Model 204 installation on IBM z/VSE: Difference between revisions
Line 57: | Line 57: | ||
<li>If you use [[SoftSpy]], upgrade it for 7.5.</li> | <li>If you use [[SoftSpy]], upgrade it for 7.5.</li> | ||
</ol> | </ol> | ||
==Model 204 disk space requirements== | |||
The following table summarizes the minimum disk space requirements for the libraries | |||
as well as other information to help you calculate EXTENT information for Model 204 files. | |||
<p class="caption">Minimum disk space requirements</p> | |||
<table> | |||
<th>Disk type</th> <th>Minimum Model 204 library requirement</th> <th>Bytes/track</th> <th>Model 204 pages/track</th> | |||
<tr><td>3380</td> <td>720 tracks</td> <td>47476</td> <td>7</td></tr> | |||
<tr><td>3390</td> <td>604 tracks</td> <td>56664</td> <td>8</td></tr> | |||
<tr><td>9345</td> <td>736 tracks</td> <td>46456</td> <td>6</td></tr> | |||
<tr><td>FBA</td> <td>67000 blocks</td> <td>512 bytes/block</td> <td>13 blocks/page</td></tr> | |||
</table> | |||
==Reserving a partition== | |||
Rocket recommends a minimum partition size of eight megabytes (8M) when installing Model 204.Some Model 204 installation JCL might assign system files/devices (SYSIPT, SYSPCH, etc.) to disk; z/VSE requires that this JCL be run in a static partition. | |||
===Space requirement for the Model 204 library=== | |||
The M204CATP job distributed with the Model 204 software will allocate the appropriate space for the Model 204 library. In the sublibrary name, rrr | |||
represents the release level, such as 750. | |||
<table> | |||
<th>Sublibrary</th> <th>Required library blocks</th> | |||
<tr><td>J<var class="term">rrr</var></td> <td>700</td></tr> | |||
<tr><td>V<var class="term">rrr</var></td> <td> 17,800</td></tr> | |||
<tr><td>D<var class="term">rrr</var></td> <td> 700</td></tr> | |||
</table> | |||
==CICS interface installation== | ==CICS interface installation== |
Revision as of 17:44, 19 December 2014
Note: This page is currently under construction.
This page describes the steps required to upgrade from Rocket Model 204 version 7.4 to version 7.5, on the IBM z/VSE operating system.
In order to upgrade to Model 204 version 7.5, you must have version 7.4 and the latest Autofix set of Early Warnings installed on your system. |
To upgrade to version 7.5 simply download, upload, and link the 7.5 object modules available from the downloads page to install the 7.5 components.
Before you begin
- In order to upgrade to version 7.5, you must have version 7.4 and Autofix release EW3044 installed on your system.
Autofix release EW3044 includes:
- Early Warnings for Model 204 through 740EW172
- Early Warnings for Dictionary/204 through 740DI016
- For system requirements for version 7.5, see the 7.5 Release notes.
- You must have either a Rocket M204 user ID or a Sirius user ID to download the installation files.
- The sublibrary containing the object has the authorization zap (covering your licensed processors) preapplied, so you do not need to get a new authorization zap from the website.
(The preapplied zap will authorize Model 204 itself and any separately purchased products such as MQ/204 and SirScan.) - The object files also have the maintenance zaps (as of the time the stream was prepared) preapplied, so you do not need to apply any maintenance as part of this installation. (You will only need to apply any new maintenance when it becomes available for this release.)
Overview of upgrading steps
Review the following high-level summary of steps before you begin downloading the Model 204 version 7.5 files.
For an example, see Example workflow for 7.5: download through installation.
Use your Rocket M204 user ID to download the Model 204 object source and JCL, including M204CATP.
- Upload (FTP) the downloaded components to the z/VSE system on the IBM mainframe.
- If you have your own user $functions (FUNU), you must do the following steps:
- modify FUNU for 64-bit addressing considerations and store the modified source in your V750 sublibrary.
- If you have any user-defined messages (MSGU), store them in your V750 sublibrary.
- Assemble FUNU (and MSGU, if applicable), with the output object file stored in your V750 sublibrary.
- If you use customized modules, such as CDTB, modify them as needed and assemble them.
- If you use the CICS interface, customize it, and then assemble and link the CICS modules.
- Link the ONLINE phase.
- If you use the IFAM1 phase, link it.
- Link the Model 204 utility programs.
