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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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/. */
#if !defined(MediaData_h)
#define MediaData_h
#include "AudioSampleFormat.h"
#include "ImageTypes.h"
#include "nsSize.h"
#include "mozilla/gfx/Rect.h"
#include "nsRect.h"
#include "nsIMemoryReporter.h"
#include "SharedBuffer.h"
#include "mozilla/RefPtr.h"
#include "mozilla/Span.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/UniquePtrExtensions.h"
#include "nsTArray.h"
#include "mozilla/CheckedInt.h"
#include "mozilla/PodOperations.h"
namespace mozilla {
namespace layers {
class Image;
class ImageContainer;
} // namespace layers
class MediaByteBuffer;
class SharedTrackInfo;
// AlignedBuffer:
// Memory allocations are fallibles. Methods return a boolean indicating if
// memory allocations were successful. Return values should always be checked.
// AlignedBuffer::mData will be nullptr if no memory has been allocated or if
// an error occurred during construction.
// Existing data is only ever modified if new memory allocation has succeeded
// and preserved if not.
//
// The memory referenced by mData will always be Alignment bytes aligned and the
// underlying buffer will always have a size such that Alignment bytes blocks
// can be used to read the content, regardless of the mSize value. Buffer is
// zeroed on creation, elements are not individually constructed.
// An Alignment value of 0 means that the data isn't aligned.
//
// Type must be trivially copyable.
//
// AlignedBuffer can typically be used in place of UniquePtr<Type[]> however
// care must be taken as all memory allocations are fallible.
// Example:
// auto buffer = MakeUniqueFallible<float[]>(samples)
// becomes: AlignedFloatBuffer buffer(samples)
//
// auto buffer = MakeUnique<float[]>(samples)
// becomes:
// AlignedFloatBuffer buffer(samples);
// if (!buffer) { return NS_ERROR_OUT_OF_MEMORY; }
template <typename Type, int Alignment = 32>
class AlignedBuffer
{
public:
AlignedBuffer()
: mData(nullptr)
, mLength(0)
, mBuffer(nullptr)
, mCapacity(0)
{}
explicit AlignedBuffer(size_t aLength)
: mData(nullptr)
, mLength(0)
, mBuffer(nullptr)
, mCapacity(0)
{
if (EnsureCapacity(aLength)) {
mLength = aLength;
}
}
AlignedBuffer(const Type* aData, size_t aLength)
: AlignedBuffer(aLength)
{
if (!mData) {
return;
}
PodCopy(mData, aData, aLength);
}
AlignedBuffer(const AlignedBuffer& aOther)
: AlignedBuffer(aOther.Data(), aOther.Length())
{}
AlignedBuffer(AlignedBuffer&& aOther)
: mData(aOther.mData)
, mLength(aOther.mLength)
, mBuffer(Move(aOther.mBuffer))
, mCapacity(aOther.mCapacity)
{
aOther.mData = nullptr;
aOther.mLength = 0;
aOther.mCapacity = 0;
}
AlignedBuffer& operator=(AlignedBuffer&& aOther)
{
this->~AlignedBuffer();
new (this) AlignedBuffer(Move(aOther));
return *this;
}
Type* Data() const { return mData; }
size_t Length() const { return mLength; }
size_t Size() const { return mLength * sizeof(Type); }
Type& operator[](size_t aIndex)
{
MOZ_ASSERT(aIndex < mLength);
return mData[aIndex];
}
const Type& operator[](size_t aIndex) const
{
MOZ_ASSERT(aIndex < mLength);
return mData[aIndex];
}
// Set length of buffer, allocating memory as required.
// If length is increased, new buffer area is filled with 0.
bool SetLength(size_t aLength)
{
if (aLength > mLength && !EnsureCapacity(aLength)) {
return false;
}
mLength = aLength;
return true;
}
// Add aData at the beginning of buffer.
bool Prepend(const Type* aData, size_t aLength)
{
if (!EnsureCapacity(aLength + mLength)) {
return false;
}
// Shift the data to the right by aLength to leave room for the new data.
