How to call a stored procedure from the DAL

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Objective

This how-to explains calling a stored procedure using the Data Access Layer. It assumes you have basic knowledge of the Openbravo Stored Procedure concept; see here for more information.

In this how-to we will call the generate shipments for invoices stored procedure. The code will be run as a junit testcase. The code can however also be run inside Openbravo (in a servlet).

All new developments must belong to a module that is not the core module. Please follow the How to create and package a module section to create a new module.

Notes

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The DAL has been extended with two utility classes which make it easier to call processes and stored procedures through the DAL:

These classes make use of the same database connection as the DAL, in addition instead of working with String parameters you can work with the java (primitive) objects directly.

This howto does not make use of the above classes as it gives you a more detailed description on how to call database level logic directly.

Another interesting read (when doing direct database updates outside of Hibernate) is the following section in the trouble shooting guide: changes not visible in the DAL after calling stored procedure.

Setup a test case

There is a separate how-to on creating test cases using the Data Access Layer (see here) so we will only give a summary here.

The test case is created inside of the module directory of the new module. This directory is located inside the modules directory of the Openbravo development project. To create a new source folder in Eclipse right-click on the project and select New and then source folder. Note the actual folder name depends on the java package set for the module.


CreateSourceFolder.png


In the source folder create a new package called: org.openbravo.howto.query (right click on the new folder and select New > package). Inside this package create a java file StoredProcedureTest.java. This file has the following content:

package org.openbravo.howto.spdal;

import org.openbravo.test.base.OBBaseTest;

/**
 * Stored Procedure from DAL howto
 */

public class StoredProcedureTest extends OBBaseTest {

  public void testStoredProcedure() {
    setUserContext("100");

    // here we will be doing our stuff...

    commitTransaction();
  }
}


This test case inherits from the OBBaseTest class provided by Openbravo. The OBBaseTest class provides a user context and transaction handling. There is one test method in the class: testStoredProcedure. This method first selects the user context. It is possible that this needs to be different for your installation. The selected user must be allowed to create ProcessInstance records in the db. The commitTransaction() at the end commits the transaction, if an exception occurs during the test then this statement won't be executed and the transaction is automatically rolled back.

You can right-click the java file in Eclipse and then run as > junit testcase, you should see the greenbar in the junit view:



This is the main testcase setup. The next section will add some code to the testcase to call the stored procedure in the correct way.

Calling the stored procedures

The main business logic of Openbravo is implemented in stored procedures. Some stored procedures can be called directly through jdbc. But for other stored procedures you must first create a special record (the PInstance) and its related parameters (see How to develop a stored procedure).

This how-to describes how you can create the ProcessInstance record and Parameter through the DAL and then execute a stored procedure.

Here is the complete method, each part is discussed separately below:

  public void testStoredProcedure() {
    setUserContext("100");

    // get the process, we know that 199 is the generate shipments from invoice sp
    final Process process = OBDal.getInstance().get(Process.class, "199");

    // Create the pInstance
    final ProcessInstance pInstance = OBProvider.getInstance().get(ProcessInstance.class);
    // sets its process
    pInstance.setProcess(process);
    // must be set to true
    pInstance.setActive(true);
    pInstance.setRecordID("0");
    // get the user from the context
    pInstance.setUserContact(OBContext.getOBContext().getUser());

    // now create a parameter and set its values
    final Parameter parameter = OBProvider.getInstance().get(Parameter.class);
    parameter.setSequenceNumber("1");
    parameter.setParameterName("Selection");
    parameter.setString("Y");

    // set both sides of the bidirectional association
    pInstance.getADParameterList().add(parameter);
    parameter.setProcessInstance(pInstance);

    // persist to the db
    OBDal.getInstance().save(pInstance);

    // flush, this gives pInstance an ID
    OBDal.getInstance().flush();

    System.err.println(pInstance.getId());

    // call the SP
    try {
      // first get a connection
      final Connection connection = OBDal.getInstance().getConnection();
      // connection.createStatement().execute("CALL M_InOut_Create0(?)");
      final PreparedStatement ps = connection.prepareStatement("SELECT * FROM M_InOut_Create0(?)");
      ps.setString(1, pInstance.getId());
      ps.execute();
    } catch (Exception e) {
      throw new IllegalStateException(e);
    }

    // refresh the pInstance as the SP has changed it
    OBDal.getInstance().getSession().refresh(pInstance);

    System.err.println(pInstance.getResult());
    System.err.println(pInstance.getErrorMsg());

    commitTransaction();
  }

Explaining the logic

Let's go through the main parts of the method.

