Configuring token generators on the server or cell level
The token generator on the server or cell level is used to specify the information for the token generator if these bindings are not defined at the application level. The signing information and the encryption information can share the token generator information, which is why they are all defined at the same level. WebSphere® Application Server provides default values for bindings. You must modify the defaults for a production environment.
Complete the following steps to configure the token generators on the server level:
- Access the default bindings for the server level.
- Click Servers > Application servers > server_name.
- Under Security, click Web services: Default bindings for Web services security.
- Under Default generator bindings, click Token generators.
- Click New to create a token generator configuration, click Delete to delete an existing configuration, or click the name of an existing token generator configuration to edit its settings. If you are creating a new configuration, enter a unique name for the token generator configuration in the Token generator name field. For example, you might specify sig_tgen. This field specifies the name of the token generator element.
- Specify a class name in the Token generator class name field. The token generator class must implement the com.ibm.wsspi.wssecurity.token.TokenGeneratorComponent interface. The token generator class name must be similar to the token consumer class name. For example, if your application requires an X.509 certificate token consumer, you can specify the com.ibm.wsspi.wssecurity.token.X509TokenConsumer class name on the Token consumer panel and the com.ibm.wsspi.wssecurity.token.X509TokenGenerator class name in this field. WAS provides the following default token generator class implementations:
- com.ibm.wsspi.wssecurity.token.UsernameTokenGenerator
- This implementation generates a username token.
- com.ibm.wsspi.wssecurity.token.X509TokenGenerator
- This implementation generates an X.509 certificate token.
- com.ibm.wsspi.wssecurity.token.LTPATokenGenerator
- This implementation generates a Lightweight Third Party Authentication (LTPA) token.
- Select a certificate path option. The certificate path specifies the certificate revocation list (CRL), which is used for generating a security token that is wrapped in a PKCS#7 with a CRL. WAS provides the following certificate path options:
- None
- Select this option in case the CRL is not used for generating a security token. You must select this option when the token generator does not use the PKCS#7 token type.
- Dedicated signing information
- If the CRL is wrapped in a security token, select Dedicated signing information and select a collection certificate store name from the Certificate store field. The Certificate store field shows the names of collection certificate stores already defined. To define a collection certificate store on the cell level, see Configuring the collection certificate store on the server or cell-level bindings.
- Select the Add nonce option to include a nonce in the user name token for the token generator. Nonce is a unique cryptographic number that is embedded in a message to help stop repeat, unauthorized attacks of user name tokens. The Add nonce option is available if you specify a user name token for the token generator.
- Select the Add timestamp option to include a time stamp in the user name token for the token generator.
- Specify a value type local name in the Local name field. This entry specifies the local name of the value type for a security token that is referenced by the key identifier. This attribute is valid when Key identifier is selected as Key information type. To specify the Key information type, see Configuring the key information for the generator binding on the server or cell level. WAS provides the following predefined X.509 certificate token configurations:
For example, when an X.509 certificate token is specified, you can use http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-x509-token-profile-1.0#X509v3 for the local name.
- X.509 certificate token
- http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-x509-token-profile-1.0#X509v3
- X.509 certificates in a PKIPath
- http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-x509-token-profile-1.0#X509PKIPathv1
- A list of X.509 certificates and CRLs in a PKCS#7
- http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-x509-token-profile-1.0#PKCS7
- LTPA
- For LTPA, the value type local name is LTPA. If you enter LTPA for the local name, specify the http://www.ibm.com/websphere/appserver/tokentype/5.0.2 URI value in the Value type URI field as well.
- Specify the value type uniform resource identifier (URI) in the URI field. This entry specifies the namespace URI of the value type for a security token that is referenced by the key identifier. This attribute is valid when Key identifier is selected as Key information type on the Key information panel for the default generator. When the X.509 certificate token is specified, you do not need to specify the namespace URI. If another token is specified, specify the namespace URI of the value type.
- Click OK and then Save to save the configuration.
- Click the name of your token generator configuration.
