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|
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* 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 <CoreFoundation/CFString.h>
#include "AppleCMLinker.h"
#include "AppleDecoderModule.h"
#include "AppleUtils.h"
#include "AppleVTDecoder.h"
#include "AppleVTLinker.h"
#include "MediaData.h"
#include "mozilla/ArrayUtils.h"
#include "mp4_demuxer/H264.h"
#include "nsAutoPtr.h"
#include "nsThreadUtils.h"
#include "mozilla/Logging.h"
#include "VideoUtils.h"
#include "gfxPlatform.h"
#define LOG(...) MOZ_LOG(sPDMLog, mozilla::LogLevel::Debug, (__VA_ARGS__))
namespace mozilla {
AppleVTDecoder::AppleVTDecoder(const VideoInfo& aConfig,
TaskQueue* aTaskQueue,
MediaDataDecoderCallback* aCallback,
layers::ImageContainer* aImageContainer)
: mExtraData(aConfig.mExtraData)
, mCallback(aCallback)
, mPictureWidth(aConfig.mImage.width)
, mPictureHeight(aConfig.mImage.height)
, mDisplayWidth(aConfig.mDisplay.width)
, mDisplayHeight(aConfig.mDisplay.height)
, mTaskQueue(aTaskQueue)
, mMaxRefFrames(mp4_demuxer::H264::ComputeMaxRefFrames(aConfig.mExtraData))
, mImageContainer(aImageContainer)
, mIsShutDown(false)
#ifdef MOZ_WIDGET_UIKIT
, mUseSoftwareImages(true)
#else
, mUseSoftwareImages(false)
#endif
, mIsFlushing(false)
, mMonitor("AppleVideoDecoder")
, mFormat(nullptr)
, mSession(nullptr)
, mIsHardwareAccelerated(false)
{
MOZ_COUNT_CTOR(AppleVTDecoder);
// TODO: Verify aConfig.mime_type.
LOG("Creating AppleVTDecoder for %dx%d h.264 video",
mDisplayWidth,
mDisplayHeight
);
}
AppleVTDecoder::~AppleVTDecoder()
{
MOZ_COUNT_DTOR(AppleVTDecoder);
}
RefPtr<MediaDataDecoder::InitPromise>
AppleVTDecoder::Init()
{
nsresult rv = InitializeSession();
if (NS_SUCCEEDED(rv)) {
return InitPromise::CreateAndResolve(TrackType::kVideoTrack, __func__);
}
return InitPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_FATAL_ERR, __func__);
}
void
AppleVTDecoder::Input(MediaRawData* aSample)
{
MOZ_ASSERT(mCallback->OnReaderTaskQueue());
LOG("mp4 input sample %p pts %lld duration %lld us%s %d bytes",
aSample,
aSample->mTime,
aSample->mDuration,
aSample->mKeyframe ? " keyframe" : "",
aSample->Size());
mTaskQueue->Dispatch(NewRunnableMethod<RefPtr<MediaRawData>>(
this, &AppleVTDecoder::ProcessDecode, aSample));
}
void
AppleVTDecoder::Flush()
{
MOZ_ASSERT(mCallback->OnReaderTaskQueue());
mIsFlushing = true;
nsCOMPtr<nsIRunnable> runnable =
NewRunnableMethod(this, &AppleVTDecoder::ProcessFlush);
SyncRunnable::DispatchToThread(mTaskQueue, runnable);
mIsFlushing = false;
mSeekTargetThreshold.reset();
}
void
AppleVTDecoder::Drain()
{
MOZ_ASSERT(mCallback->OnReaderTaskQueue());
nsCOMPtr<nsIRunnable> runnable =
NewRunnableMethod(this, &AppleVTDecoder::ProcessDrain);
mTaskQueue->Dispatch(runnable.forget());
}
void
AppleVTDecoder::Shutdown()
{
MOZ_DIAGNOSTIC_ASSERT(!mIsShutDown);
mIsShutDown = true;
if (mTaskQueue) {
nsCOMPtr<nsIRunnable> runnable =
