By arungupta on Mar 22, 2012
Java EE 6 was released over 2 years ago and now there are 14 compliant application servers. In all my talks around the world, a question that is frequently asked is
Why should I use Java EE 6 instead of Spring ?
There are already several blogs covering that topic:
EE wins over Spring by Bill Burke
will I use Java EE instead of Spring in new Enterprise Java
projects in 2012 ? by Kai Waehner (more
discussion on TSS)
- Spring to Java EE migration (Part 1
3 and 4 coming as well) by David Heffelfinger
to Java EE - A Migration Experience by Lincoln Baxter
- Migrating Spring to Java EE 6 by Bert Ertman and Paul Bakker at NLJUG
- Moving from Spring to Java EE 6 - The Age of Frameworks is Over at TSS
- Java EE vs Spring Shootout by Rohit Kelapure and Reza Rehman at JavaOne 2011
- Java EE 6 and the Ewoks by Murat Yener
excuse to avoid Spring forever - Bert Ertman and Arun
First of all, I'd like to start with a note:
Thank you Spring framework for filling the interim gap and providing functionality that is now included in the mainstream Java EE 6 application servers. The Java EE platform has evolved over the years learning from frameworks like Spring and provides all the functionality to build an enterprise application. Thank you very much Spring framework!
While Spring was revolutionary in its time and is still very popular and quite main stream in the same way Struts was circa 2003, it really is last generation's framework - some people are even calling it legacy. However my theory is "code is king". So my approach is to build/take a simple Hello World CRUD application in Java EE 6 and Spring and compare the deployable artifacts.
I started looking at the official tutorial Developing a Spring Framework MVC Application Step-by-Step but it is using the older version 2.5. I wasn't able to find any updated version in the current 3.1 release. Next, I downloaded Spring Tool Suite and thought that would provide some template samples to get started. A least a quick search did not show any handy tutorials - either video or text-based. So I searched and found a link to their SVN repository at src.springframework.org/svn/spring-samples/.
I tried the "mvc-basic" sample and the generated WAR file was 4.43 MB. While it was named a "basic" sample it seemed to come with 19 different libraries bundled but it was what I could find:
./WEB-INF/lib/aopalliance-1.0.jarAnd it is not even using any database!
The app deployed fine on GlassFish 3.1.2 but the "@Controller Example" link did not work as it was missing the context root. With a bit of tweaking I could deploy the application and assume that the account got created because no error was displayed in the browser or server log.
Next I generated the WAR for "mvc-ajax" and the 5.1 MB WAR had 20 JARs (1 removed, 2 added):
./WEB-INF/lib/aopalliance-1.0.jar2 more JARs for just doing Ajax.
Anyway, deploying this application gave the following error:
Caused by: java.lang.NoSuchMethodError: org.codehaus.jackson.map.SerializationConfig.<init>(Lorg/codehaus/jackson/map/ClassIntrospector;Lorg/codehaus/jackson/map/AnnotationIntrospector;Lorg/codehaus/jackson/map/introspect/VisibilityChecker;Lorg/codehaus/jackson/map/jsontype/SubtypeResolver;)V
Seems like some incorrect repos in the "pom.xml".
Next one is "mvc-showcase" and the 6.49 MB WAR now has 28 JARs as shown below:
The app at least deployed and showed results this time. But still no database!
Next I tried building "jpetstore" and got the error:
[ERROR] Failed to execute goal on project org.springframework.samples.jpetstore:It appears the sample is broken - maybe I was pulling from the wrong repository - would be great if someone were to point me at a good target to use here.
Could not resolve dependencies for project org.springframework.samples:
org.springframework.samples.jpetstore:war:1.0.0-SNAPSHOT: Failed to collect
dependencies for [commons-fileupload:commons-fileupload:jar:1.2.1 (compile),
commons-io:commons-io:jar:1.3.2 (compile), hsqldb:hsqldb:jar:184.108.40.206 (compile),
org.apache.tiles:tiles-core:jar:2.2.0 (compile), org.apache.tiles:tiles-jsp:jar:2.2.0 (compile),
org.tuckey:urlrewritefilter:jar:3.1.0 (compile), org.springframework:spring-webmvc:jar:
3.0.0.BUILD-SNAPSHOT (compile), org.springframework:spring-orm:jar:3.0.0.BUILD-SNAPSHOT (compile),
org.springframework.webflow:spring-js:jar:2.0.7.RELEASE (compile), org.apache.ibatis:
com.springsource.com.ibatis:jar:220.127.116.116 (runtime), com.caucho:com.springsource.com.
