Compound File Binary Format (CFBF), also called Compound File, Compound Document format,[1] or Composite Document File V2[2] (CDF), is a compound document file format for storing numerous files and streams within a single file on a disk. CFBF is developed by Microsoft and is an implementation of Microsoft COM Structured Storage.[3][4][5] The file format is used for storing storage objects and stream objects in a hierarchical structure within a single file.[6]

Microsoft has opened the format for use by others and it is now used in a variety of programs from Microsoft Word and Microsoft Access to Business Objects.[citation needed] It also forms the basis of the Advanced Authoring Format.[7]


At its simplest, the Compound File Binary Format is a container, with little restriction on what can be stored within it.

A CFBF file structure loosely resembles a FAT filesystem. The file is partitioned into Sectors which are chained together with a File Allocation Table (not to be mistaken with the file system of the same name) which contains chains of sectors related to each file, a Directory holds information for contained files with a Sector ID (SID) for the starting sector of a chain and so on.


The CFBF file consists of a 512-Byte header record followed by a number of sectors whose size is defined in the header. The literature defines Sectors to be either 512 or 4096 bytes in length, although the format is potentially capable of supporting sectors ranging in size from 128-Bytes upwards in powers of 2 (128, 256, 512, 1024, etc.). The lower limit of 128 is the minimum required to fit a single directory entry in a Directory Sector.[relevant?]

There are several types of sector that may be present in a CFBF:

More detail is given below for the header and each sector type.

CFBF Header format

The CFBF Header occupies the first 512 bytes of the file and information required to interpret the rest of the file. The C-Style structure declaration below (extracted from the AAFA's Low-Level Container Specification) shows the members of the CFBF header and their purpose:

 typedef unsigned long ULONG;    // 4 Bytes
 typedef unsigned short USHORT;  // 2 Bytes
 typedef short OFFSET;           // 2 Bytes
 typedef ULONG SECT;             // 4 Bytes
 typedef ULONG FSINDEX;          // 4 Bytes
 typedef USHORT FSOFFSET;        // 2 Bytes
 typedef USHORT WCHAR;           // 2 Bytes
 typedef ULONG DFSIGNATURE;      // 4 Bytes
 typedef unsigned char BYTE;     // 1 Byte
 typedef unsigned short WORD;    // 2 Bytes
 typedef unsigned long DWORD;    // 4 Bytes
 typedef ULONG SID;              // 4 Bytes
 typedef GUID CLSID;             // 16 Bytes

 struct StructuredStorageHeader { // [offset from start (bytes), length (bytes)]
     BYTE _abSig[8];             // [00H,08] {0xd0, 0xcf, 0x11, 0xe0, 0xa1, 0xb1,
                                 // 0x1a, 0xe1} for current version
     CLSID _clsid;               // [08H,16] reserved must be zero (WriteClassStg/
                                 // GetClassFile uses root directory class id)
     USHORT _uMinorVersion;      // [18H,02] minor version of the format: 33 is
                                 // written by reference implementation
     USHORT _uDllVersion;        // [1AH,02] major version of the dll/format: 3 for
                                 // 512-byte sectors, 4 for 4 KB sectors
     USHORT _uByteOrder;         // [1CH,02] 0xFFFE: indicates Intel byte-ordering
     USHORT _uSectorShift;       // [1EH,02] size of sectors in power-of-two;
                                 // typically 9 indicating 512-byte sectors
     USHORT _uMiniSectorShift;   // [20H,02] size of mini-sectors in power-of-two;
                                 // typically 6 indicating 64-byte mini-sectors
     USHORT _usReserved;         // [22H,02] reserved, must be zero
     ULONG _ulReserved1;         // [24H,04] reserved, must be zero
     FSINDEX _csectDir;          // [28H,04] must be zero for 512-byte sectors,
                                 // number of SECTs in directory chain for 4 KB
                                 // sectors
     FSINDEX _csectFat;          // [2CH,04] number of SECTs in the FAT chain
     SECT _sectDirStart;         // [30H,04] first SECT in the directory chain
     DFSIGNATURE _signature;     // [34H,04] signature used for transactions; must
                                 // be zero. The reference implementation
                                 // does not support transactions
     ULONG _ulMiniSectorCutoff;  // [38H,04] maximum size for a mini stream;
                                 // typically 4096 bytes
     SECT _sectMiniFatStart;     // [3CH,04] first SECT in the MiniFAT chain
     FSINDEX _csectMiniFat;      // [40H,04] number of SECTs in the MiniFAT chain
     SECT _sectDifStart;         // [44H,04] first SECT in the DIFAT chain
     FSINDEX _csectDif;          // [48H,04] number of SECTs in the DIFAT chain
     SECT _sectFat[109];         // [4CH,436] the SECTs of first 109 FAT sectors

File Allocation Table (FAT) Sectors

When taken together as a single stream the collection of FAT sectors define the status and linkage of every sector in the file. Each entry in the FAT is 4 bytes in length and contains the sector number of the next sector in a FAT chain or one of the following special values:

Range Lock Sector

This section needs expansion. You can help by adding to it. (November 2009)

The Range Lock Sector must exist in files greater than 2GB in size, and must not exist in files smaller than 2GB. The Range Lock Sector must contain the byte range 0x7FFFFF00 to 0x7FFFFFFF in the file. This area is reserved by Microsoft's COM implementation for storing byte-range locking information for concurrent access.


See also


  1. ^ "Apache POI – POIFS". POI Project. Archived from the original on 26 April 2011. Retrieved 10 May 2011.
  2. ^ "How to convert documents between LibreOffice and Microsoft Office file formats on Linux". Archived from the original on 21 September 2019. Retrieved 25 November 2016.
  3. ^ "Compound Files (Windows)". Microsoft Developers Network (MSDN) library – COM SDK. Microsoft Corporation. 20 November 2008. Retrieved 23 September 2009.
  4. ^ "Containers: Compound Files". Microsoft Developers Network (MSDN) library – Visual Studio 2008 documentation. Microsoft Corporation. Retrieved 23 September 2009.
  5. ^ "Understand Compound Files". Microsoft Developers Network (MSDN) library – ActiveDirectory Rights Management. 25 June 2009. Retrieved 23 September 2009.
  6. ^ "Microsoft Compound File Binary File Format, Version 4". 28 January 2020. Retrieved 13 June 2024.
  7. ^ AMW Association (formerly AAF Association) Archived 15 August 2000 at the Wayback Machine