PodMove(mData + aLength, mData, mLength);
PodCopy(mData, aData, aLength);
mLength += aLength;
return true;
}
// Add aData at the end of buffer.
bool Append(const Type* aData, size_t aLength)
{
if (!EnsureCapacity(aLength + mLength)) {
return false;
}
PodCopy(mData + mLength, aData, aLength);
mLength += aLength;
return true;
}
// Replace current content with aData.
bool Replace(const Type* aData, size_t aLength)
{
// If aLength is smaller than our current length, we leave the buffer as is,
// only adjusting the reported length.
if (!EnsureCapacity(aLength)) {
return false;
}
PodCopy(mData, aData, aLength);
mLength = aLength;
return true;
}
// Clear the memory buffer. Will set target mData and mLength to 0.
void Clear()
{
mLength = 0;
mData = nullptr;
}
// Methods for reporting memory.
size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const
{
size_t size = aMallocSizeOf(this);
size += aMallocSizeOf(mBuffer.get());
return size;
}
// AlignedBuffer is typically allocated on the stack. As such, you likely
// want to use SizeOfExcludingThis
size_t SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const
{
return aMallocSizeOf(mBuffer.get());
}
size_t ComputedSizeOfExcludingThis() const
{
return mCapacity;
}
// For backward compatibility with UniquePtr<Type[]>
Type* get() const { return mData; }
explicit operator bool() const { return mData != nullptr; }
// Size in bytes of extra space allocated for padding.
static size_t AlignmentPaddingSize()
{
return AlignmentOffset() * 2;
}
private:
static size_t AlignmentOffset()
{
return Alignment ? Alignment - 1 : 0;
}
// Ensure that the backend buffer can hold aLength data. Will update mData.
// Will enforce that the start of allocated data is always Alignment bytes
// aligned and that it has sufficient end padding to allow for Alignment bytes
// block read as required by some data decoders.
// Returns false if memory couldn't be allocated.
bool EnsureCapacity(size_t aLength)
{
if (!aLength) {
// No need to allocate a buffer yet.
return true;
}
const CheckedInt<size_t> sizeNeeded =
CheckedInt<size_t>(aLength) * sizeof(Type) + AlignmentPaddingSize();
if (!sizeNeeded.isValid() || sizeNeeded.value() >= INT32_MAX) {
// overflow or over an acceptable size.
return false;
}
if (mData && mCapacity >= sizeNeeded.value()) {
return true;
}
auto newBuffer = MakeUniqueFallible<uint8_t[]>(sizeNeeded.value());
if (!newBuffer) {
return false;
}
// Find alignment address.
const uintptr_t alignmask = AlignmentOffset();
Type* newData = reinterpret_cast<Type*>(
(reinterpret_cast<uintptr_t>(newBuffer.get()) + alignmask) & ~alignmask);
MOZ_ASSERT(uintptr_t(newData) % (AlignmentOffset()+1) == 0);
MOZ_ASSERT(!mLength || mData);
PodZero(newData + mLength, aLength - mLength);
if (mLength) {
PodCopy(newData, mData, mLength);
}
mBuffer = Move(newBuffer);
mCapacity = sizeNeeded.value();
mData = newData;
return true;
}
Type* mData;
size_t mLength;
UniquePtr<uint8_t[]> mBuffer;
size_t mCapacity;
};
typedef AlignedBuffer<uint8_t> AlignedByteBuffer;
typedef AlignedBuffer<float> AlignedFloatBuffer;
typedef AlignedBuffer<int16_t> AlignedShortBuffer;
typedef AlignedBuffer<AudioDataValue> AlignedAudioBuffer;
// Container that holds media samples.
class MediaData {
public:
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(MediaData)
enum Type {
AUDIO_DATA = 0,
VIDEO_DATA,
RAW_DATA,
NULL_DATA
};
MediaData(Type aType,
int64_t aOffset,
int64_t aTimestamp,
int64_t aDuration,
uint32_t aFrames)
: mType(aType)
, mOffset(aOffset)
, mTime(aTimestamp)
, mTimecode(aTimestamp)
, mDuration(aDuration)
, mFrames(aFrames)
, mKeyframe(false)
{}
// Type of contained data.
