gecko-dev/dom/media/gtest/TestWebMWriter.cpp

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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
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "gtest/gtest.h"
#include "mozilla/CheckedInt.h"
#include "mozilla/MathAlgorithms.h"
#include "nestegg/nestegg.h"
#include "OpusTrackEncoder.h"
#include "VP8TrackEncoder.h"
#include "WebMWriter.h"
using namespace mozilla;
class WebMOpusTrackEncoder : public OpusTrackEncoder
{
public:
bool TestOpusCreation(int aChannels, int aSamplingRate)
{
if (NS_SUCCEEDED(Init(aChannels, aSamplingRate))) {
return true;
}
return false;
}
};
class WebMVP8TrackEncoder: public VP8TrackEncoder
{
public:
explicit WebMVP8TrackEncoder(TrackRate aTrackRate = 90000)
: VP8TrackEncoder(aTrackRate) {}
bool TestVP8Creation(int32_t aWidth, int32_t aHeight, int32_t aDisplayWidth,
int32_t aDisplayHeight)
{
if (NS_SUCCEEDED(Init(aWidth, aHeight, aDisplayWidth, aDisplayHeight))) {
return true;
}
return false;
}
};
const uint64_t FIXED_DURATION = 1000000;
const uint32_t FIXED_FRAMESIZE = 500;
class TestWebMWriter: public WebMWriter
{
public:
explicit TestWebMWriter(int aTrackTypes)
: WebMWriter(aTrackTypes),
mTimestamp(0)
{}
void SetOpusMetadata(int aChannels, int aSampleRate) {
WebMOpusTrackEncoder opusEncoder;
EXPECT_TRUE(opusEncoder.TestOpusCreation(aChannels, aSampleRate));
RefPtr<TrackMetadataBase> opusMeta = opusEncoder.GetMetadata();
SetMetadata(opusMeta);
}
void SetVP8Metadata(int32_t aWidth, int32_t aHeight, int32_t aDisplayWidth,
int32_t aDisplayHeight,TrackRate aTrackRate) {
WebMVP8TrackEncoder vp8Encoder;
EXPECT_TRUE(vp8Encoder.TestVP8Creation(aWidth, aHeight, aDisplayWidth,
aDisplayHeight));
RefPtr<TrackMetadataBase> vp8Meta = vp8Encoder.GetMetadata();
SetMetadata(vp8Meta);
}
// When we append an I-Frame into WebM muxer, the muxer will treat previous
// data as "a cluster".
// In these test cases, we will call the function many times to enclose the
// previous cluster so that we can retrieve data by |GetContainerData|.
void AppendDummyFrame(EncodedFrame::FrameType aFrameType,
uint64_t aDuration) {
EncodedFrameContainer encodedVideoData;
nsTArray<uint8_t> frameData;
RefPtr<EncodedFrame> videoData = new EncodedFrame();
// Create dummy frame data.
frameData.SetLength(FIXED_FRAMESIZE);
videoData->SetFrameType(aFrameType);
videoData->SetTimeStamp(mTimestamp);
videoData->SetDuration(aDuration);
videoData->SwapInFrameData(frameData);
encodedVideoData.AppendEncodedFrame(videoData);
WriteEncodedTrack(encodedVideoData, 0);
mTimestamp += aDuration;
}
bool HaveValidCluster() {
nsTArray<nsTArray<uint8_t> > encodedBuf;
GetContainerData(&encodedBuf, 0);
return (encodedBuf.Length() > 0) ? true : false;
}
// Timestamp accumulator that increased by AppendDummyFrame.
// Keep it public that we can do some testcases about it.
uint64_t mTimestamp;
};
TEST(WebMWriter, Metadata)
{
TestWebMWriter writer(ContainerWriter::CREATE_AUDIO_TRACK |
ContainerWriter::CREATE_VIDEO_TRACK);
// The output should be empty since we didn't set any metadata in writer.
nsTArray<nsTArray<uint8_t> > encodedBuf;
writer.GetContainerData(&encodedBuf, ContainerWriter::GET_HEADER);
EXPECT_TRUE(encodedBuf.Length() == 0);
writer.GetContainerData(&encodedBuf, ContainerWriter::FLUSH_NEEDED);
EXPECT_TRUE(encodedBuf.Length() == 0);
// Set opus metadata.
int channel = 1;
int sampleRate = 44100;
writer.SetOpusMetadata(channel, sampleRate);
// No output data since we didn't set both audio/video
// metadata in writer.
