Administering the RPC-ACI Bridge

The EntireX RPC-ACI Bridge allows standard RPC clients to communicate with an ACI server. The RPC-ACI Bridge transforms RPC requests from clients into ACI messages.


Customizing the RPC Server

The following elements are used to set up the RPC-ACI Bridge:

Configuration File

The default name of the configuration file is entirex.rpcacibridge.properties. The RPC-ACI Bridge searches for this file in the current working directory.

You can set the name of the configuration file with -Dentirex.server.properties=<your file name> with "/" as file separator.

The configuration file contains the configuration for both parts of the RPC-ACI Bridge.

graphics/conf_aci.png

Configuring more than one RPC-ACI Bridge

If you configure more than one RPC-ACI Bridge that connect to the same EntireX Broker, the following items must be distinct:

  • The user for the ACI client side (property entirex.rpcacibridge.userid).

  • The trace output file (property entirex.server.logfile).

  • The log for the Windows Service (property entirex.server.serverlog).

Start Script

The start script for the RPC-ACI Bridge is called jrpcacibridge.bsh (UNIX) or jrpcacibridge.bat (Windows) and is provided in the bin folder of the installation directory. You may customize this file. The RPC-ACI Bridge itself is contained in the file entirex.jar.

Configuring the RPC Server Side

The RPC-ACI Bridge uses the properties that start with "entirex.server" for configuring the RPC server side.

Alternatively to the properties, you can use the command-line options. These have a higher priority than the properties set as Java system properties, and these have higher priority than the properties in the configuration file.

Property Name Command-line Option Default Explanation
entirex.server.brokerid -broker localhost Broker ID. graphics/toc_closed.png More info
entirex.server.codepage -codepage   Specify the encoding which corresponds to the ACI server the RPC-ACI Bridge is talking to. The codepage is used for both sides of the communication: When communicating as an RPC server to receive incoming requests from RPC clients and as ACI client to transfer them to the ACI server.

Enable character conversion in the broker by setting the service-specific attribute CONVERSION to "SAGTRPC". See also Configuring ICU Conversion under z/OS | UNIX | Windows | BS2000. More information can be found under Internationalization with EntireX.

entirex.server.compresslevel -compresslevel 0 (no compression) Enter the text or the numeric value:
BEST_COMPRESSION  9
BEST_SPEED  1
DEFAULT_COMPRESSION
  (mapped to
-1
 6)
DEFLATED  8
NO_COMPRESSION  0
N  0
Y  8
graphics/toc_closed.png More info
entirex.server.fixedservers   no
NO The number of worker threads balances between what is specified in entirex.server.minservers and what is specified in entirex.server.maxservers. This is done by a so-called attach thread. At startup, the number of worker threads is the number specified in entirex.server.minservers. A new worker thread starts if the broker has more requests than there are worker threads waiting. If more than the number specified in entirex.server.minservers are waiting for requests, a worker thread stops if its receive call times out. The timeout period is configured with entirex.server.waitserver.
See worker model DYNAMIC.
YES The number of worker threads specified in entirex.server.minservers is started and the server can process this number of parallel requests.
See worker model FIXED.
  -help   Display usage of the command-line parameters.
entirex.server.logfile -logfile standard output Name of the log file.
entirex.server.minservers   1 Minimum number of server threads.
entirex.server.maxservers   32 Maximum number of server threads.
entirex.server.name     Server name.
entirex.server.password -password yes The password for secured access to the broker. The password is encrypted and written to the property entirex.server.password.e.
  • To change the password, set the new password in the properties file.

  • To disable password encryption, set entirex.server.passwordencrypt=no. Default=yes.

entirex.server.properties -propertyfile entirex.rpcacibridge.properties The name of the property file.
entirex.server.restartcycles -restartcycles 15 Number of restart attempts if the Broker is not available. This can be used to keep the RPC-ACI Bridge running while the Broker is down for a short time.
entirex.server.security -security no Valid values:
no | yes | auto | name of BrokerSecurity object.
entirex.server.serveraddress -server RPC/SRV1/CALLNAT Server address.
entirex.server.serverlog -serverlog   Name of the file where start and stop of the worker threads is logged. Used by the Windows RPC Service.
entirex.server.userid -user JavaServer The user ID for access to the broker.
entirex.server.waitattach   600S Wait timeout for the attach server thread.
entirex.server.waitserver   300S Wait timeout for the worker threads.
entirex.timeout -timeout 20 TCP/IP transport timeout. graphics/toc_closed.png More info
entirex.trace -trace 0 Trace level. graphics/toc_closed.png More info
0 No tracing, default.
1 Trace all broker calls and other major actions.
2 Dump the send and receive buffer.
3 Dump the buffers sent to the broker and received from the broker.

Configuring the ACI Client Side

These properties are used to configure the connection to the Broker for ACI.

