The WebLogic Diagnostics Framework Instrumentation Library contains diagnostic monitors and diagnostic actions, as discussed in the following sections:
For information about using items from the Instrumentation Library, see Chapter 11, "Configuring Instrumentation."
Diagnostic monitors are broadly classified as server-scoped and application-scoped monitors. The former can be used to instrument WebLogic Server classes. You use the latter to instrument application classes. Except for the DyeInjection monitor, all monitors are delegating monitors, that is, they do not have a built-in diagnostic action. Instead, they delegate to actions attached to them to perform diagnostic activity.
All monitors are preconfigured with their respective pointcuts. However, the actual locations affected by them may vary depending on the classes they instrument. For example, the Servlet_Before_Service monitor adds diagnostic code at the entry of servlet or java server page (JSP) service methods at different locations in different servlet implementations.
For any delegating monitor, only compatible actions may be attached. The compatibility is determined by the nature of the monitor.
The following table lists and describes the diagnostic monitors that can be used within server scope, that is, in WebLogic Server classes. For the diagnostic actions that are compatible with each monitor, see the Compatible Action Type column in the table.
Table B-1 Diagnostic Monitors for Use Within Server Scope
Monitor Name | Monitor Type | Compatible Action Type | Pointcuts |
---|---|---|---|
Connector_Before_Inbound |
Before |
Stateless |
At entry of methods handling inbound connections. |
Connector_After_Inbound |
Server |
Stateless |
At exit of methods handling inbound connections. |
Connector_Around_Inbound |
Around |
Around |
At entry and exit of methods handling inbound connections. |
Connector_Before_Outbound |
Before |
Stateless |
At entry of methods handling outbound connections. |
Connector_After_Outbound |
After |
Stateless |
At exit of methods handling outbound connections. |
Connector_Around_Outbound |
Around |
Around |
At entry and exit of methods handling outbound connections. |
Connector_Before_Tx |
Before |
Stateless |
Entry of transaction register, unregister, start, rollback and commit methods. |
Connector_After_Tx |
After |
Stateless |
At exit of transaction register, unregister, start, rollback and commit methods. |
Connector_Around_Tx |
Around |
Around |
At entry and exit of transaction register, unregister, start, rollback and commit methods. |
Connector_Before_Work |
Before |
Stateless |
At entry of methods related to scheduling, starting and executing connector work items. |
Connector_After_Work |
After |
Stateless |
At exit of methods related to scheduling, starting and executing connector work items. |
Connector_Around_Work |
Around |
Around |
At entry and exit of methods related to scheduling, starting and executing connector work items. |
DyeInjection |
Before |
Built-in |
At points where requests enter the server. |
JDBC_Before_Commit_Internal |
Before |
Stateless |
JDBC subsystem internal code |
JDBC_After_Commit_Internal |
After |
Stateless |
JDBC subsystem internal code |
JDBC_Before_Connection_ Internal |
Before |
Stateless |
Before calls to methods: Driver.connect DataSource.getConnection |
JDBC_After_Connection_ Internal |
Before |
Stateless |
JDBC subsystem internal code |
JDBC_Before_Rollback_ Internal |
Before |
Stateless |
JDBC subsystem internal code |
JDBC_After_Rollback_Internal |
After |
Stateless |
JDBC subsystem internal code |
JDBC_Before_Start_Internal |
Before |
Stateless |
JDBC subsystem internal code |
JDBC_After_Start_Internal |
After |
Stateless |
JDBC subsystem internal code |
JDBC_Before_Statement_ Internal |
Before |
Stateless |
JDBC subsystem internal code |
JDBC_After_Statement_ Internal |
After |
Stateless |
JDBC subsystem internal code |
JDBC_After_Reserve_Connection_Internal |
After |
Stateless |
After a JDBC connection is reserved from the connection pool. |
JDBC_After_Release_Connection_Internal |
After |
Stateless |
After a JDBC connection is released back to the connection pool. |
Table B-2 lists the diagnostic monitors that can be used within application scopes, that is, in deployed applications. For the diagnostic actions that are compatible with each monitor, see the Compatible Action Type column in the table.
