/* Copyright (c) MediaArea.net SARL. All Rights Reserved. * * Use of this source code is governed by a BSD-style license that can * be found in the License.html file in the root of the source tree. */ //--------------------------------------------------------------------------- // // Examples: // http://samples.mplayerhq.hu/FLV/ // // Reverse engineering // http://osflash.org/documentation/amf/astypes // //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- // Pre-compilation #include "MediaInfo/PreComp.h" #ifdef __BORLANDC__ #pragma hdrstop #endif //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- #include "MediaInfo/Setup.h" //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- #if defined(MEDIAINFO_FLV_YES) //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- #include "MediaInfo/Multiple/File_Flv.h" #if defined(MEDIAINFO_AVC_YES) #include "MediaInfo/Video/File_Avc.h" #endif #if defined(MEDIAINFO_HEVC_YES) #include "MediaInfo/Video/File_Hevc.h" #endif #if defined(MEDIAINFO_AAC_YES) #include "MediaInfo/Audio/File_Aac.h" #endif #if defined(MEDIAINFO_MPEGA_YES) #include "MediaInfo/Audio/File_Mpega.h" #endif #if defined(MEDIAINFO_RM_YES) #include "MediaInfo/Multiple/File_Rm.h" #endif #include "MediaInfo/MediaInfo_Config_MediaInfo.h" #if MEDIAINFO_EVENTS #include "MediaInfo/MediaInfo_Events.h" #endif //MEDIAINFO_EVENTS #include #if MEDIAINFO_DEMUX #include "ThirdParty/base64/base64.h" #endif //MEDIAINFO_DEMUX //--------------------------------------------------------------------------- namespace MediaInfoLib { //--------------------------------------------------------------------------- static const int16u Flv_Channels[]= { 1, 2, }; static const int16u Flv_Resolution[]= { 8, 16, }; static const int16u Flv_SamplingRate[]= { 5500, 11025, 22050, 44100, 8000, //Special case for Nellymoser 8kHz mono }; static const char* Flv_Format_Audio[16]= { "PCM", "ADPCM", "MPEG Audio", "PCM", "Nellymoser", //16 KHz "Nellymoser", //8 KHz "Nellymoser", "ADPCM", "ADPCM", "", "AAC", "Speex", "", "", "MPEG Audio", //8 KHz "", }; static const char* Flv_Format_Profile_Audio[16]= { "", "", "Layer 3", "", "", "", "", "A-law", "U-law", "", "", "", "", "", "Layer 3", //8 KHz "", }; static const char* Flv_Codec_Audio[16]= { "Uncompressed", "ADPCM", "MPEG-1 Audio Layer 3", "", "Nellymoser 16kHz mono", "Nellymoser 8kHz mono", "Nellymoser", "ADPCM", "ADPCM", "", "AAC", "Speex", "", "", "MPEG Audio Layer 3", "", }; static const char* Flv_CodecID_Hint_Audio[16]= { "", "", "MP3", "", "", "", "", "", "", "", "", "", "", "", "MP3", //8 KHz "", }; static const char* Flv_Format_Video[16]= { "", "", "Sorenson Spark", "Screen video", "VP6", "VP6", "Screen video 2", "AVC", "", "", "", "", "HEVC", "", "", "", }; static const char* Flv_Format_Profile_Video[16]= { "", "", "", "", "", "Alpha channel", "", "", "", "", "", "", "", "", "", "", }; static const char* Flv_Codec_Video[16]= { "", "", "Sorenson H263", "Screen video", "On2 VP6", "On2 VP6 with alpha channel", "Screen video 2", "AVC", "", "", "", "", "HEVC", "", "", "", }; static const char* Flv_CodecID_Hint_Video[16]= { "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", }; static const char* Flv_H263_PictureSize[]= { "custom, 1 byte", "custom, 2 bytes", "CIF (352x288)", "QCIF (176x144)", "SQCIF (128x96)", "320x240", "160x120", "", }; static const int16u Flv_H263_WidthHeight[8][2]= { { 0, 0}, { 0, 0}, {352, 288}, {176, 144}, {128, 96}, {320, 240}, {160, 120}, {0, 0}, }; static const char* Flv_H263_PictureType[]= { "IntraFrame", "InterFrame", "InterFrame (Disposable)", "", }; static const char* Flv_VP6_FrameMode[]= { "IntraFrame", "", }; static const char* Flv_VP6_Marker[]= { "VP6.1/6.2", "VP6.0", }; static const char* Flv_VP6_Version[]= { "", "", "", "", "", "", "VP6.0/6.1", "VP6.0 (Electronic Arts)", "VP6.2", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", }; static const char* Flv_VP6_Version2[]= { "VP6.0", "", "", "VP6.1/6.2", }; enum flv_FrameType { Reserved0, KeyFrame, InterFrame, DisposableInterFrame, GeneratedKeyFrame, Command, }; static const char* Flv_FrameType[]= { "", "KeyFrame", "InterFrame", "InterFrame (Disposable)", "KeyFrame (Generated)", "Command", "", "", }; enum flv_PacketType { SequenceStart, CodedFrames, SequenceEnd, CodedFramesX, Metadata, MPEG2TSSequenceStart, Multitrack, }; static const char* Flv_PacketType[] = { "SequenceStart", "CodedFrames", "SequenceEnd", "CodedFramesX", "Metadata", "MPEG2TSSequenceStart", "Multitrack", "", "", "", "", "", "", "", "", "", }; enum flv_MultiTrackType { OneTrack, ManyTracks, ManyTracksManyCodecs, }; static const char* Flv_MultitrackType[] = { "OneTrack", "ManyTracks", "ManyTracksManyCodecs", "", "", "", "", "", "", "", "", "", "", "", "", "", }; static const char* Flv_TagType[]= { "DOUBLE", "UI8", "SCRIPTDATASTRING", "SCRIPTDATAOBJECT[n]", "SCRIPTDATASTRING defining the MovieClip path", "Null", "Undefined", "UI16", "SCRIPTDATAVARIABLE[ECMAArrayLength]", "EndOfObject", "SCRIPTDATAVARIABLE[n]", "SCRIPTDATADATE", "SCRIPTDATALONGSTRING", "Unsupported", "Recordset", "XML", "TypedObject", "AMF3 data", }; static const char* Flv_Amf3Type[]= { "Undefined", "Null", "Boolean-false", "Boolean-true", "Integer", "Number", "String", "XML", "Data", "Array", "Object", "XML String", "ByteArray", }; static const char* Flv_AVCPacketType(int8u Value) { switch (Value) { case 0 : return "AVC sequence header"; case 1 : return "NALU"; case 2 : return "end of sequence"; default: return ""; } } static const char* Flv_AACPacketType(int8u Value) { switch (Value) { case 0 : return "AAC sequence header"; case 1 : return "AAC Raw"; default: return ""; } } //*************************************************************************** // Constructor/Destructor //*************************************************************************** //--------------------------------------------------------------------------- File_Flv::File_Flv() :File__Analyze() { //File__Tags_Helper Base=this; //Configuration ParserName="FLV"; #if MEDIAINFO_EVENTS ParserIDs[0]=MediaInfo_Parser_Flv; StreamIDs_Width[0]=2; #endif //MEDIAINFO_EVENTS #if MEDIAINFO_DEMUX Demux_Level=2; //Container #endif //MEDIAINFO_DEMUX //Internal Stream.resize(3); //Null, Video, Audio //Temp Searching_Duration=false; MetaData_NotTrustable=false; PreviousTagSize=(int32u)-1; meta_filesize=(int64u)-1; meta_duration=0; } //*************************************************************************** // Streams management //*************************************************************************** //--------------------------------------------------------------------------- void File_Flv::Streams_Fill() { //Coherency if (Count_Get(Stream_Video) && Count_Get(Stream_Audio) && !Retrieve(Stream_Video, 0, Video_BitRate).empty() && Retrieve(Stream_Audio, 0, Audio_BitRate).empty()) { Fill(Stream_General, 0, General_OverallBitRate, Retrieve(Stream_Video, 0, Video_BitRate)); Clear(Stream_Video, 0, Video_BitRate); } //Trying to detect VFR std::vector video_stream_FrameRate_Between; for (size_t Pos=1; Posvideo_stream_FrameRate_Between[video_stream_FrameRate_Between.size()-1]) { float Time; if (video_stream_FrameRate.size()>30) Time=((float)(video_stream_FrameRate[30]-video_stream_FrameRate[0]))/30; //30 frames for handling 30 fps rounding problems else Time=((float)(video_stream_FrameRate[video_stream_FrameRate.size()-1]-video_stream_FrameRate[0]))/(video_stream_FrameRate.size()-1); //30 frames for handling 30 fps rounding problems if (Time) { Fill(Stream_Video, 0, Video_FrameRate, 1000/Time); Fill(Stream_Video, 0, Video_FrameRate_Mode, "CFR"); } } else Fill(Stream_Video, 0, Video_FrameRate_Mode, "VFR"); } //Parsers if (Stream[Stream_Video].Parser!=NULL) { Fill(Stream[Stream_Video].Parser); } if (Stream[Stream_Audio].Parser!=NULL) { Fill(Stream[Stream_Audio].Parser); //Special case: AAC if (Stream[Stream_Audio].Parser->Retrieve(Stream_Audio, 0, Audio_Format)==__T("AAC") || Stream[Stream_Audio].Parser->Retrieve(Stream_Audio, 0, Audio_Format)==__T("MPEG Audio") || Stream[Stream_Audio].Parser->Retrieve(Stream_Audio, 0, Audio_Format)==__T("Vorbis")) Clear(Stream_Audio, 0, Audio_BitDepth); //Resolution is not valid for AAC / MPEG Audio / Vorbis } //Delay if (Stream[Stream_Video].Delay!=(int32u)-1) { Fill(Stream_Video, 0, Video_Delay, Stream[Stream_Video].Delay+Retrieve(Stream_Video, 0, Video_Delay).To_int32u(), 10, true); Fill(Stream_Video, 0, Video_Delay_Source, "Container"); } if (Stream[Stream_Audio].Delay!=(int32u)-1) { Fill(Stream_Audio, 0, Audio_Delay, Stream[Stream_Audio].Delay+Retrieve(Stream_Audio, 0, Audio_Delay).To_int32u(), 10, true); Fill(Stream_Audio, 0, Audio_Delay_Source, "Container"); } } //--------------------------------------------------------------------------- void File_Flv::Streams_Finish() { if (File_Offset+Buffer_Offset!=File_Size) Read_Buffer_Unsynched(); //Duration //if (meta_duration) // Fill(Stream_General, 0, General_Duration, meta_duration, 10, true); Streams_Finish_PerStream(Stream_Video); Streams_Finish_PerStream(Stream_Audio); /* float64 FrameRate=Retrieve(Stream_Video, 0, Video_FrameRate).To_float64(); if (LastFrame_Time!=(int32u)-1 && FirstFrame_Time!=(int32u)-1) Duration_Final=LastFrame_Time-FirstFrame_Time+((LastFrame_Type==9 && FrameRate)?((int64u)(1000/FrameRate)):0); if (Duration_Final) { if (Count_Get(Stream_Video)) Fill(Stream_Video, 0, Video_Duration, Duration_Final, 10, true); if (Count_Get(Stream_Audio)) Fill(Stream_Audio, 0, Audio_Duration, Duration_Final, 10, true); //Integrity if (Count_Get(Stream_Video) && File_Size!=(int64u)-1 && !Retrieve(Stream_Video, 0, Video_BitRate).empty() && !Retrieve(Stream_Video, 0, Video_Duration).empty()) { int64u BitRate_Video_Meta=Retrieve(Stream_Video, 0, Video_BitRate).To_int64u(); int64u Duration=Retrieve(Stream_Video, 0, Video_Duration).To_int64u(); int64u BitRate_Video_Duration=File_Size*8*1000/Duration; if (Count_Get(Stream_Audio) && !Retrieve(Stream_Audio, 0, Audio_BitRate).empty()) { int64u BitRate_Audio=Retrieve(Stream_Audio, 0, Audio_BitRate).To_int64u(); if (BitRate_AudioBitRate_Video_Duration*2) Clear(Stream_Video, 0, Video_BitRate); } } */ if (Stream[Stream_Video].Parser!=NULL) { File__Analyze::Finish(Stream[Stream_Video].Parser); Merge(*Stream[Stream_Video].Parser, Stream_Video, 0, 0); } if (Stream[Stream_Audio].Parser!=NULL) { File__Analyze::Finish(Stream[Stream_Audio].Parser); Merge(*Stream[Stream_Audio].Parser, Stream_Audio, 0, 0); } if (Retrieve(Stream_General, 0, General_Duration).empty() && Retrieve(Stream_Video, 0, Video_Duration).empty() && meta_duration) Fill(Stream_General, 0, General_Duration, meta_duration, 0, true); //Purge what is not needed anymore if (!File_Name.empty()) //Only if this is not a buffer, with buffer we can have more data Stream.clear(); } //--------------------------------------------------------------------------- void File_Flv::Streams_Finish_PerStream(stream_t StreamKind) { if (Stream[StreamKind].TimeStamp!=(int32u)-1) { //Calculating the last timestamp (last block included) if (!Stream[StreamKind].Durations.empty()) { int64u Durations_Total=0; for (size_t Pos=0; PosBuffer_Size) return false; if (Buffer[Buffer_Offset+0]!=0x46 //"FLV" || Buffer[Buffer_Offset+1]!=0x4C || Buffer[Buffer_Offset+2]!