caucho:jar:3.2.1 (compile), org.apache.axis:com.springsource.org.apache.axis:jar:1.4.0 (compile),
javax.wsdl:com.springsource.javax.wsdl:jar:1.6.1 (compile), javax.servlet:jstl:jar:1.2 (runtime),
org.aspectj:aspectjweaver:jar:1.6.5 (compile), javax.servlet:servlet-api:jar:2.5 (provided),
javax.servlet.jsp:jsp-api:jar:2.1 (provided), junit:junit:jar:4.6 (test)]: Failed to read
artifact descriptor for org.springframework:spring-webmvc:jar:3.0.0.BUILD-SNAPSHOT: Could
not transfer artifact org.springframework:spring-webmvc:pom:3.0.0.BUILD-SNAPSHOT from/to
JBoss repository (http://repository.jboss.com/maven2): Access denied to: http://
With a 50% hit on samples in this repository, I started searching through numerous blogs, most of which have either outdated information (using XML-heavy Spring 2.5), some piece of configuration (which is a typical "feature" of Spring) is missing, or too much complexity in the sample. I finally found this blog that worked like a charm. This blog creates a trivial Spring MVC 3 application using Hibernate and MySQL. This application performs CRUD operations on a single table in a database using typical Spring technologies. I downloaded the sample code from the blog, deployed it on GlassFish 3.1.2 and could CRUD the "person" entity. The source code for this application can be downloaded here. More details on the application statistics below.
And then I built a similar CRUD application in Java EE 6 using NetBeans wizards in a couple of minutes. The source code for the application can be downloaded here and the WAR here.
The Spring Source Tool Suite may also offer similar wizard-driven capabilities but this blog focus primarily on comparing the runtimes. The lack of STS tutorials was slightly disappointing as well. NetBeans however has tons of text-based and video tutorials and tons of material even by the community. One more bit on the download size of tools bundle ...
NetBeans 7.1.1 "All" is 211 MB (which includes GlassFish and Tomcat)
Spring Tool Suite 2.9.0 is 347 MB (~ 65% bigger)
This blog is not about the tooling comparison so back to the Java EE 6 version of the application ....
In order to run the Java EE version on GlassFish, copy the MySQL Connector/J to
glassfish3/glassfish/domains/domain1/lib/extdirectory and create a JDBC connection pool and JDBC resource as:
./bin/asadmin create-jdbc-connection-pool --datasourceclassname \\ com.mysql.jdbc.jdbc2.optional.MysqlDataSource --restype \\ javax.sql.DataSource --property \\ portNumber=3306:user=mysql:password=mysql:databaseName=mydatabase \\ myConnectionPool ./bin/asadmin create-jdbc-resource --connectionpoolid myConnectionPool jdbc/myDataSource
I generated WARs for the two projects and the table below highlights some differences between them:
|Java EE 6
|WAR File Size
||10.87 MB (~516x)
|Number of files
||53 (> 2.5x)
|Total size of
|LoC in XML files
||50 (11 + 15 + 24)||129 (27 + 46 + 16 +
11 + 19) (~ 2.5x)
Some points worth highlighting from the table ...
- 516x WAR file, 10x deployment
time - With 12.1 MB of libraries (for a very basic
application) bundled in your application, the WAR file size and
the deployment time will naturally go higher. The WAR file for
Spring-based application is 516x bigger and the deployment time
is double during the first deployment and ~ 10x during
subsequent deployments. The Java EE 6 application is fully
portable and will run on any Java EE 6 compliant application
- 36 libraries in the WAR
- There are 14
EE 6 compliant application servers today. Each of those
servers provide all the functionality like transactions,
dependency injection, security, persistence, etc typically
required of an enterprise or web application. There is no need
to bundle 36 libraries worth 12.1 MB for a trivial CRUD
application. These 14 compliant application servers provide all
the functionality baked in.
Now you can also deploy these libraries in the container but then you don't get the "portability" offered by Spring in that case. Does your typical Spring deployment actually do that ?
- 3x LoC in XML - The number of XML files is about 1.6x and the LoC is ~ 2.5x. So much XML seems circa 2003 when the Java language had no annotations. The XML files can be further reduced, e.g. faces-config.xml can be replaced without providing i18n, but I just want to compare stock applications.
