This document describes how to configure a Natural Web I/O Interface server.
The following topics are covered:
The following topics are covered:
A Natural Web I/O Interface server requires the following z/OS language environment parameter configuration:
Parameter | Definition | |
---|---|---|
POSIX(ON) |
Enables a Natural Web I/O Interface server to
access the POSIX functionality of z/OS. If you start a Natural Web I/O Interface
server server with POSIX(OFF) , it terminates immediately with a
user abend U4093 and the system message
EDC5167. IBM supplies the default
"OFF".
|
|
TRAP(ON,NOSPIE) |
Defines the abend handling of the LE/370 environment: | |
ON |
Enables the Language Environment condition handler. | |
NOSPIE |
Specifies that the Language Environment will handle program interrupts and abends via an ESTAE, that is, the Natural abend handler will receive control to handle program interrupts and abends. | |
If you do not specify
TRAP(ON,NOSPIE) , the Natural abend handling does not work
properly. IBM supplies the default (ON,SPIE ).
|
||
TERMTHDACT(UADUMP) |
Defines the level of information that is
produced in case of an abend. The option UADUMP generates a
Language Environment CEEDUMP and system dump of the user address
space. The CEEDUMP does not contain the Natural relevant storage
areas. IBM supplies the default (TRACE ).
|
|
ENVAR(TZ=…) |
The ENVAR option enables you to
set Linux environment variables. The only environment variable applicable for
the Natural Web I/O Interface server is TZ (time zone). This
variable allows you to adjust the timestamp within the Natural Web I/O Interface
server's trace file to your local time.
Example: ENVAR(TZ=CET-1DST) CET - 1 hour daylight saving time |
You can set the z/OS language environment parameters:
With the PARM
parameter specified in the EXEC
card of the Natural Web I/O Interface server startup job. The length of the options
is limited by the maximum length of the PARM
parameter.
Assemble an LE/370 runtime option module CEEUOPT
and link it to the
Natural Web I/O Interface server load module.
If you configure the Web I/O Interface server to impersonate the Web I/O Interface
clients in the server (Web I/O Interface server configuration parameter SECURITY_MODE
=IMPERSONATE or
IMPERSONATE_LOCAL
), the Web I/O Interface server must run
"program-controlled". Under RACF, the following definitions are required
for the Web I/O Interface server:
The resource BPX.SERVER
must be defined and the Web I/O Interface
server account must have READ access to this resource.
The LOAD
data sets defined in the Web I/O Interface server startup job
definition must be defined to the program class "**".
ralt program ** addmem('natural load library') uacc(read) ralt program ** addmem('NWO load library'//NOPADCHK) uacc(read) ralt program ** addmem('user load library'//NOPADCHK) uacc(read)
SETR WHEN(PROGRAM) REFRESH
Additionally, each client connecting to the server must be defined in RACF and must be granted to use the z/OS Linux System Services.
SSL support for the Natural Web I/O Interface server is based on the z/OS Communication Server component AT-TLS (Application Transparent-Transport Layer Security).
AT-TLS provides TLS/SSL encryption as a configurable service for sockets applications. It is realized as an additional layer on top of the TCP/IP protocol stack, which exploits the SSL functionality in nearly or even fully transparent mode to sockets applications. AT-TLS offers three modes of operation. See z/OS Communications Server, IP Programmer’s Guide and Reference. Version 1, Release 9, Chapter 15, IBM manual SC31-8787-09.
These modes are:
The sockets application runs without modification in transparent mode, unaware of performing encrypted communication via AT-TLS. Thus legacy applications can run in secured mode without source code modification.
The application is aware of running in secured mode and is able to query TLS status information.
The sockets application is aware of AT-TLS and controls the use of AT-TLS encryption services itself. This means, the application is able to switch between secured and non secured communication.
Natural Web I/O Interface server uses the Basic mode for its SSL implementation. That is, a server configured as SSL server rejects requests from non-secured clients.
