IBM WebSphere MQ is a family of network communication software products launched by IBM in March 1992. It was previously known as MQSeries, a trademark that IBM rebranded in 2002 to join the suite of WebSphere products. WebSphere MQ is IBM's Message Oriented Middleware offering. It allows independent and potentially non-concurrent applications on a distributed system to communicate with each other. MQ is available on a large number of platforms (both IBM and non-IBM), including z/OS (mainframe), OS/400 (IBM System i or AS/400), Transaction Processing Facility, UNIX (AIX, HP-UX, Solaris), HP NonStop, OpenVMS, Linux, and Microsoft Windows.
Message-oriented middleware
Main article: Message-oriented middleware
A member of the WebSphere family from IBM, WebSphere MQ (formerly MQSeries) is the most popular system for messaging across multiple platforms, including Windows, Linux, IBM mainframe and midrange, and Unix. WebSphere MQ is often referred to as "MQ" or "MQSeries".
There are two parts to message queuing:
* Messages are collections of binary or character (for instance ASCII or EBCDIC) data that have some meaning to a participating program. As in other communications protocols, storage, routing, and delivery information is added to the message before transmission and stripped from the message prior to delivery to the receiving application.
* Message queues are objects that store messages in an application.
A queue Manager, although not strictly required for message-oriented middleware, is a Websphere MQ prerequisite and system service that provides a logical container for the message queue and is responsible for transferring data to other queue managers via message channels.
There are several advantages to this technology:
* Messages do not depend on pure packet-based transmissions, such as TCP/IP. This allows the sending and receiving ends to be decoupled and potentially operate asynchronously.
* Messages will be delivered once and once only, irrespective of errors and network problems.
APIs
There are many ways to access WebSphere MQ's facilities. Some of the APIs supported by IBM are:
* IBM Message Queue Interface for C, COBOL, PL/I, and Java
* JMS for Java
* Perl interface (developed and contributed by Morgan Stanley), available from CPAN.
* Windows PowerShell
* XMS for C/C++ and .NET
There are many other APIs (unsupported by IBM).
Awards
In 2004, WebSphere MQ won the British Royal Academy of Engineering's MacRobert Award for technological and engineering innovation.
Features
WebSphere MQ provides assured one-time delivery of messages across a wide variety of platforms. The product emphasizes reliability and robustness of message traffic, and ensures that a message should never be lost if MQ is appropriately configured.
It needs to be remembered that a message in the context of MQ has no implication other than a gathering of data. MQ is very generalized and can be used as a robust substitute for many forms of intercommunication. For example, it can be used to implement reliable delivery of large files as a substitute for FTP.
MQ provides application designers a mechanism to achieve non-time-dependent architecture. Messages can be sent from one application to another, regardless of whether the applications are running at the same time. If a message receiver application is not running when a sender sends it a message, the queue manager will hold the message until the receiver asks for it. Ordering of all messages is preserved, by default this is in FIFO order of receipt at the local queue within priority of the message.
It provides a means for transforming data between different architectures and protocols, such as Big Endian to Little Endian, or EBCDIC to ASCII. This is accomplished through the use of message data "exits". Exits are compiled applications which run on the queue manager host, and are executed by the WebSphere MQ software at the time data transformation is needed.
WebSphere MQ allows receipt of messages to "trigger" other applications to run, and thus provides the framework for a message driven architecture.
It implements the JMS standard API, and also has its own proprietary API, known as the Message Queuing Interface.
Unlike email, MQ itself is responsible for determining the destination of messages by the definition of queues, so processing of sent messages can be moved to a different application at a different destination. MQ provides a robust routing architecture, allowing messages to be routed via alternative paths around a network of MQ managers. MQ can be implemented as a cluster, where multiple MQ implementations share the processing of messages to allow higher performance and load balancing.
Message-oriented middleware
Main article: Message-oriented middleware
A member of the WebSphere family from IBM, WebSphere MQ (formerly MQSeries) is the most popular system for messaging across multiple platforms, including Windows, Linux, IBM mainframe and midrange, and Unix. WebSphere MQ is often referred to as "MQ" or "MQSeries".
There are two parts to message queuing:
* Messages are collections of binary or character (for instance ASCII or EBCDIC) data that have some meaning to a participating program. As in other communications protocols, storage, routing, and delivery information is added to the message before transmission and stripped from the message prior to delivery to the receiving application.
* Message queues are objects that store messages in an application.
A queue Manager, although not strictly required for message-oriented middleware, is a Websphere MQ prerequisite and system service that provides a logical container for the message queue and is responsible for transferring data to other queue managers via message channels.
There are several advantages to this technology:
* Messages do not depend on pure packet-based transmissions, such as TCP/IP. This allows the sending and receiving ends to be decoupled and potentially operate asynchronously.
* Messages will be delivered once and once only, irrespective of errors and network problems.
APIs
There are many ways to access WebSphere MQ's facilities. Some of the APIs supported by IBM are:
* IBM Message Queue Interface for C, COBOL, PL/I, and Java
* JMS for Java
* Perl interface (developed and contributed by Morgan Stanley), available from CPAN.
* Windows PowerShell
* XMS for C/C++ and .NET
There are many other APIs (unsupported by IBM).
Awards
In 2004, WebSphere MQ won the British Royal Academy of Engineering's MacRobert Award for technological and engineering innovation.
Features
WebSphere MQ provides assured one-time delivery of messages across a wide variety of platforms. The product emphasizes reliability and robustness of message traffic, and ensures that a message should never be lost if MQ is appropriately configured.
It needs to be remembered that a message in the context of MQ has no implication other than a gathering of data. MQ is very generalized and can be used as a robust substitute for many forms of intercommunication. For example, it can be used to implement reliable delivery of large files as a substitute for FTP.
MQ provides application designers a mechanism to achieve non-time-dependent architecture. Messages can be sent from one application to another, regardless of whether the applications are running at the same time. If a message receiver application is not running when a sender sends it a message, the queue manager will hold the message until the receiver asks for it. Ordering of all messages is preserved, by default this is in FIFO order of receipt at the local queue within priority of the message.
It provides a means for transforming data between different architectures and protocols, such as Big Endian to Little Endian, or EBCDIC to ASCII. This is accomplished through the use of message data "exits". Exits are compiled applications which run on the queue manager host, and are executed by the WebSphere MQ software at the time data transformation is needed.
WebSphere MQ allows receipt of messages to "trigger" other applications to run, and thus provides the framework for a message driven architecture.
It implements the JMS standard API, and also has its own proprietary API, known as the Message Queuing Interface.
Unlike email, MQ itself is responsible for determining the destination of messages by the definition of queues, so processing of sent messages can be moved to a different application at a different destination. MQ provides a robust routing architecture, allowing messages to be routed via alternative paths around a network of MQ managers. MQ can be implemented as a cluster, where multiple MQ implementations share the processing of messages to allow higher performance and load balancing.
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