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MBassador

MBassador is a very light-weight message (event) bus implementation following the publish subscribe pattern. It is designed for ease of use and aims to be feature rich and extensible while preserving resource efficiency and performance. The core of MBassador's high performance is a specialized data structure that minimizes lock contention such that performance degradation of concurrent access is minimal. The performance win of this design is illustrated in performance comparison and more recently in the eventbus-performance github repository.

Read this documentation to get an overview of MBassadors features. There is also some documentation in the Wiki - although admittedly not enough to make a developer happy (work is in progress). Additionally, you can browse the javadoc

The current version is 1.1.10 and it is available from the Maven Central Repository. See the release notes for more details.

There is also an extension available to support CDI-like transactional message sending in a Spring environment. It's beta but stable enough to give it a try. See here.

Table of contents:

Features

At its core MBassador offers the following features:

  • Annotation driven: To define and customize a message handler simply mark it with @Handler annotation
  • Delivers everything: Messages must not implement any interface and can be of any type. It is possible though to define an upper bound of the message type using generics. The class hierarchy of a message is considered during message delivery. This means that handlers will also receive subtypes of the message type they are listening for, e.g. a handler of Object.class receives everything.
  • Synchronous and asynchronous message delivery: A handler can be invoked to handle a message either synchronously or asynchronously. This is configurable for each handler via annotations. Message publication itself supports synchronous (method blocks until messages are delivered to all handlers) or asynchronous (fire and forget) dispatch
  • Weak references: By default, MBassador uses weak references to all listening objects to relieve the programmer of the burden to explicitly unregister listeners that are not used anymore (of course it is also possible to explicitly unregister a listener if needed). This is very comfortable in certain environments where listeners are managed by frameworks, i.e. Spring, Guice etc. Just stuff everything into the message bus, it will ignore objects without message handlers and automatically clean-up orphaned weak references after the garbage collector has done its job.
  • Strong references: Instead of using weak references, a listener can be configured to be referenced using strong references using @Listener
  • Filtering: MBassador offers static message filtering. Filters are configured using annotations and multiple filters can be attached to a single message handler
  • Message envelopes: Message handlers can declare to receive an enveloped message. The envelope can wrap different types of messages. This allows for a single handler to handle multiple, unrelated message types.
  • Handler priorities: A handler can be associated with a priority to influence the order in which messages are delivered when multiple matching handlers exist
  • Custom error handling: Errors during message delivery are sent to all registered error handlers which can be added to the bus as necessary.
  • DeadMessage event: Messages that do not match any handler result in the publication of a DeadMessage object which wraps the original message. DeadMessage events can be handled by registering listeners that handle DeadMessage.
  • FilteredMessage event: Messages that have matching handlers but do not pass the configured filters result in the publication of a FilteredMessage object which wraps the original message. FilteredMessage events can be handled by registering listeners that handle FilteredMessage.
  • Synchronization: It is possible to ensure that a handler is invoked non-concurrently,i.e. making it thread-safe by adding @Synchronized
  • Extensibility:MBassador is designed to be extensible with custom implementations of various components like message dispatchers and handler invocations (using the decorator pattern), metadata reader (you can add your own annotations) and factories for different kinds of objects. A configuration object is used to customize the different configurable parts
  • Ease of Use: Using MBassador in your project is very easy. Create as many instances of MBassador as you like (usually a singleton will do), mark and configure your message handlers with @Handler annotations and finally register the listeners at any MBassador instance. Start sending messages to your listeners using one of MBassador's publication methods (sync or async). Done!

Usage

Handler definition (in any bean):

    // every message of type TestMessage or any subtype will be delivered
    // to this handler
    @Handler
	public void handleTestMessage(TestMessage message) {
		// do something
	}

	// every message of type TestMessage or any subtype will be delivered
    // to this handler
    @Handler
    public void handleTestMessageStrong(TestMessage message) {
        // do something
    }

    // this handler will be invoked asynchronously (in a different thread)
	@Handler(delivery = Invoke.Asynchronously)
	public void handleSubTestMessage(SubTestMessage message) {
        // do something more expensive here
	}

	// this handler will receive messages of type SubTestMessage
    // or any of its sub types that passe the given filter(s)
    @Handler(priority = 10,
              delivery = Invoke.Synchronously,
              filters = {@Filter(Filters.SpecialMessage.class)})
    public void handleFiltered(SubTestMessage message) {
       //do something special here
    }

    @Handler(delivery = Invoke.Synchronously, rejectSubtypes = true)
    @Enveloped(messages = {TestMessage.class, TestMessage2.class})
    public void handleUnrelatedMessageTypes(MessageEnvelope envelope) {
        // the envelope will contain either an instance of TestMessage or TestMessage2
        // if rejectSubtypes were set to 'false' (default) also subtypes of TestMessage or TestMessage2 would be allowed
    }


    // configure a listener to be stored using strong instead of weak references
    @Listener(references = References.Strong)
    public class MessageListener{

        // any handler definitions

    }

Creation of message bus and registration of listeners:

    // create as many instances as necessary
    // bind it to any upper bound
    MBassador<TestMessage> bus = new MBassador<TestMessage>(BusConfiguration.Default());
    ListeningBean listener = new ListeningBean();
    // the listener will be registered using a weak-reference if not configured otherwise with @Listener
    bus.subscribe(listener);
    // objects without handlers will be ignored
    bus.subscribe(new ClassWithoutAnyDefinedHandlers());

Message publication:

    TestMessage message = new TestMessage();
    TestMessage subMessage = new SubTestMessage();

    bus.publishAsync(message); //returns immediately, publication will continue asynchronously
    bus.post(message).asynchronously(); // same as above
    bus.publish(subMessage);   // will return after each handler has been invoked
    bus.post(subMessage).now(); // same as above

Installation

Beginning with version 1.1.0 MBassador is available from the Maven Central Repository using the following coordinates: ```xml net.engio mbassador 1.1.10 ```

You can also download the latest binary release here: http://mvnrepository.com/artifact/net.engio/mbassador

Of course you can always clone the repository and build from source.

