lzma/DOC/7zFormat.txt - nest-cam/4320010/lzma - Git at Google

 7z Format description (4.59)
 ----------------------------

 This file contains description of 7z archive format.
 7z archive can contain files compressed with any method.
 See "Methods.txt" for description for defined compressing methods.


 Format structure Overview
 -------------------------

 Some fields can be optional.

 Archive structure
 ~~~~~~~~~~~~~~~~~
 SignatureHeader
 [PackedStreams]
 [PackedStreamsForHeaders]
 [
   Header
   or
   {
     Packed Header
     HeaderInfo
   }
 ]


 Header structure
 ~~~~~~~~~~~~~~~~
 {
   ArchiveProperties
   AdditionalStreams
   {
     PackInfo
     {
       PackPos
       NumPackStreams
       Sizes[NumPackStreams]
       CRCs[NumPackStreams]
     }
     CodersInfo
     {
       NumFolders
       Folders[NumFolders]
       {
         NumCoders
         CodersInfo[NumCoders]
         {
           ID
           NumInStreams;
           NumOutStreams;
           PropertiesSize
           Properties[PropertiesSize]
         }
         NumBindPairs
         BindPairsInfo[NumBindPairs]
         {
           InIndex;
           OutIndex;
         }
         PackedIndices
       }
       UnPackSize[Folders][Folders.NumOutstreams]
       CRCs[NumFolders]
     }
     SubStreamsInfo
     {
       NumUnPackStreamsInFolders[NumFolders];
       UnPackSizes[]
       CRCs[]
     }
   }
   MainStreamsInfo
   {
     (Same as in AdditionalStreams)
   }
   FilesInfo
   {
     NumFiles
     Properties[]
     {
       ID
       Size
       Data
     }
   }
 }

 HeaderInfo structure
 ~~~~~~~~~~~~~~~~~~~~
 {
   (Same as in AdditionalStreams)
 }


 Notes about Notation and encoding
 ---------------------------------

 7z uses little endian encoding.

 7z archive format has optional headers that are marked as
 []
 Header
 []

 REAL_UINT64 means real UINT64.

 UINT64 means real UINT64 encoded with the following scheme:

   Size of encoding sequence depends from first byte:
   First_Byte  Extra_Bytes        Value
   (binary)
   0xxxxxxx               : ( xxxxxxx           )
   10xxxxxx    BYTE y[1]  : (  xxxxxx << (8 * 1)) + y
   110xxxxx    BYTE y[2]  : (   xxxxx << (8 * 2)) + y
   ...
   1111110x    BYTE y[6]  : (       x << (8 * 6)) + y
   11111110    BYTE y[7]  :                         y
   11111111    BYTE y[8]  :                         y


 Property IDs
 ------------

 0x00 = kEnd

 0x01 = kHeader

 0x02 = kArchiveProperties

 0x03 = kAdditionalStreamsInfo
 0x04 = kMainStreamsInfo
 0x05 = kFilesInfo

 0x06 = kPackInfo
 0x07 = kUnPackInfo
 0x08 = kSubStreamsInfo

 0x09 = kSize
 0x0A = kCRC

 0x0B = kFolder

 0x0C = kCodersUnPackSize
 0x0D = kNumUnPackStream

 0x0E = kEmptyStream
 0x0F = kEmptyFile
 0x10 = kAnti

 0x11 = kName
 0x12 = kCTime
 0x13 = kATime
 0x14 = kMTime
 0x15 = kWinAttributes
 0x16 = kComment

 0x17 = kEncodedHeader

 0x18 = kStartPos
 0x19 = kDummy


 7z format headers
 -----------------

 SignatureHeader
 ~~~~~~~~~~~~~~~
   BYTE kSignature[6] = {'7', 'z', 0xBC, 0xAF, 0x27, 0x1C};

   ArchiveVersion
   {
     BYTE Major;   // now = 0
     BYTE Minor;   // now = 2
   };

   UINT32 StartHeaderCRC;

   StartHeader
   {
     REAL_UINT64 NextHeaderOffset
     REAL_UINT64 NextHeaderSize
     UINT32 NextHeaderCRC
   }


 ...........................


