IntroductionOverviewSpring.NET is an application framework that provides comprehensive
infrastructural support for developing enterprise .NET applications. It
allows you to remove incidental complexity when using the base class
libraries makes best practices, such as test driven development, easy
practices. Spring.NET is created, supported and sustained by SpringSource.The design of Spring.NET is based on the Java version of the Spring
Framework, which has shown real-world benefits and is used in thousands of
enterprise applications world wide. Spring .NET is not a quick port from
the Java version, but rather a 'spiritual port' based on following proven
architectural and design patterns in that are not tied to a particular
platform. The breadth of functionality in Spring .NET spans application
tiers which allows you to treat it as a ‘one stop shop’ but that is not
required. Spring .NET is not an all-or-nothing solution. You can use the
functionality in its modules independently. These modules are described below.Enterprise applications typically are composed of a number of a
variety of physical tiers and within each tier functionality is often
split into functional layers. The business service layer for example
typically uses a objects in the data access layer to fulfill a use-case.
No matter how your application is architected, at the end of the day there
are a variety of objects that collaborate with one another to form the
application proper. The objects in an application can thus be said to have
dependencies between themselves.The .NET platform provides a wealth of functionality for
architecting and building applications, ranging all the way from the very
basic building blocks of primitive types and classes (and the means to
define new classes), to rich full-featured application servers and web
frameworks. One area that is decidedly conspicuous by its absence is any
means of taking the basic building blocks and composing them into a
coherent whole; this area has typically been left to the purvey of the
architects and developers tasked with building an application (or
applications). Now to be fair, there are a number of design patterns
devoted to the business of composing the various classes and object
instances that makeup an all-singing, all-dancing application. Design
patterns such as Factory, Abstract Factory, Builder, Decorator, and
Service Locator (to name but a few) have widespread recognition and
acceptance within the software development industry (presumably that is
why these patterns have been formalized as patterns in the first place).
This is all very well, but these patterns are just that: best practices
given a name, typically together with a description of what the pattern
does, where the pattern is typically best applied, the problems that the
application of the pattern addresses, and so forth. Notice that the last
paragraph used the phrase “... a description of what the pattern does...”;
pattern books and wikis are typically listings of such formalized best
practice that you can certainly take away, mull over, and then implement
yourself in your application.The Spring Framework takes best practices that have been proven over
the years in numerous applications and formalized as design patterns, and
actually codifies these patterns as first class objects that you as an
architect and developer can take away and integrate into your own
application(s). This is a Very Good Thing Indeed as attested to by the
numerous organizations and institutions that have used the Spring
Framework to engineer robust, maintainable applications. For example, the
IoC component of the Spring Framework addresses the enterprise concern of
taking the classes, objects, and services that are to compose an
application, by providing a formalized means of composing these various
disparate components into a fully working application ready for useBackgroundIn early 2004, Martin Fowler asked the readers of his site: when
talking about Inversion of Control: “the question is, what aspect of
control are [they] inverting?”. Fowler then suggested renaming the
principle (or at least giving it a more self-explanatory name), and
started to use the term Dependency Injection. His article then continued
to explain the ideas underpinning the Inversion of Control (IoC) and
Dependency Injection (DI) principle. If you need a decent insight into IoC
and DI, please do refer to the article :
http://martinfowler.com/articles/injection.html.ModulesThe Spring Framework contains a lot of features, which are
well-organized into modules shown in the diagram below. The diagram below
shows the various core modules of Spring.NET.Click on the module name for more information.Spring.Core is the most
fundamental part of the framework allowing you to configure your
application using Dependency Injection. Other supporting functionality,
