Q: What is Spring?
A: Spring is an open source development framework for enterprise
Java. The core features of the Spring Framework can be used in developing any
Java application, but there are extensions for building web applications on top
of the Java EE platform. Spring framework targets to make J2EE development
easier to use and promote good programming practice by enabling a POJO-based
programming model.
Q: what are benefits
of using spring?
A: Following is the list of few of the great benefits of using Spring
Framework:
Lightweight: Spring is lightweight when it comes to size and transparency. The
basic version of spring framework is around 2MB.
Inversion of control (IOC): Loose coupling is achieved in
spring using the technique Inversion of Control. The objects give their
dependencies instead of creating or looking for dependent objects.
Aspect oriented (AOP): Spring supports Aspect oriented
programming and enables cohesive development by separating application business
logic from system services.
Container: Spring contains and manages the life cycle and configuration of
application objects.
MVC Framework: Spring's web framework is a well-designed web MVC framework, which
provides a great alternative to web frameworks such as Struts or other over
engineered or less popular web frameworks.
Transaction Management: Spring provides a consistent
transaction management interface that can scale down to a local transaction
(using a single database, for example) and scale up to global transactions (using
JTA, for example).
Exception Handling: Spring provides a convenient API to translate
technology-specific exceptions (thrown by JDBC, Hibernate, or JDO, for example)
into consistent, unchecked exceptions.
Q: What are the
different modules in Spring framework?
A: Following are the modules of the Spring framework:
Core module
Bean module
Context module
Expression Language
module
JDBC module
ORM module
OXM module
Java Messaging
Service(JMS) module
Transaction module
Web module
Web-Servlet module
Web-Struts module
Web-Portlet module
Q: What is Spring
configuration file?
A: Spring configuration file is an XML file. This file contains the
classes information and describes how these classes are configured and
introduced to each other.
Q: What is Dependency
Injection?
A: Inversion of Control (IoC) is a general concept, and it can be
expressed in many different ways and Dependency Injection is merely one
concrete example of Inversion of Control.
This concept says
that you do not create your objects but describe how they should be created.
You don't directly connect your components and services together in code but
describe which services are needed by which components in a configuration file.
A container (the IOC container) is then responsible for hooking it all up.
Q: What are the
different types of IoC (dependency injection)?
A: Types of IoC are:
Constructor-based dependency injection: Constructor-based
DI is accomplished when the container invokes a class constructor with a number
of arguments, each representing a dependency on other class.
Setter-based dependency injection: Setter-based DI is accomplished
by the container calling setter methods on your beans after invoking a
no-argument constructor or no-argument static factory method to instantiate your
bean.
Q: Which DI would you
suggest Constructor-based or setter-based DI?
A: Since you can mix both, Constructor- and Setter-based DI, it is a
good rule of thumb to use constructor arguments for mandatory dependencies and
setters for optional dependencies. Note that the use of a @Required annotation
on a setter can be used to make setters required dependencies.
Q: What are the
benefits of IOC?
A: The main benefits of IOC or dependency injection are:
It minimizes the
amount of code in your application.
It makes your
application easy to test as it doesn't require any singletons or JNDI lookup
mechanisms in your unit test cases.
Loose coupling is
promoted with minimal effort and least intrusive mechanism.
IOC containers
support eager instantiation and lazy loading of services.
Q: What is AOP?
A: Aspect-oriented programming, or AOP, is a programming technique
that allows programmers to modularize crosscutting concerns, or behavior that
cuts across the typical divisions of responsibility, such as logging and transaction
management. The core construct of AOP is the aspect, which encapsulates
behaviors affecting multiple classes into reusable modules.
Q: What is Spring IoC
container?
A: The Spring IoC creates the objects, wire them together, configure
them, and manage their complete lifecycle from creation till destruction. The
Spring container uses dependency injection (DI) to manage the components that
make up an application.
Q: What are types of
IoC containers? Explain them.
A: There are two types of IoC containers:
Bean Factory container: This is the simplest container
providing basic support for DI .The BeanFactory is usually preferred where the
resources are limited like mobile devices or applet based applications
Spring ApplicationContext Container: This container adds more
enterprise-specific functionality such as the ability to resolve textual
messages from a properties file and the ability to publish application events
to interested event listeners.
