EntireX Version 9.7
 —  Administration of EntireX under BS2000/OSD  —

Administering the BS2000/OSD Batch RPC Server

The EntireX BS2000/OSD Batch RPC Server allows standard RPC clients to communicate with RPC servers on the operating system BS2000/OSD. It supports the programming languages COBOL and C.

This document covers the following topics:


Customizing the RPC Server

The following elements are used for setting up the BS2000/OSD Batch RPC Server:

Common Runtime Environment (CRTE)

When the BS2000/OSD Batch RPC Server calls COBOL or C server programs, the BS2000/OSD Common Runtime Environment (CRTE) is loaded dynamically into the corresponding address space of the worker task.

There is no need to bind the CRTE statically to the called server object modules. If this is needed for any reason, the CRTE must be linked as a subsystem. All entries must be hidden to prevent duplicates. Linking the CRTE statically will occupy resources and slow down the load time of the server object modules.

The CRTE is not delivered with this package. For a detailed description, see the CRTE (BS2000/OSD) User's Guide.

Configuration File

The name of the delivered example configuration file is "RPC-CONFIG". The configuration file contains the configuration for the BS2000/OSD Batch RPC Server. The following settings are important:

For more information see Configuring the RPC Server.

Start Procedure

The name of the start S-procedure for the BS2000/OSD Batch RPC Server is "START-RPC-SERVER". The start procedure contains the following:

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Configuring the RPC Server

The following rules apply:

Parameter Default Values Req/
Opt
brokerid localhost Broker ID used by the server. See Using the Broker ID in Applications.

Example:
brokerid=myhost.com:1971

R
class RPC Server class part of the server address used by the server. The server address must be defined as a service in the broker attribute file (see Service-specific Attributes under Broker Attributes). Case-sensitive, up to 32 characters. Corresponds to CLASS.

Example:
class=MyRPC

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codepage no codepage transferred Depending on the internationalization approach, the codepage (locale string) where incoming data is provided to the COBOL server. Conversely, the COBOL server must provide outgoing data in the given codepage, otherwise unpredictable results occur. See What is the Best Internationalization Approach to use? under Internationalization with EntireX for information on which internationalization approach requires a codepage (locale string).

By default, no codepage is transferred to the broker. For the most popular internationalization approach, ICU Conversion, the correct codepage (locale string) must be provided. This means it must:

  • follow the rules described under Locale String Mapping

  • be a codepage supported by the broker

  • be the codepage used in your environment for file and terminal IO, otherwise unpredictable results may occur.

Example:
codepage=EDF041

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compresslevel N Enforce compression when data is transferred between broker and server. See Data Compression in EntireX Broker.

compresslevel= 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8| 9 | Y | N

0-9 0=no compression
9=max. compression
N No compression.
Y Compression level 6.

Example:
compresslevel=6

O
deployment NO Activates the deployment service, see Deployment Service. Required to use the Server Mapping Deployment Wizard. See Server Mapping Deployment Wizard in the EntireX Workbench documentation.
YES Activates the deployment service. The RPC server registers the deployment service in the broker.
NO The deployment service is deactivated. The RPC server does not register the deployment service in the broker.

Example:
deployment=yes

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encryptionlevel 0 Enforce encryption when data is transferred between client and server. Requires EntireX Security. See ENCRYPTION-LEVEL under Broker ACI Fields.
0 Encryption is enforced.
1 Encryption is enforced between server and broker kernel.
2 Encryption is enforced between server and broker kernel, and also between client and broker.

Example:
encryptionlevel=2

O
init_exit   Initialization exit. The BS2000/OSD Batch RPC Server provides user exits that allow you to plug in code during initialization and to terminate RPC worker tasks. This parameter specifies the name of an executable module that is loaded and executed during initialization of each worker task. See also term_exit.

Example:
init_exit=myExit

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extractor NO The extractor service is a prerequisite for remote extractions. See Extractor Service.

extractor=YES|NO

Example:
extractor=yes

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logon YES Execute broker functions LOGON/LOGOFF in worker threads. Must match the setting of the broker attribute AUTOLOGON. Reliable RPC requires logon set to YES. See Reliable RPC.
NO No logon/logoff functions are executed.
YES Logon/logoff functions are executed.

Example:
logon=no

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marshalling COBOL The BS2000/OSD Batch RPC Server can be configured to support either COBOL or C. See also Locating and Calling the Target Server.
marshalling=(LANGUAGE=COBOL|C)
COBOL The BS2000/OSD Batch RPC Server supports COBOL. The COBOL servers are called directly without a server interface object. The COBOL server modules may be compiled as OM or LLM modules. So-called server mapping files are used to call the COBOL server correctly if one is available. See Usage of Server Mapping Files.
C The BS2000/OSD Batch RPC Server supports C. The modules are called using a server interface object built with the C Wrapper.
O
password no default Password for broker logon. Case-sensitive, up to 32 characters. For more information see broker ACI control block field PASSWORD.

Example:
password=MyPwd

O
restartcycles 15 Number of restart attempts if the broker is not available. This can be used to keep the BS2000/OSD Batch RPC Server running while the broker is down for a short time. A restart cycle will be repeated at an interval which is calculated as follows:

timeout + ETB_TIMEOUT + 60 seconds

where timeout is the RPC server parameter (see this table), and
  ETB_TIMEOUT is the environment variable (see Environment Variables in EntireX)

When the number of cycles is reached and a connection to the broker is not possible, the RPC server stops.