const Type mType;
// Approximate byte offset where this data was demuxed from its media.
int64_t mOffset;
// Start time of sample, in microseconds.
int64_t mTime;
// Codec specific internal time code. For Ogg based codecs this is the
// granulepos.
int64_t mTimecode;
// Duration of sample, in microseconds.
int64_t mDuration;
// Amount of frames for contained data.
const uint32_t mFrames;
bool mKeyframe;
int64_t GetEndTime() const { return mTime + mDuration; }
bool AdjustForStartTime(int64_t aStartTime)
{
mTime = mTime - aStartTime;
return mTime >= 0;
}
template <typename ReturnType>
const ReturnType* As() const
{
MOZ_ASSERT(this->mType == ReturnType::sType);
return static_cast<const ReturnType*>(this);
}
template <typename ReturnType>
ReturnType* As()
{
MOZ_ASSERT(this->mType == ReturnType::sType);
return static_cast<ReturnType*>(this);
}
protected:
MediaData(Type aType, uint32_t aFrames)
: mType(aType)
, mOffset(0)
, mTime(0)
, mTimecode(0)
, mDuration(0)
, mFrames(aFrames)
, mKeyframe(false)
{}
virtual ~MediaData() {}
};
// NullData is for decoder generating a sample which doesn't need to be
// rendered.
class NullData : public MediaData {
public:
NullData(int64_t aOffset, int64_t aTime, int64_t aDuration)
: MediaData(NULL_DATA, aOffset, aTime, aDuration, 0)
{}
static const Type sType = NULL_DATA;
};
// Holds chunk a decoded audio frames.
class AudioData : public MediaData {
public:
AudioData(int64_t aOffset,
int64_t aTime,
int64_t aDuration,
uint32_t aFrames,
AlignedAudioBuffer&& aData,
uint32_t aChannels,
uint32_t aRate)
: MediaData(sType, aOffset, aTime, aDuration, aFrames)
, mChannels(aChannels)
, mRate(aRate)
, mAudioData(Move(aData)) {}
static const Type sType = AUDIO_DATA;
static const char* sTypeName;
// Creates a new AudioData identical to aOther, but with a different
// specified timestamp and duration. All data from aOther is copied
// into the new AudioData but the audio data which is transferred.
// After such call, the original aOther is unusable.
static already_AddRefed<AudioData>
TransferAndUpdateTimestampAndDuration(AudioData* aOther,
int64_t aTimestamp,
int64_t aDuration);
size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const;
// If mAudioBuffer is null, creates it from mAudioData.
void EnsureAudioBuffer();
// To check whether mAudioData has audible signal, it's used to distinguish
// the audiable data and silent data.
bool IsAudible() const;
const uint32_t mChannels;
const uint32_t mRate;
// At least one of mAudioBuffer/mAudioData must be non-null.
// mChannels channels, each with mFrames frames
RefPtr<SharedBuffer> mAudioBuffer;
// mFrames frames, each with mChannels values
AlignedAudioBuffer mAudioData;
protected:
~AudioData() {}
};
namespace layers {
class TextureClient;
class PlanarYCbCrImage;
} // namespace layers
class VideoInfo;
// Holds a decoded video frame, in YCbCr format. These are queued in the reader.
class VideoData : public MediaData {
public:
typedef gfx::IntRect IntRect;
typedef gfx::IntSize IntSize;
typedef layers::ImageContainer ImageContainer;
typedef layers::Image Image;
typedef layers::PlanarYCbCrImage PlanarYCbCrImage;
static const Type sType = VIDEO_DATA;
static const char* sTypeName;
// YCbCr data obtained from decoding the video. The index's are:
// 0 = Y
// 1 = Cb
// 2 = Cr
struct YCbCrBuffer {
struct Plane {
uint8_t* mData;
uint32_t mWidth;
uint32_t mHeight;
uint32_t mStride;
uint32_t mOffset;
uint32_t mSkip;
};
Plane mPlanes[3];
YUVColorSpace mYUVColorSpace = YUVColorSpace::BT601;
};
// Constructs a VideoData object. If aImage is nullptr, creates a new Image
// holding a copy of the YCbCr data passed in aBuffer. If aImage is not
// nullptr, it's stored as the underlying video image and aBuffer is assumed
// to point to memory within aImage so no copy is made. aTimecode is a codec
// specific number representing the timestamp of the frame of video data.
