Class SyncFactory

java.lang.Object
javax.sql.rowset.spi.SyncFactory

public class SyncFactory
extends Object
The Service Provider Interface (SPI) mechanism that generates SyncProvider instances to be used by disconnected RowSet objects. The SyncProvider instances in turn provide the javax.sql.RowSetReader object the RowSet object needs to populate itself with data and the javax.sql.RowSetWriter object it needs to propagate changes to its data back to the underlying data source.

Because the methods in the SyncFactory class are all static, there is only one SyncFactory object per Java VM at any one time. This ensures that there is a single source from which a RowSet implementation can obtain its SyncProvider implementation.

1.0 Overview

The SyncFactory class provides an internal registry of available synchronization provider implementations (SyncProvider objects). This registry may be queried to determine which synchronization providers are available. The following line of code gets an enumeration of the providers currently registered.
     java.util.Enumeration e = SyncFactory.getRegisteredProviders();
 
All standard RowSet implementations must provide at least two providers:
  • an optimistic provider for use with a CachedRowSet implementation or an implementation derived from it
  • an XML provider, which is used for reading and writing XML, such as with WebRowSet objects
Note that the JDBC RowSet Implementations include the SyncProvider implementations RIOptimisticProvider and RIXmlProvider, which satisfy this requirement.

The SyncFactory class provides accessor methods to assist applications in determining which synchronization providers are currently registered with the SyncFactory.

Other methods let RowSet persistence providers be registered or de-registered with the factory mechanism. This allows additional synchronization provider implementations to be made available to RowSet objects at run time.

Applications can apply a degree of filtering to determine the level of synchronization that a SyncProvider implementation offers. The following criteria determine whether a provider is made available to a RowSet object:

  1. If a particular provider is specified by a RowSet object, and the SyncFactory does not contain a reference to this provider, a SyncFactoryException is thrown stating that the synchronization provider could not be found.
  2. If a RowSet implementation is instantiated with a specified provider and the specified provider has been properly registered, the requested provider is supplied. Otherwise a SyncFactoryException is thrown.
  3. If a RowSet object does not specify a SyncProvider implementation and no additional SyncProvider implementations are available, the reference implementation providers are supplied.

2.0 Registering SyncProvider Implementations

Both vendors and developers can register SyncProvider implementations using one of the following mechanisms.

  • Using the command line
    The name of the provider is supplied on the command line, which will add the provider to the system properties. For example:
        -Drowset.provider.classname=com.fred.providers.HighAvailabilityProvider
     
  • Using the Standard Properties File
    The reference implementation is targeted to ship with J2SE 1.5, which will include an additional resource file that may be edited by hand. Here is an example of the properties file included in the reference implementation:
       #Default JDBC RowSet sync providers listing
       #
    
       # Optimistic synchronization provider
       rowset.provider.classname.0=com.sun.rowset.providers.RIOptimisticProvider
       rowset.provider.vendor.0=Oracle Corporation
       rowset.provider.version.0=1.0
    
       # XML Provider using standard XML schema
       rowset.provider.classname.1=com.sun.rowset.providers.RIXMLProvider
       rowset.provider.vendor.1=Oracle Corporation
       rowset.provider.version.1=1.0
     
    The SyncFactory checks this file and registers the SyncProvider implementations that it contains. A developer or vendor can add other implementations to this file. For example, here is a possible addition:
         rowset.provider.classname.2=com.fred.providers.HighAvailabilityProvider
         rowset.provider.vendor.2=Fred, Inc.
         rowset.provider.version.2=1.0
     
  • Using a JNDI Context
    Available providers can be registered on a JNDI context, and the SyncFactory will attempt to load SyncProvider implementations from that JNDI context. For example, the following code fragment registers a provider implementation on a JNDI context. This is something a deployer would normally do. In this example, MyProvider is being registered on a CosNaming namespace, which is the namespace used by J2EE resources.
        import javax.naming.*;
    
        Hashtable svrEnv = new  Hashtable();
        srvEnv.put(Context.INITIAL_CONTEXT_FACTORY, "CosNaming");
    
        Context ctx = new InitialContext(svrEnv);
        com.fred.providers.MyProvider = new MyProvider();
        ctx.rebind("providers/MyProvider", syncProvider);
     
Next, an application will register the JNDI context with the SyncFactory instance. This allows the SyncFactory to browse within the JNDI context looking for SyncProvider implementations.
    Hashtable appEnv = new Hashtable();
    appEnv.put(Context.INITIAL_CONTEXT_FACTORY, "CosNaming");
    appEnv.put(Context.PROVIDER_URL, "iiop://hostname/providers");
    Context ctx = new InitialContext(appEnv);

    SyncFactory.registerJNDIContext(ctx);
 
If a RowSet object attempts to obtain a MyProvider object, the SyncFactory will try to locate it. First it searches for it in the system properties, then it looks in the resource files, and finally it checks the JNDI context that has been set. The SyncFactory instance verifies that the requested provider is a valid extension of the SyncProvider abstract class and then gives it to the RowSet object. In the following code fragment, a new CachedRowSet object is created and initialized with env, which contains the binding to MyProvider.
    Hashtable env = new Hashtable();
    env.put(SyncFactory.ROWSET_SYNC_PROVIDER, "com.fred.providers.MyProvider");
    CachedRowSet crs = new com.sun.rowset.CachedRowSetImpl(env);
 
Further details on these mechanisms are available in the javax.sql.rowset.spi package specification.
Since:
1.5
See Also:
SyncProvider, SyncFactoryException
  • Field Details

  • Method Details

    • registerProvider

      public static void registerProvider​(String providerID) throws SyncFactoryException
      Adds the given synchronization provider to the factory register. Guidelines are provided in the SyncProvider specification for the required naming conventions for SyncProvider implementations.

