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/*
* Copyright 2013, Mozilla Foundation and contributors
*
* 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.
*/
#include <cstdint>
#include <limits>
#include "AnnexB.h"
#include "BigEndian.h"
#include "ClearKeyDecryptionManager.h"
#include "ClearKeyUtils.h"
#include "gmp-task-utils.h"
#include "VideoDecoder.h"
using namespace wmf;
VideoDecoder::VideoDecoder(GMPVideoHost *aHostAPI)
: mHostAPI(aHostAPI)
, mCallback(nullptr)
, mWorkerThread(nullptr)
, mMutex(nullptr)
, mNumInputTasks(0)
, mSentExtraData(false)
, mIsFlushing(false)
, mHasShutdown(false)
{
// We drop the ref in DecodingComplete().
AddRef();
}
VideoDecoder::~VideoDecoder()
{
if (mMutex) {
mMutex->Destroy();
}
}
void
VideoDecoder::InitDecode(const GMPVideoCodec& aCodecSettings,
const uint8_t* aCodecSpecific,
uint32_t aCodecSpecificLength,
GMPVideoDecoderCallback* aCallback,
int32_t aCoreCount)
{
mCallback = aCallback;
assert(mCallback);
mDecoder = new WMFH264Decoder();
HRESULT hr = mDecoder->Init(aCoreCount);
if (FAILED(hr)) {
CK_LOGD("VideoDecoder::InitDecode failed to init WMFH264Decoder");
mCallback->Error(GMPGenericErr);
return;
}
auto err = GetPlatform()->createmutex(&mMutex);
if (GMP_FAILED(err)) {
CK_LOGD("VideoDecoder::InitDecode failed to create GMPMutex");
mCallback->Error(GMPGenericErr);
return;
}
// The first byte is mPacketizationMode, which is only relevant for
// WebRTC/OpenH264 usecase.
const uint8_t* avcc = aCodecSpecific + 1;
const uint8_t* avccEnd = aCodecSpecific + aCodecSpecificLength;
mExtraData.insert(mExtraData.end(), avcc, avccEnd);
AnnexB::ConvertConfig(mExtraData, mAnnexB);
}
void
VideoDecoder::EnsureWorker()
{
if (!mWorkerThread) {
GetPlatform()->createthread(&mWorkerThread);
if (!mWorkerThread) {
mCallback->Error(GMPAllocErr);
return;
}
}
}
void
VideoDecoder::Decode(GMPVideoEncodedFrame* aInputFrame,
bool aMissingFrames,
const uint8_t* aCodecSpecificInfo,
uint32_t aCodecSpecificInfoLength,
int64_t aRenderTimeMs)
{
if (aInputFrame->BufferType() != GMP_BufferLength32) {
// Gecko should only send frames with 4 byte NAL sizes to GMPs.
mCallback->Error(GMPGenericErr);
return;
}
EnsureWorker();
{
AutoLock lock(mMutex);
mNumInputTasks++;
}
// Note: we don't need the codec specific info on a per-frame basis.
// It's mostly useful for WebRTC use cases.
// Make a copy of the data, so we can release aInputFrame ASAP,
// to avoid too many shmem handles being held by the GMP process.
// If the GMP process holds on to too many shmem handles, the Gecko
// side can fail to allocate a shmem to send more input. This is
// particularly a problem in Gecko mochitests, which can open multiple
// actors at once which share the same pool of shmems.
DecodeData* data = new DecodeData();
Assign(data->mBuffer, aInputFrame->Buffer(), aInputFrame->Size());
data->mTimestamp = aInputFrame->TimeStamp();
data->mDuration = aInputFrame->Duration();
data->mIsKeyframe = (aInputFrame->FrameType() == kGMPKeyFrame);
const GMPEncryptedBufferMetadata* crypto = aInputFrame->GetDecryptionData();
if (crypto) {
data->mCrypto.Init(crypto);
}
aInputFrame->Destroy();
mWorkerThread->Post(WrapTaskRefCounted(this,
&VideoDecoder::DecodeTask,
data));
}
void
VideoDecoder::DecodeTask(DecodeData* aData)
{
CK_LOGD("VideoDecoder::DecodeTask");
AutoPtr<DecodeData> d(aData);
HRESULT hr;
{
AutoLock lock(mMutex);
mNumInputTasks--;
assert(mNumInputTasks >= 0);
}
if (mIsFlushing) {
CK_LOGD("VideoDecoder::DecodeTask rejecting frame: flushing.");
return;
}
if (!aData || !mHostAPI || !mDecoder) {
CK_LOGE("Decode job not set up correctly!");
return;
}
std::vector<uint8_t>& buffer = aData->mBuffer;
if (aData->mCrypto.IsValid()) {
// Plugin host should have set up its decryptor/key sessions
// before trying to decode!
