This section presents an example of a straightforward, standard MBean.
A standard MBean is defined by writing a Java interface called SomethingMBean
and a Java class called Something
that implements that interface. Every method in the interface defines either an attribute or an operation in the MBean. By default, every method defines an operation. Attributes and operations are methods that follow certain design patterns. A standard MBean is composed of an MBean interface and a class. The MBean interface lists the methods for all exposed attributes and operations. The class implements this interface and provides the functionality of the instrumented resource.
The following sections examine an example of a standard MBean and a simple JMX technology-enabled agent (JMX agent) that manages the MBean.
An example of a basic MBean interface,
HelloMBean
, follows:
package com.example; public interface HelloMBean { public void sayHello(); public int add(int x, int y); public String getName(); public int getCacheSize(); public void setCacheSize(int size); }
By convention, an MBean interface takes the name of the Java class that implements it, with the suffix MBean
added. In this case, the interface is called HelloMBean
. The Hello
class that implements this interface is described in the next section.
According to the JMX specification, an MBean interface consists of named and typed attributes that are readable and possibly writable, in addition to the named and typed operations that can be invoked by the applications that are managed by the MBean. The HelloMBean
interface declares two operations: the Java methods add()
and sayHello()
.
HelloMBean
declares two attributes: Name
is a read-only string, and CacheSize
is an integer that can be both read and written. Getter and setter methods are declared to allow the managed application to access and possibly change the attribute values. As defined by the JMX specification, a getter is any public method that does not return void and whose name begins with get
. A getter enables a manager to read the value of the attribute, whose type is that of the returned object. A setter is any public method that takes a single parameter and whose name begins with set
. A setter enables a manager to write a new value in the attribute, whose type is the same as that of the parameter.
The implementation of these operations and attributes is shown in the following section.
The
Hello
Java class that follows implements the HelloMBean
MBean interface:
package com.example; public class Hello [...] implements HelloMBean { public void sayHello() { System.out.println("hello, world"); } public int add(int x, int y) { return x + y; } public String getName() { return this.name; } public int getCacheSize() { return this.cacheSize; } public synchronized void setCacheSize(int size) { [...] this.cacheSize = size; System.out.println("Cache size now " + this.cacheSize); } [...] private final String name = "Reginald"; private int cacheSize = DEFAULT_CACHE_SIZE; private static final int DEFAULT_CACHE_SIZE = 200; }
The straightforward Hello
class provides the definitions of the operations and attributes that are declared by HelloMBean
. The sayHello()
and add()
operations are extremely simple, but real-life operations can be as simple or as sophisticated as needed.
The methods to get the Name
attribute and to get and set the CacheSize
attribute are also defined. In this example, the Name
attribute value never changes. However, in a real scenario this attribute might change as the managed resource runs. For example, the attribute might represent statistics such as uptime or memory usage. Here, the attribute is merely the name Reginald
.
Calling the setCacheSize
method enables you to alter the CacheSize
attribute from its declared default value of 200. In a real scenario, changing the CacheSize
attribute could require other operations to be performed, such as discarding entries or allocating new entries. This example merely prints a message to confirm that the cache size has changed. However, more sophisticated operations could be defined instead of the simple call to println()
.
With the Hello
MBean and its interface thus defined, they can now be used to manage the resource they represent, as shown in the following section.
Once a resource has been instrumented by MBeans, the management of that resource is performed by a JMX agent.
The core component of a JMX agent is the MBean server. An MBean server is a managed object server in which MBeans are registered. A JMX agent also includes a set of services to manage MBeans. See the API documentation for the
MBeanServer
interface for details of the MBean server implementation.
The
Main
class that follows represents a basic JMX agent:
package com.example; import java.lang.management.*; import javax.management.*; public class Main { public static void main(String[] args) throws Exception { MBeanServer mbs = ManagementFactory.getPlatformMBeanServer(); ObjectName name = new ObjectName("com.example:type=Hello"); Hello mbean = new Hello(); mbs.registerMBean(mbean, name); [...] System.out.println("Waiting forever..."); Thread.sleep(Long.MAX_VALUE); } }
The JMX agent Main
begins by obtaining an MBean server that has been created and initialized by the platform, by calling the getPlatformMBeanServer()
method of the
java.lang.management.ManagementFactory
class. If no MBean server has been created by the platform already, then getPlatformMBeanServer()
creates an MBean server automatically by calling the JMX method
MBeanServerFactory.createMBeanServer()
. The MBeanServer
instance obtained by Main
is named mbs
.
Next, Main
defines an object name for the MBean instance that it will create. Every JMX MBean must have an object name. The object name is an instance of the JMX class
ObjectName
and must conform to the syntax defined by the JMX specification. Namely, the object name must contain a domain and a list of key-properties. In the object name defined by Main
, the domain is com.example
(the package in which the example MBean is contained). In addition, the key-property declares that this object is of the type Hello
.
An instance of a Hello
object, named mbean
, is created. The Hello
object named mbean
is then registered as an MBean in the MBean server mbs
with the object name name
, by passing the object and the object name into a call to the JMX method
MBeanServer.registerMBean()
.
With the Hello
MBean registered in the MBean server, Main
simply waits for management operations to be performed on Hello
. In this example, these management operations are invoking sayHello()
and add()
, and getting and setting the attribute values.
Having examined the example classes, you can now run the example. In this example, JConsole is used to interact with the MBean.
To run the example, follow these steps:
jmx_examples.zip
, to your working directory, work_dir
.
unzip jmx_examples.zip
work_dir
directory.
javac com/example/*.java
Main
application with the following command.
java com.example.Main
If you are running a JDK version that is older than version 6, you will need to start the Main
application with the following option specified, to expose the application for monitoring and management.
java -Dcom.sun.management.jmxremote example.Main
A confirmation that Main
is waiting for something to happen is displayed.
jconsole
The New Connection dialog box is displayed, presenting a list of running JMX agents that you can connect to.
com.example.Main
from the list and click Connect.
A summary of your platform's current activity is displayed.
This panel shows all the MBeans that are currently registered in the MBean server.
com.example
node in the MBean tree.
You see the example MBean Hello
that was created and registered by Main
. If you click Hello
, you see its associated Attributes and Operations nodes in the MBean tree.
Hello
MBean in the MBean tree.
The MBean attributes that were defined by the Hello
class are displayed.
CacheSize
attribute to 150.
In the terminal window in which you started Main
, a confirmation of this attribute change is generated.
Hello
MBean in the MBean tree.
The two operations declared by the Hello
MBean, sayHello()
and add()
, are visible.
sayHello()
operation by clicking the sayHello
button.
A JConsole dialog box informs you that the method was invoked successfully. The message "hello, world" is generated in the terminal window in which Main
is running.
add()
operation to add and click the add
button.
The answer is displayed in a JConsole dialog box.