Example:
restartcycles=30

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servername SRV1 Server name part of the server address used by the server. The server address must be defined as a service in the broker attribute file. See Service-specific Attributes under Broker Attributes. Case-sensitive, up to 32 characters. Corresponds to SERVER of the broker attribute file.

Example:
servername=mySrv

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service CALLNAT Service part of the server address used by the server. The server address must be defined as a service in the broker attribute file. See Service-specific Attributes under Broker Attributes. Case-sensitive, up to 32 characters. Corresponds to SERVICE attribute of the broker attribute file.

Example:
service=MYSERVICE

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smhport 0 The port where the server listens for commands from the System Management Hub (SMH). If this port is 0 (default), no port is used and management by the SMH is disabled.

Example:
smhport=3001

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svm PREFERRED Usage of server mapping files. See Server-side Mapping Files in the RPC Server.

SVM=PREFERRED|NO

PREFERRED This setting is to support COBOL server programs that do not have server-side mapping, plus COBOL server programs built with a server-side mapping file. If you use server-side mapping files, the server-side mapping container must be installed and configured. See Step 1: Define a Server-side Mapping Container in the BS2000/OSD Installation documentation. There are also client-side mapping files that do not require configuration here; see Server Mapping Files for COBOL in the EntireX Workbench documentation.
NO Server-side mapping files are not used.

Example for BS2000/OSD:
SVM=NO

See also Usage of Server Mapping Files.

O
term_exit   Termination exit. The BS2000/OSD Batch RPC Server provides user exits that allow you to plug in code during initialization and terminate RPC worker tasks. This parameter specifies the name of an executable module that is loaded and executed during termination of each worker task. See also init_exit.

Example:
term_exit=myExit

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timeout 60 Timeout in seconds, used by the server to wait for broker requests. See broker ACI control block field WAIT for more information. Also influences restartcycles.

Example:
timeout=300

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tracedestination ERXTrace.nnn.log

Trace output is written to SYSOUT.

O
tracelevel None Trace level for the server. See also Activating Tracing for the RPC Server.
tracelevel = None | Standard | Advanced | Support
None No trace output.
Standard For minimal trace output.
Advanced For detailed trace output.
Support This trace level is for support diagnostics and should only be switched on when requested by Software AG support.

Example:
tracelevel=standard

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userid ERX-SRV Used to identify the server to the broker. See broker ACI control block field USER-ID. Case-sensitive, up to 32 characters.

Example:
userid=MyUid

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workermodel SCALE,1,3,slowshrink
The BS2000/OSD Batch RPC Server can be configured to
  • adjust the number of worker threads to the current number of client requests:

    workermodel=(SCALE,from,thru
                  [,slowshrink | fastshrink])
  • use a fixed number of worker threads:

    workermodel=(FIXED,number)
FIXED A fixed number of worker threads is used by the BS2000/OSD Batch RPC Server.
SCALE The number of worker threads is adjusted to the current number of client requests. With the from value, the minimum number of active worker threads can be set. The thru value restricts the maximum number of worker threads.
slowshrink The RPC server stops all worker threads not used in the time specified by the timeout parameter, except for the number of workers specified as minimum value. This is the default if SCALE is used.
fastshrink The RPC server stops worker threads immediately as soon as it has finished its conversation, except for the number of workers specified as minimum value.
Example:
workermodel=(SCALE,2,5)
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Locating and Calling the Target Server

Target server programs are loaded dynamically, using the BS2000 BLSLIB chain. The target server library name needs to be set up as PROGRAM-LIB in the parameter declaration section of the START-RPC-SERVER S-procedure, see Start Procedure. Different mechanisms are used depending on the language:

COBOL

The approach used to derive the COBOL object module name for the RPC server depends on whether server mapping is used or not. See Usage of Server Mapping Files for an introduction.

  1. If the RPC client sends a client-side type of server mapping with the RPC request, this server mapping is used first.

  2. If no server mapping is available from step 1 above, and if server-side type of server mapping is used, the IDL library and IDL program names are used to form a key to locate the server mapping in the server-side mapping container. If a server mapping is found, this is then used.

  3. If a server mapping is available from step 1 or 2 above, the COBOL object module name of the RPC server is derived from this mapping. In this case the IDL program name can be different to the COBOL object module name if it is renamed during wrapping process (see Customize Automatically Generated Server Names) or during the extraction process in the COBOL Mapping Editor.

  4. If no server mapping is used at all, the IDL program name is used as the COBOL object module name of the RPC server (the IDL library name is ignored).

See also Scenario I: Calling an Existing COBOL Server or Scenario II: Writing a New COBOL Server.

Start of instruction setTo use the Batch RPC Server with COBOL

  1. Make sure that all target server programs called as RPC servers

  2. Configure the parameter marshalling for COBOL, for example:

    marshalling=COBOL

C

Start of instruction setTo use the Batch RPC Server with C

  1. Make sure that all target server programs called as RPC servers

  2. Configure the parameter marshalling for C, for example:

    marshalling=C

See Scenario III: Writing a New C Server.

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Starting the RPC Server

Start of instruction setTo start the BS2000/OSD Batch RPC Server

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Stopping the RPC Server

Start of instruction setTo stop the BS2000/OSD Batch RPC Server using System Management Hub

Start of instruction setTo stop the BS2000/OSD Batch RPC Server from a privileged user ID

Start of instruction setTo stop the BS2000/OSD Batch RPC Server from an operator console

Start of instruction setTo stop the BS2000/OSD Batch RPC Server from a non-privileged user ID

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Activating Tracing for the RPC Server

Start of instruction setTo switch on tracing for the RPC server

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