/* $Id: WebMWriter.cpp 76760 2019-01-10 18:07:47Z vboxsync $ */ /** @file * WebMWriter.cpp - WebM container handling. */ /* * Copyright (C) 2013-2019 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /** * For more information, see: * - https://w3c.github.io/media-source/webm-byte-stream-format.html * - https://www.webmproject.org/docs/container/#muxer-guidelines */ #define LOG_GROUP LOG_GROUP_MAIN_DISPLAY #include "LoggingNew.h" #include #include #include #include #include #include #include #include "WebMWriter.h" #include "EBML_MKV.h" WebMWriter::WebMWriter(void) { /* Size (in bytes) of time code to write. We use 2 bytes (16 bit) by default. */ m_cbTimecode = 2; m_uTimecodeMax = UINT16_MAX; m_fInTracksSection = false; } WebMWriter::~WebMWriter(void) { Close(); } /** * Opens (creates) an output file using an already open file handle. * * @returns VBox status code. * @param a_pszFilename Name of the file the file handle points at. * @param a_phFile Pointer to open file handle to use. * @param a_enmAudioCodec Audio codec to use. * @param a_enmVideoCodec Video codec to use. */ int WebMWriter::OpenEx(const char *a_pszFilename, PRTFILE a_phFile, WebMWriter::AudioCodec a_enmAudioCodec, WebMWriter::VideoCodec a_enmVideoCodec) { try { m_enmAudioCodec = a_enmAudioCodec; m_enmVideoCodec = a_enmVideoCodec; LogFunc(("Creating '%s'\n", a_pszFilename)); int rc = createEx(a_pszFilename, a_phFile); if (RT_SUCCESS(rc)) { rc = init(); if (RT_SUCCESS(rc)) rc = writeHeader(); } } catch(int rc) { return rc; } return VINF_SUCCESS; } /** * Opens an output file. * * @returns VBox status code. * @param a_pszFilename Name of the file to create. * @param a_fOpen File open mode of type RTFILE_O_. * @param a_enmAudioCodec Audio codec to use. * @param a_enmVideoCodec Video codec to use. */ int WebMWriter::Open(const char *a_pszFilename, uint64_t a_fOpen, WebMWriter::AudioCodec a_enmAudioCodec, WebMWriter::VideoCodec a_enmVideoCodec) { try { m_enmAudioCodec = a_enmAudioCodec; m_enmVideoCodec = a_enmVideoCodec; LogFunc(("Creating '%s'\n", a_pszFilename)); int rc = create(a_pszFilename, a_fOpen); if (RT_SUCCESS(rc)) { rc = init(); if (RT_SUCCESS(rc)) rc = writeHeader(); } } catch(int rc) { return rc; } return VINF_SUCCESS; } /** * Closes the WebM file and drains all queues. * * @returns IPRT status code. */ int WebMWriter::Close(void) { LogFlowFuncEnter(); if (!isOpen()) return VINF_SUCCESS; /* Make sure to drain all queues. */ processQueue(&CurSeg.queueBlocks, true /* fForce */); writeFooter(); WebMTracks::iterator itTrack = CurSeg.mapTracks.begin(); while (itTrack != CurSeg.mapTracks.end()) { WebMTrack *pTrack = itTrack->second; if (pTrack) /* Paranoia. */ delete pTrack; CurSeg.mapTracks.erase(itTrack); itTrack = CurSeg.mapTracks.begin(); } Assert(CurSeg.queueBlocks.Map.size() == 0); Assert(CurSeg.mapTracks.size() == 0); com::Utf8Str strFileName = getFileName().c_str(); close(); int rc = VINF_SUCCESS; /* If no clusters (= data) was written, delete the file