This document describes the installation of Adabas on z/OS systems.
The following is an overview of the steps for installing Adabas on a z/OS system.
Important:
Be sure that you apply all supplied Adabas 8 maintenance and
concatenate Adabas 8 patch-level libraries (L00n),
as they are delivered to you. This will ensure that your Adabas 8 code remains
up-to-date, supporting all Adabas 8 features as they are enhanced and
maintained.
| Step | Description | Additional Information |
|---|---|---|
|
Basic Installation
Steps
|
||
| 1 | Allocate DASD space for the Adabas libraries. |
The libraries are restored from the installation tape. Refer to the section Disk Space Requirements for Libraries. |
| 2 | Allocate DASD space for the Adabas database. |
For better performance, distribute the database files over multiple devices and channels. Refer to the section Disk Space Requirements for the Database. |
| 3 | Specify the address space for running the Adabas nucleus. |
Refer to the section Adabas Nucleus Address Space Requirements. |
| 4 | Restore the Adabas libraries from the installation tape. |
Use the tape positioning information that accompanies the tape. Refer to the section Installing the Release Tape. |
| 5 | Install the Adabas SVC temporarily or permanently. |
Refer to the section Initializing the Adabas Communication Environment. |
|
Database Installation
Steps
|
Steps 6-15 require changes to the setup definitions as described in section Installing an Adabas Database. | |
| 6 | Allocate and format the Adabas database with the ADAFRM utility job. | |
| 7 | Define the global database characteristics with the ADADEF utility job. | |
| 8 | Load the demonstration files with the ADALODE, ADALODV, ADALODM, and ADALODP jobs. | |
| 9 | Prepare and install the product license file. | |
| 10 | Customize and start the Adabas nucleus and test the Adabas communications with the appropriate ADANUC job. | |
| 11 | If appropriate, test Adabas address space communications by running ADAREP in MULTI mode with the CPEXLIST parameter. | |
| 12 | If appropriate, load the Adabas Online System (AOS) add-on product into a Natural system file by running the ADAINPL job. Alternatively, install the AOS demo version (see section Installing the AOS Demo Version). | |
| 13 | Terminate the Adabas nucleus with an ADAEND operator command using the OS Modify command F. | |
| 14 | Back up the database by running the ADASAV utility job. | |
| 15 | Insert the ADARUN defaults by running the DEFAULTS job. | |
|
TP Monitor
Installation
|
||
| 16 | Install the required TP link routines for Adabas. | See section Installing Adabas With TP Monitors. |
The following table describes most of the libraries included on the release tape. Once you have unloaded the libraries from the tape, you can change these names as required by your site, but the following lists the names that are delivered when you purchase Adabas for z/OS environments.
| Library Name | Description |
|---|---|
| ACIvrs.LOAD | The load library for the Adabas CICS link routine. The vrs in the library name represents the version of Adabas. |
| ACIvrs.SRCE | The source library for the Adabas CICS link routine. The vrs in the library name represents the version of Adabas. |
| ADAvrs.ECnn | The Adabas library containing character encoding members to support various languages and Unicode. The vrs in the library name represents the version of Adabas. The nn letters in the library name represents a number from "00" to "99", assigned by Software AG. |
| ADAvrs.EMPL | The Employees demo file, containing dummy employee data you can use for testing Adabas. The vrs in the library name represents the version of Adabas. |
| ADAvrs.ERRN | Error messages for the Adabas Triggers and Stored Procedures Facility. These messages can be viewed using the Natural SYSERR utility. The vrs in the library name represents the version of Adabas. |
| ADAvrs.INPL | The code for Adabas Online System, Adabas Caching Facility, Triggers and Stored Procedures Facility, and various add-on demo products. The vrs in the library name represents the version of Adabas. |
| ADAvrs.JOBS | The sample job library for Adabas. The vrs in the library name represents the version of Adabas. |
| ADAvrs.LOAD | The load library for Adabas. The vrs in the library name represents the version of Adabas. |
| ADAvrs.MISC | The Miscellaneous demo file, containing dummy miscellaneous data you can use for testing Adabas. The vrs in the library name represents the version of Adabas. |
| ADAvrs.PERC | The Personnel demo file, containing
uncompressed dummy personnel data you can use for testing Adabas. This demo
file includes fields that make use of the extended and expanded features of
Adabas 8, include large object (LOB) fields. The vrs
in the library name represents the
version
of Adabas.
Note: |
| ADAvrs.SRCE | The source library for Adabas. The
vrs in the library name represents the
version
of Adabas.
For a complete list of the time zones supported by Adabas in any given release, refer to the TZINFO member in this Adabas library. |
| ADAvrs.TZ00 | The time zone library for Adabas. The
vrs in the library name represents the
version
of Adabas. Adabas bases its time zone library on the time zones defined in the
public domain tz database, also known as the
zoneinfo or Olson database.
For a complete list of the time zones supported by Adabas in any given release, refer to the TZINFO member in the Adabas source library (ADAvrs.SRCE). |
| ADAvrs.VEHI | The Vehicles demo file, containing dummy vehicle data you can use for testing Adabas. The vrs in the library name represents the version of Adabas. |
| AIIvrs.LOAD | The load library for the Adabas IMS link routine. The vrs in the library name represents the version of Adabas. |
| AIIvrs.SRCE | The source library for the Adabas IMS link routine. The vrs in the library name represents the version of Adabas. |
| APSvrs.LDnn | One or more Software AG internal libraries. The vrs in the library name represents the version of the internal library code, which is not necessarily the same as the version of Adabas. |
| MLCvrs.JOBS | The sample job library for Software AG's common mainframe license check software. The vrs in the library name represents the version of the license check software, which is not necessarily the same as the version of Adabas. |
| MLCvrs.LOAD | The load library for Software AG's common mainframe license check software. The vrs in the library name represents the version of the license check software, which is not necessarily the same as the version of Adabas. |
| WALvrs.JOBS | The sample job library for Adabas components shared by Adabas and other Software AG products, such as Entire Net-Work. The vrs in the library name represents the version of Adabas. |
| WALvrs.LOAD | The load library for Adabas components shared by Adabas and other Software AG products, such as Entire Net-Work. The vrs in the library name represents the version of Adabas. |
| WALvrs.SRCE | The source library for Adabas components shared by Adabas and other Software AG products, such as Entire Net-Work. The vrs in the library name represents the version of Adabas. |
| WCAvrs.LOAD | The z/OS load library for Entire Net-Work Administration, used by some of the Adabas add-on products. The vrs in the library name represents the version of Entire Net-Work Administration. |
| WCAvrs.SRCE | The z/OS source library for Entire Net-Work Administration, used by some of the Adabas add-on products. The vrs in the library name represents the version of Entire Net-Work Administration. |
The major steps in preparing for Adabas installation are
checking for the correct prerequisite system configuration; and
allocating disk and storage space.