 ArchiveProperties
 ~~~~~~~~~~~~~~~~~
 BYTE NID::kArchiveProperties (0x02)
 for (;;)
 {
   BYTE PropertyType;
   if (aType == 0)
     break;
   UINT64 PropertySize;
   BYTE PropertyData[PropertySize];
 }


 Digests (NumStreams)
 ~~~~~~~~~~~~~~~~~~~~~
   BYTE AllAreDefined
   if (AllAreDefined == 0)
   {
     for(NumStreams)
       BIT Defined
   }
   UINT32 CRCs[NumDefined]


 PackInfo
 ~~~~~~~~~~~~
   BYTE NID::kPackInfo  (0x06)
   UINT64 PackPos
   UINT64 NumPackStreams

   []
   BYTE NID::kSize    (0x09)
   UINT64 PackSizes[NumPackStreams]
   []

   []
   BYTE NID::kCRC      (0x0A)
   PackStreamDigests[NumPackStreams]
   []

   BYTE NID::kEnd


 Folder
 ~~~~~~
   UINT64 NumCoders;
   for (NumCoders)
   {
     BYTE
     {
       0:3 CodecIdSize
       4:  Is Complex Coder
       5:  There Are Attributes
       6:  Reserved
       7:  There are more alternative methods. (Not used anymore, must be 0).
     }
     BYTE CodecId[CodecIdSize]
     if (Is Complex Coder)
     {
       UINT64 NumInStreams;
       UINT64 NumOutStreams;
     }
     if (There Are Attributes)
     {
       UINT64 PropertiesSize
       BYTE Properties[PropertiesSize]
     }
   }

   NumBindPairs = NumOutStreamsTotal - 1;

   for (NumBindPairs)
   {
     UINT64 InIndex;
     UINT64 OutIndex;
   }

   NumPackedStreams = NumInStreamsTotal - NumBindPairs;
   if (NumPackedStreams > 1)
     for(NumPackedStreams)
     {
       UINT64 Index;
     };


 Coders Info
 ~~~~~~~~~~~

   BYTE NID::kUnPackInfo  (0x07)


   BYTE NID::kFolder  (0x0B)
   UINT64 NumFolders
   BYTE External
   switch(External)
   {
     case 0:
       Folders[NumFolders]
     case 1:
       UINT64 DataStreamIndex
   }


   BYTE ID::kCodersUnPackSize  (0x0C)
   for(Folders)
     for(Folder.NumOutStreams)
      UINT64 UnPackSize;


   []
   BYTE NID::kCRC   (0x0A)
   UnPackDigests[NumFolders]
   []


   BYTE NID::kEnd


 SubStreams Info
 ~~~~~~~~~~~~~~
   BYTE NID::kSubStreamsInfo; (0x08)

   []
   BYTE NID::kNumUnPackStream; (0x0D)
   UINT64 NumUnPackStreamsInFolders[NumFolders];
   []


   []
   BYTE NID::kSize  (0x09)
   UINT64 UnPackSizes[]
   []


   []
   BYTE NID::kCRC  (0x0A)
   Digests[Number of streams with unknown CRC]
   []


   BYTE NID::kEnd


 Streams Info
 ~~~~~~~~~~~~

   []
   PackInfo
   []


   []
   CodersInfo
   []


   []
   SubStreamsInfo
   []

   BYTE NID::kEnd


 FilesInfo
 ~~~~~~~~~
   BYTE NID::kFilesInfo;  (0x05)
   UINT64 NumFiles

   for (;;)
   {
     BYTE PropertyType;
     if (aType == 0)
       break;

     UINT64 Size;

     switch(PropertyType)
     {
       kEmptyStream:   (0x0E)
         for(NumFiles)
           BIT IsEmptyStream

       kEmptyFile:     (0x0F)
         for(EmptyStreams)
           BIT IsEmptyFile

       kAnti:          (0x10)
         for(EmptyStreams)
           BIT IsAntiFile

       case kCTime: (0x12)
       case kATime: (0x13)
       case kMTime: (0x14)
         BYTE AllAreDefined
         if (AllAreDefined == 0)
         {
           for(NumFiles)
             BIT TimeDefined
         }
         BYTE External;
         if(External != 0)
           UINT64 DataIndex
         []
         for(Definded Items)
           UINT64 Time
         []

       kNames:     (0x11)
         BYTE External;
         if(External != 0)
           UINT64 DataIndex
         []
         for(Files)
         {
           wchar_t Names[NameSize];
           wchar_t 0;
         }
         []

       kAttributes:  (0x15)
         BYTE AllAreDefined
         if (AllAreDefined == 0)
         {
           for(NumFiles)
             BIT AttributesAreDefined
         }
         BYTE External;
         if(External != 0)
           UINT64 DataIndex
         []
         for(Definded Attributes)
           UINT32 Attributes
         []
     }
   }


 Header
 ~~~~~~
   BYTE NID::kHeader (0x01)

   []
   ArchiveProperties
   []

   []
   BYTE NID::kAdditionalStreamsInfo; (0x03)
   StreamsInfo
   []

   []
   BYTE NID::kMainStreamsInfo;    (0x04)
   StreamsInfo
   []

   []
   FilesInfo
   []

   BYTE NID::kEnd


 HeaderInfo
 ~~~~~~~~~~
   []
   BYTE NID::kEncodedHeader; (0x17)
   StreamsInfo for Encoded Header
   []


 ---
 End of document
	7z Format description (4.59)
	----------------------------

	This file contains description of 7z archive format.
	7z archive can contain files compressed with any method.
	See "Methods.txt" for description for defined compressing methods.