- Memory usage - Both
the applications were deployed on default GlassFish 3.1.2
installation and any additional memory consumed as part of
deployment/access was attributed to the application. This is by
no means scientific but at least provides an initial ballpark.
This area definitely needs more investigation.
Another table that compares typical Java EE 6 compliant
application servers and the custom-stack created for a Spring
|Java EE 6
(tcServer 2.6.3 Developer Edition)
(Spring Security 3.1.0)
(Hibernate 4.1.0, required)
(Spring WS 2.0.4)
(RabbitMQ Server 2.7.1)
936 KB (Java client 936)
(Spring OSGi 1.2.1)
and WebLogic (starting at 33 MB)
There are differentiating factors on both the stacks. But most of the functionality like security, persistence, and dependency injection is baked in a Java EE 6 compliant application server but needs to be individually managed and patched for a Spring application. This very quickly leads to a "stack explosion". The Java EE 6 servers are tested extensively on a variety of platforms in different combinations whereas a Spring application developer is responsible for testing with different JDKs, Operating Systems, Versions, Patches, etc. Oracle has both the leading OSS lightweight server with GlassFish and the leading enterprise Java server with WebLogic Server, both Java EE 6 and both with lightweight deployment options.
The Web Container offered as part of a Java EE 6 application server not only deploys your enterprise Java applications but also provide operational management, diagnostics, and mission-critical capabilities required by your applications.
The Java EE 6 platform also introduced the Web Profile which is a subset of the specifications from the entire platform. It is targeted at developers of modern web applications offering a reasonably complete stack, composed of standard APIs, and is capable out-of-the-box of addressing the needs of a large class of Web applications. As your applications grow, the stack can grow to the full Java EE 6 platform. The GlassFish Server Web Profile starting at 33MB (smaller than just the non-standard tcServer) provides most of the functionality typically required by a web application. WebLogic provides battle-tested functionality for a high throughput, low latency, and enterprise grade web application. No individual managing or patching, all tested and commercially supported for you!
Note that VMWare does have a server, tcServer, but it is non-standard and not even certified to the level of the standard Web Profile most customers expect these days. Customers who choose this risk proprietary lock-in since VMWare does not seem to want to formally certify with either Java EE 6 Enterprise Platform or with Java EE 6 Web Profile but of course it would be great if they were to join the community and help their customers reduce the risk of deploying on VMWare software.
Some more points to help you decide choose between Java EE 6 and
- Freedom to choose container
- There are 14
EE 6 compliant application servers today, with a variety
of open source and commercial offerings. A Java EE 6 application
can be deployed on any of those containers. So if you deployed
your application on GlassFish today and would like to scale up
with your demands then you can deploy the same application to
WebLogic. And because of the portability of a Java EE 6
application, you can even take it a different vendor altogether.
Spring requires a runtime which could be any of these app servers as well. But why use Spring when all the required functionality is already baked into the application server itself ?
Spring also has a different definition of portability where they claim to bundle all the libraries in the WAR file and move to any application server. But we saw earlier how bloated that archive could be.
The equivalent features in Spring runtime offerings (mainly tcServer) are not all open source, not as mature, and often require manual assembly.
- Vendor choice - The
Java EE 6 platform is created using the Java Community Process
where all the big players like Oracle, IBM, RedHat, and Apache
are conritbuting to make the platform successful. Each
application server provides the basic Java EE 6 platform
compliance and has its own competitive offerings. This allows
you to choose an application server for deploying your Java EE 6
applications. If you are not happy with the support or feature
of one vendor then you can move your application to a different
vendor because of the portability promise offered by the
Spring is a set of products from a single company, one price book, one support organization, one sustaining organization, one sales organization, etc. If any of those cause a customer headache, where do you go ? Java EE, backed by multiple vendors, is a safer bet for those that are risk averse.
- Production support -
With Spring, typically you need to get support from two vendors
- VMWare and the container provider. With Java EE 6, all of this
is typically provided by one vendor. For example, Oracle offers
commercial support from systems, operating systems, JDK,
application server, and applications on top of them. VMWare
certainly offers complete production support but do you really
want to put all your eggs in one basket ?
Do you really use tcServer ? ;-)
- Maintainability - With
Spring, you are likely building your own distribution with
multiple JAR files, integrating, patching, versioning, etc of
all those components. Spring's claim is that multiple JAR files
allow you to go à la carte and pick the latest versions of
different components. But who is responsible for testing whether
all these versions work together ?
Yep, you got it, its YOU!
If something does not work, who patches and maintains the JARs ? Of course, you!
