trunk/src/modules/video_coding/main/source/frame_buffer.cc - vendor/opensource/webrtc - Git at Google

 /*
  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "frame_buffer.h"
 #include "packet.h"

 #include <cassert>
 #include <string.h>

 #if defined(_WIN32)
     // VS 2005: Don't warn for default initialized arrays. See help for more info.
     #pragma warning(disable:4351)
 #endif

 namespace webrtc {

 VCMFrameBuffer::VCMFrameBuffer()
   :
     _state(kStateFree),
     _frameCounted(false),
     _nackCount(0),
     _latestPacketTimeMs(-1) {
 }

 VCMFrameBuffer::~VCMFrameBuffer() {
 }

 VCMFrameBuffer::VCMFrameBuffer(VCMFrameBuffer& rhs)
 :
 VCMEncodedFrame(rhs),
 _state(rhs._state),
 _frameCounted(rhs._frameCounted),
 _sessionInfo(),
 _nackCount(rhs._nackCount),
 _latestPacketTimeMs(rhs._latestPacketTimeMs)
 {
     _sessionInfo = rhs._sessionInfo;
     _sessionInfo.UpdateDataPointers(rhs._buffer, _buffer);
 }

 webrtc::FrameType
 VCMFrameBuffer::FrameType() const
 {
     return _sessionInfo.FrameType();
 }

 void
 VCMFrameBuffer::SetPreviousFrameLoss()
 {
     _sessionInfo.SetPreviousFrameLoss();
 }

 WebRtc_Word32
 VCMFrameBuffer::GetLowSeqNum() const
 {
     return _sessionInfo.LowSequenceNumber();
 }

 WebRtc_Word32
 VCMFrameBuffer::GetHighSeqNum() const
 {
     return _sessionInfo.HighSequenceNumber();
 }

 int VCMFrameBuffer::PictureId() const {
   return _sessionInfo.PictureId();
 }

 int VCMFrameBuffer::TemporalId() const {
   return _sessionInfo.TemporalId();
 }

 bool VCMFrameBuffer::LayerSync() const {
   return _sessionInfo.LayerSync();
 }

 int VCMFrameBuffer::Tl0PicId() const {
   return _sessionInfo.Tl0PicId();
 }

 bool VCMFrameBuffer::NonReference() const {
   return _sessionInfo.NonReference();
 }

 bool
 VCMFrameBuffer::IsSessionComplete() const
 {
     return _sessionInfo.complete();
 }

 // Insert packet
 VCMFrameBufferEnum
 VCMFrameBuffer::InsertPacket(const VCMPacket& packet, WebRtc_Word64 timeInMs,
                              bool enableDecodableState, WebRtc_UWord32 rttMS)
 {
     if (_state == kStateDecoding)
     {
         // Do not insert packet
         return kNoError;
     }

     // Sanity to check if the frame has been freed. (Too old for example)
     if (_state == kStateFree)
     {
         return kStateError;
     }

     // is this packet part of this frame
     if (TimeStamp() && (TimeStamp() != packet.timestamp))
     {
         return kTimeStampError;
     }

     // sanity checks
     if (_size + packet.sizeBytes +
         (packet.insertStartCode ?  kH264StartCodeLengthBytes : 0 )
         > kMaxJBFrameSizeBytes)
     {
         return kSizeError;
     }
     if (NULL == packet.dataPtr && packet.sizeBytes > 0)
     {
         return kSizeError;
     }
     if (packet.dataPtr != NULL)
     {
         _payloadType = packet.payloadType;
     }

     if (kStateEmpty == _state)
     {
         // First packet (empty and/or media) inserted into this frame.
         // store some info and set some initial values.
         _timeStamp = packet.timestamp;
         _codec = packet.codec;
         if (packet.frameType != kFrameEmpty)
         {
             // first media packet
             SetState(kStateIncomplete);
         }
     }

