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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
#include <gtest/gtest.h>
#include <vector>
#include "MP3Demuxer.h"
#include "mozilla/ArrayUtils.h"
#include "MockMediaResource.h"
class MockMP3MediaResource;
class MockMP3StreamMediaResource;
namespace mozilla {
DDLoggedTypeNameAndBase(::MockMP3MediaResource, MockMediaResource);
DDLoggedTypeNameAndBase(::MockMP3StreamMediaResource, MockMP3MediaResource);
} // namespace mozilla
using namespace mozilla;
using media::TimeUnit;
// Regular MP3 file mock resource.
class MockMP3MediaResource
: public MockMediaResource,
public DecoderDoctorLifeLogger<MockMP3MediaResource> {
public:
explicit MockMP3MediaResource(const char* aFileName)
: MockMediaResource(aFileName) {}
protected:
virtual ~MockMP3MediaResource() = default;
};
// MP3 stream mock resource.
class MockMP3StreamMediaResource
: public MockMP3MediaResource,
public DecoderDoctorLifeLogger<MockMP3StreamMediaResource> {
public:
explicit MockMP3StreamMediaResource(const char* aFileName)
: MockMP3MediaResource(aFileName) {}
int64_t GetLength() override { return -1; }
protected:
virtual ~MockMP3StreamMediaResource() = default;
};
struct MP3Resource {
enum class HeaderType { NONE, XING, VBRI };
struct Duration {
int64_t mMicroseconds;
float mTolerableRate;
Duration(int64_t aMicroseconds, float aTolerableRate)
: mMicroseconds(aMicroseconds), mTolerableRate(aTolerableRate) {}
int64_t Tolerance() const {
return AssertedCast<int64_t>(mTolerableRate *
static_cast<float>(mMicroseconds));
}
};
const char* mFilePath{};
bool mIsVBR{};
HeaderType mHeaderType{HeaderType::NONE};
int64_t mFileSize{};
uint32_t mMPEGLayer{};
uint32_t mMPEGVersion{};
uint8_t mID3MajorVersion{};
uint8_t mID3MinorVersion{};
uint8_t mID3Flags{};
uint32_t mID3Size{};
Maybe<Duration> mDuration;
float mSeekError{};
uint32_t mSampleRate{};
uint32_t mSamplesPerFrame{};
uint32_t mNumSamples{};
uint32_t mPadding{};
uint32_t mEncoderDelay{};
uint32_t mBitrate{};
uint32_t mSlotSize{};
int32_t mPrivate{};
// The first n frame offsets.
std::vector<int32_t> mSyncOffsets;
RefPtr<MockMP3MediaResource> mResource;
RefPtr<MP3TrackDemuxer> mDemuxer;
};
class MP3DemuxerTest : public ::testing::Test {
protected:
void SetUp() override {
{
MP3Resource res;
res.mFilePath = "noise.mp3";
res.mIsVBR = false;
res.mHeaderType = MP3Resource::HeaderType::NONE;
res.mFileSize = 965257;
res.mMPEGLayer = 3;
res.mMPEGVersion = 1;
res.mID3MajorVersion = 3;
res.mID3MinorVersion = 0;
res.mID3Flags = 0;
res.mID3Size = 2141;
// The tolerance comes from the fact that this file has ID3v1 information
// at the end, this trips our CBR duration calculation. The file has
// however the correct duration when decoded / demuxed completely.
res.mDuration = Some(MP3Resource::Duration{30093063, 0.00015f});
res.mSeekError = 0.02f;
res.mSampleRate = 44100;
res.mSamplesPerFrame = 1152;
res.mNumSamples = 1327104;
res.mPadding = 0;
res.mEncoderDelay = 0;
res.mBitrate = 256000;
res.mSlotSize = 1;
res.mPrivate = 0;
const int syncs[] = {2151, 2987, 3823, 4659, 5495, 6331};
res.mSyncOffsets.insert(res.mSyncOffsets.begin(), syncs, syncs + 6);
// No content length can be estimated for CBR stream resources.