This section covers the following topics:
The minimum 3390 disk space requirements for the Adabas libraries are as follows:
| Library | 3390 Cylinders | 3390 Tracks | Directory Blocks |
|---|---|---|---|
| Load | 19 | 285 | 30 |
| Source | 7 | 105 | 20 |
| JCL | 1 | 15 | 20 |
Note:
You can isolate user programs from the Adabas load library by
creating a separate load library that contains only those modules needed to
execute user programs in multi-user mode and linked with ADAUSER. For this
Adabas version, the modules required by user programs are ADAIOR, ADAIOS,
ADALNK, ADAMLF, ADAPRF, ADARUN.
The Software AG internal product libraries (APS - porting platform) are required if you intend to enable a database for universal encoding service (UES) support. These libraries are delivered separately from the product libraries.
For UES support, the following library must be loaded and included in the STEPLIB concatenation, where nn is the load library level and vrs is the number of the latest version of that code delivered on the tape:
APSvrs.LDnn
If the library with a higher level number is not a full replacement for the lower level load library(s), the library with the higher level must precede those with lower numbers in the STEPLIB concatenation.
Also for UES support, the following library must be loaded and included in the session execution JCL:
ADAvrs.ECnn
For information about setting up connections to UES-enabled databases, see section Enabling Universal Encoding Support (UES) for Your Adabas Nucleus.
The minimum disk space requirements on a 3390 disk for the internal product libraries delivered with this version of Adabas are as follows (where vrs is the latest version of the code delivered on the tape):
| Library | 3390 Cylinders | 3390 Tracks | Directory Blocks |
|---|---|---|---|
| ADAvrs.ECnn | 23 | 345 | 200 |
| APSvrs.LDnn | 6 | 86 | 60 |
The actual database space needed by Adabas depends on user requirements. The minimum 3390 disk space requirements for the database are as follows:
| Database Component | 3390 Cylinders | 3390 Tracks |
|---|---|---|
| ASSOR1 (Associator) | 20 | 300 |
| DATAR1 (Data Storage) | 60 | 900 |
| WORKR1 (Work space) | 15 | 225 |
| TEMPR1 (temporary work space) | 15 | 225 |
| SORTR1 (sort work space) | 15 | 225 |
The typical Adabas nucleus requires at least 800-1024 kilobytes to operate. The size of the nucleus address space may need to be larger, depending on the ADARUN parameter settings. Parameter settings are determined by the user.
This section describes the installation of the Adabas router (ADASVC). The router uses cross-memory services for communication between the Adabas nucleus and the Adabas users.
The Adabas z/OS cross-memory communications service comprises two modules:
the Adabas router (ADASVC); and
the Adabas subsystem initialization routine (ADASIR).
ADASIR, executed either during IPL or by the Adabas SVC installation program (ADASIP), initializes the router’s operating environment, particularly the ID table.
ADASVC installation can be either temporary or permanent:
The Adabas SVC can be installed temporarily by executing ADASIP. The SVC is then available only until the next IPL.
Note:
Once installed, the Adabas SVC can be re-installed
temporarily using the ADASIP REPLACE option. However, no Adabas nucleus can be
active during this procedure.
Note:
It is necessary to cycle CICS after executing ADASIP to
initialize the SVC.
The Adabas SVC is installed permanently using regular operating systems procedures. The SVC then requires an IPL to become active.
Typically, the Adabas SVC is first installed temporarily using ADASIP. This makes Adabas available immediately without the need to wait for an IPL. Meanwhile, preparations are usually made for permanent installation at the next IPL.
Adabas 8 includes a new Adabas SVC. This SVC is fully backward compatible.
However, you cannot use the Adabas SVC from previous Adabas releases with Adabas 8 databases. If you attempt to do this, the Adabas 8 database will not initialize successfully.
With Adabas 8.2 and later versions, the SVC includes performance improvements and improved error recovery routines. Note that the new SVC uses more efficient operating system interfaces, in particular when posting the user at command completion. This shifts work from SRB-mode routines to TCB-mode routines and also between the user's program and the Adabas nucleus. Take this into account when analyzing Adabas 8 SVC performance. With the new SVC, SRB-mode overhead is largely eliminated and TCB-mode overhead is somewhat increased, but the net result is an overall improvement in SVC performance.
The Adabas 8.2 (and later) SVC requires that the Adabas nucleus, as well as other MPM servers (such as Entire Net-Work and the Natural Global Buffer Pool), be authorized to prevent inappropriate use of critical ADASVC functions. This APF authorization prevents unauthorized use of the ADASVC 0-call. Software AG recommends strongly that you run APF-authorized because of the security risks you can incur if you do not. However, upon request, Software AG does have a zap you can apply that eliminates this requirement. To determine what this zap number is, review the ZAPOPT member in the Adabas source library for a zap entitled "Remove requirement for APF authorization". If you choose not to have Adabas in an APF-authorized library, modules ADASIP, ADASIR and ADASVC must be copied to an APF-authorized library. Member JCLAPF in the MVSJOBS dataset has sample JCL that invokes z/OS utility IEBCOPY to copy them.
Note:
Some add-on products require APF authorization to use
restricted z/OS services. APF authorization is still required in these cases.
There are two authorization mechanisms: System Authorization Facility (SAF) and APF authorization. SAF is the z/OS standard interface to security products such as RACF, ACF2, and Top Secret. APF is the z/OS facility that allows programs from designated libraries to access restricted z/OS functions.
The SAF authorization check occurs first. It requests read access
to an entity in the FACILITY class or an alternative class specified via ADASIP
or ADASIR parameters when installing the SVC. ADASIP or
ADASIR parameters when installing the SVC. Refer to the
discussion of ADASIP and
ADASIR
parameters.
ADABAS.SVCsss.IDddddd
The sss is the Adabas SVC number and ddddd is the DBID with leading zeros.
If the nucleus is using Adabas Cluster Services or Adabas Parallel Services, the entity has an additional level:
ADABAS.SVCsss.IDddddd.Nucnnnnn
The nnnnn is the value assigned by the ADARUN NUCID parameter with leading zeros.
