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Class java.security.Signature
java.lang.Object | +----java.security.Signature
public abstract class Signature extends Object
This Signature class is used to provide the functionality of a digital signature algorithm, such as RSA with MD5 or DSA. Digital signatures are used for authentication and integrity assurance of digital data.
Like other algorithm-based classes in Java Security, the Signature class has two major components:
Digital Signature API (Application Program Interface) This is the interface of methods called by applications needing digital signature services. The API consists of all public methods. Digital Signature SPI (Service Provider Interface) This is the interface implemented by providers that supply specific algorithms. It consists of all methods whose names are prefixed by engine. Each such method is called by a correspondingly-named public API method. For example, the engineSign method is called by the sign method. The SPI methods are abstract; providers must supply a concrete implementation.
Also like other algorithm-based classes in Java Security, Signature provides implementation-independent algorithms, whereby a caller (application code) requests a particular signature algorithm and is handed back a properly initialized Signature object. It is also possible, if desired, to request a particular algorithm from a particular provider. See the getInstance methods. Thus, there are two ways to request a Signature algorithm object: by specifying either just an algorithm name, or both an algorithm name and a package provider. If just an algorithm name is specified, the system will determine if there is an implementation of the algorithm requested available in the environment, and if there is more than one, if there is a preferred one. If both an algorithm name and a package provider are specified, the system will determine if there is an implementation of the algorithm in the package requested, and throw an exception if there is not.
A Signature object can be used to generate and verify digital signatures. There are three phases to the use of a Signature object for either signing data or verifying a signature: Initialization, with either
a public key, which initializes the signature for verification (see initVerify), or a private key, which initializes the signature for signing (see initSign).
Updating Depending on the type of initialization, this will update the bytes to be signed or verified. See the update methods. Signing or Verifying a signature on all updated bytes. See sign and verify.
SIGN
Possible state value, signifying that this signature object has been initialized for signing.
state
Current state of this signature object.
UNINITIALIZED
Possible state value, signifying that this signature object has not yet been initialized.
VERIFY
Possible state value, signifying that this signature object has been initialized for verification.
Signature(String) Creates a Signature object for the specified algorithm.
clone() Returns a clone if the implementation is cloneable.
engineGetParameter(String) SPI: Gets the value of the specified algorithm parameter.
engineInitSign(PrivateKey) SPI: Initializes this signature object with the specified private key for signing operations.
engineInitVerify(PublicKey) SPI: Initializes this signature object with the specified public key for verification operations.
engineSetParameter(String, Object) SPI: Sets the specified algorithm parameter to the specified value.
engineSign()
SPI: Returns the signature bytes of all the data updated so far.
engineUpdate(byte) SPI: Updates the data to be signed or verified using the specified byte.
engineUpdate(byte[], int, int) SPI: Updates the data to be signed or verified, using the specified array of bytes, starting at the specified offset.
engineVerify(byte[])
SPI: Verifies the passed-in signature.
getAlgorithm()
Returns the name of the algorithm for this signature object.
getInstance(String) Generates a Signature object that implements the specified algorithm.
getInstance(String, String)
Generates a Signature object implementing the specified algorithm, as supplied from the specified provider, if such an algorithm is available from the provider.
getParameter(String) Gets the value of the specified algorithm parameter.
initSign(PrivateKey) Initialize this object for signing.
initVerify(PublicKey) Initializes this object for verification.
setParameter(String, Object) Sets the specified algorithm parameter to the specified value.
sign() Returns the signature bytes of all the data updated.
toString() Returns a string representation of this signature object, providing information that includes the state of the object and the name of the algorithm used.
update(byte) Updates the data to be signed or verified by a byte.
update(byte[]) Updates the data to be signed or verified, using the specified array of bytes.
update(byte[], int, int) Updates the data to be signed or verified, using the specified array of bytes, starting at the specified offset.
verify(byte[]) Verifies the passed-in signature.
UNINITIALIZED
protected static final int UNINITIALIZED
Possible state value, signifying that this signature object has not yet been initialized.
SIGN
protected static final int SIGN
Possible state value, signifying that this signature object has been initialized for signing.
VERIFY
protected static final int VERIFY
Possible state value, signifying that this signature object has been initialized for verification.
state
protected int state
Current state of this signature object.