- Under Additional properties, click Callback handler to configure the callback handler properties. The callback handler specifies how to acquire the security token that is inserted in the Web services security header within the Simple Object Access Protocol (SOAP) message. The token acquisition is a pluggable framework that leverages the Java™ Authentication and Authorization Service (JAAS) javax.security.auth.callback.CallbackHandler interface for acquiring the security token.
- Specify a callback handler class implementation in the Callback handler class name field. This attribute specifies the name of the Callback handler class implementation that is used to plugin a security token framework. The specified callback handler class must implement the javax.security.auth.callback.CallbackHandler class. WAS provides the following default callback handler implementations:
- com.ibm.wsspi.wssecurity.auth.callback.GUIPromptCallbackHandler
- This callback handler uses a login prompt to gather the user name and password information. However, if you specify the user name and password on this panel, a prompt is not displayed and WAS returns the user name and password to the token generator. Use this implementation for a Java 2 Platform, Enterprise Edition (J2EE) application client only.
- com.ibm.wsspi.wssecurity.auth.callback.NonPromptCallbackHandler
- This callback handler does not issue a prompt and returns the user name and password if it is specified in the basic authentication section of this panel. You can use this callback handler when the Web service is acting as a client.
- com.ibm.wsspi.wssecurity.auth.callback.StdinPromptCallbackHandler
- This callback handler uses a standard-in prompt to gather the user name and password. However, if the user name and password is specified in the basic authentication section of this panel, WAS does not issue a prompt, but returns the user name and password to the token generator. Use this implementation for a Java 2 Platform, Enterprise Edition (J2EE) application client only.
- com.ibm.wsspi.wssecurity.auth.callback.LTPATokenCallbackHandler
- This callback handler is used to obtain the Lightweight Third Party Authentication (LTPA) security token from the Run As invocation Subject. This token is inserted in the Web services security header within the SOAP message as a binary security token. However, if the user name and password are specified in the basic authentication section of this panel, WAS authenticates the user name and password to obtain the LTPA security token. It obtains the security token this way rather than obtaining it from the Run As Subject. Use this callback handler only when the Web service is acting as a client on the application server. It is recommended that you do not use this callback handler on a J2EE application client.
- com.ibm.wsspi.wssecurity.auth.callback.X509CallbackHandler
- This callback handler is used to create the X.509 certificate that is inserted in the Web services security header within the SOAP message as a binary security token. A keystore file and a key definition are required for this callback handler.
- com.ibm.wsspi.wssecurity.auth.callback.PKCS7CallbackHandler
- This callback handler is used to create X.509 certificates that are encoded with the PKCS#7 format. The certificate is inserted in the Web services security header in the SOAP message as a binary security token. A keystore file is required for this callback handler. You must specify a certificate revocation list (CRL) in the collection certificate store. The CRL is encoded with the X.509 certificate in the PKCS#7 format. For more information on configuring the collection certificate store, see Configuring the collection certificate store on the server or cell-level bindings.
- com.ibm.wsspi.wssecurity.auth.callback.PkiPathCallbackHandler
- This callback handler is used to create X.509 certificates that are encoded with the PkiPath format. The certificate is inserted in the Web services security header within the SOAP message as a binary security token. A keystore file is required for this callback handler. A CRL is not supported by the callback handler; therefore, the collection certificate store is not required or used.
For an X.509 certificate token, you might specify the com.ibm.wsspi.wssecurity.auth.callback.X509CallbackHandler implementation.
- Optional:
Select the Use identity assertion option. Select this option if you have identity assertion that is defined in the IBM® extended deployment descriptor. This option indicates that only the identity of the initial sender is required and inserted into the Web services security header within the SOAP message. For example, WAS sends only the user name of the original caller for a user name token generator. For an X.509 token generator, the application server sends the original signer certification only.
- Optional:
Select the Use RunAs identity option. Select this option if the following conditions are true:
- You have identity assertion defined in the IBM extended deployment descriptor.
- You want to use the Run As identity instead of the initial caller identity for identity assertion for a downstream call.
