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srs/trunk/src/kernel/srs_kernel_mp4.hpp
winlin 58561b9f76 Refine utest
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/**
* The MIT License (MIT)
*
* Copyright (c) 2013-2019 Winlin
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#ifndef SRS_KERNEL_MP4_HPP
#define SRS_KERNEL_MP4_HPP
#include <srs_core.hpp>
#include <srs_kernel_buffer.hpp>
#include <srs_kernel_codec.hpp>
#include <string>
#include <sstream>
#include <vector>
#include <map>
class ISrsWriter;
class ISrsWriteSeeker;
class ISrsReadSeeker;
class SrsMp4TrackBox;
class SrsMp4MediaBox;
class SrsSimpleStream;
class SrsMp4MovieHeaderBox;
class SrsMp4TrackHeaderBox;
class SrsMp4SampleTableBox;
class SrsMp4MediaInformationBox;
class SrsMp4SampleDescriptionBox;
class SrsMp4AvccBox;
class SrsMp4DecoderSpecificInfo;
class SrsMp4VisualSampleEntry;
class SrsMp4AvccBox;
class SrsMp4AudioSampleEntry;
class SrsMp4EsdsBox;
class SrsMp4ChunkOffsetBox;
class SrsMp4SampleSizeBox;
class SrsMp4Sample2ChunkBox;
class SrsMp4DecodingTime2SampleBox;
class SrsMp4CompositionTime2SampleBox;
class SrsMp4SyncSampleBox;
class SrsMp4MediaHeaderBox;
class SrsMp4HandlerReferenceBox;
class SrsMp4VideoMeidaHeaderBox;
class SrsMp4DataInformationBox;
class SrsMp4DataReferenceBox;
class SrsMp4SoundMeidaHeaderBox;
class SrsMp4MovieExtendsBox;
class SrsMp4TrackExtendsBox;
class SrsMp4MovieFragmentHeaderBox;
class SrsMp4TrackFragmentBox;
class SrsMp4TrackFragmentHeaderBox;
class SrsMp4TrackFragmentDecodeTimeBox;
class SrsMp4TrackFragmentRunBox;
// 4.2 Object Structure
// ISO_IEC_14496-12-base-format-2012.pdf, page 16
enum SrsMp4BoxType
{
SrsMp4BoxTypeForbidden = 0x00,
SrsMp4BoxTypeUUID = 0x75756964, // 'uuid'
SrsMp4BoxTypeFTYP = 0x66747970, // 'ftyp'
SrsMp4BoxTypeMDAT = 0x6d646174, // 'mdat'
SrsMp4BoxTypeFREE = 0x66726565, // 'free'
SrsMp4BoxTypeSKIP = 0x736b6970, // 'skip'
SrsMp4BoxTypeMOOV = 0x6d6f6f76, // 'moov'
SrsMp4BoxTypeMVHD = 0x6d766864, // 'mvhd'
SrsMp4BoxTypeTRAK = 0x7472616b, // 'trak'
SrsMp4BoxTypeTKHD = 0x746b6864, // 'tkhd'
SrsMp4BoxTypeEDTS = 0x65647473, // 'edts'
SrsMp4BoxTypeELST = 0x656c7374, // 'elst'
SrsMp4BoxTypeMDIA = 0x6d646961, // 'mdia'
SrsMp4BoxTypeMDHD = 0x6d646864, // 'mdhd'
SrsMp4BoxTypeHDLR = 0x68646c72, // 'hdlr'
SrsMp4BoxTypeMINF = 0x6d696e66, // 'minf'
SrsMp4BoxTypeVMHD = 0x766d6864, // 'vmhd'
SrsMp4BoxTypeSMHD = 0x736d6864, // 'smhd'
SrsMp4BoxTypeDINF = 0x64696e66, // 'dinf'
SrsMp4BoxTypeURL = 0x75726c20, // 'url '
SrsMp4BoxTypeURN = 0x75726e20, // 'urn '
SrsMp4BoxTypeDREF = 0x64726566, // 'dref'
SrsMp4BoxTypeSTBL = 0x7374626c, // 'stbl'
SrsMp4BoxTypeSTSD = 0x73747364, // 'stsd'
SrsMp4BoxTypeSTTS = 0x73747473, // 'stts'
SrsMp4BoxTypeCTTS = 0x63747473, // 'ctts'
SrsMp4BoxTypeSTSS = 0x73747373, // 'stss'
SrsMp4BoxTypeSTSC = 0x73747363, // 'stsc'
SrsMp4BoxTypeSTCO = 0x7374636f, // 'stco'
SrsMp4BoxTypeCO64 = 0x636f3634, // 'co64'
SrsMp4BoxTypeSTSZ = 0x7374737a, // 'stsz'
SrsMp4BoxTypeSTZ2 = 0x73747a32, // 'stz2'
SrsMp4BoxTypeAVC1 = 0x61766331, // 'avc1'
SrsMp4BoxTypeAVCC = 0x61766343, // 'avcC'
SrsMp4BoxTypeMP4A = 0x6d703461, // 'mp4a'
SrsMp4BoxTypeESDS = 0x65736473, // 'esds'
SrsMp4BoxTypeUDTA = 0x75647461, // 'udta'
SrsMp4BoxTypeMVEX = 0x6d766578, // 'mvex'
SrsMp4BoxTypeTREX = 0x74726578, // 'trex'
SrsMp4BoxTypePASP = 0x70617370, // 'pasp'
SrsMp4BoxTypeSTYP = 0x73747970, // 'styp'
SrsMp4BoxTypeMOOF = 0x6d6f6f66, // 'moof'
SrsMp4BoxTypeMFHD = 0x6d666864, // 'mfhd'
SrsMp4BoxTypeTRAF = 0x74726166, // 'traf'
SrsMp4BoxTypeTFHD = 0x74666864, // 'tfhd'
SrsMp4BoxTypeTFDT = 0x74666474, // 'tfdt'
SrsMp4BoxTypeTRUN = 0x7472756e, // 'trun'
};
// 8.4.3.3 Semantics
// ISO_IEC_14496-12-base-format-2012.pdf, page 37
enum SrsMp4HandlerType
{
SrsMp4HandlerTypeForbidden = 0x00,
SrsMp4HandlerTypeVIDE = 0x76696465, // 'vide'
SrsMp4HandlerTypeSOUN = 0x736f756e, // 'soun'
};
// File format brands
// ISO_IEC_14496-12-base-format-2012.pdf, page 166
enum SrsMp4BoxBrand
{
SrsMp4BoxBrandForbidden = 0x00,
SrsMp4BoxBrandISOM = 0x69736f6d, // 'isom'
SrsMp4BoxBrandISO2 = 0x69736f32, // 'iso2'
SrsMp4BoxBrandAVC1 = 0x61766331, // 'avc1'
SrsMp4BoxBrandMP41 = 0x6d703431, // 'mp41'
SrsMp4BoxBrandISO5 = 0x69736f35, // 'iso5'
SrsMp4BoxBrandMP42 = 0x6d703432, // 'mp42'
SrsMp4BoxBrandDASH = 0x64617368, // 'dash'
SrsMp4BoxBrandMSDH = 0x6d736468, // 'msdh'
};
// The context to dump.
class SrsMp4DumpContext
{
public:
int level;
bool summary;
SrsMp4DumpContext indent();
};
// 4.2 Object Structure
// ISO_IEC_14496-12-base-format-2012.pdf, page 16
class SrsMp4Box : public ISrsCodec
{
private:
// The size is the entire size of the box, including the size and type header, fields,
// And all contained boxes. This facilitates general parsing of the file.
//
// if size is 1 then the actual size is in the field largesize;
// if size is 0, then this box is the last one in the file, and its contents
// extend to the end of the file (normally only used for a Media Data Box)
uint32_t smallsize;
uint64_t largesize;
public:
// identifies the box type; standard boxes use a compact type, which is normally four printable
// characters, to permit ease of identification, and is shown so in the boxes below. User extensions use
// An extended type; in this case, the type field is set to uuid.
SrsMp4BoxType type;
// For box 'uuid'.
std::vector<char> usertype;
protected:
std::vector<SrsMp4Box*> boxes;
private:
// The position at buffer to start demux the box.
int start_pos;
public:
SrsMp4Box();
virtual ~SrsMp4Box();
public:
// Get the size of box, whatever small or large size.
// @remark For general box(except mdat), we use this sz() to create the buffer to codec it.
virtual uint64_t sz();
// Get the size of header, without contained boxes.
// @remark For mdat box, we must codec its header, use this instead of sz().
virtual int sz_header();
// Get the left space of box, for decoder.
virtual int left_space(SrsBuffer* buf);
// Box type helper.
virtual bool is_ftyp();
virtual bool is_moov();
virtual bool is_mdat();
// Get the contained box of specific type.
// @return The first matched box.
virtual SrsMp4Box* get(SrsMp4BoxType bt);
// Remove the contained box of specified type.
// @return The removed count.
virtual int remove(SrsMp4BoxType bt);
// Dumps the box and all contained boxes.
virtual std::stringstream& dumps(std::stringstream& ss, SrsMp4DumpContext dc);
// Discovery the box from buffer.