Certificates, which are to be used with AT-TLS, can be maintained in two ways under z/OS. They are stored either in RACF key rings or in key databases, which are located in the z/OS Linux file system. Which of these proceedings actually applies is defined in the AT-TLS Policy Agent Configuration file for the z/OS TCP/IP stack, which is used by the Natural HTTPS client.
IBM delivers a set of commonly used CA root certificates with each z/OS system delivery. If key rings are going to be used to hold server certificates, those root certificates must be manually imported into the key rings by the system administrator. If IBM delivers newer replacements for expired root certificates, all affected key rings have to be updated accordingly.
Unlike key rings, key databases contain the current set of root certificates automatically after they have been newly created. However, the need for maintaining always the latest set of root certificates applies to the key database alternative as well.
In RACF, digital certificates are stored in so-called key rings. The RACF command
RACDCERT
is used to create and maintain key rings and
certificates, which are contained in those key rings.
See z/OS Security Server RACF Security Administrator’s Guide, IBM manual SA22-7683-11, and z/OS Security Server RACF Command Language Reference, IBM manual SA22-7687-11.
Alternatively to RACF, certificates can be kept in key databases, which reside in the
z/OS Linux services file system. For the creation and maintenance of key databases,
the GSKKYMAN
utility has to be used.
See z/OS Cryptographic Services PKI Services Guide and Reference, IBM manual SA22-7693-10.
Proceed as follows:
In the TCP/IP configuration file, set the option TTLS
in the
TCPCONFIG
statement.
Configure and start the AT-TLS Policy Agent. This agent is called by TCP/IP on each new TCP connection to check if the connection is SSL.
Create the Policy Agent file containing the AT-TLS rules. The Policy Agent file contains the rules to stipulate which connection is SSL.
See also z/OS Communications Server: IP Configuration Guide, Chapter 18 Application Transparent Transport Layer Security (AT-TLS) data protection.
The Sample Policy Agent file defines the server with the job name starting with
NWODEV
and listening at port 4843 to use SSL.
The sample expects the certificate database on the HFS file /u/admin/CERT.kdb.
TTLSRule ConnRule01~1 { LocalAddrSetRef addr1 RemoteAddrSetRef addr1 LocalPortRangeRef portR1 RemotePortRangeRef portR2 Jobname NWODEV* Direction Inbound Priority 255 TTLSGroupActionRef gAct1~NWO_Server TTLSEnvironmentActionRef eAct1~NWO_Server TTLSConnectionActionRef cAct1~NWO_Server } TTLSGroupAction gAct1~NWO_Server { TTLSEnabled On } TTLSEnvironmentAction eAct1~NWO_Server { HandshakeRole Server EnvironmentUserInstance 0 TTLSKeyringParmsRef keyR1 } TTLSConnectionAction cAct1~NWO_Server { HandshakeRole Server TTLSCipherParmsRef cipher1~AT-TLS__Silver TTLSConnectionAdvancedParmsRef cAdv1~NWO_Server } TTLSConnectionAdvancedParms cAdv1~NWO_Server { CertificateLabel NDV_TEST_CERT } TTLSKeyringParms keyR1 { Keyring /u/admin/CERT.kdb KeyringStashFile /u/admin/CERT.sth } TTLSCipherParms cipher1~AT-TLS__Silver { V3CipherSuites TLS_RSA_WITH_DES_CBC_SHA V3CipherSuites TLS_RSA_WITH_3DES_EDE_CBC_SHA V3CipherSuites TLS_RSA_WITH_AES_128_CBC_SHA } IpAddrSet addr1 { Prefix 0.0.0.0/0 } PortRange portR1 { Port 4843 } PortRange portR2 { Port 1024-65535 }
Check Policy-Agent job output JESMSGLG
for:
EZZ8771I PAGENT CONFIG POLICY PROCESSING COMPLETE FOR <your TCP/IP address space>: TTLS
This message indicates a successful initialization.
