DataNucleus Enhancer

As is described in the Class Enhancement guide below, DataNucleus utilises the common technique of byte-code manipulation to make your normal Java classes "persistable". The mechanism provided by DataNucleus is to use an "enhancer" process to perform this manipulation before you use your classes at runtime. The process is very quick and easy.

How to use the DataNucleus Enhancer depends on what environment you are using. Below are some typical examples.

Maven

Maven operates from a series of plugins. There is a DataNucleus plugin for Maven that allows enhancement of classes. Go to the Download section of the website and download this. Once you have the Maven plugin, you then need to set any properties for the plugin in your pom.xml file. Some properties that you may need to change are below

Property Default Description
persistenceUnitName Name of the persistence-unit to enhance. Mandatory
log4jConfiguration Config file location for Log4J (if using it)
jdkLogConfiguration Config file location for JDK1.4 logging (if using it)
api JDO API to enhance to (JDO, JPA). Mandatory : Set this to JPA
verbose false Verbose output?
quiet false No output?
targetDirectory Where the enhanced classes are written (default is to overwrite them)
fork true Whether to fork the enhancer process (e.g if you get a command line too long with Windows).
generatePK true Generate a PK class (of name {MyClass}_PK) for cases where there are multiple PK fields yet no PK class is defined.
generateConstructor true Generate a default constructor if not defined for the class being enhanced.
detachListener false Whether to enhance classes to make use of a detach listener for attempts to access an undetached field.

You will need to add either datanucleus-api-jpa into the CLASSPATH (of the plugin, or your project) for the enhancer to operate. Similarly persistence-api (but then you almost certainly will have that in your project CLASSPATH anyway).

You then run the Maven DataNucleus plugin, as follows

mvn datanucleus:enhance

This will enhance all classes for the specified persistence-unit. If you want to check the current status of enhancement you can also type

mvn datanucleus:enhance-check

Or alternatively, you could add the following to your POM (in 3.2.0.m1 it is "maven-datanucleus-plugin")

    <build>
        ...
        <plugins>
            <plugin>
                <groupId>org.datanucleus</groupId>
                <artifactId>datanucleus-maven-plugin</artifactId>
                <version>3.2.0-m2</version>
                <configuration>
                    <api>JPA</api>
                    <persistenceUnitName>MyUnit</persistenceUnitName>
                    <log4jConfiguration>${basedir}/log4j.properties</log4jConfiguration>
                    <verbose>true</verbose>
                </configuration>
                <executions>
                    <execution>
                        <phase>process-classes</phase>
                        <goals>
                            <goal>enhance</goal>
                        </goals>
                    </execution>
                </executions>
            </plugin>
        </plugins>
        ...
    </build>

So you then get auto-enhancement after each compile. Please refer to the Maven JPA guide for more details.


Ant

Ant provides a powerful framework for performing tasks. DataNucleus provides an Ant task to enhance classes. DataNucleus provides an Enhancer in datanucleus-core.jar. You need to make sure that the datanucleus-core.jar, datanucleus-api-jpa.jar, log4j.jar (optional), persistence-api.jar and jdo-api.jar are in your CLASSPATH. In the DataNucleus Enhancer Ant task, the following parameters are available

Parameter Description values
destination Optional. Defining a directory where enhanced classes will be written. If omitted, the original classes are updated.
api Defines the API to be used when enhancing Set this to JPA
persistenceUnit Defines the "persistence-unit" to enhance.
checkonly Whether to just check the classes for enhancement status. Will respond for each class with "ENHANCED" or "NOT ENHANCED". This will disable the enhancement process and just perform these checks. true, false
verbose Whether to have verbose output. true, false
quiet Whether to have no output. true, false
generatePK Whether to generate PK classes as required. true, false
generateConstructor Whether to generate a default constructor as required. true, false
if Optional. The name of a property that must be set in order to the Enhancer Ant Task to execute.

The enhancer task extends the Apache Ant Java task, thus all parameters available to the Java task are also available to the enhancer task.

So you could define something like the following, setting up the parameter enhancer.classpath, and log4j.config.file to suit your situation.

<target name="enhance" description="DataNucleus enhancement">
    <taskdef name="datanucleusenhancer" classpathref="enhancer.classpath" 
                classname="org.datanucleus.enhancer.EnhancerTask" />

    <datanucleusenhancer
        persistenceUnit="MyUnit" failonerror="true" verbose="true">
        <jvmarg line="-Dlog4j.configuration=${log4j.config.file}"/>
        <classpath>
            <path refid="enhancer.classpath"/>
        </classpath>
    </datanucleusenhancer>
</target>