The SAF security administrator can assign permissions to entities of this form with a wide range of specificity using a flexible array of patterning and wildcard characters. In general, it should not be necessary to enumerate each possible combination of SVC, DBID, and NUCID.
There are three possible outcomes to the SAF check: permission is explicitly granted, permission is explicitly denied, or the entity may be unknown to SAF. When the entity is unknown, APF authorization is required.
| APF Authorization Status | SAF Allow | SAF Deny | Unknown to SAF |
|---|---|---|---|
| APF authorized | Allow | ABEND U494 | Allow |
| Not APF authorized | Allow | ABEND U494 | ABEND U494 |
Message ADAS33 is issued before any ABEND U494.
APF authorization is still required if your Adabas nucleus configuration needs to use restricted z/OS services. For example, the EXCPVR option and some add-on products such as Adabas Cluster Services and Adabas SAF Security (ADASAF) cannot run without APF authorization. In these cases, ADASVC SAF may be used only to deny permission to initialize.
The ADASAF add-on product can also restrict access to a DBID/SVC combination (but not an Adabas Cluster Services or Adabas Parallel Services nucleus ID). ADASAF uses a different resource class and arranges the subfields in resource entities differently. You may choose to use either SAF mechanism, both, or neither. To maintain their existing behavior, current ADASAF users should not create ADABAS.SVC* resource profiles in the FACILITY class and need not change anything in their existing ADASAV configuration.
APF authorization requires that all libraries in the JOBLIB and STEPLIB concatenations have entries in the z/OS APF list. Systems programming staff typically administer the APF list.
Regardless of the installation procedure selected, an available SVC table entry must be allocated to the Adabas router (ADASVC). SVC table entries are defined in the member IEASVCxx of SYS1.PARMLIB.
The SVC table entry in the operating system for an ADASVC must contain the following information:
| Offset | Label | Description |
|---|---|---|
| 0 | SVCEP | SVC entry point address. |
| 4 | SVCATTR1 |
Must indicate type 2 SVC (flag bit SVCTP2 set—X’80’) or type 3 or 4 SVC (flag bits SVCTP34 set—X’C0’): ADASIR changes a type 1, 5, or 6 SVC to type 2. May indicate that APF-authorization is needed for this SVC (flag bit SVCAPF set—X’08’): if set, all targets and users must be APF-authorized. |
| 6 | SVCLOCKS | Must contain all zeros. ADASIR sets SVCLOCKS to zeros. |
The subsystem name contained in the four-character field SUBSYS at ADASVC offset X’28’ (the default is “ADAB”) must be the same as that specified in the IEFSSNxx member of SYS1.PARMLIB. If the name is not the same, ADASIR ends with an ADAS12 message and condition code 2, and Adabas is not usable.
If the Adabas SVC is to reside in the fixed LPA, add an entry to an IEAFIXxx member of SYS1.PARMLIB.
The Adabas SVC should be initialized with ADASIP/ADASIR in order to guarantee full functioning of all Adabas nuclei.
Sample jobs may be found in the MVSJOBS dataset from the Adabas installation tape.
to perform temporary router installation:
If the Adabas load library is not APF-authorized, customize sample job JCL APF to copy ADASIP, ADASIR and ADASVC into an APF-authorized library as authorized modules.
Execute ADASIP to install the SVC.
Customize and run the job ADASIP to dynamically add the Adabas SVC without an IPL.
Sample jobs may be found in the MVSJOBS dataset from the Adabas installation tape.
to perform permanent router installation:
If the Adabas library is not APF-authorized, customize sample job JCLAPF to copy ADASIP to an APF-authorized library.
Customize job JCLSVC step COPY to copy ADASVC to SYS1.LPALIB (or another library concatenated with it by SYS1.PARMLIB member LPALSTxx). Standard practice is to rename it according to z/OS SVC naming rules. For example, type 3/4 SVCs are named IGC00nnn, where nnn is the SVC number expressed as signed decimal digits. A signed decimal is a number ends in either of the following ways:
When the last digit of the SVC routine's load module name is a number from 1 - 9, specify a name that ends with the EBCDIC character (A-I) that corresponds with the last digit. For example, the name for type 3/4 SVC 249 is IGC0024I.
When the last digit of the SVC routine's load module name is zero, specify for the last character of the name the display representation of hexadecimal C0; in EBCDIC this is the left brace ({) character.
z/OS allows the type 3/4 naming convention to be overridden by the entry in SYS1.PARMLIB member IEASVCxx. The load module name specified in the IEASVCxx entry takes precedence. For example, if you have only one instance of ADASVC in the LPA libraries you may specify that name in IEASVCxx and leave the actual load module name unchanged.
If you wish to associate a subsystem name other than the default ADAB with ADASVC, customize sample job JCLSVC step SUBSYS to invoke IBM utility IMASPZAP to set the desired 4-character subsystem name.
Add a subsystem entry to SYS1.PARMLIB member IEFSSNxx for the subsystem name associated with the SVC. Customize and run the job JCLUPDT to add a new subsystem definition entry in the correct format.
Or:
Make the update with an on-line editor.
Customize sample job JCLSIR to copy ADASIR to SYS1.LINKLIB or a library concatenated with it by SYS1.PARMLIB member LKNLSTxx.
Note:
ADASIR is not reentrant, and therefore should not be
linked into SYS1.LPALIB or a library concatenated with it by SYS1.PARMLIB
member LKNLSTxx.
IPL z/OS with the CLPA option to install and initialize the Adabas communication environment.
ADASIP performs the following functions:
acquires memory in the specified CSA subpool for the Adabas SVC and a subsystem communication vector table (SSCT)
loads the Adabas SVC into the acquired CSA space
modifies the subsystem name at ADASVC offset +x’28’
modifies the SVC table entry as required by the Adabas SVC
optionally deletes an SSCT for the same subsystem name from the SSCT chain
adds the new SSCT to the SSCT chain
invokes the ADASIR program
releases CSA acquired by a previously installed SVC
If any error is detected, ADASIP backs out all completed activities and terminates operation with a user abend specifying the error.
When reinstalling an instance of ADASVC using an SVC number that is currently being used by ADASVC, the subsystem name must be the same as the one currently being used. This helps avoid a configuration that may not function correctly. For more information, read SVC Integrity Validation.
A Version 8 ADASIP/ADASIR can be used to install a Version 7 Adabas SVC, but the Version 8 SVC requires the Version 8 ADASIP/ADASIR. Software AG recommends using Version 8 to install all supported releases of the SVC. If an earlier version of ADASIP/ADASIR is used to replace an SVC installed with a later version, some areas of common storage may not be released.