	Format structure Overview
	-------------------------

	Some fields can be optional.

	Archive structure
	~~~~~~~~~~~~~~~~~
	SignatureHeader
	[PackedStreams]
	[PackedStreamsForHeaders]
	[
	Header
	or
	{
	Packed Header
	HeaderInfo
	}
	]



	Header structure
	~~~~~~~~~~~~~~~~
	{
	ArchiveProperties
	AdditionalStreams
	{
	PackInfo
	{
	PackPos
	NumPackStreams
	Sizes[NumPackStreams]
	CRCs[NumPackStreams]
	}
	CodersInfo
	{
	NumFolders
	Folders[NumFolders]
	{
	NumCoders
	CodersInfo[NumCoders]
	{
	ID
	NumInStreams;
	NumOutStreams;
	PropertiesSize
	Properties[PropertiesSize]
	}
	NumBindPairs
	BindPairsInfo[NumBindPairs]
	{
	InIndex;
	OutIndex;
	}
	PackedIndices
	}
	UnPackSize[Folders][Folders.NumOutstreams]
	CRCs[NumFolders]
	}
	SubStreamsInfo
	{
	NumUnPackStreamsInFolders[NumFolders];
	UnPackSizes[]
	CRCs[]
	}
	}
	MainStreamsInfo
	{
	(Same as in AdditionalStreams)
	}
	FilesInfo
	{
	NumFiles
	Properties[]
	{
	ID
	Size
	Data
	}
	}
	}

	HeaderInfo structure
	~~~~~~~~~~~~~~~~~~~~
	{
	(Same as in AdditionalStreams)
	}



	Notes about Notation and encoding
	---------------------------------

	7z uses little endian encoding.

	7z archive format has optional headers that are marked as
	[]
	Header
	[]

	REAL_UINT64 means real UINT64.

	UINT64 means real UINT64 encoded with the following scheme:

	Size of encoding sequence depends from first byte:
	First_Byte Extra_Bytes Value
	(binary)
	0xxxxxxx : ( xxxxxxx )
	10xxxxxx BYTE y[1] : ( xxxxxx << (8 * 1)) + y
	110xxxxx BYTE y[2] : ( xxxxx << (8 * 2)) + y
	...
	1111110x BYTE y[6] : ( x << (8 * 6)) + y
	11111110 BYTE y[7] : y
	11111111 BYTE y[8] : y



	Property IDs
	------------

	0x00 = kEnd

	0x01 = kHeader

	0x02 = kArchiveProperties

	0x03 = kAdditionalStreamsInfo
	0x04 = kMainStreamsInfo
	0x05 = kFilesInfo

	0x06 = kPackInfo
	0x07 = kUnPackInfo
	0x08 = kSubStreamsInfo

	0x09 = kSize
	0x0A = kCRC

	0x0B = kFolder

	0x0C = kCodersUnPackSize
	0x0D = kNumUnPackStream

	0x0E = kEmptyStream
	0x0F = kEmptyFile
	0x10 = kAnti

	0x11 = kName
	0x12 = kCTime
	0x13 = kATime
	0x14 = kMTime
	0x15 = kWinAttributes
	0x16 = kComment

	0x17 = kEncodedHeader

	0x18 = kStartPos
	0x19 = kDummy


	7z format headers
	-----------------

	SignatureHeader
	~~~~~~~~~~~~~~~
	BYTE kSignature[6] = {'7', 'z', 0xBC, 0xAF, 0x27, 0x1C};

	ArchiveVersion
	{
	BYTE Major; // now = 0
	BYTE Minor; // now = 2
	};

	UINT32 StartHeaderCRC;

	StartHeader
	{
	REAL_UINT64 NextHeaderOffset
	REAL_UINT64 NextHeaderSize
	UINT32 NextHeaderCRC
	}


	...........................