     WebRtc_UWord32 requiredSizeBytes = Length() + packet.sizeBytes +
                    (packet.insertStartCode ? kH264StartCodeLengthBytes : 0);
     if (requiredSizeBytes >= _size)
     {
         const WebRtc_UWord8* prevBuffer = _buffer;
         const WebRtc_UWord32 increments = requiredSizeBytes /
                                           kBufferIncStepSizeBytes +
                                         (requiredSizeBytes %
                                          kBufferIncStepSizeBytes > 0);
         const WebRtc_UWord32 newSize = _size +
                                        increments * kBufferIncStepSizeBytes;
         if (newSize > kMaxJBFrameSizeBytes)
         {
             return kSizeError;
         }
         if (VerifyAndAllocate(newSize) == -1)
         {
             return kSizeError;
         }
         _sessionInfo.UpdateDataPointers(prevBuffer, _buffer);
     }

     CopyCodecSpecific(&packet.codecSpecificHeader);

     int retVal = _sessionInfo.InsertPacket(packet, _buffer,
                                            enableDecodableState,
                                            rttMS);
     if (retVal == -1)
     {
         return kSizeError;
     }
     else if (retVal == -2)
     {
         return kDuplicatePacket;
     }
     // update length
     _length = Length() + static_cast<WebRtc_UWord32>(retVal);

     _latestPacketTimeMs = timeInMs;

     if (_sessionInfo.complete()) {
       return kCompleteSession;
     } else if (_sessionInfo.decodable()) {
       SetState(kStateDecodable);
       return kDecodableSession;
     } else {
       // this layer is not complete
       if (_state == kStateComplete) {
         // we already have a complete layer
         // wait for all independent layers belonging to the same frame
         _state = kStateIncomplete;
       }
     }
     return kIncomplete;
 }

 WebRtc_Word64
 VCMFrameBuffer::LatestPacketTimeMs()
 {
     return _latestPacketTimeMs;
 }

 // Build hard NACK list:Zero out all entries in list up to and including the
 // (first) entry equal to _lowSeqNum.
 int VCMFrameBuffer::BuildHardNackList(int* list, int num) {
   if (_sessionInfo.BuildHardNackList(list, num) != 0) {
    return -1;
   }
   return 0;
 }

 // Build selective NACK list: Create a soft (selective) list of entries to zero
 // out up to and including the (first) entry equal to _lowSeqNum.
 int VCMFrameBuffer::BuildSoftNackList(int* list, int num, int rttMs) {
   return _sessionInfo.BuildSoftNackList(list, num, rttMs);
 }

 void
 VCMFrameBuffer::IncrementNackCount()
 {
     _nackCount++;
 }

 WebRtc_Word16
 VCMFrameBuffer::GetNackCount() const
 {
     return _nackCount;
 }

 bool
 VCMFrameBuffer::HaveLastPacket() const
 {
     return _sessionInfo.HaveLastPacket();
 }

 void
 VCMFrameBuffer::Reset()
 {
     _length = 0;
     _timeStamp = 0;
     _sessionInfo.Reset();
     _frameCounted = false;
     _payloadType = 0;
     _nackCount = 0;
     _latestPacketTimeMs = -1;
     _state = kStateFree;
     VCMEncodedFrame::Reset();
 }

 // Makes sure the session contains a decodable stream.
 void
 VCMFrameBuffer::MakeSessionDecodable()
 {
     WebRtc_UWord32 retVal;
 #ifdef INDEPENDENT_PARTITIONS
     if (_codec != kVideoCodecVP8) {
         retVal = _sessionInfo.MakeDecodable();
         _length -= retVal;
     }
 #else
     retVal = _sessionInfo.MakeDecodable();
     _length -= retVal;
 #endif
 }

