See: Description
| Interface | Description |
|---|---|
| GSSContext |
This interface encapsulates the GSS-API security context and provides
the security services that are available over the context.
|
| GSSCredential |
This interface encapsulates the GSS-API credentials for an entity.
|
| GSSName |
This interface encapsulates a single GSS-API principal entity.
|
| Class | Description |
|---|---|
| ChannelBinding |
This class encapsulates the concept of caller-provided channel
binding information.
|
| GSSManager |
This class serves as a factory for other important
GSS-API classes and also provides information about the mechanisms that
are supported.
|
| MessageProp |
This is a utility class used within the per-message GSSContext
methods to convey per-message properties.
|
| Oid |
This class represents Universal Object Identifiers (Oids) and their
associated operations.
|
| Exception | Description |
|---|---|
| GSSException |
This exception is thrown whenever a GSS-API error occurs, including
any mechanism specific error.
|
The GSS-API is defined in a language independent way in RFC 2743. The Java language bindings are defined in RFC 2853
An application starts out by instantiating a GSSManager
which then serves as a factory for a security context. An application
can use specific principal names and credentials that are also created
using the GSSManager; or it can instantiate a
context with system defaults. It then goes through a context
establishment loop. Once a context is established with the
peer, authentication is complete. Data protection such as integrity
and confidentiality can then be obtained from this context.
The GSS-API does not perform any communication with the peer. It merely produces tokens that the application must somehow transport to the other end.
Subject in the
current access control context. The Kerberos v5
mechanism will search for the required INITIATE and ACCEPT credentials
(KerberosTicket and
KerberosKey) in
the private credential set where as some other mechanism might look
in the public set or in both. If the desired credential is not
present in the appropriate sets of the current Subject, the GSS-API
call must fail.This model has the advantage that credential management is simple and predictable from the applications point of view. An application, given the right permissions, can purge the credentials in the Subject or renew them using standard Java API's. If it purged the credentials, it would be sure that the JGSS mechanism would fail, or if it renewed a time based credential it would be sure that a JGSS mechanism would succeed.
This model does require that a JAAS login be performed in order to
authenticate and populate a Subject that the JGSS mechanism can later
utilize. However, applications have the ability to relax this
restriction by means of a system property:
javax.security.auth.useSubjectCredsOnly. By default
this system property will be assumed to be true (even when
it is unset) indicating that providers must only use the credentials
that are present in the current Subject. However, if this property is
explicitly set to false by the application, then it indicates that
the provider is free to use any credentials cache of its choice. Such
a credential cache might be a disk cache, an in-memory cache, or even
just the current Subject itself.
For an online tutorial on using Java GSS-API, please see Introduction to JAAS and Java GSS-API.
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For further API reference and developer documentation, see Java SE Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
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