I've been learning a bit more about Service-Oriented Architecture (SOA) and Event-Drive Architecture (EDA) over the last couple of months. Something that kept coming back in the articles and books I've read so far is the concept of an Enterprise Service Bus (ESB). I've heard numerous times about NServiceBus, Mass Transit and Rhino Service Bus in the past, but I've never fully realized what types of problems these technologies try to solve. Besides trying to learn about the scenarios and business needs that drive these technologies, I also decided to take a closer look at NServiceBus by creating the simplest example I could think of: Starbucks!
You've probably found out by now that yours truly isn't capable of making up innovative sample applications, but since we actually have two (!) Starbucks shops already here in Belgium, I couldn't let this go unnoticed either.
The scenario is actually quite simple:
- The customer places his order at the cashier.
- The cashier passes the order to a barista who starts preparing the drinks.
- The cashier asks the customer to pay for his order.
- When the customer paid for his order at the cashier, the barista is informed that the payment has been completed.
- When the barista finishes its order, he checks whether payment has been completed and delivers the order to the customer.
I've used NSB 2.0 for this exercise, which is the trunk version at the moment. The thing that amazed me the most was how easy it is to get started. I pretty much expected to be muddling around for a week before I could actually send my first message, but this was certainly not the case. Let me show a couple of basic code snippets that illustrate how NSB is used.
Here's an example of the fluent API for bootstrapping NSB:
Notice that I'm able to reuse my IoC container of choice that is also used elsewhere in the application. After bootstrapping NSB, the IoC container contains an instance of IBus which we can use to send and publish messages, etc. ...
A message that can be sent with NSB must implement the IMessage interface.
Notice that NSB doesn't require a message to be a class. You can just as well use an interface:
A message can be send using an instance of the bus:
Handling a message is accomplished using a message handler that implements the IHandleMessages interface:
The destination of a message must be configured in the configuration file of the sending application.
When publishing a particular message, this kind of configuration goes in the configuration file of the subscribing application instead of the publisher.
NSB also supports sagas. Here's an example of how to create a saga.
Configure.With() .StructureMapBuilder(ObjectFactory.Container) .MsmqSubscriptionStorage() .XmlSerializer() .Sagas() .NHibernateSagaPersisterWithSQLiteAndAutomaticSchemaGeneration() .MsmqTransport() .IsTransactional(true) .PurgeOnStartup(false) .UnicastBus() .ImpersonateSender(false) .LoadMessageHandlers() .CreateBus() .Start();
The saga data class contains data that should be persisted during the lifetime of a saga so that it can be used when different messages arrive. So make sure that the public members of saga data classes are virtual!
You can find the code of this sample application using NServiceBus at the Elegant Code repository (turns out we actually have one of those at Google Code). I've probably did a whole bunch of things wrong with it, but I definitely learned a thing or two in the process :-).
There's a lot more that I want to learn about NSB like testing sagas, the generic host, etc. ...
Let me round of this post by providing a couple of resources that were very helpful:
- The NServiceBus web site.
- The NServiceBus wiki.
- Udi's blog.
- Andreas Öhlund's blog.
- The samples in the NSB code base.
Till next time,