again. */ if (!CurSeg.cClusters) rc = RTFileDelete(strFileName.c_str()); LogFlowFuncLeaveRC(rc); return rc; } /** * Adds an audio track. * * @returns IPRT status code. * @param uHz Input sampling rate. * Must be supported by the selected audio codec. * @param cChannels Number of input audio channels. * @param cBits Number of input bits per channel. * @param puTrack Track number on successful creation. Optional. */ int WebMWriter::AddAudioTrack(uint16_t uHz, uint8_t cChannels, uint8_t cBits, uint8_t *puTrack) { #ifdef VBOX_WITH_LIBOPUS AssertReturn(uHz, VERR_INVALID_PARAMETER); AssertReturn(cBits, VERR_INVALID_PARAMETER); AssertReturn(cChannels, VERR_INVALID_PARAMETER); /* * Adjust the handed-in Hz rate to values which are supported by the Opus codec. * * Only the following values are supported by an Opus standard build * -- every other rate only is supported by a custom build. * * See opus_encoder_create() for more information. */ if (uHz > 24000) uHz = 48000; else if (uHz > 16000) uHz = 24000; else if (uHz > 12000) uHz = 16000; else if (uHz > 8000 ) uHz = 12000; else uHz = 8000; /* Some players (e.g. Firefox with Nestegg) rely on track numbers starting at 1. * Using a track number 0 will show those files as being corrupted. */ const uint8_t uTrack = (uint8_t)CurSeg.mapTracks.size() + 1; subStart(MkvElem_TrackEntry); serializeUnsignedInteger(MkvElem_TrackNumber, (uint8_t)uTrack); serializeString (MkvElem_Language, "und" /* "Undefined"; see ISO-639-2. */); serializeUnsignedInteger(MkvElem_FlagLacing, (uint8_t)0); WebMTrack *pTrack = new WebMTrack(WebMTrackType_Audio, uTrack, RTFileTell(getFile())); pTrack->Audio.uHz = uHz; pTrack->Audio.msPerBlock = 20; /** Opus uses 20ms by default. Make this configurable? */ pTrack->Audio.framesPerBlock = uHz / (1000 /* s in ms */ / pTrack->Audio.msPerBlock); WEBMOPUSPRIVDATA opusPrivData(uHz, cChannels); LogFunc(("Opus @ %RU16Hz (%RU16ms + %RU16 frames per block)\n", pTrack->Audio.uHz, pTrack->Audio.msPerBlock, pTrack->Audio.framesPerBlock)); serializeUnsignedInteger(MkvElem_TrackUID, pTrack->uUUID, 4) .serializeUnsignedInteger(MkvElem_TrackType, 2 /* Audio */) .serializeString(MkvElem_CodecID, "A_OPUS") .serializeData(MkvElem_CodecPrivate, &opusPrivData, sizeof(opusPrivData)) .serializeUnsignedInteger(MkvElem_CodecDelay, 0) .serializeUnsignedInteger(MkvElem_SeekPreRoll, 80 * 1000000) /* 80ms in ns. */ .subStart(MkvElem_Audio) .serializeFloat(MkvElem_SamplingFrequency, (float)uHz) .serializeUnsignedInteger(MkvElem_Channels, cChannels) .serializeUnsignedInteger(MkvElem_BitDepth, cBits) .subEnd(MkvElem_Audio) .subEnd(MkvElem_TrackEntry); CurSeg.mapTracks[uTrack] = pTrack; if (puTrack) *puTrack = uTrack; return VINF_SUCCESS; #else RT_NOREF(uHz, cChannels, cBits, puTrack); return VERR_NOT_SUPPORTED; #endif } /** * Adds a video track. * * @returns IPRT status code. * @param uWidth Width (in pixels) of the video track. * @param uHeight Height (in pixels) of the video track. * @param uFPS FPS (Frames Per