PBO File Format

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Pbo file structure and packing method

Introduction

A pbo file originally meant 'packed bank of files'. Through use however, it has come to represent a single 'package' to achieve a result. Such as a mission, such as, an addon.

A .pbo file is the output produced by the Mission Editor when 'exporting' and contains nothing more (and nothing less) than the content of all the files and folders making up a mission or campaign, or addon. It is a single file representation of a folder tree. The key to grasp is that anything you uniquely make in a folder, such as a mission, such as a campaign, such as an addon, can be conveniently packaged into a single file, called, a pbo.

The engine will internally expand any pbo back out to it's original, tree-folder, form.

Additionally, the engine will work with the equivalent non pbo versions of missions or campaigns, but not (unfortunately) Addons. Addons must be in 'pbo format' to be usable by the engine.

Compression

In addition to simply packaging all files and folders in a tree into a single file, some, all, or none of the files within can be compressed. Which type of files are compressed is entirely optional. Tools for creating compressed pbo files are Makepbo by Amalfi among others. The intent behind compression was for internet use and, in the 'good old days', simply to reduce hard disk storage requirements. The actual use of compression (a mild form of run length encoding) is becoming less 'popular' as it does represent a load on the engine. Neither Operation Flashpoint Elite, nor ArmA, can work with compressed pbo files. See Elite Pbo's

Binarised raP

Config.bin definately, and often config.cpp and/or Mission.sqm are stored in binary form. This has no relation to pbo structure, though, and and it is not part of the pbo compression/decompression algorithm. The data for mission.sqm may indeed, also be compressed within the pbo, but the resulting output is often, a raPified version of the original mission.sqm text. It must be further decoded by utilities such as bin2cpp and cpp2bin.

Main Format

The format of a pbo is extremely simple. It contains

  1. a header consisting of contiguous file name stuctures.
  2. one, contiguous data block.


The header defines each file contained in the pbo, its size, date, name, whether it's compressed, and where it 'is' in the following data block. Every file, even zero length ones, are recorded in the header and each is referred to as an 'entry'. Entries, and consequently the 'file' they refer to, are contiguous.

However, note that there is no provision for, and no ability to, store empty folders. Folders as such are indicated simply by being part of the filename. There are no, folder entries, and consequently, empty folders, cannot be included in a pbo because there is no filename associated with them. Put another way, an empty folder, if stored, would appear to be an empty filename when dePbo'd.

The last 'entry' should be blank defining the next byte and all bytes thereafter to be the data block. However, resistance format pbo's sometimes obscure this.

Pbo Header Entry

A standard pbo entry as as follows

struct entry
{
 Asciiz  filename; //a zero terminated string defining the path and filename,
                   //         relative to the name of this pbo.
                   //Zero length filenames ('\0') indicate first (optional), or last (non optional) entry in header. 
                   //  Other fields in the last entry are filled by zero bytes. 
  .
 ulong   PackingMethod; //0x00000000 uncompressed
                        //0x43707273 packed
                        //0x56657273 Product Entry (resistance/elite/arma)
 ulong   OriginalSize;  // Unpacked: 0 or same value as the DataSize
                        // Packed: Size of file after unpacking. 
                        // This value is needed for byte boundary unpacking
                        // since unpacking itself can lead to bleeding of up
                        // to 7 extra bytes.
 ulong   Reserved;
 ulong   TimeStamp;     // meant to be the unix filetime of Jan 1 1970 +, but often 0
 ulong   DataSize;      // The size in the data block. 
                        // This is also the file size when not packed
};


Null Entries

Entries with no file name indicate boundaries. The obvious one being end of header.

There are two 'boundaries' used in pbo headers.

  1. Product entry, found only in Resistance/arma/elite style pbo's, and
  2. End of header

An end of header is (of course) mandatory. It is normally indicated by all other entries also being zero in the struct. However, a sometimes seen case is a 'signature' of 0x43707273 in the compression method for the pbo overall. An indication, that some, none, or all, of the pbo is compressed. Somewhat useless.

The truth of the matter is that it doesn't matter muchly. Detection of the end of header, and, when applied, detection of a start of header, is indicated by no file name. The content of these entries is immaterial, the engine makes no use of them. However, certain 3rd party addon makers rely on the fact that *most* pbo extraction tools expect fields to be zero (even though they don't matter). As such, this prevents _some_ pbo's from being extracted by those tools.

Resistance Pbo

Resistance Pbo's add an optional EntryType as the first entry type in the header.

ulong PackingMethod; //0x56657273 Product Entry with all other fields zero.

If present (and it *is* optional) it is the FIRST entry in the header.

The meaning of the following entry (the 2nd one in the header) changes to:

struct ProductEntry
{
   Asciiz    *EntryName;      // = "product"
   Asciiz    *ProductName;    // = "OFP: Resistance"
   Asciiz    *ProductVersion; // = ""
};

This extended entry is a set-in-concrete signature for Resistance pbo's. It is not employed by the engine. But See Arma Elite comments.

Note especially that some addon suppliers provide non zero fields in either or both of these special entries to confuse DePbo tools.

OFP Elite Pbo

Operation Flashpoint: Elite pbo's intended for use on the Xbox are identical in makeup to Resistance pbo's except for the following TWO differences.

1) The 'Resistance' header entry has changed to the following.

struct ProductEntry
{
  Asciiz    *EntryName;      // = "prefix"
  Asciiz    *ProductName;    // = "<AddonFileName>"
  Asciiz    *ProductVersion; // = ""
};

2) Five Additional bytes exist at end of the contiguous data block. This is probably a checksum but has not been verified.

