public class KeyAgreement extends Object
The keys involved in establishing a shared secret are created by one of the
key generators (KeyPairGenerator
or
KeyGenerator
), a KeyFactory
, or as a result from
an intermediate phase of the key agreement protocol.
For each of the correspondents in the key exchange, doPhase
needs to be called. For example, if this key exchange is with one other
party, doPhase
needs to be called once, with the
lastPhase
flag set to true
.
If this key exchange is
with two other parties, doPhase
needs to be called twice,
the first time setting the lastPhase
flag to
false
, and the second time setting it to true
.
There may be any number of parties involved in a key exchange.
Every implementation of the Java platform is required to support the
following standard KeyAgreement
algorithm:
DiffieHellman
KeyGenerator
,
SecretKey
Modifier | Constructor and Description |
---|---|
protected |
KeyAgreement(KeyAgreementSpi keyAgreeSpi,
Provider provider,
String algorithm)
Creates a KeyAgreement object.
|
Modifier and Type | Method and Description |
---|---|
Key |
doPhase(Key key,
boolean lastPhase)
Executes the next phase of this key agreement with the given
key that was received from one of the other parties involved in this key
agreement.
|
byte[] |
generateSecret()
Generates the shared secret and returns it in a new buffer.
|
int |
generateSecret(byte[] sharedSecret,
int offset)
Generates the shared secret, and places it into the buffer
sharedSecret , beginning at offset inclusive. |
SecretKey |
generateSecret(String algorithm)
Creates the shared secret and returns it as a
SecretKey
object of the specified algorithm. |
String |
getAlgorithm()
Returns the algorithm name of this
KeyAgreement object. |
static KeyAgreement |
getInstance(String algorithm)
Returns a
KeyAgreement object that implements the
specified key agreement algorithm. |
static KeyAgreement |
getInstance(String algorithm,
Provider provider)
Returns a
KeyAgreement object that implements the
specified key agreement algorithm. |
static KeyAgreement |
getInstance(String algorithm,
String provider)
Returns a
KeyAgreement object that implements the
specified key agreement algorithm. |
Provider |
getProvider()
Returns the provider of this
KeyAgreement object. |
void |
init(Key key)
Initializes this key agreement with the given key, which is required to
contain all the algorithm parameters required for this key agreement.
|
void |
init(Key key,
AlgorithmParameterSpec params)
Initializes this key agreement with the given key and set of
algorithm parameters.
|
void |
init(Key key,
AlgorithmParameterSpec params,
SecureRandom random)
Initializes this key agreement with the given key, set of
algorithm parameters, and source of randomness.
|
void |
init(Key key,
SecureRandom random)
Initializes this key agreement with the given key and source of
randomness.
|
protected KeyAgreement(KeyAgreementSpi keyAgreeSpi, Provider provider, String algorithm)
keyAgreeSpi
- the delegateprovider
- the provideralgorithm
- the algorithmpublic final String getAlgorithm()
KeyAgreement
object.
This is the same name that was specified in one of the
getInstance
calls that created this
KeyAgreement
object.
KeyAgreement
object.public static final KeyAgreement getInstance(String algorithm) throws NoSuchAlgorithmException
KeyAgreement
object that implements the
specified key agreement algorithm.
This method traverses the list of registered security Providers, starting with the most preferred Provider. A new KeyAgreement object encapsulating the KeyAgreementSpi implementation from the first Provider that supports the specified algorithm is returned.
Note that the list of registered providers may be retrieved via
the Security.getProviders()
method.
algorithm
- the standard name of the requested key agreement
algorithm.
See the KeyAgreement section in the
Java Cryptography Architecture Standard Algorithm Name Documentation
for information about standard algorithm names.KeyAgreement
object.NullPointerException
- if the specified algorithm
is null.NoSuchAlgorithmException
- if no Provider supports a
KeyAgreementSpi implementation for the
specified algorithm.Provider
public static final KeyAgreement getInstance(String algorithm, String provider) throws NoSuchAlgorithmException, NoSuchProviderException
KeyAgreement
object that implements the
specified key agreement algorithm.
A new KeyAgreement object encapsulating the KeyAgreementSpi implementation from the specified provider is returned. The specified provider must be registered in the security provider list.
Note that the list of registered providers may be retrieved via
the Security.getProviders()
method.
algorithm
- the standard name of the requested key agreement
algorithm.
See the KeyAgreement section in the
Java Cryptography Architecture Standard Algorithm Name Documentation
for information about standard algorithm names.provider
- the name of the provider.KeyAgreement
object.NullPointerException
- if the specified algorithm
is null.NoSuchAlgorithmException
- if a KeyAgreementSpi
implementation for the specified algorithm is not
available from the specified provider.NoSuchProviderException
- if the specified provider is not
registered in the security provider list.IllegalArgumentException
- if the provider
is null or empty.Provider
public static final KeyAgreement getInstance(String algorithm, Provider provider) throws NoSuchAlgorithmException
KeyAgreement
object that implements the
specified key agreement algorithm.
A new KeyAgreement object encapsulating the KeyAgreementSpi implementation from the specified Provider object is returned. Note that the specified Provider object does not have to be registered in the provider list.
algorithm
- the standard name of the requested key agreement
algorithm.