=0x56) { File__Analyze::Reject(); return false; } if (Buffer_Offset+9>Buffer_Size) return false; return true; } //--------------------------------------------------------------------------- void File_Flv::FileHeader_Parse() { //Parsing Element_Begin1("FLV header"); int32u Size; int8u Version, Flags; Skip_String(3, "Signature"); Get_B1 (Version, "Version"); Get_B1 (Flags, "Flags"); Get_Flags (Flags, 0, video_stream_Count, "Video"); Get_Flags (Flags, 2, audio_stream_Count, "Audio"); Get_B4 (Size, "Size"); if (Size>9) Skip_XX(Size-9, "Unknown"); Element_End0(); FILLING_BEGIN(); //Integrity if (Version==0 || Size<9) { File__Analyze::Reject(); return; } //Filling File__Analyze::Accept(); Fill(Stream_General, 0, General_Format, "Flash Video"); if (!video_stream_Count && !audio_stream_Count) { //TODO: quick and awful hack for a file having both bools unset, should detect directly the streams video_stream_Count=true; audio_stream_Count=true; } if (video_stream_Count) { File__Analyze::Stream_Prepare(Stream_Video); #if MEDIAINFO_DEMUX if (Config->Demux_ForceIds_Get()) Fill(Stream_Video, 0, Video_ID, 9); #endif //MEDIAINFO_DEMUX video_stream_FrameRate_Detected=false; } else video_stream_FrameRate_Detected=true; if (audio_stream_Count) { File__Analyze::Stream_Prepare(Stream_Audio); #if MEDIAINFO_DEMUX if (Config->Demux_ForceIds_Get()) Fill(Stream_Audio, 0, Audio_ID, 8); #endif //MEDIAINFO_DEMUX } if (Version>1) { File__Analyze::Finish(); return; //Version more than 1 is not supported } FILLING_ELSE() File__Analyze::Reject(); FILLING_END(); } //*************************************************************************** // Buffer - Synchro //*************************************************************************** //--------------------------------------------------------------------------- bool File_Flv::Synchronize() { if (File_Offset+Buffer_Offset+4==File_Size) return true; // Used by seek from end //Synchronizing while (Buffer_Offset+15<=Buffer_Size) { int32u BodyLength=BigEndian2int24u(Buffer+Buffer_Offset+5); if ((Buffer[Buffer_Offset ] || Buffer[Buffer_Offset+1] || Buffer[Buffer_Offset+2] || Buffer[Buffer_Offset+3]>=11) && File_Offset+Buffer_Offset+15+BodyLength==File_Size) break; //Last block if (File_Offset+Buffer_Offset+15+BodyLengthBuffer_Size) return false; //Need more data if ((Buffer[Buffer_Offset ] || Buffer[Buffer_Offset+1] || Buffer[Buffer_Offset+2] || Buffer[Buffer_Offset+3]>=11) && (BigEndian2int32u(Buffer+Buffer_Offset+15+BodyLength)==11+BodyLength // PreviousTagSize || BigEndian2int32u(Buffer+Buffer_Offset+15+BodyLength)==BodyLength)) // PreviousTagSize without 11, found in some buggy files { PreviousTagSize_Add11=(BigEndian2int32u(Buffer+Buffer_Offset+15+BodyLength)==BodyLength)?0:11; break; } } Buffer_Offset++; } //Parsing last bytes if needed if (Buffer_Offset+15>Buffer_Size) return false; //Synched return true; } //--------------------------------------------------------------------------- bool File_Flv::Synched_Test() { if (File_Offset+Buffer_Offset+4==File_Size) return true; // Used by seek from end //Must have enough buffer for having header if (Buffer_Offset+15>Buffer_Size) return false; //Quick test of synchro if (Buffer[Buffer_Offset ]==0 && Buffer[Buffer_Offset+1]==0 && Buffer[Buffer_Offset+2]==0 && Buffer[Buffer_Offset+3]9) { if (Searching_Duration) { //Error during parsing, stopping File__Analyze::Finish(); Searching_Duration=false; File__Analyze::GoTo(File_Size); return true; } Synched=false; return true; } //We continue return true; } //*************************************************************************** // Buffer - Global //*************************************************************************** //--------------------------------------------------------------------------- void File_Flv::Read_Buffer_Unsynched() { if (!Searching_Duration) //If Searching_Duration, we are looking for end in inverse order, no timestamp reset { Stream[Stream_Video].TimeStamp=(int32u)-1; if (Stream[Stream_Video].Parser) Stream[Stream_Video].Parser->Open_Buffer_Unsynch(); Stream[Stream_Audio].TimeStamp=(int32u)-1; if (Stream[Stream_Audio].Parser) Stream[Stream_Audio].Parser->Open_Buffer_Unsynch(); } } //*************************************************************************** // Buffer - Per element //*************************************************************************** //--------------------------------------------------------------------------- void File_Flv::Header_Parse() { if (Searching_Duration && File_Offset+Buffer_Offset==File_Size-4) { Get_B4 (PreviousTagSize, "PreviousTagSize"); //Filling Header_Fill_Code((int64u)-1, "End Of File"); Header_Fill_Size(4); return; } //Parsing int32u BodyLength; int8u Type; Get_B4 (PreviousTagSize, "PreviousTagSize"); if (File_Offset+Buffer_Offset+4>12)&0x0F; if (Format==10 && (Format_Info&0xFF)==0) // AAC sequence header Skip_Timestamps=true; } //Filling if ((Type==0x08 && !Skip_Timestamps) || Type==0x09) { Time=(((int32u)Timestamp_Extended)<<24)|Timestamp_Base; stream_t StreamKind=(Type==0x08)?Stream_Audio:Stream_Video; if (Stream[StreamKind].Delay==(int32u)-1) Stream[StreamKind].Delay=Time; else if (Stream[StreamKind].TimeStamp!=(int32u)-1 && Time>Stream[StreamKind].TimeStamp) Stream[StreamKind].Durations.push_back(Time-Stream[StreamKind].TimeStamp); if (!Searching_Duration || Stream[StreamKind].TimeStamp==(int32u)-1) Stream[StreamKind].TimeStamp=Time; } if (Type==0) Trusted_IsNot("Wrong type"); } else { Type=0; BodyLength=0; } //Filling Header_Fill_Code(Type, Ztring().From_Number(Type, 16)); Header_Fill_Size(Element_Offset+BodyLength); } //--------------------------------------------------------------------------- void File_Flv::Data_Parse() { switch (Element_Code) { case 0x00 : Element_Name("End Of File"); break; case 0x08 : audio(); break; case 0x09 : video(); break; case 0x12 : meta(); break; case 0xFA : Rm(); break; case (int64u)-1 : //When searching the last frame if (8+PreviousTagSize>File_Size) { Searching_Duration=false; Open_Buffer_Unsynch(); //There is a problem, trying to sync PreviousTagSize=1024*1024; } File__Analyze::GoTo(File_Size-PreviousTagSize-8, "FLV"); return; default : if (Searching_Duration) { File__Analyze::Finish(); //This is surely a bad en of file, don't try anymore return; } } if (Searching_Duration) { if ((((Count_Get(Stream_Video)==0 || Stream[Stream_Video].TimeStamp!