Check Policy-Agent job output JESMSGLG
for:
EZZ8438I PAGENT POLICY DEFINITIONS CONTAIN ERRORS FOR <your TCP/IP address space>: TTLS
This message indicates errors in the configuration file. Check the syslog.log file for further information.
Does the configuration rule cover the server?
Try to connect the server and check syslog.log for:
EZD1281I TTLS Map CONNID: 00018BED LOCAL: 10.20.91.61..4843 REMOTE: 10.20.160.47..4889 JOBNAME: NWODEVvr USERID: NWOSRV TYPE: InBound STATUS: Enabled RULE: ConnRule01~1 ACTIONS: gAct1 eAct1~NWO_Server cAct1~NWO_Server
The above entry indicates that the connection to Port 4843 is SSL enabled.
See also z/OS V1R8.0 Comm Svr: IP Diagnosis Guide: 3.23, Chapter 29 Diagnosing Application Transparent Transport Layer Security (AT-TLS)
See Comm Svr: IP Configuration Reference, Chapter 20 Syslog deamon and Comm Svr: IP Configuration Guide, Chapter 1.5.1 Configuring the syslog daemon (syslogd)
Find return code RC and corresponding GSK_
function name in P-agent
trace.
See System SSL Programming and locate the RC in Chapter 12.1 SSL Function Return Codes.
Sample trace with trace=255
:
EZD1281I TTLS Map CONNID: 00002909 LOCAL: 10.20.91.61..1751 REMOTE: 10.20.91.117..443 JOBNAME: KSP USERID: KSP TYPE: OutBound STATUS: A EZD1283I TTLS Event GRPID: 00000003 ENVID: 00000000 CONNID: 00002909 RC: 0 Connection Init EZD1282I TTLS Start GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 Initial Handshake ACTIONS: gAct1 eAct1 AllUsersAsClient HS-Client EZD1284I TTLS Flow GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 RC: 0 Call GSK_SECURE_SOCKET_OPEN - 7EE4F718 EZD1284I TTLS Flow GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 RC: 0 Set GSK_SESSION_TYPE - CLIENT EZD1284I TTLS Flow GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 RC: 0 Set GSK_V3_CIPHER_SPECS - 090A2F EZD1284I TTLS Flow GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 RC: 0 Set GSK_FD - 00002909 EZD1284I TTLS Flow GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 RC: 0 Set GSK_USER_DATA - 7EEE9B50 EZD1284I TTLS Flow GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 RC: 435 Call GSK_SECURE_SOCKET_INIT - 7EE4F718 EZD1283I TTLS Event GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 RC: 435 Initial Handshake 00000000 7EEE8118 EZD1286I TTLS Error GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 JOBNAME: KSP USERID: KSP RULE: ConnRule01 RC: 435 Initial Handshake EZD1283I TTLS Event GRPID: 00000003 ENVID: 00000002 CONNID: 00002909 RC: 0 Connection Close 00000000 7EEE8118
Under z/OS, SSL certificates can be produced with the Linux System Services utility
GSKKYMAN
. The following steps have to be executed for the production of
a new certificate, which is to be used for the SSL secured communication between
Natural Web I/O Interface client and server:
Start a shell session out of TSO or connect via telnet to the z/OS Linux shell.
Start GSKKYMAN
.
Create a new – or open an existing key database.
Create a self-signed certficate, for example, of type "User or server certificate with 2048-bit RSA key".
Export the certificate to a (HFS) file. Choose Base64 ASN.1 DER as export format.
This generated file can now be copied to the Natural Web I/O Interface client(s) using FTP with ASCII transfer format. On the client side, the received file should be stored with the file name suffix .CER. The certificate can now be used by the Natural Web I/O Interface client.
If certificates are kept in a RACF key ring, the generated certificate has to be
imported into the appropriate key ring using the RADCERT
command.
Certificates, which are produced on a different platform, for example, on a Windows PC, can be imported into a RACF key ring or into a key database as well.