See the KeyAgreement section in the
Java Cryptography Architecture Standard Algorithm Name Documentation
for information about standard algorithm names.provider
- the provider.KeyAgreement
object.NullPointerException
- if the specified algorithm
is null.NoSuchAlgorithmException
- if a KeyAgreementSpi
implementation for the specified algorithm is not available
from the specified Provider object.IllegalArgumentException
- if the provider
is null.Provider
public final Provider getProvider()
KeyAgreement
object.KeyAgreement
objectpublic final void init(Key key) throws InvalidKeyException
If this key agreement requires any random bytes, it will get
them using the
SecureRandom
implementation of the highest-priority
installed provider as the source of randomness.
(If none of the installed providers supply an implementation of
SecureRandom, a system-provided source of randomness will be used.)
key
- the party's private information. For example, in the case
of the Diffie-Hellman key agreement, this would be the party's own
Diffie-Hellman private key.InvalidKeyException
- if the given key is
inappropriate for this key agreement, e.g., is of the wrong type or
has an incompatible algorithm type.public final void init(Key key, SecureRandom random) throws InvalidKeyException
If the key agreement algorithm requires random bytes, it gets them
from the given source of randomness, random
.
However, if the underlying
algorithm implementation does not require any random bytes,
random
is ignored.
key
- the party's private information. For example, in the case
of the Diffie-Hellman key agreement, this would be the party's own
Diffie-Hellman private key.random
- the source of randomnessInvalidKeyException
- if the given key is
inappropriate for this key agreement, e.g., is of the wrong type or
has an incompatible algorithm type.public final void init(Key key, AlgorithmParameterSpec params) throws InvalidKeyException, InvalidAlgorithmParameterException
If this key agreement requires any random bytes, it will get
them using the
SecureRandom
implementation of the highest-priority
installed provider as the source of randomness.
(If none of the installed providers supply an implementation of
SecureRandom, a system-provided source of randomness will be used.)
key
- the party's private information. For example, in the case
of the Diffie-Hellman key agreement, this would be the party's own
Diffie-Hellman private key.params
- the key agreement parametersInvalidKeyException
- if the given key is
inappropriate for this key agreement, e.g., is of the wrong type or
has an incompatible algorithm type.InvalidAlgorithmParameterException
- if the given parameters
are inappropriate for this key agreement.public final void init(Key key, AlgorithmParameterSpec params, SecureRandom random) throws InvalidKeyException, InvalidAlgorithmParameterException
key
- the party's private information. For example, in the case
of the Diffie-Hellman key agreement, this would be the party's own
Diffie-Hellman private key.params
- the key agreement parametersrandom
- the source of randomnessInvalidKeyException
- if the given key is
inappropriate for this key agreement, e.g., is of the wrong type or
has an incompatible algorithm type.InvalidAlgorithmParameterException
- if the given parameters
are inappropriate for this key agreement.public final Key doPhase(Key key, boolean lastPhase) throws InvalidKeyException, IllegalStateException
key
- the key for this phase. For example, in the case of
Diffie-Hellman between 2 parties, this would be the other party's
Diffie-Hellman public key.lastPhase
- flag which indicates whether or not this is the last
phase of this key agreement.InvalidKeyException
- if the given key is inappropriate for
this phase.IllegalStateException
- if this key agreement has not been
initialized.public final byte[] generateSecret() throws IllegalStateException
This method resets this KeyAgreement
object, so that it
can be reused for further key agreements. Unless this key agreement is
reinitialized with one of the init
methods, the same
private information and algorithm parameters will be used for
subsequent key agreements.
IllegalStateException
- if this key agreement has not been
completed yetpublic final int generateSecret(byte[] sharedSecret, int offset) throws IllegalStateException, ShortBufferException
sharedSecret
, beginning at offset
inclusive.
If the sharedSecret
buffer is too small to hold the
result, a ShortBufferException
is thrown.
In this case, this call should be repeated with a larger output buffer.
This method resets this KeyAgreement
object, so that it
can be reused for further key agreements. Unless this key agreement is
reinitialized with one of the init
methods, the same
private information and algorithm parameters will be used for
subsequent key agreements.
sharedSecret
- the buffer for the shared secretoffset
- the offset in sharedSecret
where the
shared secret will be storedsharedSecret
IllegalStateException
- if this key agreement has not been
completed yetShortBufferException
- if the given output buffer is too small
to hold the secretpublic final SecretKey generateSecret(String algorithm) throws IllegalStateException, NoSuchAlgorithmException, InvalidKeyException
SecretKey
object of the specified algorithm.
This method resets this KeyAgreement
object, so that it
can be reused for further key agreements. Unless this key agreement is
reinitialized with one of the init
methods, the same
private information and algorithm parameters will be used for
subsequent key agreements.
algorithm
- the requested secret-key algorithmIllegalStateException
- if this key agreement has not been
completed yetNoSuchAlgorithmException
- if the specified secret-key
algorithm is not availableInvalidKeyException
- if the shared secret-key material cannot
be used to generate a secret key of the specified algorithm (e.g.,
the key material is too short) Submit a bug or feature
For further API reference and developer documentation, see Java SE Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
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