// @param ppbox Output the discoveried box, which user must free it.
static srs_error_t discovery(SrsBuffer* buf, SrsMp4Box** ppbox);
// Interface ISrsCodec
public:
virtual int nb_bytes();
virtual srs_error_t encode(SrsBuffer* buf);
virtual srs_error_t decode(SrsBuffer* buf);
protected:
virtual srs_error_t encode_boxes(SrsBuffer* buf);
virtual srs_error_t decode_boxes(SrsBuffer* buf);
// Sub classes can override these functions for special codec.
// @remark For mdat box, we use completely different codec.
protected:
// The size of header, not including the contained boxes.
virtual int nb_header();
// It's not necessary to check the buffer, because we already know the size in parent function,
// so we have checked the buffer is ok to write.
virtual srs_error_t encode_header(SrsBuffer* buf);
// It's not necessary to check the buffer, unless the box is not only determined by the verson.
// Generally, it's not necessary, that is, all boxes is determinated by version.
virtual srs_error_t decode_header(SrsBuffer* buf);
// Whether there contained boxes in header.
virtual bool boxes_in_header();
// @remark internal for template methods.
public:
// Dumps the detail of box.
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 4.2 Object Structure
// ISO_IEC_14496-12-base-format-2012.pdf, page 17
class SrsMp4FullBox : public SrsMp4Box
{
public:
// An integer that specifies the version of this format of the box.
uint8_t version;
// A map of flags
uint32_t flags;
public:
SrsMp4FullBox();
virtual ~SrsMp4FullBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 4.3 File Type Box (ftyp)
// ISO_IEC_14496-12-base-format-2012.pdf, page 17
// Files written to this version of this specification must contain a file-type box. For compatibility with an earlier
// version of this specification, files may be conformant to this specification and not contain a file-type box. Files
// with no file-type box should be read as if they contained an FTYP box with Major_brand='mp41', minor_version=0, and
// The single compatible brand 'mp41'.
class SrsMp4FileTypeBox : public SrsMp4Box
{
public:
// A brand identifier
SrsMp4BoxBrand major_brand;
// An informative integer for the minor version of the major brand
uint32_t minor_version;
private:
// A list, to the end of the box, of brands
std::vector<SrsMp4BoxBrand> compatible_brands;
public:
SrsMp4FileTypeBox();
virtual ~SrsMp4FileTypeBox();
public:
virtual void set_compatible_brands(SrsMp4BoxBrand b0, SrsMp4BoxBrand b1);
virtual void set_compatible_brands(SrsMp4BoxBrand b0, SrsMp4BoxBrand b1, SrsMp4BoxBrand b2, SrsMp4BoxBrand b3);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.16.2 Segment Type Box (styp)
// ISO_IEC_14496-12-base-format-2012.pdf, page 105
// If segments are stored in separate files (e.g. on a standard HTTP server) it is recommended that these
// 'segment files' contain a segment-type box, which must be first if present, to enable identification of those files,
// And declaration of the specifications with which they are compliant.
class SrsMp4SegmentTypeBox : public SrsMp4FileTypeBox
{
public:
SrsMp4SegmentTypeBox();
virtual ~SrsMp4SegmentTypeBox();
};
// 8.8.4 Movie Fragment Box (moof)
// ISO_IEC_14496-12-base-format-2012.pdf, page 66
// The movie fragments extend the presentation in time. They provide the information that would previously have
// been in the Movie Box. The actual samples are in Media Data Boxes, as usual, if they are in the same file.
// The data reference index is in the sample description, so it is possible to build incremental presentations
// where the media data is in files other than the file containing the Movie Box.
class SrsMp4MovieFragmentBox : public SrsMp4Box
{
public:
SrsMp4MovieFragmentBox();
virtual ~SrsMp4MovieFragmentBox();
public:
// Get the header of moof.
virtual SrsMp4MovieFragmentHeaderBox* mfhd();
virtual void set_mfhd(SrsMp4MovieFragmentHeaderBox* v);
// Get the traf.
virtual SrsMp4TrackFragmentBox* traf();
virtual void set_traf(SrsMp4TrackFragmentBox* v);
};
// 8.8.5 Movie Fragment Header Box (mfhd)
// ISO_IEC_14496-12-base-format-2012.pdf, page 67
// The movie fragment header contains a sequence number, as a safety check. The sequence number usually
// starts at 1 and must increase for each movie fragment in the file, in the order in which they occur. This allows
// readers to verify integrity of the sequence; it is an error to construct a file where the fragments are out of
// sequence.
class SrsMp4MovieFragmentHeaderBox : public SrsMp4FullBox
{
public:
// The ordinal number of this fragment, in increasing order
uint32_t sequence_number;
public:
SrsMp4MovieFragmentHeaderBox();
virtual ~SrsMp4MovieFragmentHeaderBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.8.6 Track Fragment Box (traf)
// ISO_IEC_14496-12-base-format-2012.pdf, page 67
// Within the movie fragment there is a set of track fragments, zero or more per track. The track fragments in
// turn contain zero or more track runs, each of which document a contiguous run of samples for that track.
// Within these structures, many fields are optional and can be defaulted.
class SrsMp4TrackFragmentBox : public SrsMp4Box
{
public:
SrsMp4TrackFragmentBox();
virtual ~SrsMp4TrackFragmentBox();
public:
// Get the tfhd.
virtual SrsMp4TrackFragmentHeaderBox* tfhd();
virtual void set_tfhd(SrsMp4TrackFragmentHeaderBox* v);
// Get the tfdt.
virtual SrsMp4TrackFragmentDecodeTimeBox* tfdt();
virtual void set_tfdt(SrsMp4TrackFragmentDecodeTimeBox* tfdt);
// Get the trun.
virtual SrsMp4TrackFragmentRunBox* trun();
virtual void set_trun(SrsMp4TrackFragmentRunBox* v);
};
// The tf_flags of tfhd.
// ISO_IEC_14496-12-base-format-2012.pdf, page 68
enum SrsMp4TfhdFlags
{
// indicates the presence of the base-data-offset field. This provides
// An explicit anchor for the data offsets in each track run (see below). If not provided, the base-data-
// offset for the first track in the movie fragment is the position of the first byte of the enclosing Movie
// Fragment Box, and for second and subsequent track fragments, the default is the end of the data
// defined by the preceding fragment. Fragments 'inheriting' their offset in this way must all use
// The same data-reference (i.e., the data for these tracks must be in the same file).
SrsMp4TfhdFlagsBaseDataOffset = 0x000001,
// indicates the presence of this field, which over-rides, in this
// fragment, the default set up in the Track Extends Box.
SrsMp4TfhdFlagsSampleDescriptionIndex = 0x000002,
SrsMp4TfhdFlagsDefaultSampleDuration = 0x000008,
SrsMp4TfhdFlagsDefautlSampleSize = 0x000010,
SrsMp4TfhdFlagsDefaultSampleFlags = 0x000020,
// this indicates that the duration provided in either default-sample-duration,
// or by the default-duration in the Track Extends Box, is empty, i.e. that there are no samples for this
// time interval. It is an error to make a presentation that has both edit lists in the Movie Box, and empty-
// duration fragments.
SrsMp4TfhdFlagsDurationIsEmpty = 0x010000,
// if base-data-offset-present is zero, this indicates that the base-data-
// offset for this track fragment is the position of the first byte of the enclosing Movie Fragment Box.
// Support for the default-base-is-moof flag is required under the iso5 brand, and it shall not be used in
// brands or compatible brands earlier than iso5.
SrsMp4TfhdFlagsDefaultBaseIsMoof = 0x020000,
};
// 8.8.7 Track Fragment Header Box (tfhd)
// ISO_IEC_14496-12-base-format-2012.pdf, page 68
// Each movie fragment can add zero or more fragments to each track; and a track fragment can add zero or
// more contiguous runs of samples. The track fragment header sets up information and defaults used for those
// runs of samples.
class SrsMp4TrackFragmentHeaderBox : public SrsMp4FullBox
{
public:
uint32_t track_id;
// all the following are optional fields
public:
// The base offset to use when calculating data offsets
uint64_t base_data_offset;
uint32_t sample_description_index;
uint32_t default_sample_duration;
uint32_t default_sample_size;
uint32_t default_sample_flags;
public:
SrsMp4TrackFragmentHeaderBox();
virtual ~SrsMp4TrackFragmentHeaderBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.8.12 Track fragment decode time (tfdt)
// ISO_IEC_14496-12-base-format-2012.pdf, page 72
// The Track Fragment Base Media Decode Time Box provides the absolute decode time, measured on
// The media timeline, of the first sample in decode order in the track fragment. This can be useful, for example,
// when performing random access in a file; it is not necessary to sum the sample durations of all preceding
// samples in previous fragments to find this value (where the sample durations are the deltas in the Decoding
// Time to Sample Box and the sample_durations in the preceding track runs).
class SrsMp4TrackFragmentDecodeTimeBox : public SrsMp4FullBox
{
public:
// It's in ms.
uint64_t base_media_decode_time;
public:
SrsMp4TrackFragmentDecodeTimeBox();
virtual ~SrsMp4TrackFragmentDecodeTimeBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// The tr_flags for trun
// ISO_IEC_14496-12-base-format-2012.pdf, page 69
enum SrsMp4TrunFlags
{
// data-offset-present.
SrsMp4TrunFlagsDataOffset = 0x000001,
// this over-rides the default flags for the first sample only. This
// makes it possible to record a group of frames where the first is a key and the rest are difference
// frames, without supplying explicit flags for every sample. If this flag and field are used, sample-flags
// shall not be present.
SrsMp4TrunFlagsFirstSample = 0x000004,
// indicates that each sample has its own duration, otherwise the default is used.
