Tchater maintenant avec le support
Tchattez avec un ingénieur du support

Foglight for Java EE Technologies 5.9.13 - Installation Guide

Installing and Configuring Foglight for Java EE Technologies Integrating with JBoss Integrating with Apache Tomcat Integrating with WebLogic Domain Startup Scripts Integrating with WebSphere Integrating with WebSphere Liberty Integrating with Oracle AS Integrating with Spring Boot for Embedded Tomcat Creating a Generic Installation for Manual Java EE Agent Integration Managing Java EE Agent Installations, Integrations, and Configurations Managing Java EE Agent Configurations Managing Java EE Installation Java EE Integration Configuration FAQ and Troubleshooting Manually Integrating Application Server Appendix A: Java EE Application Methods AppendixB: Managing Permissions for the Java EE Integration Agent

Uninstalling Java installations

1
On the navigation panel, under Dashboards, click Application Servers > Administration.
3
6
Read the caution and click Uninstall to confirm that you want to remove the entire installation.
7
Click Close to close the box when the process is finished.

Viewing Java installation properties

The installation properties include the location of the installation directory, and both the Java EE Integration Agent version and the Agent Manager name and version for that installation. This information is useful to have on hand when you manually integrate with an application server.

1
On the navigation panel, under Dashboards, click Application Servers > Administration.
3
6
Click OK to close the dialog box.

Upgrading Java installations

Upgrading an installation upgrades all agents that are managed through the installation. This is the same functionality as deploying a new .gar package to a monitored host.

Use the Installations tab of the Java Administration dashboard to determine the version of your installation and whether it is eligible for upgrade. This information appears in the Version and Upgradeable columns of the Installations table.

If an installation is upgradable, use the following procedure to perform an in-place upgrade.

1
On the navigation panel, under Dashboards, click Application Servers > Administration.
3
4
On the Installations tab, look at the Upgradeable column for the installation you are interested in. If the word “Yes” appears, you can upgrade the installation.
8
A progress indicator appears in the Result column while the task is in progress. The indicator is replaced by the text Success or Failure when the task is complete.

 

Java EE Integration Configuration FAQ and Troubleshooting

This section discusses potential issues when configuring application servers for integration with Java EE Integration Agent.

What are the supported JVM versions and what are the levels of metrics collected?

 

My integration task was a partial failure because the Java Home location was wrong. How do I correct it?

 

Why is the Java EE agent sometimes unable to detect the correct type for the application server?

 

Why does my application server take so long to start up after integrating it with the Management Server?

 

I have multiple application servers with the same name that reside on the same host. When the Java EE agents connect to the Management Server, why does only the first agent connect?

 

I received an error message about heap space shortage from the instrumented Java EE agent. What should I do?

 

Why do I see memory usage characteristic changes after enabling the Java EE agent?

 

I received an error message about the max_long_data_size. What should I do?

 

Why does the Agent Manager support bundle not contain logs from the Java EE agent?

 

To help determine the level of metrics that are being collected for your JVM version, see the following table.

IBM 1.6, 1.7, 1.8

Full

Oracle 1.6, 1.7, 1.8

Full

OpenJDK 1.6. 1.7, 1.8

Full

If you specify the wrong Java Home location during the creation of the Java EE Integration Agent, you can correct it from the Java Administration dashboard.

4
Click Save.
5
Click OK to close the confirmation message box.

Users start their servers in various ways. Some of these ways may be different enough from the standard approaches described in this guide to cause the Java EE agent to be unable to determine the correct type for the application server. For example, if you are using a custom class to do some preliminary setup before starting the WebLogic® server, and you are passing weblogic.Server as a parameter to this class rather than calling weblogic.Server directly in the Java startup line, the Java EE agent gets the wrong name for the application server.

If the Java EE agent is unable to detect the application server type, it disables the associated agent and logs a fatal error.

The workaround is to set the application server name and type explicitly as a system property in the Java command line that starts the application server. Add a -D option to the Java startup line that has this format:

There are four fields, each separated by a colon-character.