Table B-2 Diagnostic Monitors for Use Within Application Scopes
Monitor Name | Monitor Type | Compatible Action Type | Pointcuts |
---|---|---|---|
EJB_After_EntityEjbBusiness Methods |
After |
Stateless |
At exits of all EntityBean methods, which are not standard ejb methods. |
EJB_Around_EntityEjbBusinessMethods |
Around |
Around |
At entry and exits of all EntityBean methods that are not standard ejb methods. |
EJB_After_EntityEjbMethods |
After |
Stateless |
At exits of methods: EnitityBean.setEntityContext EnitityBean.unsetEntityContext EnitityBean.ejbRemove EnitityBean.ejbActivate EnitityBean.ejbPassivate EnitityBean.ejbLoad EnitityBean.ejbStore |
EJB_Around_EntityEjbMethods |
Around |
Around |
At exits of methods: EnitityBean.setEntityContext EnitityBean.unsetEntityContext EnitityBean.ejbRemove EnitityBean.ejbActivate EnitityBean.ejbPassivate EnitityBean.ejbLoad EnitityBean.ejbStore |
EJB_After_EntityEjbSemantic Methods |
After |
Stateless |
At exits of methods: EnitityBean.set* EnitityBean.get* EnitityBean.ejbFind* EnitityBean.ejbHome* EnitityBean.ejbSelect* EnitityBean.ejbCreate* EnitityBean.ejbPostCreate* |
EJB_Around_EntityEjbSemanticMethods |
Around |
Around |
At entry and exits of methods: EnitityBean.set* EnitityBean.get* EnitityBean.ejbFind* EnitityBean.ejbHome* EnitityBean.ejbSelect* EnitityBean.ejbCreate* EnitityBean.ejbPostCreate* |
EJB_After_SessionEjbMethods |
After |
Stateless |
At exits of methods: SessionBean.setSessionContext SessionBean.ejbRemove SessionBean.ejbActivate SessionBean.ejbPassivate |
EJB_Around_SessionEjbMethods |
Around |
Around |
At entry and exits of methods: SessionBean.setSessionContext SessionBean.ejbRemove SessionBean.ejbActivate SessionBean.ejbPassivate |
EJB_After_SessionEjbBusinessMethods |
After |
Stateless |
At exits of all SessionBean methods, which are not standard ejb methods. |
EJB_Around_SessionEjb BusinessMethods |
Around |
Around |
At entry and exits of all SessionBean methods, which are not standard ejb methods. |
EJB_After_SessionEjbSemanticMethods |
After |
Stateless |
At exits of methods: SessionBean.ejbCreateSessionBean.ejbPostCreate |
EJB_Around_SessionEjb SemanticMethods |
Around |
Around |
At entry and exits of methods: SessionBean.ejbCreate SessionBean.ejbPostCreate |
EJB_Before_EntityEjbBusinessMethods |
Before |
Stateless |
At entry of all EntityBean methods, which are not standard ejb methods. |
EJB_Before_EntityEjbMethods |
Before |
Stateless |
At entry of methods: EnitityBean.setEntityContext EnitityBean.unsetEntityContext EnitityBean.ejbRemove EnitityBean.ejbActivate EnitityBean.ejbPassivate EnitityBean.ejbLoad EnitityBean.ejbStore |
EJB_Before_EntityEjbSemanticMethods |
Before |
Stateless |
At entry of methods: EnitityBean.set* EnitityBean.get* EnitityBean.ejbFind* EnitityBean.ejbHome* EnitityBean.ejbSelect* EnitityBean.ejbCreate* EnitityBean.ejbPostCreate* |
EJB_Before_SessionEjb BusinessMethods |
Before |
Stateless |
At entry of all SessionBean methods, which are not standard ejb methods. |
EJB_Before_SessionEjbMethods |
Before |
Stateless |
At entry of methods: SessionBean.setSessionContext SessionBean.ejbRemove SessionBean.ejbActivate SessionBean.ejbPassivate |
EJB_Before_SessionEjb SemanticMethods |
Before |
Stateless |
At entry of methods: SessionBean.ejbCreate SessionBean.ejbPostCreate |
HttpSessionDebug |
Around |
Built-in |
getSession - Inspects returned HTTP session Before and after calls to methods: getAttribute setAttribute removeAttribute At inspection points, the approximate session size is computed and stored as the payload of a generated event. The size is computed by flattening the session to a byte-array. If an error is encountered while flattening the session, a negative size is reported. |
JDBC_Before_CloseConnection |
Before |
Stateless |
Before calls to methods: Connection.close |
JDBC_After_CloseConnection |
After |
Stateless |
After calls to methods: Connection.close |
JDBC_Around_CloseConnection |
Around |