MP3Resource streamRes = res;
streamRes.mFileSize = -1;
streamRes.mDuration = Nothing();
res.mResource = new MockMP3MediaResource(res.mFilePath);
res.mDemuxer = new MP3TrackDemuxer(res.mResource);
mTargets.push_back(res);
streamRes.mResource = new MockMP3StreamMediaResource(streamRes.mFilePath);
streamRes.mDemuxer = new MP3TrackDemuxer(streamRes.mResource);
mTargets.push_back(streamRes);
}
{
MP3Resource res;
// This file trips up the MP3 demuxer if ID3v2 tags aren't properly
// skipped. If skipping is not properly implemented, depending on the
// strictness of the MPEG frame parser a false sync will be detected
// somewhere within the metadata at or after 112087, or failing that, at
// the artificially added extraneous header at 114532.
res.mFilePath = "id3v2header.mp3";
res.mIsVBR = false;
res.mHeaderType = MP3Resource::HeaderType::NONE;
res.mFileSize = 191302;
res.mMPEGLayer = 3;
res.mMPEGVersion = 1;
res.mID3MajorVersion = 3;
res.mID3MinorVersion = 0;
res.mID3Flags = 0;
res.mID3Size = 115304;
// The tolerance comes from the fact that this file has ID3v1 information
// at the end, this trips our CBR duration calculation. The file has
// however the correct duration when decoded / demuxed completely.
res.mDuration = Some(MP3Resource::Duration{3160833, 0.0017f});
res.mSeekError = 0.02f;
res.mSampleRate = 44100;
res.mSamplesPerFrame = 1152;
res.mNumSamples = 139392;
res.mPadding = 0;
res.mEncoderDelay = 0;
res.mBitrate = 192000;
res.mSlotSize = 1;
res.mPrivate = 1;
const int syncs[] = {115314, 115941, 116568, 117195, 117822, 118449};
res.mSyncOffsets.insert(res.mSyncOffsets.begin(), syncs, syncs + 6);
// No content length can be estimated for CBR stream resources.
MP3Resource streamRes = res;
streamRes.mFileSize = -1;
streamRes.mDuration = Nothing();
res.mResource = new MockMP3MediaResource(res.mFilePath);
res.mDemuxer = new MP3TrackDemuxer(res.mResource);
mTargets.push_back(res);
streamRes.mResource = new MockMP3StreamMediaResource(streamRes.mFilePath);
streamRes.mDemuxer = new MP3TrackDemuxer(streamRes.mResource);
mTargets.push_back(streamRes);
}
{
MP3Resource res;
res.mFilePath = "noise_vbr.mp3";
res.mIsVBR = true;
res.mHeaderType = MP3Resource::HeaderType::XING;
res.mFileSize = 583679;
res.mMPEGLayer = 3;
res.mMPEGVersion = 1;
res.mID3MajorVersion = 3;
res.mID3MinorVersion = 0;
res.mID3Flags = 0;
res.mID3Size = 2221;
res.mDuration = Some(MP3Resource::Duration{30081065, 0.f});
res.mSeekError = 0.02f;
res.mSampleRate = 44100;
res.mSamplesPerFrame = 1152;
res.mNumSamples = 1326575;
res.mPadding = 576;
res.mEncoderDelay = 2257;
res.mBitrate = 154000;
res.mSlotSize = 1;
res.mPrivate = 0;
const int syncs[] = {2231, 2648, 2752, 3796, 4318, 4735};
res.mSyncOffsets.insert(res.mSyncOffsets.begin(), syncs, syncs + 6);
// VBR stream resources contain header info on total frames numbers, which
// is used to estimate the total duration.
MP3Resource streamRes = res;
streamRes.mFileSize = -1;
res.mResource = new MockMP3MediaResource(res.mFilePath);
res.mDemuxer = new MP3TrackDemuxer(res.mResource);
mTargets.push_back(res);
streamRes.mResource = new MockMP3StreamMediaResource(streamRes.mFilePath);
streamRes.mDemuxer = new MP3TrackDemuxer(streamRes.mResource);
mTargets.push_back(streamRes);
}
{
MP3Resource res;
res.mFilePath = "small-shot.mp3";
res.mIsVBR = true;
res.mHeaderType = MP3Resource::HeaderType::XING;
res.mFileSize = 6825;
res.mMPEGLayer = 3;
res.mMPEGVersion = 1;
res.mID3MajorVersion = 4;
res.mID3MinorVersion = 0;
res.mID3Flags = 0;
res.mID3Size = 24;
res.mDuration = Some(MP3Resource::Duration{301473, 0.f});
res.mSeekError = 0.2f;
res.mSampleRate = 44100;
res.mSamplesPerFrame = 1152;
res.mNumSamples = 12;
res.mPadding = 0;
res.mEncoderDelay = 1152 + 529;
res.mBitrate = 256000;
res.mSlotSize = 1;
res.mPrivate = 0;
const int syncs[] = {34, 556, 1078, 1601, 2123, 2646, 3168,
3691, 4213, 4736, 5258, 5781, 6303};
res.mSyncOffsets.insert(res.mSyncOffsets.begin(), syncs, syncs + 13);
// No content length can be estimated for CBR stream resources.
