In this chapter, we will describe Spring’s Object/XML Mapping support. Object/XML Mapping, or O/X mapping for short, is the act of converting an XML document to and from an object. This conversion process is also known as XML Marshalling, or XML Serialization. This chapter uses these terms interchangeably.
Within the field of O/X mapping, a marshaller is responsible for serializing an object (graph) to XML. In similar fashion, an unmarshaller deserializes the XML to an object graph. This XML can take the form of a DOM document, an input or output stream, or a SAX handler.
Some of the benefits of using Spring for your O/X mapping needs are:
Spring’s bean factory makes it easy to configure marshallers, without needing to construct JAXB context, JiBX binding factories, etc. The marshallers can be configured as any other bean in your application context. Additionally, XML namespace-based configuration is available for a number of marshallers, making the configuration even simpler.
Spring’s O/X mapping operates through two global interfaces: the Marshaller
and
Unmarshaller
interface. These abstractions allow you to switch O/X mapping frameworks
with relative ease, with little or no changes required on the classes that do the
marshalling. This approach has the additional benefit of making it possible to do XML
marshalling with a mix-and-match approach (e.g. some marshalling performed using JAXB,
other using XMLBeans) in a non-intrusive fashion, leveraging the strength of each
technology.
Spring provides a conversion from exceptions from the underlying O/X mapping tool to its
own exception hierarchy with the XmlMappingException
as the root exception. As can be
expected, these runtime exceptions wrap the original exception so no information is lost.
As stated in the introduction, a marshaller serializes an object to XML, and an unmarshaller deserializes XML stream to an object. In this section, we will describe the two Spring interfaces used for this purpose.
Spring abstracts all marshalling operations behind the
org.springframework.oxm.Marshaller
interface, the main method of which is shown below.
public interface Marshaller { /** * Marshal the object graph with the given root into the provided Result. */ void marshal(Object graph, Result result) throws XmlMappingException, IOException; }
The Marshaller
interface has one main method, which marshals the given object to a
given javax.xml.transform.Result
. Result is a tagging interface that basically
represents an XML output abstraction: concrete implementations wrap various XML
representations, as indicated in the table below.
Result implementation | Wraps XML representation |
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Note | |
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Although the |
Similar to the Marshaller
, there is the org.springframework.oxm.Unmarshaller
interface.
public interface Unmarshaller { /** * Unmarshal the given provided Source into an object graph. */ Object unmarshal(Source source) throws XmlMappingException, IOException; }
This interface also has one method, which reads from the given
javax.xml.transform.Source
(an XML input abstraction), and returns the object read. As
with Result, Source is a tagging interface that has three concrete implementations. Each
wraps a different XML representation, as indicated in the table below.
Source implementation | Wraps XML representation |
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Even though there are two separate marshalling interfaces ( Marshaller
and
Unmarshaller
), all implementations found in Spring-WS implement both in one class.
This means that you can wire up one marshaller class and refer to it both as a
marshaller and an unmarshaller in your applicationContext.xml
.
Spring converts exceptions from the underlying O/X mapping tool to its own exception
hierarchy with the XmlMappingException
as the root exception. As can be expected,
these runtime exceptions wrap the original exception so no information will be lost.
Additionally, the MarshallingFailureException
and UnmarshallingFailureException
provide a distinction between marshalling and unmarshalling operations, even though the
underlying O/X mapping tool does not do so.
The O/X Mapping exception hierarchy is shown in the following figure:
O/X Mapping exception hierarchy
Spring’s OXM can be used for a wide variety of situations. In the following example, we will use it to marshal the settings of a Spring-managed application as an XML file. We will use a simple JavaBean to represent the settings:
public class Settings { private boolean fooEnabled; public boolean isFooEnabled() { return fooEnabled; } public void setFooEnabled(boolean fooEnabled) { this.fooEnabled = fooEnabled; } }
The application class uses this bean to store its settings. Besides a main method, the
class has two methods: saveSettings()
saves the settings bean to a file named
settings.xml
, and loadSettings()
loads these settings again. A main()
method
constructs a Spring application context, and calls these two methods.