Detailed information about the use of the GSKKYMAN
utility can be found
in the IBM Communications server documentation, e.g in the following manuals:
z/OS Communications Server IP Configuration Guide Version 1 Release 2 (IBM manual SC31-8775-01
or
z/OS Communications Server Cryptographic Services System Secure Sockets Layer Programming (IBM manual SC24-5901-04).
For the generation of certificates under Windows, a free downloadable utility named
Ikeyman is available on several websites. Ikeyman is an IBM product as well and maps
the functionality of GSKKYMAN
to the Windows platform.
A configuration file is allocated to the name
<serverid>
C (for example,
NWOS1C
) or STGCONFG
alternatively.
The configuration file is a text file located on a data set or on an HFS file under z/OS.
The configuration file contains the server configuration parameters in the form of a
keyword=value
syntax. In addition, it may
contain comments whose beginning is marked with a hash symbol (#).
See also the Web I/O Interface Server Configuration File Example shown below.
The following Web I/O Interface server configuration parameters are available:
The current version of NWO presumes to run with the most recent version of Natural. An
error NAT7729 NWO and Natural version do not agree
is issued when running
with older Natural versions. This is because NWO must negotiate a subset of
functionality with the client at a time when the involved Natural version is not already
known.
If you want to run NWO with a previous version of Natural, you can set this parameter
to YES
. It is recommended that you leave this parameter at its default
value if you intend to run your NWO with the most recent version of Natural, because in
this case COMPATIBILITY_MODE=YES
would unnecessarily limit the
functionality.
Value | Explanation |
---|---|
YES |
Accept also older versions of Natural.
Results in a limitation of the functionality documented with the most recent version. |
NO |
Presume to run with the most recent version of Natural. This is the default value. |
Example:
COMPATIBILITY_MODE=YES
This parameter is only available with Natural Web I/O Interface Version 8.3 or above.
This parameter allows you to enforce the use of communication method IPV4.
Value | Explanation |
---|---|
YES |
Enforce the use of communication method IPV4. |
NO |
First try communication method IPV6. If this fails give an error message and use communication method IPV4. This is the default value. |
This configuration parameter specifies the name of the Natural front-end to be used to start a Natural session. The front-end resides on a PDS member.
Value | Explanation |
---|---|
frontend-name |
Natural front-end to be used. Maximum length: 8 characters. |
No default value is provided.
Example:
FRONTEND_NAME=NATvrsSV
The values of this configuration parameter may be used to specify additional options for the Natural front-end.
Value | Explanation |
---|---|
01
|
Do not use the Roll Server. This is the default value. |
02 |
Clean up roll file at server termination. |
04 |
Write GTF trace. |
08 |
Write ETRACE .
|
10 |
Front-end automatic termination. |
20 |
Write console information. |
You may combine the above options as desired in that you add their values and set the result as shown in the example below.
Example:
FRONTEND_OPTIONS=07
The setting in this example enables the Options 01
, 02
and
04
.
This optional configuration parameter contains additional Natural front-end parameters as specified in the Startup Parameter Area.
Value | Explanation |
---|---|
parameter-name
|
You can define multiple parameters. Each parameter specification is a pair
of 8-character strings, the first containing the parameter keyword and the
second the parameter value, for example: FRONTEND_PARAMETER = 'MSGCLASSX ' |
No default value is provided.
For further information, refer to the section Natural in Batch Mode in the Natural Operations for Mainframe documentation.
Example:
FRONTEND_PARAMETER='MSGCLASSX '
The setting in this example specifies that the default output class for
CMPRINT
is "X".
If an abend occurs in the server processing outside the Natural processing the abend is not trapped by the Natural abend handling. For this reason the NWO server has its own abend recovery.
It is recommended that you leave this parameter on its default value in order to limit
the impact of an abend to a single user. If you set the value of this parameter to
NO
, any abend in the server processing terminates the complete server
processing. That is, it affects all users running on that server.
