Examples of org.apache.ws.security.saml.SAMLKeyInfo

• org.apache.ws.security.saml.SAMLKeyInfo
  This holds key/cert information extracted from a SAML assertion

        for (String confirmationMethod : confirmationMethods) {
            if (OpenSAMLUtil.isMethodHolderOfKey(confirmationMethod)) {
                if (tlsCerts == null && (signedResults == null || signedResults.isEmpty())) {
                    return false;
                }
                SAMLKeyInfo subjectKeyInfo = assertionWrapper.getSubjectKeyInfo();
                if (!compareCredentials(subjectKeyInfo, signedResults, tlsCerts)) {
                    return false;
                }
            }
        }

        private SecurityToken createSecurityToken(
            AssertionWrapper assertionWrapper
        ) {
            SecurityToken token = new SecurityToken(assertionWrapper.getId());

            SAMLKeyInfo subjectKeyInfo = assertionWrapper.getSubjectKeyInfo();
            if (subjectKeyInfo != null) {
                token.setSecret(subjectKeyInfo.getSecret());
                X509Certificate[] certs = subjectKeyInfo.getCerts();
                if (certs != null && certs.length > 0) {
                    token.setX509Certificate(certs[0], null);
                }
            }
            if (assertionWrapper.getSaml1() != null) {

        private SecurityToken createSecurityToken(
            AssertionWrapper assertionWrapper
        ) {
            SecurityToken token = new SecurityToken(assertionWrapper.getId());

            SAMLKeyInfo subjectKeyInfo = assertionWrapper.getSubjectKeyInfo();
            if (subjectKeyInfo != null) {
                token.setSecret(subjectKeyInfo.getSecret());
                X509Certificate[] certs = subjectKeyInfo.getCerts();
                if (certs != null && certs.length > 0) {
                    token.setX509Certificate(certs[0], null);
                }
            }
            if (assertionWrapper.getSaml1() != null) {

        data.setDecCrypto(CryptoFactory.getInstance(properties));
        data.setCallbackHandler(new PasswordCallbackHandler());
        data.setWssConfig(WSSConfig.getNewInstance());

        assertionWrapper.parseHOKSubject(data, new WSDocInfo(assertion.getOwnerDocument()));
        SAMLKeyInfo samlKeyInfo = assertionWrapper.getSubjectKeyInfo();
        assertTrue(Arrays.equals(secret, samlKeyInfo.getSecret()));
    }

                // Validate the assertion against schemas/profiles
                validateAssertion(assertion);

                // Now verify trust on the signature
                Credential trustCredential = new Credential();
                SAMLKeyInfo samlKeyInfo = assertion.getSignatureKeyInfo();
                trustCredential.setPublicKey(samlKeyInfo.getPublicKey());
                trustCredential.setCertificates(samlKeyInfo.getCerts());

                trustCredential = validator.validate(trustCredential, requestData);

                // Finally check that subject DN of the signing certificate matches a known constraint
                X509Certificate cert = null;

        for (String confirmationMethod : confirmationMethods) {
            if (OpenSAMLUtil.isMethodHolderOfKey(confirmationMethod)) {
                if (tlsCerts == null && (signedResults == null || signedResults.isEmpty())) {
                    return false;
                }
                SAMLKeyInfo subjectKeyInfo = assertionWrapper.getSubjectKeyInfo();
                if (!compareCredentials(subjectKeyInfo, signedResults, tlsCerts)) {
                    return false;
                }
            }
        }

        sig.addResourceResolver(EnvelopeIdResolver.getInstance());

        KeyInfo info = sig.getKeyInfo();
        UsernameToken ut = null;
        DerivedKeyToken dkt = null;
        SAMLKeyInfo samlKi = null;
        String customTokenId = null;
        java.security.PublicKey publicKey = null;
        X509Certificate[] certs = null;
        boolean validateCertificateChain = false;
        boolean kerbThumbPrint = false;

