cryptonite-0.30: Cryptography Primitives sink
LicenseBSD-style
MaintainerVincent Hanquez <vincent@snarc.org>
Stabilitystable
Portabilitygood
Safe HaskellSafe-Inferred
LanguageHaskell2010

Crypto.Cipher.ChaCha

Description

 
Synopsis

Documentation

initialize Source #

Arguments

:: (ByteArrayAccess key, ByteArrayAccess nonce) 
=> Int

number of rounds (8,12,20)

-> key

the key (128 or 256 bits)

-> nonce

the nonce (64 or 96 bits)

-> State

the initial ChaCha state

Initialize a new ChaCha context with the number of rounds, the key and the nonce associated.

combine Source #

Arguments

:: ByteArray ba 
=> State

the current ChaCha state

-> ba

the source to xor with the generator

-> (ba, State) 

Combine the chacha output and an arbitrary message with a xor, and return the combined output and the new state.

generate Source #

Arguments

:: ByteArray ba 
=> State

the current ChaCha state

-> Int

the length of data to generate

-> (ba, State) 

Generate a number of bytes from the ChaCha output directly

data State Source #

ChaCha context

Instances

Instances details
NFData State Source # 
Instance details

Defined in Crypto.Cipher.ChaCha

Methods

rnf :: State -> () #

Simple interface for DRG purpose

initializeSimple Source #

Arguments

:: ByteArrayAccess seed 
=> seed

a 40 bytes long seed

-> StateSimple 

Initialize simple ChaCha State

The seed need to be at least 40 bytes long

generateSimple :: ByteArray ba => StateSimple -> Int -> (ba, StateSimple) Source #

similar to generate but assume certains values

data StateSimple Source #

ChaCha context for DRG purpose (see Crypto.Random.ChaChaDRG)

Instances

Instances details
NFData StateSimple Source # 
Instance details

Defined in Crypto.Cipher.ChaCha

Methods

rnf :: StateSimple -> () #