Q: Give an example of
BeanFactory implementation.
A: The most commonly used BeanFactory implementation is the XmlBeanFactory class.
This container reads the configuration metadata from an XML file and uses it to
create a fully configured system or application.
Q: What are the
common implementations of the ApplicationContext?
A: The three commonly used implementation of 'Application Context'
are:
FileSystemXmlApplicationContext: This container loads the
definitions of the beans from an XML file. Here you need to provide the full
path of the XML bean configuration file to the constructor.
ClassPathXmlApplicationContext: This container loads the
definitions of the beans from an XML file. Here you do not need to provide the
full path of the XML file but you need to set CLASSPATH properly because this
container will look bean configuration XML file in CLASSPATH.
WebXmlApplicationContext: This container loads the XML file
with definitions of all beans from within a web application.
Q: What is the
difference between Bean Factory and ApplicationContext?
A: Following are some of the differences:
Application contexts
provide a means for resolving text messages, including support for i18n of
those messages.
Application contexts
provide a generic way to load file resources, such as images.
Application contexts
can publish events to beans that are registered as listeners.
Certain operations on
the container or beans in the container, which have to be handled in a
programmatic fashion with a bean factory, can be handled declaratively in an
application context.
The application
context implements MessageSource, an interface used to obtain localized
messages, with the actual implementation being pluggable.
Q: What are Spring
beans?
A: The objects that form the backbone of your application and that
are managed by the Spring IoC container are called beans. A bean is an object
that is instantiated, assembled, and otherwise managed by a Spring IoC
container. These beans are created with the configuration metadata that you
supply to the container, for example, in the form of XML <bean/>
definitions.
Q: What does a bean
definition contain?
A: The bean definition contains the information called configuration
metadata which is needed for the container to know the followings:
How to create a bean
Bean's lifecycle
details
Bean's dependencies
Q: How do you provide
configuration metadata to the Spring Container?
A: There are following three important methods to provide
configuration metadata to the Spring Container:
XML based
configuration file.
Annotation-based
configuration
Java-based configuration
Q: How do add a bean
in spring application?
A: Check the following example:
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://www.springframework.org/schema/beans
http://www.springframework.org/schema/beans/spring-beans-3.0.xsd">
<bean id="helloWorld" class="com.tutorialspoint.HelloWorld">
<property name="message" value="Hello World!"/>
</bean>
</beans>
Q: How do you define
a bean scope?
A: When defining a <bean> in Spring, you have the option of
declaring a scope for that bean. For example, to force Spring to produce a new
bean instance each time one is needed, you should declare the bean's scope
attribute to be prototype. Similar way if you want Spring to return
the same bean instance each time one is needed, you should declare the bean's
scope attribute to be singleton.
Q: What bean scopes
does Spring support? Explain them.
A: The Spring Framework supports following five scopes, three of
which are available only if you use a web-aware ApplicationContext.
singleton: This scopes the bean definition to a single instance per Spring
IoC container.
prototype: This scopes a single bean definition to have any number of object
instances.
request: This scopes a bean definition to an HTTP request. Only valid in
the context of a web-aware Spring ApplicationContext.
session: This scopes a bean definition to an HTTP session. Only valid in
the context of a web-aware Spring ApplicationContext.
global-session: This scopes a bean definition to a global HTTP session. Only valid
in the context of a web-aware Spring ApplicationContext.
Q: What is default
scope of bean in Spring framework?
A: The default scope of bean is Singleton for Spring framework.
Q: Are Singleton
beans thread safe in Spring Framework?
A: No, singleton beans are not thread-safe in Spring framework.
Q: Explain Bean
lifecycle in Spring framework?
A: Following is sequence of a bean lifecycle in Spring:
Instantiate - First the spring container finds the bean's definition from the
XML file and instantiates the bean..
Populate properties - Using the dependency injection, spring
populates all of the properties as specified in the bean definition..
Set Bean Name - If the bean implements BeanNameAware interface, spring passes
the bean's id to setBeanName() method.
Set Bean factory - If Bean implements BeanFactoryAware
interface, spring passes the beanfactory to setBeanFactory() method.
Pre Initialization - Also called postprocess of bean. If there
are any bean BeanPostProcessors associated with the bean, Spring calls
postProcesserBeforeInitialization() method.