NewRunnableMethod(this, &AppleVTDecoder::ProcessShutdown);
mTaskQueue->Dispatch(runnable.forget());
} else {
ProcessShutdown();
}
}
nsresult
AppleVTDecoder::ProcessDecode(MediaRawData* aSample)
{
AssertOnTaskQueueThread();
if (mIsFlushing) {
return NS_OK;
}
auto rv = DoDecode(aSample);
return rv;
}
void
AppleVTDecoder::ProcessShutdown()
{
if (mSession) {
LOG("%s: cleaning up session %p", __func__, mSession);
VTDecompressionSessionInvalidate(mSession);
CFRelease(mSession);
mSession = nullptr;
}
if (mFormat) {
LOG("%s: releasing format %p", __func__, mFormat);
CFRelease(mFormat);
mFormat = nullptr;
}
}
void
AppleVTDecoder::ProcessFlush()
{
AssertOnTaskQueueThread();
nsresult rv = WaitForAsynchronousFrames();
if (NS_FAILED(rv)) {
LOG("AppleVTDecoder::Flush failed waiting for platform decoder "
"with error:%d.", rv);
}
ClearReorderedFrames();
}
void
AppleVTDecoder::ProcessDrain()
{
AssertOnTaskQueueThread();
nsresult rv = WaitForAsynchronousFrames();
if (NS_FAILED(rv)) {
LOG("AppleVTDecoder::Drain failed waiting for platform decoder "
"with error:%d.", rv);
}
DrainReorderedFrames();
mCallback->DrainComplete();
}
AppleVTDecoder::AppleFrameRef*
AppleVTDecoder::CreateAppleFrameRef(const MediaRawData* aSample)
{
MOZ_ASSERT(aSample);
return new AppleFrameRef(*aSample);
}
void
AppleVTDecoder::DrainReorderedFrames()
{
MonitorAutoLock mon(mMonitor);
while (!mReorderQueue.IsEmpty()) {
mCallback->Output(mReorderQueue.Pop().get());
}
}
void
AppleVTDecoder::ClearReorderedFrames()
{
MonitorAutoLock mon(mMonitor);
while (!mReorderQueue.IsEmpty()) {
mReorderQueue.Pop();
}
}
void
AppleVTDecoder::SetSeekThreshold(const media::TimeUnit& aTime)
{
LOG("SetSeekThreshold %lld", aTime.ToMicroseconds());
mSeekTargetThreshold = Some(aTime);
}
//
// Implementation details.
//
// Callback passed to the VideoToolbox decoder for returning data.
// This needs to be static because the API takes a C-style pair of
// function and userdata pointers. This validates parameters and
// forwards the decoded image back to an object method.
static void
PlatformCallback(void* decompressionOutputRefCon,
void* sourceFrameRefCon,
OSStatus status,
VTDecodeInfoFlags flags,
CVImageBufferRef image,
CMTime presentationTimeStamp,
CMTime presentationDuration)
{
LOG("AppleVideoDecoder %s status %d flags %d", __func__, status, flags);
AppleVTDecoder* decoder =
static_cast<AppleVTDecoder*>(decompressionOutputRefCon);
nsAutoPtr<AppleVTDecoder::AppleFrameRef> frameRef(
static_cast<AppleVTDecoder::AppleFrameRef*>(sourceFrameRefCon));
// Validate our arguments.
if (status != noErr || !image) {
NS_WARNING("VideoToolbox decoder returned no data");
image = nullptr;
} else if (flags & kVTDecodeInfo_FrameDropped) {
NS_WARNING(" ...frame tagged as dropped...");
} else {
MOZ_ASSERT(CFGetTypeID(image) == CVPixelBufferGetTypeID(),
"VideoToolbox returned an unexpected image type");
}
decoder->OutputFrame(image, *frameRef);
}
// Copy and return a decoded frame.
