gnu.javax.crypto.assembly
Class Stage
public abstract class Stage
A
Stage in a Cascade Cipher.
Each stage may be either an implementation of a Block Cipher Mode of
Operation (
IMode) or another Cascade Cipher (
Cascade).
Each stage has also a
natural operational direction when constructed
for inclusion within a
Cascade. This
natural direction
dictates how data flows from one stage into another when stages are chained
together in a cascade. One can think of a stage and its natural direction as
the specification of how to wire the stage into the chain. The following
diagrams may help understand the paradigme. The first shows two stages
chained each with a
Direction.FORWARD direction.
FORWARD FORWARD
+------+ +-------+
| | | |
| +--in --+ | +--in --+
---+ | Stage | | | Stage | +---
+--out--+ | +--out--+ |
| | | |
+-------+ +------+
The second diagram shows two stages, one in a
Direction.FORWARD
direction, while the other is wired in a
Direction.REVERSED
direction.
FORWARD REVERSED
+------+ +------+
| | | |
| +--in --+ +--in --+ |
---+ | Stage | | Stage | +---
+--out--+ +--out--+
| |
+---------------+
abstract Set<E> | blockSizes()- Returns the
Set of supported block sizes for this
Stage.
|
abstract int | currentBlockSize()- Returns the currently set block size for the stage.
|
static Stage | getInstance(Cascade cascade, Direction forwardDirection)
|
static Stage | getInstance(IMode mode, Direction forwardDirection)
|
void | init(Map<K,V> attributes)- Initialises the stage for operation with specific characteristics.
|
void | reset()- Resets the stage for re-initialisation and use with other characteristics.
|
abstract boolean | selfTest()- Conducts a simple correctness test that consists of basic symmetric
encryption / decryption test(s) for all supported block and key sizes of
underlying block cipher(s) wrapped by Mode leafs.
|
void | update(byte[] in, int inOffset, byte[] out, int outOffset)- Processes exactly one block of plaintext (if initialised in the
Direction.FORWARD state) or ciphertext (if initialised in
the Direction.REVERSED state).
|
clone, equals, extends Object> getClass, finalize, hashCode, notify, notifyAll, toString, wait, wait, wait |
DIRECTION
public static final String DIRECTION
- "gnu.crypto.assembly.stage.direction"
blockSizes
public abstract Set<E> blockSizes()
Returns the
Set of supported block sizes for this
Stage. Each element in the returned
Set is an
instance of
Integer.
- a
Set of supported block sizes.
init
public void init(Map<K,V> attributes)
throws InvalidKeyException Initialises the stage for operation with specific characteristics.
attributes - a set of name-value pairs that describes the desired
future behaviour of this instance.
reset
public void reset()
Resets the stage for re-initialisation and use with other characteristics.
This method always succeeds.
selfTest
public abstract boolean selfTest()
Conducts a simple correctness test that consists of basic symmetric
encryption / decryption test(s) for all supported block and key sizes of
underlying block cipher(s) wrapped by Mode leafs. The test also includes
one (1) variable key Known Answer Test (KAT) for each block cipher.
true if the implementation passes simple
correctness tests. Returns false otherwise.
update
public void update(byte[] in,
int inOffset,
byte[] out,
int outOffset)in - the plaintext.inOffset - index of in from which to start considering
data.out - the ciphertext.outOffset - index of out from which to store result.
Stage.java --
Copyright (C) 2003, 2006 Free Software Foundation, Inc.
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