GMPErr rv =
ClearKeyDecryptionManager::Get()->Decrypt(buffer, aData->mCrypto);
if (GMP_FAILED(rv)) {
MaybeRunOnMainThread(WrapTask(mCallback, &GMPVideoDecoderCallback::Error, rv));
return;
}
}
AnnexB::ConvertFrameInPlace(buffer);
if (aData->mIsKeyframe) {
// We must send the SPS and PPS to Windows Media Foundation's decoder.
// Note: We do this *after* decryption, otherwise the subsample info
// would be incorrect.
buffer.insert(buffer.begin(), mAnnexB.begin(), mAnnexB.end());
}
hr = mDecoder->Input(buffer.data(),
buffer.size(),
aData->mTimestamp,
aData->mDuration);
CK_LOGD("VideoDecoder::DecodeTask() Input ret hr=0x%x\n", hr);
if (FAILED(hr)) {
CK_LOGE("VideoDecoder::DecodeTask() decode failed ret=0x%x%s\n",
hr,
((hr == MF_E_NOTACCEPTING) ? " (MF_E_NOTACCEPTING)" : ""));
return;
}
while (hr == S_OK) {
CComPtr<IMFSample> output;
hr = mDecoder->Output(&output);
CK_LOGD("VideoDecoder::DecodeTask() output ret=0x%x\n", hr);
if (hr == S_OK) {
MaybeRunOnMainThread(
WrapTaskRefCounted(this,
&VideoDecoder::ReturnOutput,
CComPtr<IMFSample>(output),
mDecoder->GetFrameWidth(),
mDecoder->GetFrameHeight(),
mDecoder->GetStride()));
}
if (hr == MF_E_TRANSFORM_NEED_MORE_INPUT) {
AutoLock lock(mMutex);
if (mNumInputTasks == 0) {
// We have run all input tasks. We *must* notify Gecko so that it will
// send us more data.
MaybeRunOnMainThread(
WrapTask(mCallback,
&GMPVideoDecoderCallback::InputDataExhausted));
}
}
if (FAILED(hr)) {
CK_LOGE("VideoDecoder::DecodeTask() output failed hr=0x%x\n", hr);
}
}
}
void
VideoDecoder::ReturnOutput(IMFSample* aSample,
int32_t aWidth,
int32_t aHeight,
int32_t aStride)
{
CK_LOGD("[%p] VideoDecoder::ReturnOutput()\n", this);
assert(aSample);
HRESULT hr;
GMPVideoFrame* f = nullptr;
auto err = mHostAPI->CreateFrame(kGMPI420VideoFrame, &f);
if (GMP_FAILED(err) || !f) {
CK_LOGE("Failed to create i420 frame!\n");
return;
}
if (HasShutdown()) {
// Note: GMPVideoHost::CreateFrame() can process messages before returning,
// including a message that calls VideoDecoder::DecodingComplete(), i.e.
// we can shutdown during the call!
CK_LOGD("Shutdown while waiting on GMPVideoHost::CreateFrame()!\n");
f->Destroy();
return;
}
auto vf = static_cast<GMPVideoi420Frame*>(f);
hr = SampleToVideoFrame(aSample, aWidth, aHeight, aStride, vf);
ENSURE(SUCCEEDED(hr), /*void*/);
mCallback->Decoded(vf);
}
HRESULT
VideoDecoder::SampleToVideoFrame(IMFSample* aSample,
int32_t aWidth,
int32_t aHeight,
int32_t aStride,
GMPVideoi420Frame* aVideoFrame)
{
ENSURE(aSample != nullptr, E_POINTER);
ENSURE(aVideoFrame != nullptr, E_POINTER);
HRESULT hr;
CComPtr<IMFMediaBuffer> mediaBuffer;
// Must convert to contiguous mediaBuffer to use IMD2DBuffer interface.
hr = aSample->ConvertToContiguousBuffer(&mediaBuffer);
ENSURE(SUCCEEDED(hr), hr);
// Try and use the IMF2DBuffer interface if available, otherwise fallback
// to the IMFMediaBuffer interface. Apparently IMF2DBuffer is more efficient,
// but only some systems (Windows 8?) support it.
BYTE* data = nullptr;
LONG stride = 0;
CComPtr<IMF2DBuffer> twoDBuffer;
hr = mediaBuffer->QueryInterface(static_cast<IMF2DBuffer**>(&twoDBuffer));
if (SUCCEEDED(hr)) {
hr = twoDBuffer->Lock2D(&data, &stride);
ENSURE(SUCCEEDED(hr), hr);
} else {
hr = mediaBuffer->Lock(&data, NULL, NULL);
ENSURE(SUCCEEDED(hr), hr);
stride = aStride;
}
// The V and U planes are stored 16-row-aligned, so we need to add padding
// to the row heights to ensure the Y'CbCr planes are referenced properly.
// YV12, planar format: [YYYY....][VVVV....][UUUU....]
