WAS v8.5 > Reference > Developer detailed usage informationSignature verification methods using the WSSVerification API
We can verify the signing or signature information using the WSS API for the consumer binding. The signature and canonicalization algorithm methods are used for the generator binding. The WSSVerification API is provided in the com.ibm.websphere.wssecurity.wssapi.verification package.
To configure consumer signing information to protect message integrity, first digitally sign and then verify the signature for the SOAP messages. Integrity refers to digital signature while confidentiality refers to encryption. Integrity decreases the risk of data modification when we transmit data across a network.
Methods
Methods used for the signature verification include the:
- Signature method
- Sets the signature algorithm method.
- Canonicalization method
- Sets the canonicalization algorithm method.
The algorithm specified for the request generator configuration must match the algorithm specified for the response consumer configuration.
Signature algorithms
The signature algorithms specify the signature verification algorithm used to sign the certificate. The signature algorithms specify the Uniform Resource Identifiers (URI) of the signature verification method. WebSphere Application Server supports the following pre-configured algorithms:
Signature verification algorithms. The algorithms include the signature methods.
Algorithm Description WSSVerification.HMAC_SHA1 A URI of the signature algorithm, HMAC: http://www.w3.org/2000/09/xmldsig#hmac-sha1 WSSVerification.RSA_SHA1 (the default value) A URI of the signature algorithm, RSA: http://www.w3.org/2000/09/xmldsig#rsa-sha1 WAS does not support the algorithm for DSA-SHA1: http://www.w3.org/2000/09/xmldsig#dsa-sha1
Canonicalization algorithms
The canonicalization algorithms specify the Uniform Resource Identifiers (URI) of the canonicalization method. WAS supports the following pre-configured algorithms:
Verification canonicalization algorithms. The algorithms include the canonicalization methods.
Algorithm Description WSSVerification.C14N A URI of the inclusive canonicalization algorithm, C14N: http://www.w3.org/2001/10/xml-c14n# WSSVerification.EXC_C14N (the default value) A URI of the exclusive canonicalization algorithm EXC_C14N: http://www.w3.org/2001/10/xml-exc-c14n#
The following example provides sample WSS API code that specifies the X.509 token security token for signature verification:
WSSFactory factory = WSSFactory.getInstance(); WSSConsumingContext concont = factory.newWSSConsumingContext(); // X509ConsumeCallbackHandler X509ConsumeCallbackHandler callbackHandler = new X509ConsumeCallbackHandler("dsig-receiver.ks", "jks", "server".toCharArray(), certList, java.security.Security.getProvider("IBMCertPath")46 ); // Set the verification component // DEFAULT verification parts: Body, WS-Addressing header, and Timestamp // DEFAULT data encryption algorithm: RSA-SHA1 // DEFAULT digest algorithm: SHA1 // DEFAULT canonicalization algorithm: exc-c14n WSSVerification ver = factory.newWSSVerification(X509Token.class, callbackhandler); concont.add(ver); // Validate the WS-Security header concont.validate(msgctx);
Reference:
Choose the verify parts methods using the WSSVerifyPart API
Signed parts methods using the WSSSignPart API
Digital signing methods using the WSSSignature API