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This lesson introduces the basics of writing a CORBA transient server. Here's the complete version ofHelloServer.java.
The structure of a CORBA server program is the same as most Java applications: You import required library packages, declare the server class, define amainmethod, and remember to handle any exceptions.Importing Required Packages
Start your text editor and save a new file titledHelloServer.java. Next, import the packages required for the client class:// The package containing our stubs. import HelloApp.*; // HelloServer will use the naming service. import org.omg.CosNaming.*; // The package containing special exceptions // thrown by the name service. import org.omg.CosNaming.NamingContextPackage.*; // All CORBA applications need these classes. import org.omg.CORBA.*;Declaring the Server Class
Declare the server class:public class HelloServer { // Add the main method here in the next step. }Defining the main Method
Declare a standardmainmethod:public static void main(String args[]) { // Add the try-catch block here in the next step. }Handling CORBA System Exceptions
Because all CORBA programs can throw CORBA system exceptions at runtime, you will place all of themainfunctionality within atry-catchblock. CORBA programs throw runtime exceptions whenever trouble occurs during any of the processes (marshaling, unmarshaling, upcall) involved in invocation. The exception handler simply prints the exception and its stack trace to standard output so you can see what kind of thing has gone wrong.Inside
main, set up atry-catchblock:try { // Add the rest of the HelloServer code here. } catch(Exception e) { System.err.println("ERROR: " + e); e.printStackTrace(System.out); }Creating an ORB Object
Just like a client, a CORBA server also needs a local ORB object. Every server instantiates an ORB and registers its servant objects so that the ORB can find the server when it receives an invocation for it.Inside
HelloServer.java'stry-catchblock, declare and initialize an ORB variable:ORB orb = ORB.init(args, null);The call to the ORB's
initmethod passes in the server's command line arguments, allowing you to set certain properties at runtime.
A server is a process that instantiates one or more servant objects. The servant implements the interface generated byidltojavaand actually performs the work of the operations on that interface. OurHelloServerneeds aHelloServant.Instantiating the Servant Object
Inside thetry-catchblock, just below the call toinit, instantiate the servant object:HelloServant helloRef = new HelloServant();This servant class isn't defined yet; you will do that in a later step. Next, connect the servant to the ORB, so that the ORB can recognize invocations on it and pass them along to the correct servant:
orb.connect(helloRef);Defining the Servant Class
At the end ofHelloServer.java, outside theHelloServerclass, define the class for the servant object.
- Declare the servant class:
class HelloServant extends _HelloImplBase { // Add the sayHello method here in the next step. }- The servant is a subclass of
_HelloImplBaseso that it inherits the general CORBA functionality generated for it by the compiler.- Declare the required
sayHellomethod:public String sayHello() { // Add the method implementation here in the next step. }- Write the
sayHelloimplementation:return "\nHello World!!\n";
TheHelloServerworks with the naming service to make the servant object's operations available to clients. The server needs an object reference to the name service, so that it can register itself and ensure that invocations on the Hello interface are routed to its servant object.Obtaining the Initial Naming Context
In thetry-catchblock, below instantiation of the servant, callorb.resolve_initial_referencesto get an object reference to the name server:org.omg.CORBA.Object objRef = orb.resolve_initial_references("NameService");The string
NameServiceis defined for all CORBA ORBs. When you pass in that string, the ORB returns a naming context object that is an object reference for the name service.Narrowing the Object Reference
As with all CORBA object references,objRefis a generic CORBA object. To use it as aNamingContextobject, you must narrow it to its proper type. Add the call tonarrowjust below the previous statement:NamingContext ncRef = NamingContextHelper.narrow(objRef);Here you see the use of an
idltojava-generated helper class, similar in function toHelloHelper. ThencRefobject is now anorg.omg.CosNaming.NamingContextand you can use it to access the naming service and register the server. You will do that in the next step.Registering the Servant with the Name Server
Now, when the client calls
- Just below the call to
narrow, create a newNameComponentmember:NameComponent nc = new NameComponent("Hello", "");- This statement sets the
idfield ofnc, the newNameComponent, to "Hello" and thekindcomponent to the empty string. Because the path to theHellohas a single element, create the single-element array thatNamingContext.resolverequires for its work:NameComponent path[] = {nc};- Finally, pass
pathand the servant object to the naming service, binding the servant object to the "Hello" id:ncRef.rebind(path, helloRef);resolve("Hello")on the initial naming context, the naming service returns an object reference to theHelloservant.
The server is ready; it simply needs to wait around for a client to request its service. To achieve that, enter the following code at the end of (but within) thetry-catchblock:java.lang.Object sync = new java.lang.Object(); synchronized(sync) { sync.wait(); }This form of
Object.waitrequiresHelloServerto remain alive (though quiescent) until an invocation comes from the ORB. Because of its placement inmain, after an invocation completes andsayHelloreturns, the server will wait again.
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