Manually

DataNucleus provides an Enhancer in datanucleus-core.jar. If you are building your application manually and want to enhance your classes you follow the instructions in this section. You invoke the enhancer as follows

java -cp classpath  org.datanucleus.enhancer.DataNucleusEnhancer [options] 
    where options can be
        -pu {persistence-unit-name} : Name of a "persistence-unit" to enhance the classes for
        -d {target-dir-name} : Write the enhanced classes to the specified directory
        -api {api-name} : Name of the API we are enhancing for (JDO, JPA). Set this to JPA
        -checkonly : Just check the classes for enhancement status
        -v : verbose output
        -q : quiet mode (no output, overrides verbose flag too)
        -generatePK {flag} : generate any PK classes where needed 
                             ({flag} should be true or false - default=true)
        -generateConstructor {flag} : generate default constructor where needed 
                             ({flag} should be true or false - default=true)

    where "mapping-files" and "class-files" are provided when not enhancing a persistence-unit, 
        and give the paths to the mapping files and class-files that define the classes being enhanced.

    where classpath must contain the following
        datanucleus-core.jar
        datanucleus-api-jpa.jar
        persistence-api.jar
        jdo-api.jar
        log4j.jar (optional)
        your classes
        your meta-data files

The input to the enhancer should be the name of the "persistence-unit" to enhance. To give an example of how you would invoke the enhancer

Linux/Unix :
java -cp target/classes:lib/datanucleus-core.jar:lib/jdo-api.jar:
                    lib/datanucleus-api-jpa.jar:lib/persistence-api.jar:lib/log4j.jar
     -Dlog4j.configuration=file:log4j.properties
     org.datanucleus.enhancer.DataNucleusEnhancer
     -api JPA -pu MyUnit

Windows :
java -cp target\classes;lib\datanucleus-core.jar;lib\jdo-api.jar;
                    lib\datanucleus-api-jpa.jar;lib\persistence-api.jar;lib\log4j.jar
     -Dlog4j.configuration=file:log4j.properties
     org.datanucleus.enhancer.DataNucleusEnhancer 
     -api JPA -pu MyUnit

[should all be on same line. Shown like this for clarity]

So you pass in the persistence-unit name as the final argument(s) in the list, and include the respective JAR's in the classpath (-cp). The enhancer responds as follows

DataNucleus Enhancer (version 3.2.0.m2) for API "JPA" using JRE "1.6"

DataNucleus Enhancer : Classpath
>>  /home/andy/work/myproject//target/classes
>>  /home/andy/work/myproject/lib/log4j.jar
>>  /home/andy/work/myproject/lib/jdo-api.jar
>>  /home/andy/work/myproject/lib/persistence-api.jar
>>  /home/andy/work/myproject/lib/datanucleus-core.jar
>>  /home/andy/work/myproject/lib/datanucleus-api-jpa.jar

ENHANCED (PersistenceCapable): org.mydomain.mypackage1.Pack
ENHANCED (PersistenceCapable): org.mydomain.mypackage1.Card
DataNucleus Enhancer completed with success for 2 classes. Timings : input=422 ms, enhance=490 ms, total=912 ms.
     ... Consult the log for full details

If you have errors here relating to "Log4J" then you must fix these first. If you receive no output about which class was ENHANCED then you should look in the DataNucleus enhancer log for errors. The enhancer performs much error checking on the validity of the passed MetaData and the majority of errors are caught at this point. You can also use the DataNucleus Enhancer to check whether classes are enhanced. To invoke the enhancer in this mode you specify the checkonly flag. This will return a list of the classes, stating whether each class is enhanced for persistence under JDO or not. The classes need to be in the CLASSPATH (Please note that a CLASSPATH should contain a set of JAR's, and a set of directories. It should NOT explictly include class files, and should NOT include parts of the package names. If in doubt please consult a Java book).


Runtime Enhancement

Enhancement of persistent classes at runtime is possible when using JRE 1.5 or superior versions. Runtime Enhancement requires the following runtime dependencies: DataNucleus Core libraries. To enable runtime enhancement, the javaagent option must be set in the java command line. For example,

java -javaagent:datanucleus-core.jar=-api=JPA Main

The statement above will mean that all classes, when being loaded, will be processed by the ClassFileTransformer (except class in packages "java.*", "javax.*", "org.datanucleus.*"). This means that it can be slow since the MetaData search algorithm will be utilised for each. To speed this up you can specify an argument to that command specifying the names of package(s) that should be processed (and all others will be ignored). Like this

java -javaagent:datanucleus-core.jar=-api=JPA,mydomain.mypackage1,mydomain.mypackage2 Main
                

so in this case only classes being loaded that are in mydomain.mypackage1 and mydomain.mypackage2 will be attempted to be enhanced.

When operating in a JavaEE environment look at the persistence property datanucleus.jpa.addClassTransformer.

Please take care over the following when using runtime enhancement

  • When you have a class with a field of another persistable type make sure that you mark that field as "persistent" (@Persistent, or in XML) since with runtime enhancement at that point the related class is likely not yet enhanced so will likely not be marked as persistent otherwise. Be explicit
  • If the agent jar is not found make sure it is specified with an absolute path.

