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Cumulus4j API (1.1.1) |
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java.lang.Object org.cumulus4j.crypto.CryptoRegistry
public final class CryptoRegistry
Entry to the unified crypto API.
This registry can be used for various cryptography-related tasks. For example to create a cipher
or to create a key-pair-generator
.
Method Summary | |
---|---|
Cipher |
createCipher(String transformation)
Create a Cipher instance according to the given transformation. |
AsymmetricCipherKeyPairGenerator |
createKeyPairGenerator(String algorithmName,
boolean initWithDefaults)
Create a key pair generator for the given asymmetric encryption algorithm. |
MACCalculator |
createMACCalculator(String algorithmName,
boolean initWithDefaults)
Create a MAC calculator. |
SecretKeyGenerator |
createSecretKeyGenerator(String algorithmName,
boolean initWithDefaults)
Create a new SecretKeyGenerator . |
CipherParameters |
decodePrivateKey(byte[] privateKeyData)
Decode (deserialise) a private key, that was previously encoded (serialised) by encodePrivateKey(CipherParameters) . |
CipherParameters |
decodePublicKey(byte[] publicKeyData)
Decode (deserialise) a public key, that was previously encoded (serialised) by encodePublicKey(CipherParameters) . |
byte[] |
encodePrivateKey(CipherParameters privateKey)
Encode (serialise) a private key in order to store it or transport it over a network. |
byte[] |
encodePublicKey(CipherParameters publicKey)
Encode (serialise) a public key in order to store it or transport it over a network. |
Set<String> |
getSupportedCipherEngines(CipherEngineType cipherEngineType)
Get all supported cipher engines. |
Set<String> |
getSupportedCipherModes(String cipherEngine)
Get all supported modes for the given cipher engine (a raw encryption algorithm). |
Set<String> |
getSupportedCipherPaddings(CipherEngineType cipherEngineType)
Get all supported paddings for the given CipherEngineType . |
Set<String> |
getSupportedCipherPaddings(String cipherEngine,
String cipherMode)
Get all supported paddings for the given cipher engine (a raw encryption algorithm) and mode. |
Set<String> |
getSupportedCipherTransformations(CipherEngineType cipherEngineType)
Get all supported cipher transformations. |
Set<String> |
getSupportedMACAlgorithms()
Get all supported MAC algorithms. |
static CryptoRegistry |
sharedInstance()
Get the shared instance of this registry. |
static String[] |
splitTransformation(String transformation)
Split the transformation- String into its parts. |
Methods inherited from class java.lang.Object |
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clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
Method Detail |
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public static CryptoRegistry sharedInstance()
public Set<String> getSupportedCipherEngines(CipherEngineType cipherEngineType)
cipherEngineType
- the type of the cipher engine or null
to list all.
createCipher(String)
public Set<String> getSupportedCipherModes(String cipherEngine)
Get all supported modes for
the given cipher engine (a raw
encryption algorithm). The
cipherEngine
can be null
to not restrict the result by this criterion.
See Supported algorithms
for a list of supported algorithms or use getSupportedCipherEngines(CipherEngineType)
to
query them.
cipherEngine
- the name of the encryption algorithm for which to look up supported
modes or null
to list all.
createCipher(String)
public Set<String> getSupportedCipherPaddings(CipherEngineType cipherEngineType)
CipherEngineType
. If there is
no cipher-engine-type given, all supported paddings for all engine types are returned.
cipherEngineType
- the type of the cipher engine or null
to ignore this criterion.
createCipher(String)
public Set<String> getSupportedCipherPaddings(String cipherEngine, String cipherMode)
Get all supported paddings for the given cipher engine (a raw
encryption algorithm) and
mode. Each of the
parameters can be null
to not restrict the result by this criterion.
See Supported algorithms
for a list of supported algorithms or use getSupportedCipherEngines(CipherEngineType)
and getSupportedCipherModes(String)
to
query them.
cipherEngine
- the cipher engine for which to get the supported paddings or null
to list all.cipherMode
- the mode
to restrict the result or null
to list all (for the given cipher-engine).
createCipher(String)
public Set<String> getSupportedCipherTransformations(CipherEngineType cipherEngineType)
Get all supported cipher transformations.
Every element of the resulting Set
can be passed to createCipher(String)
and will
return a usable Cipher
instance. However, not everything that is supported makes sense! It might
not even be secure in certain situations! This is just a listing of what you theoretically could pass to
createCipher(String)
.
cipherEngineType
- the type of the cipher engine or null
to list all.
createCipher(String)
public Cipher createCipher(String transformation) throws NoSuchAlgorithmException, NoSuchPaddingException
Create a Cipher
instance according to the given transformation.
The transformation is a chain of algorithms containing 1 to 3 elements:
For example:
"ECB" and "NoPadding" are equivalent to an empty String
.
See Supported algorithms
for a list of supported algorithms or use getSupportedCipherTransformations(CipherEngineType)
to query them. Additionally, you can use getSupportedCipherEngines(CipherEngineType)
,
getSupportedCipherModes(String)
and getSupportedCipherPaddings(String, String)
to query the individual parts of the supported transformations.
transformation
- the transformation. This is case-INsensitive. It must not be null
.