Note that for Operation Flashpoint Elite and Armed Assault the compression cannot be used. This is because of the requirement to be able to stream data from the files.

Note that <AddonFileName> refers to the name of the <file>.pbo. It is moot whether a fully qualified pathname is used (MP mision play), or not (general, DVD based, adddons).

ArmA Pbo

Armed Assault Pbo's are currently Identical in makeup as Operation Flashpoint Elite Pbo's except for the following difference

The 5 additonal 'checksum' bytes at end of an Elite pbo's contiguous data block have expanded to 21 bytes. This, most probably is a SHA-1 signed key. The 1st byte of either of these types of pbo is always a leading zero.

The altered Resistance header, first introduced in Elite, specifies a 'virtual' file reference versus the actual name of the pbo (which could change).

The traditional method in OFP to access external addons from another addon is

model=\AnotherAddon\SomeModel.p3d;

In Arma, this has changed to

model=\AnotherVirtualAddon\SomeModel.p3d;

The practicalities of which are that most 3rd party model makers will 'see' no difference since they wont alter the prefix (virtual) name from that of the pbo itself.

Data compression

Data compression in ofp is a mild, but effective, form of run length encoding, allowing (up to) 4k of previous data to repeat itself.

Compression is indicated when a signature of 0x43707273 and the filesizes do not match in the entry.

The following code also applies to the packing method employed in wrp OPWR files which have no header info simply a block of known output length that must be decoded.

The compressed data block is in contiguous 'packets' of different lengths

block {packet1}...{packetN} {4 byte checksum}
.
packet
{
   byte    Format;                  
   byte    packetdata[...];      // no fixed length
}

The contents of the packetdata contain mixtures of raw data that is passed directly to the output, and, 2byte pointers.

Format: bit values determine what the packetdata is. It is interpeted lsb first thus;

BitN =1    -           append byte directly to file (read single byte)
BitN= 0    -           pointer (read two bytes)

for example:

format byte, is 0x45, binary notation is: 01000101.

There are three bytes in the block a little further past the format flag that will be passed directly to the output when encountered, and there are FIVE pointers.

In this example, first byte of packetdata is passed to output, 2 bytes are read to make a pointer, next byte is passed (ultimately) to output and so on.

For the very last packet in the block, it is almost inevitable that there will be
excessive bits. These are ignored (truncated) as the final output length is always 
known from the Entry. You cannot rely on the ignored bits in the format flag (up to seven 
of them) to be any particular value (0 or 1).

A pointer consists of a 12 bits address and 4 bit run length.

The pointer is a reference to somewhere in the previous 4k max of built output. Given Intel's endian word format the bytes b1 and b2 form a short word value B2B1

The format of B2B1 is unfortunately AAAA LLLL AAAAAAAA, requiring a bit of shift mask fiddling.

The address refers to the start of some data in the currently rebuilt part of the file. It is a value, relative to the current length of the reconstructed part of the file (FL).

The run length of the data to be copied, the 'pattern' has 4 bits and therefore, in theory, 0 to 15 bytes can be duplicated. In practice the values are 3..18 bytes because copying 0,1 or 2 bytes makes no sense.

Relative position (rpos) into the currently built output is calculated as

            rpos = FL  - ((B2B1 &0x00FF) + (B2B1 & 0xF000)>>4) )

The length of the data block: rlen

            rlen = (B2B1 & 0x0F00>>8) + 3

With the values of rpos and rlen there are three basic situations possible:

rpos + rlen < FL // bytes to copy are within the existing reconstructed data
block is added to the end of the file, giving a new length of FL = FL + rlen. 

rpos + rlen > FL // data to copy exceeds what's available

In this situation the data block has a length of FL – rpos and it is added to the reconstructed file until FL = rpos + rlen. 

rpos + rlen < 0 This is a special case where spaces are added to the decoded file until FL = FL,Initial + rlen


The checksum, the last four bytes of any compressed data block. It is an unsigned long (Intel Little Endian order). It is simply a byte-at-a-time, unsigned additive spillover of the decompressed data.

Each and every compressed data block, contains it's own, unique checksum.

There is no, checksum, or other protective device, employed on a pbo overall. Exceptions: Elite and Arma have residual data after the end of contiguous data block that do, represent, a signature for the file.

Bibliography

       Unfortunately, The Ofpec links are currently down @ the moment[1]
confucious : http://www.ofpec.com/editors/resource_view.php?id=414
ofpinternals : http://www.ofpec.com/editors/resource_view.php?id=147
Bin2Cpp : http://www.ofpec.com/editors/resource_view.php?id=665
Cpp2Bin : http://www.ofpec.com/OFPResources/tools/UploadedByPlanck/CPP2BIN.zip
Encryption : http://www.ofpec.com/editors/resource_view.php?id=830
Info cpp<>bin
Res Pbos: http://www.ofpec.com/editors/resource_view.php?id=833
addenda to this doc
Amalfi UnPbo : http://www.ofpec.com/OFPResources/tools/UploadedByPlanck/pbo_decryptor15.zip
Amalfi MakePbo : http://www.ofpec.com/OFPResources/tools/UploadedByPlanck/MakePBO.zip
Winpbo : http://www.ofpec.com/OFPResources/tools/UploadedByPlanck/WinPboPack.zip
DePboDLL : http://www.ofpec.com/editors/resource_view.php?id=828