        if (info != null && info.containsKeyValue()) {
            try {
                publicKey = info.getPublicKey();
            } catch (Exception ex) {
                throw new WSSecurityException(ex.getMessage(), ex);
            }
        } else if (info != null) {
            Node node =
                WSSecurityUtil.getDirectChild(
                    info.getElement(),
                    SecurityTokenReference.SECURITY_TOKEN_REFERENCE,
                    WSConstants.WSSE_NS
                );
            if (node == null) {
                throw new WSSecurityException(
                    WSSecurityException.INVALID_SECURITY, "unsupportedKeyInfo"
                );
            }
            SecurityTokenReference secRef = new SecurityTokenReference((Element) node);
            //
            // Here we get some information about the document that is being
            // processed, in particular the crypto implementation, and already
            // detected BST that may be used later during dereferencing.
            //
            if (secRef.containsReference()) {
                org.apache.ws.security.message.token.Reference ref = secRef.getReference();
                Element krbToken = secRef.getTokenElement(elem.getOwnerDocument(), wsDocInfo, cb);

                if (krbToken
            .getAttribute("ValueType")
            .equals(
                "http://docs.oasis-open.org/wss/oasis-wss-kerberos-token-profile-1.1#GSS_Kerberosv5_AP_REQ")) {

                  KerberosTokenProcessor krbp = new KerberosTokenProcessor(this.returnResults);
          return krbp.verifyXMLSignature(elem, crypto, returnCert,
              returnElements, protectedElements, signatureValue,
              cb);
        }

                String uri = ref.getURI();
                if (uri.charAt(0) == '#') {
                    uri = uri.substring(1);
                }
                Processor processor = wsDocInfo.getProcessor(uri);
                if (processor == null) {
                    Element token = secRef.getTokenElement(elem.getOwnerDocument(), wsDocInfo, cb);
                    //
                    // at this point check token type: Binary, SAML, EncryptedKey, Custom
                    //
                    QName el = new QName(token.getNamespaceURI(), token.getLocalName());
                    if (el.equals(WSSecurityEngine.binaryToken)) {
                        certs = getCertificatesTokenReference(token, crypto);
                        if (certs != null && certs.length > 1) {
                            validateCertificateChain = true;
                        }
                    } else if (el.equals(WSSecurityEngine.SAML_TOKEN)) {
                        if (crypto == null) {
                            throw new WSSecurityException(
                                    WSSecurityException.FAILURE, "noSigCryptoFile"
                            );
                        }
                        samlKi = SAMLUtil.getSAMLKeyInfo(token, crypto, cb);
                        certs = samlKi.getCerts();
                        secretKey = samlKi.getSecret();

                    } else if (el.equals(WSSecurityEngine.ENCRYPTED_KEY)){
                        if (crypto == null) {
                            throw new WSSecurityException(
                                WSSecurityException.FAILURE, "noSigCryptoFile"
                            );
                        }
                        EncryptedKeyProcessor encryptKeyProcessor = new EncryptedKeyProcessor();
                        encryptKeyProcessor.handleEncryptedKey(token, cb, crypto);
                        secretKey = encryptKeyProcessor.getDecryptedBytes();
                    } else {
                        // Try custom token through callback handler
                        // try to find a custom token
                        String id = secRef.getReference().getURI();
                        if (id.charAt(0) == '#') {
                            id = id.substring(1);
                        }
                        WSPasswordCallback pwcb =
                            new WSPasswordCallback(id, WSPasswordCallback.CUSTOM_TOKEN);
                        try {
                            Callback[] callbacks = new Callback[]{pwcb};
                            cb.handle(callbacks);
                        } catch (Exception e) {
                            throw new WSSecurityException(
                                    WSSecurityException.FAILURE,
                                    "noPassword",
                                    new Object[] {id},
                                    e
                            );
                        }

