shaka-packager/media/mp4/box_definitions.h

563 lines
12 KiB
C++

// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef MEDIA_MP4_BOX_DEFINITIONS_H_
#define MEDIA_MP4_BOX_DEFINITIONS_H_
#include <string>
#include <vector>
#include "media/mp4/aac.h"
#include "media/mp4/box.h"
#include "media/mp4/es_descriptor.h"
#include "media/mp4/fourccs.h"
namespace media {
class BufferReader;
namespace mp4 {
enum TrackType {
kInvalid = 0,
kVideo,
kAudio,
kHint
};
class BoxBuffer;
#define DECLARE_BOX_METHODS(T) \
T(); \
virtual ~T(); \
virtual bool ReadWrite(BoxBuffer* buffer) OVERRIDE; \
virtual FourCC BoxType() const OVERRIDE; \
virtual uint32 ComputeSize() OVERRIDE;
struct FileType : Box {
DECLARE_BOX_METHODS(FileType);
FourCC major_brand;
uint32 minor_version;
std::vector<FourCC> compatible_brands;
};
struct SegmentType : FileType {
DECLARE_BOX_METHODS(SegmentType);
};
struct ProtectionSystemSpecificHeader : FullBox {
DECLARE_BOX_METHODS(ProtectionSystemSpecificHeader);
std::vector<uint8> system_id;
std::vector<uint8> data;
std::vector<uint8> raw_box;
};
struct SampleAuxiliaryInformationOffset : FullBox {
DECLARE_BOX_METHODS(SampleAuxiliaryInformationOffset);
std::vector<uint64> offsets;
};
struct SampleAuxiliaryInformationSize : FullBox {
DECLARE_BOX_METHODS(SampleAuxiliaryInformationSize);
uint8 default_sample_info_size;
uint32 sample_count;
std::vector<uint8> sample_info_sizes;
};
struct OriginalFormat : Box {
DECLARE_BOX_METHODS(OriginalFormat);
FourCC format;
};
struct SchemeType : FullBox {
DECLARE_BOX_METHODS(SchemeType);
FourCC type;
uint32 version;
};
struct TrackEncryption : FullBox {
DECLARE_BOX_METHODS(TrackEncryption);
// Note: this definition is specific to the CENC protection type.
bool is_encrypted;
uint8 default_iv_size;
std::vector<uint8> default_kid;
};
struct SchemeInfo : Box {
DECLARE_BOX_METHODS(SchemeInfo);
TrackEncryption track_encryption;
};
struct ProtectionSchemeInfo : Box {
DECLARE_BOX_METHODS(ProtectionSchemeInfo);
OriginalFormat format;
SchemeType type;
SchemeInfo info;
};
struct MovieHeader : FullBox {
DECLARE_BOX_METHODS(MovieHeader);
uint64 creation_time;
uint64 modification_time;
uint32 timescale;
uint64 duration;
int32 rate;
int16 volume;
uint32 next_track_id;
};
struct TrackHeader : FullBox {
enum TrackHeaderFlags {
kTrackEnabled = 0x000001,
kTrackInMovie = 0x000002,
kTrackInPreview = 0x000004,
};
DECLARE_BOX_METHODS(TrackHeader);
uint64 creation_time;
uint64 modification_time;
uint32 track_id;
uint64 duration;
int16 layer;
int16 alternate_group;
int16 volume;
uint32 width;
uint32 height;
};
struct EditListEntry {
uint64 segment_duration;
int64 media_time;
int16 media_rate_integer;
int16 media_rate_fraction;
};
struct EditList : FullBox {
DECLARE_BOX_METHODS(EditList);
std::vector<EditListEntry> edits;
};
struct Edit : Box {
DECLARE_BOX_METHODS(Edit);
EditList list;
};
struct HandlerReference : FullBox {
DECLARE_BOX_METHODS(HandlerReference);
TrackType type;
};
struct AVCDecoderConfigurationRecord : Box {
DECLARE_BOX_METHODS(AVCDecoderConfigurationRecord);
bool ParseData(BufferReader* reader);
// Contains full avc decoder configuration record as defined in iso14496-15
// 5.2.4.1, including possible extension bytes described in paragraph 3.
// Known fields defined in the spec are also parsed and included in this
// structure.
std::vector<uint8> data;
uint8 version;
uint8 profile_indication;
uint8 profile_compatibility;
uint8 avc_level;
uint8 length_size;
typedef std::vector<uint8> SPS;
typedef std::vector<uint8> PPS;
std::vector<SPS> sps_list;
std::vector<PPS> pps_list;
};
struct PixelAspectRatioBox : Box {
DECLARE_BOX_METHODS(PixelAspectRatioBox);
uint32 h_spacing;
uint32 v_spacing;
};
struct VideoSampleEntry : Box {
DECLARE_BOX_METHODS(VideoSampleEntry);
FourCC format;
uint16 data_reference_index;
uint16 width;
uint16 height;
PixelAspectRatioBox pixel_aspect;
ProtectionSchemeInfo sinf;
// Currently expected to be present regardless of format.
