This page shows you the steps for enabling an existing class to become activatable. If you are interested in finding out about Creating an Activatable Object or Making a UnicastRemoteObject Activatable, these are also available as tutorials.
Prior to the release of the JDK1.2, an instance of a class that did
not extend from UnicastRemoteObject
could be accessed from
a server program that (1) created an instance of the remote object, and
(2) ran all the time. This functionality was provided by creating a
constructor which exported the object by calling the static method
UnicastRemoteObject.exportObject.
The exportObject
method accepts as an argument an object that implements an
interface that extends from java.rmi.Remote
.
Now with the introduction of the class
java.rmi.activation.Activatable
and the RMI daemon,
rmid
, programs can be written to register information
about remote object implementations that should be created and execute
"on demand", rather than running all the time. The RMI daemon,
rmid
, provides a JVM from which other JVM instances may be
spawned. As in the UnicastRemoteObject.exportObject
case,
activatable objects may be exported using a static method,
Activatable.exportObject
, and these objects must implement
a remote interface.
Note: For the remainder of this tutorial, the terms
"activatable object implementation", "activatable object," and
"implementation" may be used interchangeably to refer to the
class, examples.activation.MyClass
, which
implements a remote interface and is activatable.
This tutorial is organized as follows:
Client3.java
,
the class which will invoke a method on an activatable object
AnotherRemoteInterface.java
, the interface that
extends java.rmi.Remote
, implemented by:
MyClass.java
,
the class which is being modified to be activatable
Setup3.java
,
the class which registers information about the activatable
class with the registry and the RMI daemon
You may notice that while the client code is included, it is not discussed in a step-by-step manner, like the implementation and setup classes. The reason for this omission, is that the client code for activatable objects is no different than the RMI client code for accessing non-activatable remote objects. Activation is strictly a server-side implementation decision.
For all of the source code used in the activation tutorials, you may choose from these formats:
Create an interface that describes each of the methods that you
would like to call remotely. For this example, the remote interface
will be
. There are three
steps to create a remote interface.
java.rmi.Remote
Step 1:
Make the appropriate imports in your interfaceimport java.rmi.*;Step 2:
Extend java.rmi.Remotepublic interface AnotherRemoteInterface extends Remote {Step 3:
Declare each of the methods that may be called remotelypublic String calltheServer(String s) throws RemoteException;
Creating the implementation class
For this example, the implementation class will be examples.activation.MyClass
. There
are three steps to migrate a class which does not extend
Activatable
or UnicastRemoteObject
to become
activatable:
java.rmi.Remote
Step 1:
Make the appropriate imports in the implementation classimport java.rmi.*; import java.rmi.activation.*;Step 2:
Modify the class declaration so that the class implements an interface that extends fromjava.rmi.Remote
public class MyClass implements examples.activation.AnotherRemoteInterface {Step 3:
Add a new two-argument constructor to the implementation classpublic MyClass(ActivationID id, MarshalledObject data) throws RemoteException { // Register the object with the activation system // then export it on an anonymous port // Activatable.exportObject(this, id, 0); }
The job of the "setup" class is to create all the information
necessary for the activatable class, without necessarily creating an
instance of the remote object. For this example, the setup class will
be
.
The setup class passes information about the activatable class to
rmid
, registers a remote reference (an instance of the
activatable class's stub class) and an identifier (name) with the
rmiregistry
, and then the setup class may exit. There are
seven steps to create a setup class:
SecurityManager
ActivationGroup
instance
ActivationDesc
instance
rmid
rmiregistry
Step 1:
Make the appropriate imports in the setup classimport java.rmi.*; import java.rmi.activation.* import java.util.Properties;Step 2:
Install aSecurityManager
System.setSecurityManager(new RMISecurityManager());Step 3:
Create anActivationGroup
instanceNote: In this example, for simplicity, we will use a policy file that gives global permission to anyone from anywhere. Do not use this policy file in a production environment. For more information on how to properly open up permissions using a
java.security.policy
file, please refer to to the following documents:
http://java.sun.com/products/jdk/1.2/docs/guide/security/PolicyFiles.html
http://java.sun.com/products/jdk/1.2/docs/guide/security/permissions.html
In the setup application,the job of the activation group descriptor is to provide all the information that
rmid
will require to contact the appropriate existing VM or spawn a new VM for the activatable object.Note: In order to run this code on your system, you'll need to change the policy file location to be the absolute path to where you've installed the example policy file that came with the source code.