Around |
Before and after calls to methods: Connection.close |
JDBC_Before_CommitRollback |
Before |
Stateless |
Before calls to methods: Connection.commit Connection.rollback |
JDBC_After_CommitRollback |
After |
Stateless |
After calls to methods: Connection.commit Connection.rollback |
JDBC_Around_CommitRollback |
Around |
Around |
Before and after calls to methods: Connection.commit Connection.rollback |
JDBC_Before_Execute |
Before |
Stateless |
Before calls to methods: Statement.execute* PreparedStatement.execute* |
JDBC_After_Execute |
After |
Stateless |
After calls to methods: Statement.execute* PreparedStatement.execute* |
JDBC_Around_Execute |
Around |
Around |
Before and after calls to methods: Statement.execute* PreparedStatement.execute* |
JDBC_Before_GetConnection |
Before |
Stateless |
Before calls to methods: Driver.connect DataSource.getConnection |
JDBC_After_GetConnection |
After |
Stateless |
After calls to methods: Driver.connect DataSource.getConnection |
JDBC_Around_GetConnection |
Around |
Around |
Before and after calls to methods: Driver.connect DataSource.getConnection |
JDBC_Before_Statement |
Before |
Stateless |
Before calls to methods: Connection.prepareStatement Connection.prepareCall Statement.addBatch RowSet.setCommand |
JDBC_After_Statement |
After |
Stateless |
After calls to methods: Connection.prepareStatement Connection.prepareCall Statement.addBatch RowSet.setCommand |
JDBC_Around_Statement |
Around |
Around |
Before and after calls to methods: Connection.prepareStatement Connection.prepareCall Statement.addBatch RowSet.setCommand |
JMS_Before_AsyncMessage Received |
Before |
Stateless |
At entry of methods: MessageListener.onMessage |
JMS_After_AsyncMessage Received |
After |
Stateless |
At exits of methods: MessageListener.onMessage |
JMS_Around_AsyncMessage Received |
Around |
Around |
At entry and exits of methods: MessageListener.onMessage |
JMS_Before_MessageSent |
Before |
Stateless |
Before call to methods: QueSender send |
JMS_After_MessageSent |
After |
Stateless |
After call to methods: QueSender send |
JMS_Around_MessageSent |
Around |
Around |
Before and after call to methods: QueSender send |
JMS_Before_SyncMessage Received |
Before |
Stateless |
Before calls to methods: MessageConsumer.receive* |
JMS_After_SyncMessage Received |
After |
Stateless |
After calls to methods: MessageConsumer.receive* |
JMS_Around_SyncMessage Received |
Around |
Around |
Before and after calls to methods: MessageConsumer.receive* |
JMS_Before_TopicPublished |
Before |
Stateless |
Before call to methods: TopicPublisher.publish |
JMS_After_TopicPublished |
After |
Stateless |
After call to methods: TopicPublisher.publish |
JMS_Around_TopicPublished |
Around |
Around |
Before and after call to methods: TopicPublisher.publish |
JNDI_Before_Lookup |
Before |
Stateless |
Before calls to javax.naming.Context lookup methods Context.lookup* |
JNDI_After_Lookup |
After |
Stateless |
After calls to javax.naming.Context lookup methods: Context.lookup* |
JNDI_Around_Lookup |
Around |
Around |
Before and after calls to javax.naming.Context lookup methods Context.lookup* |
JTA_Before_Commit |
Before |
Stateless |
At entry of methods: UserTransaction.commit |
JTA_After_Commit |
After |
Stateless advice |
At exits of methods: UserTransaction.commit |
JTA_Around_Commit |
Around |
Around |
At entry and exits of methods: UserTransaction.commit |
JTA_Before_Rollback |
Before |
Stateless |
At entry of methods: UserTransaction.rollback |
JTA_After_Rollback |
After |
Stateless advice |
At exits of methods: UserTransaction.rollback |
JTA_Around_Rollback |
Around |
Around |
At entry and exits of methods: UserTransaction.rollback |
JTA_Before_Start |
Before |
Stateless |
At entry of methods: UserTransaction.begin |
JTA_After_Start |
After |
Stateless advice |
At exits of methods: UserTransaction.begin |
JTA_Around_Start |
Around |
Around |
At entry and exits of methods: UserTransaction.begin |
