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/* $Id: WebMWriter.h $ */
/** @file
* WebMWriter.h - WebM container handling.
*/
/*
* Copyright (C) 2013-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program 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, in version 3 of the
* License.
*
* This program 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 this program; if not, see <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
*/
#ifndef MAIN_INCLUDED_WebMWriter_h
#define MAIN_INCLUDED_WebMWriter_h
#ifndef RT_WITHOUT_PRAGMA_ONCE
# pragma once
#endif
#include <iprt/buildconfig.h>
#include <iprt/mem.h>
#include <iprt/rand.h>
#include <iprt/string.h>
#include "VBox/com/VirtualBox.h"
#include <VBox/version.h>
#include "EBMLWriter.h"
#include "EBML_MKV.h"
#include <queue>
#include <map>
#include <list>
#ifdef VBOX_WITH_LIBVPX
# ifdef _MSC_VER
# pragma warning(push)
# pragma warning(disable: 4668) /* vpx_codec.h(64) : warning C4668: '__GNUC__' is not defined as a preprocessor macro, replacing with '0' for '#if/#elif' */
# include <vpx/vpx_encoder.h>
# pragma warning(pop)
# else
# include <vpx/vpx_encoder.h>
# endif
#endif /* VBOX_WITH_LIBVPX */
/** No flags specified. */
#define VBOX_WEBM_BLOCK_FLAG_NONE 0
/** Invisible block which can be skipped. */
#define VBOX_WEBM_BLOCK_FLAG_INVISIBLE 0x08
/** The block marks a key frame. */
#define VBOX_WEBM_BLOCK_FLAG_KEY_FRAME 0x80
/** The default timecode scale factor for WebM -- all timecodes in the segments are expressed in ms.
* This allows every cluster to have blocks with positive values up to 32.767 seconds. */
#define VBOX_WEBM_TIMECODESCALE_FACTOR_MS 1000000
/** Maximum time (in ms) a cluster can store. */
#define VBOX_WEBM_CLUSTER_MAX_LEN_MS INT16_MAX
/** Maximum time a block can store.
* With signed 16-bit timecodes and a default timecode scale of 1ms per unit this makes 65536ms. */
#define VBOX_WEBM_BLOCK_MAX_LEN_MS UINT16_MAX
#ifdef VBOX_WITH_LIBVORBIS
# pragma pack(push)
# pragma pack(1)
/** Ogg Vorbis codec private data within the MKV (WEBM) container.
* Taken from: https://www.matroska.org/technical/codec_specs.html */
typedef struct WEBMOGGVORBISPRIVDATA
{
WEBMOGGVORBISPRIVDATA(uint32_t a_cbHdrIdent, uint32_t a_cbHdrComments, uint32_t a_cbHdrSetup)
: cbHdrIdent(a_cbHdrIdent)
, cbHdrComments(a_cbHdrComments)
{
RT_NOREF(a_cbHdrSetup);
/* We supply 3 headers total: The "real" header, comments header + setup header. */
cHeaders = 3 /* Headers */ - 1; /* Note: Always "minus one" here. */
Assert(a_cbHdrIdent <= UINT8_MAX);
Assert(a_cbHdrComments <= UINT8_MAX);
Assert(a_cbHdrSetup <= _8K);
Assert(a_cbHdrIdent + a_cbHdrComments + a_cbHdrSetup <= sizeof(abHdr));
}
/** Number of private headers - 1. */
uint8_t cHeaders;
/** Size of identification header (in bytes). */
uint8_t cbHdrIdent;
/** < Size of comments header (in bytes). */
uint8_t cbHdrComments;
/** < Header code area. */
uint8_t abHdr[UINT8_MAX /* Header */ + UINT8_MAX /* Comments header */ + _8K /* Setup header */];
} WEBMOGGVORBISPRIVDATA, *PWEBMOGGVORBISPRIVDATA;
# pragma pack(pop)
#endif
class WebMWriter : public EBMLWriter
{
public:
/** Defines an absolute WebM timecode (Block + Cluster). */
typedef uint64_t WebMTimecodeAbs;
/** Defines a relative WebM timecode (Block). */
typedef uint16_t WebMTimecodeRel;
/** Defines the WebM block flags data type. */
typedef uint8_t WebMBlockFlags;
/**
* Track type enumeration.