- If you use SoftSpy, upgrade it for 7.5.
Model 204 disk space requirements
The following table summarizes the minimum disk space requirements for the libraries as well as other information to help you calculate EXTENT information for Model 204 files.
Disk type | Minimum Model 204 library requirement | Bytes/track | Model 204 pages/track |
---|---|---|---|
3380 | 720 tracks | 47476 | 7 |
3390 | 604 tracks | 56664 | 8 |
9345 | 736 tracks | 46456 | 6 |
FBA | 67000 blocks | 512 bytes/block | 13 blocks/page |
Reserving a partition
Rocket recommends a minimum partition size of eight megabytes (8M) when installing Model 204.Some Model 204 installation JCL might assign system files/devices (SYSIPT, SYSPCH, etc.) to disk; z/VSE requires that this JCL be run in a static partition.
Space requirement for the Model 204 library
The M204CATP job distributed with the Model 204 software will allocate the appropriate space for the Model 204 library. In the sublibrary name, rrr represents the release level, such as 750.
Sublibrary | Required library blocks |
---|---|
Jrrr | 700 |
Vrrr | 17,800 |
Drrr | 700 |
CICS interface installation
The Model 204 CICS interface allows CICS complete access to Model 204 facilities and supports CICS pseudo conversational programs.
Note: It is not necessary to install the CICS interface if it has been installed for a previous version of Model 204. The load modules from the older version are compatible with version 7.5 of Model 204.
Requirements
- CICS Transaction Server support
Rocket M204 supports the CICS Transaction Server versions 3.1, 3.2, 4.1, and 4.2.
- Supporting TPROCESS COBOL applications
If your CICS TPROCESS application was originally linked with AMODE=24, you must relink the CICS TPROCESS application specifying AMODE=31 because AMODE=24 is not supported.
CICS interface overview
For an overview of the CICS interface, including storage requirements and a listing of CICS interface components, see CICS interface.
Installing the CICS interface
- Customize the interface by copying the CICFG copy member from the distribution library into your local source library and editing it as needed.
For information on customizations needed for using the CICS Standard Mapping Service, see CICS interface.
- Update the CICS System Definition (CSD) using one of the following methods:
- Resource Definition Online (CEDA).
- The IBM DFHSCDUP offline utility, to process the definitions in batch.
- Processing the CICS Program Control Table (PCT) and Program Processing Table (PPT)
- Assemble, translate, and catalog the Model 204 CICS Interface modules, using the following jobs:
- CRPSASM
- ENTPSASM
- OPLTASM
- PPCIASM
- PRNTASMC
- PSFASM
- PSFSASM
- Relink the IFAM2 transactions requiring pseudo conversational support with IFENTPS.
- Relink all user process-to-process partners with IFPPCI.
Updating the CICS System Definition (CSD)
You can update the CSD by using CEDA, by using the DFHCSDUP utility, or by processing the CICS Program Control Table (PCT). Use the values in the following table, where appropriate, for the method you choose. Information about using CEDA follows the table.
CICS System Definition values
User program | Program name | Transaction ID | Modifiable CICFG symbol |
TWA size |
---|---|---|---|---|
IFAM2 pseudo conversational | DFHPSF | DFHPSF is accessed by using a CICS LINK. It is never invoked with a transaction ID from a terminal. | ||
Full-screen interface | M204PSFS | M204 | &TRN | 88 |
Screen copy transaction | M204CRPS | U204 | ||
Screen print transaction | M204PRNT | P204 | &COP | 88 |
CEDA (the Resource Definition Online transaction) or the DFHCSDUP utility defines the transactions and programs to the CSD file.
If you are not using tables, then define the transactions and programs by using CEDA and the values in the previous table, as in the following example:
CEDA DEFine PROG(program_name) GRoup(group_name) LANGuage(ASSEMBLER) RELoad(NO) RESident(NO) (Except for DFHPSF, RESident(YES)) RSL(PUBLIC) STatus(ENABLED) CEDA DEFine TRANsaction(trans_ID) GRoup(group_name) PROgram(program_name) TWASIZE(twa_size_value) . . . RSL(PUBLIC) . . . CEDA CHeck GRoup(group_name) CEDA INstall GRoup(group_name)
You can use a transaction ID for a user program that is different from the value shown in the previous table. However, if you do so, you must change the associated CICFG symbol shown in the table.
As shown in the preceding example, group_name is any valid group name for the user site.