listed below, is located in Spring.CoreSpring.Aop - Use this module to perform
Aspect-Oriented Programming (AOP). AOP centralizes common functionality
that can then be declaratively applied across your application in a
targeted manner. Spring's aspect
library provides predefined easy to use aspects for transactions,
logging, performance monitoring, caching, method retry, and exception
handling.Spring.Data - Use this
module to achieve greater efficiency and consistency in writing data
access functionality in ADO.NET and to perform declarative transaction
management.Spring.Data.NHibernate - Use this module
to integrate NHibernate with Spring’s declarative transaction management
functionality allowing easy mixing of ADO.NET and NHibernate operations
within the same transaction. NHibernate 1.0 users will benefit from ease
of use APIs to perform data access operations.Spring.Messaging - Use this module
to raise the level of abstraction when interacting with the Microsoft MSMQ
message queing middlewareSpring.Messaging.NMS - Use this
module to raise the level of abstraction when interacting with the Apache
ActiveMQ (NMS) message queing middlewareSpring.Messaging.EMS - Use this
module to raise the level of abstraction when interacting with the Tibco
Enterprise Message Service (EMS) message queing middlewareSpring.Web - Use this module to raise the
level of abstraction when writing ASP.NET web applications allowing you to
effectively address common pain-points in ASP.NET such as data binding,
validation, and ASP.NET page/control/module/provider configuration.Spring.Web.Mvc - Use this module to
integrate the functionality of the Spring.Core and Spring.Aop modules into
your ASP.NET MVC 2 projects.Spring.Web.Mvc3 - Use this module to
integrate the functionality of the Spring.Core and Spring.Aop modules into
your ASP.NET MVC 3 projects.Spring.Web.Extensions - Use this module
to raise the level of abstraction when writing ASP.NET web applications
allowing you to effectively address common pain-points in ASP.NET such as
data binding, validation, and ASP.NET page/control/module/provider
configuration.Spring.Services - Use this
module to adapt plain CLR objects so they can be used with a specific
distributed communication technology, such as .NET Remoting, Enterprise
Services, and ASMX Web Services. These services can be configured via
dependency injection and ‘decorated’ by applying AOP.Spring.Testing.NUnit - Use this
module to perform integration testing with NUnit.Spring.Testing.MSTest - Use this module
to perform integration testing with MSTestSpring.Scheduling.Quartz - Use
this module to support interacting with the Quartz.NET job scheduler
infrastructure.The Spring.Core module also includes the following additional
featuresExpression Language -
provides efficient querying and manipulation of an object graphs at
runtime.Validation Framework - a
robust UI agnostic framework for creating complex validation rules for
business objects either programatically or declaratively.Data binding Framework - a UI agnostic framework for performing
data binding.Dynamic Reflection - provides a high performance reflection
APIThreading - provides additional
concurrency abstractions such as Latch, Semaphore and Thread Local
Storage.Resource abstraction -
provides a common interface to treat the InputStream from a file and
from a URL in a polymorphic and protocol-independent manner.Usage ScenariosWith the building blocks described above you can use Spring in all
sorts of scenarios, from simple stand alone console applications to
fully-fledged enterprise applications using Spring's transaction
management functionality and web framework integration.It is important to note that the Spring Framework does
not force you to use everything within it; it is not an
all-or-nothing solution. Existing front-ends built
using standard ASP.NET can be integrated perfectly well with a
Spring-based middle-tier, allowing you to use the transaction and/or data
access features that Spring offers. The only things you need to do is wire
up your business logic using Spring's IoC container and integrate it into
your web layer using WebApplicationContext to locate middle tier services
and/or configure your standard ASP.NET pages with depdenency
injection.While the Spring framework does not force any particular application
architecure it encourages the use of a well layered application
architecture with distinct tiers for the presentation, service, data
access, and database.Quickstart applicationsThere are several sample applications that showcase individual
features. If you are already familiar with the concepts of dependency
injection, AOP, or have experience using the Java version of the Spring
framework you may find jumping into the examples a better way to bootstrap
the learning processing process. The following quickstart applications are
available and can be found in the examples directory in the distribution.