// Returns nsnull if an error occurs. This may indicate that memory couldn't
// be allocated to create the VideoData object, or it may indicate some
// problem with the input data (e.g. negative stride).
// Creates a new VideoData containing a deep copy of aBuffer. May use aContainer
// to allocate an Image to hold the copied data.
static already_AddRefed<VideoData> CreateAndCopyData(const VideoInfo& aInfo,
ImageContainer* aContainer,
int64_t aOffset,
int64_t aTime,
int64_t aDuration,
const YCbCrBuffer &aBuffer,
bool aKeyframe,
int64_t aTimecode,
const IntRect& aPicture);
static already_AddRefed<VideoData> CreateAndCopyIntoTextureClient(const VideoInfo& aInfo,
int64_t aOffset,
int64_t aTime,
int64_t aDuration,
layers::TextureClient* aBuffer,
bool aKeyframe,
int64_t aTimecode,
const IntRect& aPicture);
static already_AddRefed<VideoData> CreateFromImage(const VideoInfo& aInfo,
int64_t aOffset,
int64_t aTime,
int64_t aDuration,
const RefPtr<Image>& aImage,
bool aKeyframe,
int64_t aTimecode,
const IntRect& aPicture);
// Creates a new VideoData identical to aOther, but with a different
// specified duration. All data from aOther is copied into the new
// VideoData. The new VideoData's mImage field holds a reference to
// aOther's mImage, i.e. the Image is not copied. This function is useful
// in reader backends that can't determine the duration of a VideoData
// until the next frame is decoded, i.e. it's a way to change the const
// duration field on a VideoData.
static already_AddRefed<VideoData> ShallowCopyUpdateDuration(const VideoData* aOther,
int64_t aDuration);
// Creates a new VideoData identical to aOther, but with a different
// specified timestamp. All data from aOther is copied into the new
// VideoData, as ShallowCopyUpdateDuration() does.
static already_AddRefed<VideoData> ShallowCopyUpdateTimestamp(const VideoData* aOther,
int64_t aTimestamp);
// Creates a new VideoData identical to aOther, but with a different
// specified timestamp and duration. All data from aOther is copied
// into the new VideoData, as ShallowCopyUpdateDuration() does.
static already_AddRefed<VideoData>
ShallowCopyUpdateTimestampAndDuration(const VideoData* aOther, int64_t aTimestamp,
int64_t aDuration);
// Initialize PlanarYCbCrImage. Only When aCopyData is true,
// video data is copied to PlanarYCbCrImage.
static bool SetVideoDataToImage(PlanarYCbCrImage* aVideoImage,
const VideoInfo& aInfo,
const YCbCrBuffer &aBuffer,
const IntRect& aPicture,
bool aCopyData);
size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const;
// Dimensions at which to display the video frame. The picture region
// will be scaled to this size. This is should be the picture region's
// dimensions scaled with respect to its aspect ratio.
const IntSize mDisplay;
// This frame's image.
RefPtr<Image> mImage;
int32_t mFrameID;
bool mSentToCompositor;
VideoData(int64_t aOffset,
int64_t aTime,
int64_t aDuration,
bool aKeyframe,
int64_t aTimecode,
IntSize aDisplay,
uint32_t aFrameID);
protected:
~VideoData();
};
class CryptoTrack
{
public:
CryptoTrack() : mValid(false), mMode(0), mIVSize(0) {}
bool mValid;
int32_t mMode;
int32_t mIVSize;
nsTArray<uint8_t> mKeyId;
};
class CryptoSample : public CryptoTrack
{
public:
nsTArray<uint16_t> mPlainSizes;
nsTArray<uint32_t> mEncryptedSizes;
nsTArray<uint8_t> mIV;
nsTArray<nsCString> mSessionIds;
};
// MediaRawData is a MediaData container used to store demuxed, still compressed
// samples.