      Synchronization providers bound to a JNDI context can be registered by binding a SyncProvider instance to a JNDI namespace.

       
       SyncProvider p = new MySyncProvider();
       InitialContext ic = new InitialContext();
       ic.bind ("jdbc/rowset/MySyncProvider", p);
        
      Furthermore, an initial JNDI context should be set with the SyncFactory using the setJNDIContext method. The SyncFactory leverages this context to search for available SyncProvider objects bound to the JNDI context and its child nodes.
      Parameters:
      providerID - A String object with the unique ID of the synchronization provider being registered
      Throws:
      SyncFactoryException - if an attempt is made to supply an empty or null provider name
      See Also:
      setJNDIContext(javax.naming.Context)
    • getSyncFactory

      public static SyncFactory getSyncFactory()
      Returns the SyncFactory singleton.
      Returns:
      the SyncFactory instance
    • unregisterProvider

      public static void unregisterProvider​(String providerID) throws SyncFactoryException
      Removes the designated currently registered synchronization provider from the Factory SPI register.
      Parameters:
      providerID - The unique-id of the synchronization provider
      Throws:
      SyncFactoryException - If an attempt is made to unregister a SyncProvider implementation that was not registered.
    • getInstance

      public static SyncProvider getInstance​(String providerID) throws SyncFactoryException
      Returns the SyncProvider instance identified by providerID.
      Parameters:
      providerID - the unique identifier of the provider
      Returns:
      a SyncProvider implementation
      Throws:
      SyncFactoryException - If the SyncProvider cannot be found, the providerID is null, or some error was encountered when trying to invoke this provider.
    • getRegisteredProviders

      public static Enumeration<SyncProvider> getRegisteredProviders() throws SyncFactoryException
      Returns an Enumeration of currently registered synchronization providers. A RowSet implementation may use any provider in the enumeration as its SyncProvider object.

      At a minimum, the reference synchronization provider allowing RowSet content data to be stored using a JDBC driver should be possible.

      Returns:
      Enumeration A enumeration of available synchronization providers that are registered with this Factory
      Throws:
      SyncFactoryException - If an error occurs obtaining the registered providers
    • setLogger

      public static void setLogger​(Logger logger)
      Sets the logging object to be used by the SyncProvider implementation provided by the SyncFactory. All SyncProvider implementations can log their events to this object and the application can retrieve a handle to this object using the getLogger method.

      This method checks to see that there is an SQLPermission object which grants the permission setSyncFactory before allowing the method to succeed. If a SecurityManager exists and its checkPermission method denies calling setLogger, this method throws a java.lang.SecurityException.

      Parameters:
      logger - A Logger object instance
      Throws:
      SecurityException - if a security manager exists and its checkPermission method denies calling setLogger
      NullPointerException - if the logger is null
      See Also:
      SecurityManager.checkPermission(java.security.Permission)
    • setLogger

      public static void setLogger​(Logger logger, Level level)
      Sets the logging object that is used by SyncProvider implementations provided by the SyncFactory SPI. All SyncProvider implementations can log their events to this object and the application can retrieve a handle to this object using the getLogger method.

      This method checks to see that there is an SQLPermission object which grants the permission setSyncFactory before allowing the method to succeed. If a SecurityManager exists and its checkPermission method denies calling setLogger, this method throws a java.lang.SecurityException.

      Parameters:
      logger - a Logger object instance
      level - a Level object instance indicating the degree of logging required
      Throws:
      SecurityException - if a security manager exists and its checkPermission method denies calling setLogger
      NullPointerException - if the logger is null
      See Also:
      SecurityManager.checkPermission(java.security.Permission), LoggingPermission
    • getLogger

      public static Logger getLogger() throws SyncFactoryException
      Returns the logging object for applications to retrieve synchronization events posted by SyncProvider implementations.
      Returns:
      The Logger that has been specified for use by SyncProvider implementations
      Throws:
      SyncFactoryException - if no logging object has been set.
    • setJNDIContext

      public static void setJNDIContext​(Context ctx) throws SyncFactoryException
      Sets the initial JNDI context from which SyncProvider implementations can be retrieved from a JNDI namespace

      This method checks to see that there is an SQLPermission object which grants the permission setSyncFactory before allowing the method to succeed. If a SecurityManager exists and its checkPermission method denies calling setJNDIContext, this method throws a java.lang.SecurityException.

      Parameters:
      ctx - a valid JNDI context
      Throws:
      SyncFactoryException - if the supplied JNDI context is null
      SecurityException - if a security manager exists and its checkPermission method denies calling setJNDIContext
      See Also:
      SecurityManager.checkPermission(java.security.Permission)