CSC/ECE 517 Fall 2010/ch6 6i CB
CORBA
Introduction
CORBA is an acronym for Common Object Request Broker Architecture. It is a vendor independent architecture and infrastructure that computer applications use to work together over networks. A Corba based program from any vendor, on almost any computer, operating system, programming language can interact with a corba based program from any vendor on any computer, operating system, programming language. It uses IIOP protocol to form the communication between two Corba based programs.
Need for CORBA
The recent advances in the technology have resulted in evolution of many different computing architectures. In today's scenario interaction of computer applications in a distributed system is of prime importance. Allowing one computer to access application present on another computer is an example of need of a distributed system that manages these resources. The Common Object Request Broker Architecture is an effective resource in allowing interoperability of heterogeneous systems in a distributed systems. CORBA is emerging as a standard of distributed computing and has lot of advantages that make use of distributed computing.
Components
The Corba is composed of five major components
ORB Core
In the OMA object model, objects provide services and clients issues requests for those services to be performed on their behalf. The purpose of ORB is to deliver requests to objects and return the results to the clients. The ORB services necessary to accomplish this are completely transparent to the client. Client need not know where on the network the object resides, how they communicate, how they are implemented etc. Before a client can issue a request to an object, he/she should hold a reference to that object. An ORB uses object references to identify and locate objects so that it can pass requests to them. As long as the referenced object exists, the ORB allows the object holder to request services from it. The Corba specifies two different ways in which client can issue requests to objects
Static Invocation via Interface-Specific STUBS Dynamic Invocation via the ORB dynamic invocation interface DII
Regardless to which of these methods the client uses to make a request, the ORB locates the object, activates it and passes the request. The Object does not know whether the request came from a static stub or from a dynamic invocation interface. It just takes the request and delivers the output to the ORB.
Interface Definition Language
Even though an object reference identifies a particular object, it does not necessarily describe anything about the objects interface. Before an application makes use of an object, it should know what are all the services provided by that object. In CORBA object interfaces are defined in IDL. IDL is a declarative language, with syntax similar to c++. IDL provides basic data, constructed and template types. These are used in operation declarations to define argument types and return types. In turn operations are used in interface declarations to define the services provided by the objects. IDL also provides module construct that can hold interfaces, type definitions and other modules for name scoping purposes. Of all the types provided by IDL, interfaces are the most important. In addition to describing CORBA objects, they are also used to define object reference types. Operations can be declared to return object references and to take object references as arguments by simply using the interface names as follows :
Interface MailMsg;
Interface Mailbox {
MailMsg nextMessage();
}
Dynamic Invocation Interface
Interface Repository
Object Adapters
Features
CORBA was designed by Object Management Group to provide an object oriented interoperability of applications in a distributed systems. The use of Object Oriented Design, analysis and design using CORBA allows for great re-usability across systems. Advantages of Object Oriented Features such as inheritance, encapsulation and dynamic binding are implemented in CORBA.