use of org.apache.wss4j.policy.model.X509Token in project cxf by apache.
the class ConcreteSupportingTokenPolicyValidator method validatePolicies.
/**
* Validate policies.
*/
public void validatePolicies(PolicyValidatorParameters parameters, Collection<AssertionInfo> ais) {
for (AssertionInfo ai : ais) {
SupportingTokens binding = (SupportingTokens) ai.getAssertion();
ai.setAsserted(true);
setSignedParts(binding.getSignedParts());
setEncryptedParts(binding.getEncryptedParts());
setSignedElements(binding.getSignedElements());
setEncryptedElements(binding.getEncryptedElements());
List<AbstractToken> tokens = binding.getTokens();
for (AbstractToken token : tokens) {
if (!isTokenRequired(token, parameters.getMessage())) {
continue;
}
boolean processingFailed = false;
if (token instanceof UsernameToken) {
if (!processUsernameTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof SamlToken) {
if (!processSAMLTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof KerberosToken) {
if (!processKerberosTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof X509Token) {
if (!processX509Tokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof KeyValueToken) {
if (!processKeyValueTokens(parameters)) {
processingFailed = true;
}
} else if (token instanceof SecurityContextToken || token instanceof SpnegoContextToken) {
if (!processSCTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof IssuedToken) {
IssuedToken issuedToken = (IssuedToken) token;
if (isSamlTokenRequiredForIssuedToken(issuedToken) && !processSAMLTokens(parameters, false)) {
processingFailed = true;
}
} else {
processingFailed = true;
}
if (processingFailed) {
ai.setNotAsserted("The received token does not match the supporting token requirement");
continue;
}
}
}
}
use of org.apache.wss4j.policy.model.X509Token in project cxf by apache.
the class EncryptedTokenPolicyValidator method validatePolicies.
/**
* Validate policies.
*/
public void validatePolicies(PolicyValidatorParameters parameters, Collection<AssertionInfo> ais) {
// Tokens must be encrypted even if TLS is used unless we have a TransportBinding policy available
if (isTLSInUse(parameters.getMessage())) {
AssertionInfo transportAi = PolicyUtils.getFirstAssertionByLocalname(parameters.getAssertionInfoMap(), SPConstants.TRANSPORT_BINDING);
super.setEnforceEncryptedTokens(transportAi == null);
}
for (AssertionInfo ai : ais) {
SupportingTokens binding = (SupportingTokens) ai.getAssertion();
ai.setAsserted(true);
setSignedParts(binding.getSignedParts());
setEncryptedParts(binding.getEncryptedParts());
setSignedElements(binding.getSignedElements());
setEncryptedElements(binding.getEncryptedElements());
List<AbstractToken> tokens = binding.getTokens();
for (AbstractToken token : tokens) {
if (!isTokenRequired(token, parameters.getMessage())) {
continue;
}
boolean processingFailed = false;
if (token instanceof UsernameToken) {
if (!processUsernameTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof KerberosToken) {
if (!processKerberosTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof X509Token) {
if (!processX509Tokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof KeyValueToken) {
if (!processKeyValueTokens(parameters)) {
processingFailed = true;
}
} else if (token instanceof SecurityContextToken || token instanceof SpnegoContextToken) {
if (!processSCTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof SamlToken) {
if (!processSAMLTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof IssuedToken) {
IssuedToken issuedToken = (IssuedToken) token;
if (isSamlTokenRequiredForIssuedToken(issuedToken) && !processSAMLTokens(parameters, false)) {
processingFailed = true;
}
} else {
processingFailed = true;
}
if (processingFailed) {
ai.setNotAsserted("The received token does not match the encrypted supporting token requirement");
continue;
}
}
}
}
use of org.apache.wss4j.policy.model.X509Token in project cxf by apache.
the class EndorsingEncryptedTokenPolicyValidator method validatePolicies.
/**
* Validate policies.
*/
public void validatePolicies(PolicyValidatorParameters parameters, Collection<AssertionInfo> ais) {
// Tokens must be encrypted even if TLS is used unless we have a TransportBinding policy available
if (isTLSInUse(parameters.getMessage())) {
AssertionInfo transportAi = PolicyUtils.getFirstAssertionByLocalname(parameters.getAssertionInfoMap(), SPConstants.TRANSPORT_BINDING);
super.setEnforceEncryptedTokens(transportAi == null);
}
for (AssertionInfo ai : ais) {
SupportingTokens binding = (SupportingTokens) ai.getAssertion();
ai.setAsserted(true);
setSignedParts(binding.getSignedParts());
setEncryptedParts(binding.getEncryptedParts());
setSignedElements(binding.getSignedElements());
setEncryptedElements(binding.getEncryptedElements());
List<AbstractToken> tokens = binding.getTokens();
for (AbstractToken token : tokens) {
if (!isTokenRequired(token, parameters.getMessage())) {
assertDerivedKeys(token, parameters.getAssertionInfoMap());
assertSecurePartsIfTokenNotRequired(binding, parameters.getAssertionInfoMap());
continue;
}
DerivedKeys derivedKeys = token.getDerivedKeys();
boolean derived = derivedKeys == DerivedKeys.RequireDerivedKeys;
boolean processingFailed = false;
if (token instanceof KerberosToken) {
if (!processKerberosTokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof X509Token) {
if (!processX509Tokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof KeyValueToken) {
if (!processKeyValueTokens(parameters)) {
processingFailed = true;
}
} else if (token instanceof UsernameToken) {
if (!processUsernameTokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof SecurityContextToken || token instanceof SpnegoContextToken) {
if (!processSCTokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof SamlToken) {
if (!processSAMLTokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof IssuedToken) {
IssuedToken issuedToken = (IssuedToken) token;
if (isSamlTokenRequiredForIssuedToken(issuedToken) && !processSAMLTokens(parameters, derived)) {
processingFailed = true;
}
} else {
processingFailed = true;
}
if (processingFailed) {
ai.setNotAsserted("The received token does not match the endorsing encrypted " + "supporting token requirement");
continue;
}
if (derived && parameters.getResults().getActionResults().containsKey(WSConstants.DKT)) {
assertDerivedKeys(token, parameters.getAssertionInfoMap());
}
}
}
}
use of org.apache.wss4j.policy.model.X509Token in project cxf by apache.