This part sets the user which runs the stored procedure. It is possible that this needs to be different for your installation. The selected user must be allowed to create ProcessInstance records in the db.

    setUserContext("100");

The following code reads the Process which will be run from the database. In this case we use Process 199 which is the generate shipment process.

    final Process process = OBDal.getInstance().get(Process.class, "199");

Then create a new ProcessInstance instance and set its data:

    final ProcessInstance pInstance = OBProvider.getInstance().get(ProcessInstance.class);
    // sets its process
    pInstance.setProcess(process);
    // must be set to true
    pInstance.setActive(true);
    pInstance.setRecordID((long) 0);
    // get the user from the context
    pInstance.setUserContact(OBContext.getOBContext().getUser());

Note the way the current user is retrieved from the global OBContext object. See also how the process is set in the pInstance.

The process requires a Parameter which is created in the following step and linked to the ProcessInstance (and back):

    // now create a parameter and set its values
    final Parameter parameter = OBProvider.getInstance().get(Parameter.class);
    parameter.setSequenceNumber("1");
    parameter.setParameterName("Selection");
    parameter.setString("Y");

    // set both sides of the bidirectional association
    pInstance.getADParameterList().add(parameter);
    parameter.setProcessInstance(pInstance);

The next step is to persist the ProcessInstance, the Parameter will also automatically be saved because it is a child of the ProcessInstance business object. Hibernate caches database statements and sends them to the database when it is most appropriate. However, because we need to know the id (which is generated by the database) we force a flush of the Hibernate sql statements to the database. The System.err should print a uuid.

    // persist to the db
    OBDal.getInstance().save(pInstance);

    // flush, this gives pInstance an ID
    OBDal.getInstance().flush();

    System.err.println(pInstance.getId());

The ProcessInstance has been created with its parameter. Now you need to call the stored procedure. To accomplish the jdbc connection is retrieved from the DAL. The connection is the same one used by Hibernate for persisting the ProcessInstance, this ensure transaction acid behavior.

As the call is done through 'raw' jdbc there is a different syntax for Oracle and Postgresql. The last step, before executing, is to set the pInstanceId as a parameter in the PreparedStatement.

    // call the SP
    try {
      // first get a connection
      final Connection connection = OBDal.getInstance().getConnection();
      // This is the way to call the SP in Oracle 
      // connection.createStatement().execute("CALL M_InOut_Create0(?)");
      
      // This is the correct Postgresql format
      final PreparedStatement ps = connection.prepareStatement("SELECT * FROM M_InOut_Create0(?)");

      // Set the ProcessInstance id
      ps.setString(1, pInstance.getId());
      ps.execute();
    } catch (Exception e) {
      throw new IllegalStateException(e);
    }

The stored procedure will update the ProcessInstance record in the database with a result code and an error message. As Hibernate does not detect this automatically we need to refresh the instance we have in-memory. Then we can call the methods on the instance to obtain the result:

    // refresh the pInstance as the SP has changed it
    OBDal.getInstance().getSession().refresh(pInstance);

    System.err.println(pInstance.getResult());
    System.err.println(pInstance.getErrorMsg());

    commitTransaction();

The result

The logic has been explained, so let's now run the testcase. Again do run as > junit testcase (note: you can also do debug as > junit testcase to step through the code).

You should see an output as follows:

FF80818120000E9A0120000EC00B0002
0

The result 0 normally means that an error occurred, however with this stored procedure it means that no data was processed. Depending on the dataset this can occur.

If an error occurred then it should be present in the pInstance.getErrorMsg.