// After JDK1.2Beta4, ActivationGroups are no longer created // implicitly as a side-effect of creating or registering the // first Activatable object // // Because of the 1.2 security model, a security policy should // be specified for the ActivationGroup VM. The first argument // to the Properties put method, inherited from Hashtable, is // the key and the second is the value // Properties props = new Properties(); props.put("java.security.policy", "/home/rmi_tutorial/activation/policy"); ActivationGroupDesc.CommandEnvironment ace = null; ActivationGroupDesc exampleGroup = new ActivationGroupDesc(props, ace); // Once the ActivationGroupDesc has been created, register it // with the activation system to obtain its ID // ActivationGroupID agi = ActivationGroup.getSystem().registerGroup(exampleGroup); // Now explicitly create the group // ActivationGroup.createGroup(agi, exampleGroup, 0);Step 4:
Create anActivationDesc
instanceIn the setup application,the job of the activation descriptor is to provide all the information that
rmid
will require to create a new instance of the implementation class.Note: In order to run this code on your system, you'll need to change the file URL location to be the location of the directory on your system, where you've installed the example source code.
// The "location" URL specifies where the class definition // will come from when this object is requested (activated). // Don't forget the trailing slash at the end of the URL // or your classes won't be found // String location = "file:/home/rmi_tutorial/activation/"; // Create the rest of the parameters that will be passed to // the ActivationDesc constructor // MarshalledObject data = null; // The second argument to the ActivationDesc constructor will be used // to uniquely identify this class; it's location is relative to the // URL-formatted String, location. // ActivationDesc desc = new ActivationDesc ("examples.activation.MyClass", location, data);Step 5:
Declare an instance of your remote interface and register the activation descriptor withrmid
AnotherRemoteInterface ari = (AnotherRemoteInterface)Activatable.register(desc); System.out.println("Got the stub for MyClass");Step 6:
Bind the stub, that was returned by theActivatable.register
method, to a name in thermiregistry
Naming.rebind("MyClass", ari); System.out.println("Exported MyClass");Step 7:
Quit the setup applicationSystem.exit(0);
There are six steps to compile and run the code:
rmic
on the implementation
class
rmiregistry
rmid
Step 1:
Compile the remote interface, implementation, client
and setup classes
% javac -d . AnotherRemoteInterface.java % javac -d . MyClass.java % javac -d . Client3.java % javac -d . Setup3.java
Step 2:
Run rmic
on the implementation class
% rmic -d . examples.activation.MyClass
% rmiregistry &
Note: Before you start
the rmiregistry, you must make sure that the shell or window in which
you will run the registry
, either has no CLASSPATH
set or has a CLASSPATH that does not include the path to any classes
that you want downloaded to your client, including the stubs for your
remote object implementation classes.
If you start the rmiregistry
, and it
can find your stub classes in its CLASSPATH, it will ignore the
server's java.rmi.server.codebase
property, and as
a result, your client(s) will not be able to download the stub code for
your remote object.
Step 4:
Start the activation daemon, rmid
% rmid &
Run the setup, setting the codebase property to be the location of
the implementation stubs. There are four things that need to go on the
same command line:
java
" command
There should be one space just after the word "java
",
one between the two properties, and a third one just before the word
"examples
" (which is very hard to see when you view this
as text, in a browser, or on paper).
% java -Djava.security.policy=/home/rmi_tutorial/activation/policy
-Djava.rmi.server.codebase=file:/home/rmi_tutorial/activation/ examples.activation.Setup3
The codebase property will be resolved to a URL, so it must have the
form of "http://aHost/somesource/
" or
"file:/myDirectory/location/
" or, due to the requirements
of some operating systems, "file:///myDirectory/location
/"
(three slashes after the "file:
").
Please note that each of these sample URL strings has a trailing
"/". The trailing slash is a requirement for the URL set by the
java.rmi.server.codebase
property, so the implementation
can resolve (find) your class definition(s) properly.