                        secretKey = pwcb.getKey();
                        customTokenId = id;
                        if (secretKey == null) {
                            throw new WSSecurityException(
                                    WSSecurityException.INVALID_SECURITY,
                                    "unsupportedKeyInfo",
                                    new Object[]{el.toString()}
                            );
                        }
                    }
                } else if (processor instanceof UsernameTokenProcessor) {
                    ut = ((UsernameTokenProcessor)processor).getUt();
                    if (ut.isDerivedKey()) {
                        secretKey = ut.getDerivedKey();
                    } else {
                        secretKey = ut.getSecretKey(secretKeyLength);
                    }
                } else if (processor instanceof BinarySecurityTokenProcessor) {
                    certs = ((BinarySecurityTokenProcessor)processor).getCertificates();
                    if (certs != null && certs.length > 1) {
                        validateCertificateChain = true;
                    }
                } else if (processor instanceof EncryptedKeyProcessor) {
                    EncryptedKeyProcessor ekProcessor = (EncryptedKeyProcessor)processor;
                    secretKey = ekProcessor.getDecryptedBytes();
                    customTokenId = ekProcessor.getId();
                } else if (processor instanceof SecurityContextTokenProcessor) {
                    SecurityContextTokenProcessor sctProcessor =
                        (SecurityContextTokenProcessor)processor;
                    secretKey = sctProcessor.getSecret();
                    customTokenId = sctProcessor.getIdentifier();
                } else if (processor instanceof DerivedKeyTokenProcessor) {
                    DerivedKeyTokenProcessor dktProcessor =
                        (DerivedKeyTokenProcessor) processor;
                    String signatureMethodURI = sig.getSignedInfo().getSignatureMethodURI();
                    dkt = dktProcessor.getDerivedKeyToken();
                    int keyLength = (dkt.getLength() > 0) ? dkt.getLength() :
                        WSSecurityUtil.getKeyLength(signatureMethodURI);

                    secretKey = dktProcessor.getKeyBytes(keyLength);
                } else if (processor instanceof SAMLTokenProcessor) {
                    if (crypto == null) {
                        throw new WSSecurityException(
                            WSSecurityException.FAILURE, "noSigCryptoFile"
                        );
                    }
                    SAMLTokenProcessor samlp = (SAMLTokenProcessor) processor;
                    samlKi = SAMLUtil.getSAMLKeyInfo(samlp.getSamlTokenElement(), crypto, cb);
                    certs = samlKi.getCerts();
                    secretKey = samlKi.getSecret();
                    publicKey = samlKi.getPublicKey();
                }
            } else if (secRef.containsX509Data() || secRef.containsX509IssuerSerial()) {
                certs = secRef.getX509IssuerSerial(crypto);
            } else if (secRef.containsKeyIdentifier()) {
                if (secRef.getKeyIdentifierValueType().equals(SecurityTokenReference.ENC_KEY_SHA1_URI)) {
                    String id = secRef.getKeyIdentifierValue();
                    WSPasswordCallback pwcb =
                        new WSPasswordCallback(
                            id,
                            null,
                            SecurityTokenReference.ENC_KEY_SHA1_URI,
                            WSPasswordCallback.ENCRYPTED_KEY_TOKEN
                        );
                    try {
                        Callback[] callbacks = new Callback[]{pwcb};
                        cb.handle(callbacks);
                    } catch (Exception e) {
                        throw new WSSecurityException(
                            WSSecurityException.FAILURE,
                            "noPassword",
                            new Object[] {id},
                            e
                        );
                    }
                    secretKey = pwcb.getKey();
                } else if (WSConstants.WSS_SAML_KI_VALUE_TYPE.equals(secRef.getKeyIdentifierValueType())) {
                    Element token =
                        secRef.getKeyIdentifierTokenElement(elem.getOwnerDocument(), wsDocInfo, cb);