Initialize beans - If the bean implements IntializingBean,its
afterPropertySet() method is called. If the bean has init method declaration,
the specified initialization method is called.
Post Initialization - If there are any BeanPostProcessors
associated with the bean, their postProcessAfterInitialization() methods will
be called.
Ready to use - Now the bean is ready to use by the application.
Destroy - If the bean implements DisposableBean , it will call the
destroy() method .
Q: What are inner
beans in Spring?
A: A <bean/> element inside the <property/> or
<constructor-arg/> elements defines a so-called inner bean. An inner bean
definition does not require a defined id or name; the container ignores these
values. It also ignores the scope flag. Inner beans are always anonymous and
they are always scoped as prototypes.
Q: How can you inject
Java Collection in Spring?
A: Spring offers four types of collection configuration elements
which are as follows:
<list>: This helps in wiring i.e. injecting a list of values, allowing
duplicates.
<set>: This helps in wiring a set of values but without any duplicates.
<map>: This can be used to inject a collection of name-value pairs where name
and value can be of any type.
<props>: This can be used to inject a collection of name-value pairs where the
name and value are both Strings.
Q: What is bean auto
wiring?
A: The Spring container is able to autowire relationships between
collaborating beans. This means that it is possible to automatically let Spring
resolve collaborators (other beans) for your bean by inspecting the contents of
the BeanFactory without using <constructor-arg> and <property>
elements.
Q: What are different
Modes of auto wiring?
A: The autowiring functionality has five modes which can be used to
instruct Spring container to use autowiring for dependency injection:
no: This is default setting which means no autowiring and you should use
explicit bean reference for wiring. You have nothing to do special for this
wiring. This is what you already have seen in Dependency Injection chapter.
byName: Autowiring by property name. Spring container looks at the properties
of the beans on which autowire attribute is set to byName in the XML
configuration file. It then tries to match and wire its properties with the
beans defined by the same names in the configuration file.
byType: Autowiring by property datatype. Spring container looks at the
properties of the beans on which autowire attribute is set to byType in the XML
configuration file. It then tries to match and wire a property if its type
matches with exactly one of the beans name in configuration file. If more than
one such beans exist, a fatal exception is thrown.
constructor: Similar to byType, but type applies to constructor arguments. If there
is not exactly one bean of the constructor argument type in the container, a
fatal error is raised.
autodetect: Spring first tries to wire using autowire by constructor, if it does
not work, Spring tries to autowire by byType.
Q: What are the
limitations with autowiring?
A: Limitations of autowiring are:
Overriding possibility: You can still specify dependencies
using <constructor-arg> and <property> settings which will always
override autowiring.
Primitive data types: You cannot autowire so-called simple properties
such as primitives, Strings, and Classes.
Confusing nature: Autowiring is less exact than explicit wiring, so
if possible prefer using explicit wiring.
Q: Can you inject
null and empty string values in Spring?
A: Yes.
Q: What is
Annotation-based container configuration?
A: An alternative to XML setups is provided by annotation-based
configuration which relies on the bytecode metadata for wiring up components
instead of angle-bracket declarations. Instead of using XML to describe a bean
wiring, the developer moves the configuration into the component class itself
by using annotations on the relevant class, method, or field declaration.
Q: How do you turn on
annotation wiring?
A: Annotation wiring is not turned on in the Spring container by
default. So, before we can use annotation-based wiring, we will need to enable
it in our Spring configuration file by configuring
<context:annotation-config/>.
Q: What does
@Required annotation mean?
A: This annotation simply indicates that the affected bean property
must be populated at configuration time, through an explicit property value in
a bean definition or through autowiring. The container throws
BeanInitializationException if the affected bean property has not been
populated.
Q: What does
@Autowired annotation mean?
A: This annotation provides more fine-grained control over where and
how autowiring should be accomplished. The @Autowired annotation can be used to
autowire bean on the setter method just like @Required annotation, constructor,
a property or methods with arbitrary names and/or multiple arguments.
Q: What does
@Qualifier annotation mean?
A: There may be a situation when you create more than one bean of the
same type and want to wire only one of them with a property, in such case you
can use @Qualifier annotation along with @Autowired to remove the confusion by
specifying which exact bean will be wired.