Alternatively, you can use the command-line option. The command-line options have a higher priority than the properties set as Java system properties and these have higher priority than the properties in the configuration file

Name Command-line Option Default Value Explanation
entirex.rpcacibridge.brokerid -acibroker localhost Broker ID of the Broker for ACI. See URL-style Broker ID.
entirex.rpcacibridge.compresslevel -acicompresslevel 0 (no compression)
Enter the text or the numeric value:
BEST_COMPRESSION  9
BEST_SPEED  1
DEFAULT_COMPRESSION
  (mapped to
-1
 6)
DEFLATED  8
NO_COMPRESSION  0
N  0
Y  8
entirex.rpcacibridge.marshalling -acimarshalling   This is for arrays of groups. Set this property to "cobol" if the ACI server is a COBOL program. Set this property to "natural" if the ACI server is a Natural program.
entirex.rpcacibridge.password -acipassword   The password of the Broker for ACI. The password is encrypted and written to the property entirex.server.password.e.
To change the password, set the new password in the properties file (default is entirex.rpcacibridge.properties).
To disable password encryption set entirex.server.passwordencrypt=no.
Default: yes.
entirex.rpcacibridge.security -acisecurity auto no/yes/auto/Name of BrokerSecurity object.
entirex.rpcacibridge.serveraddress -aciserver ACLASS/ASERVER/ ASERVICE Server Address for the Broker for ACI.
entirex.rpcacibridge.userid -aciuser Value of system property user.name. The user ID of the Broker for ACI. Use different user IDs for different RPC-ACI Bridges on the same Broker.
entirex.rpcacibridge.waittime   60S The wait time for receive requests. Permitted values are nS|nM|nH, where n is the number of seconds or minutes or hours.

Starting the RPC-ACI Bridge

Start of instruction setTo start the RPC-ACI Bridge

Stopping the RPC-ACI Bridge

Start of instruction setTo stop the RPC-ACI Bridge

Using SSL/TLS with the RPC-ACI Bridge

To use SSL with RPC-ACI Bridge, you need to configure two sides, the RPC server side and the ACI client side.

  • For the ACI client side
    ACI applications can use Secure Sockets Layer/Transport Layer Security (SSL/TLS) as the transport medium. The term "SSL" in this section refers to both SSL and TLS. ACI-based clients or servers are always SSL clients. The SSL server can be either the EntireX Broker or the Broker SSL Agent. For an introduction see SSL/TLS, HTTP(S), and Certificates with EntireX in the platform-independent Administration documentation.

  • For the RPC server side
    The same is true for the RPC server side. Additionally, Direct RPC in webMethods Integration Server (IS inbound) can be used as the SSL server.

Start of instruction setTo set up SSL

  1. To operate with SSL, certificates need to be provided and maintained. Depending on the platform, Software AG provides default certificates, but we strongly recommend that you create your own. See SSL/TLS Sample Certificates Delivered with EntireX in the EntireX Security documentation.

  2. Set up the ACI side and RPC side for an SSL connection.

    For both sides, use the URL-style Broker ID with protocol ssl:// for the Broker ID. If no port number is specified, port 1958 is used as default. Example:

    ssl://localhost:22101?trust_store=C:\SoftwareAG\EntireX\etc\ExxCACert.jks&verify_server=no

    If the SSL client checks the validity of the SSL server only, this is known as one-way SSL. The mandatory trust_store parameter specifies the file name of a keystore that must contain the list of trusted certificate authorities for the certificate of the SSL server. By default a check is made that the certificate of the SSL server is issued for the hostname specified in the Broker ID. The common name of the subject entry in the server's certificate is checked against the hostname. If they do not match, the connection will be refused. You can disable this check with SSL parameter verify_server=no.

    If the SSL server additionally checks the identity of the SSL client, this is known as two-way SSL. In this case the SSL server requests a client certificate (the parameter verify_client=yes is defined in the configuration of the SSL server). Two additional SSL parameters must be specified on the SSL client side: key_store and key_passwd. This keystore must contain the private key of the SSL client. The password that protects the private key is specified with key_passwd.

    The ampersand (&) character cannot appear in the password.

    SSL parameters are separated by ampersand (&). See also SSL/TLS Parameters for SSL Clients.

  3. Make sure the SSL server to which the ACI side connects is prepared for SSL connections as well. The SSL server can be EntireX Broker or Broker SSL Agent. See:

  4. Make sure the SSL server to which the RPC side connects is prepared for SSL connections as well. The SSL server can be EntireX Broker, Broker SSL Agent, or Direct RPC in webMethods Integration Server (IS inbound). See:

Running the RPC-ACI Bridge as a Windows Service

For general information see Running an EntireX RPC Server as a Windows Service in the Windows Administration documentation.

Start of instruction setTo run the RPC-ACI Bridge as a Windows Service

  1. Customize the Start Script according to your system installation.

    Note:
    The script must pass external parameters to the RPC server and use the reduced signaling of the JVM (option -Xrs):

    java -Xrs com.softwareag.entirex.rpcacibridge.RPCACIBridge %*

    If -Xrs is not used, the JVM stops and an entry 10164002 is written to the event log when the user logs off from Windows.

    See also Starting the RPC Server.

  2. Test your RPC server to see whether it will start if you run your script file.

  3. Use the EntireX RPC Service Tool and install the RPCService with some meaningful extension, for example MyServer. If your Start Script is jrpcacibridge.bat, the command will be

    RPCService -install -ext MyServer -script install_path\EntireX\bin\jrpcacibridge.bat

    The log file will be called RPCservice_MyServer.log.

  4. In Windows Services menu (Control Panel > Administrative Tools > Services) select the service: Software AG EntireX RPC Service [MyServer] and change the property Startup Type from "Manual" to "Automatic".

Application Identification

The application identification is sent from the RPC-ACI Bridge to the Broker. It is visible with Broker Command and Info Services.

The identification consists of four parts: name, node, type, and version. These four parts are sent with each Broker call and are visible in the trace information.

For the RPC-ACI Bridge these values are:

Application name: ANAME=RPC-ACI Bridge
Node name: ANODE=<host name>
Application type: ATYPE=Java
Version: AVERS=10.7.0.0