 // Set state of frame
 void
 VCMFrameBuffer::SetState(VCMFrameBufferStateEnum state)
 {
     if (_state == state)
     {
         return;
     }
     switch (state)
     {
     case kStateFree:
         // Reset everything
         // We can go to this state from all other states.
         // The one setting the state to free must ensure
         // that the frame is removed from the timestamp
         // ordered frame list in the jb.
         Reset();
         break;

     case kStateIncomplete:
         // we can go to this state from state kStateEmpty
         assert(_state == kStateEmpty ||
             _state == kStateDecoding);

         // Do nothing, we received a packet
         break;

     case kStateComplete:
         assert(_state == kStateEmpty ||
                _state == kStateIncomplete ||
                _state == kStateDecodable);

         break;

     case kStateEmpty:
         assert(_state == kStateFree);
         // Do nothing
         break;

     case kStateDecoding:
         // A frame might have received empty packets, or media packets might
         // have been removed when making the frame decodable. The frame can
         // still be set to decodable since it can be used to inform the
         // decoder of a frame loss.
         assert(_state == kStateComplete || _state == kStateIncomplete ||
                _state == kStateDecodable || _state == kStateEmpty);
         // Transfer frame information to EncodedFrame and create any codec
         // specific information
         RestructureFrameInformation();
         break;

     case kStateDecodable:
         assert(_state == kStateEmpty ||
                _state == kStateIncomplete);
         break;
     }
     _state = state;
 }

 void
 VCMFrameBuffer::RestructureFrameInformation()
 {
     PrepareForDecode();
     _frameType = ConvertFrameType(_sessionInfo.FrameType());
     _completeFrame = _sessionInfo.complete();
     _missingFrame = _sessionInfo.PreviousFrameLoss();
 }

 WebRtc_Word32
 VCMFrameBuffer::ExtractFromStorage(const EncodedVideoData& frameFromStorage)
 {
     _frameType = ConvertFrameType(frameFromStorage.frameType);
     _timeStamp = frameFromStorage.timeStamp;
     _payloadType = frameFromStorage.payloadType;
     _encodedWidth = frameFromStorage.encodedWidth;
     _encodedHeight = frameFromStorage.encodedHeight;
     _missingFrame = frameFromStorage.missingFrame;
     _completeFrame = frameFromStorage.completeFrame;
     _renderTimeMs = frameFromStorage.renderTimeMs;
     _codec = frameFromStorage.codec;
     const WebRtc_UWord8 *prevBuffer = _buffer;
     if (VerifyAndAllocate(frameFromStorage.payloadSize) < 0)
     {
         return VCM_MEMORY;
     }
     _sessionInfo.UpdateDataPointers(prevBuffer, _buffer);
     memcpy(_buffer, frameFromStorage.payloadData, frameFromStorage.payloadSize);
     _length = frameFromStorage.payloadSize;
     return VCM_OK;
 }

 int VCMFrameBuffer::NotDecodablePackets() const {
   return _sessionInfo.packets_not_decodable();
 }

 // Set counted status (as counted by JB or not)
 void VCMFrameBuffer::SetCountedFrame(bool frameCounted)
 {
     _frameCounted = frameCounted;
 }

 bool VCMFrameBuffer::GetCountedFrame() const
 {
     return _frameCounted;
 }

 // Get current state of frame
 VCMFrameBufferStateEnum
 VCMFrameBuffer::GetState() const
 {
     return _state;
 }

 // Get current state of frame
 VCMFrameBufferStateEnum
 VCMFrameBuffer::GetState(WebRtc_UWord32& timeStamp) const
 {
     timeStamp = TimeStamp();
     return GetState();
 }

 bool
 VCMFrameBuffer::IsRetransmitted() const
 {
     return _sessionInfo.session_nack();
 }

 void
 VCMFrameBuffer::PrepareForDecode()
 {
 #ifdef INDEPENDENT_PARTITIONS
     if (_codec == kVideoCodecVP8)
     {
         _length =
             _sessionInfo.BuildVP8FragmentationHeader(_buffer, _length,
                                                      &_fragmentation);
     }
 #endif
 }

