test; |
| mOutputBuff.reset(); |
| mCodec.start(); |
| queueEOS(); |
| waitForAllOutputs(); |
| mCodec.stop(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| if (loopCounter != 0) { |
| assertTrue(log + "decoder output is flaky", ref.equals(test)); |
| } else { |
| if (mIsAudio) { |
| assertTrue(log + " pts is not strictly increasing", |
| ref.isPtsStrictlyIncreasing(mPrevOutputPts)); |
| } else { |
| // TODO: Timestamps for deinterlaced content are under review. |
| // (E.g. can decoders produce multiple progressive frames?) |
| // For now, do not verify timestamps. |
| if (!mIsInterlaced) { |
| assertTrue( |
| log + " input pts list and output pts list are not identical", |
| ref.isOutPtsListIdenticalToInpPtsList(false)); |
| } |
| } |
| } |
| loopCounter++; |
| } |
| mCodec.release(); |
| } |
| mExtractor.release(); |
| } |
| |
| private native boolean nativeTestOnlyEos(String decoder, String mime, String testFile, |
| int colorFormat); |
| |
| @SmallTest |
| @Test |
| public void testOnlyEosNative() throws IOException { |
| int colorFormat = 0; |
| if (!mIsAudio) { |
| MediaFormat format = setUpSource(mTestFile); |
| mExtractor.release(); |
| colorFormat = format.getInteger(MediaFormat.KEY_COLOR_FORMAT); |
| } |
| assertTrue(nativeTestOnlyEos(mCodecName, mMime, mInpPrefix + mTestFile, colorFormat)); |
| } |
| |
| /** |
| * Test Decoder by Queuing CSD separately |
| */ |
| @LargeTest |
| @Test(timeout = PER_TEST_TIMEOUT_LARGE_TEST_MS) |
| public void testSimpleDecodeQueueCSD() throws IOException, InterruptedException { |
| MediaFormat format = setUpSource(mTestFile); |
| if (!hasCSD(format)) { |
| mExtractor.release(); |
| return; |
| } |
| ArrayList<MediaFormat> formats = new ArrayList<>(); |
| formats.add(format); |
| formats.add(new MediaFormat(format)); |
| for (int i = 0; ; i++) { |
| String csdKey = "csd-" + i; |
| if (format.containsKey(csdKey)) { |
| mCsdBuffers.add(format.getByteBuffer(csdKey).duplicate()); |
| format.removeKey(csdKey); |
| } else break; |
| } |
| boolean[] boolStates = {true, false}; |
| mSaveToMem = true; |
| OutputManager ref = new OutputManager(); |
| OutputManager test = new OutputManager(); |
| { |
| mCodec = MediaCodec.createByCodecName(mCodecName); |
| int loopCounter = 0; |
| for (int i = 0; i < formats.size(); i++) { |
| MediaFormat fmt = formats.get(i); |
| for (boolean eosMode : boolStates) { |
| for (boolean isAsync : boolStates) { |
| boolean validateFormat = true; |
| String log = String.format("codec: %s, file: %s, mode: %s, eos type: %s:: ", |
| mCodecName, mTestFile, (isAsync ? "async" : "sync"), |
| (eosMode ? "eos with last frame" : "eos separate")); |
| mOutputBuff = loopCounter == 0 ? ref : test; |
| mOutputBuff.reset(); |
| mExtractor.seekTo(0, MediaExtractor.SEEK_TO_CLOSEST_SYNC); |
| configureCodec(fmt, isAsync, eosMode, false); |
| MediaFormat defFormat = mCodec.getOutputFormat(); |
| if (isFormatSimilar(defFormat, format)) { |
| if (ENABLE_LOGS) { |
| Log.d("Input format is same as default for format for %s", |
| mCodecName); |
| } |
| validateFormat = false; |
| } |
| mCodec.start(); |
| if (i == 0) queueCodecConfig(); |
| doWork(Integer.MAX_VALUE); |
| queueEOS(); |
| waitForAllOutputs(); |
| validateMetrics(mCodecName); |
| /* TODO(b/147348711) */ |
| if (false) mCodec.stop(); |
| else mCodec.reset(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| assertTrue(log + "no input sent", 0 != mInputCount); |
| assertTrue(log + "output received", 0 != mOutputCount); |
| if (loopCounter != 0) { |
| assertTrue(log + "decoder output is flaky", ref.equals(test)); |
| } else { |
| if (mIsAudio) { |
| assertTrue(log + " pts is not strictly increasing", |
| ref.isPtsStrictlyIncreasing(mPrevOutputPts)); |
| } else { |