Note: Remember to add the groups to the GRPLIST for the particular CICS region. If the groups are not added, they are not installed during each CICS initialization.
Processing the PCT and PPT
The JCL library members PCTNTRY and PPTNTRY have the Program Control Table (PCT) and the Program Processing Table (PPT) default values shown in the following code. You can update the CSD by adding to or modifying these default values and then assembling the tables.
PCT—Program Control Table
The PCT assigns user programs to their related CICS transaction identifiers (the transaction codes). Entries are required for both the 3270 full-screen interface and the screen print transaction. The PCT default values are:
DFHPCT TYPE=ENTRY,PROGRAM=M204PSFS,TRANSID=M204,TWASIZE=88 DFHPCT TYPE=ENTRY,PROGRAM=M204PRNT,TRANSID=P204,TWASIZE=88 DFHPCT TYPE=ENTRY,PROGRAM=M204CRPS,TRANSID=U204
The following entry in the PCT is required for all user IFAM2 transactions:
DFHPCT TYPE=ENTRY,PROGRAM=program_name,TRANSID=xxxx,TWASIZE=88
Use the values in the previous table if you are updating the PCT. If you use a transaction ID for a user program that is different from the value shown in that table, you must change the associated CICFG symbol.
PPT—Program Processing Table
The PPT stores program attributes. Entries are required for the 3270 full-screen interface, direct printer support, and the IFAM2 interface.
Note: In the first line of the PPT, be sure to set the RES parameter to YES, otherwise, the transaction does not complete successfully.
The PPT default values are:
DFHPPT TYPE=ENTRY,PROGRAM=DFHPSF,RES=YES,PGMLANG=ASSEMBLER DFHPPT TYPE=ENTRY,PROGRAM=M204CRPS,PGMLANG=ASSEMBLER DFHPPT TYPE=ENTRY,PROGRAM=M204PRNT,PGMLANG=ASSEMBLER DFHPPT TYPE=ENTRY,PROGRAM=M204PSFS,PGMLANG=ASSEMBLER DFHPPT TYPE=ENTRY,PROGRAM=OBPLTSD,PGMLANG=ASSEMBLER
Assembling the CICS Interface modules
Assemble, in the sequence listed, the CICS Interface modules listed in the assembly step in the CICS installation steps table.
Some assemblies display a warning message (DFHEIMSG 4) because the CSA address is release-dependent. If the interface program is running in the release under which it was assembled, ignore the warning.
After the modules are successfully built, relink as directed in "CICS installation steps."
Allocating a CICS user library (JALCICSJ job stream)
One of the members of the RKOBJLIB object library is JALCICSJ, a job stream to allocate an empty CICS user library. You must allocate the CICS user library before assembling and linking the CICS modules.
- Copy
JALCICSJ
into a local TSO library. - Edit your copy of
JACICSJ
for your configuration:- Replace the first line with a JOB card.
- Supply your installation high level qualifier(s) in the following lines marked with <<:
- for hlq in the JCLLIB ORDER=(hlq.... line after the JOB card
- after HLQ=, on the line after EXEC LKALLUTP at the bottom of the job stream
- Submit the
JALCICSJ
job to allocate the CICS user library.
Assembling and linking CICS modules (LKCICSJ job stream)
One of the members of the RKOBJLIB object library is LKCICSJ, a job stream to assemble and link the Model 204 CICS modules.
- Copy
LKCICSJ
into a local TSO library. - Edit your copy of
LKCICSJ
for your configuration:- Replace the first line with a JOB card.
- Supply your Model 204 installation high level qualifier(s) in the following lines marked with
<<
:- for
hlq
in theJCLLIB ORDER=(hlq.
... line after theJOB
card - after
HLQ=
, on the line afterEXEC JALCICSP
at the bottom of the job stream
- for
- Submit the
LKCICSJ
job to assemble and link the CICS module.
Preparing site-specific CDTB, FUNU, and MSGU modules
CDTBASMC, FUNUASMC, and MSGUASMC jobs
If you use translation tables or user-written functions, you must change the source code in the CDTB.A, FUNU.A, and MSGU.A sublibrary members to accommodate the requirements of your site, as shown in the following table.
If you use... | Then do this... | Using this job |
---|---|---|
$CODE and $DECODE functions to encode and decode character strings | Edit your own translation tables into the CDTB.A member | CDTBASMC |
Your own User Language functions | Add them to the FUNU.A member | FUNUASMC |
Error messages with your own User Language functions | Modify the MSGU.A member | MSGUASMC |
The FUNU.A member contains one user function, $SEP, which adds separators when a date is entered in the format mm/dd/yy. MSGU.A also contains one sample error message.