 }
	/*
	* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "frame_buffer.h"
	#include "packet.h"

	#include <cassert>
	#include <string.h>

	#if defined(_WIN32)
	// VS 2005: Don't warn for default initialized arrays. See help for more info.
	#pragma warning(disable:4351)
	#endif

	namespace webrtc {

	VCMFrameBuffer::VCMFrameBuffer()
	:
	_state(kStateFree),
	_frameCounted(false),
	_nackCount(0),
	_latestPacketTimeMs(-1) {
	}

	VCMFrameBuffer::~VCMFrameBuffer() {
	}

	VCMFrameBuffer::VCMFrameBuffer(VCMFrameBuffer& rhs)
	:
	VCMEncodedFrame(rhs),
	_state(rhs._state),
	_frameCounted(rhs._frameCounted),
	_sessionInfo(),
	_nackCount(rhs._nackCount),
	_latestPacketTimeMs(rhs._latestPacketTimeMs)
	{
	_sessionInfo = rhs._sessionInfo;
	_sessionInfo.UpdateDataPointers(rhs._buffer, _buffer);
	}

	webrtc::FrameType
	VCMFrameBuffer::FrameType() const
	{
	return _sessionInfo.FrameType();
	}

	void
	VCMFrameBuffer::SetPreviousFrameLoss()
	{
	_sessionInfo.SetPreviousFrameLoss();
	}

	WebRtc_Word32
	VCMFrameBuffer::GetLowSeqNum() const
	{
	return _sessionInfo.LowSequenceNumber();
	}

	WebRtc_Word32
	VCMFrameBuffer::GetHighSeqNum() const
	{
	return _sessionInfo.HighSequenceNumber();
	}

	int VCMFrameBuffer::PictureId() const {
	return _sessionInfo.PictureId();
	}

	int VCMFrameBuffer::TemporalId() const {
	return _sessionInfo.TemporalId();
	}

	bool VCMFrameBuffer::LayerSync() const {
	return _sessionInfo.LayerSync();
	}

	int VCMFrameBuffer::Tl0PicId() const {
	return _sessionInfo.Tl0PicId();
	}

	bool VCMFrameBuffer::NonReference() const {
	return _sessionInfo.NonReference();
	}

	bool
	VCMFrameBuffer::IsSessionComplete() const
	{
	return _sessionInfo.complete();
	}

	// Insert packet
	VCMFrameBufferEnum
	VCMFrameBuffer::InsertPacket(const VCMPacket& packet, WebRtc_Word64 timeInMs,
	bool enableDecodableState, WebRtc_UWord32 rttMS)
	{
	if (_state == kStateDecoding)
	{
	// Do not insert packet
	return kNoError;
	}

	// Sanity to check if the frame has been freed. (Too old for example)
	if (_state == kStateFree)
	{
	return kStateError;
	}

	// is this packet part of this frame
	if (TimeStamp() && (TimeStamp() != packet.timestamp))
	{
	return kTimeStampError;
	}

	// sanity checks
	if (_size + packet.sizeBytes +
	(packet.insertStartCode ? kH264StartCodeLengthBytes : 0 )
	> kMaxJBFrameSizeBytes)
	{
	return kSizeError;
	}
	if (NULL == packet.dataPtr && packet.sizeBytes > 0)
	{
	return kSizeError;
	}
	if (packet.dataPtr != NULL)
	{
	_payloadType = packet.payloadType;
	}

	if (kStateEmpty == _state)
	{
	// First packet (empty and/or media) inserted into this frame.
	// store some info and set some initial values.
	_timeStamp = packet.timestamp;
	_codec = packet.codec;
	if (packet.frameType != kFrameEmpty)
	{
	// first media packet
	SetState(kStateIncomplete);
	}
	}