Value | Explanation |
---|---|
YES |
Trap abends in the server processing, write a snap dump and abort the affected user. This is the default value. |
NO |
Suspend the server abend handling. |
Example:
HANDLE_ABEND=NO
This optional configuration parameter is necessary only if the server host supports multiple TCP/IP stacks.
Value | Explanation |
---|---|
host-name |
If HOST_NAME is specified, the server listens on
the particular stack specified by HOST_NAME , otherwise
the server listens on all stacks.
|
No default value is provided.
Example:
HOST_NAME=node1
or
HOST_NAME=157.189.160.55
This configuration parameter defines the password required for some monitor activities (e.g. Terminate Server) performed by the HTML Monitor Client.
Value | Explanation |
---|---|
any character string | The password to be entered at the HTML Monitor Client for some monitor activities. |
No default value is provided.
Example:
HTPMON_ADMIN_PSW=GHAU129B
A Web I/O Interface server can be configured to host an HTTP monitor task which serves the HTML Monitor Client running in a web browser. It is not required to run this monitor task on each server. A single task allows you to monitor all servers running at one node.
This configuration parameter defines the TCP/IP port number under which the server monitor task can be connected from a web browser.
Value | Explanation |
---|---|
1 - 65535 |
TCP/IP port number. |
No default value is provided.
Example:
HTPMON_PORT=3141
This configuration parameter defines the host name of the Web I/O Interface server.
This configuration parameter applies in conjunction with the Web I/O Interface server CICS Adapter.
A Web I/O Interface (NWO) server allocates a so-called "server environment" which contains the server dependent common resources.
This environment is unique for each NWO server and relates to the server name. If an NWO server with Web I/O Interface Server CICS Adapter ends abnormally, it might leave a stuck NWO server environment within the CICS region. This causes that a restart of the server fails with error message NAT9913.
If you start an NWO server with IGNORE_PRESENT_SERVER=YES
, it might damage
an already running server which is using the same server name and the same CICS
region.
Value | Explanation |
---|---|
YES |
Terminate existing CICS server environment. |
NO |
Abort server initialization if a CICS server environment already exist. This is the default value. |
Example:
IGNORE_PRESENT_SERVER=YES
At server initialization, the Natural Web I/O Interface server creates a temporary Natural session to obtain the properties of the installed Natural environment.
This configuration parameter specifies the user ID to be used for this Natural session.
Value | Explanation |
---|---|
userid
|
The specified value must not exceed 8 characters, otherwise it is truncated. |
STARGATE
|
This is the default value. |
Example:
INITIAL_USERID=NWOINITU
See also Web I/O Interface clients must be defined to Natural Security in the operating-system-specific Natural Web I/O Interface server Installation section.
By default, the remote Natural session of a mapped environment terminates its TCB whenever you switch the focus within Natural Studio to a different mapped environment. If you toggle the focus back, the remote session is dispatched using a different TCB.
The maximum number of active TCBs is equal to the number of connected clients.
The configuration parameter KEEP_TCB
specifies whether the
remote Natural session should use the same TCB during its entire lifetime. This is
required if you use Adabas and the Adabas parameter ADANAME
is
set to ADAUSER
or if you want to access DB2. It could also be
required if you access 3GL programs which need to be executed under the same TCB for
successive calls.
Value | Explanation |
---|---|
YES |
The remote Natural session uses the same TCB during its entire lifetime. |
NO
|
This is the default value. |
Example:
KEEP_TCB=YES
Note:
This parameter is only available with Natural Web I/O Interface Version 8.3 or
above.
This parameter allows you to collect server data for Optimize for Infrastructure.
Value | Explanation |
---|---|
YES |
Collect server data for Optimize for Infrastructure. |
NO |
Do not collect server data for Optimize for Infrastructure. This is the default. |
Example:
O4I=YES
This parameter allows you to define whether passwords specified in the connection dialog are translated into upper case or not.