If you choose not to have Adabas in an APF-authorized library, modules ADASIP, ADASIR and ADASVC must be copied to an APF-authorized library. Member JCLAPF in the MVSJOBS dataset has sample JCL that invokes IEBCOPY to copy them.
ADASIP parameters have the following syntax:
CONSNAME=c,IDTSPL=i,LEAVE=l,NRIDTES=n,REPLACE=r,SUBSYS=su, SVCNR=svcn,SVCSPL=svcs,RCLASS=class,FORCE=force
—where
| c | is the console name to which operator messages are written. If omitted, messages are issued using ROUTCDE=2, Master Console Information. |
| i | is the ID table subpool: see the ADASIR IDTSPL parameter for details. |
| l | indicates whether ADASIR should display message ADAS11 or ADAS12 on the operator console: see the ADASIR LEAVE parameter for details. |
| n | is the number of ID table entries: see the ADASIR NRIDTES parameter for details. |
| r | indicates whether or not an existing SSCT for the same subsystem name is to be replaced. Y for yes or N for no (N is the default). Use this option to replace any type of Adabas SVC (for example, when installing a new SVC version). |
| su | is the subsystem name. This parameter is required. . Each instance of the Adabas SVC must have a unique subsystem name. |
| svcn | is the Adabas SVC number: see the ADASIR SVCNR parameter for details. |
| svcs | is the Adabas SVC and SSCT subpool: 228 for fixed CSA or 241 for pageable CSA (default: 241). |
| class | is the System Authorizatin Facility (SAF) class name used to test authorization to start a target (default FACILITY). |
| force | allows certain possible errors to be
detected while validating parameters to be overridden. Use Y for
overriding or N for no overriding (N is the
default).
|
The following are valid ADASIP parameter abbreviations:
| Parameter | Abbreviation |
|---|---|
| CONSNAME= | C= |
| IDTSPL= | I= |
| LEAVE= | L= |
| NRIDTES= | N= |
| REPLACE= | R= |
| SUBSYS= | SU= |
| SVCNR= | SVCN= |
| SVCSPL= | SVCS= |
| RCLASS= | RC= |
| FORCE= | F= |
All parameters are optional except SUBSYS and SVCNR. If specified, the parameters IDTSPL,LEAVE, NRIDTES, SUBSYS, SVCNR and RCLASS
are passed to ADASIR without being verified.
All parameters are optional except SUBSYS and SVCNR. If specified, the parameters IDTSPL,LEAVE, NRIDTES, SUBSYS, SVCNR, and RCLASS
are passed to ADASIR without being verified.
JCL similar to the following should be used to execute ADASIP:
// EXEC PGM=ADASIP,PARM=parameters //STEPLIB DD ... //SVCLIB DD ... //SIRLIB DD ...
There is a sample job in member JCLSIP of the MVSJOBS dataset.
The data set defined by the STEPLIB DD statement must be an APF-authorized library containing the APF-authorized program ADASIP. Since ADASIP is neither reentrant nor refreshable, the data set cannot be SYS1.LPALIB.
The data set defined by the SVCLIB DD statement must be an APF-authorized library containing the Adabas SVC with either the name or alias ADASVC.
The data set defined by the SIRLIB DD statement must contain the ADASIR program. Since ADASIR is neither reentrant nor refreshable, the data set may not be SYS1.LPALIB.
ADASIP terminates with a U0481 abend if the parameter input is incorrectly specified.
The ADASIP parameters may not fit on a single JCL statement and may be broken up into segments using continuation JCL statements. The IBM job control convention for continuing the PARM parameter is:
// EXEC PGM=ADASIP,PARM=(’parameters ....’, // ’parameters’)
Note these restrictions:
Enclose the entire PARM string in parentheses.
Place each segment of the PARM string in single quotes.
Break the PARM string before a comma that follows a parameter.
A comma is required after the end-quote on a line that is to be continued.
Start the continuation line within columns 4-16.
A comma is not permitted between the last parameter and the end-quote on the line to be continued because JCL automatically inserts a comma between parameters when concatenating continuation strings:
// ...PARM=(’CONSID=3’, // ’SUBSYS=ADAB’, // ’SVCNR=249’)
—results in an equivalent line of
CONSID=3,SUBSYS=ADAB,SVCNR=249
The ADASIR program is invoked
by the ADASIP program to install the Adabas SVC temporarily, or
by z/OS to install the Adabas SVC permanently.
ADASIR receives control during either master scheduler initialization or ADASIP execution. The operator is prompted for any value that has been incorrectly zapped or assembled (refer to the Adabas Messages and Codes for specific message descriptions). If an error is found during the processing of parameters specified in the IEFSSNxx member or passed by ADASIP, the operator is prompted for all of the values.
If the SVC table entry is incorrect, ADASIR prompts the operator for permission to change the entry (if SVCTAB=P, the default, is specified). If any errors are detected, they must be corrected and either another IPL must be done or ADASIP must be rerun before the Adabas SVC can be used.
ADASIR parameters have the following syntax:
IDTSPL=i,LEAVE=l,NRIDTES=n,SVCNR=svcn,SVCTAB=svct,RCLASS=class
| Variable | Description |
|---|---|
| i | The ID table subpool: 228 for fixed CSA or 241 (the default) for pageable CSA. |
| l | Indicates whether message ADAS11 or ADAS12 is to be displayed on the operator console: Y for yes or N (the default) for no. |
| n | The ID table entry count, which can range from 1 to a maximum specified at offset X’146’ in the CSECT IEAVESVT of the z/OS nucleus (see section Requirements for Cross-Memory Services). |
| svcn | The Adabas SVC number (200-255). |
| svct | Indicates whether or not the operator should be prompted for permission to update the SVC table entry. Enter P (the default) to receive a prompt, or N for no prompt. P is recommended if a possibility exists that the SVC table entry will not be what ADASIR expects. |
| class | is the System Authorizatin Facility (SAF) class name used to test authorization to start a target (default FACILITY). |
The following are valid abbreviations for ADASIR parameters:
| Parameter | Abbreviation |
|---|---|
| IDTSPL= | I= |
| LEAVE= | L= |
| NRIDTES= | N= |
| SVCNR= | SVCN= |
| SVCSPL= | SVCS= |
| RCLASS= | RC= |
Customize sample job JCLSIR to copy ADASIR to SYS1.LINKLIB or a library concatenated with it by SYS1.PARMLIB member LKNLSTxx.