MDB_Before_MessageReceived |
Before |
Stateless |
At entry of methods: MessageDrivenBean.onMessage |
MDB_After_MessageReceived |
After |
Stateless |
At exits of methods: MessageDrivenBean.onMessage |
MDB_Around_MessageReceived |
Around |
Around |
At entry and exits of methods: MessageDrivenBean.onMessage |
MDB_Before_Remove |
Before |
Stateless |
At entry of methods: MessageDrivenBean.ejbRemove |
MDB_After_Remove |
After |
Stateless |
At exits of methods: MessageDrivenBean.ejbRemove |
MDB_Around_Remove |
Around |
Around |
At entry and exits of methods: MessageDrivenBean.ejbRemove |
MDB_Before_SetMessageDriven Context |
Before |
Stateless |
At entry of methods: MessageDrivenBean.setMessage DrivenContext |
MDB_After_SetMessageDriven Context |
After |
Stateless |
At exits of methods: MessageDrivenBean.setMessageDrivenContext |
MDB_Around_SetMessageDriven Context |
Around |
Around |
At entry and exits of methods: MessageDrivenBean.setMessageDrivenContext |
Servlet_Before_Service |
Before |
Stateless |
At method entries of servlet/jsp methods: HttpJspPage._jspService Servlet.service HttpServlet.doGet HttpServlet.doPost Filter.doFilter |
Servlet_After_Service |
After |
Stateless |
At method exits of servlet/jsp methods: HttpJspPage._jspService Servlet.service HttpServlet.doGet HttpServlet.doPost Filter.doFilter |
Servlet_Around_Service |
Around |
Around |
At method entry and exits of servlet/jsp methods: HttpJspPage._jspService Servlet.service HttpServlet.doGet HttpServlet.doPost Filter.doFilter |
Servlet_Before_Session |
Before |
Stateless |
Before calls to servlet methods: HttpServletRequest.getSession HttpSession.setAttribute/ putValue HttpSession.getAttribute/ getValue HttpSession.removeAttribute/ removeValue HttpSession.invalidate |
Servlet_Around_Session |
Around |
Around |
Before and after calls to servlet methods: HttpServletRequest.getSession HttpSession.setAttribute/ putValue HttpSession.getAttribute/ getValue HttpSession.removeAttribute/ removeValue HttpSession.invalidate |
Servlet_After_Session |
After |
Stateless |
After calls to servlet methods: HttpServletRequest.getSession HttpSession.setAttribute/ putValue HttpSession.getAttribute/ getValue HttpSession.removeAttribute/ removeValue HttpSession.invalidate |
Servlet_Before_Tags |
Before |
Stateless |
Before calls to jsp methods: Tag.doStartTag Tag.doEndTag |
Servlet_After_Tags |
After |
Stateless |
After calls to jsp methods: Tag.doStartTag Tag.doEndTag |
Servlet_Around_Tags |
Around |
Around |
Before and after calls to jsp methods: Tag.doStartTag Tag.doEndTag |
The Diagnostic Action Library includes the following actions:
These diagnostic actions can be used with the delegating monitors described in the previous tables. They can also be used with custom monitors that you can define and use within applications. Each diagnostic action can only be used with monitors with which they are compatible, as indicated by the Compatible Monitor Type column. Some actions (for example, TraceElapsedTimeAction) generate an event payload.
This action is a stateless action and is compatible with Before and After monitor types.
A TraceAction generates a trace event at the affected location in the program execution. The following information is generated:
Timestamp
Context identifier from the diagnostic context which uniquely identifies the request
Transaction identifier, if available
User identity
Action type, that is, TraceAction
Domain
Server name
Instrumentation scope name (for example, application name)
Diagnostic monitor name
Module name
Location in code from where the action was called, which consists of:
Class name
Method name
Method signature
Line number
Thread name
Payload carried by the diagnostic context, if any
This action is a stateless action and is compatible with Before and After monitor types.
A DisplayArgumentsAction generates an instrumentation event at the affected location in the program execution to capture method arguments or a return value.