This parameter does only apply with
SECURITY_MODE
=IMPERSONATE, IMPERSONATE_LOCAL
or
IMPERSONATE_REMOTE
.
Value | Explanation |
---|---|
YES |
Passwords remain in mixed case. |
NO |
Passwords are translated into upper case. This is the default. |
Example:
PASSWORD_MIXEDCASE=YES
This configuration parameter defines the TCP/IP port number under which the server can be connected.
Value | Explanation |
---|---|
1 - 65535 |
TCP/IP port number. |
No default value is provided.
Example:
PORT_NUMBER=3140
The Natural Web I/O Interface server offers a security concept that also covers the operating system resources. The client credentials are validated at the operating-system-depending security system and the client request is executed under the client's account data.
Using the SECURITY_MODE
parameter, you can specify at which rank
(in batch mode z/OS or under CICS)
you want to impersonate the activities of a Web I/O Interface client.
Value | Explanation |
---|---|
IMPERSONATE_LOCAL |
Impersonation is done within the Natural Web I/O Interface server environment. If the session is dispatched in a remote TP environment (e.g. in CICS using the NWO CICS Adapter), it is still executed anonymous. The client must be defined in the security system of the Web I/O Interface server. It is not required to define the client in a remote TP environment. See also External Security Configuration. |
IMPERSONATE_REMOTE |
No impersonation is done within the Natural Web I/O Interface server
environment. If the session is dispatched in a remote TP environment, the client
is impersonated. The client must be defined in the security system of the remote
TP environment. See also Web I/O Interface server security exit NATUXRFE and the section Product Interaction
in the Web I/O Interface Server CICS Adapter documentation.
Note: |
IMPERSONATE |
Impersonation is done within the Natural Web I/O Interface server environment and in a remote TP environment. The client must be defined in the security system of the Natural Web I/O Interface server and in the remote TP environment. |
No default value is provided.
Example:
SECURITY_MODE=IMPERSONATE
Write a console message in case of security problems with external security. One line
is written to the console, for example 'Aug-23 16:22:46.77 S0305217 BPXM023I
(INITUSER) SERVERID - Invalid userid specified.
' More information about the
reason can be found in the appropriate trace or error log of the server.
The parameter applies to z/OS Batch servers only.
Value |
Explanation |
---|---|
YES |
Write security message to console. |
NO |
Do not write security message to console. This is the default value. |
SECURITY_SYSLOG=YES
This optional configuration parameter defines session parameters that precede the parameter string specified in the connection dialog of the Natural Web I/O Interface client.
Value | Explanation |
---|---|
parameter-string |
This string may extend across several lines. A + sign at the end of a string line denotes that another line follows. |
No default value is provided.
Example 1:
SESSION_PARAMETER='NUCNAME=NATNUCvr' + 'PROFILE=(NWOPARM,18006,48),ADAMODE=0,' + 'BPI=(TYPE=NAT,SIZE=6044),BPI=(TYPE=EDIT,SIZE=2048)', + 'BPI=(TYPE=SORT,SIZE=1024)'
Example 2:
SESSION_PARAMETER=FNAT=(10,930)
The setting in the second example defines that every session on this Natural Web I/O
Interface server is started with the session parameter
FNAT=(10,930)
appended to the user-specified parameters or the
definitions in the configuration parameter DEFAULT_PROFILE
.
Cancel inactive sessions when the SESSION_TIMEOUT
parameter is
met. Check for sessions inactive longer then n
minutes once a day at HH:MM
(24 hours) or every
n
minutes.
The server will not start if an invalid SESSION_TIMEOUT
parameter is given.
Value | Explanation |
---|---|
|
If format is or If format is a numeric value, check every
|
Examples:
SESSION_TIMEOUT=19:30,480
Every day at 19:30 cancel sessions more than 480 minutes inactive.
SESSION_TIMEOUT=360,480
Every 360 minutes cancel sessions more than 480 minutes inactive.
