Generating and Verifying Signatures |
Now that you have created a public key and a private key, you are ready to sign the data. In this example you will sign the data contained in a file.
GenSig
gets the file name from the command line. A digital signature is created (or verified) using an instance of theSignature
class.Signing data, generating a digital signature for that data, is done with the following steps.
Get a Signature Object:
The following gets aSignature
object for generating or verifying signatures using the DSA algorithm, the same algorithm for which the program generated keys in the previous step, Generate Public and Private Keys.Signature dsa = Signature.getInstance("SHA1withDSA", "SUN");Note: When specifying the signature algorithm name, you should also include the name of the message digest algorithm used by the signature algorithm. SHA1withDSA is a way of specifying the DSA signature algorithm, using the SHA-1 message digest algorithm.
Initialize the Signature Object
Before a
Signature
object can be used for signing or verifying, it must be initialized. The initialization method for signing requires a private key. Use the private key placed into thePrivateKey
object namedpriv
in the previous step.dsa.initSign(priv);Supply the Signature Object the Data to Be Signed
This program will use the data from the file whose name is specified as the first (and only) command line argument. The program will read in the data a buffer at a time and will supply it to theSignature
object by calling theupdate
method.FileInputStream fis = new FileInputStream(args[0]); BufferedInputStream bufin = new BufferedInputStream(fis); byte[] buffer = new byte[1024]; int len; while (bufin.available() != 0) { len = bufin.read(buffer); dsa.update(buffer, 0, len); }; bufin.close();Generate the Signature
Once all of the data has been supplied to the
Signature
object, you can generate the digital signature of that data.byte[] realSig = dsa.sign();
Generating and Verifying Signatures |