Index: S
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Index: S
- SchedDbaseImpl class (example): 7.2.6.2. Distributed objects from the data server
- SchedResource class (example): 7.2.4. JDBC-Enabled Data Objects
- data caching and: 7.2.5. Data Caching Issues
- message-passing version: 7.2.6.1. Message passing with the data server
- RMI-enabled version: 7.2.6.2. Distributed objects from the data server
- SchedResourceImpl class (example): 7.2.6.2. Distributed objects from the data server
- SchedTask class (example): 7.2.4. JDBC-Enabled Data Objects
- 7.2.4. JDBC-Enabled Data Objects
- scheduling system (example): 7.2.3. A Scheduling Example
- data caching: 7.2.5. Data Caching Issues
- with JDBC-enabled data objects: 7.2.4. JDBC-Enabled Data Objects
- secret keys: 5.4.1. Secret Keys
- SecretKey class: 5.4.3. Keys in the Java Security API
- Secure Socket Layer (SSL): 5.7.3.1. Secure Socket Layer (SSL)
- SecureAgent client (example): 5.6.2. Back to Our Credit Agent
- SecureRandom class: 5.4.3. Keys in the Java Security API
- security: 1.2.4. Security Issues
- 1.3.6. Security
- 5.1. Security Issues and Concerns
- authentication (see authentication)
- certification (see certification)
- development object systems and: 3.3.6. Security
- encryption (see encryption)
- general protocols for: 5.7.3. General Security Protocols
- Java API for (see Java Security API)
- keys (see keys)
- RMI security manager: 3.6.5. Registering and Using a Remote Object
- Security Service (CORBA): B.3. Security Service
- send( )
- Collaborator interface: 9.3.1. Building the Infrastructure with Message Passing
- Mediator interface: 9.3.1. Building the Infrastructure with Message Passing
- MulticastSocket class: 2.1.3. Multicast Sockets
- RMICollaboratorImpl class (example): 9.3.2. Collaborating with RMI
- sendEvent( ): 6.6.2. Distributed Events
- sendMsg( ): 9.3.1. Building the Infrastructure with Message Passing
- serialization: 3.2.1. Creating Remote Objects
- 3.6.6. Serializing Objects
- JavaSpace interface and: C.2. Entry and EntryRep
- Serializable interface: 1.3.5. Network Support
- 3.6.6. Serializing Objects
- servers
- BankServer interface (example): 3.5.2. The Interface Definition Language (IDL)
- ChessServer class (example): 6.4. Fixed Protocols
- 6.4. Fixed Protocols
- implementation of object classes: 3.3. Features of Distributed Object Systems
- java.rmi.server package: D.3. The java.rmi.server Package
- object skeleton: 3.3. Features of Distributed Object Systems
- IDL interface and: 3.5.3. Server Implementations
- 3.5.5.3. The server skeleton and implementation
- Java RMI and: 3.6.4. Client Stubs and Server Skeletons
- PipedServer class (example): 2.1.4. Streams, Readers, and Writers for Input and Output
- registration/naming service: 3.3. Features of Distributed Object Systems
- 3.3.3. Registration/Naming Service
- CORBA and: 3.5.3. Server Implementations
- 3.5.5.5. Pulling it all together
- remote database data servers: 7.2.6. Remote Data Servers
- RemoteServer class: 3.6.2. Server Implementations
- D.3. The java.rmi.server Package
- RMI implementation: 3.6.2. Server Implementations
- RunnableSolveServer class (example): 4.2.1. Implementing Runnable
- ServerCloneException: D.3. The java.rmi.server Package
- ServerError: D.1. The java.rmi Package
- ServerException: D.1. The java.rmi Package
- ServerNotActiveException: D.3. The java.rmi.server Package
- ServerRef interface: D.3. The java.rmi.server Package
- ServerRuntimeException: D.1. The java.rmi Package
- ServerSocket class: 2.1.2. Your Basic Socket
- SimpleServer class (example): 1.3.5. Network Support
- setAutoCommit( ): 7.1.2.3. Statement
- setDefaultStream( ): D.3. The java.rmi.server Package
- setLog( ): D.3. The java.rmi.server Package
- setOutputStream( ): D.3. The java.rmi.server Package