Second) of the video track. * @param puTrack Track number of the added video track on success. Optional. */ int WebMWriter::AddVideoTrack(uint16_t uWidth, uint16_t uHeight, uint32_t uFPS, uint8_t *puTrack) { #ifdef VBOX_WITH_LIBVPX /* Some players (e.g. Firefox with Nestegg) rely on track numbers starting at 1. * Using a track number 0 will show those files as being corrupted. */ const uint8_t uTrack = (uint8_t)CurSeg.mapTracks.size() + 1; subStart(MkvElem_TrackEntry); serializeUnsignedInteger(MkvElem_TrackNumber, (uint8_t)uTrack); serializeString (MkvElem_Language, "und" /* "Undefined"; see ISO-639-2. */); serializeUnsignedInteger(MkvElem_FlagLacing, (uint8_t)0); WebMTrack *pTrack = new WebMTrack(WebMTrackType_Video, uTrack, RTFileTell(getFile())); /** @todo Resolve codec type. */ serializeUnsignedInteger(MkvElem_TrackUID, pTrack->uUUID /* UID */, 4) .serializeUnsignedInteger(MkvElem_TrackType, 1 /* Video */) .serializeString(MkvElem_CodecID, "V_VP8") .subStart(MkvElem_Video) .serializeUnsignedInteger(MkvElem_PixelWidth, uWidth) .serializeUnsignedInteger(MkvElem_PixelHeight, uHeight) /* Some players rely on the FPS rate for timing calculations. * So make sure to *always* include that. */ .serializeFloat (MkvElem_FrameRate, (float)uFPS) .subEnd(MkvElem_Video); subEnd(MkvElem_TrackEntry); CurSeg.mapTracks[uTrack] = pTrack; if (puTrack) *puTrack = uTrack; return VINF_SUCCESS; #else RT_NOREF(uWidth, uHeight, dbFPS, puTrack); return VERR_NOT_SUPPORTED; #endif } /** * Gets file name. * * @returns File name as UTF-8 string. */ const com::Utf8Str& WebMWriter::GetFileName(void) { return getFileName(); } /** * Gets current output file size. * * @returns File size in bytes. */ uint64_t WebMWriter::GetFileSize(void) { return getFileSize(); } /** * Gets current free storage space available for the file. * * @returns Available storage free space. */ uint64_t WebMWriter::GetAvailableSpace(void) { return getAvailableSpace(); } /** * Takes care of the initialization of the instance. * * @returns IPRT status code. */ int WebMWriter::init(void) { return CurSeg.init(); } /** * Takes care of the destruction of the instance. */ void WebMWriter::destroy(void) { CurSeg.uninit(); } /** * Writes the WebM file header. * * @returns IPRT status code. */ int WebMWriter::writeHeader(void) { LogFunc(("Header @ %RU64\n", RTFileTell(getFile()))); subStart(MkvElem_EBML) .serializeUnsignedInteger(MkvElem_EBMLVersion, 1) .serializeUnsignedInteger(MkvElem_EBMLReadVersion, 1) .serializeUnsignedInteger(MkvElem_EBMLMaxIDLength, 4) .serializeUnsignedInteger(MkvElem_EBMLMaxSizeLength, 8) .serializeString(MkvElem_DocType, "webm") .serializeUnsignedInteger(MkvElem_DocTypeVersion, 2) .serializeUnsignedInteger(MkvElem_DocTypeReadVersion, 2) .subEnd(MkvElem_EBML); subStart(MkvElem_Segment); /* Save offset of current segment. */ CurSeg.offStart = RTFileTell(getFile()); writeSeekHeader(); /* Save offset of upcoming tracks segment. */ CurSeg.offTracks = RTFileTell(getFile()); /* The