=(int32u)-1) && (Count_Get(Stream_Audio)==0 || Stream[Stream_Audio].TimeStamp!=(int32u)-1)) || (File_Size>1024*1024*2 && File_Offset+Buffer_Offset-Header_Size-PreviousTagSize-4ParseSpeed<1.0) File__Analyze::Finish(); else if (Element_Code==0xFA) //RM metadata have a malformed PreviousTagSize, always { //Trying to sync Searching_Duration=false; Open_Buffer_Unsynch(); //There is a problem, trying to sync File__Analyze::GoToFromEnd(Header_Size+Element_Size+1024*1024); return; } else File__Analyze::GoTo(File_Offset+Buffer_Offset-Header_Size-PreviousTagSize-4); } else if (!Status[IsFilled] && !video_stream_Count && !audio_stream_Count && video_stream_FrameRate_Detected && File_Offset+1024*1024*2ParseSpeed<1.0) //All streams are parsed { Fill(); //Trying to find the last frame for duration Read_Buffer_Unsynched(); //This is not synched yet, so we call directly this method instead of Open_Buffer_Unsynched File__Analyze::GoToFromEnd(4, "FLV"); Searching_Duration=true; } } //*************************************************************************** // Elements //*************************************************************************** //--------------------------------------------------------------------------- void File_Flv::video() { Element_Name("Video"); Stream[Stream_Video].PacketCount++; Element_Info1(Stream[Stream_Video].PacketCount); //Handling FrameRate if (!video_stream_FrameRate_Detected) { if (video_stream_FrameRate.empty() || Time!=video_stream_FrameRate[video_stream_FrameRate.size()-1]) //if 2 block witht the same timestamp video_stream_FrameRate.push_back(Time); if (video_stream_FrameRate.size()>30) video_stream_FrameRate_Detected=true; } if (Element_Size==0) //Header says that video is present, but there is only one null packet { Element_Info1("Null"); return; } //Needed? if (!video_stream_Count && Config->ParseSpeed<1.0) return; //No more need of Video stream //Parsing int32u videoFourCc=0; int8u Codec, FrameType; int8u PacketType = 0; Element_Begin1("Stream header"); BS_Begin(); Peek_S1(4, FrameType); auto isExVideoHeader=FrameType>>3; if (isExVideoHeader) { FrameType&=0x7; Skip_SB( "isExVideoHeader"); Skip_S1(3, "videoFrameType"); Param_Info1(Flv_FrameType[FrameType]); Get_S1 (4, PacketType, "videoPacketType"); Param_Info1(Flv_PacketType[PacketType]); if (PacketType!=Metadata && FrameType==Command) Skip_S1(8, "videoCommand"); else if (PacketType==Multitrack) { int8u MultitrackType; Get_S1 (4, MultitrackType, "AvMultitrackType"); Param_Info1(Flv_MultitrackType[MultitrackType]); Get_S1 (4, PacketType, "videoPacketType"); Param_Info1(Flv_PacketType[PacketType]); } BS_End(); Get_C4 (videoFourCc, "videoFourCc"); // The first one if ManyTracksManyCodecs BS_Begin(); } else { Skip_S1(4, "frameType"); Param_Info1(Flv_FrameType[FrameType]); Get_S1 (4, Codec, "codecID"); Param_Info1(Flv_Codec_Video[Codec]); Element_Info1(Flv_Codec_Video[Codec]); } BS_End(); Element_End0(); FILLING_BEGIN(); //Filling if (Retrieve(Stream_Video, 0, Video_Format).empty()) { if (Count_Get(Stream_Video)==0) File__Analyze::Stream_Prepare(Stream_Video); if (isExVideoHeader) { CodecID_Fill(Ztring().From_CC4(videoFourCc), Stream_Video, 0, InfoCodecID_Format_Mpeg4); } else { Fill(Stream_Video, 0, Video_Format, Flv_Format_Video[Codec]); Fill(Stream_Video, 0, Video_Format_Profile, Flv_Format_Profile_Video[Codec]); Fill(Stream_Video, 0, Video_Codec, Flv_Codec_Video[Codec]); Fill(Stream_Video, 0, Video_CodecID, Codec); Fill(Stream_Video, 0, Video_CodecID_Hint, Flv_CodecID_Hint_Video[Codec]); } Fill(Stream_Video, 0, Video_BitDepth, 8); //FLV is not known to support another bit depth MustSynchronize=true; // Now, synchronization test is possible } if (isExVideoHeader) { switch (videoFourCc) { case 0x61766331: Codec= 7; break; //AVC case 0x68766331: Codec=12; break; //HEVC default: Codec=(int8u)-1; } } //Parsing video data switch (Codec) { case 2 : video_H263(); break; case 3 : video_ScreenVideo(1); break; case 4 : video_VP6(false); break; case 5 : video_VP6(true); break; case 6 : video_ScreenVideo(2); break; case 7 : video_AVC(PacketType+isExVideoHeader); break; case 12 : video_HEVC(PacketType+isExVideoHeader); break; default : Skip_XX(Element_Size-Element_Offset, "Unknown"); video_stream_Count=false; //No more need of Video stream; } FILLING_END(); #if MEDIAINFO_DEMUX int8u Demux_Level_old=Demux_Level; if (Stream[Stream_Video].Parser && Stream[Stream_Video].Parser->Demux_Level==2) Demux_Level=4; Demux(Buffer+Buffer_Offset+1, (size_t)(Element_Size-1), ContentType_MainStream); Demux_Level=Demux_Level_old; #endif //MEDIAINFO_DEMUX } //--------------------------------------------------------------------------- void File_Flv::video_H263() { //Parsing int16u Width=0, Height=0; int8u Version, PictureSize, PictureType; bool ExtraInformationFlag; BS_Begin(); Skip_S3(17, "PictureStartCode"); Get_S1 ( 5, Version, "Version"); if (Version>1) return; Skip_S1( 8, "TemporalReference"); Get_S1 ( 3, PictureSize, "PictureSize"); Param_Info1(Flv_H263_PictureSize[PictureSize]); switch (PictureSize) { case 0 : Get_S2 ( 8, Width, "Width"); Get_S2 ( 8, Height, "Height"); break; case 