If you forget the trailing slash on the property, or if the class
files can't be located at the source (they aren't really being made
available for download) or if you misspell the property name, you'll
get thrown a java.lang.ClassNotFoundException.
This
exception will be thrown when you try to bind your remote object to the
rmiregistry
, or when the first client attempts to access
that object's stub. If the latter case occurs, you have another problem
as well because the rmiregistry
was finding the stubs in its CLASSPATH.
The server output should look like this:
Got the stub for MyClass Exported MyClass
The argument to the client program is the hostname of the
implementation server, in this case, "vector
".
% java examples.activation.Client3 vector
The client output should look like this:
Got a remote reference to the class MyClass Called the remote method Result: Watson are you there? I'm here!
rmid
and the registry by the setup program, and which
then creates the object instance and forwards the remote method to that
instance. The benefit to this approach is that you don't have to make a
change to the original non-remote class.
So, let's assume that the original, non-remote class, looks like this:
package examples.activation; public class MyNonRemoteClass { private String result = null; // Here's the original class, which concatenates two strings // public String calltheServer(String takeThis) { result = takeThis + "I'm here!"; return result; } }
We write the same interface,
examples.activation.AnotherRemoteInterface
, to describe
the methods we'd like to call remotely:
package examples.activation; import java.rmi.*; public interface AnotherRemoteInterface extends Remote { public String calltheServer(String s) throws RemoteException; }
But rather than editing MyNonRemoteClass.java
, which we
may not always have the source code to do anyway, we'll create a new
class
examples.activation.MyNonRemoteClassAdapter
, which (like an
event adapter) implements the specified interface, and then takes
appropriate action. What's new in MyNonRemoteClassAdapter
from what we did earlier, is that it creates an instance of
MyNonRemoteClass
in it's constructor and it calls the
MyNonRemoteClass.calltheServer
method.
package examples.activation; import java.rmi.*; import java.rmi.activation.*; public class MyNonRemoteClassAdapter implements examples.activation.AnotherRemoteInterface { private String result = null; private MyNonRemoteClass mnrc; // The constructor for activation and export; this // constructor is called by the method // ActivationInstantiator.newInstance during // activation, to construct the object. // public MyNonRemoteClassAdapter(ActivationID id, MarshalledObject data) throws RemoteException { // Register the object with the activation system // then export it on an anonymous port // Activatable.exportObject(this, id, 0); // Create an instance of the class MyNonRemoteClass // mnrc = new MyNonRemoteClass(); } // Define the method declared in AnotherRemoteInterface // to accept a String, modify it, and return it to // the client // public String calltheServer(String takeThis) throws RemoteException { // Rather than modify the String here, forward // it on to the non-remote object impleemntation // result = mnrc.calltheServer(takeThis); return result; } }
Now the class we'll run rmic
on and the class
referenced by the setup program will be the adapter class. The setup
program examples.activation.Setup3alt
looks like this now:
package examples.activation; import java.rmi.*; import java.rmi.activation.*; import java.util.Properties; public class Setup3alt { // This class registers information about the MyClass // class with rmid and the rmiregistry // public static void main(String[] args) throws Exception { System.setSecurityManager(new RMISecurityManager()); AnotherRemoteInterface ari; // Don't forget the trailing slash at the end of the URL // or your classes won't be found // String location = "file:/home/rmi_tutorial/activation/"; // Create the rest of the parameters that will be passed to // the ActivationDesc constructor // MarshalledObject data = null; // The second argument to the ActivationDesc constructor // will be used to uniquely identify this class; it's // location is relative to theURL-formatted String, location. // ActivationDesc desc = new ActivationDesc ("examples.activation.MyNonRemoteClassAdapter", location, data); ari = (AnotherRemoteInterface)Activatable.register(desc); System.out.println("Got the stub for MyNonRemoteClassAdapter"); // Bind the stub to a name in the registry running on 1099 // Naming.rebind("MyNonRemoteClassAdapter", ari); System.out.println("Exported MyNonRemoteClassAdapter"); System.exit(0); } }
Copyright © 1998 Sun Microsystems, Inc. All Rights Reserved.
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