Cipher
instance.
NoSuchAlgorithmException
- if there is no encryption engine or no mode registered to suit the given transformation.
NoSuchPaddingException
- if there is no padding registered to suit the given transformation.getSupportedCipherTransformations(CipherEngineType)
,
getSupportedCipherEngines(CipherEngineType)
,
getSupportedCipherModes(String)
,
getSupportedCipherPaddings(CipherEngineType)
,
getSupportedCipherPaddings(String, String)
public static String[] splitTransformation(String transformation) throws IllegalArgumentException
String
into its parts. The transformation is what you would
normally pass to createCipher(String)
, i.e. a chain of operations usually starting with
an encryption algorithm and then optionally followed by a block-cipher-mode (e.g. "CBC") and a
padding (e.g. "PKCS5Padding").
transformation
- the transformation-String
.
String
-array with exactly 3 elements. None of these is ever null
.
If parts are missing in the transformation, the corresponding elements are an empty string.
IllegalArgumentException
- if the given transformation is null
or contains
more than 3 parts (i.e. more than 2 slashes).public SecretKeyGenerator createSecretKeyGenerator(String algorithmName, boolean initWithDefaults) throws NoSuchAlgorithmException
SecretKeyGenerator
.
algorithmName
- the encryption algorithm for which the generated keys will be used.
This is the first element of a transformation, i.e.
you can pass a transformation
to splitTransformation(String)
and use element 0 of its result.
See Supported algorithms
for a list of supported algorithms.initWithDefaults
- whether to initialise the secret key generator with default values.
SecretKeyGenerator
. If initWithDefaults == true
, it can directly
be used to generate keys, i.e. it is already initialised with some default values. If initWithDefaults == false
,
you still have to initialise
the
key generator before you can use it.
NoSuchAlgorithmException
public AsymmetricCipherKeyPairGenerator createKeyPairGenerator(String algorithmName, boolean initWithDefaults) throws NoSuchAlgorithmException
initWithDefaults
is specified with value true
, the returned generator is ready to be used and doesn't require any
further initialisation.
algorithmName
- the name of the asymmetric encryption algorithm. This is the first element of a transformation, i.e.
you can pass a transformation
to splitTransformation(String)
and use element 0 of its result.
See Supported algorithms
for a list of supported algorithms.initWithDefaults
- whether to initialise the key pair generator with default values.
AsymmetricCipherKeyPairGenerator
. If initWithDefaults == true
, it can directly
be used to generate key pairs, i.e. it is already initialised with some default values. If initWithDefaults == false
,
you still have to initialise
the
key pair generator before you can use it.
NoSuchAlgorithmException
- if there is no generator available for the given algorithmName
.public CipherParameters decodePublicKey(byte[] publicKeyData) throws IOException
encodePublicKey(CipherParameters)
.
publicKeyData
- the serialised public key.
encodePublicKey(CipherParameters)
).
IOException
- if parsing the serialised public key fails.encodePublicKey(CipherParameters)
,
decodePrivateKey(byte[])
public byte[] encodePublicKey(CipherParameters publicKey)
publicKey
- the public key to be encoded; must not be null
.
decodePublicKey(byte[])
to
reverse this method.decodePublicKey(byte[])
,
encodePrivateKey(CipherParameters)
public CipherParameters decodePrivateKey(byte[] privateKeyData) throws IOException
encodePrivateKey(CipherParameters)
.
privateKeyData
- the serialised private key.
encodePrivateKey(CipherParameters)
).
IOException
- if parsing the serialised private key fails.encodePrivateKey(CipherParameters)
,
decodePublicKey(byte[])
public byte[] encodePrivateKey(CipherParameters privateKey)
Encode (serialise) a private key in order to store it or transport it over a network.
Important: You should keep your private key secret! Thus, you might want to encrypt the result before storing it to a file or sending it somewhere!
privateKey
- the private key to be encoded; must not be null
.
decodePrivateKey(byte[])
to
reverse this method.decodePrivateKey(byte[])
,
encodePublicKey(CipherParameters)
public MACCalculator createMACCalculator(String algorithmName, boolean initWithDefaults) throws NoSuchAlgorithmException
Create a MAC calculator.
algorithmName
- the name of the MAC algorithm. See Supported algorithms
for a list of supported algorithms or use getSupportedMACAlgorithms()
to query them.initWithDefaults
- whether to
initialise
the MACCalculator
with default values
so that it can be used immediately as-is.
MACCalculator
(iff initWithDefaults==true
ready-to-use;
otherwise requiring initialisation
before it can be used).
NoSuchAlgorithmException
- if there is no MACCalculatorFactory
registered to suit the given algorithmName
.getSupportedMACAlgorithms()
public Set<String> getSupportedMACAlgorithms()
createMACCalculator(String, boolean)
should be able to return a MACCalculator
for each of them.
createMACCalculator(String, boolean)
|
Cumulus4j API (1.1.1) |
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