19992016 Ericsson AB. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. Introduction to Orber Megan Lynch 1998-09-21 ch_introduction.xml
Overview

The Orber application is a CORBA compliant Object Request Brokers (ORB), which provides CORBA functionality in an Erlang environment. Essentially, the ORB channels communication or transactions between nodes in a heterogeneous environment.

Common Object Request Broker Architecture is a common communication standard developed by the OMG (Object Management Group)(Common Object Request Broker Architecture) provides an interface definition language allowing efficient system integration and also supplies standard specifications for some services.

The Orber application contains the following parts:

ORB kernel and IIOP support

Interface Repository

Interface Definition Language Mapping for Erlang

CosNaming Service

Benefits

Orber provides CORBA functionality in an Erlang environment that enables:

Platform interoperability and transparency

Orber enables communication between OTP applications or Erlang environment applications and other platforms; for example, Windows NT, Solaris etc, allowing platform transparency. This is especially helpful in situations where there are many users with different platforms. For example, booking airline tickets would require the airline database and hundreds of travel agents (who may not have the same platform) to book seats on flights.

Application level interoperability and transparency

As Orber is a CORBA compliant application, its purpose is to provide interoperability and transparency on the application level. Orber simplifies the distributed system software by defining the environment as objects, which in effect, views everything as identical regardless of programming languages.

Previously, time-consuming programming was required to facilitate communication between different languages. However, with CORBA compliant Orber the Application Programmer is relieved of this task. This makes communication on an application level relatively transparent to the user.

Purpose and Dependencies

The system architecture and OTP dependencies of Orber are illustrated in figure 1 below:

Figure 1: Orber Dependencies and Structure.

Orber is dependent on Mnesia (see the Mnesia documentation) - an Erlang database management application used to store object information.

Although Orber does not have a run-time application dependency to IC (an Interface Definition Language - IDL is the OMG specified interface definition language, used to define the CORBA object interfaces.compiler for Erlang), it is necessary when building services and applications. See the IC documentation for further details.

Figure 2: ORB interface between Java and Erlang Environment Nodes.

This simplified illustration in figure 2 demonstrates how Orber can facilitate communication in a heterogeneous environment. The Erlang Nodes running OTP and the other Node running applications written in Java can communicate via an Object Request Broker - ORB open software bus architecture specified by the OMG which allows object components to communicate in a heterogeneous environment.(Object Request Broker). Using Orber means that CORBA functions can be used to achieve this communication.

For example, if one of the above nodes requests an object, it does not need to know if that object is located on the same, or different, Erlang or Java nodes. The ORB will channel the information creating platform and application transparency for the user.

Prerequisites

To fully understand the concepts presented in the documentation, it is recommended that the user is familiar with distributed programming and CORBA (Common Object Request Broker Architecture).

Recommended reading includes Open Telecom Platform Documentation Set and Concurrent Programming in Erlang.