writer.GetContainerData(&encodedBuf, ContainerWriter::GET_HEADER);
EXPECT_TRUE(encodedBuf.Length() == 0);
writer.GetContainerData(&encodedBuf, ContainerWriter::FLUSH_NEEDED);
EXPECT_TRUE(encodedBuf.Length() == 0);
// Set vp8 metadata
int32_t width = 640;
int32_t height = 480;
int32_t displayWidth = 640;
int32_t displayHeight = 480;
TrackRate aTrackRate = 90000;
writer.SetVP8Metadata(width, height, displayWidth,
displayHeight, aTrackRate);
writer.GetContainerData(&encodedBuf, ContainerWriter::GET_HEADER);
EXPECT_TRUE(encodedBuf.Length() > 0);
}
TEST(WebMWriter, Cluster)
{
TestWebMWriter writer(ContainerWriter::CREATE_AUDIO_TRACK |
ContainerWriter::CREATE_VIDEO_TRACK);
// Set opus metadata.
int channel = 1;
int sampleRate = 48000;
writer.SetOpusMetadata(channel, sampleRate);
// Set vp8 metadata
int32_t width = 320;
int32_t height = 240;
int32_t displayWidth = 320;
int32_t displayHeight = 240;
TrackRate aTrackRate = 90000;
writer.SetVP8Metadata(width, height, displayWidth,
displayHeight, aTrackRate);
nsTArray<nsTArray<uint8_t> > encodedBuf;
writer.GetContainerData(&encodedBuf, ContainerWriter::GET_HEADER);
EXPECT_TRUE(encodedBuf.Length() > 0);
encodedBuf.Clear();
// write the first I-Frame.
writer.AppendDummyFrame(EncodedFrame::VP8_I_FRAME, FIXED_DURATION);
// No data because the cluster is not closed.
EXPECT_FALSE(writer.HaveValidCluster());
// The second I-Frame.
writer.AppendDummyFrame(EncodedFrame::VP8_I_FRAME, FIXED_DURATION);
// Should have data because the first cluster is closed.
EXPECT_TRUE(writer.HaveValidCluster());
// P-Frame.
writer.AppendDummyFrame(EncodedFrame::VP8_P_FRAME, FIXED_DURATION);
// No data because the cluster is not closed.
EXPECT_FALSE(writer.HaveValidCluster());
// The third I-Frame.
writer.AppendDummyFrame(EncodedFrame::VP8_I_FRAME, FIXED_DURATION);
// Should have data because the second cluster is closed.
EXPECT_TRUE(writer.HaveValidCluster());
}
TEST(WebMWriter, FLUSH_NEEDED)
{
TestWebMWriter writer(ContainerWriter::CREATE_AUDIO_TRACK |
ContainerWriter::CREATE_VIDEO_TRACK);
// Set opus metadata.
int channel = 2;
int sampleRate = 44100;
writer.SetOpusMetadata(channel, sampleRate);
// Set vp8 metadata
int32_t width = 176;
int32_t height = 352;
int32_t displayWidth = 176;
int32_t displayHeight = 352;
TrackRate aTrackRate = 100000;
writer.SetVP8Metadata(width, height, displayWidth,
displayHeight, aTrackRate);
// write the first I-Frame.
writer.AppendDummyFrame(EncodedFrame::VP8_I_FRAME, FIXED_DURATION);
// P-Frame
writer.AppendDummyFrame(EncodedFrame::VP8_P_FRAME, FIXED_DURATION);
// Have data because the metadata is finished.
EXPECT_TRUE(writer.HaveValidCluster());
// No data because the cluster is not closed and the metatdata had been
// retrieved
EXPECT_FALSE(writer.HaveValidCluster());
nsTArray<nsTArray<uint8_t> > encodedBuf;
// Have data because the flag ContainerWriter::FLUSH_NEEDED
writer.GetContainerData(&encodedBuf, ContainerWriter::FLUSH_NEEDED);
EXPECT_TRUE(encodedBuf.Length() > 0);
encodedBuf.Clear();
// P-Frame
writer.AppendDummyFrame(EncodedFrame::VP8_P_FRAME, FIXED_DURATION);
// No data because there is no cluster right now. The I-Frame had been
// flushed out.
EXPECT_FALSE(writer.HaveValidCluster());
// I-Frame
writer.AppendDummyFrame(EncodedFrame::VP8_I_FRAME, FIXED_DURATION);
// No data because a cluster must starts form I-Frame and the
// cluster is not closed.
EXPECT_FALSE(writer.HaveValidCluster());
// I-Frame
writer.AppendDummyFrame(EncodedFrame::VP8_I_FRAME, FIXED_DURATION);
// Have data because the previous cluster is closed.