                    if (crypto == null) {
                        throw new WSSecurityException(
                            WSSecurityException.FAILURE, "noSigCryptoFile"
                        );
                    }
                    samlKi = SAMLUtil.getSAMLKeyInfo(token, crypto, cb);
                    certs = samlKi.getCerts();
                    secretKey = samlKi.getSecret();
                    publicKey = samlKi.getPublicKey();
                } else {
                    certs = secRef.getKeyIdentifier(crypto);
                    if (certs == null && secRef.containsKerberosThumbprint()) {
            secretKey = secRef.getKerberosSession().getSessionKey()
                .getEncoded();
            kerbThumbPrint = true;
          }
                }
            } else {
                throw new WSSecurityException(
                    WSSecurityException.INVALID_SECURITY,
                    "unsupportedKeyInfo",
                    new Object[]{node.toString()}
                );
            }
        } else {
            if (crypto == null) {
                throw new WSSecurityException(WSSecurityException.FAILURE, "noSigCryptoFile");
            }
            if (crypto.getDefaultX509Alias() != null) {
                certs = crypto.getCertificates(crypto.getDefaultX509Alias());
            } else {
                throw new WSSecurityException(
                    WSSecurityException.INVALID_SECURITY, "unsupportedKeyInfo"
                );
            }
        }
        if (tlog.isDebugEnabled()) {
            t1 = System.currentTimeMillis();
        }
        if ((certs == null || certs.length == 0 || certs[0] == null)
            && secretKey == null
            && publicKey == null
            && !kerbThumbPrint) {
            throw new WSSecurityException(WSSecurityException.FAILED_CHECK);
        }
        if (certs != null) {
            try {
                for (int i = 0; i < certs.length; i++) {
                    certs[i].checkValidity();
                }
            } catch (CertificateExpiredException e) {
                throw new WSSecurityException(
                    WSSecurityException.FAILED_CHECK, "invalidCert", null, e
                );
            } catch (CertificateNotYetValidException e) {
                throw new WSSecurityException(
                    WSSecurityException.FAILED_CHECK, "invalidCert", null, e
                );
            }
        }
        //
        // Delegate verification of a public key to a Callback Handler
        //
        if (publicKey != null) {
            PublicKeyCallback pwcb =
                new PublicKeyCallback(publicKey);
            try {
                Callback[] callbacks = new Callback[]{pwcb};
                cb.handle(callbacks);
                if (!pwcb.isVerified()) {
                    throw new WSSecurityException(
                        WSSecurityException.FAILED_AUTHENTICATION, null, null, null
                    );
                }
            } catch (Exception e) {
                throw new WSSecurityException(
                    WSSecurityException.FAILED_AUTHENTICATION, null, null, e
                );
            }
        }
        try {
            boolean signatureOk = false;
            if (certs != null) {
                signatureOk = sig.checkSignatureValue(certs[0]);
            } else if (publicKey != null) {
                signatureOk = sig.checkSignatureValue(publicKey);
            } else {
                signatureOk = sig.checkSignatureValue(sig.createSecretKey(secretKey));
            }
            if (signatureOk) {
                if (tlog.isDebugEnabled()) {
                    t2 = System.currentTimeMillis();
                    tlog.debug(
                        "Verify: total= " + (t2 - t0) + ", prepare-cert= " + (t1 - t0)
                        + ", verify= " + (t2 - t1)
                    );
                }
                signatureValue[0] = sig.getSignatureValue();
                //
                // Now dig into the Signature element to get the elements that
                // this Signature covers. Build the QName of these Elements and
                // return them to caller
                //
                SignedInfo si = sig.getSignedInfo();
                int numReferences = si.getLength();
                for (int i = 0; i < numReferences; i++) {
                    Reference siRef;
                    try {
                        siRef = si.item(i);
                    } catch (XMLSecurityException e3) {
                        throw new WSSecurityException(
                            WSSecurityException.FAILED_CHECK, null, null, e3
                        );
                    }
                    String uri = siRef.getURI();
                    if (uri != null && !"".equals(uri)) {

                        Element se = null;
                        try {
                            Transforms transforms = siRef.getTransforms();
                            for (int j = 0; j < transforms.getLength(); j++) {
                                Transform transform = transforms.item(j);
                                // We have some transforming to do before we can
                                // determine the protected element.
                                if (STRTransform.implementedTransformURI
                                        .equals(transform.getURI())) {

                                    XMLSignatureInput signatureInput =
                                        siRef.getContentsBeforeTransformation();

                                    if (signatureInput.isElement()) {
                                        // The signature was already validated,
                                        // meaning that this element was already
                                        // parsed.  We can therefore be pretty
                                        // confident that this constructor will work.
                                        SecurityTokenReference secTokenRef =
                                            new SecurityTokenReference(
                                                    (Element) signatureInput.getSubNode());

                                        // Use the utility to extract the element (or
                                        // generate a new one in some cases) from the
                                        // message.
                                        se = STRTransformUtil.dereferenceSTR(
                                                transform.getDocument(),
                                                secTokenRef, wsDocInfo);
                                    } else {
                                        // The internal impl of Reference changed.
                                        // We expect it to return the signature input
                                        // based on a node/element.
                                        throw new WSSecurityException(
                                                WSSecurityException.FAILURE);
                                    }
                                }
                            }
                        }
                        catch (XMLSecurityException e) {
                            log.warn("Error processing signature coverage elements.", e);
                            throw new WSSecurityException(WSSecurityException.FAILURE);
                        }

