To set up a Natural RPC environment, you must perform the steps described below for all client Naturals and server Naturals and read the platform-specific notes and considerations.
Unless otherwise noted, this instruction applies to all environments.
To set up a Natural client, perform the following steps:
Use the Service
Directory Maintenance function of the
SYSRPC
utility
to define the name of the server to be used for each
CALLNAT
statement to
be executed remotely.
For details and example screens, refer to Invoking
Service Directory Maintenance (in the SYSRPC
utility
documentation).
The generated directory subprogram NATCLTGS
must be made
available to the Natural client application. If you have not generated
NATCLTGS
in your client library, move NATCLTGS
to
this library or to one of the steplibs.
Optionally, you can use one of the following server selection techniques:
See Specifying a Default
Server Address within a Natural Session, or
profile parameter DFS
.
See Using a
Remote Directory Server, or profile
parameter
RDS
.
Note for Windows, UNIX and OpenVMS Environments:
Predict servers are not maintained in the SYSRPC
utility.
For information on how to connect to a Predict server, see the profile
parameter USEDIC
or the
Dictionary Server
Assignments function in the Global Configuration File.
This step applies only if you do not want to or cannot work with automatic Natural RPC execution (see Operating a Natural RPC Environment, Working with Automatic Natural RPC Execution).
For each CALLNAT
statement to be executed remotely, use
the Interface Object Generation function of the
SYSRPC
utility;
see Creating
Interface Objects.
Note that the generated interface object must be made available to the Natural client environment. If you did not generate the interface object in your client library, move the interface object to this library or to one of the steplibs.
Set the Natural profile parameters which are relevant to the client-specific handling of remote procedure calls.
Parameter | Function |
---|---|
MAXBUFF |
Maximum buffer size (for automatic RPC execution only) |
RPCSIZE |
Size of buffer used by Natural RPC (for mainframe clients only) |
Parameter | Function |
---|---|
ACIVERS |
Define ACI version for use with EntireX Broker ACI |
AUTORPC |
Automatic Natural RPC execution |
COMPR |
Set RPC buffer compression
See also Operating a Natural RPC Environment, Using Compression. |
CPRPC |
Define code page name |
DFS |
Specify RPC client's default server address |
RDS |
Define remote directory server |
RPCSDIR |
Specify name of Natural library in which the Service Directory is located (for mainframe, UNIX and OpenVMS servers only) |
TIMEOUT |
Wait time for RPC server response |
TRYALT |
Try alternative server address |
The following notes apply to the use of the EntireX Broker.
Notes:
DFS
parameter must
identify an active EntireX Broker and must match a server definition in the
EntireX Broker Attribute File, see
Setting Up
an EntireX Broker Environment.
TIMEOUT
is used to
set the WAIT
field of the EntireX Broker ACI. If
TIMEOUT
is set to zero, WAIT=YES
is set and
the client will wait for the CLIENT-NONACT
time. If the wait time
has elapsed, the remote procedure call is terminated with a corresponding error
message. The use of TIMEOUT
enables you to take
advantage of the transport timeout mechanism provided by the EntireX Broker
stubs.
A Natural server is a Natural task (server task) that can execute Natural subprograms (services). This Natural task is typically an asynchronous or background task (detached process). The EntireX Broker and the client identify it by using a nodename and a servername.
To set up a Natural server perform the steps described below:
Set the platform-dependent Natural parameters which are relevant to the general and server-specific handling of remote procedure calls for the server Natural.
Create an RPC-specific Natural parameter module.
Set the keyword subparameters of profile parameter
RPC
or parameter macro
NTRPC
(see table below) as
desired.
Create an RPC-specific Natural parameter file.
Set the Natural profile parameters (see table below) as desired.
Parameter | Function |
---|---|
MAXBUFF |
Maximum buffer size |
RPCSIZE |
Size of buffer used by Natural RPC (for mainframe servers only) |
SERVER |
Start Natural session as an RPC server session |
SRVNAME |
Name of RPC server; see Note for EntireX Broker below. |
SRVNODE |
Name of node; see Note for EntireX Broker below. |
Parameter | Function |
---|---|
ACIVERS |
Define ACI version for use with EntireX Broker ACI |
CPRPC |
Define code page name |
LOGONRQ |
Logon for RPC server request required |
NTASKS |
Minimum and maximum of the number or server replicas (for mainframe servers only) |
SRVCMIT |
Time at which a Natural RPC server automatically commits an RPC conversation or a non-conversational RPC request |
SRVRTRY |
Number of attempts for an RPC
server to connect/reconnect (REGISTER ) to an EntireX Broker that
is not active, and the wait time between two successive attempts.
|
SRVTERM |
Server termination event |
SRVUSER |
User ID for RPC server registry |
SRVWAIT |
Wait time of RPC server for client request |
TRACE |
Define trace level for Natural RPC servers |
TRANSP |
Server transport protocol (no longer required) |
The following notes apply to the use of the EntireX Broker.
Notes:
SRVNODE
must identify an
active EntireX Broker and the name specified with
SRVNAME
must match a server definition in the EntireX
Broker Attribute File, see
Setting Up
an EntireX Broker Environment.
SRVWAIT
parameter is used to set the WAIT
field of the EntireX Broker ACI.
If SRVWAIT
is not specified or set to zero,
WAIT=YES
is set, and the server will wait for the
SERVER-NONACT
time. If the wait time has elapsed, a corresponding
message is written to the RPC server trace file, and the RPC server continues
to wait for the next client request. The use of the
SRVWAIT
parameter enables you to take advantage of the
transport timeout mechanism provided by the EntireX Broker stubs.
TS
) command of the
Server
Command Execution function of the SYSRPC
utility, or use the application programming interface
USR2075N
, or
use the the System Management Hub for EntireX.
