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Some of you may already be familiar with the new licensing model available for SAP BusinessObjects BI, but for those who aren't, let me take a couple of minutes to explain Concurrent Sessions (CS) licensing and how it works.

Historically the CPU license model has been used extensively and remains a popular way to bring BI to a large number of report consumers at a reasonable cost.  CPU licensing allows an unlimited number of users to access the system.  For minimally intensive usage such as viewing of previously scheduled reports, distribution of agnostic documents such as PDF/XLS, and Crystal Reports viewing and refreshing, it can enable a vast number of business users to run successfully on just a few CPU.

On the other hand, customers wishing to implement more interactive BI (and thus more CPU intensive!), in the form of Web Intelligence ad-hoc, Explorer, and Dashboards, could quickly find themselves needing dozens (or even hundreds) of CPU to service a smaller user population.  This could make the CPU license model become cost prohibitive very quickly.  Fortunately for us SAP has listened, and delivered a complimentary license model that allows us to purchase the necessary number of concurrent sessions and scale CPU as required without the corresponding license cost.  For those of you that don't already know, a concurrent session represents a connected user, in terms of InfoView/BI Launch Pad, Web Intelligence, Mobile, or any other client of the Business Intelligence system.

There is, however, some additional maintenance required to ensure exceeding your allotment of concurrent sessions does not interrupt business usage.  Users could be prevented from logging onto the system, receiving an error message like the following:

All of your system's 'N' Concurrent Access Licenses are in use at this time or your system's license key has expired. Try again later or contact your administrator to obtain additional licenses.

BI4 Session Monitoring

Obviously we don't want our preferred license model to have negative repurcussions on business usage, but how can we monitor in real-time whether we're getting close to the available allotment and take action as necessary?

If you're using BI4 then the functionality is built directly into the Monitoring application available out of the box.  By creating a watch, and a derived metric if you have more than 1 CMS in your cluster, the platform can alert a group of administrators if concurrent usage exceeds a defined threshold.  You can even have an action take place when the alert is triggered, such as restarting one or more of the CMS in the cluster to flush any inactive sessions that haven't reached timeout.

In the screenshot above I configured a derived metric called 'Total Concurrent Sessions' and set the value to:

CMSA.CentralManagementServer$'Number of Sessions Established by Concurrent Users'+  CMSB.CentralManagementServer$'Number of Sessions Established by Concurrent Users'

To get the total number of logged on concurrent sessions for the entire cluster.  I then created a watch to "caution" once the number of sessions reaches 200, and trigger a "danger" alert when the number reaches 300.  The rich functionality available in the monitoring plugin is just one of the many benefits available in BI4, and I encourage everybody to strongly consider upgrading if you haven't done so already.

That being said, many customers are well established on XI3.1 and will remain there for the immediate future.  Although it lacks the robust monitoring solution available in BI4, there is a fairly simple way to monitor concurrent session usage in real-time through the use of a custom Java Program Object.  I will demonstrate the method for writing such a program object below, along with steps to implement email notification in case a threshold has been exceeded.

XI3.1 Session Monitoring

First and foremost, I would not have been able to accomplish this without the excellent program object sample found in SAP Note 1578811.  This "shell" is extremely helpful for providing a framework in which more complicated logic can be built.  This sample program accepts a single numeric argument from the CMC and uses that to determine whether or not to fail the job, which in turn triggers an email alert.

The sample code is below (There is a scrollbar at the bottom of the post and copy and paste should contain the entire block of sample code):

// JRapp - 5/2/2012 - Concurrent Session count for monitoring of license consumption
import com.crystaldecisions.sdk.exception.SDKException;
import com.crystaldecisions.sdk.framework.IEnterpriseSession;
import com.crystaldecisions.sdk.occa.infostore.IInfoStore;
import com.crystaldecisions.sdk.occa.infostore.IInfoObjects;
import com.crystaldecisions.sdk.occa.infostore.IInfoObject;
import com.crystaldecisions.sdk.plugin.desktop.program.IProgramBaseEx;
import com.crystaldecisions.sdk.occa.infostore.CePropertyID;
import com.crystaldecisions.sdk.plugin.desktop.connection.IConnection;
public class CSCount implements IProgramBaseEx
public void run(IEnterpriseSession enterpriseSession,IInfoStore infoStore,IInfoObject programInfoObject,java.lang.String objectID,java.lang.String[] args) throws SDKException
  // Indicate that we would like to allow for us to set the status of this program object to "Failed" if an error
  // occurs during the processing of the program object.
  programInfoObject.getProcessingInfo().properties().add("SI_PROGRAM_CAN_FAIL_JOB", Boolean.TRUE, IProperty.DIRTY);;
  // When the status of a completed Java Program Object is "Success", any text that is written to
  // System.out.println(...) will be available to be viewed in the CMC by going to the History
  // of the Java Program Object and clicking on the date under the "Instance Time" column for the
  // successful object.
  System.out.println("Start Concurrent Session count.");
// Query the Infostore for the number of concurrent sessions
   IInfoObjects connections = infoStore.query("SELECT count(SI_ID) FROM CI_SYSTEMOBJECTS WHERE SI_KIND = 'Connection' AND SI_FAILOVER_AVAILABLE_UNTIL = NULL AND SI_AUTHEN_METHOD != 'server-token'");
IInfoObject cscount = (IInfoObject) connections.get(0);
IProperties counts ="SI_AGGREGATE_COUNT");
int idCount = (int)counts.getInt("SI_ID");
  // JRapp 5/3/2012 - compare session count with threshold argument
  int threshold = Integer.parseInt(args[0]);
   if(idCount > threshold)
    // Check the number of concurrent sessions and throw an exception if it exceeds the threshold
    // passed in as an argument via the CMC
    throw new Exception("Warning: Concurrent Sessions exceeds defined threshold of: " + threshold + " Value is: " + idCount);
    System.out.println("Sessions do not exceed "+ threshold);
    System.out.println("Session count is: " + idCount);
  catch (Exception ex)
   // We catch an exception here.  When there is an exception, we are going to
   // treat that as a program error.  When there is a program error, we want
   // the program object instance to have a Status of "Failed".  In order to do
   // that, we write "PROCPROGRAM:PROGRAM_ERROR" and "62009" to the System.out
   // and then we can write up to 3 lines to the System.out.
   // At the end, we do a System.exit(1) and the Status of this program
   // object will now be "Failed".
   // On the first line, print out the error to the System.out:
   // The first line appears as the error message when the "FAILED" status
   // of the instance is clicked on the History page.
   // We will print out up to two extra lines of information.  These two
   // extra lines are not seen when clicking on the "FAILED" status  on the
   // instance History page
   // All three lines of information can be seen in the SI_STATUSINFO property
   // for the program instance object.
   System.out.println("CS Threshold Exceeded");
   // Exit the system so that the Status is set to "Failed".