SrsMp4TrunFlagsSampleDuration = 0x000100,
// Each sample has its own size, otherwise the default is used.
SrsMp4TrunFlagsSampleSize = 0x000200,
// Each sample has its own flags, otherwise the default is used.
SrsMp4TrunFlagsSampleFlag = 0x000400,
// Each sample has a composition time offset (e.g. as used for I/P/B video in MPEG).
SrsMp4TrunFlagsSampleCtsOffset = 0x000800,
};
// Entry for trun.
// ISO_IEC_14496-12-base-format-2012.pdf, page 69
class SrsMp4TrunEntry
{
public:
SrsMp4FullBox* owner;
uint32_t sample_duration;
uint32_t sample_size;
uint32_t sample_flags;
// if version == 0, unsigned int(32); otherwise, signed int(32).
int64_t sample_composition_time_offset;
SrsMp4TrunEntry(SrsMp4FullBox* o);
virtual ~SrsMp4TrunEntry();
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.8.8 Track Fragment Run Box (trun)
// ISO_IEC_14496-12-base-format-2012.pdf, page 69
// Within the Track Fragment Box, there are zero or more Track Run Boxes. If the duration-is-empty flag is set in
// The tf_flags, there are no track runs. A track run documents a contiguous set of samples for a track.
class SrsMp4TrackFragmentRunBox : public SrsMp4FullBox
{
public:
// The number of samples being added in this run; also the number of rows in the following
// table (the rows can be empty)
uint32_t sample_count;
// The following are optional fields
public:
// added to the implicit or explicit data_offset established in the track fragment header.
int32_t data_offset;
// provides a set of flags for the first sample only of this run.
uint32_t first_sample_flags;
// all fields in the following array are optional
public:
std::vector<SrsMp4TrunEntry*> entries;
public:
SrsMp4TrackFragmentRunBox();
virtual ~SrsMp4TrackFragmentRunBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.1.1 Media Data Box (mdat)
// ISO_IEC_14496-12-base-format-2012.pdf, page 29
// This box contains the media data. In video tracks, this box would contain video frames.
// A presentation may contain zero or more Media Data Boxes. The actual media data follows the type field;
// its structure is described by the metadata (see particularly the sample table, subclause 8.5, and the
// item location box, subclause 8.11.3).
//
// @remark The mdat box only decode and encode the header,
// so user must read and write the data by yourself.
// To encode mdat:
// SrsMp4MediaDataBox* mdat = new SrsMp4MediaDataBox();
// mdat->nb_data = 1024000;
//
// char* buffer = new char[mdat->sz_header()];
// SrsBuffer* buf = new SrsBuffer(buffer);
// mdat->encode(buf);
//
// file->write(buffer, mdat->sz_header()); // Write the mdat box header.
// file->write(data, size); // Write the mdat box data.
//
// To decode mdat:
// SrsMp4MediaDataBox* mdat = new SrsMp4MediaDataBox();
// char* buffer = new char[mdat->sz_header()];
// SrsBuffer* buf = ...; // Read mdat->sz_header() data from io.
//
// mdat->decode(buf); // The buf should be empty now.
// file->lseek(mdat->nb_data, SEEK_CUR); // Skip the mdat data in file.
//
// To discovery any box from file:
// SrsSimpleStream* stream = new SrsSimpleStream();
// SrsBuffer* buf = new SrsBuffer(stream...); // Create read buffer from stream.
//
// // We don't know what's the next box, so try to read 4bytes and discovery it.
// append(file, stream, 4); // Append 4bytes from file to stream.
//
// SrsMp4Box* box = NULL;
// SrsMp4Box::discovery(buf, &box);
//
// required = (box->is_mdat()? box->sz_header():box->sz()); // Now we know how many bytes we needed.
// append(file, stream, required);
// box->decode(buf);
//
// if (box->is_mdat()) {
// file->lseek(mdat->nb_data, SEEK_CUR); // Skip the mdat data in file.
// }
class SrsMp4MediaDataBox : public SrsMp4Box
{
public:
// The contained media data, which we never directly read/write it.
// TODO: FIXME: Support 64bits size.
int nb_data;
public:
SrsMp4MediaDataBox();
virtual ~SrsMp4MediaDataBox();
// Interface ISrsCodec
public:
// The total size of bytes, including the sz_header() and nb_data,
// which used to write the smallsize or largesize of mp4.
virtual int nb_bytes();
// To encode the mdat box, the buf should only contains the sz_header(),
// because the mdata only encode the header.
virtual srs_error_t encode(SrsBuffer* buf);
// To decode the mdat box, the buf should only contains the sz_header(),
// because the mdat only decode the header.
virtual srs_error_t decode(SrsBuffer* buf);
protected:
virtual srs_error_t encode_boxes(SrsBuffer* buf);
virtual srs_error_t decode_boxes(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.1.2 Free Space Box (free or skip)
// ISO_IEC_14496-12-base-format-2012.pdf, page 29
class SrsMp4FreeSpaceBox : public SrsMp4Box
{
private:
std::vector<char> data;
public:
SrsMp4FreeSpaceBox(SrsMp4BoxType v);
virtual ~SrsMp4FreeSpaceBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.2.1 Movie Box (moov)
// ISO_IEC_14496-12-base-format-2012.pdf, page 30
// The metadata for a presentation is stored in the single Movie Box which occurs at the top-level of a file.
// Normally this box is close to the beginning or end of the file, though this is not required.
class SrsMp4MovieBox : public SrsMp4Box
{
public:
SrsMp4MovieBox();
virtual ~SrsMp4MovieBox();
public:
// Get the header of moov.
virtual SrsMp4MovieHeaderBox* mvhd();
virtual void set_mvhd(SrsMp4MovieHeaderBox* v);
// Get the movie extends header.
virtual SrsMp4MovieExtendsBox* mvex();
virtual void set_mvex(SrsMp4MovieExtendsBox* v);
// Get the first video track.
virtual SrsMp4TrackBox* video();
// Get the first audio track.
virtual SrsMp4TrackBox* audio();
// Add a new track.
virtual void add_trak(SrsMp4TrackBox* v);
// Get the number of video tracks.
virtual int nb_vide_tracks();
// Get the number of audio tracks.
virtual int nb_soun_tracks();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
};
// 8.2.2 Movie Header Box (mvhd)
// ISO_IEC_14496-12-base-format-2012.pdf, page 31
class SrsMp4MovieHeaderBox : public SrsMp4FullBox
{
public:
// An integer that declares the creation time of the presentation (in seconds since
// midnight, Jan. 1, 1904, in UTC time)
uint64_t creation_time;
// An integer that declares the most recent time the presentation was modified (in
// seconds since midnight, Jan. 1, 1904, in UTC time)
uint64_t modification_time;
public:
// An integer that specifies the time-scale for the entire presentation; this is the number of
// time units that pass in one second. For example, a time coordinate system that measures time in
// sixtieths of a second has a time scale of 60.
uint32_t timescale;
// An integer that declares length of the presentation (in the indicated timescale). This property
// is derived from the presentations tracks: the value of this field corresponds to the duration of the
// longest track in the presentation. If the duration cannot be determined then duration is set to all 1s.
uint64_t duration_in_tbn;
public:
// A fixed point 16.16 number that indicates the preferred rate to play the presentation; 1.0
// (0x00010000) is normal forward playback
uint32_t rate;
// A fixed point 8.8 number that indicates the preferred playback volume. 1.0 (0x0100) is full volume.
uint16_t volume;
uint16_t reserved0;
uint64_t reserved1;
// A transformation matrix for the video; (u,v,w) are restricted here to (0,0,1), hex values (0,0,0x40000000).
int32_t matrix[9];
uint32_t pre_defined[6];
// A non-zero integer that indicates a value to use for the track ID of the next track to be
// added to this presentation. Zero is not a valid track ID value. The value of next_track_ID shall be
// larger than the largest track-ID in use. If this value is equal to all 1s (32-bit maxint), and a new media
// track is to be added, then a search must be made in the file for an unused track identifier.
uint32_t next_track_ID;
public:
SrsMp4MovieHeaderBox();
virtual ~SrsMp4MovieHeaderBox();
public:
// Get the duration in ms.
virtual uint64_t duration();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// The type of track, maybe combine of types.
enum SrsMp4TrackType
{
SrsMp4TrackTypeForbidden = 0x00,
SrsMp4TrackTypeAudio = 0x01,
SrsMp4TrackTypeVideo = 0x02,
};
// 8.8.1 Movie Extends Box (mvex)
// ISO_IEC_14496-12-base-format-2012.pdf, page 64
// This box warns readers that there might be Movie Fragment Boxes in this file. To know of all samples in the
// tracks, these Movie Fragment Boxes must be found and scanned in order, and their information logically
// added to that found in the Movie Box.
class SrsMp4MovieExtendsBox : public SrsMp4Box
{
public:
SrsMp4MovieExtendsBox();
virtual ~SrsMp4MovieExtendsBox();
public:
// Get the track extends box.
virtual SrsMp4TrackExtendsBox* trex();
virtual void set_trex(SrsMp4TrackExtendsBox* v);
};
// 8.8.3 Track Extends Box(trex)
// ISO_IEC_14496-12-base-format-2012.pdf, page 65
class SrsMp4TrackExtendsBox : public SrsMp4FullBox
{
public:
// identifies the track; this shall be the track ID of a track in the Movie Box
uint32_t track_ID;
// These fields set up defaults used in the track fragments.
uint32_t default_sample_description_index;
uint32_t default_sample_duration;
uint32_t default_sample_size;
uint32_t default_sample_flags;
public:
SrsMp4TrackExtendsBox();
virtual ~SrsMp4TrackExtendsBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.3.1 Track Box (trak)
// ISO_IEC_14496-12-base-format-2012.pdf, page 32
// This is a container box for a single track of a presentation. A presentation consists of one or more tracks.