1 : Get_S2 (16, Width, "Width"); Get_S2 (16, Height, "Height"); break; default : if (PictureSize<8) { Width=Flv_H263_WidthHeight[PictureSize][0]; Height=Flv_H263_WidthHeight[PictureSize][1]; } } Get_S1 ( 2, PictureType, "PictureSize"); Param_Info1(Flv_H263_PictureType[PictureType]); Skip_SB( "DeblockingFlag"); Skip_S1( 5, "Quantizer"); Get_SB ( ExtraInformationFlag, "ExtraInformationFlag"); while (ExtraInformationFlag) { Skip_S1( 8, "ExtraInformation"); Get_SB ( ExtraInformationFlag, "ExtraInformationFlag"); } BS_End(); FILLING_BEGIN(); Fill(Stream_Video, 0, Video_Width, Width, 10, true); Fill(Stream_Video, 0, Video_Height, Height, 10, true); video_stream_Count=false; //No more need of Video stream FILLING_END(); } //--------------------------------------------------------------------------- void File_Flv::video_ScreenVideo(int8u Version) { //Parsing int16u Width, Height; BS_Begin(); Info_S1( 4, BlockWidth, "BlockWidth"); Param_Info1((BlockWidth+1)*16); Get_S2 (12, Width, "ImageWidth"); Info_S1( 4, BlockHeight, "BlockHeight"); Param_Info1((BlockHeight+1)*16); Get_S2 (12, Height, "ImageHeight"); if (Version==2) { Skip_S1(6, "Reserved"); Skip_SB( "has IFrameImage"); Skip_SB( "has PaletteInfo"); } BS_End(); FILLING_BEGIN(); Fill(Stream_Video, 0, Video_Width, Width, 10, true); Fill(Stream_Video, 0, Video_Height, Height, 10, true); video_stream_Count=false; //No more need of Video stream FILLING_END(); } //--------------------------------------------------------------------------- // From: http://wiki.multimedia.cx/index.php?title=On2_VP6 // void File_Flv::video_VP6(bool WithAlpha) { //Parsing int8u HorizontalAdjustment, VerticalAdjustment; bool FrameMode, Marker; BS_Begin(); Get_S1 ( 4, HorizontalAdjustment, "HorizontalAdjustment"); Get_S1 ( 4, VerticalAdjustment, "VerticalAdjustment"); if (WithAlpha) Skip_S3(24, "OffsetToAlpha"); Get_SB ( FrameMode, "FrameMode"); Param_Info1(Flv_VP6_FrameMode[FrameMode]); Skip_S1( 6, "Quantization"); Get_SB ( Marker, "Marker"); Param_Info1(Flv_VP6_Marker[Marker]); BS_End(); if (FrameMode) { if (Marker==1) Skip_B2( "Offset"); } else { int8u Version, Version2, Width, Height; BS_Begin(); Get_S1 ( 5, Version, "Version"); Param_Info1(Flv_VP6_Version[Version]); Get_S1 ( 2, Version2, "Version2"); Param_Info1(Flv_VP6_Version2[Version2]); Skip_SB( "Interlace"); BS_End(); if (Marker || Version2==0) Skip_B2( "Offset"); Skip_B1( "MacroBlock_Height"); Skip_B1( "MacroBlock_Width"); Get_B1 (Height, "Height"); Param_Info1(Ztring::ToZtring(Height*16)+__T(" pixels")); Get_B1 (Width, "Width"); Param_Info1(Ztring::ToZtring(Width*16)+__T(" pixels")); FILLING_BEGIN(); if (Width && Height) { Fill(Stream_Video, 0, Video_Width, Width*16-HorizontalAdjustment, 10, true); Fill(Stream_Video, 0, Video_Height, Height*16-VerticalAdjustment, 10, true); } video_stream_Count=false; //No more need of Video stream FILLING_END(); } } //--------------------------------------------------------------------------- void File_Flv::video_AVC(int8u PacketType_plus1) { int8u AVCPacketType; if (PacketType_plus1) { switch (PacketType_plus1) { case SequenceStart+1: AVCPacketType=0; break; case CodedFrames+1: case CodedFramesX+1: AVCPacketType=1; break; default: AVCPacketType=-1; } } else { Get_B1 (AVCPacketType, "AVCPacketType"); Param_Info1(Flv_AVCPacketType(AVCPacketType)); } if (!PacketType_plus1 || PacketType_plus1==CodedFrames-1) { Info_B3(CompositionTime, "CompositionTime"); Param_Info1(Ztring::ToZtring((int32s)(CompositionTime+0xFF000000))); } switch (AVCPacketType) { case 0 : #ifdef MEDIAINFO_AVC_YES if (Stream[Stream_Video].Parser==NULL) { Stream[Stream_Video].Parser=new File_Avc; Open_Buffer_Init(Stream[Stream_Video].Parser); ((File_Avc*)Stream[Stream_Video].Parser)->FrameIsAlwaysComplete=true; ((File_Avc*)Stream[Stream_Video].Parser)->MustParse_SPS_PPS=true; ((File_Avc*)Stream[Stream_Video].Parser)->SizedBlocks=true; ((File_Avc*)Stream[Stream_Video].Parser)->MustSynchronize=false; #if MEDIAINFO_DEMUX if (Config->Demux_Avc_Transcode_Iso14496_15_to_Iso14496_10_Get()) { Stream[Stream_Video].Parser->Demux_Level=2; //Container Stream[Stream_Video].Parser->Demux_UnpacketizeContainer=true; } #endif //MEDIAINFO_DEMUX } //Parsing Open_Buffer_Continue(Stream[Stream_Video].Parser); //Demux #if MEDIAINFO_DEMUX switch (Config->Demux_InitData_Get()) { case 0 : //In demux event Demux_Level=2; //Container Demux(Buffer+Buffer_Offset+2, (size_t)(Element_Size-2), ContentType_Header); break; case 1 : //In field { std::string Data_Raw((const char*)(Buffer+Buffer_Offset+2), (size_t)(Element_Size-2)); std::string Data_Base64(Base64::encode(Data_Raw)); Fill(Stream_Video, StreamPos_Last, "Demux_InitBytes", Data_Base64); Fill_SetOptions(Stream_Video, StreamPos_Last, "Demux_InitBytes", "N NT"); } break; default : ; } #endif //MEDIAINFO_DEMUX #else Skip_XX(Element_Size-Element_Offset, "AVC Data"); video_stream_Count=false; //Unable to parse it #endif break; case 1 : #ifdef MEDIAINFO_AVC_YES if (Stream[Stream_Video].Parser==NULL) { //Data before header, this is wrong video_stream_Count=false; break; } //Parsing Open_Buffer_Continue(Stream[Stream_Video].Parser); //Disabling this stream if (Stream[Stream_Video].Parser->File_GoTo!