cryptonite-0.13: Cryptography Primitives sink

LicenseBSD-style
MaintainerVincent Hanquez <vincent@snarc.org>
StabilityStable
PortabilityExcellent
Safe HaskellNone
LanguageHaskell2010

Crypto.Cipher.Types

Contents

Description

symmetric cipher basic types

Synopsis

Cipher classes

class Cipher cipher where Source

Symmetric cipher class.

Methods

cipherInit :: ByteArray key => key -> CryptoFailable cipher Source

Initialize a cipher context from a key

cipherName :: cipher -> String Source

Cipher name

cipherKeySize :: cipher -> KeySizeSpecifier Source

return the size of the key required for this cipher. Some cipher accept any size for key

class Cipher cipher => BlockCipher cipher where Source

Symmetric block cipher class

Minimal complete definition

blockSize, ecbEncrypt, ecbDecrypt

Methods

blockSize :: cipher -> Int Source

Return the size of block required for this block cipher

ecbEncrypt :: ByteArray ba => cipher -> ba -> ba Source

Encrypt blocks

the input string need to be multiple of the block size

ecbDecrypt :: ByteArray ba => cipher -> ba -> ba Source

Decrypt blocks

the input string need to be multiple of the block size

cbcEncrypt :: ByteArray ba => cipher -> IV cipher -> ba -> ba Source

encrypt using the CBC mode.

input need to be a multiple of the blocksize

cbcDecrypt :: ByteArray ba => cipher -> IV cipher -> ba -> ba Source

decrypt using the CBC mode.

input need to be a multiple of the blocksize

cfbEncrypt :: ByteArray ba => cipher -> IV cipher -> ba -> ba Source

encrypt using the CFB mode.

input need to be a multiple of the blocksize

cfbDecrypt :: ByteArray ba => cipher -> IV cipher -> ba -> ba Source

decrypt using the CFB mode.

input need to be a multiple of the blocksize

ctrCombine :: ByteArray ba => cipher -> IV cipher -> ba -> ba Source

combine using the CTR mode.

CTR mode produce a stream of randomized data that is combined (by XOR operation) with the input stream.

encryption and decryption are the same operation.

input can be of any size

aeadInit :: ByteArrayAccess iv => AEADMode -> cipher -> iv -> CryptoFailable (AEAD cipher) Source

Initialize a new AEAD State

When Nothing is returns, it means the mode is not handled.

class BlockCipher cipher => BlockCipher128 cipher where Source

class of block cipher with a 128 bits block size

Minimal complete definition

Nothing

Methods

xtsEncrypt Source

Arguments

:: ByteArray ba 
=> (cipher, cipher) 
-> IV cipher

Usually represent the Data Unit (e.g. disk sector)

-> DataUnitOffset

Offset in the data unit in number of blocks

-> ba

Plaintext

-> ba

Ciphertext

encrypt using the XTS mode.

input need to be a multiple of the blocksize, and the cipher need to process 128 bits block only

xtsDecrypt Source

Arguments

:: ByteArray ba 
=> (cipher, cipher) 
-> IV cipher

Usually represent the Data Unit (e.g. disk sector)

-> DataUnitOffset

Offset in the data unit in number of blocks

-> ba

Ciphertext

-> ba

Plaintext

decrypt using the XTS mode.

input need to be a multiple of the blocksize, and the cipher need to process 128 bits block only

class Cipher cipher => StreamCipher cipher where Source

Symmetric stream cipher class

Methods

streamCombine :: ByteArray ba => cipher -> ba -> (ba, cipher) Source

Combine using the stream cipher

type DataUnitOffset = Word32 Source

Offset inside an XTS data unit, measured in block size.

data KeySizeSpecifier Source

Different specifier for key size in bytes

Constructors

KeySizeRange Int Int

in the range [min,max]

KeySizeEnum [Int]

one of the specified values

KeySizeFixed Int

a specific size

AEAD functions

data AEADModeImpl st Source

AEAD Implementation

Constructors

AEADModeImpl 

Fields

aeadImplAppendHeader :: forall ba. ByteArrayAccess ba => st -> ba -> st
 
aeadImplEncrypt :: forall ba. ByteArray ba => st -> ba -> (ba, st)
 
aeadImplDecrypt :: forall ba. ByteArray ba => st -> ba -> (ba, st)
 
aeadImplFinalize :: st -> Int -> AuthTag
 

data AEAD cipher Source

Authenticated Encryption with Associated Data algorithms

Constructors

forall st . AEAD 

Fields

aeadModeImpl :: AEADModeImpl st
 
aeadState :: st
 

aeadAppendHeader :: ByteArrayAccess aad => AEAD cipher -> aad -> AEAD cipher Source

Append some header information to an AEAD context

aeadEncrypt :: ByteArray ba => AEAD cipher -> ba -> (ba, AEAD cipher) Source

Encrypt some data and update the AEAD context

aeadDecrypt :: ByteArray ba => AEAD cipher -> ba -> (ba, AEAD cipher) Source

Decrypt some data and update the AEAD context

aeadFinalize :: AEAD cipher -> Int -> AuthTag Source

Finalize the AEAD context and return the authentication tag

aeadSimpleEncrypt Source

Arguments

:: (ByteArrayAccess aad, ByteArray ba) 
=> AEAD a

A new AEAD Context

-> aad

Optional Authentication data header

-> ba

Optional Plaintext

-> Int

Tag length

-> (AuthTag, ba)

Authentication tag and ciphertext

Simple AEAD encryption

aeadSimpleDecrypt Source

Arguments

:: (ByteArrayAccess aad, ByteArray ba) 
=> AEAD a

A new AEAD Context

-> aad

Optional Authentication data header

-> ba

Ciphertext

-> AuthTag

The authentication tag

-> Maybe ba

Plaintext

Simple AEAD decryption

Initial Vector type and constructor

data IV c Source

an IV parametrized by the cipher

Instances

makeIV :: (ByteArrayAccess b, BlockCipher c) => b -> Maybe (IV c) Source

Create an IV for a specified block cipher

nullIV :: BlockCipher c => IV c Source

Create an IV that is effectively representing the number 0

ivAdd :: BlockCipher c => IV c -> Int -> IV c Source

Increment an IV by a number.

Assume the IV is in Big Endian format.

Authentification Tag

newtype AuthTag Source

Authentication Tag for AE cipher mode

Constructors

AuthTag 

Fields

unAuthTag :: Bytes