	WebRtc_UWord32 requiredSizeBytes = Length() + packet.sizeBytes +
	(packet.insertStartCode ? kH264StartCodeLengthBytes : 0);
	if (requiredSizeBytes >= _size)
	{
	const WebRtc_UWord8* prevBuffer = _buffer;
	const WebRtc_UWord32 increments = requiredSizeBytes /
	kBufferIncStepSizeBytes +
	(requiredSizeBytes %
	kBufferIncStepSizeBytes > 0);
	const WebRtc_UWord32 newSize = _size +
	increments * kBufferIncStepSizeBytes;
	if (newSize > kMaxJBFrameSizeBytes)
	{
	return kSizeError;
	}
	if (VerifyAndAllocate(newSize) == -1)
	{
	return kSizeError;
	}
	_sessionInfo.UpdateDataPointers(prevBuffer, _buffer);
	}

	CopyCodecSpecific(&packet.codecSpecificHeader);

	int retVal = _sessionInfo.InsertPacket(packet, _buffer,
	enableDecodableState,
	rttMS);
	if (retVal == -1)
	{
	return kSizeError;
	}
	else if (retVal == -2)
	{
	return kDuplicatePacket;
	}
	// update length
	_length = Length() + static_cast<WebRtc_UWord32>(retVal);

	_latestPacketTimeMs = timeInMs;

	if (_sessionInfo.complete()) {
	return kCompleteSession;
	} else if (_sessionInfo.decodable()) {
	SetState(kStateDecodable);
	return kDecodableSession;
	} else {
	// this layer is not complete
	if (_state == kStateComplete) {
	// we already have a complete layer
	// wait for all independent layers belonging to the same frame
	_state = kStateIncomplete;
	}
	}
	return kIncomplete;
	}

	WebRtc_Word64
	VCMFrameBuffer::LatestPacketTimeMs()
	{
	return _latestPacketTimeMs;
	}

	// Build hard NACK list:Zero out all entries in list up to and including the
	// (first) entry equal to _lowSeqNum.
	int VCMFrameBuffer::BuildHardNackList(int* list, int num) {
	if (_sessionInfo.BuildHardNackList(list, num) != 0) {
	return -1;
	}
	return 0;
	}

	// Build selective NACK list: Create a soft (selective) list of entries to zero
	// out up to and including the (first) entry equal to _lowSeqNum.
	int VCMFrameBuffer::BuildSoftNackList(int* list, int num, int rttMs) {
	return _sessionInfo.BuildSoftNackList(list, num, rttMs);
	}

	void
	VCMFrameBuffer::IncrementNackCount()
	{
	_nackCount++;
	}

	WebRtc_Word16
	VCMFrameBuffer::GetNackCount() const
	{
	return _nackCount;
	}

	bool
	VCMFrameBuffer::HaveLastPacket() const
	{
	return _sessionInfo.HaveLastPacket();
	}

	void
	VCMFrameBuffer::Reset()
	{
	_length = 0;
	_timeStamp = 0;
	_sessionInfo.Reset();
	_frameCounted = false;
	_payloadType = 0;
	_nackCount = 0;
	_latestPacketTimeMs = -1;
	_state = kStateFree;
	VCMEncodedFrame::Reset();
	}

	// Makes sure the session contains a decodable stream.
	void
	VCMFrameBuffer::MakeSessionDecodable()
	{
	WebRtc_UWord32 retVal;
	#ifdef INDEPENDENT_PARTITIONS
	if (_codec != kVideoCodecVP8) {
	retVal = _sessionInfo.MakeDecodable();
	_length -= retVal;
	}
	#else
	retVal = _sessionInfo.MakeDecodable();
	_length -= retVal;
	#endif
	}