When executed, this action causes an instrumentation event that is dispatched to the events archive. When attached to before monitors, the instrumentation event captures input arguments to the joinpoint (for example, method arguments). When attached to after monitors, the instrumentation event captures the return value from the joinpoint. The event carries the following information:
Timestamp
Context identifier from the diagnostic context that uniquely identifies the request
Transaction identifier, if available
User identity
Action type, that is, DisplayArgumentsAction
Domain
Server name
Instrumentation scope name (for example, application name)
Diagnostic monitor name
Module name
Location in code from where the action was called, which consists of:
Class name
Method name
Method signature
Line number
Thread name
Payload carried by the diagnostic context, if any
Input arguments, if any, when attached to before monitors
Return value, if any, when attached to after monitors
This action is an Around action and is compatible with Around monitor types.
A TraceElapsedTimeAction generates two events: one before and one after the location in the program execution.
When executed, this action captures the timestamps before and after the execution of an associated joinpoint. It then computes the elapsed time by computing the difference. It generates an instrumentation event which is dispatched to the events archive. The elapsed time is stored as event payload. The event carries the following information:
Timestamp
Context identifier from the diagnostic context that uniquely identifies the request
Transaction identifier, if available
User identity
Action type, that is, TraceElapsedTimeAction
Domain
Server name
Instrumentation scope name (for example, application name)
Diagnostic monitor name
Module name
Location in code from where the action was called, which consists of:
Class name
Method name
Method signature
Line number
Thread name
Payload carried by the diagnostic context, if any
Elapsed time processing the joinpoint, as event payload, in nanoseconds
This action uses the JRockit API to trace the number of bytes allocated by a thread during a method call. This action is very similar to TraceElapsedTimeAction, with the exception that the memory allocated within a method call is traced.
The TraceMemoryAllocationAction action:
Creates an instrumentation event that is persisted.
Can be used from delegating and custom monitors.
This action is a stateless action and is compatible with Before and After monitor types.
A StackDumpAction generates an instrumentation event at the affected location in the program execution to capture a stack dump.
When executed, this action generates an instrumentation event which is dispatched to the events archive. It captures the stack trace as an event payload. The event carries following information:
Timestamp
Context identifier from the diagnostic context that uniquely identifies the request
Transaction identifier, if available
User identity
Action type, that is, StackDumpAction
Domain
Server name
Instrumentation scope name (for example, application name)
Diagnostic monitor name
Module name
Location in code from where the action was called, which consists of:
Class name
Method name
Method signature
Line number
Thread name
Payload carried by the diagnostic context, if any
Stack trace as an event payload
This action is a stateless action and is compatible with Before and After monitor types.
A ThreadDumpAction generates an instrumentation event at the affected location in the program execution to capture a thread dump, if the underlying VM supports it. JDK 1.5 (Oracle JRockit and Sun) supports this action.
This action generates an instrumentation event which is dispatched to the events archive. This action may be used only with the JRockit JVM. It is ignored when used with other JVMs. It captures the thread dump as event payload. The event carries the following information:
Timestamp
Context identifier from the diagnostic context that uniquely identifies the request
Transaction identifier, if available
User identity
Action type, that is, ThreadDumpAction
Domain
Server name
Instrumentation scope name (for example, application name)
Diagnostic monitor name
Module name
Location in code from where the action was called, which consists of:
Class name
Method name
Method signature
Line number
Thread name
Payload carried by the diagnostic context, if any
Thread dump as an event payload
This action is an Around action and is compatible with Around monitor types.
A MethodInvocationStatisticsAction computes method invocation statistics in memory without persisting an event for each invocation. It makes the collected information available through the InstrumentationRuntimeMBean. The collected information is consumable by the Harvester and the Watch-Notifications components. This makes it possible to create watch rules that can combine request information from the instrumentation system and metric information from other runtime MBeans.
The WLDFInstrumentationRuntimeMBean instance for a given scope exposes the data collected from the MethodInvocationStatisticsAction instances attached to the configured Diagnostic Around monitors, using the MethodInvocationStatisics attribute. This attribute returns a map with a nested structure that has the following semantics:
MethodInvocationStatistics::= Map<className, MethodMap> MethodMap::= Map<methodName, MethodParamsSignatureMap> MethodParamsSignatureMap::= Map<MethodParamsSignature, MethodDataMap> MethodDataMap::= <MetricName, Statistic> MetricName:= min | max | avg | count | sum | sum_of_squares | std_deviation
The first level of entries is keyed by the fully qualified class names. The next level yields a map called MethodMap, whose keys are method names and values of another nested map structure, MethodParamsSignatureMap. MethodParamsSignatureMap contains entries that are keyed by a String representation of the method input argument signature to return another map instance, MethodDataMap. MethodDataMap has a fixed set of keys for the names of the different kinds of supported metrics.
