Scenarios and Programmer Information

This document covers the following topics:


COBOL Scenarios

Scenario I: Calling an Existing COBOL Server

Start of instruction setTo call an existing COBOL server

  1. Use the IDL Extractor for COBOL to extract the Software AG IDL and, depending on the complexity, also a server mapping file. See When is a Server Mapping File Required? in the EntireX Workbench documentation.

  2. Build an EntireX RPC client using any EntireX wrapper. See EntireX Wrappers. For a quick test you can:

    • use the IDL Tester; see EntireX IDL Tester in the EntireX Workbench documentation

    • generate an XML mapping file (XMM) and use the XML Tester for verification; see EntireX XML Tester in the XML/SOAP Wrapper documentation

See Client and Server Examples for z/OS Batch in the COBOL Wrapper documentation for COBOL RPC Server examples.

Scenario II: Writing a New COBOL Server

Start of instruction setTo write a new COBOL server

  1. Use the COBOL Wrapper to generate a COBOL server skeleton and, depending on the complexity, also a server mapping file. See When is a Server Mapping File Required? in the EntireX Workbench documentation. Write your COBOL server and proceed as described under Using the COBOL Wrapper for the Server Side.

  2. Build an EntireX RPC client using any EntireX wrapper. See EntireX Wrappers. For a quick test you can:

    • use the IDL Tester; see EntireX IDL Tester in the EntireX Workbench documentation

    • generate an XML mapping file (XMM) and use the XML Tester for verification; see EntireX XML Tester in the XML/SOAP Wrapper documentation

See Client and Server Examples for z/OS Batch in the COBOL Wrapper documentation for COBOL RPC Server examples.

PL/I Scenarios

Scenario III: Calling an Existing PL/I Server

Start of instruction setTo call an existing PL/I server

  1. Use the IDL Extractor for PL/I to extract the Software AG IDL.

  2. Build an EntireX RPC client using any EntireX wrapper. See EntireX Wrappers. For a quick test you can:

    • use the IDL Tester; see EntireX IDL Tester in the EntireX Workbench documentation

    • generate an XML mapping file (XMM) and use the XML Tester for verification; see EntireX XML Tester in the XML/SOAP Wrapper documentation

See Client and Server Examples for z/OS Batch in the PL/I Wrapper documentation for PL/I RPC Server examples.

Scenario IV: Writing a New PL/I Server

Start of instruction setTo write a new PL/I server

  1. Use the PL/I Wrapper to generate a PL/I server skeleton. Write your PL/I server and proceed as described under Using the PL/I Wrapper for the Server Side.

  2. Build an EntireX RPC client using any EntireX wrapper. See EntireX Wrappers. For a quick test you can:

    • use the IDL Tester; see EntireX IDL Tester in the EntireX Workbench documentation

    • generate an XML mapping file (XMM) and use the XML Tester for verification; see EntireX XML Tester in the XML/SOAP Wrapper documentation

See Client and Server Examples for z/OS Batch in the PL/I Wrapper documentation for PL/I RPC Server examples.

C Scenarios

Scenario V: Writing a New C Server

Start of instruction setTo write a new C server

  1. Use the C Wrapper to generate a C server skeleton and a C server interface object. Write your C server and proceed as described under Using the C Wrapper for the Server Side (z/OS, UNIX, Windows, BS2000, IBM i).

  2. Build an EntireX RPC client using any EntireX wrapper. See EntireX Wrappers. For a quick test you can:

    • use the IDL Tester; see EntireX IDL Tester in the EntireX Workbench documentation

    • generate an XML mapping file (XMM) and use the XML Tester for verification; see EntireX XML Tester in the XML/SOAP Wrapper documentation

Assembler Scenarios

Scenario VI: Writing a New Assembler Server

Start of instruction setTo write a new Assembler (IBM 370) server

  1. Build an RPC server in Assembler. Here are some hints:

    • The RPC server is dynamically callable (no pre-initialization required).

    • The parameter interface is either compatible with the COBOL or PL/I calling convention (IDL level parameter will be passed in the address list). Configure the parameter marshalling accordingly for COBOL or PL/I.

    • The alignment of integer or float data types is considered. The HASM Assembler aligns integer or float data types to appropriate boundaries. For example:

      ...
            MyLabel   DSECT
            MyField1  DS   H                      I2
            MyField2  DS   F                      I4
            MyField3  DS   E                      F4
            MyField4  DS   L                      F8
    • The RPC Server for Batch will not align these data types by default.

    • To force alignment by definition in your IDL file (see the aligned attribute within the attribute-list) before generating your RPC client. For information on whether your client supports the aligned attribute, see Mapping the aligned Attribute to C | COBOL | DCOM | .NET | Java | Natural | PL/I.

  2. Build an EntireX RPC client using any EntireX wrapper. See EntireX Wrappers. For a quick test you can:

    • use the IDL Tester; see EntireX IDL Tester in the EntireX Workbench documentation

    • generate an XML mapping file (XMM) and use the XML Tester for verification; see EntireX XML Tester in the XML/SOAP Wrapper documentation

Aborting RPC Server Customer Code and Returning Error to RPC Client

Using RETURN-CODE Special Register (COBOL only)

The RETURN-CODE special register (an IBM extension to the COBOL programming language) is used by your RPC server to report an error.

Upon return, the value contained in the RETURN-CODE special register is detected by the RPC Server for Batch and sent back to the RPC client instead of the application's data.

For IBM compilers the RETURN-CODE special register has the implicit definition:

RETURN-CODE GLOBAL PICTURE S9(4) USAGE BINARY VALUE ZERO

Special registers are reserved words that name storage areas generated by the compiler. Their primary use is to store information produced through specific COBOL features. Each such storage area has a fixed name, and must not be defined within the program. See your compiler documentation for more information.

The following rules apply to application error codes:

  • The value range for application errors is 1-9999. No other values are allowed.

  • On the RPC client side, the error is prefixed with the error class 1002 "Application User Error" and presented as error 1002nnnn.

  • No application data is sent back to the RPC client in case of an error.

  • It is not possible to return an error text to the RPC client.

    Example

    . . .
            IF error occurred THEN
                   MOVE <error-number> TO RETURN-CODE
                   GO TO MAIN-EXIT
            END-IF.
            . . .
    
       MAIN-EXIT.
           EXIT PROGRAM.
    END PROGRAM RETCODE.

Note:
To enable this feature, configure the RPC Server for Batch with return_code=yes.