import java.io.FileInputStream; import java.io.FileOutputStream; import java.io.IOException; import javax.xml.transform.stream.StreamResult; import javax.xml.transform.stream.StreamSource; import org.springframework.context.ApplicationContext; import org.springframework.context.support.ClassPathXmlApplicationContext; import org.springframework.oxm.Marshaller; import org.springframework.oxm.Unmarshaller; public class Application { private static final String FILE_NAME = "settings.xml"; private Settings settings = new Settings(); private Marshaller marshaller; private Unmarshaller unmarshaller; public void setMarshaller(Marshaller marshaller) { this.marshaller = marshaller; } public void setUnmarshaller(Unmarshaller unmarshaller) { this.unmarshaller = unmarshaller; } public void saveSettings() throws IOException { FileOutputStream os = null; try { os = new FileOutputStream(FILE_NAME); this.marshaller.marshal(settings, new StreamResult(os)); } finally { if (os != null) { os.close(); } } } public void loadSettings() throws IOException { FileInputStream is = null; try { is = new FileInputStream(FILE_NAME); this.settings = (Settings) this.unmarshaller.unmarshal(new StreamSource(is)); } finally { if (is != null) { is.close(); } } } public static void main(String[] args) throws IOException { ApplicationContext appContext = new ClassPathXmlApplicationContext("applicationContext.xml"); Application application = (Application) appContext.getBean("application"); application.saveSettings(); application.loadSettings(); } }
The Application
requires both a marshaller
and unmarshaller
property to be set. We
can do so using the following applicationContext.xml
:
<beans> <bean id="application" class="Application"> <property name="marshaller" ref="castorMarshaller" /> <property name="unmarshaller" ref="castorMarshaller" /> </bean> <bean id="castorMarshaller" class="org.springframework.oxm.castor.CastorMarshaller"/> </beans>
This application context uses Castor, but we could have used any of the other marshaller
instances described later in this chapter. Note that Castor does not require any further
configuration by default, so the bean definition is rather simple. Also note that the
CastorMarshaller
implements both Marshaller
and Unmarshaller
, so we can refer to the
castorMarshaller
bean in both the marshaller
and unmarshaller
property of the
application.
This sample application produces the following settings.xml
file:
<?xml version="1.0" encoding="UTF-8"?> <settings foo-enabled="false"/>
Marshallers could be configured more concisely using tags from the OXM namespace. To make these tags available, the appropriate schema has to be referenced first in the preamble of the XML configuration file. Note the 'oxm' related text below:
<?xml version="1.0" encoding="UTF-8"?> <beans xmlns="http://www.springframework.org/schema/beans" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:oxm="http://www.springframework.org/schema/oxm" xsi:schemaLocation="http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans.xsd http://www.springframework.org/schema/oxm http://www.springframework.org/schema/oxm/spring-oxm.xsd">
Currently, the following tags are available:
Each tag will be explained in its respective marshaller’s section. As an example though, here is how the configuration of a JAXB2 marshaller might look like:
<oxm:jaxb2-marshaller id="marshaller" contextPath="org.springframework.ws.samples.airline.schema"/>
The JAXB binding compiler translates a W3C XML Schema into one or more Java classes, a
jaxb.properties
file, and possibly some resource files. JAXB also offers a way to
generate a schema from annotated Java classes.
Spring supports the JAXB 2.0 API as XML marshalling strategies, following the
Marshaller
and Unmarshaller
interfaces described in Section 21.2, “Marshaller and Unmarshaller”.
The corresponding integration classes reside in the org.springframework.oxm.jaxb
package.
The Jaxb2Marshaller
class implements both the Spring Marshaller
and Unmarshaller
interface. It requires a context path to operate, which you can set using the
contextPath
property. The context path is a list of colon (:) separated Java package
names that contain schema derived classes. It also offers a classesToBeBound
property,
which allows you to set an array of classes to be supported by the marshaller. Schema
validation is performed by specifying one or more schema resource to the bean, like so:
<beans> <bean id="jaxb2Marshaller" class="org.springframework.oxm.jaxb.Jaxb2Marshaller"> <property name="classesToBeBound"> <list> <value>org.springframework.oxm.jaxb.Flight</value> <value>org.springframework.oxm.jaxb.Flights</value> </list> </property> <property name="schema" value="classpath:org/springframework/oxm/schema.xsd"/> </bean> ... </beans>
The jaxb2-marshaller
tag configures a org.springframework.oxm.jaxb.Jaxb2Marshaller
.
Here is an example:
<oxm:jaxb2-marshaller id="marshaller" contextPath="org.springframework.ws.samples.airline.schema"/>
Alternatively, the list of classes to bind can be provided to the marshaller via the
class-to-be-bound
child tag:
<oxm:jaxb2-marshaller id="marshaller"> <oxm:class-to-be-bound name="org.springframework.ws.samples.airline.schema.Airport"/> <oxm:class-to-be-bound name="org.springframework.ws.samples.airline.schema.Flight"/> ... </oxm:jaxb2-marshaller>
Available attributes are:
Attribute | Description | Required |
---|---|---|
| the id of the marshaller | no |
| the JAXB Context path | no |
Castor XML mapping is an open source XML binding framework. It allows you to transform the data contained in a java object model into/from an XML document. By default, it does not require any further configuration, though a mapping file can be used to have more control over the behavior of Castor.
For more information on Castor, refer to the
Castor web site. The Spring
integration classes reside in the org.springframework.oxm.castor
package.
As with JAXB, the CastorMarshaller
implements both the Marshaller
and Unmarshaller
interface. It can be wired up as follows:
<beans> <bean id="castorMarshaller" class="org.springframework.oxm.castor.CastorMarshaller" /> ... </beans>
Although it is possible to rely on Castor’s default marshalling behavior, it might be necessary to have more control over it. This can be accomplished using a Castor mapping file. For more information, refer to Castor XML Mapping.
The mapping can be set using the mappingLocation
resource property, indicated below
with a classpath resource.