// Each track is independent of the other tracks in the presentation and carries its own temporal and spatial
// information. Each track will contain its associated Media Box.
class SrsMp4TrackBox : public SrsMp4Box
{
public:
SrsMp4TrackBox();
virtual ~SrsMp4TrackBox();
public:
// Get the type of track, maybe combine of track type,
// for example, it maybe Audio|Video when contains both.
// Generally, only single type, no combination.
virtual SrsMp4TrackType track_type();
// Get the track header box.
virtual SrsMp4TrackHeaderBox* tkhd();
virtual void set_tkhd(SrsMp4TrackHeaderBox* v);
public:
// Get the chunk offset box.
virtual SrsMp4ChunkOffsetBox* stco();
// Get the sample size box.
virtual SrsMp4SampleSizeBox* stsz();
// Get the sample to chunk box.
virtual SrsMp4Sample2ChunkBox* stsc();
// Get the dts box.
virtual SrsMp4DecodingTime2SampleBox* stts();
// Get the cts/pts box.
virtual SrsMp4CompositionTime2SampleBox* ctts();
// Get the sync dts box.
virtual SrsMp4SyncSampleBox* stss();
// Get the media header box.
virtual SrsMp4MediaHeaderBox* mdhd();
public:
// For vide track, get the video codec.
virtual SrsVideoCodecId vide_codec();
// For soun track, get the audio codec.
virtual SrsAudioCodecId soun_codec();
// For H.264/AVC codec, get the sps/pps.
virtual SrsMp4AvccBox* avcc();
// For AAC codec, get the asc.
virtual SrsMp4DecoderSpecificInfo* asc();
public:
// Get the media box.
virtual SrsMp4MediaBox* mdia();
virtual void set_mdia(SrsMp4MediaBox* v);
// Get the media info box.
virtual SrsMp4MediaInformationBox* minf();
// Get the sample table box.
virtual SrsMp4SampleTableBox* stbl();
// Get the sample description box
virtual SrsMp4SampleDescriptionBox* stsd();
public:
// For H.264/AVC, get the avc1 box.
virtual SrsMp4VisualSampleEntry* avc1();
// For AAC, get the mp4a box.
virtual SrsMp4AudioSampleEntry* mp4a();
};
// 8.3.2 Track Header Box (tkhd)
// ISO_IEC_14496-12-base-format-2012.pdf, page 32
class SrsMp4TrackHeaderBox : public SrsMp4FullBox
{
public:
// An integer that declares the creation time of the presentation (in seconds since
// midnight, Jan. 1, 1904, in UTC time)
uint64_t creation_time;
// An integer that declares the most recent time the presentation was modified (in
// seconds since midnight, Jan. 1, 1904, in UTC time)
uint64_t modification_time;
// An integer that uniquely identifies this track over the entire life-time of this presentation.
// Track IDs are never re-used and cannot be zero.
uint32_t track_ID;
uint32_t reserved0;
// An integer that indicates the duration of this track (in the timescale indicated in the Movie
// Header Box). The value of this field is equal to the sum of the durations of all of the tracks edits. If
// There is no edit list, then the duration is the sum of the sample durations, converted into the timescale
// in the Movie Header Box. If the duration of this track cannot be determined then duration is set to all
// 1s.
uint64_t duration;
public:
uint64_t reserved1;
// specifies the front-to-back ordering of video tracks; tracks with lower numbers are closer to the
// viewer. 0 is the normal value, and -1 would be in front of track 0, and so on.
int16_t layer;
// An integer that specifies a group or collection of tracks. If this field is 0 there is no
// information on possible relations to other tracks. If this field is not 0, it should be the same for tracks
// that contain alternate data for one another and different for tracks belonging to different such groups.
// Only one track within an alternate group should be played or streamed at any one time, and must be
// distinguishable from other tracks in the group via attributes such as bitrate, codec, language, packet
// size etc. A group may have only one member.
int16_t alternate_group;
// A fixed 8.8 value specifying the track's relative audio volume. Full volume is 1.0 (0x0100) and
// is the normal value. Its value is irrelevant for a purely visual track. Tracks may be composed by
// combining them according to their volume, and then using the overall Movie Header Box volume
// setting; or more complex audio composition (e.g. MPEG-4 BIFS) may be used.
int16_t volume;
uint16_t reserved2;
// A transformation matrix for the video; (u,v,w) are restricted here to (0,0,1), hex (0,0,0x40000000).
int32_t matrix[9];
// The track's visual presentation size as fixed-point 16.16 values. These need
// not be the same as the pixel dimensions of the images, which is documented in the sample
// description(s); all images in the sequence are scaled to this size, before any overall transformation of
// The track represented by the matrix. The pixel dimensions of the images are the default values.
int32_t width;
int32_t height;
public:
SrsMp4TrackHeaderBox();
virtual ~SrsMp4TrackHeaderBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.6.5 Edit Box (edts)
// ISO_IEC_14496-12-base-format-2012.pdf, page 54
// An Edit Box maps the presentation time-line to the media time-line as it is stored in the file.
// The Edit Box is a container for the edit lists.
class SrsMp4EditBox : public SrsMp4Box
{
public:
SrsMp4EditBox();
virtual ~SrsMp4EditBox();
};
// 8.6.6 Edit List Box
// ISO_IEC_14496-12-base-format-2012.pdf, page 55
class SrsMp4ElstEntry
{
public:
// An integer that specifies the duration of this edit segment in units of the timescale
// in the Movie Header Box
uint64_t segment_duration;
// An integer containing the starting time within the media of this edit segment (in media time
// scale units, in composition time). If this field is set to 1, it is an empty edit. The last edit in a track
// shall never be an empty edit. Any difference between the duration in the Movie Header Box, and the
// tracks duration is expressed as an implicit empty edit at the end.
int64_t media_time;
public:
// specifies the relative rate at which to play the media corresponding to this edit segment. If this value is 0,
// Then the edit is specifying a dwell: the media at media-time is presented for the segment-duration. Otherwise
// this field shall contain the value 1.
int16_t media_rate_integer;
int16_t media_rate_fraction;
public:
SrsMp4ElstEntry();
virtual ~SrsMp4ElstEntry();
public:
virtual std::stringstream& dumps(std::stringstream& ss, SrsMp4DumpContext dc);
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.6.6 Edit List Box (elst)
// ISO_IEC_14496-12-base-format-2012.pdf, page 54
// This box contains an explicit timeline map. Each entry defines part of the track time-line: by mapping part of
// The media time-line, or by indicating empty time, or by defining a dwell, where a single time-point in the
// media is held for a period.
class SrsMp4EditListBox : public SrsMp4FullBox
{
public:
// An integer that gives the number of entries in the following table
std::vector<SrsMp4ElstEntry> entries;
public:
SrsMp4EditListBox();
virtual ~SrsMp4EditListBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.4.1 Media Box (mdia)
// ISO_IEC_14496-12-base-format-2012.pdf, page 36
// The media declaration container contains all the objects that declare information about the media data within a
// track.
class SrsMp4MediaBox : public SrsMp4Box
{
public:
SrsMp4MediaBox();
virtual ~SrsMp4MediaBox();
public:
// Get the type of track, maybe combine of track type,
// for example, it maybe Audio|Video when contains both.
// Generally, only single type, no combination.
virtual SrsMp4TrackType track_type();
// Get the media header box.
virtual SrsMp4MediaHeaderBox* mdhd();
virtual void set_mdhd(SrsMp4MediaHeaderBox* v);
// Get the hdlr box.
virtual SrsMp4HandlerReferenceBox* hdlr();
virtual void set_hdlr(SrsMp4HandlerReferenceBox* v);
// Get the media info box.
virtual SrsMp4MediaInformationBox* minf();
virtual void set_minf(SrsMp4MediaInformationBox* v);
};
// 8.4.2 Media Header Box (mdhd)
// ISO_IEC_14496-12-base-format-2012.pdf, page 36
// The media declaration container contains all the objects that declare information about the media data within a
// track.
class SrsMp4MediaHeaderBox : public SrsMp4FullBox
{
public:
// An integer that declares the creation time of the presentation (in seconds since
// midnight, Jan. 1, 1904, in UTC time)
uint64_t creation_time;
// An integer that declares the most recent time the presentation was modified (in
// seconds since midnight, Jan. 1, 1904, in UTC time)
uint64_t modification_time;
// An integer that specifies the time-scale for the entire presentation; this is the number of
// time units that pass in one second. For example, a time coordinate system that measures time in
// sixtieths of a second has a time scale of 60.
uint32_t timescale;
// An integer that declares length of the presentation (in the indicated timescale). This property
// is derived from the presentations tracks: the value of this field corresponds to the duration of the
// longest track in the presentation. If the duration cannot be determined then duration is set to all 1s.
uint64_t duration;
private:
// The language code for this media. See ISO 639-2/T for the set of three character
// codes. Each character is packed as the difference between its ASCII value and 0x60. Since the code
// is confined to being three lower-case letters, these values are strictly positive.
uint16_t language;
uint16_t pre_defined;
public:
SrsMp4MediaHeaderBox();
virtual ~SrsMp4MediaHeaderBox();
public:
// The language code for this media. See ISO 639-2/T for the set of three character
// codes. Each character is packed as the difference between its ASCII value and 0x60. Since the code
// is confined to being three lower-case letters, these values are strictly positive.