Q: What are the
JSR-250 Annotations? Explain them.
A: Spring has JSR-250 based annotations which include @PostConstruct,
@PreDestroy and @Resource annotations.
@PostConstruct: This annotation can be used as an alternate of initialization
callback.
@PreDestroy: This annotation can be used as an alternate of destruction callback.
@Resource : This annotation can be used on fields or setter methods. The @Resource
annotation takes a 'name' attribute which will be interpreted as the bean name
to be injected. You can say, it follows by-name autowiring semantics.
Q: What is Spring
Java Based Configuration? Give some annotation example.
A: Java based configuration option enables you to write most of your
Spring configuration without XML but with the help of few Java-based
annotations.
For example: Annotation @Configuration indicates that
the class can be used by the Spring IoC container as a source of bean
definitions. The @Bean annotation tells Spring that a method
annotated with @Bean will return an object that should be registered as a bean
in the Spring application context.
Q: How is event
handling done in Spring?
A: Event handling in the ApplicationContext is
provided through the ApplicationEvent class andApplicationListener interface.
So if a bean implements the ApplicationListener, then every time anApplicationEvent gets
published to the ApplicationContext, that bean is notified.
Q: Describe some of
the standard Spring events.
A: Spring provides the following standard events:
ContextRefreshedEvent: This event is published when the
ApplicationContext is either initialized or refreshed. This can also be raised
using the refresh() method on the ConfigurableApplicationContext interface.
ContextStartedEvent: This event is published when the ApplicationContext
is started using the start() method on the ConfigurableApplicationContext
interface. You can poll your database or you can re/start any stopped
application after receiving this event.
ContextStoppedEvent: This event is published when the
ApplicationContext is stopped using the stop() method on the
ConfigurableApplicationContext interface. You can do required housekeep work
after receiving this event.
ContextClosedEvent: This event is published when the ApplicationContext
is closed using the close() method on the ConfigurableApplicationContext
interface. A closed context reaches its end of life; it cannot be refreshed or
restarted.
RequestHandledEvent: This is a web-specific event telling all beans
that an HTTP request has been serviced.
Q: What is Aspect?
A: A module which has a set of APIs providing cross-cutting
requirements. For example, a logging module would be called AOP aspect for
logging. An application can have any number of aspects depending on the
requirement. In Spring AOP, aspects are implemented using regular classes (the
schema-based approach) or regular classes annotated with the @Aspect annotation
(@AspectJ style).
Q: What is the
difference between concern and cross-cutting concern in Spring AOP?
A: Concern: Concern is behavior which we want to have in a
module of an application. Concern may be defined as a functionality we want to
implement. Issues in which we are interested define our concerns.
Cross-cutting concern: It's a concern which is applicable throughout the
application and it affects the entire application. e.g. logging , security and
data transfer are the concerns which are needed in almost every module of an
application, hence are cross-cutting concerns.
Q: What is Join
point?
A: This represents a point in your application where you can plug-in
AOP aspect. You can also say, it is the actual place in the application where
an action will be taken using Spring AOP framework.
Q: What is Advice?
A: This is the actual action to be taken either before or after the
method execution. This is actual piece of code that is invoked during program
execution by Spring AOP framework.
Q: What is Pointcut?
A: This is a set of one or more joinpoints where an advice should be
executed. You can specify pointcuts using expressions or patterns as we will
see in our AOP examples.
Q: What is
Introduction?
A: An introduction allows you to add new methods or attributes to
existing classes.
Q: What is Target
object?
A: The object being advised by one or more aspects, this object will
always be a proxy object. Also referred to as the advised object.
Q: What is Weaving?
A: Weaving is the process of linking aspects with other application
types or objects to create an advised object.
Q: What are the
different points where weaving can be applied?
A: Weaving can be done at compile time, load time, or at runtime.
Q: What are the types
of advice?
A: Spring aspects can work with five kinds of advice mentioned below:
before: Run advice before the a method execution.
after: Run advice after the a method execution regardless of its outcome.
after-returning: Run advice after the a method execution only if method completes
successfully.
after-throwing: Run advice after the a method execution only if method exits by
throwing an exception.
around: Run advice before and after the advised method is invoked.
Q: What is XML Schema
based aspect implementation?
A: Aspects are implemented using regular classes along with XML based
configuration.