*/
enum WebMTrackType
{
/** Unknown / invalid type. */
WebMTrackType_Invalid = 0,
/** Only writes audio. */
WebMTrackType_Audio = 1,
/** Only writes video. */
WebMTrackType_Video = 2
};
struct WebMTrack;
/**
* Structure for defining a WebM simple block.
*/
struct WebMSimpleBlock
{
WebMSimpleBlock(WebMTrack *a_pTrack,
WebMTimecodeAbs a_tcAbsPTSMs, const void *a_pvData, size_t a_cbData, WebMBlockFlags a_fFlags)
: pTrack(a_pTrack)
{
Data.tcAbsPTSMs = a_tcAbsPTSMs;
Data.cb = a_cbData;
Data.fFlags = a_fFlags;
if (Data.cb)
{
Data.pv = RTMemDup(a_pvData, a_cbData);
if (!Data.pv)
throw;
}
}
virtual ~WebMSimpleBlock()
{
if (Data.pv)
{
Assert(Data.cb);
RTMemFree(Data.pv);
}
}
WebMTrack *pTrack;
/** Actual simple block data. */
struct
{
WebMTimecodeAbs tcAbsPTSMs;
WebMTimecodeRel tcRelToClusterMs;
void *pv;
size_t cb;
WebMBlockFlags fFlags;
} Data;
};
/** A simple block queue.*/
typedef std::queue<WebMSimpleBlock *> WebMSimpleBlockQueue;
/** Structure for queuing all simple blocks bound to a single timecode.
* This can happen if multiple tracks are being involved. */
struct WebMTimecodeBlocks
{
WebMTimecodeBlocks(void)
: fClusterNeeded(false)
, fClusterStarted(false) { }
/** The actual block queue for this timecode. */
WebMSimpleBlockQueue Queue;
/** Whether a new cluster is needed for this timecode or not. */
bool fClusterNeeded;
/** Whether a new cluster already has been started for this timecode or not. */
bool fClusterStarted;
/**
* Enqueues a simple block into the internal queue.
*
* @param a_pBlock Block to enqueue and take ownership of.
*/
void Enqueue(WebMSimpleBlock *a_pBlock)
{
Queue.push(a_pBlock);
if (a_pBlock->Data.fFlags & VBOX_WEBM_BLOCK_FLAG_KEY_FRAME)
fClusterNeeded = true;
}
};
/** A block map containing all currently queued blocks.
* The key specifies a unique timecode, whereas the value
* is a queue of blocks which all correlate to the key (timecode). */
typedef std::map<WebMTimecodeAbs, WebMTimecodeBlocks> WebMBlockMap;
/**
* Structure for defining a WebM (encoding) queue.
*/
struct WebMQueue
{
WebMQueue(void)
: tcAbsLastBlockWrittenMs(0)
, tsLastProcessedMs(0) { }
/** Blocks as FIFO (queue). */
WebMBlockMap Map;
/** Absolute timecode (in ms) of last written block to queue. */
WebMTimecodeAbs tcAbsLastBlockWrittenMs;
/** Time stamp (in ms) of when the queue was processed last. */
uint64_t tsLastProcessedMs;
};
/**
* Structure for keeping a WebM track entry.
*/
struct WebMTrack
{
WebMTrack(WebMTrackType a_enmType, PRECORDINGCODEC pTheCodec, uint8_t a_uTrack, uint64_t a_offID)
: enmType(a_enmType)
, pCodec(pTheCodec)
, uTrack(a_uTrack)
, offUUID(a_offID)
, cTotalBlocks(0)
, tcAbsLastWrittenMs(0)
{
uUUID = RTRandU32();
}
/** The type of this track. */
WebMTrackType enmType;
/** Pointer to codec data to use. */
PRECORDINGCODEC pCodec;
/** Track parameters. */
union
{
struct
{
/** Sample rate of input data. */
uint32_t uHz;
/** Duration of the frame in samples (per channel).
* Valid frame size are:
*
* ms Frame size
* 2.5 120
* 5 240
* 10 480
* 20 (Default) 960
* 40 1920
* 60 2880
*/
uint16_t framesPerBlock;
/** How many milliseconds (ms) one written (simple) block represents. */
uint16_t msPerBlock;
} Audio;
};
/** This track's track number. Also used as key in track map. */
uint8_t uTrack;
/** The track's "UUID".
