Naive Brute force attack
It's a non sense to use the stock
TABSDatabase to attempt a brute force attack since:
- Internal Hash methods and Encryption methods use a unique buffer as input and output (passed as reference). Every iteration required the same input content to be processed (no caching for reuse for sake of CPU time sparing).
- Every false password raises an Exception and SEH add another penalty layer (time complexity).
- I suspect other by-design features (counter-measures against brute force attack).
Getting rid of every superflous load
I came up with this working bare Delphi class in my attempt:
TABSDBHack = class
// 2 relevant contiguous headers of an Absolute Database file
FDBHeader: array [0..SIZEOFDBHEADER-1];
FCryptoHeader: array [0..SIZEOFCRYPTOHEADER-1];
// Mirror of the ControlBlock record from CryptoHeader
FControlBlock: array [0..SIZEOFCONTROLBLOCK-1] of Byte;
function GetEncrypted: Boolean;
function GetFileName: TFileName;
function GetPageSize: Word;
function GetPageCountInExtent: Word;
function GetCryptoAlgorithm: Byte;
// Retrieving Data from stream into FDBHeader and FCryptoHeader
procedure ReadStream(F: TStream);
// Mainly FillChar(..., ...,#0) of the corresponding record
// Probe the existence of 'ABS0LUTEDATABASE' as file signature
function CheckABSSignature: Boolean;
// Compute the CRC of FControlBlock record
function CRC32: Cardinal;
// Decrypt the persisted Control Block into FControlBlock
function InternalDecryptBuffer(const APassword: string):Boolean;
// Wrapping a ReadStream using a local TFileStream
procedure LoadFromFile(Filename: TFileName);
// Return True if the decrypted Control Block correspond to original plain one.
// Otherwise stated: The persisted CRC (in the Crypto Header) is equal to
// the value returned by the function CRC32
function CheckPassword(const APassword: string): Boolean;
property FileName: TFileName read GetFileName;
// Sample of plain Data peristed that can be retrieved
property PageSize: Word read GetPageSize;
property PageCountInExtent: Word read GetPageCountInExtent;
property Encrypted: Boolean read GetEncrypted;
property CryptoAlgorithm: Byte read GetCryptoAlgorithm;
I retrieved relevant data directly from file and probe a given password.
I used a Personnal Edition of Absolute Database version 6.0.7 to develop it.
The class defintion was cleaned of any reference to any type definitions from the DCUs distributed and I am not entitled to distribute a binary based on it.
As of know, it strongly depends on the DCU's distribution, mostly for the hash and decryption method. With time and more knowledge of the Absolute Database's internals writing a clean room implementation of its encryption engine should be feasible: It seems that it's based on the Delphi Encryption Compendium a freeware by Hagen Reddmann.
Other Direction to explore
- Brute forcing to recover the plain Control Block can be considered as SIZEOFCONTROLBLOCK is only equal to 256.
- Given a pair of plain/encrypted Control Block, recovering the internal representation of the Key is possible using too brute force but watch out: 128/192/256 for AES/Rijndael for instance!.
- RipeMD (128 as well as 256), a well known one-way function, is used internally to initialize Key: I am afraid that it's not reasonably feasible to recover a string given its hash!
- Most of the Crypto Algorithm (The recent ones at least) underwent thourough test under public scrutinity prior to their adoption as standard: Simply put they are strong, very strong I mean.
Yes! It is possible to recover the password under some provisions.
When playing around with TABSDBHack, the key to succes is to find a way to reduce the search space (password is of string Type): It's easy as pie, especially for weak password. I emphasize, it works.
The Guys from Component Ace are smart and did well their job (devising the cryptosystem among other thing): You can rely on Absolute Database, I strongly advocate it.