Signature
protected Signature(String algorithm)
Creates a Signature object for the specified algorithm.
Parameters: algorithm - the standard string name of the algorithm. See Appendix A in the Java Cryptography Architecture API Specification & Reference for information about standard algorithm names.
getInstance
public static Signature getInstance(String algorithm) throws NoSuchAlgorithmException
Generates a Signature object that implements the specified algorithm. If the default provider package contains a Signature subclass implementing the algorithm, an instance of that subclass is returned. If the algorithm is not available in the default package, other packages are searched.
Parameters: algorithm - the standard name of the algorithm requested. See Appendix A in the Java Cryptography Architecture API Specification & Reference for information about standard algorithm names. Returns: the new Signature object. Throws: NoSuchAlgorithmException if the algorithm is not available in the environment.
getInstance
public static Signature getInstance(String algorithm, String provider) throws NoSuchAlgorithmException, NoSuchProviderException
Generates a Signature object implementing the specified algorithm, as supplied from the specified provider, if such an algorithm is available from the provider.
Parameters: algorithm - the name of the algorithm requested. See Appendix A in the Java Cryptography Architecture API Specification & Reference for information about standard algorithm names. provider - the name of the provider. Returns: the new Signature object. Throws: NoSuchAlgorithmException if the algorithm is not available in the package supplied by the requested provider. Throws: NoSuchProviderException if the provider is not available in the environment. See Also: Provider
initVerify
public final void initVerify(PublicKey publicKey) throws InvalidKeyException
Initializes this object for verification. If this method is called again with a different argument, it negates the effect of this call.
Parameters: publicKey - the public key of the identity whose signature is going to be verified. Throws: InvalidKeyException if the key is invalid.
initSign
public final void initSign(PrivateKey privateKey) throws InvalidKeyException
Initialize this object for signing. If this method is called again with a different argument, it negates the effect of this call.
Parameters: privateKey - the private key of the identity whose signature is going to be generated. Throws: InvalidKeyException if the key is invalid.
sign
public final byte[] sign() throws SignatureException
Returns the signature bytes of all the data updated. The signature returned is X.509-encoded. A call to this method resets this signature object to the state it was in when previously initialized for signing via a call to initSign(PrivateKey). That is, the object is reset and available to generate another signature from the same signer, if desired, via new calls to update and sign.
Returns: the signature bytes of the signing operation's result. Throws: SignatureException if this signature object is not initialized properly.
verify
public final boolean verify(byte signature[]) throws SignatureException
Verifies the passed-in signature. The signature bytes are expected to be X.509-encoded. A call to this method resets this signature object to the state it was in when previously initialized for verification via a call to initVerify(PublicKey). That is, the object is reset and available to verify another signature from the identity whose public key was specified in the call to initVerify.
Parameters: signature - the signature bytes to be verified. Returns: true if the signature was verified, false if not. Throws: SignatureException if this signature object is not initialized properly, or the passed-in signature is improperly encoded or of the wrong type, etc.
update
public final void update(byte b) throws SignatureException
Updates the data to be signed or verified by a byte.
Parameters: b - the byte to use for the update. Throws: SignatureException if this signature object is not initialized properly.
update
public final void update(byte data[]) throws SignatureException
Updates the data to be signed or verified, using the specified array of bytes.
Parameters: data - the byte array to use for the update. Throws: SignatureException if this signature object is not initialized properly.
update
public final void update(byte data[], int off, int len) throws SignatureException
Updates the data to be signed or verified, using the specified array of bytes, starting at the specified offset.
Parameters: data - the array of bytes. off - the offset to start from in the array of bytes. len - the number of bytes to use, starting at offset. Throws: SignatureException if this signature object is not initialized properly.
getAlgorithm
public final String getAlgorithm()
Returns the name of the algorithm for this signature object.
Returns: the name of the algorithm for this signature object.
toString
public String toString()
Returns a string representation of this signature object, providing information that includes the state of the object and the name of the algorithm used.
Returns: a string representation of this signature object. Overrides: toString in class Object
setParameter
public final void setParameter(String param, Object value) throws InvalidParameterException
Sets the specified algorithm parameter to the specified value. This method supplies a general-purpose mechanism through which it is possible to set the various parameters of this object. A parameter may be any settable parameter for the algorithm, such as a parameter size, or a source of random bits for signature generation (if appropriate), or an indication of whether or not to perform a specific but optional computation. A uniform algorithm-specific naming scheme for each parameter is desirable but left unspecified at this time.