Note:
ADASIR is not reentrant, and therefore should not be placed
into SYS1.LPALIB or a library concatenated with it by SYS1.PARMLIB member
LKNLSTxx.
To prepare for permanent SVC installation, an entry must be made in either a new or existing member having the name IEFSSNxx in SYS1.PARMLIB. This entry is an 80-character record with the following format:
SUBSYS SUBNAME(cccc) CONSNAME(consname) INITRTN(ADASIR) INITPARM(’parameters’) comments
—where
| cccc | The 1- to 4-character subsystem name. This name and the name specified in the Adabas SVC at offset X’28’ must be the same. The name provided in the SVC is ADAB; any other name must first be zapped into the SVC before being specified for cccc. |
| consname | The name of the console to which ADASIR will direct any messages. If omitted messages will be issued with ROUTCDE=2, Master Console Information. |
| ’parameters’ | ADASIR parameters. If there is more than one parameter, values must be enclosed in single quotation marks and a comma placed between the parameters. |
| comments | Comments are optional and must be preceded by at least one space. |
If the subsystem name does not match, ADASIR abends with an ADAS12 message and condition code 2; the Adabas z/OS communication environment is not initialized. Re-IPL z/OS, specifying SSN=xx if necessary. If this is the first IPL with a type 3 or 4 Adabas SVC, specify CLPA as one of the SET parameters.
If an error is encountered while processing any of the parameters obtained from the IEFSSNxx member or passed from ADASIP (message ADAS05), the operator is prompted to reenter all of the parameters. If the SVC table entry is not correct (message ADAS09) then, depending on the value of the SVCTAB parameter, either the operator is prompted (message ADAS10) for permission to change the SVCTAB parameter, or it is simply changed (message ADAS15).
A Version 8 ADASIR can be used to install a Version 7 Adabas SVC, but the Version 8 SVC requires the Version 8 ADASIR. Software AG recommends using Version 8 to install all supported releases of the SVC.
Once you have installed the Adabas installation tape and have initialized the ADASVC, you can:
Migrate an existing Adabas database to the new version; or
Install a new version of the Adabas database.
Messages or codes that occur during the installation are described in the Adabas Messages and Codes; utilities are described in the Adabas Utilities.
Use the ADACNV utility to migrate existing databases to new releases of Adabas (SMA job number I021). See Adabas Utilities for more information.
Copy the data sets from the supplied installation medium to your disk before you perform the individual installation procedure for each component to be installed.
The way you copy the data sets depends on the installation method and the medium used:
If you use System Maintenance Aid (SMA), refer to the copy job instructions provided in the System Maintenance Aid documentation.
If you are not using SMA and want to copy the data sets from CD-ROM, refer to the README.TXT file on the CD-ROM.
If you are not using SMA and want to copy the data sets from tape, follow the instructions in this section.
This section explains how to copy all data sets from tape to disk.
Modify the following sample job according to your requirements:
//SAGTAPE JOB SAG,CLASS=1,MSGCLASS=X //* --------------------------------- //COPY EXEC PGM=IEBGENER //SYSUT1 DD DSN=COPY.JOB, // DISP=(OLD,PASS), // UNIT=(CASS,,DEFER), // VOL=(,RETAIN,SER=tape-volser), // LABEL=(2,SL) //SYSUT2 DD DSN=hilev.COPY.JOB, // DISP=(NEW,CATLG,DELETE), // UNIT=3390,VOL=SER=disk-volser, // SPACE=(TRK,(1,1),RLSE), // DCB=*.SYSUT1 //SYSPRINT DD SYSOUT=* //SYSIN DD DUMMY //
where:
tape-volser is the VOLSER
of the tape, for example: T12345,
hilev is a valid high-level
qualifier, and
disk-volser is the VOLSER
of the disk.
Execute the job to copy the data set COPY.JOB to your
disk.
Modify hilev.COPY.JOB according
to your requirements:
Set EXPDT to a valid expiration date, for example,
99365.
Set HILEV to a valid high-level qualifier, for example,
USERLIB.
Set LOCATION to a storage location, for example,
STORCLAS=ABC or UNIT=3390,VOL=SER=USR123.
Execute hilev.COPY.JOB to copy
single, multiple, or all data sets to your disk.
You must install a valid license file on all mainframe platforms in which your Software AG mainframe product is installed. The license file is provided as an XML document (encoding is US-ASCII) and must remain in that format -- even on the mainframe. It must not be modified. Any modification of the license file will invalidate the digital signature and the license check will fail. In the event of a check failure, please contact your Software AG technical support representative.
Note:
Thirty days before the license expires, license check failure
messages are produced. Your software product will still function, but these
messages warn you that it is time to obtain a new license.
In this step, you will prepare the license file (obtain it from e-mail or the installation tape and store it on your z/OS system) and then install it:
The product license file is supplied on the individual customer installation tape or separately via an e-mail attachment. Before you can install the license, you must transfer it from e-mail or the installation tape and store it on a z/OS system. This section describes how to do this for a license distributed either by e-mail or on the installation tape.
To prepare the license file from an e-mail attachment,
complete the following steps:
Transfer the license to z/OS, as described in Transferring a License File from PC to a z/OS Host Using FTP.
Verify that the transferred license file is stored in an Adabas source library (with RECFM=F or FB and LRECL=80), taking care to preserve its format as ASCII.
To prepare the license file from the installation tape,
complete the following steps:
Verify that the license file is stored from the tape into an Adabas source library (with RECFM=F or FB and LRECL=80), taking care to preserve its format as ASCII.
Once the license file has been prepared, you can install it in one of two ways:
You can convert the license to a load module (ADALIC) that is then loaded by the Adabas nucleus.
You can reference the license file in the Adabas nucleus startup job by DD statement.
This section describes both methods.
To convert the license file to a load module, complete the
following steps:
Review and modify sample job ASMLICAM, as follows:
Change the STEPLIB DD statement to point to the license load library (MLCvrs.LOAD).
Change the SYSUT1 DD statement to point to the data set containing the Adabas license file you transferred to z/OS earlier.
Specify an appropriate user load library for the L.SYSLMOD DD statement.
Note:
This user load library must also be included in the
STEPLIB concatenation for the Adabas nucleus (ADANUC).
