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Bento4/Source/C++/Core/Ap4Mpeg2Ts.h
Gilles Boccon-Gibod da1f630d30 added support for sample-aes AC3 and EAC3 HLS streams
2016-07-07 19:03:33 -07:00

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/*****************************************************************
|
| AP4 - MPEG2 Transport Streams
|
| Copyright 2002-2009 Axiomatic Systems, LLC
|
|
| This file is part of Bento4/AP4 (MP4 Atom Processing Library).
|
| Unless you have obtained Bento4 under a difference license,
| this version of Bento4 is Bento4|GPL.
| Bento4|GPL is free software; you can redistribute it and/or modify
| it under the terms of the GNU General Public License as published by
| the Free Software Foundation; either version 2, or (at your option)
| any later version.
|
| Bento4|GPL is distributed in the hope that it will be useful,
| but WITHOUT ANY WARRANTY; without even the implied warranty of
| MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
| GNU General Public License for more details.
|
| You should have received a copy of the GNU General Public License
| along with Bento4|GPL; see the file COPYING. If not, write to the
| Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
| 02111-1307, USA.
|
****************************************************************/
#ifndef _AP4_MPEG2_TS_H_
#define _AP4_MPEG2_TS_H_
/*----------------------------------------------------------------------
| includes
+---------------------------------------------------------------------*/
#include "Ap4Types.h"
#include "Ap4DataBuffer.h"
/*----------------------------------------------------------------------
| classes
+---------------------------------------------------------------------*/
class AP4_ByteStream;
class AP4_Sample;
class AP4_SampleDescription;
/*----------------------------------------------------------------------
| constants
+---------------------------------------------------------------------*/
const AP4_UI16 AP4_MPEG2_TS_DEFAULT_PID_PMT = 0x100;
const AP4_UI16 AP4_MPEG2_TS_DEFAULT_PID_AUDIO = 0x101;
const AP4_UI16 AP4_MPEG2_TS_DEFAULT_PID_VIDEO = 0x102;
const AP4_UI16 AP4_MPEG2_TS_DEFAULT_STREAM_ID_AUDIO = 0xc0;
const AP4_UI16 AP4_MPEG2_TS_DEFAULT_STREAM_ID_VIDEO = 0xe0;
const AP4_UI16 AP4_MPEG2_TS_STREAM_ID_PRIVATE_STREAM_1 = 0xbd;
const AP4_UI08 AP4_MPEG2_STREAM_TYPE_ISO_IEC_13818_1_PES = 0x06;
const AP4_UI08 AP4_MPEG2_STREAM_TYPE_ISO_IEC_13818_7 = 0x0F;
const AP4_UI08 AP4_MPEG2_STREAM_TYPE_AVC = 0x1B;
const AP4_UI08 AP4_MPEG2_STREAM_TYPE_HEVC = 0x24;
const AP4_UI08 AP4_MPEG2_STREAM_TYPE_ATSC_AC3 = 0x81;
const AP4_UI08 AP4_MPEG2_STREAM_TYPE_ATSC_EAC3 = 0x81;
/*----------------------------------------------------------------------
| AP4_Mpeg2TsWriter
+---------------------------------------------------------------------*/
/**
* This class is a simple implementation of a converter that can
* convert MP4 audio and video access units into an MPEG2 transport
* stream.
* It currently only supports one audio tracks with MPEG4 AAC LC, and one
* video track with MPEG4 AVC.
*/
class AP4_Mpeg2TsWriter
{
public:
// classes
class Stream {
public:
Stream(AP4_UI16 pid) : m_PID(pid), m_ContinuityCounter(0) {}
virtual ~Stream() {}
AP4_UI16 GetPID() { return m_PID; }
void WritePacketHeader(bool payload_start,
unsigned int& payload_size,
bool with_pcr,
AP4_UI64 pcr,
AP4_ByteStream& output);
private:
AP4_UI16 m_PID;
unsigned int m_ContinuityCounter;
};
class SampleStream : public Stream {
public:
SampleStream(AP4_UI16 pid, AP4_UI08 stream_type, AP4_UI16 stream_id, AP4_UI32 timescale, const AP4_UI08* descriptor, AP4_Size descriptor_length) :
Stream(pid),
m_StreamType(stream_type),
m_StreamId(stream_id),
m_TimeScale(timescale) {
if (descriptor && descriptor_length) {
m_Descriptor.SetData(descriptor, descriptor_length);
}
}
virtual AP4_Result WritePES(const unsigned char* data,
unsigned int data_size,
AP4_UI64 dts,
bool with_dts,
AP4_UI64 pts,
bool with_pcr,
AP4_ByteStream& output);
virtual AP4_Result WriteSample(AP4_Sample& sample,
AP4_DataBuffer& sample_data,
AP4_SampleDescription* sample_description,
bool with_pcr,
AP4_ByteStream& output) = 0;
AP4_Result WriteSample(AP4_Sample& sample,
AP4_SampleDescription* sample_description,
bool with_pcr,
AP4_ByteStream& output);
void SetType(AP4_UI08 type) {m_StreamType = type;}
void SetDescriptor(const AP4_UI08* descriptor, AP4_Size descriptor_length) {
if (descriptor && descriptor_length) {
m_Descriptor.SetData(descriptor, descriptor_length);
}
}
AP4_UI08 m_StreamType;
AP4_UI16 m_StreamId;
AP4_UI32 m_TimeScale;
AP4_DataBuffer m_Descriptor;
};
// constructor
AP4_Mpeg2TsWriter(AP4_UI16 pmt_pid = AP4_MPEG2_TS_DEFAULT_PID_PMT);
~AP4_Mpeg2TsWriter();
Stream* GetPAT() { return m_PAT; }
Stream* GetPMT() { return m_PMT; }
AP4_Result WritePAT(AP4_ByteStream& output);
AP4_Result WritePMT(AP4_ByteStream& output);
AP4_Result SetAudioStream(AP4_UI32 timescale,
AP4_UI08 stream_type,
AP4_UI16 stream_id,
SampleStream*& stream,
AP4_UI16 pid = AP4_MPEG2_TS_DEFAULT_PID_AUDIO,
const AP4_UI08* descriptor = NULL,
AP4_Size descriptor_length = 0);
AP4_Result SetVideoStream(AP4_UI32 timescale,
AP4_UI08 stream_type,
AP4_UI16 stream_id,
SampleStream*& stream,
AP4_UI16 pid = AP4_MPEG2_TS_DEFAULT_PID_VIDEO,
const AP4_UI08* descriptor = NULL,
AP4_Size descriptor_length = 0);
private:
Stream* m_PAT;
Stream* m_PMT;
SampleStream* m_Audio;
SampleStream* m_Video;
};
#endif // _AP4_MPEG2_TS_H_
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