| // TODO: Timestamps for deinterlaced content are under review. |
| // (E.g. can decoders produce multiple progressive frames?) |
| // For now, do not verify timestamps. |
| if (!mIsInterlaced) { |
| assertTrue( |
| log + |
| " input pts list and output pts list are not identical", |
| ref.isOutPtsListIdenticalToInpPtsList(false)); |
| } |
| } |
| } |
| if (validateFormat) { |
| assertTrue(log + "not received format change", |
| mIsCodecInAsyncMode ? mAsyncHandle.hasOutputFormatChanged() : |
| mSignalledOutFormatChanged); |
| assertTrue(log + "configured format and output format are not similar", |
| isFormatSimilar(format, |
| mIsCodecInAsyncMode ? mAsyncHandle.getOutputFormat() : |
| mOutFormat)); |
| } |
| loopCounter++; |
| } |
| } |
| } |
| mCodec.release(); |
| } |
| mExtractor.release(); |
| } |
| |
| private native boolean nativeTestSimpleDecodeQueueCSD(String decoder, String mime, |
| String testFile, int colorFormat); |
| |
| @LargeTest |
| @Test(timeout = PER_TEST_TIMEOUT_LARGE_TEST_MS) |
| public void testSimpleDecodeQueueCSDNative() throws IOException { |
| MediaFormat format = setUpSource(mTestFile); |
| if (!hasCSD(format)) { |
| mExtractor.release(); |
| return; |
| } |
| mExtractor.release(); |
| int colorFormat = mIsAudio ? 0 : format.getInteger(MediaFormat.KEY_COLOR_FORMAT); |
| assertTrue(nativeTestSimpleDecodeQueueCSD(mCodecName, mMime, mInpPrefix + mTestFile, |
| colorFormat)); |
| } |
| |
| /** |
| * Test decoder for partial frame |
| */ |
| @LargeTest |
| @Test(timeout = PER_TEST_TIMEOUT_LARGE_TEST_MS) |
| public void testDecodePartialFrame() throws IOException, InterruptedException { |
| Assume.assumeTrue(isFeatureSupported(mCodecName, mMime, |
| MediaCodecInfo.CodecCapabilities.FEATURE_PartialFrame)); |
| MediaFormat format = setUpSource(mTestFile); |
| boolean[] boolStates = {true, false}; |
| int frameLimit = 10; |
| ByteBuffer buffer = ByteBuffer.allocate(4 * 1024 * 1024); |
| OutputManager test = new OutputManager(); |
| { |
| decodeToMemory(mTestFile, mCodecName, 0, MediaExtractor.SEEK_TO_CLOSEST_SYNC, |
| frameLimit); |
| mCodec = MediaCodec.createByCodecName(mCodecName); |
| OutputManager ref = mOutputBuff; |
| if (mIsAudio) { |
| assertTrue("reference output pts is not strictly increasing", |
| ref.isPtsStrictlyIncreasing(mPrevOutputPts)); |
| } else { |
| // TODO: Timestamps for deinterlaced content are under review. (E.g. can decoders |
| // produce multiple progressive frames?) For now, do not verify timestamps. |
| if (!mIsInterlaced) { |
| assertTrue("input pts list and output pts list are not identical", |
| ref.isOutPtsListIdenticalToInpPtsList(false)); |
| } |
| } |
| mSaveToMem = true; |
| mOutputBuff = test; |
| for (boolean isAsync : boolStates) { |
| String log = String.format("decoder: %s, input file: %s, mode: %s:: ", mCodecName, |
| mTestFile, (isAsync ? "async" : "sync")); |
| mExtractor.seekTo(0, MediaExtractor.SEEK_TO_CLOSEST_SYNC); |
| test.reset(); |
| configureCodec(format, isAsync, true, false); |
| mCodec.start(); |
| doWork(frameLimit - 1); |
| ArrayList<MediaCodec.BufferInfo> list = createSubFrames(buffer, 4); |
| assertTrue("no sub frames in list received for " + mTestFile, |
| list != null && list.size() > 0); |
| doWork(buffer, list); |
| queueEOS(); |
| waitForAllOutputs(); |
| /* TODO(b/147348711) */ |
| if (false) mCodec.stop(); |
| else mCodec.reset(); |
| assertTrue(log + " unexpected error", !mAsyncHandle.hasSeenError()); |
| assertTrue(log + "no input sent", 0 != mInputCount); |
| assertTrue(log + "output received", 0 != mOutputCount); |
| assertTrue(log + "decoder output is not consistent with ref", ref.equals(test)); |
| } |
| mCodec.release(); |
| } |
| mExtractor.release(); |
| } |
| } |