                        if (se == null) {
                            se = WSSecurityUtil.getElementByWsuId(elem.getOwnerDocument(), uri);
                        }
                        if (se == null) {
                            se = WSSecurityUtil.getElementByGenId(elem.getOwnerDocument(), uri);
                        }
                        if (se == null) {
                            throw new WSSecurityException(WSSecurityException.FAILED_CHECK);
                        }
                        WSDataRef ref = new WSDataRef(uri);
                        ref.setWsuId(uri);
                        ref.setName(new QName(se.getNamespaceURI(), se.getLocalName()));
                        ref.setProtectedElement(se);
                        ref.setXpath(ReferenceListProcessor.getXPath(se));
                        ref.setAlgorithm(si.getSignatureMethodURI());
                        ref.setDigestAlgorithm(siRef.getMessageDigestAlgorithm().getAlgorithmURI());
                        protectedElements.add(ref);
                        returnElements.add(WSSecurityUtil.getIDFromReference(uri));
                    } else {
                       // This is the case where the signed element is identified
                       // by a transform such as XPath filtering
                       // We add the complete reference element to the return
                       // elements
                       returnElements.add(siRef);
                    }
                }

                // Algorithms used for signature and c14n
                signatureMethod = si.getSignatureMethodURI();
                c14nMethod = si.getCanonicalizationMethodURI();

                if (certs != null) {
                    returnCert[0] = certs[0];
                    if (validateCertificateChain) {
                        certificates = certs;
                    }
                    return certs[0].getSubjectX500Principal();
                } else if (publicKey != null) {
                    return new PublicKeyPrincipal(publicKey);
                } else if (ut != null) {
                    WSUsernameTokenPrincipal principal =
                        new WSUsernameTokenPrincipal(ut.getName(), ut.isHashed());
                    principal.setNonce(ut.getNonce());
                    principal.setPassword(ut.getPassword());
                    principal.setCreatedTime(ut.getCreated());
                    return principal;
                } else if (dkt != null) {
                    WSDerivedKeyTokenPrincipal principal = new WSDerivedKeyTokenPrincipal(dkt.getID());
                    principal.setNonce(dkt.getNonce());
                    principal.setLabel(dkt.getLabel());
                    principal.setLength(dkt.getLength());
                    principal.setOffset(dkt.getOffset());
                    String basetokenId = null;
                    SecurityTokenReference securityTokenReference = dkt.getSecurityTokenReference();
                    if (securityTokenReference.containsReference()) {
                        basetokenId = securityTokenReference.getReference().getURI();
                        if (basetokenId.charAt(0) == '#') {
                            basetokenId = basetokenId.substring(1);
                        }
                    } else {
                        // KeyIdentifier
                        basetokenId = securityTokenReference.getKeyIdentifierValue();
                    }
                    principal.setBasetokenId(basetokenId);
                    return principal;
                } else if (samlKi != null) {
                    final SAMLAssertion assertion = samlKi.getAssertion();
                    CustomTokenPrincipal principal = new CustomTokenPrincipal(assertion.getId());
                    principal.setTokenObject(assertion);
                    return principal;
                } else if (secretKey != null) {
                    // This is the custom key scenario

            } else if (p instanceof DerivedKeyTokenProcessor) {
                DerivedKeyTokenProcessor dkp = (DerivedKeyTokenProcessor) p;
                decryptedData = dkp.getKeyBytes(WSSecurityUtil.getKeyLength(algorithm));
            } else if (p instanceof SAMLTokenProcessor) {
                SAMLTokenProcessor samlp = (SAMLTokenProcessor) p;
                SAMLKeyInfo keyInfo =
                    SAMLUtil.getSAMLKeyInfo(samlp.getSamlTokenElement(), crypto, cb);
                // TODO Handle malformed SAML tokens where they don't have the
                // secret in them
                decryptedData = keyInfo.getSecret();
            }else if (p instanceof KerberosTokenProcessor) {
              KerberosTokenProcessor krbp = (KerberosTokenProcessor) p;
        WSParameterCallback param = new WSParameterCallback(WSParameterCallback.KDC_DES_AES_FACTOR);
            int factor = 0;
          try {
          Callback[] callbacks = new Callback[] { param };
          cb.handle(callbacks);
          factor = param.getIntValue();
        } catch (Exception e) {
          //Ignore
          log.error("Error while executing parameter callback",e);
        }

