/* * @(#)ActivationID.java 1.28 03/12/19 * * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. */ package java.rmi.activation; import java.io.IOException; import java.io.InvalidObjectException; import java.lang.reflect.InvocationHandler; import java.lang.reflect.Proxy; import java.rmi.MarshalledObject; import java.rmi.Remote; import java.rmi.RemoteException; import java.rmi.UnmarshalException; import java.rmi.server.RemoteObject; import java.rmi.server.RemoteObjectInvocationHandler; import java.rmi.server.RemoteRef; import java.rmi.server.RemoteStub; import java.rmi.server.UID; /** * Activation makes use of special identifiers to denote remote * objects that can be activated over time. An activation identifier * (an instance of the class ActivationID) contains several * pieces of information needed for activating an object: *

* * An activation identifier for an object can be obtained by registering * an object with the activation system. Registration is accomplished * in a few ways:

* * @author Ann Wollrath * @version 1.28, 03/12/19 * @see Activatable * @since 1.2 */ public class ActivationID implements java.io.Serializable { /** * the object's activator */ private transient Activator activator; /** * the object's unique id */ private transient UID uid = new UID(); /** indicate compatibility with the Java 2 SDK v1.2 version of class */ private static final long serialVersionUID = -4608673054848209235L; /** * The constructor for ActivationID takes a single * argument, activator, that specifies a remote reference to the * activator responsible for activating the object associated with * this identifier. An instance of ActivationID is globally * unique. * * @param activator reference to the activator responsible for * activating the object * @since 1.2 */ public ActivationID(Activator activator) { this.activator = activator; } /** * Activate the object for this id. * * @param force if true, forces the activator to contact the group * when activating the object (instead of returning a cached reference); * if false, returning a cached value is acceptable. * @return the reference to the active remote object * @exception ActivationException if activation fails * @exception UnknownObjectException if the object is unknown * @exception RemoteException if remote call fails * @since 1.2 */ public Remote activate(boolean force) throws ActivationException, UnknownObjectException, RemoteException { try { MarshalledObject mobj = (MarshalledObject) activator.activate(this, force); return (Remote) mobj.get(); } catch (RemoteException e) { throw e; } catch (IOException e) { throw new UnmarshalException("activation failed", e); } catch (ClassNotFoundException e) { throw new UnmarshalException("activation failed", e); } } /** * Returns a hashcode for the activation id. Two identifiers that * refer to the same remote object will have the same hash code. * * @see java.util.Hashtable * @since 1.2 */ public int hashCode() { return uid.hashCode(); } /** * Compares two activation ids for content equality. * Returns true if both of the following conditions are true: * 1) the unique identifiers equivalent (by content), and * 2) the activator specified in each identifier * refers to the same remote object. * * @param obj the Object to compare with * @return true if these Objects are equal; false otherwise. * @see java.util.Hashtable * @since 1.2 */ public boolean equals(Object obj) { if (obj instanceof ActivationID) { ActivationID id = (ActivationID) obj; return (uid.equals(id.uid) && activator.equals(id.activator)); } else { return false; } } /** * writeObject for custom serialization. * *

This method writes this object's serialized form for * this class as follows: * *

The writeObject method is invoked on * out passing this object's unique identifier * (a {@link java.rmi.server.UID UID} instance) as the argument. * *

Next, the {@link * java.rmi.server.RemoteRef#getRefClass(java.io.ObjectOutput) * getRefClass} method is invoked on the activator's * RemoteRef instance to obtain its external ref * type name. Next, the writeUTF method is * invoked on out with the value returned by * getRefClass, and then the * writeExternal method is invoked on the * RemoteRef instance passing out * as the argument. * * @serialData The serialized data for this class comprises a * java.rmi.server.UID (written with * ObjectOutput.writeObject) followed by the * external ref type name of the activator's * RemoteRef instance (a string written with * ObjectOutput.writeUTF), followed by the * external form of the RemoteRef instance as * written by its writeExternal method. * *

The external ref type name of the * RemoteRef instance is * determined using the definitions of external ref type * names specified in the {@link java.rmi.server.RemoteObject * RemoteObject} writeObject method * serialData specification. Similarly, the data * written by the writeExternal method and read * by the readExternal method of * RemoteRef implementation classes * corresponding to each of the defined external ref type * names is specified in the {@link * java.rmi.server.RemoteObject RemoteObject} * writeObject method serialData * specification. **/ private void writeObject(java.io.ObjectOutputStream out) throws IOException, ClassNotFoundException { out.writeObject(uid); RemoteRef ref; if (activator instanceof RemoteObject) { ref = ((RemoteObject) activator).getRef(); } else if (Proxy.isProxyClass(activator.getClass())) { InvocationHandler handler = Proxy.getInvocationHandler(activator); if (!(handler instanceof RemoteObjectInvocationHandler)) { throw new InvalidObjectException( "unexpected invocation handler"); } ref = ((RemoteObjectInvocationHandler) handler).getRef(); } else { throw new InvalidObjectException("unexpected activator type"); } out.writeUTF(ref.getRefClass(out)); ref.writeExternal(out); } /** * readObject for custom serialization. * *

This method reads this object's serialized form for this * class as follows: * *

The readObject method is invoked on * in to read this object's unique identifier * (a {@link java.rmi.server.UID UID} instance). * *

Next, the readUTF method is invoked on * in to read the external ref type name of the * RemoteRef instance for this object's * activator. Next, the RemoteRef * instance is created of an implementation-specific class * corresponding to the external ref type name (returned by * readUTF), and the readExternal * method is invoked on that RemoteRef instance * to read the external form corresponding to the external * ref type name. * *

Note: If the external ref type name is * "UnicastRef", "UnicastServerRef", * "UnicastRef2", "UnicastServerRef2", * or "ActivatableRef", a corresponding * implementation-specific class must be found, and its * readExternal method must read the serial data * for that external ref type name as specified to be written * in the serialData documentation for this class. * If the external ref type name is any other string (of non-zero * length), a ClassNotFoundException will be thrown, * unless the implementation provides an implementation-specific * class corresponding to that external ref type name, in which * case the RemoteRef will be an instance of * that implementation-specific class. */ private void readObject(java.io.ObjectInputStream in) throws IOException, ClassNotFoundException { uid = (UID)in.readObject(); try { Class refClass = Class.forName(RemoteRef.packagePrefix + "." + in.readUTF()); RemoteRef ref = (RemoteRef) refClass.newInstance(); ref.readExternal(in); activator = (Activator) Proxy.newProxyInstance(null, new Class[]{ Activator.class }, new RemoteObjectInvocationHandler(ref)); } catch (InstantiationException e) { throw (IOException) new InvalidObjectException( "Unable to create remote reference").initCause(e); } catch (IllegalAccessException e) { throw (IOException) new InvalidObjectException( "Unable to create remote reference").initCause(e); } } }