The sample code is fairly well commented so hopefully it needs no additional explanation.  You can copy the source and save it into a text file called so that it matches the class name defined above.  The number of sessions will be logged to the stdout of the scheduled instance, but it might be more desirable to write to a common location using log4j.  To implement log4j in the sample above please refer to SAP Note 1582714 for assistance.

Once the file is saved it will need to be compiled into a class file.  The easiest way to do this is to copy the file into the javasdk/bin directory of the XI3.1 installation.  It is important that we compile the class using the same version of the Java SDK available to the Program Job Server, otherwise we're at risk of it failing due to incompatibility between versions.  In a default installation of SAP BusinessObjects Enterprise XI3.1 on Windows 2003 the complete directory is:

C:\Program Files\Business Objects\javasdk\bin

The next step in the process is to compile the source code into a class file.  Perform the following steps:

  1. Launch a command prompt: Start > Run > cmd
  2. Change to the javasdk/bin directory: cd C:\Program Files\Business Objects\javasdk\bin
  3. Compile the source code using the javac command: javac -cp "C:\Program Files\Business Objects\common\4.0\java\lib\cecore.jar;C:\Program Files\Business Objects\common\4.0\java\lib\cesession.jar;C:\Program Files\Business Objects\common\4.0\java\lib\ceplugins_core.jar;C:\Program Files\Business Objects\common\4.0\java\lib\ceplugins_client.jar;C:\Program Files\Business Objects\common\4.0\java\lib\celib.jar"

The classpath specified by -cp directs the compiler to the necessary class files required by the source code.  If successful, a file called CSCount.class will be created in the same folder.  The next step in the process is to create a jar file that can be scheduled in the CMC.  To do this, we must create a directory structure that matches the package name in the code,  Create a series of folders within the javasdk/bin directory that results in the following path:

C:\Program Files\Business Objects\javasdk\bin\com\sap\sample

And move the and CSCount.class files there.

From the command line, execute the following command:

jar -cvf CSCount.jar ./com/sap/sample/CSCount*

This should result in a file called CSCount.jar in the javasdk/bin directory.  Next, publish the jar file to XI3.1 using the steps outlined in SAP Note 1199532.  For the purposes of this blog I have published CSCount.jar to the Administration Tools folder that contains other scripts and programs.

Finally, set up a recurring schedule to run at an interval of your choice.  This could be every minute, every 15 minutes, every hour, etc.  When scheduling based on a very short interval, such as every minute, be sure to set up instance limits to prevent too many historical instances from accumulating.

Modify the following program parameters under "Schedule" to match your environmental needs:

Arguments: 300

A single integer based argument that sets the concurrent session threshold.  You can test failure notification by scheduling with a value of 0.  A session count higher than this number will cause the job to fail.

Class to run:

The complete name of the java class for the program job server to execute.

Classpath: C:\Program Files\Business Objects\common\4.0\java\lib\cecore.jar;C:\Program Files\Business Objects\common\4.0\java\lib\cesession.jar;C:\Program Files\Business Objects\common\4.0\java\lib\ceplugins_core.jar;C:\Program Files\Business Objects\common\4.0\java\lib\ceplugins_client.jar;C:\Program Files\Business Objects\common\4.0\java\lib\celib.jar

The list of jar file dependencies the program has.

The program is now ready to run.  If desired, configure Failure Notification so that an administrator can be emailed when the defined threshold is exceeded.  Instructions for configuring failure notification can be found in the Administrator's Guide under the chapter "Setting notification for the success or failure of a scheduling job"

I hope you've found this post and sample program useful.  There are a wealth of administrative tasks that can be performed using Program Objects and it would be great to see some innovation from the Ecosystem on this subject.