=(int64u)-1 || Stream[Stream_Video].Parser->Count_Get(Stream_Video)>0 || (Config->ParseSpeed<1.0 && Stream[Stream_Video].PacketCount>=300)) { Stream[Stream_Video].Parser->Open_Buffer_Unsynch(); video_stream_Count=false; } #else Skip_XX(Element_Size-Element_Offset, "AVC Data"); video_stream_Count=false; //Unable to parse it #endif break; default: Skip_XX(Element_Size-Element_Offset, "Unknown"); video_stream_Count=false; //Unable to parse it } } //--------------------------------------------------------------------------- void File_Flv::video_HEVC(int8u PacketType_plus1) { int8u AVCPacketType; if (PacketType_plus1) { switch (PacketType_plus1) { case SequenceStart+1: AVCPacketType=0; break; case CodedFrames+1: case CodedFramesX+1: AVCPacketType=1; break; default: AVCPacketType=-1; } } else { Get_B1 (AVCPacketType, "AVCPacketType"); Param_Info1(Flv_AVCPacketType(AVCPacketType)); } if (!PacketType_plus1 || PacketType_plus1==CodedFrames-1) { Info_B3(CompositionTime, "CompositionTime"); Param_Info1(Ztring::ToZtring((int32s)(CompositionTime+0xFF000000))); } switch (AVCPacketType) { case 0 : #ifdef MEDIAINFO_HEVC_YES if (Stream[Stream_Video].Parser==NULL) { Stream[Stream_Video].Parser=new File_Hevc; Open_Buffer_Init(Stream[Stream_Video].Parser); ((File_Hevc*)Stream[Stream_Video].Parser)->MustParse_VPS_SPS_PPS=true; ((File_Hevc*)Stream[Stream_Video].Parser)->MustParse_VPS_SPS_PPS_FromFlv=true; ((File_Hevc*)Stream[Stream_Video].Parser)->MustSynchronize=false; ((File_Hevc*)Stream[Stream_Video].Parser)->SizedBlocks=true; #if MEDIAINFO_DEMUX if (Config->Demux_Hevc_Transcode_Iso14496_15_to_AnnexB_Get()) { Stream[Stream_Video].Parser->Demux_Level=2; //Container Stream[Stream_Video].Parser->Demux_UnpacketizeContainer=true; } #endif //MEDIAINFO_DEMUX } //Parsing Open_Buffer_Continue(Stream[Stream_Video].Parser); //Demux #if MEDIAINFO_DEMUX switch (Config->Demux_InitData_Get()) { case 0 : //In demux event Demux_Level=2; //Container Demux(Buffer+Buffer_Offset+2, (size_t)(Element_Size-2), ContentType_Header); break; case 1 : //In field { std::string Data_Raw((const char*)(Buffer+Buffer_Offset+2), (size_t)(Element_Size-2)); std::string Data_Base64(Base64::encode(Data_Raw)); Fill(Stream_Video, StreamPos_Last, "Demux_InitBytes", Data_Base64); Fill_SetOptions(Stream_Video, StreamPos_Last, "Demux_InitBytes", "N NT"); } break; default : ; } #endif //MEDIAINFO_DEMUX #else Skip_XX(Element_Size-Element_Offset, "HEVC Data"); video_stream_Count=false; //Unable to parse it #endif break; case 1 : #ifdef MEDIAINFO_HEVC_YES if (Stream[Stream_Video].Parser==NULL) { //Data before header, this is wrong video_stream_Count=false; break; } //Parsing Open_Buffer_Continue(Stream[Stream_Video].Parser); //Disabling this stream if (Stream[Stream_Video].Parser->File_GoTo!=(int64u)-1 || Stream[Stream_Video].Parser->Count_Get(Stream_Video)>0 || (Config->ParseSpeed<1.0 && Stream[Stream_Video].PacketCount>=300)) { Stream[Stream_Video].Parser->Open_Buffer_Unsynch(); video_stream_Count=false; } #else Skip_XX(Element_Size-Element_Offset, "HEVC Data"); video_stream_Count=false; //Unable to parse it #endif break; default: Skip_XX(Element_Size-Element_Offset, "Unknown"); video_stream_Count=false; //Unable to parse it } } //--------------------------------------------------------------------------- void File_Flv::audio() { Element_Name("Audio"); Stream[Stream_Audio].PacketCount++; Element_Info1(Stream[Stream_Audio].PacketCount); if (Element_Size==0) //Header says that audio is present, but there is only one null packet { Element_Info1("Null"); return; } //Needed? if (!audio_stream_Count && Config->ParseSpeed<1.0) return; //No more need of Audio stream //Parsing int8u codec, sampling_rate; bool is_16bit, is_stereo; Element_Begin1("Stream header"); BS_Begin(); Get_S1 (4, codec, "codec"); Param_Info1(Flv_Codec_Audio[codec]); Element_Info1(Flv_Codec_Audio[codec]); Get_S1 (2, sampling_rate, "sampling_rate"); Param_Info1(Ztring::ToZtring(Flv_SamplingRate[sampling_rate])+__T(" Hz")); Get_SB ( is_16bit, "is_16bit"); Param_Info1(Ztring::ToZtring(Flv_Resolution[is_16bit])+__T(" bits")); Get_SB ( is_stereo, "is_stereo"); Param_Info1(Ztring::ToZtring(Flv_Channels[is_stereo])+__T(" channel(s)")); BS_End(); Element_End0(); //Special case if (codec==5) //Nellymoser 8kHz mono { sampling_rate=5; //8000 Hz forced is_stereo=false; //Mono forced } if (codec!=10) // AAC has an header { Demux(Buffer+Buffer_Offset+(size_t)(Element_Offset+1), (size_t)(Element_Size-Element_Offset-1), ContentType_MainStream); } FILLING_BEGIN(); if (Retrieve(Stream_Audio, 0, Audio_Format).empty()) { //Filling if (Count_Get(Stream_Audio)==0) File__Analyze::Stream_Prepare(Stream_Audio); Fill(Stream_Audio, 0, Audio_Channel_s_, Flv_Channels[is_stereo], 10, true); if (codec!=2 && codec!=10 && codec!=14) //MPEG Audio and AAC are not fixed bit depth Fill(Stream_Audio, 0, Audio_BitDepth, Flv_Resolution[is_16bit], 10, true); if (sampling_rate<4) Fill(Stream_Audio, 0, Audio_SamplingRate, Flv_SamplingRate[sampling_rate], 10, true); Fill(Stream_Audio, 0, Audio_Format, Flv_Format_Audio[codec]); Fill(Stream_Audio, 0, Audio_Format_Profile, Flv_Format_Profile_Audio[codec]); Fill(Stream_Audio, 0, Audio_Codec, Flv_Codec_Audio[codec]); Fill(Stream_Audio, 0, Audio_CodecID, codec); Fill(Stream_Audio, 0, Audio_CodecID_Hint, Flv_CodecID_Hint_Audio[codec]); if (codec==1) { //ADPCM Fill(Stream_Audio, 0, Audio_Format_Settings, "ShockWave"); Fill(Stream_Audio, 0, Audio_Format_Settings_Firm, "ShockWave"); Fill(Stream_Audio, 0, Audio_Codec_Settings, "SWF"); Fill(Stream_Audio, 0, Audio_Codec_Settings_Firm, "SWF"); } MustSynchronize=true; // Now, synchronization test is possible } //Parsing audio data switch (codec) { case 2 : case 14 : audio_MPEG(); break; case 10 : audio_AAC(); break; default : Skip_XX(Element_Size-Element_Offset, "Unknown"); audio_stream_Count=false; //No more need of Audio stream } FILLING_END(); } //--------------------------------------------------------------------------- void File_Flv::audio_MPEG() { #if defined(MEDIAINFO_MPEGA_YES) if (Stream[Stream_Audio].Parser==NULL) { Stream[Stream_Audio].Parser=new File_Mpega; Open_Buffer_Init(Stream[Stream_Audio].Parser); ((File_Mpega*)Stream[Stream_Audio].Parser)->FrameIsAlwaysComplete=true; } //Parsing Open_Buffer_Continue(Stream[Stream_Audio].Parser); //Disabling this stream if (Stream[Stream_Audio].Parser->File_GoTo!