AVCDecoderConfigurationRecord avcc;
};
struct ElementaryStreamDescriptor : FullBox {
DECLARE_BOX_METHODS(ElementaryStreamDescriptor);
AAC aac;
ESDescriptor es_descriptor;
};
struct AudioSampleEntry : Box {
DECLARE_BOX_METHODS(AudioSampleEntry);
FourCC format;
uint16 data_reference_index;
uint16 channelcount;
uint16 samplesize;
uint32 samplerate;
ProtectionSchemeInfo sinf;
ElementaryStreamDescriptor esds;
};
struct SampleDescription : FullBox {
DECLARE_BOX_METHODS(SampleDescription);
TrackType type;
std::vector<VideoSampleEntry> video_entries;
std::vector<AudioSampleEntry> audio_entries;
};
struct DecodingTime {
uint32 sample_count;
uint32 sample_delta;
};
// stts.
struct DecodingTimeToSample : FullBox {
DECLARE_BOX_METHODS(DecodingTimeToSample);
std::vector<DecodingTime> decoding_time;
};
struct CompositionOffset {
uint32 sample_count;
// If version == 0, sample_offset is uint32;
// If version == 1, sample_offset is int32.
// Always use signed version, which should work unless the offset
// exceeds 31 bits, which shouldn't happen.
int32 sample_offset;
};
// ctts. Optional.
struct CompositionTimeToSample : FullBox {
DECLARE_BOX_METHODS(CompositionTimeToSample);
std::vector<CompositionOffset> composition_offset;
};
struct ChunkInfo {
uint32 first_chunk;
uint32 samples_per_chunk;
uint32 sample_description_index;
};
// stsc.
struct SampleToChunk : FullBox {
DECLARE_BOX_METHODS(SampleToChunk);
std::vector<ChunkInfo> chunk_info;
};
// stsz.
struct SampleSize : FullBox {
DECLARE_BOX_METHODS(SampleSize);
uint32 sample_size;
uint32 sample_count;
std::vector<uint32> sizes;
};
// stz2.
struct CompactSampleSize : FullBox {
DECLARE_BOX_METHODS(CompactSampleSize);
uint8 field_size;
std::vector<uint32> sizes;
};
// co64.
struct ChunkLargeOffset : FullBox {
DECLARE_BOX_METHODS(ChunkLargeOffset);
std::vector<uint64> offsets;
};
// stco.
struct ChunkOffset : ChunkLargeOffset {
DECLARE_BOX_METHODS(ChunkOffset);
};
// stss. Optional.
struct SyncSample : FullBox {
DECLARE_BOX_METHODS(SyncSample);
std::vector<uint32> sample_number;
};
struct SampleTable : Box {
DECLARE_BOX_METHODS(SampleTable);
SampleDescription description;
DecodingTimeToSample decoding_time_to_sample;
CompositionTimeToSample composition_time_to_sample;
SampleToChunk sample_to_chunk;
// Either SampleSize or CompactSampleSize must present. Store in SampleSize.
SampleSize sample_size;
// Either ChunkOffset or ChunkLargeOffset must present. Store in
// ChunkLargeOffset.
ChunkLargeOffset chunk_large_offset;
SyncSample sync_sample;
};
struct MediaHeader : FullBox {
DECLARE_BOX_METHODS(MediaHeader);
uint64 creation_time;
uint64 modification_time;
uint32 timescale;
uint64 duration;
// 3-char language code + 1 null terminating char.
char language[4];
};
struct VideoMediaHeader : FullBox {
DECLARE_BOX_METHODS(VideoMediaHeader);
uint16 graphicsmode;
uint16 opcolor_red;
uint16 opcolor_green;
uint16 opcolor_blue;
};
struct SoundMediaHeader : FullBox {
DECLARE_BOX_METHODS(SoundMediaHeader);
uint16 balance;
};
struct DataEntryUrl : FullBox {
DECLARE_BOX_METHODS(DataEntryUrl);
std::vector<uint8> location;
};
struct DataReference : FullBox {
DECLARE_BOX_METHODS(DataReference);
// data entry can be either url or urn box. Fix to url box for now.
std::vector<DataEntryUrl> data_entry;
};
struct DataInformation : Box {
DECLARE_BOX_METHODS(DataInformation);
DataReference dref;
};
struct MediaInformation : Box {
DECLARE_BOX_METHODS(MediaInformation);
DataInformation dinf;
SampleTable sample_table;
// Exactly one specific meida header shall be present, vmhd, smhd, hmhd, nmhd.