nsresult
AppleVTDecoder::OutputFrame(CVPixelBufferRef aImage,
AppleVTDecoder::AppleFrameRef aFrameRef)
{
if (mIsShutDown || mIsFlushing) {
// We are in the process of flushing or shutting down; ignore frame.
return NS_OK;
}
LOG("mp4 output frame %lld dts %lld pts %lld duration %lld us%s",
aFrameRef.byte_offset,
aFrameRef.decode_timestamp.ToMicroseconds(),
aFrameRef.composition_timestamp.ToMicroseconds(),
aFrameRef.duration.ToMicroseconds(),
aFrameRef.is_sync_point ? " keyframe" : ""
);
if (!aImage) {
// Image was dropped by decoder or none return yet.
// We need more input to continue.
mCallback->InputExhausted();
return NS_OK;
}
bool useNullSample = false;
if (mSeekTargetThreshold.isSome()) {
if ((aFrameRef.composition_timestamp + aFrameRef.duration) < mSeekTargetThreshold.ref()) {
useNullSample = true;
} else {
mSeekTargetThreshold.reset();
}
}
// Where our resulting image will end up.
RefPtr<MediaData> data;
// Bounds.
VideoInfo info;
info.mDisplay = nsIntSize(mDisplayWidth, mDisplayHeight);
gfx::IntRect visible = gfx::IntRect(0,
0,
mPictureWidth,
mPictureHeight);
if (useNullSample) {
data = new NullData(aFrameRef.byte_offset,
aFrameRef.composition_timestamp.ToMicroseconds(),
aFrameRef.duration.ToMicroseconds());
} else if (mUseSoftwareImages) {
size_t width = CVPixelBufferGetWidth(aImage);
size_t height = CVPixelBufferGetHeight(aImage);
DebugOnly<size_t> planes = CVPixelBufferGetPlaneCount(aImage);
MOZ_ASSERT(planes == 2, "Likely not NV12 format and it must be.");
VideoData::YCbCrBuffer buffer;
// Lock the returned image data.
CVReturn rv = CVPixelBufferLockBaseAddress(aImage, kCVPixelBufferLock_ReadOnly);
if (rv != kCVReturnSuccess) {
NS_ERROR("error locking pixel data");
mCallback->Error(
MediaResult(NS_ERROR_DOM_MEDIA_DECODE_ERR,
RESULT_DETAIL("CVPixelBufferLockBaseAddress:%x", rv)));
return NS_ERROR_DOM_MEDIA_DECODE_ERR;
}
// Y plane.
buffer.mPlanes[0].mData =
static_cast<uint8_t*>(CVPixelBufferGetBaseAddressOfPlane(aImage, 0));
buffer.mPlanes[0].mStride = CVPixelBufferGetBytesPerRowOfPlane(aImage, 0);
buffer.mPlanes[0].mWidth = width;
buffer.mPlanes[0].mHeight = height;
buffer.mPlanes[0].mOffset = 0;
buffer.mPlanes[0].mSkip = 0;
// Cb plane.
buffer.mPlanes[1].mData =
static_cast<uint8_t*>(CVPixelBufferGetBaseAddressOfPlane(aImage, 1));
buffer.mPlanes[1].mStride = CVPixelBufferGetBytesPerRowOfPlane(aImage, 1);
buffer.mPlanes[1].mWidth = (width+1) / 2;
buffer.mPlanes[1].mHeight = (height+1) / 2;
buffer.mPlanes[1].mOffset = 0;
buffer.mPlanes[1].mSkip = 1;
// Cr plane.
buffer.mPlanes[2].mData =
static_cast<uint8_t*>(CVPixelBufferGetBaseAddressOfPlane(aImage, 1));
buffer.mPlanes[2].mStride = CVPixelBufferGetBytesPerRowOfPlane(aImage, 1);
buffer.mPlanes[2].mWidth = (width+1) / 2;
buffer.mPlanes[2].mHeight = (height+1) / 2;
buffer.mPlanes[2].mOffset = 1;
buffer.mPlanes[2].mSkip = 1;
// Copy the image data into our own format.
data =
VideoData::CreateAndCopyData(info,
mImageContainer,
aFrameRef.byte_offset,
aFrameRef.composition_timestamp.ToMicroseconds(),
aFrameRef.duration.ToMicroseconds(),
buffer,
aFrameRef.is_sync_point,
aFrameRef.decode_timestamp.ToMicroseconds(),
visible);
// Unlock the returned image data.