- Optional:
Specify a basic authentication user ID and password in the User ID and password fields. This entry specifies the user name and password that is passed to the constructors of the callback handler implementation. The basic authentication user ID and password are used if you specify one of the following default callback handler implementations that are provided by WAS:
- com.ibm.wsspi.wssecurity.auth.callback.GUIPromptCallbackHandler
- com.ibm.wsspi.wssecurity.auth.callback.LTPATokenCallbackHandler
- com.ibm.wsspi.wssecurity.auth.callback.NonPromptCallbackHandler
- com.ibm.wsspi.wssecurity.auth.callback.StdinPromptCallbackHandler
- Optional:
Specify a keystore password and path. The keystore and its related information are necessary when the key or certificate is used for generating a token. For example, the keystore information is required if you select one of the following default callback handler implementations that are provided by WAS:
- com.ibm.wsspi.wssecurity.auth.callback.PKCS7CallbackHandler
- com.ibm.wsspi.wssecurity.auth.callback.PkiPathCallbackHandler
- com.ibm.wsspi.wssecurity.auth.callback.X509CallbackHandler
The keystore files contain public and private keys, root certificate authority (CA) certificates, intermediate CA certificates, and so on. Keys that are retrieved from the keystore file are used to sign and validate or encrypt and decrypt messages or message parts. To retrieve a key from a keystore file, specify the keystore password, the keystore path, and the keystore type.
- Select a keystore type from the type field. WAS provides the following options:
- JKS
- Use this option if you are not using Java Cryptography Extensions (JCE) and if your keystore file uses the Java Key Store (JKS) format.
- JCEKS
- Use this option if you are using Java Cryptography Extensions.
- PKCS11KS (PKCS11)
- Use this format if your keystore file uses the PKCS#11 file format. Key store files using this format might contain RSA keys on cryptographic hardware or might encrypt the keys that use cryptographic hardware to ensure protection.
- PKCS12KS (PKCS12)
- Use this option if your keystore file uses the PKCS#12 file format.
- Click OK and then Save to save the configuration.
- Click the name of your token generator configuration.
- Under Additional properties, click Callback handler > Keys.
- Click New to create a key configuration, click Delete to delete an existing configuration, or click the name of an existing key configuration to edit its settings. If you are creating a new configuration, enter a unique name for the key configuration in the Key name field. This name refers to the name of the key object that is stored within the keystore file.
- Specify an alias for the key object in the Key alias field. The alias is used when the key locator searches for the key objects in the keystore.
- Specify the password that is associated with the key in the Key password field.
- Click OK and Save to save the configuration.
You have configured the token generators at the server or the cell level.
You must specify a similar token consumer configuration.
- Token generator collection
Use this page to view the token generators. The information is used on the generator side only to generate the security token.- Token generator configuration settings
Use this page to specify the information for the token generator. The information is used at the generator side only to generate the security token.- Algorithm URI collection
Use this page to view a list of uniform resource identifier (URI) algorithms for XML digital signature or XML encryption that are mapped to an algorithm factory engine class. With algorithm mappings, service providers can use other cryptographic algorithms for digest value calculation, digital signature signing and verification, data encryption and decryption, and key encryption and decryption.- Algorithm URI configuration settings
Use this page to specify the algorithm uniform resource identifier (URI) and its usage type.- Algorithm mapping collection
Use this page to view a list of custom uniform resource identifier (URI) algorithms for digest value calculation, signature, key encryption, and data encryption. WAS maps these algorithms to an implementation of the algorithm factory engine interface. With algorithm mappings, service providers can extend the cryptographic algorithms for XML digital signature and XML encryption.- Algorithm mapping configuration settings
Use this page to view a list of custom uniform resource identifier (URI) algorithms for digest value calculation, signature, key encryption, and data encryption. WAS maps these algorithms to an implementation of the algorithm factory engine interface. With algorithm mappings, service providers can extend the cryptographic algorithms for XML digital signature and XML encryption.
Related tasks
Configuring the collection certificate store on the server or cell-level bindings