MP3Resource streamRes = res;
streamRes.mFileSize = -1;
res.mResource = new MockMP3MediaResource(res.mFilePath);
res.mDemuxer = new MP3TrackDemuxer(res.mResource);
mTargets.push_back(res);
streamRes.mResource = new MockMP3StreamMediaResource(streamRes.mFilePath);
streamRes.mDemuxer = new MP3TrackDemuxer(streamRes.mResource);
mTargets.push_back(streamRes);
}
{
MP3Resource res;
// This file contains a false frame sync at 34, just after the ID3 tag,
// which should be identified as a false positive and skipped.
res.mFilePath = "small-shot-false-positive.mp3";
res.mIsVBR = true;
res.mHeaderType = MP3Resource::HeaderType::XING;
res.mFileSize = 6845;
res.mMPEGLayer = 3;
res.mMPEGVersion = 1;
res.mID3MajorVersion = 4;
res.mID3MinorVersion = 0;
res.mID3Flags = 0;
res.mID3Size = 24;
res.mDuration = Some(MP3Resource::Duration{301473, 0.f});
res.mSeekError = 0.2f;
res.mSampleRate = 44100;
res.mSamplesPerFrame = 1152;
res.mNumSamples = 12;
res.mPadding = 0;
res.mEncoderDelay = 1681;
res.mBitrate = 256000;
res.mSlotSize = 1;
res.mPrivate = 0;
const int syncs[] = {54, 576, 1098, 1621, 2143, 2666, 3188,
3711, 4233, 4756, 5278, 5801, 6323};
res.mSyncOffsets.insert(res.mSyncOffsets.begin(), syncs, syncs + 13);
// No content length can be estimated for CBR stream resources.
MP3Resource streamRes = res;
streamRes.mFileSize = -1;
res.mResource = new MockMP3MediaResource(res.mFilePath);
res.mDemuxer = new MP3TrackDemuxer(res.mResource);
mTargets.push_back(res);
streamRes.mResource = new MockMP3StreamMediaResource(streamRes.mFilePath);
streamRes.mDemuxer = new MP3TrackDemuxer(streamRes.mResource);
mTargets.push_back(streamRes);
}
{
MP3Resource res;
res.mFilePath = "small-shot-partial-xing.mp3";
res.mIsVBR = true;
res.mHeaderType = MP3Resource::HeaderType::XING;
res.mFileSize = 6825;
res.mMPEGLayer = 3;
res.mMPEGVersion = 1;
res.mID3MajorVersion = 4;
res.mID3MinorVersion = 0;
res.mID3Flags = 0;
res.mID3Size = 24;
res.mDuration = Some(MP3Resource::Duration{301473, 0.f});
res.mSeekError = 0.2f;
res.mSampleRate = 44100;
res.mSamplesPerFrame = 1152;
res.mNumSamples = 12;
res.mPadding = 0;
res.mEncoderDelay = 1681;
res.mBitrate = 256000;
res.mSlotSize = 1;
res.mPrivate = 0;
const int syncs[] = {34, 556, 1078, 1601, 2123, 2646, 3168,
3691, 4213, 4736, 5258, 5781, 6303};
res.mSyncOffsets.insert(res.mSyncOffsets.begin(), syncs, syncs + 13);
// No content length can be estimated for CBR stream resources.