CVPixelBufferUnlockBaseAddress(aImage, kCVPixelBufferLock_ReadOnly);
} else {
#ifndef MOZ_WIDGET_UIKIT
IOSurfacePtr surface = MacIOSurfaceLib::CVPixelBufferGetIOSurface(aImage);
MOZ_ASSERT(surface, "Decoder didn't return an IOSurface backed buffer");
RefPtr<MacIOSurface> macSurface = new MacIOSurface(surface);
RefPtr<layers::Image> image = new MacIOSurfaceImage(macSurface);
data =
VideoData::CreateFromImage(info,
aFrameRef.byte_offset,
aFrameRef.composition_timestamp.ToMicroseconds(),
aFrameRef.duration.ToMicroseconds(),
image.forget(),
aFrameRef.is_sync_point,
aFrameRef.decode_timestamp.ToMicroseconds(),
visible);
#else
MOZ_ASSERT_UNREACHABLE("No MacIOSurface on iOS");
#endif
}
if (!data) {
NS_ERROR("Couldn't create VideoData for frame");
mCallback->Error(MediaResult(NS_ERROR_OUT_OF_MEMORY, __func__));
return NS_ERROR_OUT_OF_MEMORY;
}
// Frames come out in DTS order but we need to output them
// in composition order.
MonitorAutoLock mon(mMonitor);
mReorderQueue.Push(data);
if (mReorderQueue.Length() > mMaxRefFrames) {
mCallback->Output(mReorderQueue.Pop().get());
}
mCallback->InputExhausted();
LOG("%llu decoded frames queued",
static_cast<unsigned long long>(mReorderQueue.Length()));
return NS_OK;
}
nsresult
AppleVTDecoder::WaitForAsynchronousFrames()
{
OSStatus rv = VTDecompressionSessionWaitForAsynchronousFrames(mSession);
if (rv != noErr) {
LOG("AppleVTDecoder: Error %d waiting for asynchronous frames", rv);
return NS_ERROR_FAILURE;
}
return NS_OK;
}
// Helper to fill in a timestamp structure.
static CMSampleTimingInfo
TimingInfoFromSample(MediaRawData* aSample)
{
CMSampleTimingInfo timestamp;
timestamp.duration = CMTimeMake(aSample->mDuration, USECS_PER_S);
timestamp.presentationTimeStamp =
CMTimeMake(aSample->mTime, USECS_PER_S);
timestamp.decodeTimeStamp =
CMTimeMake(aSample->mTimecode, USECS_PER_S);
return timestamp;
}
MediaResult
AppleVTDecoder::DoDecode(MediaRawData* aSample)
{
AssertOnTaskQueueThread();
// For some reason this gives me a double-free error with stagefright.
AutoCFRelease<CMBlockBufferRef> block = nullptr;
AutoCFRelease<CMSampleBufferRef> sample = nullptr;
VTDecodeInfoFlags infoFlags;
OSStatus rv;
// FIXME: This copies the sample data. I think we can provide
// a custom block source which reuses the aSample buffer.
// But note that there may be a problem keeping the samples
// alive over multiple frames.
rv = CMBlockBufferCreateWithMemoryBlock(kCFAllocatorDefault, // Struct allocator.
const_cast<uint8_t*>(aSample->Data()),
aSample->Size(),
kCFAllocatorNull, // Block allocator.
NULL, // Block source.