// Use MediaRawData::CreateWriter() to obtain a MediaRawDataWriter object that
// provides methods to modify and manipulate the data.
// Memory allocations are fallible. Methods return a boolean indicating if
// memory allocations were successful. Return values should always be checked.
// MediaRawData::mData will be nullptr if no memory has been allocated or if
// an error occurred during construction.
// Existing data is only ever modified if new memory allocation has succeeded
// and preserved if not.
//
// The memory referenced by mData will always be 32 bytes aligned and the
// underlying buffer will always have a size such that 32 bytes blocks can be
// used to read the content, regardless of the mSize value. Buffer is zeroed
// on creation.
//
// Typical usage: create new MediaRawData; create the associated
// MediaRawDataWriter, call SetSize() to allocate memory, write to mData,
// up to mSize bytes.
class MediaRawData;
class MediaRawDataWriter
{
public:
// Pointer to data or null if not-yet allocated
uint8_t* Data();
// Writeable size of buffer.
size_t Size();
// Writeable reference to MediaRawData::mCryptoInternal
CryptoSample& mCrypto;
// Data manipulation methods. mData and mSize may be updated accordingly.
// Set size of buffer, allocating memory as required.
// If size is increased, new buffer area is filled with 0.
bool SetSize(size_t aSize);
// Add aData at the beginning of buffer.
bool Prepend(const uint8_t* aData, size_t aSize);
// Replace current content with aData.
bool Replace(const uint8_t* aData, size_t aSize);
// Clear the memory buffer. Will set target mData and mSize to 0.
void Clear();
private:
friend class MediaRawData;
explicit MediaRawDataWriter(MediaRawData* aMediaRawData);
bool EnsureSize(size_t aSize);
MediaRawData* mTarget;
};
class MediaRawData : public MediaData {
public:
MediaRawData();
MediaRawData(const uint8_t* aData, size_t mSize);
// Pointer to data or null if not-yet allocated
const uint8_t* Data() const { return mBuffer.Data(); }
// Size of buffer.
size_t Size() const { return mBuffer.Length(); }
size_t ComputedSizeOfIncludingThis() const
{
return sizeof(*this) + mBuffer.ComputedSizeOfExcludingThis();
}
// Access the buffer as a Span.
operator Span<const uint8_t>() { return MakeSpan(Data(), Size()); }
const CryptoSample& mCrypto;
RefPtr<MediaByteBuffer> mExtraData;
// Used by the Vorbis decoder and Ogg demuxer.
// Indicates that this is the last packet of the stream.
bool mEOS = false;
// Indicate to the audio decoder that mDiscardPadding frames should be
// trimmed.
uint32_t mDiscardPadding = 0;
RefPtr<SharedTrackInfo> mTrackInfo;
// Return a deep copy or nullptr if out of memory.
virtual already_AddRefed<MediaRawData> Clone() const;
// Create a MediaRawDataWriter for this MediaRawData. The caller must
// delete the writer once done. The writer is not thread-safe.
virtual MediaRawDataWriter* CreateWriter();
virtual size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const;
protected:
~MediaRawData();
private:
friend class MediaRawDataWriter;
AlignedByteBuffer mBuffer;
CryptoSample mCryptoInternal;
MediaRawData(const MediaRawData&); // Not implemented
};
// MediaByteBuffer is a ref counted infallible TArray.
class MediaByteBuffer : public nsTArray<uint8_t> {
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(MediaByteBuffer);
MediaByteBuffer() = default;
explicit MediaByteBuffer(size_t aCapacity) : nsTArray<uint8_t>(aCapacity) {}
private:
~MediaByteBuffer() {}
};
} // namespace mozilla
#endif // MediaData_h
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