	// Set state of frame
	void
	VCMFrameBuffer::SetState(VCMFrameBufferStateEnum state)
	{
	if (_state == state)
	{
	return;
	}
	switch (state)
	{
	case kStateFree:
	// Reset everything
	// We can go to this state from all other states.
	// The one setting the state to free must ensure
	// that the frame is removed from the timestamp
	// ordered frame list in the jb.
	Reset();
	break;

	case kStateIncomplete:
	// we can go to this state from state kStateEmpty
	assert(_state == kStateEmpty \|\|
	_state == kStateDecoding);

	// Do nothing, we received a packet
	break;

	case kStateComplete:
	assert(_state == kStateEmpty \|\|
	_state == kStateIncomplete \|\|
	_state == kStateDecodable);

	break;

	case kStateEmpty:
	assert(_state == kStateFree);
	// Do nothing
	break;

	case kStateDecoding:
	// A frame might have received empty packets, or media packets might
	// have been removed when making the frame decodable. The frame can
	// still be set to decodable since it can be used to inform the
	// decoder of a frame loss.
	assert(_state == kStateComplete \|\| _state == kStateIncomplete \|\|
	_state == kStateDecodable \|\| _state == kStateEmpty);
	// Transfer frame information to EncodedFrame and create any codec
	// specific information
	RestructureFrameInformation();
	break;

	case kStateDecodable:
	assert(_state == kStateEmpty \|\|
	_state == kStateIncomplete);
	break;
	}
	_state = state;
	}

	void
	VCMFrameBuffer::RestructureFrameInformation()
	{
	PrepareForDecode();
	_frameType = ConvertFrameType(_sessionInfo.FrameType());
	_completeFrame = _sessionInfo.complete();
	_missingFrame = _sessionInfo.PreviousFrameLoss();
	}

	WebRtc_Word32
	VCMFrameBuffer::ExtractFromStorage(const EncodedVideoData& frameFromStorage)
	{
	_frameType = ConvertFrameType(frameFromStorage.frameType);
	_timeStamp = frameFromStorage.timeStamp;
	_payloadType = frameFromStorage.payloadType;
	_encodedWidth = frameFromStorage.encodedWidth;
	_encodedHeight = frameFromStorage.encodedHeight;
	_missingFrame = frameFromStorage.missingFrame;
	_completeFrame = frameFromStorage.completeFrame;
	_renderTimeMs = frameFromStorage.renderTimeMs;
	_codec = frameFromStorage.codec;
	const WebRtc_UWord8 *prevBuffer = _buffer;
	if (VerifyAndAllocate(frameFromStorage.payloadSize) < 0)
	{
	return VCM_MEMORY;
	}
	_sessionInfo.UpdateDataPointers(prevBuffer, _buffer);
	memcpy(_buffer, frameFromStorage.payloadData, frameFromStorage.payloadSize);
	_length = frameFromStorage.payloadSize;
	return VCM_OK;
	}

	int VCMFrameBuffer::NotDecodablePackets() const {
	return _sessionInfo.packets_not_decodable();
	}

	// Set counted status (as counted by JB or not)
	void VCMFrameBuffer::SetCountedFrame(bool frameCounted)
	{
	_frameCounted = frameCounted;
	}

	bool VCMFrameBuffer::GetCountedFrame() const
	{
	return _frameCounted;
	}

	// Get current state of frame
	VCMFrameBufferStateEnum
	VCMFrameBuffer::GetState() const
	{
	return _state;
	}

	// Get current state of frame
	VCMFrameBufferStateEnum
	VCMFrameBuffer::GetState(WebRtc_UWord32& timeStamp) const
	{
	timeStamp = TimeStamp();
	return GetState();
	}

	bool
	VCMFrameBuffer::IsRetransmitted() const
	{
	return _sessionInfo.session_nack();
	}

	void
	VCMFrameBuffer::PrepareForDecode()
	{
	#ifdef INDEPENDENT_PARTITIONS
	if (_codec == kVideoCodecVP8)
	{
	_length =
	_sessionInfo.BuildVP8FragmentationHeader(_buffer, _length,
	&_fragmentation);
	}
	#endif
	}

	}