Commercial support for such a configuration ? On your own!
The Java EE application servers manage all of this for you and provide a well-tested and commercially supported bundle.
A message to the Spring lovers ...
The complexity in J2EE 1.2, 1.3, and 1.4 led to the genesis of Spring but that was in 2004. This is 2012 and the name has changed to "Java EE 6" :-) There are tons of improvements in the Java EE platform to make it easy-to-use and powerful. Some examples:
- Adding @Stateless on a POJO makes it an EJB
- EJBs can be packaged in a WAR with no special packaging or deployment descriptors
- "web.xml" and "faces-config.xml" are optional in most of the common cases
- Typesafe dependency injection is now part of the Java EE platform
- Add @Path on a POJO allows you to publish it as a RESTful resource
- EJBs can be used as backing beans for Facelets-driven JSF pages providing full MVC
- Java EE 6 WARs are known to be kilobytes in size and deployed
- Tons of other simplifications in the platform and application
#37 shows how to build an end-to-end application using
- screencast #36 builds the same application using Eclipse
is a 3-4 hours self-paced hands-on workshop that guides you to
build a comprehensive Java EE 6 application using NetBeans
Watch this beautiful presentation that explains how to migrate from Spring -> Java EE 6:
List of files in the Java EE 6 project:
./index.xhtmlList of files in the Spring 3.x project:
./META-INF ./META-INF/MANIFEST.MFSo, are you excited about Java EE 6 ? Want to get started now ? Here are some resources:
./WEB-INF/classes/org./WEB-INF/classes/org/krams ./WEB-INF/classes/org/krams/tutorial ./WEB-INF/classes/org/krams/tutorial/controller ./WEB-INF/classes/org/krams/tutorial/controller/MainController.class ./WEB-INF/classes/org/krams/tutorial/domain ./WEB-INF/classes/org/krams/tutorial/domain/Person.class ./WEB-INF/classes/org/krams/tutorial/service ./WEB-INF/classes/org/krams/tutorial/service/PersonService.class ./WEB-INF/hibernate-context.xml ./WEB-INF/hibernate.cfg.xml ./WEB-INF/jsp ./WEB-INF/jsp/addedpage.jsp ./WEB-INF/jsp/addpage.jsp ./WEB-INF/jsp/deletedpage.jsp ./WEB-INF/jsp/editedpage.jsp ./WEB-INF/jsp/editpage.jsp ./WEB-INF/jsp/personspage.jsp ./WEB-INF/lib ./WEB-INF/lib/antlr-2.7.6.jar ./WEB-INF/lib/aopalliance-1.0.jar ./WEB-INF/lib/c3p0-0.9.1.2.jar ./WEB-INF/lib/cglib-nodep-2.2.jar ./WEB-INF/lib/commons-beanutils-1.8.3.jar ./WEB-INF/lib/commons-collections-3.2.1.jar ./WEB-INF/lib/commons-digester-2.1.jar ./WEB-INF/lib/commons-logging-1.1.1.jar ./WEB-INF/lib/dom4j-1.6.1.jar ./WEB-INF/lib/ejb3-persistence-1.0.2.GA.jar ./WEB-INF/lib/hibernate-annotations-3.4.0.GA.jar ./WEB-INF/lib/hibernate-commons-annotations-3.1.0.GA.jar ./WEB-INF/lib/hibernate-core-3.3.2.GA.jar ./WEB-INF/lib/javassist-3.7.ga.jar ./WEB-INF/lib/jstl-1.1.2.jar ./WEB-INF/lib/jta-1.1.jar ./WEB-INF/lib/junit-4.8.1.jar ./WEB-INF/lib/log4j-1.2.14.jar ./WEB-INF/lib/mysql-connector-java-5.1.14.jar ./WEB-INF/lib/persistence-api-1.0.jar ./WEB-INF/lib/slf4j-api-1.6.1.jar ./WEB-INF/lib/slf4j-log4j12-1.6.1.jar ./WEB-INF/lib/spring-aop-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-asm-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-beans-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-context-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-context-support-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-core-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-expression-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-jdbc-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-orm-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-tx-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-web-3.0.5.RELEASE.jar ./WEB-INF/lib/spring-webmvc-3.0.5.RELEASE.jar ./WEB-INF/lib/standard-1.1.2.jar ./WEB-INF/lib/xml-apis-1.0.b2.jar ./WEB-INF/spring-servlet.xml ./WEB-INF/spring.properties ./WEB-INF/web.xml