=(int64u)-1 || Stream[Stream_Audio].Parser->Count_Get(Stream_Audio)>0) { Stream[Stream_Audio].Parser->Open_Buffer_Unsynch(); audio_stream_Count=false; } #endif } //--------------------------------------------------------------------------- void File_Flv::audio_AAC() { int8u AACPacketType; Get_B1 (AACPacketType, "AACPacketType"); Param_Info1(Flv_AACPacketType(AACPacketType)); switch (AACPacketType) { case 0 : #if defined(MEDIAINFO_AAC_YES) if (Stream[Stream_Audio].Parser==NULL) { Stream[Stream_Audio].Parser=new File_Aac; ((File_Aac*)Stream[Stream_Audio].Parser)->Mode=File_Aac::Mode_AudioSpecificConfig; Open_Buffer_Init(Stream[Stream_Audio].Parser); } //Parsing Open_Buffer_Continue(Stream[Stream_Audio].Parser); //Demux #if MEDIAINFO_DEMUX switch (Config->Demux_InitData_Get()) { case 0 : //In demux event Demux_Level=2; //Container Demux(Buffer+Buffer_Offset+2, (size_t)(Element_Size-2), ContentType_Header); break; case 1 : //In field { std::string Data_Raw((const char*)(Buffer+Buffer_Offset+2), (size_t)(Element_Size-2)); std::string Data_Base64(Base64::encode(Data_Raw)); Fill(Stream_Audio, StreamPos_Last, "Demux_InitBytes", Data_Base64); Fill_SetOptions(Stream_Audio, StreamPos_Last, "Demux_InitBytes", "N NT"); } break; default : ; } #endif //MEDIAINFO_DEMUX #else Skip_XX(Element_Size-Element_Offset, "AAC Data"); audio_stream_Count=false; //Unable to parse it #endif break; case 1 : //Parsing Demux(Buffer+Buffer_Offset+(size_t)Element_Offset, (size_t)(Element_Size-Element_Offset), ContentType_MainStream); if (Stream[Stream_Audio].Parser) { Open_Buffer_Continue(Stream[Stream_Audio].Parser); Stream[Stream_Audio].Parser->Open_Buffer_Unsynch(); } else Skip_XX(Element_Size-Element_Offset, "Decoder config is missing"); audio_stream_Count=false; //No need of more break; default: Skip_XX(Element_Size-Element_Offset, "Unknown"); audio_stream_Count=false; //Unable to parse it } } //--------------------------------------------------------------------------- void File_Flv::meta() { Element_Name("Meta"); //Parsing meta_Level=0; meta_SCRIPTDATAOBJECT(); if (MetaData_NotTrustable) { meta_duration=0; Clear(Stream_Video, 0, Video_StreamSize); Clear(Stream_Video, 0, Video_BitRate); Clear(Stream_Video, 0, Video_Bits__Pixel_Frame_); Clear(Stream_Audio, 0, Audio_StreamSize); Clear(Stream_Audio, 0, Audio_BitRate); Clear(Stream_General, 0, General_Duration); Clear(Stream_General, 0, General_OverallBitRate); } } //--------------------------------------------------------------------------- void File_Flv::meta_SCRIPTDATAOBJECT() { //Parsing Value std::string StringData; meta_SCRIPTDATAVALUE(StringData); meta_SCRIPTDATAVALUE(StringData); } //--------------------------------------------------------------------------- void File_Flv::meta_SCRIPTDATAVARIABLE() { std::string StringData; int16u StringLength; Element_Begin0(); Get_B2 (StringLength, "StringLength"); Get_String(StringLength, StringData, "StringData"); Element_Name(StringData.c_str()); //Parsing Value meta_SCRIPTDATAVALUE(StringData); Element_End0(); } //--------------------------------------------------------------------------- void File_Flv::meta_SCRIPTDATAVALUE(const std::string &StringData) { std::string StringDataModified(StringData); if (!StringDataModified.empty() && StringDataModified[0]==__T('_')) StringDataModified.erase(StringDataModified.begin()); //Parsing int8u Type; Get_B1 (Type, "Type"); Param_Info1C((Type<0x12), Flv_TagType[Type]); switch (Type) { case 0x00 : //DOUBLE --> 64 bits Big endian float { float64 Value; Get_BF8(Value, "Value"); if (Value==0) break; std::string ToFill; Ztring ValueS; stream_t StreamKind=Stream_General; if (StringDataModified=="width") {ToFill="Width"; StreamKind=Stream_Video; ValueS.From_Number(Value, 0); video_stream_Count=true;} //1 file with FrameRate tag and video stream but no video present tag else if (StringDataModified=="height") {ToFill="Height"; StreamKind=Stream_Video; ValueS.From_Number(Value, 0); video_stream_Count=true;} //1 file with FrameRate tag and video stream but no video present tag else if (StringDataModified=="duration") meta_duration=Value*1000; else if (StringDataModified=="audiodatarate") {ToFill="BitRate"; StreamKind=Stream_Audio; ValueS.From_Number(Value*1000, 0);} else if (StringDataModified=="framerate") {ToFill="FrameRate"; StreamKind=Stream_Video; ValueS.From_Number(Value, 3); video_stream_FrameRate_Detected=true; video_stream_Count=true;} //1 file with FrameRate tag and video stream but no video present tag else if (StringDataModified=="videoframerate") {ToFill="FrameRate"; StreamKind=Stream_Video; ValueS.From_Number(Value, 3); video_stream_FrameRate_Detected=true; video_stream_Count=true;} //1 file with FrameRate tag and video stream but no video present tag else if (StringDataModified=="filesize") {meta_filesize=(int64u)Value;} else if (StringDataModified=="audiosize") {ToFill="StreamSize"; StreamKind=Stream_Audio; ValueS.From_Number(Value, 0); if (Value>File_Size) MetaData_NotTrustable=true;} else if (StringDataModified=="videosize") {ToFill="StreamSize"; StreamKind=Stream_Video; ValueS.From_Number(Value, 0); if (Value>File_Size) MetaData_NotTrustable=true; video_stream_Count=true;} //1 file with FrameRate tag and video stream but no video present tag else if (StringDataModified=="videodatarate") {ToFill="BitRate"; StreamKind=Stream_Video; ValueS.From_Number(Value*1000, 0); video_stream_Count=true;} //1 file with FrameRate tag and video stream but no video present tag