At the core of the compute engine is a protocol that enables tasks to be submitted to the compute engine, the compute engine to run those tasks, and the results of those tasks to be returned to the client. This protocol is expressed in the interfaces that are supported by the compute engine. The remote communication for this protocol is illustrated in the following figure.
Each interface contains a single method. The compute engine's remote interface, Compute
, enables tasks to be submitted to the engine. The client interface, Task,
defines how the compute engine executes a submitted task.
The
interface defines the remotely accessible part, the compute engine itself. Here is the source code for the compute.Compute
Compute
interface:
package compute; import java.rmi.Remote; import java.rmi.RemoteException; public interface Compute extends Remote { <T> T executeTask(Task<T> t) throws RemoteException; }
By extending the interface java.rmi.Remote
, the Compute
interface identifies itself as an interface whose methods can be invoked from another Java virtual machine. Any object that implements this interface can be a remote object.
As a member of a remote interface, the executeTask
method is a remote method. Therefore, this method must be defined as being capable of throwing a java.rmi.RemoteException
. This exception is thrown by the RMI system from a remote method invocation to indicate that either a communication failure or a protocol error has occurred. A RemoteException
is a checked exception, so any code invoking a remote method needs to handle this exception by either catching it or declaring it in its throws
clause.
The second interface needed for the compute engine is the Task
interface, which is the type of the parameter to the executeTask
method in the Compute
interface. The
interface defines the interface between the compute engine and the work that it needs to do, providing the way to start the work. Here is the source code for the compute.Task
Task
interface:
package compute; public interface Task<T> { T execute(); }
The Task
interface defines a single method, execute
, which has no parameters and throws no exceptions. Because the interface does not extend Remote
, the method in this interface doesn't need to list java.rmi.RemoteException
in its throws
clause.
The Task
interface has a type parameter, T
, which represents the result type of the task's computation. This interface's execute
method returns the result of the computation and thus its return type is T
.
The Compute
interface's executeTask
method, in turn, returns the result of the execution of the Task
instance passed to it. Thus, the executeTask
method has its own type parameter, T
, that associates its own return type with the result type of the passed Task
instance.
RMI uses the Java object serialization mechanism to transport objects by value between Java virtual machines. For an object to be considered serializable, its class must implement the java.io.Serializable
marker interface. Therefore, classes that implement the Task
interface must also implement Serializable
, as must the classes of objects used for task results.
Different kinds of tasks can be run by a Compute
object as long as they are implementations of the Task
type. The classes that implement this interface can contain any data needed for the computation of the task and any other methods needed for the computation.
Here is how RMI makes this simple compute engine possible. Because RMI can assume that the Task
objects are written in the Java programming language, implementations of the Task
object that were previously unknown to the compute engine are downloaded by RMI into the compute engine's Java virtual machine as needed. This capability enables clients of the compute engine to define new kinds of tasks to be run on the server machine without needing the code to be explicitly installed on that machine.
The compute engine, implemented by the ComputeEngine
class, implements the Compute
interface, enabling different tasks to be submitted to it by calls to its executeTask
method. These tasks are run using the task's implementation of the execute
method and the results, are returned to the remote client.