EXPECT_TRUE(writer.HaveValidCluster());
}
struct WebMioData {
nsTArray<uint8_t> data;
CheckedInt<size_t> offset;
};
static int webm_read(void* aBuffer, size_t aLength, void* aUserData)
{
NS_ASSERTION(aUserData, "aUserData must point to a valid WebMioData");
WebMioData* ioData = static_cast<WebMioData*>(aUserData);
// Check the read length.
if (aLength > ioData->data.Length()) {
return 0;
}
// Check eos.
if (ioData->offset.value() >= ioData->data.Length()) {
return 0;
}
size_t oldOffset = ioData->offset.value();
ioData->offset += aLength;
if (!ioData->offset.isValid() ||
(ioData->offset.value() > ioData->data.Length())) {
return -1;
}
memcpy(aBuffer, ioData->data.Elements()+oldOffset, aLength);
return 1;
}
static int webm_seek(int64_t aOffset, int aWhence, void* aUserData)
{
NS_ASSERTION(aUserData, "aUserData must point to a valid WebMioData");
WebMioData* ioData = static_cast<WebMioData*>(aUserData);
if (Abs(aOffset) > ioData->data.Length()) {
NS_ERROR("Invalid aOffset");
return -1;
}
switch (aWhence) {
case NESTEGG_SEEK_END:
{
CheckedInt<size_t> tempOffset = ioData->data.Length();
ioData->offset = tempOffset + aOffset;
break;
}
case NESTEGG_SEEK_CUR:
ioData->offset += aOffset;
break;
case NESTEGG_SEEK_SET:
ioData->offset = aOffset;
break;
default:
NS_ERROR("Unknown whence");
return -1;
}
if (!ioData->offset.isValid()) {
NS_ERROR("Invalid offset");
return -1;
}
return 0;
}
static int64_t webm_tell(void* aUserData)
{
NS_ASSERTION(aUserData, "aUserData must point to a valid WebMioData");
WebMioData* ioData = static_cast<WebMioData*>(aUserData);
return ioData->offset.isValid() ? ioData->offset.value() : -1;
}
TEST(WebMWriter, bug970774_aspect_ratio)
{
TestWebMWriter writer(ContainerWriter::CREATE_AUDIO_TRACK |
ContainerWriter::CREATE_VIDEO_TRACK);
// Set opus metadata.
int channel = 1;
int sampleRate = 44100;
writer.SetOpusMetadata(channel, sampleRate);
// Set vp8 metadata
int32_t width = 640;
int32_t height = 480;
int32_t displayWidth = 1280;
int32_t displayHeight = 960;
TrackRate aTrackRate = 90000;
writer.SetVP8Metadata(width, height, displayWidth,
displayHeight, aTrackRate);
// write the first I-Frame.
writer.AppendDummyFrame(EncodedFrame::VP8_I_FRAME, FIXED_DURATION);
// write the second I-Frame.
writer.AppendDummyFrame(EncodedFrame::VP8_I_FRAME, FIXED_DURATION);
// Get the metadata and the first cluster.
nsTArray<nsTArray<uint8_t> > encodedBuf;
writer.GetContainerData(&encodedBuf, 0);
// Flatten the encodedBuf.
WebMioData ioData;
ioData.offset = 0;
for(uint32_t i = 0 ; i < encodedBuf.Length(); ++i) {
ioData.data.AppendElements(encodedBuf[i]);
}
// Use nestegg to verify the information in metadata.
nestegg* context = nullptr;
nestegg_io io;
io.read = webm_read;
io.seek = webm_seek;
io.tell = webm_tell;
io.userdata = static_cast<void*>(&ioData);
int rv = nestegg_init(&context, io, nullptr, -1);
EXPECT_EQ(rv, 0);
unsigned int ntracks = 0;
rv = nestegg_track_count(context, &ntracks);
EXPECT_EQ(rv, 0);
EXPECT_EQ(ntracks, (unsigned int)2);
for (unsigned int track = 0; track < ntracks; ++track) {
int id = nestegg_track_codec_id(context, track);
EXPECT_NE(id, -1);
int type = nestegg_track_type(context, track);
if (type == NESTEGG_TRACK_VIDEO) {
nestegg_video_params params;
rv = nestegg_track_video_params(context, track, &params);
EXPECT_EQ(rv, 0);
EXPECT_EQ(width, static_cast<int32_t>(params.width));
EXPECT_EQ(height, static_cast<int32_t>(params.height));
EXPECT_EQ(displayWidth, static_cast<int32_t>(params.display_width));
EXPECT_EQ(displayHeight, static_cast<int32_t>(params.display_height));
} else if (type == NESTEGG_TRACK_AUDIO) {
nestegg_audio_params params;
rv = nestegg_track_audio_params(context, track, &params);
EXPECT_EQ(rv, 0);
EXPECT_EQ(channel, static_cast<int>(params.channels));
EXPECT_EQ(static_cast<double>(sampleRate), params.rate);
}
}
if (context) {
nestegg_destroy(context);
}
}