else if (StringDataModified=="videocodecid") {; video_stream_Count=true;} //1 file with FrameRate tag and video stream but no video present tag else if (StringDataModified=="audiodelay") {ToFill="Delay"; StreamKind=Stream_Audio; if (Value>0) ValueS.From_Number(Value*1000, 0);} else if (StringDataModified=="audiosamplerate") {ToFill="SamplingRate"; StreamKind=Stream_Audio; if (Value>0) ValueS.From_Number(Value, 0);} else if (StringDataModified=="audiosamplesize") {ToFill="BitDepth"; StreamKind=Stream_Audio; if (Value>0) ValueS.From_Number(Value, 0);} else if (StringDataModified=="totalduration") {ToFill="Duration"; StreamKind=Stream_General; ValueS.From_Number(Value*1000, 0);} else if (StringDataModified=="totaldatarate") {ToFill="OverallBitRate"; StreamKind=Stream_General; ValueS.From_Number(Value*1000, 0);} else if (StringDataModified=="totalframes") {ToFill="FrameCount"; StreamKind=Stream_Video; ValueS.From_Number(Value, 0);} else if (StringDataModified=="bytelength") {if (File_Size!=Value) MetaData_NotTrustable=true;} else if (!(StringDataModified=="datasize" || StringDataModified=="lasttimestamp" || StringDataModified=="lastkeyframetimestamp" || StringDataModified=="lastkeyframelocation" || StringDataModified=="canSeekToEnd" || StringDataModified=="keyframes_times" || StringDataModified=="keyframes_filepositions" || StringDataModified=="aacaot" || StringDataModified=="audiochannels" || StringDataModified=="audiocodecid" || StringDataModified=="avclevel" || StringDataModified=="avcprofile" || StringDataModified=="moovPosition")) {StreamKind=Stream_General; ToFill=StringData; ValueS.From_Number(Value);} #if MEDIAINFO_TRACE if (ValueS.empty()) ValueS.From_Number(Value, 0); Element_Info1(ValueS); #endif //MEDIAINFO_TRACE if (StreamKind==Stream_Video && ToFill=="FrameRate") { if (Retrieve(Stream_Video, 0, Video_FrameRate).To_float32()<1000 && Value>=1000) ToFill.clear(); //Such incoherency was found in 1 file (e.g. 30 then 30000) } if (!ToFill.empty()) { Fill(StreamKind, 0, ToFill.c_str(), ValueS, true); if (ToFill=="FrameRate") Fill(StreamKind, 0, "FrameRate_Mode", "CFR", Unlimited, true, true); } } break; case 0x01 : //UI8 { int8u Value; Get_B1 (Value, "Value"); std::string ToFill; if (StringDataModified=="haskeyframes") {} else if (StringDataModified=="hasKeyframes") {} else if (StringDataModified=="hasVideo") {} else if (StringDataModified=="stereo") {} else if (StringDataModified=="canSeekToEnd") {} else if (StringDataModified=="hasAudio") {} else if (StringDataModified=="hasmetadata") {} else if (StringDataModified=="hasMetadata") {} else if (StringDataModified=="hasCuePoints") {} else if (StringDataModified=="canseekontime") {} else {ToFill=StringData;} Element_Info1(Value); Fill(Stream_General, 0, ToFill.c_str(), Value?"Yes":"No", Unlimited, true, true); } break; case 0x02 : //SCRIPTDATASTRING { int16u Value_Size; Get_B2 (Value_Size, "Value_Size"); if (Value_Size) { Ztring Value; Get_UTF8(Value_Size, Value, "Value"); size_t ToFill=(size_t)-1; std::string ToFillS; if (StringDataModified=="creator") {ToFill=General_Encoded_Application;} else if (StringDataModified=="creationdate") {ToFill=General_Encoded_Date; Value.Date_From_String(Value.To_UTF8().c_str());} else if (StringDataModified=="encoder") {ToFill=General_Encoded_Application;} else if (StringDataModified=="Encoded_With") {ToFill=General_Encoded_Application;} else if (StringDataModified=="Encoded_By") {ToFill=General_Encoded_Application;} else if (StringDataModified=="metadatacreator") {ToFill=General_Tagged_Application;} else if (StringDataModified=="title") {ToFill=General_Title;} else if (StringDataModified=="creation_time") {ToFill=General_Encoded_Date; Value+=__T(" UTC");} else if (StringDataModified=="sourcedata") {} else if (StringDataModified=="audiocodecid") {} else if (StringDataModified=="videocodecid") {} else if (!(StringDataModified=="major_brand" || StringDataModified=="minor_version" || StringDataModified=="compatible_brands")) ToFillS=StringData; if (Value.find(__T('\r'))!=std::string::npos) Value.resize(Value.find(__T('\r'))); if (Value.find(__T('\n'))!=std::string::npos) Value.resize(Value.find(__T('\n'))); Element_Info1(Value); if (ToFill!=(size_t)-1) Fill(Stream_General, 0, ToFill, Value, true); else if (!ToFillS.empty()) Fill(Stream_General, 0, StringData.c_str(), Value, true); } } break; case 0x03 : //SCRIPTDATAOBJECT[n] case 0x10 : //Typed object - SCRIPTDATAOBJECT[n] { std::string StringData2; int16u StringLength2; meta_Level++; meta_LevelFinished[meta_Level]=false; while (!meta_LevelFinished[meta_Level]) { if (Element_Offset>=Element_Size) break; Element_Begin0(); Get_B2 (StringLength2, "StringLength2"); Get_String(StringLength2, StringData2, "StringData2"); Element_Name(StringData2.empty()?"EndOfObject":StringData2.c_str()); meta_SCRIPTDATAVALUE(StringData+'_'+StringData2); Element_End0(); } meta_Level--; } break; case 0x04 : //SCRIPTDATASTRING defining the MovieClip path { int16u Value_Size; Get_B2 (Value_Size, "Value_Size"); if (Value_Size) { Ztring Value; Get_UTF8(Value_Size, Value, "Value"); if (Value==__T("unknown")) Value.clear(); Element_Info1C((!Value.empty()), Value); Fill(Stream_General, 0, StringData.c_str(), Value, true); } } break; case 0x05 : //NULL case 0x06 : //Undefined - NULL case 0x0D : //Unsupported - NULL break; case 0x07 : //UI16 { int16u Value; Get_B2 (Value, "Value"); Element_Info1(Value); Fill(Stream_General, 0, StringData.c_str(), Value, true); } break; case 0x08 : //SCRIPTDATAVARIABLE[ECMAArrayLength] { int32u ECMAArrayLength; Get_B4 (ECMAArrayLength, "ECMAArrayLength"); Element_Info1(Ztring::ToZtring(ECMAArrayLength)+__T(" elements")); for (int32u Pos=0; Pos