You can use FUNU.A and MSGU.A to write your own user functions. Instructions for coding user functions are in the Model 204 System Manager’s Guide. The steps for installing the modules, as well as assembly considerations, are provided here.
It is recommended that if you think your site will make use of the TCP/IP Sockets Interface for Model 204, link the FUNU.A member during the installation process, even if you have not yet developed your own functions. This ensures access to the $ASCII and $EBCDIC functions.
Assembling CDTB, FUNU, and MSGU
The following table identifies the JCL to assemble CDTB, FUNU, and MSGU and catalog the object decks into the Model 204 sublibrary.
Member | Assembles and catalogs user modules |
---|---|
CDTBASMC | CDTB (code table) |
FUNUASMC | FUNU (functions) |
MSGUASMC | MSGU (messages) |
Once the modules are assembled and cataloged, link the Model 204 phases to contain user code tables and/or user functions, specifying the M204LIB.Vrrr sublibrary containing the CDTB, FUNU, and MSGU modules in the search list.
The M204LIB.Vrrr sublibrary members LKONLN and LKB204 distributed with this version contain the INCLUDE statements for CDTB, FUNU, and MSGU.
Assembly considerations for FUNU and MSGU
Some of the Model 204 macros and copy code needed to assemble FUNU and MSGU contain assembly language statements that are not supported by the z/VSE assembler. An assembly error occurs in the following circumstances:
-
EQU statement specifies a length attribute or type attribute. The following example from the VARDEFS copy book illustrates the error:
VISLVL EQU 0,1 FIELD SECURITY LEVEL
The error generated for this statement is:
IPK122 INVALID DELIMITER, ',1'
-
EQU statement specifies a value that is too long or too large by assembler
rules. The following example from the STARTS macro illustrates the error:
MAXFS EQU 16777216/(4096*8) .MAX NUMBER OF INTERNAL FILE SEGMENTS
The error generated for this statement is:
IPK117 VALUE OF SELF-DEFINING TERM '16777216' TOO LARGE
See the z/VSE assembler error message IPK117 for more information.
-
Symbol defined by an EQU statement of the type described above is
referenced in a subsequent assembler statement. The following example
from the STARTS macro illustrates the error:
IVBN EQU ((MAXFS+7)/8). MAX # OF BYTES IN SEGMENT BIT PATTERN
Where the error occurs because MAXFS is undefined (see the example in the second bullet, above), the error generated for this statement is:
IPK149 SYMBOL 'MAXFS' NOT PREVIOUSLY DEFINED
-
In FUNU, some undefined symbols generate the following statement:
QW9 ***** UNDEFINED *****
The error generated for this statement is:
IPK149 SYMBOL 'QW9' NOT PREVIOUSLY DEFINED
The text generated is executable and executes properly (barring logic errors) unless code that references an undefined symbol is executed.
Assembling FUNU and MSGU generates the errors described. However, in FUNU, no assembly errors occur within the FUNUTAB table entries or within the code for a user function (between the $name ENTER statement that begins the function and the LEAVENUM, LEAVESTR, or LEAVEF0 macro that terminates it). In MSGU, no assembly errors occur after the MSGU$ CSECT statement. CDTB receives no assembly errors.
z/VSE assembler errors
Rocket Software takes no responsibility for the errors generated by the z/VSE assembler. It is your responsibility to ensure that you do not code user functions referencing symbols that are undefined due to an assembler error.
Linking the $$BVP204 phase
The following information applies only to z/VSE sites running under z/VM.
The $$BVP204 phase is a transient: it is required for the z/VM-directed output feature, and it is invoked by Model 204 to issue diagnostic instructions in order to pass CP commands to z/VM. $$BVP204 is used to obtain the CPU ID.
Linking $$BVP204 to the system library improves performance.
LINK$BVP SPJCL job
To link $$BVP204, use the LINK$BVP SPJCL job from the JCL library.
This is a required step in a Model 204 installation on z/VSE running under z/VM.
COPYVMPR job
To copy $$BVP204 to the System Residence Library, use the COPYVMPR job from the JCL library.
This is a required step in a Model 204 installation on z/VSE running under z/VM.