tracks segment starts right after this header. */ subStart(MkvElem_Tracks); m_fInTracksSection = true; return VINF_SUCCESS; } /** * Writes a simple block into the EBML structure. * * @returns IPRT status code. * @param a_pTrack Track the simple block is assigned to. * @param a_pBlock Simple block to write. */ int WebMWriter::writeSimpleBlockEBML(WebMTrack *a_pTrack, WebMSimpleBlock *a_pBlock) { #ifdef LOG_ENABLED WebMCluster &Cluster = CurSeg.CurCluster; Log3Func(("[T%RU8C%RU64] Off=%RU64, AbsPTSMs=%RU64, RelToClusterMs=%RU16, %zu bytes\n", a_pTrack->uTrack, Cluster.uID, RTFileTell(getFile()), a_pBlock->Data.tcAbsPTSMs, a_pBlock->Data.tcRelToClusterMs, a_pBlock->Data.cb)); #endif /* * Write a "Simple Block". */ writeClassId(MkvElem_SimpleBlock); /* Block size. */ writeUnsignedInteger(0x10000000u | ( 1 /* Track number size. */ + m_cbTimecode /* Timecode size .*/ + 1 /* Flags size. */ + a_pBlock->Data.cb /* Actual frame data size. */), 4); /* Track number. */ writeSize(a_pTrack->uTrack); /* Timecode (relative to cluster opening timecode). */ writeUnsignedInteger(a_pBlock->Data.tcRelToClusterMs, m_cbTimecode); /* Flags. */ writeUnsignedInteger(a_pBlock->Data.fFlags, 1); /* Frame data. */ write(a_pBlock->Data.pv, a_pBlock->Data.cb); return VINF_SUCCESS; } /** * Writes a simple block and enqueues it into the segment's render queue. * * @returns IPRT status code. * @param a_pTrack Track the simple block is assigned to. * @param a_pBlock Simple block to write and enqueue. */ int WebMWriter::writeSimpleBlockQueued(WebMTrack *a_pTrack, WebMSimpleBlock *a_pBlock) { RT_NOREF(a_pTrack); int rc = VINF_SUCCESS; try { const WebMTimecodeAbs tcAbsPTS = a_pBlock->Data.tcAbsPTSMs; /* See if we already have an entry for the specified timecode in our queue. */ WebMBlockMap::iterator itQueue = CurSeg.queueBlocks.Map.find(tcAbsPTS); if (itQueue != CurSeg.queueBlocks.Map.end()) /* Use existing queue. */ { WebMTimecodeBlocks &Blocks = itQueue->second; Blocks.Enqueue(a_pBlock); } else /* Create a new timecode entry. */ { WebMTimecodeBlocks Blocks; Blocks.Enqueue(a_pBlock); CurSeg.queueBlocks.Map[tcAbsPTS] = Blocks; } rc = processQueue(&CurSeg.queueBlocks, false /* fForce */); } catch(...) { delete a_pBlock; a_pBlock = NULL; rc = VERR_NO_MEMORY; } return rc; } #ifdef VBOX_WITH_LIBVPX /** * Writes VPX (VP8 video) simple data block. * * @returns IPRT status code. * @param a_pTrack Track ID to write data to. * @param a_pCfg VPX encoder configuration to use. * @param a_pPkt VPX packet video data packet to write. */ int WebMWriter::writeSimpleBlockVP8(WebMTrack *a_pTrack, const vpx_codec_enc_cfg_t *a_pCfg, const vpx_codec_cx_pkt_t *a_pPkt) { RT_NOREF(a_pTrack); /* Calculate the absolute PTS of this frame (in ms). */ WebMTimecodeAbs tcAbsPTSMs = a_pPkt->data.frame.pts * 1000 * (uint64_t) a_pCfg->g_timebase.num / a_pCfg->g_timebase.den; if ( tcAbsPTSMs && tcAbsPTSMs <= a_pTrack->tcAbsLastWrittenMs) { AssertFailed(); /* Should never happen. */ tcAbsPTSMs = a_pTrack->tcAbsLastWrittenMs + 1; } const bool fKeyframe = RT_BOOL(a_pPkt->data.frame.flags & VPX_FRAME_IS_KEY); uint8_t fFlags = VBOX_WEBM_BLOCK_FLAG_NONE; if (fKeyframe) fFlags |= VBOX_WEBM_BLOCK_FLAG_KEY_FRAME; if (a_pPkt->data.frame.flags & VPX_FRAME_IS_INVISIBLE) fFlags |= VBOX_WEBM_BLOCK_FLAG_INVISIBLE; return writeSimpleBlockQueued(a_pTrack, new WebMSimpleBlock(a_pTrack, tcAbsPTSMs, a_pPkt->data.frame.buf, a_pPkt->data.frame.sz, fFlags)); } #endif /* VBOX_WITH_LIBVPX */ #ifdef VBOX_WITH_LIBOPUS /** * Writes an Opus (audio) simple data block. * * @returns IPRT status code. * @param a_pTrack Track ID to write data to. * @param pvData Pointer to simple data block to write. * @param cbData Size (in bytes) of simple data block to write. * @param tcAbsPTSMs Absolute PTS of simple data block. * * @remarks Audio blocks that have same absolute timecode as video blocks SHOULD be written before the video blocks. */ int WebMWriter::writeSimpleBlockOpus(WebMTrack *a_pTrack, const void *pvData, size_t cbData, WebMTimecodeAbs tcAbsPTSMs) { AssertPtrReturn(a_pTrack, VERR_INVALID_POINTER); AssertPtrReturn(pvData, VERR_INVALID_POINTER); AssertReturn(cbData, VERR_INVALID_PARAMETER); /* Every Opus frame is a key frame. */ const uint8_t fFlags = VBOX_WEBM_BLOCK_FLAG_KEY_FRAME; return writeSimpleBlockQueued(a_pTrack, new WebMSimpleBlock(a_pTrack, tcAbsPTSMs, pvData, cbData, fFlags)); } #endif /* VBOX_WITH_LIBOPUS */ /** * Writes a data block to the specified track. * * @returns IPRT status code. * @param uTrack Track ID to write data to. * @param pvData Pointer to data block to write. * @param cbData Size (in bytes) of data block to write. */ int WebMWriter::WriteBlock(uint8_t uTrack, const void *pvData, size_t cbData) { RT_NOREF(cbData); /* Only needed for assertions for now. */ int rc = RTCritSectEnter(&CurSeg.CritSect); AssertRC(rc); WebMTracks::iterator itTrack = CurSeg.mapTracks.find(uTrack); if (itTrack == CurSeg.mapTracks.end()) { RTCritSectLeave(&CurSeg.CritSect); return VERR_NOT_FOUND; } WebMTrack *pTrack = itTrack->second; AssertPtr(pTrack); if (m_fInTracksSection) { subEnd(MkvElem_Tracks); m_fInTracksSection = false; } switch (pTrack->enmType) { case WebMTrackType_Audio: { #ifdef VBOX_WITH_LIBOPUS if (m_enmAudioCodec == WebMWriter::AudioCodec_Opus) { Assert(cbData == sizeof(WebMWriter::BlockData_Opus)); WebMWriter::BlockData_Opus *pData = (WebMWriter::BlockData_Opus *)pvData; rc = writeSimpleBlockOpus(pTrack, pData->pvData, pData->cbData, pData->uPTSMs); } else #endif /* VBOX_WITH_LIBOPUS */ rc = VERR_NOT_SUPPORTED; break; } case WebMTrackType_Video: { #ifdef VBOX_WITH_LIBVPX if (m_enmVideoCodec == WebMWriter::VideoCodec_VP8) { Assert(cbData == sizeof(WebMWriter::BlockData_VP8)); WebMWriter::BlockData_VP8 *pData = (WebMWriter::BlockData_VP8 *)pvData; rc = writeSimpleBlockVP8(pTrack, pData->pCfg, pData->pPkt); } else #endif /* VBOX_WITH_LIBVPX */ rc = VERR_NOT_SUPPORTED; break; } default: rc = VERR_NOT_SUPPORTED; break; } int rc2 = RTCritSectLeave(&CurSeg.CritSect); AssertRC(rc2); return rc; } /** * Processes a render queue. * * @returns IPRT status code. * @param pQueue Queue to process. * @param fForce Whether forcing to process the render queue or not. * Needed to drain the queues when terminating. */ int WebMWriter::processQueue(WebMQueue *pQueue, bool fForce) { if (pQueue->tsLastProcessedMs == 0) pQueue->tsLastProcessedMs = RTTimeMilliTS(); if (!fForce) { /* Only process when we reached a certain threshold. */ if (RTTimeMilliTS() - pQueue->tsLastProcessedMs < 5000 /* ms */ /** @todo Make this configurable */) return VINF_SUCCESS; } WebMCluster &Cluster = CurSeg.CurCluster; /* Iterate through the block map. */ WebMBlockMap::iterator it = pQueue->Map.begin(); while (it != CurSeg.queueBlocks.Map.end()) { WebMTimecodeAbs mapAbsPTSMs = it->first; WebMTimecodeBlocks mapBlocks = it->second; /* Whether to start a new cluster or not. */ bool fClusterStart = false; /* If the current segment does not have any clusters (yet), * take the first absolute PTS as the starting point for that segment. */ if (CurSeg.cClusters == 0) { CurSeg.tcAbsStartMs = mapAbsPTSMs; fClusterStart = true; } /* Determine if we need to start a new cluster. */ /* No blocks written yet? Start a new cluster. */ if ( Cluster.cBlocks == 0 /* Did we reach the maximum a cluster can hold? Use a new cluster then. */ || mapAbsPTSMs - Cluster.tcAbsStartMs > VBOX_WEBM_CLUSTER_MAX_LEN_MS /* If the block map indicates that a cluster is needed for this timecode, create one. */ || mapBlocks.fClusterNeeded) { fClusterStart = true; } if ( fClusterStart && !mapBlocks.fClusterStarted) { /* Last written timecode of the current cluster. */ uint64_t tcAbsClusterLastWrittenMs; if (Cluster.fOpen) /* Close current cluster first. */ { Log2Func(("[C%RU64] End @ %RU64ms (duration = %RU64ms)\n", Cluster.uID, Cluster.tcAbsLastWrittenMs, Cluster.tcAbsLastWrittenMs - Cluster.tcAbsStartMs)); /* Make sure that the current cluster contained some data. */ Assert(Cluster.offStart); Assert(Cluster.cBlocks); /* Save the last written timecode of the current cluster before closing it. */ tcAbsClusterLastWrittenMs = Cluster.tcAbsLastWrittenMs; subEnd(MkvElem_Cluster); Cluster.fOpen = false; } else /* First cluster ever? Use the segment's starting timecode. */ tcAbsClusterLastWrittenMs = CurSeg.tcAbsStartMs; Cluster.fOpen = true; Cluster.uID = CurSeg.cClusters; /* Use the block map's currently processed TC as the cluster's starting TC. */ Cluster.tcAbsStartMs = mapAbsPTSMs; Cluster.tcAbsLastWrittenMs = Cluster.tcAbsStartMs; Cluster.offStart = RTFileTell(getFile()); Cluster.cBlocks = 0; AssertMsg(Cluster.tcAbsStartMs <= mapAbsPTSMs, ("Cluster #%RU64 start TC (%RU64) must not bigger than the block map's currently processed TC (%RU64)\n", Cluster.uID, Cluster.tcAbsStartMs, mapAbsPTSMs)); Log2Func(("[C%RU64] Start @ %RU64ms (map TC is %RU64) / %RU64 bytes\n", Cluster.uID, Cluster.tcAbsStartMs, mapAbsPTSMs, Cluster.offStart)); /* Insert cue points