- setPrincipal( ): 5.3.1. Access Control Lists
- setRef( ): D.3. The java.rmi.server Package
- shared data, collaboration and: 9.2.3. Shared State Information
- shared whiteboard (example): 9.2.2. Maintaining Agent Identities
- 10.2. A Shared Whiteboard
- sharing, systems of (see collaborative systems)
- sign( ): 5.5.2. Public Key Signatures for Authentication
- signatures
- digital: 5.2.2. The Core Security API
- 5.5. Digital Signatures
- DSA (Digital Signature Algorithm): 5.2.1.1. The User API
- 5.7.2.1. Encryption techniques
- public key: 5.5.2. Public Key Signatures for Authentication
- Signature class: 5.5.2. Public Key Signatures for Authentication
- SimpleAgent client (example): 5.2.2. The Core Security API
- certification and: 5.5.1. A Motivating Example: A Credit Agent
- SimpleClient class (example): 1.3.5. Network Support
- SimpleCmd class (example): 1.3.5. Network Support
- SimpleCmdInputStream class (example): 1.3.5. Network Support
- SimpleServer class (example): 1.3.5. Network Support
- skeleton, server: 3.3. Features of Distributed Object Systems
- IDL interface and: 3.5.3. Server Implementations
- Solver interface (example): 3.5.5.3. The server skeleton and implementation
- Java RMI and: 3.6.4. Client Stubs and Server Skeletons
- Skeleton class: D.3. The java.rmi.server Package
- SkeletonMismatchException: D.3. The java.rmi.server Package
- SkeletonNotFoundException: D.3. The java.rmi.server Package
- sockets: 2.1.2. Your Basic Socket
- DatagramSocket class: 2.1.2. Your Basic Socket
- multicast: 2.1.3. Multicast Sockets
- Socket class: 2.1.2. Your Basic Socket
- SocketSecurityException: D.3. The java.rmi.server Package
- Solver interface (example): 3.4. Distributed Object Schemes for Java
- in CORBA environment: 3.5.5. A CORBA Solver
- Runnable interface with: 4.2.1. Implementing Runnable
- using Java RMI: 3.6.7. An RMI Solver
- sophistication of cryptographic algorithms: 5.7.1.2. Sophistication and complexity
- source code, obtaining: 0.3. About the Source Code
- speed (see performance)
- SQL (see databases)
- SSL (Secure Socket Layer): 5.7.3.1. Secure Socket Layer (SSL)
- standards for distributed computing: 0. Preface
- start( ): 4.3.2. Thread Groups
- state information, sharing: 9.2.3. Shared State Information
- Statement class: 7.1.1. Data Retrieval Example
- 7.1.2.3. Statement
- StreamClassLoader class (example): 2.3.1. Loading Classes from the Network
- streaming audio example: 8.5.1. Streaming Multimedia
- streams: 2.1.4. Streams, Readers, and Writers for Input and Output
- StringBufferInputStream class: 2.1.4. Streams, Readers, and Writers for Input and Output
- StringReader class: 2.1.4. Streams, Readers, and Writers for Input and Output
- StringWriter class: 2.1.4. Streams, Readers, and Writers for Input and Output
- stub, client: 3.3. Features of Distributed Object Systems
- IDL interface and: 3.5.4. Client Stubs
- Solver base interface (example): 3.5.5.2. The client stubs
- Java RMI and: 3.6.4. Client Stubs and Server Skeletons
- to remote data objects: 7.2.6.2. Distributed objects from the data server
- StubNotFoundException: D.1. The java.rmi Package
- sun.security.acl package: 5.3.1. Access Control Lists
- SupplierAdmin interface: B.2.2. Interface Specifics
- SurrogateActionListener interface (example): 6.6.3. Pros and Cons
- suspend( ): 4.4.2. Distributed ThreadGroups
- symmetric encryption techniques: 5.6.1. Ciphers for Secure Data Transfers
- synchronization of threads: 4.3.1. Synchronizing Threads
- 4.4.4. Synchronizing Distributed Threads
- synchronized statement: 4.3.1. Synchronizing Threads
- synchronous message handling: 6.3.1. Asychronous vs. Synchronous Message Handling
- system performance (see performance)
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