Parameters: param - the string identifier of the parameter. value - the parameter value. Throws: InvalidParameterException if param is an invalid parameter for this signature algorithm engine, the parameter is already set and cannot be set again, a security exception occurs, and so on.
getParameter
public final Object getParameter(String param) throws InvalidParameterException
Gets the value of the specified algorithm parameter. This method supplies a general-purpose mechanism through which it is possible to get the various parameters of this object. A parameter may be any settable parameter for the algorithm, such as a parameter size, or a source of random bits for signature generation (if appropriate), or an indication of whether or not to perform a specific but optional computation. A uniform algorithm-specific naming scheme for each parameter is desirable but left unspecified at this time.
Parameters: param - the string name of the parameter. Returns: the object that represents the parameter value, or null if there is none. Throws: InvalidParameterException if param is an invalid parameter for this engine, or another exception occurs while trying to get this parameter.
SPI: Initializes this signature object with the specified public key for verification operations.
Parameters: publicKey - the public key of the identity whose signature is going to be verified. Throws: InvalidKeyException if the key is improperly encoded, parameters are missing, and so on.
SPI: Initializes this signature object with the specified private key for signing operations.
Parameters: privateKey - the private key of the identity whose signature will be generated. Throws: InvalidKeyException if the key is improperly encoded, parameters are missing, and so on.
engineUpdate
protected abstract void engineUpdate(byte b) throws SignatureException
SPI: Updates the data to be signed or verified using the specified byte.
Parameters: b - the byte to use for the update. Throws: SignatureException if the engine is not initialized properly.
engineUpdate
protected abstract void engineUpdate(byte b[], int off, int len) throws SignatureException
SPI: Updates the data to be signed or verified, using the specified array of bytes, starting at the specified offset.
Parameters: data - the array of bytes. off - the offset to start from in the array of bytes. len - the number of bytes to use, starting at offset. Throws: SignatureException if the engine is not initialized properly.
SPI: Returns the signature bytes of all the data updated so far. The signature returned is X.509-encoded. For more information about the X.509 encoding, see X.509 certificates.
Returns: the signature bytes of the signing operation's result. Throws: SignatureException if the engine is not initialized properly.
SPI: Verifies the passed-in signature. The signature bytes are expected to be X.509-encoded. For more information about the X.509 encoding, see X.509 certificates.
Parameters: sigBytes - the signature bytes to be verified. Returns: true if the signature was verified, false if not. Throws: SignatureException if the engine is not initialized properly, or the passed-in signature is improperly encoded or of the wrong type, etc.
SPI: Sets the specified algorithm parameter to the specified value. This method supplies a general-purpose mechanism through which it is possible to set the various parameters of this object. A parameter may be any settable parameter for the algorithm, such as a parameter size, or a source of random bits for signature generation (if appropriate), or an indication of whether or not to perform a specific but optional computation. A uniform algorithm-specific naming scheme for each parameter is desirable but left unspecified at this time.
Parameters: param - the string identifier of the parameter. value - the parameter value. Throws: InvalidParameterException if param is an invalid parameter for this signature algorithm engine, the parameter is already set and cannot be set again, a security exception occurs, and so on.
SPI: Gets the value of the specified algorithm parameter. This method supplies a general-purpose mechanism through which it is possible to get the various parameters of this object. A parameter may be any settable parameter for the algorithm, such as a parameter size, or a source of random bits for signature generation (if appropriate), or an indication of whether or not to perform a specific but optional computation. A uniform algorithm-specific naming scheme for each parameter is desirable but left unspecified at this time.
Parameters: param - the string name of the parameter. Returns: the object that represents the parameter value, or null if there is none. Throws: InvalidParameterException if param is an invalid parameter for this engine, or another exception occurs while trying to get this parameter.
clone
public Object clone() throws CloneNotSupportedException
Returns a clone if the implementation is cloneable.
Returns: a clone if the implementation is cloneable. Throws: CloneNotSupportedException if this is called on an implementation that does not support Cloneable. Overrides: clone in class Object
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