<beans> <bean id="castorMarshaller" class="org.springframework.oxm.castor.CastorMarshaller" > <property name="mappingLocation" value="classpath:mapping.xml" /> </bean> </beans>
The castor-marshaller
tag configures a
org.springframework.oxm.castor.CastorMarshaller
. Here is an example:
<oxm:castor-marshaller id="marshaller" mapping-location="classpath:org/springframework/oxm/castor/mapping.xml"/>
The marshaller instance can be configured in two ways, by specifying either the location
of a mapping file (through the mapping-location
property), or by identifying Java
POJOs (through the target-class
or target-package
properties) for which there exist
corresponding XML descriptor classes. The latter way is usually used in conjunction with
XML code generation from XML schemas.
Available attributes are:
Attribute | Description | Required |
---|---|---|
| the id of the marshaller | no |
| the encoding to use for unmarshalling from XML | no |
| a Java class name for a POJO for which an XML class descriptor is available (as generated through code generation) | no |
| a Java package name that identifies a package that contains POJOs and their corresponding Castor XML descriptor classes (as generated through code generation from XML schemas) | no |
| location of a Castor XML mapping file | no |
XMLBeans is an XML binding tool that has full XML Schema support, and offers full XML
Infoset fidelity. It takes a different approach to that of most other O/X mapping
frameworks, in that all classes that are generated from an XML Schema are all derived
from XmlObject
, and contain XML binding information in them.
For more information on XMLBeans, refer to the XMLBeans
web site . The Spring-WS integration classes reside in the
org.springframework.oxm.xmlbeans
package.
The XmlBeansMarshaller
implements both the Marshaller
and Unmarshaller
interfaces.
It can be configured as follows:
<beans> <bean id="xmlBeansMarshaller" class="org.springframework.oxm.xmlbeans.XmlBeansMarshaller" /> ... </beans>
Note | |
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Note that the |
The xmlbeans-marshaller
tag configures a
org.springframework.oxm.xmlbeans.XmlBeansMarshaller
. Here is an example:
<oxm:xmlbeans-marshaller id="marshaller"/>
Available attributes are:
Attribute | Description | Required |
---|---|---|
| the id of the marshaller | no |
| the bean name of the XmlOptions that is to be used for this marshaller. Typically a
| no |
The JiBX framework offers a solution similar to that which JDO provides for ORM: a binding definition defines the rules for how your Java objects are converted to or from XML. After preparing the binding and compiling the classes, a JiBX binding compiler enhances the class files, and adds code to handle converting instances of the classes from or to XML.
For more information on JiBX, refer to the JiBX web
site. The Spring integration classes reside in the org.springframework.oxm.jibx
package.
The JibxMarshaller
class implements both the Marshaller
and Unmarshaller
interface. To operate, it requires the name of the class to marshal in, which you can
set using the targetClass
property. Optionally, you can set the binding name using the
bindingName
property. In the next sample, we bind the Flights
class:
<beans> <bean id="jibxFlightsMarshaller" class="org.springframework.oxm.jibx.JibxMarshaller"> <property name="targetClass">org.springframework.oxm.jibx.Flights</property> </bean> ... </beans>
A JibxMarshaller
is configured for a single class. If you want to marshal multiple
classes, you have to configure multiple JibxMarshaller
s with different targetClass
property values.
The jibx-marshaller
tag configures a org.springframework.oxm.jibx.JibxMarshaller
.
Here is an example:
<oxm:jibx-marshaller id="marshaller" target-class="org.springframework.ws.samples.airline.schema.Flight"/>
Available attributes are:
Attribute | Description | Required |
---|---|---|
| the id of the marshaller | no |
| the target class for this marshaller | yes |
| the binding name used by this marshaller | no |
XStream is a simple library to serialize objects to XML and back again. It does not require any mapping, and generates clean XML.
For more information on XStream, refer to the XStream
web site. The Spring integration classes reside in the
org.springframework.oxm.xstream
package.
The XStreamMarshaller
does not require any configuration, and can be configured in an
application context directly. To further customize the XML, you can set analias map,
which consists of string aliases mapped to classes:
<beans> <bean id="xstreamMarshaller" class="org.springframework.oxm.xstream.XStreamMarshaller"> <property name="aliases"> <props> <prop key="Flight">org.springframework.oxm.xstream.Flight</prop> </props> </property> </bean> ... </beans>
Warning | |
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By default, XStream allows for arbitrary classes to be unmarshalled, which can lead to
unsafe Java serialization effects. As such, it is not recommended to use the
If you choose to use the <bean id="xstreamMarshaller" class="org.springframework.oxm.xstream.XStreamMarshaller"> <property name="supportedClasses" value="org.springframework.oxm.xstream.Flight"/> ... </bean> This will make sure that only the registered classes are eligible for unmarshalling. Additionally, you can register
custom
converters to make sure that only your supported classes can be unmarshalled. You might
want to add a |
Note | |
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Note that XStream is an XML serialization library, not a data binding library. Therefore, it has limited namespace support. As such, it is rather unsuitable for usage within Web services. |