// @param v The ASCII, for example, 'u'.
virtual char language0();
virtual void set_language0(char v);
// @param v The ASCII, for example, 'n'.
virtual char language1();
virtual void set_language1(char v);
// @param v The ASCII, for example, 'd'.
virtual char language2();
virtual void set_language2(char v);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.4.3 Handler Reference Box (hdlr)
// ISO_IEC_14496-12-base-format-2012.pdf, page 37
// This box within a Media Box declares the process by which the media-data in the track is presented, and thus,
// The nature of the media in a track. For example, a video track would be handled by a video handler.
class SrsMp4HandlerReferenceBox : public SrsMp4FullBox
{
public:
uint32_t pre_defined;
// An integer containing one of the following values, or a value from a derived specification:
// vide, Video track
// soun, Audio track
SrsMp4HandlerType handler_type;
uint32_t reserved[3];
// A null-terminated string in UTF-8 characters which gives a human-readable name for the track
// type (for debugging and inspection purposes).
std::string name;
public:
SrsMp4HandlerReferenceBox();
virtual ~SrsMp4HandlerReferenceBox();
public:
virtual bool is_video();
virtual bool is_audio();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.4.4 Media Information Box (minf)
// ISO_IEC_14496-12-base-format-2012.pdf, page 38
// This box contains all the objects that declare characteristic information of the media in the track.
class SrsMp4MediaInformationBox : public SrsMp4Box
{
public:
SrsMp4MediaInformationBox();
virtual ~SrsMp4MediaInformationBox();
public:
// Get the vmhd box.
virtual SrsMp4VideoMeidaHeaderBox* vmhd();
virtual void set_vmhd(SrsMp4VideoMeidaHeaderBox* v);
// Get the smhd box.
virtual SrsMp4SoundMeidaHeaderBox* smhd();
virtual void set_smhd(SrsMp4SoundMeidaHeaderBox* v);
// Get the dinf box.
virtual SrsMp4DataInformationBox* dinf();
virtual void set_dinf(SrsMp4DataInformationBox* v);
// Get the sample table box.
virtual SrsMp4SampleTableBox* stbl();
virtual void set_stbl(SrsMp4SampleTableBox* v);
};
// 8.4.5.2 Video Media Header Box (vmhd)
// ISO_IEC_14496-12-base-format-2012.pdf, page 38
// The video media header contains general presentation information, independent of the coding, for video
// media. Note that the flags field has the value 1.
class SrsMp4VideoMeidaHeaderBox : public SrsMp4FullBox
{
public:
// A composition mode for this video track, from the following enumerated set,
// which may be extended by derived specifications:
// copy = 0 copy over the existing image
uint16_t graphicsmode;
// A set of 3 colour values (red, green, blue) available for use by graphics modes
uint16_t opcolor[3];
public:
SrsMp4VideoMeidaHeaderBox();
virtual ~SrsMp4VideoMeidaHeaderBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
};
// 8.4.5.3 Sound Media Header Box (smhd)
// ISO_IEC_14496-12-base-format-2012.pdf, page 39
// The sound media header contains general presentation information, independent of the coding, for audio
// media. This header is used for all tracks containing audio.
class SrsMp4SoundMeidaHeaderBox : public SrsMp4FullBox
{
public:
// A fixed-point 8.8 number that places mono audio tracks in a stereo space; 0 is centre (the
// normal value); full left is -1.0 and full right is 1.0.
int16_t balance;
uint16_t reserved;
public:
SrsMp4SoundMeidaHeaderBox();
virtual ~SrsMp4SoundMeidaHeaderBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
};
// 8.7.1 Data Information Box (dinf)
// ISO_IEC_14496-12-base-format-2012.pdf, page 56
// The data information box contains objects that declare the location of the media information in a track.
class SrsMp4DataInformationBox : public SrsMp4Box
{
public:
SrsMp4DataInformationBox();
virtual ~SrsMp4DataInformationBox();
public:
// Get the dref box.
virtual SrsMp4DataReferenceBox* dref();
virtual void set_dref(SrsMp4DataReferenceBox* v);
};
// 8.7.2 Data Reference Box
// ISO_IEC_14496-12-base-format-2012.pdf, page 56
// A 24-bit integer with flags; one flag is defined (x000001) which means that the media
// data is in the same file as the Movie Box containing this data reference.
class SrsMp4DataEntryBox : public SrsMp4FullBox
{
public:
std::string location;
public:
SrsMp4DataEntryBox();
virtual ~SrsMp4DataEntryBox();
};
// 8.7.2 Data Reference Box (url )
// ISO_IEC_14496-12-base-format-2012.pdf, page 56
class SrsMp4DataEntryUrlBox : public SrsMp4DataEntryBox
{
public:
SrsMp4DataEntryUrlBox();
virtual ~SrsMp4DataEntryUrlBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.7.2 Data Reference Box (urn )
// ISO_IEC_14496-12-base-format-2012.pdf, page 56
class SrsMp4DataEntryUrnBox : public SrsMp4DataEntryBox
{
public:
std::string name;
public:
SrsMp4DataEntryUrnBox();
virtual ~SrsMp4DataEntryUrnBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.7.2 Data Reference Box (dref)
// ISO_IEC_14496-12-base-format-2012.pdf, page 56
// The data reference object contains a table of data references (normally URLs) that declare the location(s) of
// The media data used within the presentation. The data reference index in the sample description ties entries
// in this table to the samples in the track. A track may be split over several sources in this way.
class SrsMp4DataReferenceBox : public SrsMp4FullBox
{
private:
std::vector<SrsMp4DataEntryBox*> entries;
public:
SrsMp4DataReferenceBox();
virtual ~SrsMp4DataReferenceBox();
public:
virtual uint32_t entry_count();
virtual SrsMp4DataEntryBox* entry_at(int index);
virtual SrsMp4DataReferenceBox* append(SrsMp4DataEntryBox* v);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.5.1 Sample Table Box (stbl)
// ISO_IEC_14496-12-base-format-2012.pdf, page 40
// The sample table contains all the time and data indexing of the media samples in a track. Using the tables
// here, it is possible to locate samples in time, determine their type (e.g. I-frame or not), and determine their
// size, container, and offset into that container.
class SrsMp4SampleTableBox : public SrsMp4Box
{
public:
SrsMp4SampleTableBox();
virtual ~SrsMp4SampleTableBox();
public:
// Get the sample description box
virtual SrsMp4SampleDescriptionBox* stsd();
virtual void set_stsd(SrsMp4SampleDescriptionBox* v);
// Get the chunk offset box.
virtual SrsMp4ChunkOffsetBox* stco();
virtual void set_stco(SrsMp4ChunkOffsetBox* v);
// Get the sample size box.
virtual SrsMp4SampleSizeBox* stsz();
virtual void set_stsz(SrsMp4SampleSizeBox* v);
// Get the sample to chunk box.
virtual SrsMp4Sample2ChunkBox* stsc();
virtual void set_stsc(SrsMp4Sample2ChunkBox* v);
// Get the dts box.
virtual SrsMp4DecodingTime2SampleBox* stts();
virtual void set_stts(SrsMp4DecodingTime2SampleBox* v);
// Get the cts/pts box.
virtual SrsMp4CompositionTime2SampleBox* ctts();
virtual void set_ctts(SrsMp4CompositionTime2SampleBox* v);
// Get the sync dts box.
virtual SrsMp4SyncSampleBox* stss();
virtual void set_stss(SrsMp4SyncSampleBox* v);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
};
// 8.5.2 Sample Description Box
// ISO_IEC_14496-12-base-format-2012.pdf, page 43
class SrsMp4SampleEntry : public SrsMp4Box
{
public:
uint8_t reserved[6];
// An integer that contains the index of the data reference to use to retrieve
// data associated with samples that use this sample description. Data references are stored in Data
// Reference Boxes. The index ranges from 1 to the number of data references.
uint16_t data_reference_index;
public:
SrsMp4SampleEntry();
virtual ~SrsMp4SampleEntry();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.5.2 Sample Description Box (avc1)
// ISO_IEC_14496-12-base-format-2012.pdf, page 44
class SrsMp4VisualSampleEntry : public SrsMp4SampleEntry
{
public:
uint16_t pre_defined0;
uint16_t reserved0;
uint32_t pre_defined1[3];
// The maximum visual width and height of the stream described by this sample
// description, in pixels
uint16_t width;
uint16_t height;
uint32_t horizresolution;
uint32_t vertresolution;
uint32_t reserved1;
// how many frames of compressed video are stored in each sample. The default is
// 1, for one frame per sample; it may be more than 1 for multiple frames per sample
uint16_t frame_count;
// A name, for informative purposes. It is formatted in a fixed 32-byte field, with the first
// byte set to the number of bytes to be displayed, followed by that number of bytes of displayable data,
// And then padding to complete 32 bytes total (including the size byte). The field may be set to 0.