Submit sample job ASMLICAM. This job runs the MAKE function of the LICUTIL utility to convert the license text file to an assembler source module. ASMLICAM then links and assembles the assembler source to generate a load module called ADALIC, which is stored in the specified user load library (L.SYSLMOD DD statement). For more information about the LICUTIL utility, read Using The License Utility: LICUTIL
Update your Adabas ADANUC nucleus job to reference the user load library so ADALIC will be loaded by the Adabas nucleus, as described in Step 5: Customize and Start the Adabas Nucleus and Test Adabas Communications.
To reference the license file in the Adabas nucleus startup
job, complete the following steps:
Make sure any previously created ADALIC load module is inaccessible to the Adabas load library being used by your nucleus job. Adabas first tries to load ADALIC and, if unsuccessful, it reads from a DDLIC data set referenced in ADANUC.
Update your Adabas ADANUC nucleus jobs to reference the license, as described in Step 5: Customize and Start the Adabas Nucleus and Test Adabas Communications.
Customize and run the ADAFRM utility job to allocate and format the Adabas database. The following must be customized:
Data set names for the database and libraries;
Volumes for libraries and data sets for the database;
Space allocation for data sets for the database;
The Adabas SVC number, the database ID, and database device type(s);
Sizes of the data sets for each ADAFRM statement.
Customize and run the ADADEF utility job to define the global definition of the database. The following must be customized:
Data set names of the database and libraries;
The Adabas SVC number, the database ID, and database device type(s);
ADADEF parameters.
Customize and run the job:
ADALODE to load the sample demo file EMPL;
ADALODV to load the sample demo file VEHI;
ADALODL to load a base file and its associated LOB FILE. Please change file names and file numbers as appropriate for your site;
ADALODM to load the sample demo file MISC; and
ADALODP to compress and load the sample Personnel (PERC) demo file and its associated LOB demo file.
Note:
The Personnel demo file must be installed on a
UES-enabled database because it includes wide-character format (W)
fields.
For each job, the following items must be customized:
Data set names for the database and libraries;
The Adabas SVC number, the database ID, and database device type(s);
ADALOD parameters.
Customize and run an appropriate ADANUC job to start the Adabas nucleus. (This processing will also test basic Adabas communications.) The following modifications to the ADANUC job must be made:
Software AG licensing requires that the modules LICMAIN and LICUTIL be loaded when your nucleus starts up. These modules are distributed in the MLCvrs.LOAD library. You must either:
Copy LICMAIN and LICUTIL into ADAvrs.LOAD; or
Concatenate MLCvrs.LOAD with ADAvrs.LOAD. A sample job, ADANUCS, demonstrates how to do this.
Verify that the license file is correctly referenced in the ADANUC job. Do either of the following:
Verify that the ADALIC load module, installed in Step 1: Check, Prepare, and Install the Product License File, is stored in a load library that is accessible to the Adabas load library. Add the user load library in which ADALIC resides to the STEPLIB concatenation of the Adabas nucleus job or copy the ADALIC library into ADAvrs.LOAD.
Verify that there is no ADALIC load module accessible to the Adabas load library and that the following DD statement is included in the ADANUC job:
//DDLIC DD DISP=SHR,DSN=dsn
where dsn is the data set name of the license file loaded from the tape (in ASCII format). Note that dsn could reference a member in a partitioned data set.
Note:
Adabas first tries to load ADALIC and, if
unsuccessful, it reads from the DDLIC data set.
Data set names for the database and libraries must be customized for your installation.
Note:
Be sure to include appropriate user load
libraries.
The Adabas SVC number, the database ID, and database device type(s) must be customized for your installation.
ADARUN parameters must be customized for your installation.
Customize and run the job ADAREP in MULTI mode with the CPEXLIST parameter to test Adabas address space communications. The following must be customized:
Data set names for the database and libraries;
The Adabas SVC number, the database ID, and database device type(s);
ADAREP parameters.
Customize and run the job ADAINPL to load the Adabas Online System (AOS) into a Natural system file using the appropriate batch version of Natural (read the Adabas Online System documentation to determine its Natural requirements). The following items must be customized:
Data set names of the database and libraries;
The Adabas SVC number, the database ID, and device type(s);
The Natural INPL parameters and system file number.
Alternatively, install the AOS demo version delivered with Adabas: see the section Installing the AOS Demo Version.
Communicate with the Adabas nucleus to terminate the session either with an ADAEND operator command using the OS Modify command:
F jobname,ADAEND
—or
P jobname
where jobname is the job or task name of the started nucleus.
Customize and run the ADASAV utility job to back up the database. The following must be customized:
Data set names of the database and libraries;
The Adabas SVC number, the database ID, and device type(s);
ADASAV parameters.
The member DEFAULTS in the Adabas JCL library can be modified to set the ADARUN defaults. The following must be customized:
Data set names of the database and libraries;
ADARUN user defaults:
Device type(s) (default: 3390)
SVC number (default: 249)
Database ID (default: 1)
Customize and run the DEFAULTS job to set the ADARUN defaults using the OS ZAP utility.
Refer to the section Installing Adabas With TP Monitors for a description of the TP link routine procedure.
In the past, the presence of multiple SVCs with the same subsystem ID has resulted in a single ID table being used by different SVCs. This has caused problems, some of them , such as abnormal nucleus termination or corruption of the database.
To eliminate this exposure, ADASVC checks to ensure that the SVC accessing the ID table is the same as the one that was used by ADASIP/ADASIR to initialize the table. If the SVCs are not the same, the IDT is not accessed.
The lack of a usable IDT may occur during Adabas initialization, during the first Adabas call from a user program, or when the ID table is queried by another Software AG server such as Entire Net-Work.
ADASIP has been enhanced to prevent this from arising. If you attempt to install an instance of ADASVC using an SVC number that is presently associated with another subsystem name, message ADAS16 is issued and ADASIP terminates with user abend 435.
When installing or reinstalling ADASVC, ADASIP will also detect if
there is an Adabas SVC already installed as the specified SVC number that
specifies a different subsystem than specified by the SUBSYS parameter. This
causes message ADAS16 to
be issued and ADASIP terminates with user abend 436. This abend can be
overridden by specifying the FORCE=Y
parameter.
If the specified SVC exists and has an IDT where there are active
targets (as indicated by an active IDTE), message
ADAS17 is issued for
each such target and ADASIP terminates with user abend 437. This abend can be
overridden by specifying the FORCE=Y
parameter but doing so may cause the targets to abend when they try to access
the IDT. Using the FORCE=Y parameter should only be
necessary in rare conditions when a target failed in such a way that the IDT
could not be cleaned up.