To ensure that your Natural server session will enter command mode
disable Natural menu mode by setting the Natural profile parameter
MENU
=OFF
(applies
to mainframe servers only).
Do not:
|
Ensure that the Adabas ETID
used by the Natural server
session is unique within a certain Adabas nucleus.
To start a Natural server, proceed as described in the section Starting a Natural RPC Server.
This server then waits for remote CALLNAT
requests from a
client.
Note for Natural in Batch Mode on z/OS or on z/VSE:
For information about servers using the keyword subparameter
NTASKS
of profile
parameter RPC
or parameter macro
NTRPC
, refer to
Considerations
for Mainframe Natural RPC Servers with Replicas.
To set up an EntireX Broker interface, perform the steps described below:
Make the EntireX Broker stub accessible to your Natural environment. This step depends on the platform used.
Link the EntireX Broker stub NATETB23
to your Natural or
specify the profile parameter RCA
=BROKER
to load
NATETB23
dynamically at run-time.
In the following cases NATETB23
cannot be used and you
must use a different Broker stub:
If you want to use the TCP/IP protocol under BS2000/OSD, you must
use BKIMBTIA
instead.
If you want to use impersonation in z/OS batch mode, you must use
BKIMBTSO
instead.
If you want to use impersonation under CICS, you must use
CICSETB
instead.
Note:
You must link CICSETB
to your Natural CICS
interface nucleus.
To load BKIMBTIA
or BKIMBTSO
dynamically at
run-time, specify RCA
=BROKER
RCALIAS=(BROKER,stubname)
.
It is currently not possible to load CICSETB
dynamically
at run-time.
Refer to the EntireX Communicator documentation for further details.
Copy the Natural-specific broker stub natetb.so
/
natetb.sl
from the directory $EXXDIR/$EXX/VERS/lib
to
the directory specified with NATEXTLIB
in the Local Configuration
File NATURAL.INI.
The EntireX Broker stub is made available automatically in the course of the EntireX installation.
Set the profile parameter ACIVERS
according to your requirements.
Note:
The ACIVERS
value set in the Natural
parameter module (mainframe) or parameter file (Windows, UNIX or OpenVMS) can
only work if also the EntireX Broker and the EntireX Broker stub support this
version.
The table below contains only those ACIVERS
values which are associated with a feature that is relevant for the Natural
RPC.
Setting | Function |
---|---|
ACIVERS=2 |
(Default) Support of the EntireX Broker functions
The server performs a This does not imply any security checks, but it is a pure EntireX
Broker management function, see EntireX Broker function |
ACIVERS=3 |
Support of EntireX Broker non-numeric conversation IDs and data volume > 30 KB. When If a Natural client issues an Therefore, make sure that both the Natural client and the server support the corresponding ACI version. In addition, with EntireX Broker ACI Version 3 or higher, the data volume which can be exchanged between client and server in a single request may exceed 30 KB if transport method TCP/IP is used. Notes:
|
ACIVERS=4 |
Support of code pages and (for servers only) Natural Security. With EntireX Broker ACI Version 4 or higher, the Natural RPC
supports code pages. For this, the name of the code page can be specified in
the profile parameter The evaluation of the code page is done by the EntireX Broker. The EntireX Broker translates the RPC data sent according to the code page of client and server to the corresponding target code page. The profile parameter The server is enabled to logon to the EntireX Broker using a qualified user ID. If the profile parameter |
ACIVERS=6 |
Support of EntireX Encryption ( With EntireX Broker ACI Version 6 or higher, the application
programming interface |
ACIVERS=7 |
Support of EntireX compression (COMPRESSLEVEL ).
With EntireX Broker ACI Version 7 or higher, the application
programming interface |
ACIVERS=8 |
Support of EntireX Security without stub exits (mainframe
only).
With EntireX Broker ACI Version 8 or higher, the Natural RPC
server issues a |
ACIVERS=9 |
Support of EntireX application identification of the client and
server environment and (for servers only) of the Integrated Authentication
Framework (IAF).
With EntireX Broker ACI Version 9 or higher, the EntireX Broker stubs send environmental information about client and server (for example, job name) to the EntireX Broker. With EntireX Broker ACI Version 9 or higher, the Natural RPC server can optionally use IAF for client authentication. For details, refer to the current EntireX documentation. |
If TCP/IP is used as transport method and you use a host name to address the server node, you have the following alternatives:
Define the server node in the Hosts and Services Directory of your TCP/IP installation.
Use a Domain Name System (DNS) for domain name resolution.
In the EntireX Broker Attribute File, add the following:
For each Natural RPC server, a service definition must be specified as follows:
CLASS=RPC, SERVICE=CALLNAT,
SERVER=servername
.
If you want to use the conversion services, set
CONVERSION=userexit
. In this case, you
must set the profile parameter CPRPC
accordingly.
If you want to use the reliable RPC, additional settings are required for each Natural RPC server that should support reliable RPC:
The EntireX Broker attribute MAX-UOWS
must be set to
value greater zero.
The EntireX Broker attribute DEFERRED
must be set to YES
if the client should be able to send reliable
RPC messages to an RPC server that is known to the EntireX Broker but has not
yet been started.
The EntireX Broker attribute STORE
must
be set to BROKER
if recovery of reliable RPC messages after a
system failure should be possible. In addition, the EntireX Broker persistent
store must be enabled.
The lifetime of the reliable RPC message itself (EntireX Broker
attribute UWTIME
) and the lifetime of its status
(EntireX Broker attribute UWSTAT-LIFETIME
) must
be adapted to your needs.
Note:
If AUTOLOGON=NO
or SECURITY=YES
is set in
the EntireX Attribute File, you must set ACIVERS=2
or
higher.