* Needed in case this track gets mux'ed with tracks from other files. Not really unique though. */
uint32_t uUUID;
/** Absolute offset in file of track UUID.
* Needed to write the hash sum within the footer. */
uint64_t offUUID;
/** Total number of blocks. */
uint64_t cTotalBlocks;
/** Absoute timecode (in ms) of last write. */
WebMTimecodeAbs tcAbsLastWrittenMs;
};
/**
* Structure for a single cue point track position entry.
*/
struct WebMCueTrackPosEntry
{
WebMCueTrackPosEntry(uint64_t a_offCluster)
: offCluster(a_offCluster) { }
/** Offset (in bytes) of the related cluster containing the given position. */
uint64_t offCluster;
};
/** Map for keeping track position entries for a single cue point.
* The key is the track number (*not* UUID!). */
typedef std::map<uint8_t, WebMCueTrackPosEntry *> WebMCueTrackPosMap;
/**
* Structure for keeping a cue point.
*/
struct WebMCuePoint
{
WebMCuePoint(WebMTimecodeAbs a_tcAbs)
: tcAbs(a_tcAbs) { }
virtual ~WebMCuePoint()
{
Clear();
}
void Clear(void)
{
WebMCueTrackPosMap::iterator itTrackPos = Pos.begin();
while (itTrackPos != Pos.end())
{
WebMCueTrackPosEntry *pTrackPos = itTrackPos->second;
AssertPtr(pTrackPos);
delete pTrackPos;
Pos.erase(itTrackPos);
itTrackPos = Pos.begin();
}
Assert(Pos.empty());
}
/** Map containing all track positions for this specific cue point. */
WebMCueTrackPosMap Pos;
/** Absolute time code according to the segment time base. */
WebMTimecodeAbs tcAbs;
};
/** List of cue points. */
typedef std::list<WebMCuePoint *> WebMCuePointList;
/**
* Structure for keeping a WebM cluster entry.
*/
struct WebMCluster
{
WebMCluster(void)
: uID(0)
, offStart(0)
, fOpen(false)
, tcAbsStartMs(0)
, cBlocks(0) { }
/** This cluster's ID. */
uint64_t uID;
/** Absolute offset (in bytes) of this cluster.
* Needed for seeking info table. */
uint64_t offStart;
/** Whether this cluster element is opened currently. */
bool fOpen;
/** Absolute timecode (in ms) when this cluster starts. */
WebMTimecodeAbs tcAbsStartMs;
/** Absolute timecode (in ms) of when last written to this cluster. */
WebMTimecodeAbs tcAbsLastWrittenMs;
/** Number of (simple) blocks in this cluster. */
uint64_t cBlocks;
};
/**
* Structure for keeping a WebM segment entry.
*
* Current we're only using one segment.
*/
struct WebMSegment
{
WebMSegment(void)
: m_tcAbsStartMs(0)
, m_tcAbsLastWrittenMs(0)
, m_offStart(0)
, m_offInfo(0)
, m_offSeekInfo(0)
, m_offTracks(0)
, m_offCues(0)
, m_cClusters(0)
{
m_uTimecodeScaleFactor = VBOX_WEBM_TIMECODESCALE_FACTOR_MS;
LogFunc(("Default timecode scale is: %RU64ns\n", m_uTimecodeScaleFactor));
}
virtual ~WebMSegment()
{
uninit();
}
/**
* Initializes a segment.
*
* @returns VBox status code.
*/
int init(void)
{
return RTCritSectInit(&m_CritSect);
}
/**
* Uninitializes a segment.
*/
void uninit(void)
{
clear();
RTCritSectDelete(&m_CritSect);
}
/**
* Clear the segment's data by removing (and freeing) all data.