Due to the implementation of cross-memory services in z/OS, the following points should be noted when running an Adabas nucleus in MULTI mode:
a maximum of one step of a job can establish the cross-memory environment. This means that a job can include at most one step that is a target (for example, an Adabas nucleus).
cross-memory accesses may not be made to a swapped-out address space. Therefore, the address space of an Adabas nucleus is set to “nonswappable” for the duration of the nucleus session. This can increase the installation’s real storage requirements. This behavior is documented in the IBM manual Extended Addressability Guide, chapter Synchronous Cross-Memory Communication.
when a nucleus with an active cross-memory environment terminates either normally or abnormally, the entire address space including any initiator is also terminated.
The address space ID (ASID) representing this address space is not reassigned until the next IPL. Therefore, you should choose a sufficiently high value for the MAXUSERS parameter in the active IEASYSxx member of SYS1.PARMLIB or—if your system supports it—the RSVNONR parameter in the same member can be adjusted accordingly. Also, the Adabas nucleus should not be stopped and started without good reason. This is described in the manuals referred to in the topics Recovery Considerations and Resource Management. Additional information can be found in IBM APARs OZ61154, OZ61741, and OZ67637.
To reduce the possibility that the system will run out of ASIDs for assignment to new address spaces, start ADABAS with REUSASID=YES:
/S ADAxxxx,REUSASID=YES
This is described in the z/OS V1R12.0 MVS Programming Extended Addressability Guide SA22-7614-07.
To make its services available to all address spaces in the system, the Adabas nucleus must obtain a system linkage index (LX) from z/OS. The LX is a reserved slot in the linkage space of all address spaces, and permits system-wide linkage to all address spaces.
If your hardware supports the Address Space and LX Reuse Facility (ALRF), the version 8 ADASVC will make use of reusable system LXs. Otherwise, a non-reusable system LX will be used as in previous releases. Reusable system LXs resolve the constraints imposed by non-reusable LXs. The remainder of this section discusses these constraints.
The number of non-reusable LXs set aside by z/OS for system use is rather small (usually 165 out of a possible 2048).
Because of the way z/OS use cross-memory services, non-reusable system LXs obtained by Adabas cannot be returned to z/OS until the next IPL. However, the system that owns the LXs can reuse them, even for a different address space. Adabas makes use of this feature by identifying used LXs in a table in CSA, where they are available to future nuclei.
The number of non-reusable system LXs can be specified in the member IEASYSxx contained in SYS1.PARMLIB, using the NSYSLX parameter. If you change this value, you must perform an IPL to make the change effective.
To determine an appropriate NSYSLX value, consider the following points:
some LXs are probably already being used by other system functions. Therefore, the chances of creating an LX shortage for other users is small.
Adabas requires one system LX for each Adabas nucleus (or any other target) that will be active concurrently. A value of decimal 64 would allow concurrent execution of up to 64 Adabas nuclei or other targets with little chance of restricting other components using LXs.
Entire Net-Work Version 5 uses only one LX and one ID table entry, regardless of how many remote databases it must represent. This is unlike the pseudo-MPM concept of earlier Entire Net-Work versions.
whenever ADASIP is executed with the REPLACE option, all LXs saved in the current ID table are lost until the next IPL.
Likewise, if a session ends either normally with the FORCE operator command or abnormally during ESTAE processing (for example, by an S222 operator cancel or by a S722 spool limit exceeded abend during a snap dump), the LX also cannot be recovered until the next IPL.
Any commands sent to these targets receive an S0D6 abend. Any attempt to restart the nucleus results in an ADAM98 message DUP ID (LOCAL), followed by an abend. To resolve both of these problems, restart the nucleus with the ADARUN FORCE=YES and IGNDIB=YES parameters.
The first target that tries to obtain a system LX when none is available ends with an S053 abend code and reason code 0112. No additional targets can be started until the next IPL.
Adabas uses Global Resource Serialization (GRS) to synchronize the execution of Adabas nuclei and utilities at certain points in their processing. It is vital that GRS be set up correctly in the system so that GRS requests by Adabas will be effective.
When setting up GRS, consider the following:
Adabas uses the GRS macros ENQ and DEQ with systems-wide scope (SCOPE=SYSTEMS) and major name ‘ADABAS’ (QNAME).
if the database resides on disks that are shared between multiple images of the operating system (multiple LPARs or machines) and Adabas nuclei or utilities may be run against the database from several of these images, make sure that GRS is installed in a way that systems-wide ENQ requests are effective on all of these system images.
Adabas performance and system throughput are improved when you use EXCPVR rather than EXCP, due to a reduction in channel program translation overhead.
For Adabas to invoke EXCPVR, the nucleus must be running with APF authorization. All Adabas modules must be in APF-authorized libraries, and all libraries in the JOBLIB or STEPLIB concatenations must be APF-authorized.
Running the Adabas nucleus and utilities APF-authorized is now a standard. For more information, read APF Authorization Requirement.
Prior versions of Adabas tied the use of EXCP or EXCPVR for database I/Os to the APF-authorization of the load library. EXCP was always used when running non-APF-authorized; EXCPVR was always used when running APF-authorized. If you wanted to use EXCP when running APF-authorized, you were required to apply special A$- or AY- zaps.
Adabas 8 introduces a new ADARUN parameter, EXCPVR, available in z/OS environments. Using this parameter, you can specify whether EXCP or EXCPVR is used when running APF-authorized. If the EXCPVR parameter is set to "YES", EXCPVR is used; if it is set to "NO", EXCP is used. If the EXCPVR parameter is set to "YES" when running from a non-APF-authorized load library, the EXCPVR parameter is ignored. For complete information on the use of this parameter, read EXCPVR : Control EXCP or EXCPVR Use.
In addition to the EXCPVR parameter, another ADARUN parameter, PGFIX, affects EXCPVR use. When EXCPVR is used on z/OS systems, the PGFIX parameter controls whether pages containing I/O control blocks are released after I/O processing is completed or after the job has ended. This parameter is valid only for z/OS users of EXCPVR. When the PGFIX parameter is set to NO, pages containing the I/O control blocks are fixed only for the duration of the I/O processing; when it is set to YES, pages containing the I/O control blocks are fixed for the duration of the job. For complete information on the use of this parameter, read PGFIX: EXCPVR Page Fixing Control.
The ADARUN module delivered in the Adabas load library is not reusable. If you need a shareable ADARUN, you will need to relink it with the REUS=YES link-edit attribute.
