Tiger

Constructors

this

this()

Construct an Tiger

Members

Functions

addSize

uint addSize()

Length padding size

blockSize

uint blockSize()

block size

createDigest

void createDigest(ubyte[] buf)

Obtain the digest

digestSize

uint digestSize()

The size of a tiger digest is 24 bytes

padLength

void padLength(ubyte[] at, ulong length)

Performs the length padding

padMessage

void padMessage(ubyte[] at)

Pads the cipher data

passes

uint passes()

Get the number of passes being performed

passes

void passes(uint n)

Set the number of passes to be performed

reset

void reset()

Initialize the cipher

transform

void transform(ubyte[] input)

Performs the cipher on a block of data

Inherited Members

From MerkleDamgard

createDigest

void createDigest(ubyte[] buf)

Constructs the digest

blockSize

uint blockSize()

Digest block size

addSize

uint addSize()

Length padding size

padMessage

void padMessage(ubyte[] data)

Pads the digest data

padLength

void padLength(ubyte[] data, size_t length)

Performs the length padding

transform

void transform(ubyte[] data)

Performs the digest on a block of data

extend

void extend()

Final processing of digest.

reset

void reset()

Initialize the digest

update

MerkleDamgard update(const(void)[] input)

Digest additional data

binaryDigest

ubyte[] binaryDigest(ubyte[] buf)

Complete the digest

littleEndian32

void littleEndian32(ubyte[] input, uint[] output)

Converts 8 bit to 32 bit Little Endian

bigEndian32

void bigEndian32(ubyte[] input, uint[] output)

Converts 8 bit to 32 bit Big Endian

littleEndian64

void littleEndian64(ubyte[] input, ulong[] output)

Converts 8 bit to 64 bit Little Endian

bigEndian64

void bigEndian64(ubyte[] input, ulong[] output)

Converts 8 bit to 64 bit Big Endian

rotateLeft

uint rotateLeft(uint x, uint n)

Rotate left by n

• Tiger