Q: What is @AspectJ?
based aspect implementation?
A: @AspectJ refers to a style of declaring aspects as regular Java
classes annotated with Java 5 annotations.
Q: How JDBC can be
used more efficiently in spring framework?
A: JDBC can be used more efficiently with the help of a template
class provided by spring framework called as JdbcTemplate.
Q: How JdbcTemplate
can be used?
A: With use of Spring JDBC framework the burden of resource
management and error handling is reduced a lot. So it leaves developers to
write the statements and queries to get the data to and from the database.
JdbcTemplate provides many convenience methods for doing things such as
converting database data into primitives or objects, executing prepared and
callable statements, and providing custom database error handling.
Q: What are the types
of the transaction management Spring supports?
A: Spring supports two types of transaction management:
Programmatic transaction management: This means that you have managed
the transaction with the help of programming. That gives you extreme
flexibility, but it is difficult to maintain.
Declarative transaction management: This means you separate
transaction management from the business code. You only use annotations or XML
based configuration to manage the transactions.
Q: Which of the above
transaction management type is preferable?
A: Declarative transaction management is preferable over programmatic
transaction management though it is less flexible than programmatic transaction
management, which allows you to control transactions through your code.
Q: What is Spring MVC
framework?
A: The Spring web MVC framework provides model-view-controller
architecture and ready components that can be used to develop flexible and
loosely coupled web applications. The MVC pattern results in separating the
different aspects of the application (input logic, business logic, and UI
logic), while providing a loose coupling between these elements.
Q: What is a
DispatcherServlet?
A: The Spring Web MVC framework is designed around a
DispatcherServlet that handles all the HTTP requests and responses.
Q: What is
WebApplicationContext ?
A: The WebApplicationContext is an extension of the
plain ApplicationContext that has some extra features
necessary for web applications. It differs from a normal ApplicationContext in
that it is capable of resolving themes, and that it knows which servlet it is associated
with.
Q: What are the
advantages of Spring MVC over Struts MVC ?
A: Following are some of the advantages of Spring MVC over Struts
MVC:
Spring's MVC is very
versatile and flexible based on interfaces but Struts forces Actions and Form
object into concrete inheritance.
Spring provides both
interceptors and controllers, thus helps to factor out common behavior to the
handling of many requests.
Spring can be
configured with different view technologies like Freemarker, JSP, Tiles,
Velocity, XLST etc. and also you can create your own custom view mechanism by
implementing Spring View interface.
In Spring MVC
Controllers can be configured using DI (IOC) that makes its testing and
integration easy.
Web tier of Spring
MVC is easy to test than Struts web tier, because of the avoidance of forced
concrete inheritance and explicit dependence of controllers on the dispatcher
servlet.
Struts force your
Controllers to extend a Struts class but Spring doesn't, there are many
convenience Controller implementations that you can choose to extend.
In Struts, Actions
are coupled to the view by defining ActionForwards within a ActionMapping or
globally. SpringMVC has HandlerMapping interface to support this functionality.
With Struts,
validation is usually performed (implemented) in the validate method of an
ActionForm. In SpringMVC, validators are business objects that are NOT
dependent on the Servlet API which makes these validators to be reused in your
business logic before persisting a domain object to a database.
Q: What is Controller
in Spring MVC framework?
A: Controllers provide access to the application behavior that you
typically define through a service interface. Controllers interpret user input
and transform it into a model that is represented to the user by the view.
Spring implements a controller in a very abstract way, which enables you to
create a wide variety of controllers.
Q: Explain the @Controller annotation.
A: The @Controller annotation indicates that a
particular class serves the role of a controller. Spring does not require you
to extend any controller base class or reference the Servlet API.
Q: Explain @RequestMapping annotation.
A: @RequestMapping annotation is used to map a URL to
either an entire class or a particular handler method.
Q: What are the ways
to access Hibernate by using Spring?
A: There are two ways to access hibernate using spring:
Inversion of Control
with a Hibernate Template and Callback.
Extending
HibernateDAOSupport and Applying an AOP Interceptor node.
Q: What are ORM's Spring
supports ?
A: Spring supports the following ORM's :
Hibernate
iBatis
JPA (Java Persistence
API)
TopLink
JDO (Java Data
Objects)
OJB
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