        byte[] secret = krbp.getLastPrincipalFound()
            .getSessionKey();
        if (factor > 1) {
          byte[] newSecret = new byte[secret.length * factor];
          int j = 0;
          for (int i = 0; i < newSecret.length; i++) {
            newSecret[i] = secret[j++];
            if (j == secret.length)
              j = 0;
          }
          decryptedData = newSecret;
        } else {
          decryptedData = secret;
        }

        krbPricipal=krbp.getLastPrincipalFound();
      } else {
                // Try custom token
                WSPasswordCallback pwcb = new WSPasswordCallback(id, WSPasswordCallback.CUSTOM_TOKEN);
                try {
                    Callback[] callbacks = new Callback[]{pwcb};
                    cb.handle(callbacks);
                } catch (Exception e) {
                    throw new WSSecurityException(
                        WSSecurityException.FAILURE,
                        "noPassword",
                        new Object[] {id},
                        e
                    );
                }
                decryptedData = pwcb.getKey();

                if (decryptedData == null) {
                    throw new WSSecurityException(
                        WSSecurityException.FAILED_CHECK, "unsupportedKeyId"
                    );
                }
            }
        } else if (secRef.containsKeyIdentifier()) {
            if (WSConstants.WSS_SAML_KI_VALUE_TYPE.equals(secRef.getKeyIdentifierValueType())) {
                Element token =
                    secRef.getKeyIdentifierTokenElement(secRefToken.getOwnerDocument(), wsDocInfo, cb);

                if (crypto == null) {
                    throw new WSSecurityException(
                        WSSecurityException.FAILURE, "noSigCryptoFile"
                    );
                }
                SAMLKeyInfo keyInfo = SAMLUtil.getSAMLKeyInfo(token, crypto, cb);
                // TODO Handle malformed SAML tokens where they don't have the
                // secret in them
                decryptedData = keyInfo.getSecret();
            } else {
                String sha = secRef.getKeyIdentifierValue();

                WSPasswordCallback pwcb =
                    new WSPasswordCallback(

                    }

                    String id = assertion.getId();
                    Date created = assertion.getNotBefore();
                    Date expires = assertion.getNotOnOrAfter();
                    SAMLKeyInfo samlKi = SAMLUtil.getSAMLKeyInfo(assertion, signatureCrypto,
                            tokenCallbackHandler);
                    try {
                        TokenStorage store = rmd.getTokenStorage();
                        if (store.getToken(id) == null) {
                            Token token = new Token(id, (OMElement) assertion.toDOM(), created,
                                    expires);
                            token.setSecret(samlKi.getSecret());
                            store.add(token);
                        }
                    } catch (Exception e) {
                        throw new RampartException("errorInAddingTokenIntoStore", e);
                    }

                throw new WSSecurityException(
                    WSSecurityException.FAILURE, "invalidSAMLsecurity",
                    new Object[]{"cannot get certificate or key"}
                );
            }
            SAMLKeyInfo samlKeyInfo =
                SAMLUtil.getCredentialFromKeyInfo(
                    keyInfo.getDOM(), data, docInfo, data.getWssConfig().isWsiBSPCompliant()
                );

            if (algorithmSuite != null) {
                AlgorithmSuiteValidator algorithmSuiteValidator = new
                    AlgorithmSuiteValidator(algorithmSuite);

                PublicKey key = null;
                if (samlKeyInfo.getCerts() != null && samlKeyInfo.getCerts()[0] != null) {
                    key = samlKeyInfo.getCerts()[0].getPublicKey();
                } else if (samlKeyInfo.getPublicKey() != null) {
                    key = samlKeyInfo.getPublicKey();
                } else {
                    throw new WSSecurityException(
                        WSSecurityException.FAILURE, "invalidSAMLsecurity",
                        new Object[]{"cannot get certificate or key"}
                    );