	ArchiveProperties
	~~~~~~~~~~~~~~~~~
	BYTE NID::kArchiveProperties (0x02)
	for (;;)
	{
	BYTE PropertyType;
	if (aType == 0)
	break;
	UINT64 PropertySize;
	BYTE PropertyData[PropertySize];
	}


	Digests (NumStreams)
	~~~~~~~~~~~~~~~~~~~~~
	BYTE AllAreDefined
	if (AllAreDefined == 0)
	{
	for(NumStreams)
	BIT Defined
	}
	UINT32 CRCs[NumDefined]


	PackInfo
	~~~~~~~~~~~~
	BYTE NID::kPackInfo (0x06)
	UINT64 PackPos
	UINT64 NumPackStreams

	[]
	BYTE NID::kSize (0x09)
	UINT64 PackSizes[NumPackStreams]
	[]

	[]
	BYTE NID::kCRC (0x0A)
	PackStreamDigests[NumPackStreams]
	[]

	BYTE NID::kEnd


	Folder
	~~~~~~
	UINT64 NumCoders;
	for (NumCoders)
	{
	BYTE
	{
	0:3 CodecIdSize
	4: Is Complex Coder
	5: There Are Attributes
	6: Reserved
	7: There are more alternative methods. (Not used anymore, must be 0).
	}
	BYTE CodecId[CodecIdSize]
	if (Is Complex Coder)
	{
	UINT64 NumInStreams;
	UINT64 NumOutStreams;
	}
	if (There Are Attributes)
	{
	UINT64 PropertiesSize
	BYTE Properties[PropertiesSize]
	}
	}

	NumBindPairs = NumOutStreamsTotal - 1;

	for (NumBindPairs)
	{
	UINT64 InIndex;
	UINT64 OutIndex;
	}

	NumPackedStreams = NumInStreamsTotal - NumBindPairs;
	if (NumPackedStreams > 1)
	for(NumPackedStreams)
	{
	UINT64 Index;
	};




	Coders Info
	~~~~~~~~~~~

	BYTE NID::kUnPackInfo (0x07)


	BYTE NID::kFolder (0x0B)
	UINT64 NumFolders
	BYTE External
	switch(External)
	{
	case 0:
	Folders[NumFolders]
	case 1:
	UINT64 DataStreamIndex
	}


	BYTE ID::kCodersUnPackSize (0x0C)
	for(Folders)
	for(Folder.NumOutStreams)
	UINT64 UnPackSize;


	[]
	BYTE NID::kCRC (0x0A)
	UnPackDigests[NumFolders]
	[]



	BYTE NID::kEnd



	SubStreams Info
	~~~~~~~~~~~~~~
	BYTE NID::kSubStreamsInfo; (0x08)

	[]
	BYTE NID::kNumUnPackStream; (0x0D)
	UINT64 NumUnPackStreamsInFolders[NumFolders];
	[]


	[]
	BYTE NID::kSize (0x09)
	UINT64 UnPackSizes[]
	[]


	[]
	BYTE NID::kCRC (0x0A)
	Digests[Number of streams with unknown CRC]
	[]


	BYTE NID::kEnd


	Streams Info
	~~~~~~~~~~~~

	[]
	PackInfo
	[]


	[]
	CodersInfo
	[]


	[]
	SubStreamsInfo
	[]

	BYTE NID::kEnd


	FilesInfo
	~~~~~~~~~
	BYTE NID::kFilesInfo; (0x05)
	UINT64 NumFiles

	for (;;)
	{
	BYTE PropertyType;
	if (aType == 0)
	break;

	UINT64 Size;

	switch(PropertyType)
	{
	kEmptyStream: (0x0E)
	for(NumFiles)
	BIT IsEmptyStream

	kEmptyFile: (0x0F)
	for(EmptyStreams)
	BIT IsEmptyFile

	kAnti: (0x10)
	for(EmptyStreams)
	BIT IsAntiFile

	case kCTime: (0x12)
	case kATime: (0x13)
	case kMTime: (0x14)
	BYTE AllAreDefined
	if (AllAreDefined == 0)
	{
	for(NumFiles)
	BIT TimeDefined
	}
	BYTE External;
	if(External != 0)
	UINT64 DataIndex
	[]
	for(Definded Items)
	UINT64 Time
	[]

	kNames: (0x11)
	BYTE External;
	if(External != 0)
	UINT64 DataIndex
	[]
	for(Files)
	{
	wchar_t Names[NameSize];
	wchar_t 0;
	}
	[]

	kAttributes: (0x15)
	BYTE AllAreDefined
	if (AllAreDefined == 0)
	{
	for(NumFiles)
	BIT AttributesAreDefined
	}
	BYTE External;
	if(External != 0)
	UINT64 DataIndex
	[]
	for(Definded Attributes)
	UINT32 Attributes
	[]
	}
	}


	Header
	~~~~~~
	BYTE NID::kHeader (0x01)

	[]
	ArchiveProperties
	[]

	[]
	BYTE NID::kAdditionalStreamsInfo; (0x03)
	StreamsInfo
	[]

	[]
	BYTE NID::kMainStreamsInfo; (0x04)
	StreamsInfo
	[]

	[]
	FilesInfo
	[]

	BYTE NID::kEnd


	HeaderInfo
	~~~~~~~~~~
	[]
	BYTE NID::kEncodedHeader; (0x17)
	StreamsInfo for Encoded Header
	[]


	---
	End of document