This configuration parameter specifies the number of physical storage threads to be allocated by the Natural front-end, that is, the number of sessions that can be executed in parallel.
Note:
This parameter is obsolete when the Natural Web I/O Interface Server CICS Adapter or
Natural Web I/O Interface Server IMS Adapter is used.
Value | Explanation |
---|---|
thread-number |
Number of physical storage threads to be allocated.
Note: |
3 | This is the default value. |
Example:
THREAD_NUMBER=5
This configuration parameter specifies the size of each physical storage thread which contains the Natural session data at execution time.
Note:
This parameter is obsolete when the Natural Web I/O Interface Server CICS Adapter or
Natural Web I/O Interface Server IMS Adapter is used.
Value | Explanation |
---|---|
thread-size |
Size (in KB) of each physical storage thread. |
500
|
This is the default value. |
Example:
THREAD_SIZE=800
This optional configuration parameter enables you to restrict the trace by a logical filter in order to reduce the volume of the server trace output, for example:
TRACE_FILTER="Client=(KSP P*)"
Each request of the user ID "KSP" and each request of the user IDs starting with a "P" are traced.
See Trace Filter in the section Operating the Natural Web I/O Interface Server.
Value | Explanation |
---|---|
trace-level |
See Trace Level in the section Operating the Natural Web I/O Interface Server. |
0
|
This is the default value. |
Example:
TRACE_LEVEL=0x00000011
or alternatively
TRACE_LEVEL=31+27
The setting in the example switches on Bits 31 and 27.
This configuration parameter is used to enable or disable the translation of all NWO error messages and trace outputs to uppercase. This feature is for customers who are using character sets with no lowercase characters defined.
Value | Explanation |
---|---|
YES | Enable uppercase translation. |
NO | Disable uppercase translation. This is the default value. |
# This is a comment SESSION_PARAMETER=profile=(stgqa,10,930) fuser=(10,32) CFICU=ON THREAD_NUMBER=2 THREAD_SIZE=700 FRONTEND_NAME=NATOSvrL # and another comment PORT_NUMBER=4811
Where vr
is the current product version and
release number.
The Natural Web I/O Interface server requires the following data sets:
STGCONFG |
Defines the server configuration file. |
STGTRACE |
The server trace output. |
STGSTDO |
The stdo data set. |
STGSTDE |
The stde error output. |
Alternately, you can qualify each data set name by the server ID.
NWOS1C |
Defines the server configuration file for the server NWOS1. |
NWOS1T |
The server trace output for the server NWOS1. |
NWOS1O |
The stdo data set for the server NWOS1. |
NWOS1E
|
The stde error output for the server NWOS1. |
The Natural Web I/O Interface server offers the following user exit:
This user exit is applicable only when the parameter SECURITY_MODE
is set to IMPERSONATE_LOCAL
or
IMPERSONATE
.
This user exit allows you to adapt the user ID used for the RACF login. It is useful if the RACF user IDs and the user IDs used in Natural differ according to a standardized rule. For example, each RACF user ID is the corresponding Natural user ID preceded by two dollar signs ($$).
If the exit (the load module NSECUX01
) is found in the NWO load library
concatenation, it is called using standard linkage conventions (direct branch using a
BASR instruction) before the user is validated against RACF.
The following parameters are passed to the exit:
Name | Format | In/Out | Description |
---|---|---|---|
sUid |
CL64 | I/O | User ID to be modified for RACF login. |
The exit is called using standard linkage conventions.
Sample user exit implemented in C:
#include <string.h> #include <stdio.h> # pragma linkage (NSECUX01, FETCHABLE) void NSECUX01(char sUid[64]) { char sUidTemp[64]; printf("Uex got usid:%s\n", sUid); strcpy(sUidTemp, sUid); sprintf(sUid, "$$%s", sUidTemp); printf("Uex ret usid:%s\n", sUid); return; }
The exit above extends each user ID by two preceding dollar signs ($$) when it is used for RACF login.