0, // Data offset.
aSample->Size(),
false,
block.receive());
if (rv != noErr) {
NS_ERROR("Couldn't create CMBlockBuffer");
mCallback->Error(
MediaResult(NS_ERROR_OUT_OF_MEMORY,
RESULT_DETAIL("CMBlockBufferCreateWithMemoryBlock:%x", rv)));
return MediaResult(NS_ERROR_OUT_OF_MEMORY, __func__);
}
CMSampleTimingInfo timestamp = TimingInfoFromSample(aSample);
rv = CMSampleBufferCreate(kCFAllocatorDefault, block, true, 0, 0, mFormat, 1, 1, ×tamp, 0, NULL, sample.receive());
if (rv != noErr) {
NS_ERROR("Couldn't create CMSampleBuffer");
mCallback->Error(MediaResult(NS_ERROR_OUT_OF_MEMORY,
RESULT_DETAIL("CMSampleBufferCreate:%x", rv)));
return MediaResult(NS_ERROR_OUT_OF_MEMORY, __func__);
}
VTDecodeFrameFlags decodeFlags =
kVTDecodeFrame_EnableAsynchronousDecompression;
rv = VTDecompressionSessionDecodeFrame(mSession,
sample,
decodeFlags,
CreateAppleFrameRef(aSample),
&infoFlags);
if (rv != noErr && !(infoFlags & kVTDecodeInfo_FrameDropped)) {
LOG("AppleVTDecoder: Error %d VTDecompressionSessionDecodeFrame", rv);
NS_WARNING("Couldn't pass frame to decoder");
mCallback->Error(
MediaResult(NS_ERROR_DOM_MEDIA_DECODE_ERR,
RESULT_DETAIL("VTDecompressionSessionDecodeFrame:%x", rv)));
return NS_ERROR_DOM_MEDIA_DECODE_ERR;
}
return NS_OK;
}
nsresult
AppleVTDecoder::InitializeSession()
{
OSStatus rv;
AutoCFRelease<CFDictionaryRef> extensions = CreateDecoderExtensions();
rv = CMVideoFormatDescriptionCreate(kCFAllocatorDefault,
kCMVideoCodecType_H264,
mPictureWidth,
mPictureHeight,
extensions,
&mFormat);
if (rv != noErr) {
NS_ERROR("Couldn't create format description!");
return NS_ERROR_FAILURE;
}
// Contruct video decoder selection spec.
AutoCFRelease<CFDictionaryRef> spec = CreateDecoderSpecification();
// Contruct output configuration.
AutoCFRelease<CFDictionaryRef> outputConfiguration =
CreateOutputConfiguration();
VTDecompressionOutputCallbackRecord cb = { PlatformCallback, this };
rv = VTDecompressionSessionCreate(kCFAllocatorDefault,
mFormat,
spec, // Video decoder selection.
outputConfiguration, // Output video format.
&cb,
&mSession);
if (rv != noErr) {
NS_ERROR("Couldn't create decompression session!");
return NS_ERROR_FAILURE;
}
if (AppleVTLinker::skPropUsingHWAccel) {
CFBooleanRef isUsingHW = nullptr;
rv = VTSessionCopyProperty(mSession,
AppleVTLinker::skPropUsingHWAccel,
kCFAllocatorDefault,
&isUsingHW);
if (rv != noErr) {
LOG("AppleVTDecoder: system doesn't support hardware acceleration");
}
mIsHardwareAccelerated = rv == noErr && isUsingHW == kCFBooleanTrue;
LOG("AppleVTDecoder: %s hardware accelerated decoding",
mIsHardwareAccelerated ? "using" : "not using");
} else {
LOG("AppleVTDecoder: couldn't determine hardware acceleration status.");
}
return NS_OK;
}
CFDictionaryRef
AppleVTDecoder::CreateDecoderExtensions()
{
AutoCFRelease<CFDataRef> avc_data =
CFDataCreate(kCFAllocatorDefault,
mExtraData->Elements(),
mExtraData->Length());
const void* atomsKey[] = { CFSTR("avcC") };
const void* atomsValue[] = { avc_data };
static_assert(ArrayLength(atomsKey) == ArrayLength(atomsValue),
"Non matching keys/values array size");
AutoCFRelease<CFDictionaryRef> atoms =
CFDictionaryCreate(kCFAllocatorDefault,
atomsKey,
atomsValue,
ArrayLength(atomsKey),
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
const void* extensionKeys[] =
{ kCVImageBufferChromaLocationBottomFieldKey,
kCVImageBufferChromaLocationTopFieldKey,
AppleCMLinker::skPropExtensionAtoms };
const void* extensionValues[] =
{ kCVImageBufferChromaLocation_Left,
kCVImageBufferChromaLocation_Left,
atoms };
static_assert(ArrayLength(extensionKeys) == ArrayLength(extensionValues),
"Non matching keys/values array size");
return CFDictionaryCreate(kCFAllocatorDefault,
extensionKeys,
extensionValues,
ArrayLength(extensionKeys),
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
}
CFDictionaryRef
AppleVTDecoder::CreateDecoderSpecification()
{
if (!AppleVTLinker::skPropEnableHWAccel) {
return nullptr;
}
const void* specKeys[] = { AppleVTLinker::skPropEnableHWAccel };
const void* specValues[1];
if (AppleDecoderModule::sCanUseHardwareVideoDecoder) {
specValues[0] = kCFBooleanTrue;
} else {
// This GPU is blacklisted for hardware decoding.