char compressorname[32];
// one of the following values
// 0x0018 images are in colour with no alpha
uint16_t depth;
int16_t pre_defined2;
public:
SrsMp4VisualSampleEntry();
virtual ~SrsMp4VisualSampleEntry();
public:
// For avc1, get the avcc box.
virtual SrsMp4AvccBox* avcC();
virtual void set_avcC(SrsMp4AvccBox* v);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 5.3.4 AVC Video Stream Definition (avcC)
// ISO_IEC_14496-15-AVC-format-2012.pdf, page 19
class SrsMp4AvccBox : public SrsMp4Box
{
public:
std::vector<char> avc_config;
public:
SrsMp4AvccBox();
virtual ~SrsMp4AvccBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.5.2 Sample Description Box (mp4a)
// ISO_IEC_14496-12-base-format-2012.pdf, page 45
class SrsMp4AudioSampleEntry : public SrsMp4SampleEntry
{
public:
uint64_t reserved0;
uint16_t channelcount;
uint16_t samplesize;
uint16_t pre_defined0;
uint16_t reserved1;
uint32_t samplerate;
public:
SrsMp4AudioSampleEntry();
virtual ~SrsMp4AudioSampleEntry();
public:
// For AAC codec, get the esds.
virtual SrsMp4EsdsBox* esds();
virtual void set_esds(SrsMp4EsdsBox* v);
// For AAC codec, get the asc.
virtual SrsMp4DecoderSpecificInfo* asc();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// Table 1 — List of Class Tags for Descriptors
// ISO_IEC_14496-1-System-2010.pdf, page 31
enum SrsMp4ESTagEs {
SrsMp4ESTagESforbidden = 0x00,
SrsMp4ESTagESObjectDescrTag = 0x01,
SrsMp4ESTagESInitialObjectDescrTag = 0x02,
SrsMp4ESTagESDescrTag = 0x03,
SrsMp4ESTagESDecoderConfigDescrTag = 0x04,
SrsMp4ESTagESDecSpecificInfoTag = 0x05,
SrsMp4ESTagESSLConfigDescrTag = 0x06,
SrsMp4ESTagESExtSLConfigDescrTag = 0x064,
};
// 7.2.2.2 BaseDescriptor
// ISO_IEC_14496-1-System-2010.pdf, page 32
class SrsMp4BaseDescriptor : public ISrsCodec
{
public:
// The values of the class tags are
// defined in Table 2. As an expandable class the size of each class instance in bytes is encoded and accessible
// through the instance variable sizeOfInstance (see 8.3.3).
SrsMp4ESTagEs tag; // bit(8)
// The decoded or encoded variant length.
int32_t vlen; // bit(28)
private:
// The position at buffer to start demux the box.
int start_pos;
public:
SrsMp4BaseDescriptor();
virtual ~SrsMp4BaseDescriptor();
public:
// Get the left space of box, for decoder.
virtual int left_space(SrsBuffer* buf);
// Interface ISrsCodec
public:
virtual int nb_bytes();
virtual srs_error_t encode(SrsBuffer* buf);
virtual srs_error_t decode(SrsBuffer* buf);
protected:
virtual int32_t nb_payload() = 0;
virtual srs_error_t encode_payload(SrsBuffer* buf) = 0;
virtual srs_error_t decode_payload(SrsBuffer* buf) = 0;
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// Table 5 — objectTypeIndication Values
// ISO_IEC_14496-1-System-2010.pdf, page 49
enum SrsMp4ObjectType
{
SrsMp4ObjectTypeForbidden = 0x00,
// Audio ISO/IEC 14496-3
SrsMp4ObjectTypeAac = 0x40,
};
// Table 6 — streamType Values
// ISO_IEC_14496-1-System-2010.pdf, page 51
enum SrsMp4StreamType
{
SrsMp4StreamTypeForbidden = 0x00,
SrsMp4StreamTypeAudioStream = 0x05,
};
// 7.2.6.7 DecoderSpecificInfo
// ISO_IEC_14496-1-System-2010.pdf, page 51
class SrsMp4DecoderSpecificInfo : public SrsMp4BaseDescriptor
{
public:
// AAC Audio Specific Config.
// 1.6.2.1 AudioSpecificConfig, in ISO_IEC_14496-3-AAC-2001.pdf, page 33.
std::vector<char> asc;
public:
SrsMp4DecoderSpecificInfo();
virtual ~SrsMp4DecoderSpecificInfo();
protected:
virtual int32_t nb_payload();
virtual srs_error_t encode_payload(SrsBuffer* buf);
virtual srs_error_t decode_payload(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 7.2.6.6 DecoderConfigDescriptor
// ISO_IEC_14496-1-System-2010.pdf, page 48
class SrsMp4DecoderConfigDescriptor : public SrsMp4BaseDescriptor
{
public:
// An indication of the object or scene description type that needs to be supported
// by the decoder for this elementary stream as per Table 5.
SrsMp4ObjectType objectTypeIndication; // bit(8)
SrsMp4StreamType streamType; // bit(6)
uint8_t upStream; // bit(1)
uint8_t reserved; // bit(1)
uint32_t bufferSizeDB; // bit(24)
uint32_t maxBitrate;
uint32_t avgBitrate;
SrsMp4DecoderSpecificInfo* decSpecificInfo; // optional.
public:
SrsMp4DecoderConfigDescriptor();
virtual ~SrsMp4DecoderConfigDescriptor();
protected:
virtual int32_t nb_payload();
virtual srs_error_t encode_payload(SrsBuffer* buf);
virtual srs_error_t decode_payload(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 7.3.2.3 SL Packet Header Configuration
// ISO_IEC_14496-1-System-2010.pdf, page 92
class SrsMp4SLConfigDescriptor : public SrsMp4BaseDescriptor
{
public:
uint8_t predefined;
public:
SrsMp4SLConfigDescriptor();
virtual ~SrsMp4SLConfigDescriptor();
protected:
virtual int32_t nb_payload();
virtual srs_error_t encode_payload(SrsBuffer* buf);
virtual srs_error_t decode_payload(SrsBuffer* buf);
};
// 7.2.6.5 ES_Descriptor
// ISO_IEC_14496-1-System-2010.pdf, page 47
class SrsMp4ES_Descriptor : public SrsMp4BaseDescriptor
{
public:
uint16_t ES_ID;
uint8_t streamDependenceFlag; // bit(1)
uint8_t URL_Flag; // bit(1)
uint8_t OCRstreamFlag; // bit(1)
uint8_t streamPriority; // bit(5)
// if (streamDependenceFlag)
uint16_t dependsOn_ES_ID;
// if (URL_Flag)
std::vector<char> URLstring;
// if (OCRstreamFlag)
uint16_t OCR_ES_Id;
SrsMp4DecoderConfigDescriptor decConfigDescr;
SrsMp4SLConfigDescriptor slConfigDescr;
public:
SrsMp4ES_Descriptor();
virtual ~SrsMp4ES_Descriptor();
protected:
virtual int32_t nb_payload();
virtual srs_error_t encode_payload(SrsBuffer* buf);
virtual srs_error_t decode_payload(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 5.6 Sample Description Boxes
// Elementary Stream Descriptors (esds)
// ISO_IEC_14496-14-MP4-2003.pdf, page 15
// @see http://www.mp4ra.org/codecs.html
class SrsMp4EsdsBox : public SrsMp4FullBox
{
public:
SrsMp4ES_Descriptor* es;
public:
SrsMp4EsdsBox();
virtual ~SrsMp4EsdsBox();
public:
// For AAC codec, get the asc.
virtual SrsMp4DecoderSpecificInfo* asc();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.5.2 Sample Description Box (stsd), for Audio/Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 40
// The sample description table gives detailed information about the coding type used, and any initialization
// information needed for that coding.
class SrsMp4SampleDescriptionBox : public SrsMp4FullBox
{
private:
std::vector<SrsMp4SampleEntry*> entries;
public:
SrsMp4SampleDescriptionBox();
virtual ~SrsMp4SampleDescriptionBox();
public:
// For H.264/AVC, get the avc1 box.
virtual SrsMp4VisualSampleEntry* avc1();
// For AAC, get the mp4a box.
virtual SrsMp4AudioSampleEntry* mp4a();
public:
virtual uint32_t entry_count();
virtual SrsMp4SampleEntry* entrie_at(int index);
virtual SrsMp4SampleDescriptionBox* append(SrsMp4SampleEntry* v);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
virtual bool boxes_in_header();
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.6.1.2 Decoding Time to Sample Box (stts), for Audio/Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 48
class SrsMp4SttsEntry
{
public:
// An integer that counts the number of consecutive samples that have the given
// duration.
uint32_t sample_count;
// An integer that gives the delta of these samples in the time-scale of the media.
uint32_t sample_delta;
// Constructor
SrsMp4SttsEntry();
virtual ~SrsMp4SttsEntry();
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.6.1.2 Decoding Time to Sample Box (stts), for Audio/Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 48
// This box contains a compact version of a table that allows indexing from decoding time to sample number.