Programmatic API

You could alternatively programmatively enhance classes from within your application. This is done as follows.

import org.datanucleus.enhancer.DataNucleusEnhancer;

DataNucleusEnhancer enhancer = new DataNucleusEnhancer("JPA", null);
enhancer.setVerbose(true);
enhancer.addPersistenceUnit("MyPersistenceUnit");
enhancer.enhance();

This will look in META-INF/persistence.xml and enhance all classes defined by that unit. Please note that you will need to load the enhanced version of the class into a different ClassLoader after performing this operation to use them. See this guide


Class enhancement

DataNucleus requires that all classes that are persisted implement PersistenceCapable, an interface defined by JDO. Why should we do this, Hibernate/TopLink dont need it ?. Well that's a simple question really

  • DataNucleus uses this PersistenceCapable interface, and adds it using bytecode enhancement techniques so that you never need to actually change your classes. This means that you get transparent persistence, and your classes always remain your classes. ORM tools that use a mix of reflection and/or proxies are not totally transparent.
  • DataNucleus' use of PersistenceCapable provides transparent change tracking. When any change is made to an object the change creates a notification to DataNucleus allowing it to be optimally persisted. ORM tools that dont have access to such change tracking have to use reflection to detect changes. The performance of this process will break down as soon as you read a large number of objects, but modify just a handful, with these tools having to compare all object states for modification at transaction commit time.

Why not also read this comparison of bytecode enhancement, and proxies. It gives a clear enough comparison of the relative benefits.

Note that when using JPA, DataNucleus also requires bytecode enhancement. We make use of the very same JDO bytecode enhancement contract since it is a defined standard, so easier to adopt that for JPA than adding our own custom enhancement that does the same as JDO.

In the JDO bytecode enhancement contract there are 3 categories of classes. These are PersistenceCapable, PersistenceAware and normal classes. The Meta-Data defines which classes fit into these categories. To give an example, we have 3 classes. The class A is to be persisted in the datastore. The class B directly updates the fields of class A but doesn't need persisting. The class C is not involved in the persistence process. We would define these classes as follows

@Entity
public class A
{
    String myField;
    ...
}

@org.datanucleus.api.jpa.annotations.PersistenceAware
public class B
{
    ...
}

So our MetaData is mainly for those classes that are PersistenceCapable and are to be persisted to the datastore (we don't really need the persistence-modifier for thse classes since this is the default). For PersistenceAware classes we simply notate that the class knows about persistence. We don't define MetaData for any class that has no knowledge of persistence.

The JDO contract requires that all classes to be persisted must implement the PersistenceCapable interface , and for JPA they also implement the Detachable interface Users could manually do this themselves but this would impose work on them. DataNucleus provides a byte-code enhancer that converts the users normal classes to implement this interface (this can be found in the datanucleus-core.jar). The DataNucleus enhancer fully implements JDO bytecode enhancement contract. The example below doesn't show all PersistenceCapable and Detachable methods, but demonstrates that all added methods and fields are prefixed with "jdo" to distinguish them from the users own methods and fields. Also each persistent field of the class will be given a jdoGetXXX, jdoSetXXX method so that accesses of these fields are intercepted so that DataNucleus can manage their "dirty" state. The MetaData defines which classes are required to be persisted, and also defines which aspects of persistence each class requires.


The main thing to know is that the detached state (object id of the datastore object, the version of the datastore object when it was detached, and which fields were detached is stored in "jdoDetachedState"). Please see the JDO spec for more details.

If the MetaData is changed in any way during development, the classes should always be recompiled and re-enhanced afterwards.

Byte-Code Enhancement Myths

Some groups (e.g Hibernate) perpetuated arguments against "byte-code enhancement" saying that it was somehow 'evil'. The most common were :-

  • Slows down the code-test cycle. This is erroneous since you only need to enhance just before test and the provided plugins for Ant, Eclipse and Maven all do the enhancement job automatically and rapidly.
  • Is less "lazy" than the proxy approach since you have to load the object as soon as you get a pointer to it. In a 1-1 relation you have to load the object then since you would cause issues with null pointers otherwise. With 1-N relations you load the elements of the collection/map only when you access them and not the collection/map. Hardly an issue then is it!
  • Fail to detect changes to public fields unless you enhance your client code. Firstly very few people will be writing code with public fields since it is bad practice in an OO design, and secondly, this is why we have "PersistenceAware" classes.

So as you can see, there are no valid reasons against byte-code enhancement, and the pluses are that runtime detection of dirty events on objects is much quicker, hence your persistence layer operates faster without any need for iterative reflection-based checks. The fact is that Hibernate itself also now has a mode whereby you can do bytecode enhancement although not the default mode of Hibernate. So maybe it wasn't so evil after all ?


Decompilation

Many people will wonder what actually happens to a class upon bytecode enhancement. In simple terms the necessary methods and fields are added so as to implement PersistenceCapable. If you want to check this, just use a Java decompiler such as JD. It has a nice GUI allowing you to just select your class to decompile and shows you the source.