/*
* Copyright (C) 2020 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 androidx.media3.test.utils.robolectric;
import static androidx.media3.common.util.Assertions.checkArgument;
import static androidx.media3.common.util.Assertions.checkState;
import static androidx.media3.common.util.Assertions.checkStateNotNull;
import android.media.MediaCodecInfo;
import android.media.MediaCodecInfo.CodecProfileLevel;
import android.media.MediaFormat;
import androidx.media3.common.C;
import androidx.media3.common.MimeTypes;
import androidx.media3.common.util.UnstableApi;
import androidx.media3.common.util.Util;
import androidx.media3.exoplayer.mediacodec.MediaCodecUtil;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.common.primitives.Ints;
import java.nio.ByteBuffer;
import java.util.HashSet;
import java.util.Set;
import org.junit.rules.ExternalResource;
import org.robolectric.shadows.MediaCodecInfoBuilder;
import org.robolectric.shadows.ShadowMediaCodec;
import org.robolectric.shadows.ShadowMediaCodecList;
/**
* A JUnit @Rule to configure Roboelectric's {@link ShadowMediaCodec}.
*
* <p>Registers a {@link org.robolectric.shadows.ShadowMediaCodec.CodecConfig} for each audio/video
* MIME type known by ExoPlayer.
*/
@UnstableApi
public final class ShadowMediaCodecConfig extends ExternalResource {
private static final ImmutableMap<String, CodecImpl> ALL_SUPPORTED_CODECS =
createAllSupportedCodecs();
public static ShadowMediaCodecConfig forAllSupportedMimeTypes() {
return new ShadowMediaCodecConfig(ALL_SUPPORTED_CODECS.keySet());
}
public static ShadowMediaCodecConfig withNoDefaultSupportedMimeTypes() {
return new ShadowMediaCodecConfig(ImmutableSet.of());
}
private final Set<String> supportedMimeTypes;
private ShadowMediaCodecConfig(Set<String> mimeTypes) {
supportedMimeTypes = new HashSet<>(mimeTypes);
}
public void addSupportedMimeTypes(String... mimeTypes) {
for (String mimeType : mimeTypes) {
checkState(!supportedMimeTypes.contains(mimeType), "MIME type already added: " + mimeType);
checkArgument(
ALL_SUPPORTED_CODECS.containsKey(mimeType), "MIME type not supported: " + mimeType);
}
ImmutableSet<String> addedMimeTypes = ImmutableSet.copyOf(mimeTypes);
supportedMimeTypes.addAll(addedMimeTypes);
configureCodecs(addedMimeTypes);
}
@Override
protected void before() throws Throwable {
if (Util.SDK_INT <= 19) {
// Codec config not supported with Robolectric on API <= 19. Skip rule set up step.
return;
}
configureCodecs(supportedMimeTypes);
}
@Override
protected void after() {
supportedMimeTypes.clear();
MediaCodecUtil.clearDecoderInfoCache();
if (Util.SDK_INT <= 19) {
// Codec config not supported with Robolectric on API <= 19. Skip rule tear down step.
return;
}
ShadowMediaCodecList.reset();
ShadowMediaCodec.clearCodecs();
}
private void configureCodecs(Set<String> mimeTypes) {
for (String mimeType : mimeTypes) {
checkStateNotNull(ALL_SUPPORTED_CODECS.get(mimeType)).configure();
}
}
private static ImmutableMap<String, CodecImpl> createAllSupportedCodecs() {
ImmutableMap.Builder<String, CodecImpl> codecs = new ImmutableMap.Builder<>();
// Video codecs
codecs.put(
MimeTypes.VIDEO_H264,
new CodecImpl(
/* codecName= */ "exotest.video.avc",
/* mimeType= */ MimeTypes.VIDEO_H264,
/* profileLevels= */ ImmutableList.of(
createProfileLevel(
MediaCodecInfo.CodecProfileLevel.AVCProfileHigh,
MediaCodecInfo.CodecProfileLevel.AVCLevel62)),
/* colorFormats= */ ImmutableList.of(
MediaCodecInfo.CodecCapabilities.COLOR_FormatYUV420Flexible)));
codecs.put(
MimeTypes.VIDEO_H265,
new CodecImpl(
/* codecName= */ "exotest.video.hevc",
/* mimeType= */ MimeTypes.VIDEO_H265,
/* profileLevels= */ ImmutableList.of(
createProfileLevel(
CodecProfileLevel.HEVCProfileMain, CodecProfileLevel.HEVCMainTierLevel61)),
/* colorFormats= */ ImmutableList.of(
MediaCodecInfo.CodecCapabilities.COLOR_FormatYUV420Flexible)));
codecs.put(
MimeTypes.VIDEO_MPEG2,
new CodecImpl(
/* codecName= */ "exotest.video.mpeg2",
/* mimeType= */ MimeTypes.VIDEO_MPEG2,
/* profileLevels= */ ImmutableList.of(
createProfileLevel(
MediaCodecInfo.CodecProfileLevel.MPEG2ProfileMain,
MediaCodecInfo.CodecProfileLevel.MPEG2LevelML)),
/* colorFormats= */ ImmutableList.of(
MediaCodecInfo.CodecCapabilities.COLOR_FormatYUV420Flexible)));
codecs.put(
MimeTypes.VIDEO_VP9,
new CodecImpl(
/* codecName= */ "exotest.video.vp9",
/* mimeType= */ MimeTypes.VIDEO_VP9,