Click on the links for additional information.Movie Finder - A simple
demonstration of Dependency Injection (DI) techniques using Spring's
Inversion of Control (IoC) container.Application
Context - Demonstrates IoC container features such as
localization, accessing of ResourceSet objects, and applying resources
to object properties.Aspect Oriented
Programming - Demonstrates use of the AOP framework to add
additional behavior to your existing objects. Examples of programmatic
and declarative AOP configuration are shown.Distributed Computing
- A calculator demonstrating remote service abstractions that let you
'export' a plain CLR object (POCO) via .NET Remoting, Web Services, or
an EnterpriseService ServiceComponent. Corresponding client side
proxies are also demonstrated.WCF - Shows a WCF based
calculator example that configures your WCF service via dependency
injection and apply AOP advice.Web Application - SpringAir -A
ticket booking application that demonstrates the ASP.NET framework
showing features such as DI for ASP.NET pages, data binding,
validation, and localization.Web Development - Introductory examples showing use of
dependency injection and Spring's bi-directional data binding in
ASP.NET.ASP.NET MVC2 - Introductory example showing use of dependency
injection and container integration into the ASP.NET MVC2
framework.ASP.NET MVC3 - Introductory example showing use of dependency
injection and container integration into the ASP.NET MVC3
framework.Data Access -
Demonstrates the ADO.NET framework showing how to simplify developing
ADO.NET based data access layers.Transaction Management :
Demonstrates the use of declarative transaction management for both
local and distributed transaction in both .NET 1.1 and 2.0.AJAX : Demonstrates how to access a plain CLR object (POCO) as a
webservice in client side JavaScriptNHibernate Northwind:
Demonstrates use of Spring's NHibernate integration to simplify the
use of NHibernate. Web tier is also included showing how to use the
Open-Session In View approach to session management in the web
tier.Quartz Quickstart -
Application that shows the use of Quartz.NET integration for
scheduling.MSMQ - Application
demonstrating MSMQ helper classes.NMS - Applicatoin
demonstrating NMS helper classes.Associated Spring.NET ProjectsThere is a lot more to Spring.NET than just the Spring.NET project
itself. Spring.NET is enriched and empowered by a collection of supporting
projects that provide additional capabilities beyond those found in the
core Spring.NET Framework. Ranging from configuration-enhancing tools and
libraries to REST clients to support for additional messaging frameworks
and standards, the list of associated projects is growing rapidly and
includes some of the following:Spring.NET CodeConfigSpring.NET CodeConfig provides the ability
to configure a Spring container using standard .NET code instead of or
in addition to XML configuration.See http://springframework.net/codeconfig/
for resources, downloads, and more informationSpring.NET REST ClientSpring.NET REST Client simplifies
communication with HTTP servers, and enforces RESTful principles. It
handles HTTP connections, leaving application code to provide URLs
(with possible template variables) and extract results.See http://springframework.net/rest/
for resources, downloads, and more informationSpring.NET AMQPSpring.NET AMQP supports the Spring
programming model with AMQP, especially but not limited to
RabbitMQSee http://springframework.net/amqp/
for resources, downloads, and more informationSpring.NET Visual Studio Add-InSpring.NET Visual Studio Add-In provides
intellisense assistance in authoring Spring XML configuration files in
VS.NET 2010See http://springframework.net/vsaddin/
for resources, downloads, and more informationAdopters of Spring.NET are encouraged to explore these projects (and
more!) that help to round out the comprehensive Spring.NET experience and
provide additional capabilities beyond those of the core Spring.NET
Framework to increase developer efficiency and effectiveness.License InformationSpring.NET is licensed according to the terms of the Apache License,
Version 2.0. The full text of this license are available online at http://www.apache.org/licenses/LICENSE-2.0
. You can also view the full text of the license in the license.txt file
located in the root installation directory.SupportTraining and support are available through SpringSource in addition to the
mailing lists and forums you can find on the main Spring.NET website.