To configure the Harvester to collect data gathered by the MethodInvocationStatisticsAction instances, you have to configure an instance of WLDFHarvesterBean with:
Name=weblogic.management.runtime.WLDFInstrumentationRuntimeMBean
The scope is selected by the instance configuration.
The attribute specification defines the data that is collected by the Harvester. The successive elements of the map are accessed by using the following notation:
MethodInvocationStatistics(className)(methodName)(methodParamSignature) (metricName)
where:
className is the fully qualified Java class name. You can use the '*' wildcard in a class name.
methodName selects a specific method from the given class. You can use the '*' wildcard in a method name.
methodParamSignature is a string that is a comma-separated list of a method's input argument types. Only the Java type names are included in the signature specification without the argument names. As in the Java language, the order of the parameters in the signature is significant.
This element also supports the '*' wildcard, so you do not have to specify the entire list of input argument types for a method. '*' matches zero or more argument types at the position following its occurrence in the methodParamSignature expression.
You can also use the '?' wildcard to match a single argument type at any given position in the ordered list of parameter types.
Both of these wildcards can appear anywhere in the expression. See "MethodInvocationStatistics Examples".
metricName indicates the statistics to harvest. You can use the '*' wildcard in this key to harvest all of the supported metrics.
MethodInvocationStatistics Examples
Consider a class with the following overloaded methods:
package.com.foo; public interface Bar { public void doIt(); public void doIt(int a); public void doit(int a, String s) public void doIt(Stringa, int b); public void doIt(String a, String b); public void doIt(String[] a); public void doNothing(); public void doNothing(com.foo.Baz); }
The following examples show how to use harvest various statistics:
MethodInvocationStatistics(com.foo.Bar)(*)(*)(*)
Harvests all statistics for all methods in the com.Foo.Bar class.
MethodInvocationStatistics(com.foo.Bar)(doIt)()(*)
Harvests all statistics for the doIt() method that has no input arguments.
MethodInvocationStatistics(com.foo.Bar)(doIt)(*)(*)
Harvests all statistics for all doIt() methods.
MethodInvocationStatistics(com.foo.Bar)(doIt)(int, *)(*)
Harvests all statistics for the doIt(int) and doIt(int, String) methods.
MethodInvocationStatistics(com.foo.Bar)(doIt)(String[])(*)
Harvests all statistics for the doIt(String[]) method. Array parameters use the [] pair following the type name. Spaces are insignificant for the Harvester.
MethodInvocationStatistics(com.foo.Bar)(doIt)(String, ?)(*)
Harvest all statistics for the doIt methods with two input parameters and String as the first argument type. Using the example class, this would match the doIt(String, int) and doIt(String, String) methods.
MethodInvocationStatistics(com.foo.Bar)(doNothing)(com.foo.Baz)(min|max)
Harvest the min and max execution time for the doNothing() method with the single input parameter of type com.foo.Baz.
Note:
Using a wildcard in the className can impact performance.You can use the same syntax described in the previous sections to use MethodInvocationStatistics metrics in a watch rule. You can create meaningful watch rules that do not wildcard the MetricName element, and instead specify whether you are interested in the min, max, avg, count, sum, sum_of_squares, or std_deviation variable for a given method.
When using straight JMX to collect data, you can potentially impact server performance if you invoke the getAttribute("MethodInvocationStatistics") method on the WLDFInstrumentationRuntimeMBean. This is because, depending on the instrumented classes, the nested map structure can contain a lot of data that will involve expensive serialization.
It is more advisable to use the getMethodInvocationStatisticsData(String) method when using JMX to collect data.
The MethodMemoryAllocationStatisticsAction uses the JRockit API that tracks the number of bytes allocated by a thread during a method call. Statistics are kept in-memory on the memory allocations, and instrumentation events are not created by this action.
The MethodMemoryAllocationStatisticsAction is very similar to the existing MethodInvocationStatisticsAction, except that the statistics tracked by MethodMemoryAllocationStatisticsAction are related to the memory allocated within a method call.
The MethodInvocationStatisticsAction does not create an instrumentation event. When JRockit is available, the statistics are available through the WLDFInstrumentationRuntimeMBean.
The following statistics for each method are kept:
count
min
max
avg
sum
sum_of_squares
std_deviation