// i.e., Y, then V, then U.
uint32_t padding = 0;
if (aHeight % 16 != 0) {
padding = 16 - (aHeight % 16);
}
int32_t y_size = stride * (aHeight + padding);
int32_t v_size = stride * (aHeight + padding) / 4;
int32_t halfStride = (stride + 1) / 2;
int32_t halfHeight = (aHeight + 1) / 2;
auto err = aVideoFrame->CreateEmptyFrame(stride, aHeight, stride, halfStride, halfStride);
ENSURE(GMP_SUCCEEDED(err), E_FAIL);
err = aVideoFrame->SetWidth(aWidth);
ENSURE(GMP_SUCCEEDED(err), E_FAIL);
err = aVideoFrame->SetHeight(aHeight);
ENSURE(GMP_SUCCEEDED(err), E_FAIL);
uint8_t* outBuffer = aVideoFrame->Buffer(kGMPYPlane);
ENSURE(outBuffer != nullptr, E_FAIL);
assert(aVideoFrame->AllocatedSize(kGMPYPlane) >= stride*aHeight);
memcpy(outBuffer, data, stride*aHeight);
outBuffer = aVideoFrame->Buffer(kGMPUPlane);
ENSURE(outBuffer != nullptr, E_FAIL);
assert(aVideoFrame->AllocatedSize(kGMPUPlane) >= halfStride*halfHeight);
memcpy(outBuffer, data+y_size, halfStride*halfHeight);
outBuffer = aVideoFrame->Buffer(kGMPVPlane);
ENSURE(outBuffer != nullptr, E_FAIL);
assert(aVideoFrame->AllocatedSize(kGMPVPlane) >= halfStride*halfHeight);
memcpy(outBuffer, data + y_size + v_size, halfStride*halfHeight);
if (twoDBuffer) {
twoDBuffer->Unlock2D();
} else {
mediaBuffer->Unlock();
}
LONGLONG hns = 0;
hr = aSample->GetSampleTime(&hns);
ENSURE(SUCCEEDED(hr), hr);
aVideoFrame->SetTimestamp(HNsToUsecs(hns));
hr = aSample->GetSampleDuration(&hns);
ENSURE(SUCCEEDED(hr), hr);
aVideoFrame->SetDuration(HNsToUsecs(hns));
return S_OK;
}
void
VideoDecoder::ResetCompleteTask()
{
mIsFlushing = false;
if (mCallback) {
MaybeRunOnMainThread(WrapTask(mCallback,
&GMPVideoDecoderCallback::ResetComplete));
}
}
void
VideoDecoder::Reset()
{
mIsFlushing = true;
if (mDecoder) {
mDecoder->Reset();
}
// Schedule ResetComplete callback to run after existing frames have been
// flushed out of the task queue.
EnsureWorker();
mWorkerThread->Post(WrapTaskRefCounted(this,
&VideoDecoder::ResetCompleteTask));
}
void
VideoDecoder::DrainTask()
{
mDecoder->Drain();
// Return any pending output.
HRESULT hr = S_OK;
while (hr == S_OK) {
CComPtr<IMFSample> output;
hr = mDecoder->Output(&output);
CK_LOGD("VideoDecoder::DrainTask() output ret=0x%x\n", hr);
if (hr == S_OK) {
MaybeRunOnMainThread(
WrapTaskRefCounted(this,
&VideoDecoder::ReturnOutput,
CComPtr<IMFSample>(output),
mDecoder->GetFrameWidth(),
mDecoder->GetFrameHeight(),
mDecoder->GetStride()));
}
}
MaybeRunOnMainThread(WrapTask(mCallback, &GMPVideoDecoderCallback::DrainComplete));
}
void
VideoDecoder::Drain()
{
if (!mDecoder) {
if (mCallback) {
mCallback->DrainComplete();
}
return;
}
EnsureWorker();
mWorkerThread->Post(WrapTaskRefCounted(this,
&VideoDecoder::DrainTask));
}
void
VideoDecoder::DecodingComplete()
{
if (mWorkerThread) {
mWorkerThread->Join();
}
mHasShutdown = true;
// Release the reference we added in the constructor. There may be
// WrapRefCounted tasks that also hold references to us, and keep
// us alive a little longer.
Release();
}
void
VideoDecoder::MaybeRunOnMainThread(GMPTask* aTask)
{
class MaybeRunTask : public GMPTask
{
public:
MaybeRunTask(VideoDecoder* aDecoder, GMPTask* aTask)
: mDecoder(aDecoder), mTask(aTask)
{ }
virtual void Run(void) {
if (mDecoder->HasShutdown()) {
CK_LOGD("Trying to dispatch to main thread after VideoDecoder has shut down");
return;
}
mTask->Run();
}
virtual void Destroy()
{
mTask->Destroy();
delete this;
}
private:
RefPtr<VideoDecoder> mDecoder;
GMPTask* mTask;
};
GetPlatform()->runonmainthread(new MaybeRunTask(this, aTask));
}
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