raaz-0.3.7: Fast and type safe cryptography.
Copyright(c) Piyush P Kurur 2016
LicenseApache-2.0 OR BSD-3-Clause
MaintainerPiyush P Kurur <ppk@iitpkd.ac.in>
Stabilityexperimental
Safe HaskellSafe-Inferred
LanguageHaskell2010

Raaz.Digest

Description

 
Synopsis

Message digest.

A message digest is a short (fixed size) summary of a long message which is cryptographically secure against tampering. Use a message digest if all you care about is integrity: If d is the digest of a message m, then a computationally bound adversary cannot produce another message m' for which the digest is also d.

Here is a simple application for computing and verifying the digest of a file.

-- Program to compute the message digest of a file

import Raaz
import System.Environment

main = getArgs >>= digestFile . head >>= print
-- Program to verify the integrity of a file

import Raaz
import System.Environment

main = do [d,file] <- getArgs
          dp       <- digestFile file
          if fromString d == dp
             then putStrLn "OK"
             else putStrLn "FAILED"

There are three variants for computing the digest of a message. digest, digestFile and digestSource.

Serialisation

Digests are instances of Encodable and hence can be serialised directly to byte string.

Warning

Message digests DO NOT provide any authentication; any one could have compute the digest of a given message m and hence says nothing about the peer from whom the digest has been received. If you want some guarantee on who the digest came from consider using a message authenticator (see Raaz.Auth). In addition if you also want secrecy consider using encrypted authenticator (see Raaz.AuthEncrypt)

type Digest = Digest Source #

The digest type.

digest Source #

Arguments

:: PureByteSource src 
=> src

Message

-> Digest 

Compute the digest of a pure byte source like ByteString.

digestFile Source #

Arguments

:: FilePath

File to be digested

-> IO Digest 

Compute the digest of file.

digestSource :: ByteSource src => src -> IO Digest Source #

Compute the digest of an arbitrary byte source.

Incremental processing.

Message digest can also be computed incrementally using a digest context captured by the DigestCxt data type. The three functions relevant for this style of operation are startDigest, updateDigest, and finaliseDigest which respectively prepares the context for a new incremental processing, updates the context with an additional chunk of data, and finalises the context to recover the digest. The type DigestCxt is an instance of the class Memory and hence any IO action that requires a DigestCxt as argument can be run using withMemory.

If the entire input is with you either as a file or a string, the digest and digestFile is a much more high level interface and should be preferred.

type DigestCxt n = DigestCxt n Source #

The context type used for incremental processing of input. Incremental processing first collects data into the context and when the context buffer is full, processes it in one go using the digest compression routine. parameter n measures how many blocks of data can be held in the context till the compression routine is invoked.

startDigest :: KnownNat n => DigestCxt n -> IO () Source #

Prepare the context to (re)start a session of incremental processing.

updateDigest :: (KnownNat n, ByteSource src) => src -> DigestCxt n -> IO () Source #

Add some more data into the context, in this case the entirety of the byte source src.

finaliseDigest :: KnownNat n => DigestCxt n -> IO Digest Source #

Finalise the context to get hold of the digest.

Specific message digests.

To inter-operate with other libraries and applications, one might want to compute the digest using specific cryptographic hash. In such a situation, import one of the more specific module instead of this one.

  • Raaz.Digest.Blake2b
  • Raaz.Digest.Blake2s
  • Raaz.Digest.Sha512
  • Raaz.Digest.Sha256

Here is an example that uses sha512 to compute the digest.

import Raaz.Digest.Sha512
import System.Environment

main = getArgs >>= digestFile . head >>= print