The <server-name> and <type> are required parameters. The <version> and <cluster-name> are optional; if they are not supplied, the Management Server attempts to auto-detect the missing information. Valid application server type parameters are Generic, WebLogic, WebLogicNodeManager, WebSphere, WebSphereDmgr, WebSphereNodeAgent, WebSphereAdminAgent, OracleAS, and JBoss. The Java EE agent uses the server type and server version that are set in the command line to configure itself for that specific application server.

This example specifies only 3 of the fields, leaving the agent to determine the application server version number for a WebLogic server named myserver in a cluster named my_cluster: -Dquest.agent.appserverinfo=myServer:WebLogic::my_cluster

When configuring agents, the user that is running the server must have read, write, and execute permissions on all directories under and including the Installation directory (QUEST_DEPLOYMENT_DIRECTORY). The installation directory is specified for the Java EE Integration Agent agent that is activated on the same host.

If you have manually integrated an application server with Management Server on AIX 5.3 with JVM 1.4, and the server is taking a long time to start up, it is due to a problem with JVM 1.4 on AIX 5.3.

Add -Djava.net.preferIPv4Stack=true to the Java command line that starts the server.

See ibm.com for more information about the problem with JVM 1.4 on AIX.

This error occurs because the Foglight Management Server does not allow duplicate agent names. Agent names are duplicated when multiple servers with the same name on the same host try to connect. If multiple Java EE agents reside on the same machine with the same server name, only one is permitted to connect.

The workaround is to uniquely identify the agent name by using the following server startup line:

-Dquest.config.agent.agentname=<unique_name>

For example, if you have two administrative servers for two different WebLogic domains running on the same host, the startup lines can be modified to include the following (one per server):

Since the agent names are unique, they will connect to the Foglight Management Server but do not modify the server name.

For more detailed information, see Java EE Integration Agent installation directory .

The Java EE agent is designed to monitor and collect valuable diagnostic detail out-of-the-box with minimal impact on application server heap. The agent configuration can be tuned to reduce (or increase) the amount of detail collected which in turn will reduce (increase) the agent memory usage.

The Java EE agent runs on the application server JVM and uses CPU resources to collect data about the application server. Two types of data are collected: periodic metrics (JMX) and request metrics (instrumentation).

Both types of data are transmitted to the Nexus running on the Foglight Management Server.

The memory usage is proportional to:

The metric collection memory usage impact is typically fixed, while the instrumentation memory usage impact varies considerably according to the application, workload, and the agent instrumentation and collection configuration.

Consider increasing the heap size of the instrumented application server.

The Java EE agent runs in the same JVM as the application server. As a result, the memory usage behaviors of the Java EE agent can impact the memory usage behaviors of the Application Server, which in turn can impact the memory usage behavior of the operating system.

One major contributor for the change is that objects are allocated for a cache that stores instrumented class information so the agent does not need to examine it every time. This optimization is made to improve the startup time performance. These are soft references, so the Garbage Collector can collect these objects if needed.

As a result, you may notice memory usage characteristic changes after enabling the Java agent.

A few different strategies can be used to minimize the changes to memory usage characteristics, as follows:

When creating agent profiles or adding configuration file overrides to an agent profile, the Management Server may log the following error messages:

SQL Error: 1105, SQLState: HY000

Parameter of prepared statement which is set through mysql_send_long_data() is longer than 'max_long_data_size' bytes

Increase the value for the max_long_data_size or the max_allowed_packet system variable in your MySQL configuration. The recommended value is 8388608.

If you still encounter the error when using the recommended value, increase the value further or reduce the number of agent profiles.

In order for the Agent Manager (FglAM) support bundle to include the log files from the Java EE agent, the Java EE Integration Agent (JavaIntegrator) must be active when the support bundle is collected.

If the Java EE Integration Agent is not active, the support bundle contains logs from the Java EE Integration Agent, but not from the Java EE agent.

 

Documents connexes

The document was helpful.

Sélectionner une évaluation

I easily found the information I needed.

Sélectionner une évaluation