specValues[0] = kCFBooleanFalse;
}
static_assert(ArrayLength(specKeys) == ArrayLength(specValues),
"Non matching keys/values array size");
return CFDictionaryCreate(kCFAllocatorDefault,
specKeys,
specValues,
ArrayLength(specKeys),
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
}
CFDictionaryRef
AppleVTDecoder::CreateOutputConfiguration()
{
if (mUseSoftwareImages) {
// Output format type:
SInt32 PixelFormatTypeValue =
kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange;
AutoCFRelease<CFNumberRef> PixelFormatTypeNumber =
CFNumberCreate(kCFAllocatorDefault,
kCFNumberSInt32Type,
&PixelFormatTypeValue);
const void* outputKeys[] = { kCVPixelBufferPixelFormatTypeKey };
const void* outputValues[] = { PixelFormatTypeNumber };
static_assert(ArrayLength(outputKeys) == ArrayLength(outputValues),
"Non matching keys/values array size");
return CFDictionaryCreate(kCFAllocatorDefault,
outputKeys,
outputValues,
ArrayLength(outputKeys),
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
}
#ifndef MOZ_WIDGET_UIKIT
// Output format type:
SInt32 PixelFormatTypeValue = kCVPixelFormatType_422YpCbCr8;
AutoCFRelease<CFNumberRef> PixelFormatTypeNumber =
CFNumberCreate(kCFAllocatorDefault,
kCFNumberSInt32Type,
&PixelFormatTypeValue);
// Construct IOSurface Properties
const void* IOSurfaceKeys[] = { MacIOSurfaceLib::kPropIsGlobal };
const void* IOSurfaceValues[] = { kCFBooleanTrue };
static_assert(ArrayLength(IOSurfaceKeys) == ArrayLength(IOSurfaceValues),
"Non matching keys/values array size");
// Contruct output configuration.
AutoCFRelease<CFDictionaryRef> IOSurfaceProperties =
CFDictionaryCreate(kCFAllocatorDefault,
IOSurfaceKeys,
IOSurfaceValues,
ArrayLength(IOSurfaceKeys),
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
const void* outputKeys[] = { kCVPixelBufferIOSurfacePropertiesKey,
kCVPixelBufferPixelFormatTypeKey,
kCVPixelBufferOpenGLCompatibilityKey };
const void* outputValues[] = { IOSurfaceProperties,
PixelFormatTypeNumber,
kCFBooleanTrue };
static_assert(ArrayLength(outputKeys) == ArrayLength(outputValues),
"Non matching keys/values array size");
return CFDictionaryCreate(kCFAllocatorDefault,
outputKeys,
outputValues,
ArrayLength(outputKeys),
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
#else
MOZ_ASSERT_UNREACHABLE("No MacIOSurface on iOS");
#endif
}
} // namespace mozilla
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