Installing terminal access methods and communications features
This section presents basic steps for installing these terminal access methods and communications features:
- Model 204 Virtual Telecommunications Access Method (VTAM) Interface.
- Horizon intersystem communication feature, which is required for Connect* support. This feature is provided in a limited edition without encryption. See “Installation considerations.”
- Parallel Query Option/204, which enables distributed file processing.
General VTAM installation steps
The basic steps for installing these features with Model 204 are:
- Link edit Model 204 with the appropriate object modules after commenting out the INCLUDEs for any features (PQO, Horizon, VTAM) not used at your site.
Note: The installation task list for each feature includes this step; however, you need to link edit Model 204 only once, after you apply the CPU ID zap and apply all available Early Warnings.
- Complete the Model 204 installation.
Installing the VTAM Interface
Installing Model 204 with VTAM requires defining Model 204 as a VTAM application program. Model 204 provides 3270 support, as well as VTAM support for full-screen terminals that are not 3270-compatible, by providing a mechanism for writing exit routines to convert data outside of the VTAM 3270 interface.
Rules governing data conversion exit routine coding are described in System management. To install the VTAM Interface, perform these steps:
Step | Task | Job |
---|---|---|
1. | Make sure that the link job contains INCLUDE LKVTAM. | LINKONLN |
2. | Define Model 204 as a VTAM application node using an APPL statement in VTMAPPL.B. | |
3. | Apply all early warnings and then link edit the Model 204 ONLINE phase. | LINKONLN |
Specifying a VTAMNAME
The network name of the Model 204 run is specified for VTAM in the Model 204 system parameter VTAMNAME. The VTAMNAME parameter in CCAIN is the same as the APPL statement name field.
The value of VTAMNAME is a string composed of 1-8 characters. The default is M204. VTAMNAME can be specified by the system manager on the User 0 parameter line.
For more information on VTAM parameters, see System management and Commands.
Installing the Horizon Interface
The Horizon intersystem communication feature is required for Connect* and TCP/IP support.
To install the Horizon Interface, perform these steps:
Step | Task | Job |
---|---|---|
1. | Make sure that the link job contains INCLUDE LKHRZN. | LINKONLN |
2. | Apply all early warnings and then link edit the Model 204 ONLINE phase. | LINKONLN |
For more information about Horizon, see the Rocket Model 204 Horizon: Intersystem Processing Guide.
Installing Parallel Query Option/204
Parallel Query Option/204 (PQO) enables distributed file processing.
To install PQO, perform these steps:
Step | Task | Job |
---|---|---|
1. | Make sure that the link job contains INCLUDE LKPQO. | LINKONLN |
2. | Apply all early warnings and then link edit the Model 204 ONLINE phase. | LINKONLN |
For more information about PQO, see the Parallel Query Option/204 User’s Guide.
Installing CRAM
The Cross-Region Access Method (CRAM) lets two or more Model 204 users in two or more partitions communicate with each other. CRAM is used by:
- BATCH2
- CICS Interface
- IFAM2
See Defining the user environment (CCAIN) for more information about CRAM.
Linking the CRAM phases
To link the CRAM phases (CRAMSWT, CRAMZWT, IGCLM244, and SNAPCRAM), use the LINKCRAM job from the JCL library.
Cataloging procedures
After you have upgraded to Model 204 7.5, you can store some of the more frequently used JCL in the form of cataloged procedures. The jobs to catalog these procedures are distributed in the JCL sublibrary.
To catalog procedures, modify each procedure as follows:
- Add POWER JCL
- Add the appropriate DLBL, EXTENT, and ASSGN information
The jobs assume that the M204JCL procedure is in the system library (IJSYSRS.SYSLIB). All other Rocket-supplied procedures are cataloged into the JCL sublibrary. The JCL to catalog frequently used procedures follows. Determine the new file, library volumes, and extents; then modify the procedures before cataloging them.
Procedures that can be cataloged
As needed, you can modify and catalog the following procedures using the jobs listed in the following table.
Procedure name | Catalog job | Description |
---|---|---|
M204DECR | CATDECR | Decryption files |
M204MSHP | CATMSHP | System history file |
M204WRK1 | CATWRK1 | Work file for decryption, translation, and assembly |
M204WRK2 | CATWRK2 | Work file for decryption, translation, and assembly |
M204SYS | CATSYS | System files (CCASYS, CCASTAT, CCATEMP) |
M204DD | DDINST, DDRINST | Dictionary/204 files |