MP3Resource streamRes = res;
streamRes.mFileSize = -1;
res.mResource = new MockMP3MediaResource(res.mFilePath);
res.mDemuxer = new MP3TrackDemuxer(res.mResource);
mTargets.push_back(res);
streamRes.mResource = new MockMP3StreamMediaResource(streamRes.mFilePath);
streamRes.mDemuxer = new MP3TrackDemuxer(streamRes.mResource);
mTargets.push_back(streamRes);
}
{
MP3Resource res;
res.mFilePath = "test_vbri.mp3";
res.mIsVBR = true;
res.mHeaderType = MP3Resource::HeaderType::VBRI;
res.mFileSize = 16519;
res.mMPEGLayer = 3;
res.mMPEGVersion = 1;
res.mID3MajorVersion = 3;
res.mID3MinorVersion = 0;
res.mID3Flags = 0;
res.mID3Size = 4202;
res.mDuration = Some(MP3Resource::Duration{731428, 0.f});
res.mSeekError = 0.02f;
res.mSampleRate = 44100;
res.mSamplesPerFrame = 1152;
res.mNumSamples = 29;
res.mPadding = 0;
res.mEncoderDelay = 1152;
res.mBitrate = 0;
res.mSlotSize = 1;
res.mPrivate = 0;
const int syncs[] = {4212, 4734, 5047, 5464, 5986, 6403};
res.mSyncOffsets.insert(res.mSyncOffsets.begin(), syncs, syncs + 6);
// VBR stream resources contain header info on total frames numbers, which
// is used to estimate the total duration.
MP3Resource streamRes = res;
streamRes.mFileSize = -1;
res.mResource = new MockMP3MediaResource(res.mFilePath);
res.mDemuxer = new MP3TrackDemuxer(res.mResource);
mTargets.push_back(res);
streamRes.mResource = new MockMP3StreamMediaResource(streamRes.mFilePath);
streamRes.mDemuxer = new MP3TrackDemuxer(streamRes.mResource);
mTargets.push_back(streamRes);
}
for (auto& target : mTargets) {
ASSERT_EQ(NS_OK, target.mResource->Open());
ASSERT_TRUE(target.mDemuxer->Init());
}
}
std::vector<MP3Resource> mTargets;
};
TEST_F(MP3DemuxerTest, ID3Tags) {
for (const auto& target : mTargets) {
RefPtr<MediaRawData> frame(target.mDemuxer->DemuxSample());
ASSERT_TRUE(frame);
const auto& id3 = target.mDemuxer->ID3Header();
ASSERT_TRUE(id3.IsValid());
EXPECT_EQ(target.mID3MajorVersion, id3.MajorVersion());
EXPECT_EQ(target.mID3MinorVersion, id3.MinorVersion());
EXPECT_EQ(target.mID3Flags, id3.Flags());
EXPECT_EQ(target.mID3Size, id3.Size());
}
}
TEST_F(MP3DemuxerTest, VBRHeader) {
for (const auto& target : mTargets) {
RefPtr<MediaRawData> frame(target.mDemuxer->DemuxSample());
ASSERT_TRUE(frame);
const auto& vbr = target.mDemuxer->VBRInfo();
if (target.mHeaderType == MP3Resource::HeaderType::XING) {
EXPECT_EQ(FrameParser::VBRHeader::XING, vbr.Type());
} else if (target.mHeaderType == MP3Resource::HeaderType::VBRI) {
EXPECT_TRUE(target.mIsVBR);
EXPECT_EQ(FrameParser::VBRHeader::VBRI, vbr.Type());
} else { // MP3Resource::HeaderType::NONE
EXPECT_EQ(FrameParser::VBRHeader::NONE, vbr.Type());
EXPECT_FALSE(vbr.NumAudioFrames());
}
}
}
TEST_F(MP3DemuxerTest, FrameParsing) {
for (const auto& target : mTargets) {
printf("Testing: %s\n", target.mFilePath);
RefPtr<MediaRawData> frameData(target.mDemuxer->DemuxSample());
ASSERT_TRUE(frameData);
EXPECT_EQ(target.mFileSize, target.mDemuxer->StreamLength());
const auto& id3 = target.mDemuxer->ID3Header();
ASSERT_TRUE(id3.IsValid());
int64_t parsedLength = id3.Size();
uint64_t bitrateSum = 0;
uint32_t numFrames = 0;
uint32_t numSamples = 0;
while (frameData) {
if (static_cast<int64_t>(target.mSyncOffsets.size()) > numFrames) {
// Test sync offsets.