VideoMediaHeader vmhd;
SoundMediaHeader smhd;
};
struct Media : Box {
DECLARE_BOX_METHODS(Media);
MediaHeader header;
HandlerReference handler;
MediaInformation information;
};
struct Track : Box {
DECLARE_BOX_METHODS(Track);
TrackHeader header;
Media media;
Edit edit;
};
struct MovieExtendsHeader : FullBox {
DECLARE_BOX_METHODS(MovieExtendsHeader);
uint64 fragment_duration;
};
struct TrackExtends : FullBox {
DECLARE_BOX_METHODS(TrackExtends);
uint32 track_id;
uint32 default_sample_description_index;
uint32 default_sample_duration;
uint32 default_sample_size;
uint32 default_sample_flags;
};
struct MovieExtends : Box {
DECLARE_BOX_METHODS(MovieExtends);
MovieExtendsHeader header;
std::vector<TrackExtends> tracks;
};
struct Movie : Box {
DECLARE_BOX_METHODS(Movie);
MovieHeader header;
MovieExtends extends;
std::vector<Track> tracks;
std::vector<ProtectionSystemSpecificHeader> pssh;
};
struct TrackFragmentDecodeTime : FullBox {
DECLARE_BOX_METHODS(TrackFragmentDecodeTime);
uint64 decode_time;
};
struct MovieFragmentHeader : FullBox {
DECLARE_BOX_METHODS(MovieFragmentHeader);
uint32 sequence_number;
};
struct TrackFragmentHeader : FullBox {
enum TrackFragmentFlagsMasks {
kDataOffsetPresentMask = 0x000001,
kSampleDescriptionIndexPresentMask = 0x000002,
kDefaultSampleDurationPresentMask = 0x000008,
kDefaultSampleSizePresentMask = 0x000010,
kDefaultSampleFlagsPresentMask = 0x000020,
kDurationIsEmptyMask = 0x010000,
kDefaultBaseIsMoofMask = 0x020000,
};
enum SampleFlagsMasks {
kReservedMask = 0xFC000000,
kSampleDependsOnMask = 0x03000000,
kSampleIsDependedOnMask = 0x00C00000,
kSampleHasRedundancyMask = 0x00300000,
kSamplePaddingValueMask = 0x000E0000,
kNonKeySampleMask = 0x00010000,
kSampleDegradationPriorityMask = 0x0000FFFF,
};
DECLARE_BOX_METHODS(TrackFragmentHeader);
uint32 track_id;
uint32 sample_description_index;
uint32 default_sample_duration;
uint32 default_sample_size;
uint32 default_sample_flags;
};
struct TrackFragmentRun : FullBox {
enum TrackFragmentFlagsMasks {
kDataOffsetPresentMask = 0x000001,
kFirstSampleFlagsPresentMask = 0x000004,
kSampleDurationPresentMask = 0x000100,
kSampleSizePresentMask = 0x000200,
kSampleFlagsPresentMask = 0x000400,
kSampleCompTimeOffsetsPresentMask = 0x000800,
};
DECLARE_BOX_METHODS(TrackFragmentRun);
uint32 sample_count;
uint32 data_offset;
std::vector<uint32> sample_flags;
std::vector<uint32> sample_sizes;
std::vector<uint32> sample_durations;
std::vector<int32> sample_composition_time_offsets;
};
struct TrackFragment : Box {
DECLARE_BOX_METHODS(TrackFragment);
TrackFragmentHeader header;
std::vector<TrackFragmentRun> runs;
TrackFragmentDecodeTime decode_time;
SampleAuxiliaryInformationOffset auxiliary_offset;
SampleAuxiliaryInformationSize auxiliary_size;
};
struct MovieFragment : Box {
DECLARE_BOX_METHODS(MovieFragment);
MovieFragmentHeader header;
std::vector<TrackFragment> tracks;
std::vector<ProtectionSystemSpecificHeader> pssh;
};
struct SegmentReference {
enum SAPType {
TypeUnknown = 0,
Type1 = 1, // T(ept) = T(dec) = T(sap) = T(ptf)
Type2 = 2, // T(ept) = T(dec) = T(sap) < T(ptf)
Type3 = 3, // T(ept) < T(dec) = T(sap) <= T(ptf)
Type4 = 4, // T(ept) <= T(ptf) < T(dec) = T(sap)
Type5 = 5, // T(ept) = T(dec) < T(sap)
Type6 = 6, // T(ept) < T(dec) < T(sap)
};
bool reference_type;
uint32 referenced_size;
uint32 subsegment_duration;
bool starts_with_sap;
SAPType sap_type;
uint32 sap_delta_time;
// We add this field to keep track of earliest_presentation_time in this
// subsegment. It is not part of SegmentReference.
uint64 earliest_presentation_time;
};
struct SegmentIndex : FullBox {
DECLARE_BOX_METHODS(SegmentIndex);
uint32 reference_id;
uint32 timescale;
uint64 earliest_presentation_time;
uint64 first_offset;
std::vector<SegmentReference> references;
};
// The actual data is parsed and written separately, so we do not inherit it
// from Box.
struct MediaData {
MediaData();
~MediaData();
void Write(BufferWriter* buffer_writer);
uint32 ComputeSize();
FourCC BoxType() const;
uint32 data_size;
};
#undef DECLARE_BOX
} // namespace mp4
} // namespace media
#endif // MEDIA_MP4_BOX_DEFINITIONS_H_