the class SignedEncryptedTokenPolicyValidator method validatePolicies.
/**
* Validate policies.
*/
public void validatePolicies(PolicyValidatorParameters parameters, Collection<AssertionInfo> ais) {
// Tokens must be encrypted even if TLS is used unless we have a TransportBinding policy available
if (isTLSInUse(parameters.getMessage())) {
AssertionInfo transportAi = PolicyUtils.getFirstAssertionByLocalname(parameters.getAssertionInfoMap(), SPConstants.TRANSPORT_BINDING);
super.setEnforceEncryptedTokens(transportAi == null);
}
for (AssertionInfo ai : ais) {
SupportingTokens binding = (SupportingTokens) ai.getAssertion();
ai.setAsserted(true);
setSignedParts(binding.getSignedParts());
setEncryptedParts(binding.getEncryptedParts());
setSignedElements(binding.getSignedElements());
setEncryptedElements(binding.getEncryptedElements());
List<AbstractToken> tokens = binding.getTokens();
for (AbstractToken token : tokens) {
if (!isTokenRequired(token, parameters.getMessage())) {
continue;
}
boolean processingFailed = false;
if (token instanceof UsernameToken) {
if (!processUsernameTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof KerberosToken) {
if (!processKerberosTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof X509Token) {
if (!processX509Tokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof KeyValueToken) {
if (!processKeyValueTokens(parameters)) {
processingFailed = true;
}
} else if (token instanceof SecurityContextToken || token instanceof SpnegoContextToken) {
if (!processSCTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof SamlToken) {
if (!processSAMLTokens(parameters, false)) {
processingFailed = true;
}
} else if (token instanceof IssuedToken) {
IssuedToken issuedToken = (IssuedToken) token;
if (isSamlTokenRequiredForIssuedToken(issuedToken) && !processSAMLTokens(parameters, false)) {
processingFailed = true;
}
} else {
processingFailed = true;
}
if (processingFailed) {
ai.setNotAsserted("The received token does not match the signed encrypted supporting token requirement");
continue;
}
}
}
}
use of org.apache.wss4j.policy.model.X509Token in project cxf by apache.
the class SignedEndorsingEncryptedTokenPolicyValidator method validatePolicies.
/**
* Validate policies.
*/
public void validatePolicies(PolicyValidatorParameters parameters, Collection<AssertionInfo> ais) {
// Tokens must be encrypted even if TLS is used unless we have a TransportBinding policy available
if (isTLSInUse(parameters.getMessage())) {
AssertionInfo transportAi = PolicyUtils.getFirstAssertionByLocalname(parameters.getAssertionInfoMap(), SPConstants.TRANSPORT_BINDING);
super.setEnforceEncryptedTokens(transportAi == null);
}
for (AssertionInfo ai : ais) {
SupportingTokens binding = (SupportingTokens) ai.getAssertion();
ai.setAsserted(true);
setSignedParts(binding.getSignedParts());
setEncryptedParts(binding.getEncryptedParts());
setSignedElements(binding.getSignedElements());
setEncryptedElements(binding.getEncryptedElements());
List<AbstractToken> tokens = binding.getTokens();
for (AbstractToken token : tokens) {
if (!isTokenRequired(token, parameters.getMessage())) {
assertDerivedKeys(token, parameters.getAssertionInfoMap());
assertSecurePartsIfTokenNotRequired(binding, parameters.getAssertionInfoMap());
continue;
}
DerivedKeys derivedKeys = token.getDerivedKeys();
boolean derived = derivedKeys == DerivedKeys.RequireDerivedKeys;
boolean processingFailed = false;
if (token instanceof KerberosToken) {
if (!processKerberosTokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof SamlToken) {
if (!processSAMLTokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof X509Token) {
if (!processX509Tokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof KeyValueToken) {
if (!processKeyValueTokens(parameters)) {
processingFailed = true;
}
} else if (token instanceof UsernameToken) {
if (!processUsernameTokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof SecurityContextToken || token instanceof SpnegoContextToken) {
if (!processSCTokens(parameters, derived)) {
processingFailed = true;
}
} else if (token instanceof IssuedToken) {
IssuedToken issuedToken = (IssuedToken) token;
if (isSamlTokenRequiredForIssuedToken(issuedToken) && !processSAMLTokens(parameters, derived)) {
processingFailed = true;
}
} else {
processingFailed = true;
}
if (processingFailed) {
ai.setNotAsserted("The received token does not match the signed endorsing encrypted " + "supporting token requirement");
continue;
}
if (derived && parameters.getResults().getActionResults().containsKey(WSConstants.DKT)) {
assertDerivedKeys(token, parameters.getAssertionInfoMap());
}
}
}
}
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