// Other tables give sample sizes and pointers, from the sample number. Each entry in the table gives the
// number of consecutive samples with the same time delta, and the delta of those samples. By adding the
// deltas a complete time-to-sample map may be built.
class SrsMp4DecodingTime2SampleBox : public SrsMp4FullBox
{
public:
// An integer that gives the number of entries in the following table.
std::vector<SrsMp4SttsEntry> entries;
private:
// The index for counter to calc the dts for samples.
uint32_t index;
uint32_t count;
public:
SrsMp4DecodingTime2SampleBox();
virtual ~SrsMp4DecodingTime2SampleBox();
public:
// Initialize the counter.
virtual srs_error_t initialize_counter();
// When got an sample, index starts from 0.
virtual srs_error_t on_sample(uint32_t sample_index, SrsMp4SttsEntry** ppentry);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.6.1.3 Composition Time to Sample Box (ctts), for Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 49
class SrsMp4CttsEntry
{
public:
// An integer that counts the number of consecutive samples that have the given offset.
uint32_t sample_count;
// uint32_t for version=0
// int32_t for version=1
// An integer that gives the offset between CT and DT, such that CT(n) = DT(n) +
// CTTS(n).
int64_t sample_offset;
// Constructor
SrsMp4CttsEntry();
virtual ~SrsMp4CttsEntry();
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.6.1.3 Composition Time to Sample Box (ctts), for Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 49
// This box provides the offset between decoding time and composition time. In version 0 of this box the
// decoding time must be less than the composition time, and the offsets are expressed as unsigned numbers
// such that CT(n) = DT(n) + CTTS(n) where CTTS(n) is the (uncompressed) table entry for sample n. In version
// 1 of this box, the composition timeline and the decoding timeline are still derived from each other, but the
// offsets are signed. It is recommended that for the computed composition timestamps, there is exactly one with
// The value 0 (zero).
class SrsMp4CompositionTime2SampleBox : public SrsMp4FullBox
{
public:
// An integer that gives the number of entries in the following table.
std::vector<SrsMp4CttsEntry> entries;
private:
// The index for counter to calc the dts for samples.
uint32_t index;
uint32_t count;
public:
SrsMp4CompositionTime2SampleBox();
virtual ~SrsMp4CompositionTime2SampleBox();
public:
// Initialize the counter.
virtual srs_error_t initialize_counter();
// When got an sample, index starts from 0.
virtual srs_error_t on_sample(uint32_t sample_index, SrsMp4CttsEntry** ppentry);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.6.2 Sync Sample Box (stss), for Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 51
// This box provides a compact marking of the sync samples within the stream. The table is arranged in strictly
// increasing order of sample number.
class SrsMp4SyncSampleBox : public SrsMp4FullBox
{
public:
// An integer that gives the number of entries in the following table. If entry_count is zero,
// There are no sync samples within the stream and the following table is empty.
uint32_t entry_count;
// The numbers of the samples that are sync samples in the stream.
uint32_t* sample_numbers;
public:
SrsMp4SyncSampleBox();
virtual ~SrsMp4SyncSampleBox();
public:
// Whether the sample is sync, index starts from 0.
virtual bool is_sync(uint32_t sample_index);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.7.4 Sample To Chunk Box (stsc), for Audio/Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 58
class SrsMp4StscEntry
{
public:
// An integer that gives the index of the first chunk in this run of chunks that share the
// same samples-per-chunk and sample-description-index; the index of the first chunk in a track has the
// value 1 (the first_chunk field in the first record of this box has the value 1, identifying that the first
// sample maps to the first chunk).
uint32_t first_chunk;
// An integer that gives the number of samples in each of these chunks
uint32_t samples_per_chunk;
// An integer that gives the index of the sample entry that describes the
// samples in this chunk. The index ranges from 1 to the number of sample entries in the Sample
// Description Box
uint32_t sample_description_index;
// Constructor
SrsMp4StscEntry();
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.7.4 Sample To Chunk Box (stsc), for Audio/Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 58
// Samples within the media data are grouped into chunks. Chunks can be of different sizes, and the samples
// within a chunk can have different sizes. This table can be used to find the chunk that contains a sample,
// its position, and the associated sample description.
class SrsMp4Sample2ChunkBox : public SrsMp4FullBox
{
public:
// An integer that gives the number of entries in the following table
uint32_t entry_count;
// The numbers of the samples that are sync samples in the stream.
SrsMp4StscEntry* entries;
private:
// The index for counter to calc the dts for samples.
uint32_t index;
public:
SrsMp4Sample2ChunkBox();
virtual ~SrsMp4Sample2ChunkBox();
public:
// Initialize the counter.
virtual void initialize_counter();
// When got an chunk, index starts from 0.
virtual SrsMp4StscEntry* on_chunk(uint32_t chunk_index);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.7.5 Chunk Offset Box (stco), for Audio/Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 59
// The chunk offset table gives the index of each chunk into the containing file. There are two variants, permitting
// The use of 32-bit or 64-bit offsets. The latter is useful when managing very large presentations. At most one of
// These variants will occur in any single instance of a sample table.
class SrsMp4ChunkOffsetBox : public SrsMp4FullBox
{
public:
// An integer that gives the number of entries in the following table
uint32_t entry_count;
// A 32 bit integer that gives the offset of the start of a chunk into its containing
// media file.
uint32_t* entries;
public:
SrsMp4ChunkOffsetBox();
virtual ~SrsMp4ChunkOffsetBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.7.5 Chunk Large Offset Box (co64), for Audio/Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 59
// The chunk offset table gives the index of each chunk into the containing file. There are two variants, permitting
// The use of 32-bit or 64-bit offsets. The latter is useful when managing very large presentations. At most one of
// These variants will occur in any single instance of a sample table.
class SrsMp4ChunkLargeOffsetBox : public SrsMp4FullBox
{
public:
// An integer that gives the number of entries in the following table
uint32_t entry_count;
// A 64 bit integer that gives the offset of the start of a chunk into its containing
// media file.
uint64_t* entries;
public:
SrsMp4ChunkLargeOffsetBox();
virtual ~SrsMp4ChunkLargeOffsetBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.7.3.2 Sample Size Box (stsz), for Audio/Video.
// ISO_IEC_14496-12-base-format-2012.pdf, page 58
// This box contains the sample count and a table giving the size in bytes of each sample. This allows the media data
// itself to be unframed. The total number of samples in the media is always indicated in the sample count.
class SrsMp4SampleSizeBox : public SrsMp4FullBox
{
public:
// The default sample size. If all the samples are the same size, this field
// contains that size value. If this field is set to 0, then the samples have different sizes, and those sizes
// are stored in the sample size table. If this field is not 0, it specifies the constant sample size, and no
// array follows.
uint32_t sample_size;
// An integer that gives the number of samples in the track; if sample-size is 0, then it is
// also the number of entries in the following table.
uint32_t sample_count;
// Each entry_size is an integer specifying the size of a sample, indexed by its number.
uint32_t* entry_sizes;
public:
SrsMp4SampleSizeBox();
virtual ~SrsMp4SampleSizeBox();
public:
// Get the size of sample.
virtual srs_error_t get_sample_size(uint32_t sample_index, uint32_t* psample_size);
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// 8.10.1 User Data Box (udta)
// ISO_IEC_14496-12-base-format-2012.pdf, page 78
// This box contains objects that declare user information about the containing box and its data (presentation or
// track).
class SrsMp4UserDataBox : public SrsMp4Box
{
public:
std::vector<char> data;
public:
SrsMp4UserDataBox();
virtual ~SrsMp4UserDataBox();
protected:
virtual int nb_header();
virtual srs_error_t encode_header(SrsBuffer* buf);
virtual srs_error_t decode_header(SrsBuffer* buf);
public:
virtual std::stringstream& dumps_detail(std::stringstream& ss, SrsMp4DumpContext dc);
};
// Generally, a MP4 sample contains a frame, for example, a video frame or audio frame.
class SrsMp4Sample
{
public:
// The type of sample, audio or video.
SrsFrameType type;
// The offset of sample in file.
off_t offset;
// The index of sample with a track, start from 0.
uint32_t index;
// The dts in tbn.
uint64_t dts;
// For video, the pts in tbn.
uint64_t pts;
// The tbn(timebase).
uint32_t tbn;
// For video, the frame type, whether keyframe.
SrsVideoAvcFrameType frame_type;
// The adjust timestamp in milliseconds.
// For example, we can adjust a timestamp for A/V to monotonically increase.
int32_t adjust;
// The sample data.
uint32_t nb_data;
uint8_t* data;
public:
SrsMp4Sample();
virtual ~SrsMp4Sample();
public:
// Get the adjusted dts in ms.
virtual uint32_t dts_ms();
// Get the adjusted pts in ms.
virtual uint32_t pts_ms();
};
// Build samples from moov, or write samples to moov.
// One or more sample are grouped to a chunk, each track contains one or more chunks.
// The offset of chunk is specified by stco.
// The chunk-sample series is speicified by stsc.
// The sample size is specified by stsz.
// The dts is specified by stts.
// For video:
// The cts/pts is specified by ctts.
// The keyframe is specified by stss.
class SrsMp4SampleManager
{
public:
std::vector<SrsMp4Sample*> samples;
public:
SrsMp4SampleManager();
virtual ~SrsMp4SampleManager();
public:
// Load the samples from moov. There must be atleast one track.
virtual srs_error_t load(SrsMp4MovieBox* moov);
// Get the sample at index position.
// @remark NULL if exceed the max index.
virtual SrsMp4Sample* at(uint32_t index);
// Append the sample to the tail of manager.
virtual void append(SrsMp4Sample* sample);
// Write the samples info to moov.
virtual srs_error_t write(SrsMp4MovieBox* moov);
// Write the samples info to moof.
