License | BSD-style |
---|---|
Maintainer | Vincent Hanquez <vincent@snarc.org> |
Stability | experimental |
Portability | unknown |
Safe Haskell | None |
Language | Haskell2010 |
Haskell implementation of the Anti-forensic information splitter available in LUKS. http://clemens.endorphin.org/AFsplitter
The algorithm bloats an arbitrary secret with many bits that are necessary for the recovery of the key (merge), and allow greater way to permanently destroy a key stored on disk.
Synopsis
- split :: (ByteArray ba, HashAlgorithm hash, DRG rng) => hash -> rng -> Int -> ba -> (ba, rng)
- merge :: (ByteArray ba, HashAlgorithm hash) => hash -> Int -> ba -> ba
Documentation
:: (ByteArray ba, HashAlgorithm hash, DRG rng) | |
=> hash | Hash algorithm to use as diffuser |
-> rng | Random generator to use |
-> Int | Number of times to diffuse the data. |
-> ba | original data to diffuse. |
-> (ba, rng) | The diffused data |
Split data to diffused data, using a random generator and an hash algorithm.
the diffused data will consist of random data for (expandTimes-1) then the last block will be xor of the accumulated random data diffused by the hash algorithm.
- ---------
- orig -
- ---------
- --------- ---------- --------------
- rand1 - - rand2 - - orig ^ acc -
- --------- ---------- --------------
where acc is : acc(n+1) = hash (n ++ rand(n)) ^ acc(n)
:: (ByteArray ba, HashAlgorithm hash) | |
=> hash | Hash algorithm used as diffuser |
-> Int | Number of times to un-diffuse the data |
-> ba | Diffused data |
-> ba | Original data |
Merge previously diffused data back to the original data.