/* profileLevels= */ ImmutableList.of(),
/* colorFormats= */ ImmutableList.of(
MediaCodecInfo.CodecCapabilities.COLOR_FormatYUV420Flexible)));
// Audio codecs
codecs.put(
MimeTypes.AUDIO_AAC,
new CodecImpl(/* codecName= */ "exotest.audio.aac", /* mimeType= */ MimeTypes.AUDIO_AAC));
codecs.put(
MimeTypes.AUDIO_AC3,
new CodecImpl(/* codecName= */ "exotest.audio.ac3", /* mimeType= */ MimeTypes.AUDIO_AC3));
codecs.put(
MimeTypes.AUDIO_AC4,
new CodecImpl(/* codecName= */ "exotest.audio.ac4", /* mimeType= */ MimeTypes.AUDIO_AC4));
codecs.put(
MimeTypes.AUDIO_E_AC3,
new CodecImpl(
/* codecName= */ "exotest.audio.eac3", /* mimeType= */ MimeTypes.AUDIO_E_AC3));
codecs.put(
MimeTypes.AUDIO_E_AC3_JOC,
new CodecImpl(
/* codecName= */ "exotest.audio.eac3joc", /* mimeType= */ MimeTypes.AUDIO_E_AC3_JOC));
codecs.put(
MimeTypes.AUDIO_FLAC,
new CodecImpl(/* codecName= */ "exotest.audio.flac", /* mimeType= */ MimeTypes.AUDIO_FLAC));
codecs.put(
MimeTypes.AUDIO_MPEG,
new CodecImpl(/* codecName= */ "exotest.audio.mpeg", /* mimeType= */ MimeTypes.AUDIO_MPEG));
codecs.put(
MimeTypes.AUDIO_MPEG_L2,
new CodecImpl(
/* codecName= */ "exotest.audio.mpegl2", /* mimeType= */ MimeTypes.AUDIO_MPEG_L2));
codecs.put(
MimeTypes.AUDIO_OPUS,
new CodecImpl(/* codecName= */ "exotest.audio.opus", /* mimeType= */ MimeTypes.AUDIO_OPUS));
codecs.put(
MimeTypes.AUDIO_VORBIS,
new CodecImpl(
/* codecName= */ "exotest.audio.vorbis", /* mimeType= */ MimeTypes.AUDIO_VORBIS));
// Raw audio should use a bypass mode and never need this codec. However, to easily assert
// failures of the bypass mode we want to detect when the raw audio is decoded by this
codecs.put(
MimeTypes.AUDIO_RAW,
new CodecImpl(/* codecName= */ "exotest.audio.raw", /* mimeType= */ MimeTypes.AUDIO_RAW));
return codecs.buildOrThrow();
}
private static MediaCodecInfo.CodecProfileLevel createProfileLevel(int profile, int level) {
MediaCodecInfo.CodecProfileLevel profileLevel = new MediaCodecInfo.CodecProfileLevel();
profileLevel.profile = profile;
profileLevel.level = level;
return profileLevel;
}
/**
* A {@link ShadowMediaCodec.CodecConfig.Codec} that passes data through without modifying it.
*
* <p>Note: This currently drops all audio data - removing this restriction is tracked in
* [internal b/174737370].
*/
private static final class CodecImpl implements ShadowMediaCodec.CodecConfig.Codec {
private final String codecName;
private final String mimeType;
private final ImmutableList<MediaCodecInfo.CodecProfileLevel> profileLevels;
private final ImmutableList<Integer> colorFormats;
private final @C.TrackType int trackType;
public CodecImpl(String codecName, String mimeType) {
this(
codecName,
mimeType,
/* profileLevels= */ ImmutableList.of(),
/* colorFormats= */ ImmutableList.of());
}
public CodecImpl(
String codecName,
String mimeType,
ImmutableList<CodecProfileLevel> profileLevels,
ImmutableList<Integer> colorFormats) {
this.codecName = codecName;
this.mimeType = mimeType;
this.profileLevels = profileLevels;
this.colorFormats = colorFormats;
trackType = MimeTypes.getTrackType(mimeType);
}
public void configure() {
MediaFormat mediaFormat = new MediaFormat();
mediaFormat.setString(MediaFormat.KEY_MIME, mimeType);
MediaCodecInfoBuilder.CodecCapabilitiesBuilder capabilities =
MediaCodecInfoBuilder.CodecCapabilitiesBuilder.newBuilder().setMediaFormat(mediaFormat);
if (!profileLevels.isEmpty()) {
capabilities.setProfileLevels(
profileLevels.toArray(new MediaCodecInfo.CodecProfileLevel[0]));
}
if (!colorFormats.isEmpty()) {
capabilities.setColorFormats(Ints.toArray(colorFormats));
}
ShadowMediaCodecList.addCodec(
MediaCodecInfoBuilder.newBuilder()
.setName(codecName)
.setCapabilities(capabilities.build())
.build());
// TODO: Update ShadowMediaCodec to consider the MediaFormat.KEY_MAX_INPUT_SIZE value passed
// to configure() so we don't have to specify large buffers here.
int bufferSize = mimeType.equals(MimeTypes.VIDEO_H265) ? 250_000 : 100_000;
ShadowMediaCodec.addDecoder(
codecName,
new ShadowMediaCodec.CodecConfig(
/* inputBufferSize= */ bufferSize, /* outputBufferSize= */ bufferSize, this));
}
@Override
public void process(ByteBuffer in, ByteBuffer out) {
byte[] bytes = new byte[in.remaining()];
in.get(bytes);
// TODO(internal b/174737370): Output audio bytes as well.
if (trackType != C.TRACK_TYPE_AUDIO) {
out.put(bytes);
}
}
}
}