*/
void clear(void)
{
WebMCuePointList::iterator itCuePoint = m_lstCuePoints.begin();
while (itCuePoint != m_lstCuePoints.end())
{
WebMCuePoint *pCuePoint = (*itCuePoint);
AssertPtr(pCuePoint);
delete pCuePoint;
m_lstCuePoints.erase(itCuePoint);
itCuePoint = m_lstCuePoints.begin();
}
Assert(m_lstCuePoints.empty());
}
/** Critical section for serializing access to this segment. */
RTCRITSECT m_CritSect;
/** The timecode scale factor of this segment. */
uint64_t m_uTimecodeScaleFactor;
/** Absolute timecode (in ms) when starting this segment. */
WebMTimecodeAbs m_tcAbsStartMs;
/** Absolute timecode (in ms) of last write. */
WebMTimecodeAbs m_tcAbsLastWrittenMs;
/** Absolute offset (in bytes) of CurSeg. */
uint64_t m_offStart;
/** Absolute offset (in bytes) of general info. */
uint64_t m_offInfo;
/** Absolute offset (in bytes) of seeking info. */
uint64_t m_offSeekInfo;
/** Absolute offset (in bytes) of tracks. */
uint64_t m_offTracks;
/** Absolute offset (in bytes) of cues table. */
uint64_t m_offCues;
/** List of cue points. Needed for seeking table. */
WebMCuePointList m_lstCuePoints;
/** Total number of clusters. */
uint64_t m_cClusters;
/** Map of tracks.
* The key marks the track number (*not* the UUID!). */
std::map <uint8_t, WebMTrack *> m_mapTracks;
/** Current cluster which is being handled.
*
* Note that we don't need (and shouldn't need, as this can be a *lot* of data!) a
* list of all clusters. */
WebMCluster m_CurCluster;
WebMQueue m_queueBlocks;
} m_CurSeg;
/** Audio codec to use. */
RecordingAudioCodec_T m_enmAudioCodec;
/** Video codec to use. */
RecordingVideoCodec_T m_enmVideoCodec;
/** Whether we're currently in the tracks section. */
bool m_fInTracksSection;
/** Size of timecodes (in bytes). */
size_t m_cbTimecode;
/** Maximum value a timecode can have. */
uint32_t m_uTimecodeMax;
#ifdef VBOX_WITH_LIBVPX
/**
* Block data for VP8-encoded video data.
*/
struct BlockData_VP8
{
const vpx_codec_enc_cfg_t *pCfg;
const vpx_codec_cx_pkt_t *pPkt;
};
#endif /* VBOX_WITH_LIBVPX */
/**
* Block data for encoded audio data.
*/
struct BlockData_Audio
{
/** Pointer to encoded audio data. */
const void *pvData;
/** Size (in bytes) of encoded audio data. */
size_t cbData;
/** PTS (in ms) of encoded audio data. */
uint64_t uPTSMs;
};
public:
WebMWriter();
virtual ~WebMWriter();
public:
int OpenEx(const char *a_pszFilename, PRTFILE a_phFile,
RecordingAudioCodec_T a_enmAudioCodec, RecordingVideoCodec_T a_enmVideoCodec);
int Open(const char *a_pszFilename, uint64_t a_fOpen,
RecordingAudioCodec_T a_enmAudioCodec, RecordingVideoCodec_T a_enmVideoCodec);
int Close(void);
int AddAudioTrack(PRECORDINGCODEC pCodec, uint16_t uHz, uint8_t cChannels, uint8_t cBits, uint8_t *puTrack);
int AddVideoTrack(PRECORDINGCODEC pCodec, uint16_t uWidth, uint16_t uHeight, uint32_t uFPS, uint8_t *puTrack);
int WriteBlock(uint8_t uTrack, const void *pvData, size_t cbData, WebMTimecodeAbs tcAbsPTSMs, WebMBlockFlags uFlags);
const com::Utf8Str& GetFileName(void);
uint64_t GetFileSize(void);
uint64_t GetAvailableSpace(void);
/**
* Returns the number of written WebM clusters.
*
* @returns Number of written WebM clusters; 0 when no clusters written (empty file).
*/
uint64_t GetClusters(void) const { return m_CurSeg.m_cClusters; }
protected:
int init(RecordingAudioCodec_T a_enmAudioCodec, RecordingVideoCodec_T a_enmVideoCodec);
void destroy(void);
int writeHeader(void);
void writeSeekHeader(void);
int writeFooter(void);
int writeSimpleBlockEBML(WebMTrack *a_pTrack, WebMSimpleBlock *a_pBlock);
int writeSimpleBlockQueued(WebMTrack *a_pTrack, WebMSimpleBlock *a_pBlock);
int processQueue(WebMQueue *pQueue, bool fForce);
protected:
typedef std::map <uint8_t, WebMTrack *> WebMTracks;
};
#endif /* !MAIN_INCLUDED_WebMWriter_h */
|