Linking ADARUN with the reusable option permits several programs running in the same address space to share the same ADARUN and ultimately, the same copy of ADALNK. This is important when it is necessary to have only one Adabas user ID for the different programs, and is also needed if single copies of ADALNK user exits are required.
To create a shareable ADARUN, use the sample job JCLLINRR in the JOBS library to relink it with the REUS attribute.
If both nonreusable and reusable versions of ADARUN are required, they must be located in different load libraries since both must be loadable using the name ADARUN.
Adabas can acquire a number of its required areas, including buffer space, above the 16-MB addressing limit, allowing Adabas to increase the buffer pool size.
To reverse the space allocation to be below the 16-MB limit, set the AMODE value in the MODE statement in the example below to AMODE(24):
//LINKRUN EXEC PGM=IEWL,PARM=’REUS’ //SYSPRINT DD SYSOUT=* //SYSUT1 DD UNIT=SYSDA,SPACE=(CYL,(1,1)) //ADALIB DD DSN=user.loadlib,DISP=SHR //SYSLMOD DD DSN=user.loadlib,DISP=SHR <=APF-authorized library //SYSLIN DD * MODE AMODE(24),RMODE(24) SETCODE AC(1) INCLUDE ADALIB(ADARUN) NAME ADARUN(R)
In addition, Adabas must be run with a sufficient REGION specification, either on the JOB or EXEC statement or as an installation default. For example:
//BIG JOB ...,REGION=30M,...
Adabas can exploit storage occupying real pages above the 2-gigabyte line. This capability allows Adabas I/Os to use 64-bit real addresses.
Support for 64-bit real storage is available whether you are running APF-authorized (using EXCPVR) or not (using EXCP). The run mode is indicated in the ADAI65 message:
ADAI65 EXCPVR IS {BEING | NOT BEING} USED FOR THIS RUN IN ESA64 MODE
Support for 64-bit real storage requires either
z/OS R10 in ARCHLEVEL=2 (that is, z/architecture mode); or
z/OS 1.2 or above
on a processor of the IBM 2064 family with an LPAR greater than 2 gigabytes for real storage allocation.
IBM supports 64-bit virtual storage only for z/OS 1.2 or above.
Software AG provides support for IBM’s 64-bit virtual storage in Adabas. The ADARUN V64BIT parameter allows you to indicate whether the Adabas nucleus should use virtual storage above the 2 gigabyte bar. If your z/OS operating system supports 64-bit virtual storage, you can request that the Adabas nucleus use it also. In addition, the ADARUN LARGEPAGE parameter allows you to indicate whether the Adabas nucleus should use large pages (1 MB pages of real storage above the 2 gigabyte bar). If your z/OS operating system supports 64-bit virtual storage and large pages, you can request that the Adabas nucleus use large pages.
Software AG also provides support for 64-bit virtual storage in the product Adabas Caching Facility (ACF). Contact your Software AG representative for more information.
A demo of Adabas Caching Facility is delivered in the ADAvrs.ALLINPL file (where vrs is the number of the latest Adabas version delivered on the tape).
Use the z/OS AMASPZAP utility to apply zaps in the respective operating system; this method verifies (VER) and replaces (REP) data. The following sample JCL executes AMASPZAP:
//ADAZAP JOB //STEP1 EXEC PGM=AMASPZAP //SYSPRINT DD SYSOUT=X //SYSLIB DD DSN=ADABAS.ADAvrs.LOAD,DISP=SHR //SYSIN DD * (zap control statements) /* //
—where the following are examples of zap control statements:
NAME membername csectname VER displacement data REP displacement data IDRDATA (up to eight bytes of user data) * (comment)
Note:
In VER and REP statements, spaces must be used to separate
command, displacement, and data. Commas are acceptable data separators;
however, commas with spaces or spaces alone are not, and may cause
errors.
Note:
For information about connecting a database that is enabled for
data conversion using the universal encoding service (UES), see the section
Enabling Universal Encoding
Support (UES) for Your Adabas Nucleus.
A pre-command user exit and a post-command user exit may be linked with an Adalink routine:
Link routine user exit 1, LUEXIT1, receives control before a command is passed to a target with the router 04 call.
Note:
Special commands emanating from utilities and from Adabas
Online System are marked as physical calls. These calls must be bypassed in
user exits. These calls have X‘04’ in the first byte (TYPE field) of the
command’s Adabas control block (ACBX). LUEXIT1 must check this byte and return
if it is set to X‘04’. Be sure to reset R15 to zero on return.
Link routine user exit 2, LUEXIT2, receives control after a command has been completely processed by a target, the router, or by the Adalink itself.
At entry to the exit(s), the registers contain the following:
| Register | Contents |
|---|---|
| 1 | Address of the UB. |
| 2 | Address of an 18-word format 1 register save area |
| 13 | For CICS, on entry to the link user
exit, R13 points to the CICS DFHEISTG work area at
xxxxxxxxx.
For batch/TSO, R13 points to the link routine's work area. |
| 14 | Return address |
| 15 | Entry point address: LUEXIT1 or LUEXIT2 |
Any registers except register 15 that are modified by the user exits must be saved and restored; the address of a save area for this purpose is in register 13.
If at return from LUEXIT1, register 15 contains a value other than zero (0), the command is not sent to the target but is returned to the caller. The user exit should have set ACBXRSP to a non-zero value to indicate to the calling program that it has suppressed the command: response code 216 (ADARSP216) is reserved for this purpose.
User buffers can be used to pass data between the link routine user exits 1 and 2 and Adabas nucleus user exits 11 and 4. Refer to User Buffers for more information.
An Adalink routine can return the following non-zero response codes in ACBXRSP:
| Response Code | Description |
|---|---|
| 213 (ADARSP213) | No ID table |
| 216 (ADARSP216) | LUEXIT1 suppressed the command |
| 218 (ADARSP218) | No UB available |
ADAUSER is a program that links the user to Adabas. It is specific to an operating system and is independent of release level and mode. It can be used in batch and in some TP environments.
ADAUSER contains the entry point ADABAS and should be linked with all user programs that call Adabas. No other programs containing the CSECT or entry point name ADABAS can be linked in these load modules.
On the first Adabas call, ADAUSER loads the latest version of ADARUN. This makes the calling process release-independent. Subsequent Adabas calls bypass ADARUN.
ADARUN processes its control statements. For the ADARUN setting
PROGRAM=USER (the default), ADARUN
loads the non-reentrant Adalink modules. To load a reentrant batch link
routine, use the ADARUN parameter PROGRAM=RENTUSER. This
makes the calling process mode-independent.