EXPECT_EQ(target.mSyncOffsets[numFrames], frameData->mOffset);
}
++numFrames;
parsedLength += AssertedCast<int64_t>(frameData->Size());
const auto& frame = target.mDemuxer->LastFrame();
const auto& header = frame.Header();
ASSERT_TRUE(header.IsValid());
numSamples += header.SamplesPerFrame();
EXPECT_EQ(target.mMPEGLayer, header.Layer());
EXPECT_EQ(target.mSampleRate, header.SampleRate());
EXPECT_EQ(target.mSamplesPerFrame, header.SamplesPerFrame());
EXPECT_EQ(target.mSlotSize, header.SlotSize());
EXPECT_EQ(target.mPrivate, header.Private());
if (target.mIsVBR) {
// Used to compute the average bitrate for VBR streams.
bitrateSum += target.mBitrate;
} else {
EXPECT_EQ(target.mBitrate, header.Bitrate());
}
frameData = target.mDemuxer->DemuxSample();
}
EXPECT_EQ(target.mPadding, target.mDemuxer->PaddingFrames());
EXPECT_EQ(target.mEncoderDelay, target.mDemuxer->EncoderDelayFrames());
EXPECT_GE(numSamples, 0u);
// There may be trailing headers which we don't parse, so the stream length
// is the upper bound.
if (target.mFileSize > 0) {
EXPECT_GE(target.mFileSize, parsedLength);
}
if (target.mIsVBR) {
ASSERT_TRUE(numFrames);
EXPECT_EQ(target.mBitrate, bitrateSum / numFrames);
}
}
}
TEST_F(MP3DemuxerTest, Duration) {
for (const auto& target : mTargets) {
printf("Testing: %s\n", target.mFilePath);
RefPtr<MediaRawData> frameData(target.mDemuxer->DemuxSample());
ASSERT_TRUE(frameData);
EXPECT_EQ(target.mFileSize, target.mDemuxer->StreamLength());
while (frameData) {
if (target.mDuration) {
ASSERT_TRUE(target.mDemuxer->Duration());
EXPECT_NEAR(target.mDuration->mMicroseconds,
target.mDemuxer->Duration()->ToMicroseconds(),
target.mDuration->Tolerance());
} else {
EXPECT_FALSE(target.mDemuxer->Duration());
}
frameData = target.mDemuxer->DemuxSample();
}
if (target.mDuration) {
// At the end, the durations should always be exact.
EXPECT_EQ(target.mDuration->mMicroseconds,
target.mDemuxer->Duration()->ToMicroseconds());
}
}
// Seek out of range tests.
for (const auto& target : mTargets) {
printf("Testing %s\n", target.mFilePath);
// Skip tests for stream media resources because of lacking duration.
if (target.mFileSize <= 0) {
continue;
}
target.mDemuxer->Reset();
RefPtr<MediaRawData> frameData(target.mDemuxer->DemuxSample());
ASSERT_TRUE(frameData);
ASSERT_TRUE(target.mDemuxer->Duration());
const auto duration = target.mDemuxer->Duration().value();
const auto pos = duration + TimeUnit::FromMicroseconds(1e6);
// Attempt to seek 1 second past the end of stream.
target.mDemuxer->Seek(pos);
// The seek should bring us to the end of the stream.
EXPECT_NEAR(duration.ToMicroseconds(),
target.mDemuxer->SeekPosition().ToMicroseconds(),
target.mSeekError * duration.ToMicroseconds());
// Since we're at the end of the stream, there should be no frames left.
frameData = target.mDemuxer->DemuxSample();
ASSERT_FALSE(frameData);
}
}
TEST_F(MP3DemuxerTest, Seek) {
for (const auto& target : mTargets) {
RefPtr<MediaRawData> frameData(target.mDemuxer->DemuxSample());
ASSERT_TRUE(frameData);
const auto seekTime = TimeUnit::FromSeconds(1);
auto pos = target.mDemuxer->SeekPosition();
while (frameData) {
EXPECT_NEAR(pos.ToMicroseconds(),
target.mDemuxer->SeekPosition().ToMicroseconds(),
target.mSeekError * pos.ToMicroseconds());
pos += seekTime;
target.mDemuxer->Seek(pos);
frameData = target.mDemuxer->DemuxSample();
}
}
// Seeking should work with in-between resets, too.
for (const auto& target : mTargets) {
target.mDemuxer->Reset();
RefPtr<MediaRawData> frameData(target.mDemuxer->DemuxSample());
ASSERT_TRUE(frameData);
const auto seekTime = TimeUnit::FromSeconds(1);
auto pos = target.mDemuxer->SeekPosition();
while (frameData) {
EXPECT_NEAR(pos.ToMicroseconds(),
target.mDemuxer->SeekPosition().ToMicroseconds(),
target.mSeekError * pos.ToMicroseconds());
pos += seekTime;
target.mDemuxer->Reset();
target.mDemuxer->Seek(pos);
frameData = target.mDemuxer->DemuxSample();
}
}
}