// @param The dts is the dts of last segment.
virtual srs_error_t write(SrsMp4MovieFragmentBox* moof, uint64_t& dts);
private:
virtual srs_error_t write_track(SrsFrameType track,
SrsMp4DecodingTime2SampleBox* stts, SrsMp4SyncSampleBox* stss, SrsMp4CompositionTime2SampleBox* ctts,
SrsMp4Sample2ChunkBox* stsc, SrsMp4SampleSizeBox* stsz, SrsMp4ChunkOffsetBox* stco);
virtual srs_error_t do_load(std::map<uint64_t, SrsMp4Sample*>& tses, SrsMp4MovieBox* moov);
private:
// Load the samples of track from stco, stsz and stsc.
// @param tses The temporary samples, key is offset, value is sample.
// @param tt The type of sample, convert to flv tag type.
// TODO: Support co64 for stco.
virtual srs_error_t load_trak(std::map<uint64_t, SrsMp4Sample*>& tses, SrsFrameType tt,
SrsMp4MediaHeaderBox* mdhd, SrsMp4ChunkOffsetBox* stco, SrsMp4SampleSizeBox* stsz, SrsMp4Sample2ChunkBox* stsc,
SrsMp4DecodingTime2SampleBox* stts, SrsMp4CompositionTime2SampleBox* ctts, SrsMp4SyncSampleBox* stss);
};
// The MP4 box reader, to get the RAW boxes without decode.
// @remark For mdat box, we only decode the header, then skip the data.
class SrsMp4BoxReader
{
private:
ISrsReadSeeker* rsio;
// The temporary buffer to read from buffer.
char* buf;
public:
SrsMp4BoxReader();
virtual ~SrsMp4BoxReader();
public:
virtual srs_error_t initialize(ISrsReadSeeker* rs);
public:
// Read a MP4 box to pbox, the stream is fill with the bytes of box to decode.
virtual srs_error_t read(SrsSimpleStream* stream, SrsMp4Box** ppbox);
// Skip the box from stream, and skip in file if need.
virtual srs_error_t skip(SrsMp4Box* box, SrsSimpleStream* stream);
};
// The MP4 demuxer.
class SrsMp4Decoder
{
private:
// The major brand of decoder, parse from ftyp.
SrsMp4BoxBrand brand;
// The samples build from moov.
SrsMp4SampleManager* samples;
// The current written sample information.
uint32_t current_index;
off_t current_offset;
public:
// The video codec of first track, generally there is zero or one track.
// Forbidden if no video stream.
// TODO: FIXME: Use SrsFormat instead.
SrsVideoCodecId vcodec;
private:
// For H.264/AVC, the avcc contains the sps/pps.
std::vector<char> pavcc;
// Whether avcc is written to reader.
bool avcc_written;
public:
// The audio codec of first track, generally there is zero or one track.
// Forbidden if no audio stream.
SrsAudioCodecId acodec;
// The audio sample rate.
SrsAudioSampleRate sample_rate;
// The audio sound bits.
SrsAudioSampleBits sound_bits;
// The audio sound type.
SrsAudioChannels channels;
private:
// For AAC, the asc in esds box.
std::vector<char> pasc;
// Whether asc is written to reader.
bool asc_written;
private:
// Underlayer reader and seeker.
// @remark The demuxer must use seeker for general MP4 to seek the moov.
ISrsReadSeeker* rsio;
// The MP4 box reader.
SrsMp4BoxReader* br;
// The stream used to demux the boxes.
// TODO: FIXME: refine for performance issue.
SrsSimpleStream* stream;
public:
SrsMp4Decoder();
virtual ~SrsMp4Decoder();
public:
// Initialize the decoder with a reader r.
// @param r The underlayer io reader, user must manage it.
virtual srs_error_t initialize(ISrsReadSeeker* rs);
// Read a sample from mp4.
// @param pht The sample hanler type, audio/soun or video/vide.
// @param pft, The frame type. For video, it's SrsVideoAvcFrameType. For audio, ignored.
// @param pct, The codec type. For video, it's SrsVideoAvcFrameTrait. For audio, it's SrsAudioAacFrameTrait.
// @param pdts The output dts in milliseconds.
// @param ppts The output pts in milliseconds.
// @param pnb_sample The output size of payload.
// @param psample The output payload, user must free it.
// @remark The decoder will generate the first two audio/video sequence header.
virtual srs_error_t read_sample(SrsMp4HandlerType* pht, uint16_t* pft, uint16_t* pct,
uint32_t* pdts, uint32_t* ppts, uint8_t** psample, uint32_t* pnb_sample);
private:
virtual srs_error_t parse_ftyp(SrsMp4FileTypeBox* ftyp);
virtual srs_error_t parse_moov(SrsMp4MovieBox* moov);
private:
// Load the next box from reader.
// @param required_box_type The box type required, 0 for any box.
virtual srs_error_t load_next_box(SrsMp4Box** ppbox, uint32_t required_box_type);
// @remark Never load the mdat box content, for it's too large.
virtual srs_error_t do_load_next_box(SrsMp4Box** ppbox, uint32_t required_box_type);
};
// The MP4 muxer.
class SrsMp4Encoder
{
private:
ISrsWriteSeeker* wsio;
// The mdat offset at file, we must update the header when flush.
off_t mdat_offset;
// The mdat size in bytes, we must update it to the mdat box header.
uint64_t mdat_bytes;
// The samples build from moov.
SrsMp4SampleManager* samples;
public:
// The audio codec of first track, generally there is zero or one track.
// Forbidden if no audio stream.
SrsAudioCodecId acodec;
// The audio sample rate.
SrsAudioSampleRate sample_rate;
// The audio sound bits.
SrsAudioSampleBits sound_bits;
// The audio sound type.
SrsAudioChannels channels;
private:
// For AAC, the asc in esds box.
std::vector<char> pasc;
// The number of audio samples.
uint32_t nb_audios;
// The duration of audio stream.
uint64_t aduration;
public:
// The video codec of first track, generally there is zero or one track.
// Forbidden if no video stream.
SrsVideoCodecId vcodec;
private:
// For H.264/AVC, the avcc contains the sps/pps.
std::vector<char> pavcc;
// The number of video samples.
uint32_t nb_videos;
// The duration of video stream.
uint64_t vduration;
// The size width/height of video.
uint32_t width;
uint32_t height;
public:
SrsMp4Encoder();
virtual ~SrsMp4Encoder();
public:
// Initialize the encoder with a writer and seeker ws.
// @param ws The underlayer io writer and seeker, user must manage it.
virtual srs_error_t initialize(ISrsWriteSeeker* ws);
// Write a sample to mp4.
// @param ht, The sample handler type, audio/soun or video/vide.
// @param ft, The frame type. For video, it's SrsVideoAvcFrameType.
// @param ct, The codec type. For video, it's SrsVideoAvcFrameTrait. For audio, it's SrsAudioAacFrameTrait.
// @param dts The output dts in milliseconds.
// @param pts The output pts in milliseconds.
// @param sample The output payload, user must free it.
// @param nb_sample The output size of payload.
virtual srs_error_t write_sample(SrsMp4HandlerType ht, uint16_t ft, uint16_t ct,
uint32_t dts, uint32_t pts, uint8_t* sample, uint32_t nb_sample);
// Flush the encoder, to write the moov.
virtual srs_error_t flush();
private:
virtual srs_error_t copy_sequence_header(bool vsh, uint8_t* sample, uint32_t nb_sample);
virtual srs_error_t do_write_sample(SrsMp4Sample* ps, uint8_t* sample, uint32_t nb_sample);
};
// A fMP4 encoder, to write the init.mp4 with sequence header.
class SrsMp4M2tsInitEncoder
{
private:
ISrsWriter* writer;
public:
SrsMp4M2tsInitEncoder();
virtual ~SrsMp4M2tsInitEncoder();
public:
// Initialize the encoder with a writer w.
virtual srs_error_t initialize(ISrsWriter* w);
// Write the sequence header.
virtual srs_error_t write(SrsFormat* format, bool video, int tid);
};
// A fMP4 encoder, to cache segments then flush to disk, because the fMP4 should write
// trun box before mdat.
class SrsMp4M2tsSegmentEncoder
{
private:
ISrsWriter* writer;
SrsBuffer* buffer;
uint32_t sequence_number;
srs_utime_t decode_basetime;
uint32_t track_id;
private:
uint32_t nb_audios;
uint32_t nb_videos;
uint64_t mdat_bytes;
SrsMp4SampleManager* samples;
private:
uint64_t data_offset;
public:
SrsMp4M2tsSegmentEncoder();
virtual ~SrsMp4M2tsSegmentEncoder();
public:
// Initialize the encoder with a writer w.
virtual srs_error_t initialize(ISrsWriter* w, uint32_t sequence, srs_utime_t basetime, uint32_t tid);
// Cache a sample.
// @param ht, The sample handler type, audio/soun or video/vide.
// @param ft, The frame type. For video, it's SrsVideoAvcFrameType.
// @param dts The output dts in milliseconds.
// @param pts The output pts in milliseconds.
// @param sample The output payload, user must free it.
// @param nb_sample The output size of payload.
// @remark All samples are RAW AAC/AVC data, because sequence header is writen to init.mp4.
virtual srs_error_t write_sample(SrsMp4HandlerType ht, uint16_t ft,
uint32_t dts, uint32_t pts, uint8_t* sample, uint32_t nb_sample);
// Flush the encoder, to write the moof and mdat.
virtual srs_error_t flush(uint64_t& dts);
};
#endif
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