for all tracks if a new cluster has been started. */ WebMCuePoint *pCuePoint = new WebMCuePoint(Cluster.tcAbsStartMs); WebMTracks::iterator itTrack = CurSeg.mapTracks.begin(); while (itTrack != CurSeg.mapTracks.end()) { pCuePoint->Pos[itTrack->first] = new WebMCueTrackPosEntry(Cluster.offStart); ++itTrack; } CurSeg.lstCuePoints.push_back(pCuePoint); subStart(MkvElem_Cluster) .serializeUnsignedInteger(MkvElem_Timecode, Cluster.tcAbsStartMs - CurSeg.tcAbsStartMs); CurSeg.cClusters++; mapBlocks.fClusterStarted = true; } Log2Func(("[C%RU64] SegTcAbsStartMs=%RU64, ClusterTcAbsStartMs=%RU64, ClusterTcAbsLastWrittenMs=%RU64, mapAbsPTSMs=%RU64\n", Cluster.uID, CurSeg.tcAbsStartMs, Cluster.tcAbsStartMs, Cluster.tcAbsLastWrittenMs, mapAbsPTSMs)); /* Iterate through all blocks related to the current timecode. */ while (!mapBlocks.Queue.empty()) { WebMSimpleBlock *pBlock = mapBlocks.Queue.front(); AssertPtr(pBlock); WebMTrack *pTrack = pBlock->pTrack; AssertPtr(pTrack); /* Calculate the block's relative time code to the current cluster's starting time code. */ Assert(pBlock->Data.tcAbsPTSMs >= Cluster.tcAbsStartMs); pBlock->Data.tcRelToClusterMs = pBlock->Data.tcAbsPTSMs - Cluster.tcAbsStartMs; int rc2 = writeSimpleBlockEBML(pTrack, pBlock); AssertRC(rc2); Cluster.cBlocks++; Cluster.tcAbsLastWrittenMs = pBlock->Data.tcAbsPTSMs; pTrack->cTotalBlocks++; pTrack->tcAbsLastWrittenMs = Cluster.tcAbsLastWrittenMs; if (CurSeg.tcAbsLastWrittenMs < pTrack->tcAbsLastWrittenMs) CurSeg.tcAbsLastWrittenMs = pTrack->tcAbsLastWrittenMs; /* Save a cue point if this is a keyframe (if no new cluster has been started, * as this implies that a cue point already is present. */ if ( !fClusterStart && (pBlock->Data.fFlags & VBOX_WEBM_BLOCK_FLAG_KEY_FRAME)) { /* Insert cue points for all tracks if a new cluster has been started. */ WebMCuePoint *pCuePoint = new WebMCuePoint(Cluster.tcAbsLastWrittenMs); WebMTracks::iterator itTrack = CurSeg.mapTracks.begin(); while (itTrack != CurSeg.mapTracks.end()) { pCuePoint->Pos[itTrack->first] = new WebMCueTrackPosEntry(Cluster.offStart); ++itTrack; } CurSeg.lstCuePoints.push_back(pCuePoint); } delete pBlock; pBlock = NULL; mapBlocks.Queue.pop(); } Assert(mapBlocks.Queue.empty()); CurSeg.queueBlocks.Map.erase(it); it = CurSeg.queueBlocks.Map.begin(); } Assert(CurSeg.queueBlocks.Map.empty()); pQueue->tsLastProcessedMs = RTTimeMilliTS(); return VINF_SUCCESS; } /** * Writes the WebM footer. * * @returns IPRT status code. */ int WebMWriter::writeFooter(void) { AssertReturn(isOpen(), VERR_WRONG_ORDER); if (m_fInTracksSection) { subEnd(MkvElem_Tracks); m_fInTracksSection = false; } if (CurSeg.CurCluster.fOpen) { subEnd(MkvElem_Cluster); CurSeg.CurCluster.fOpen = false; } /* * Write Cues element. */ CurSeg.offCues = RTFileTell(getFile()); LogFunc(("Cues @ %RU64\n", CurSeg.offCues)); subStart(MkvElem_Cues); WebMCuePointList::iterator itCuePoint = CurSeg.lstCuePoints.begin(); while (itCuePoint != CurSeg.lstCuePoints.end()) { WebMCuePoint *pCuePoint = (*itCuePoint); AssertPtr(pCuePoint); LogFunc(("CuePoint @ %RU64: %zu tracks, tcAbs=%RU64)\n", RTFileTell(getFile()), pCuePoint->Pos.size(), pCuePoint->tcAbs)); subStart(MkvElem_CuePoint) .serializeUnsignedInteger(MkvElem_CueTime, pCuePoint->tcAbs); WebMCueTrackPosMap::iterator itTrackPos = pCuePoint->Pos.begin(); while (itTrackPos != pCuePoint->Pos.end()) { WebMCueTrackPosEntry *pTrackPos = itTrackPos->second; AssertPtr(pTrackPos); LogFunc(("TrackPos (track #%RU32) @ %RU64, offCluster=%RU64)\n", itTrackPos->first, RTFileTell(getFile()), pTrackPos->offCluster)); subStart(MkvElem_CueTrackPositions) .serializeUnsignedInteger(MkvElem_CueTrack, itTrackPos->first) .serializeUnsignedInteger(MkvElem_CueClusterPosition, pTrackPos->offCluster - CurSeg.offStart, 8) .subEnd(MkvElem_CueTrackPositions); ++itTrackPos; } subEnd(MkvElem_CuePoint); ++itCuePoint; } subEnd(MkvElem_Cues); subEnd(MkvElem_Segment); /* * Re-Update seek header with final information. */ writeSeekHeader(); return RTFileSeek(getFile(), 0, RTFILE_SEEK_END, NULL); } /** * Writes the segment's seek header. */ void WebMWriter::writeSeekHeader(void) { if (CurSeg.offSeekInfo) RTFileSeek(getFile(), CurSeg.offSeekInfo, RTFILE_SEEK_BEGIN, NULL); else CurSeg.offSeekInfo = RTFileTell(getFile()); LogFunc(("Seek Header @ %RU64\n", CurSeg.offSeekInfo)); subStart(MkvElem_SeekHead); subStart(MkvElem_Seek) .serializeUnsignedInteger(MkvElem_SeekID, MkvElem_Tracks) .serializeUnsignedInteger(MkvElem_SeekPosition, CurSeg.offTracks - CurSeg.offStart, 8) .subEnd(MkvElem_Seek); if (CurSeg.offCues) LogFunc(("Updating Cues @ %RU64\n", CurSeg.offCues)); subStart(MkvElem_Seek) .serializeUnsignedInteger(MkvElem_SeekID, MkvElem_Cues) .serializeUnsignedInteger(MkvElem_SeekPosition, CurSeg.offCues - CurSeg.offStart, 8) .subEnd(MkvElem_Seek); subStart(MkvElem_Seek) .serializeUnsignedInteger(MkvElem_SeekID, MkvElem_Info) .serializeUnsignedInteger(MkvElem_SeekPosition, CurSeg.offInfo - CurSeg.offStart, 8) .subEnd(MkvElem_Seek); subEnd(MkvElem_SeekHead); /* * Write the segment's info element. */ /* Save offset of the segment's info element. */ CurSeg.offInfo = RTFileTell(getFile()); LogFunc(("Info @ %RU64\n", CurSeg.offInfo)); char szMux[64]; RTStrPrintf(szMux, sizeof(szMux), #ifdef VBOX_WITH_LIBVPX "vpxenc%s", vpx_codec_version_str()); #else "unknown"); #endif char szApp[64]; RTStrPrintf(szApp, sizeof(szApp), VBOX_PRODUCT " %sr%u", VBOX_VERSION_STRING, RTBldCfgRevision()); const WebMTimecodeAbs tcAbsDurationMs = CurSeg.tcAbsLastWrittenMs - CurSeg.tcAbsStartMs; if (!CurSeg.lstCuePoints.empty()) { LogFunc(("tcAbsDurationMs=%RU64\n", tcAbsDurationMs)); AssertMsg(tcAbsDurationMs, ("Segment seems to be empty (duration is 0)\n")); } subStart(MkvElem_Info) .serializeUnsignedInteger(MkvElem_TimecodeScale, CurSeg.uTimecodeScaleFactor) .serializeFloat(MkvElem_Segment_Duration, tcAbsDurationMs) .serializeString(MkvElem_MuxingApp, szMux) .serializeString(MkvElem_WritingApp, szApp) .subEnd(MkvElem_Info); }