Wiki

There is ongoing effort to extend documentation and provide code samples and detailed explanations of how the message bus works. Code samples can also be found in the various test cases. Please read about the terminology used in this project to avoid confusion and misunderstanding.

Release Notes

1.1.11

+ Added support for conditional handlers using Java EL. Thanks to Bernd Rosstauscher for the initial implementation.

1.1.10

+ Fixed broken sort order of prioritized handlers (see #58) + Addressed issue #63 by making the constructor of `MessageHandler` use a map of properties and by replacing dependencies to all MBassador specific annotations with Java primitives and simple interfaces + Small refactorings (moved stuff around to have cleaner packaging) + MessageBus.getExecutor() is now deprecated and will be removed with next release -> use the runtime to get access to it. + Introduced BusFactory with convenience methods for creating bus instances for different message dispatching scenarios like asynchronous FIFO (asynchronous message publications guaranteed to be delivered in the order they occurred) + Renamed runtime property of `BusRuntime` "handler.async-service" to "handler.async.executor"

1.1.9

  • Fixed memory leak reported in issue #53

1.1.8

  • Internal refactorings and code improvements
  • Fixed #44 #45 #47
  • NOTE: This release has a known issue with weak references which introduces a memory leak and is fixed in 1.1.9. The version 1.1.8 is not available from the central repository

1.1.7

  • Console Logger not added to message bus instances by default -> use addErrorHandler(IPublicationErrorHandler.ConsoleLogger)
  • Fixed race conditions in net.engio.mbassy.subscription.Subscription and of WeakConcurrentSet.contains()
  • Improved message hierarchy handling: Now interfaces, enums , (abstract) classes should work in all combinations
  • Prevented dispatcher threads from dying on exceptions
  • Improved test-infrastructure and increased test-coverage
  • Thanks for your feedback!

1.1.6

  • Added support for choosing between strong and weak references using the new @Listener annotation. @Listener can be added to any class that defines message handlers and allows to configure which reference type is used
  • Custom handler invocations: It is possible to provide a custom handler invocation for each message handler, see "invocation" property of @Handler
  • Changed packaging to "bundle" to support OSGI environments
  • Synchronization of message handlers via @Synchronized: Handlers that are not thread-safe can be synchronized to guarantee that only one thread at a time can invoke that handler
  • Created a message bus implementation that does not use threading to support use in non-multi-threaded environments like GWT, see ISyncMessageBus

1.1.3

  • Added support for FilteredMessage event
  • Renamed @Listener to @Handler and DeadEvent to DeadMessage to increase alignment with the established terminology. Sorry for the inconvenience since this will lead to compile errors but good old find&replace will do
  • Repackaging and refactoring of some parts
  • Introduced message publication factories as configurable components to make MBassador more extensible/customizable
  • Added more documentation and unit tests

1.1.1

  • Added support for DeadMessage event
  • Introduced new property to @Handler annotation that allows to activate/deactivate any message handler
  • Full support of proxies created by cglib
  • Message handler inheritance changed! See wiki page about handler definition for more details.
  • Changed @Handler property "dispatch" to "delivery" and renamed the associated enumeration values to more precisely indicate their meaning
  • Added more unit tests

1.1.0

First stable release!

  • Refactoring and repackaging
  • More exhaustive unit tests
  • Installation from the central repository

1.0.6.RC

  • Fixed behaviour with capacity bound blocking queue such that there now are two methods to schedule a message asynchronously. One will block until capacity becomes available, the other will timeout after a specified amount of time.
  • Additional unit tests

1.0.5.RC

  • Added MessageEnvelope and @Enveloped annotation to configure handlers that might receive arbitrary message type
  • Added handler configuration property to @Handler annotation to move from message filtering to more specific implementation of this feature

1.0.4.RC

  • Introduced BusConfiguration as a central class to encapsulate configurational aspects

Roadmap

Check the issues labeled 'enhancement'. Comment if you would like to see the feature in a future release and/or want to share your ideas on the feature (or a variation thereof). Please understand that I have limited time to include new features and that I will focus on stability and cleaner APIs. Adding features only works with well designed and thoroughly tested components. This is especially true for multi-threaded code and I am still not 100 percent happy with the existing test design and some parts of the internal code layout.

Planned for release:Spring integration with support for conditional message dispatch in transactional context (dispatch only after successful transaction commit etc.). Currently in beta, see this repository

Credits

The initial inspiration for creating this component came from trying out Google Guava's event bus implementation. I liked the simplicity of its design and I do trust the developers at Google a lot, so I was happy to find that they also provided an event bus system. The main reason it proved to be unusable for our scenario was that it uses strong references to the listeners such that every object has to be explicitly deregistered. This was difficult in our Spring managed environment. Finally, I decided to create a custom implementation, which then matured to be stable, extensible and yet very efficient.

I want to thank the development team from friendsurance (www.friendsurance.de) for their support and feedback on the bus implementation and the management of friendsurance for allowing me to publish the component as an open source project.

Contribute

Any feature requests and feedback are more than welcome. You may suggest improvements either by submitting an issue or by forking the repo and creating a pull request. I will try to respond as quickly as possible.

Sample code and documentation are both very appreciated contributions. Especially integration with different frameworks such as Spring, Guice or other is of great value. Feel free and welcome to create Wiki pages to share your code and ideas.

License

This project is distributed under the terms of the MIT License. See file "LICENSE" for further reference.