900 Series HP 3000 Computer Systems HP SNA Products Remote System Configuration Guide ABCDE HP Part No. J2220-61025 Printed in U.S.A.
The information contained in this document is subject to change without notice. Hewlett-Packard makes no warranty of any kind with regard to this material, including, but not limited to, the implied warranties of merchantability or tness for a particular purpose. Hewlett-Packard shall not be liable for errors contained herein or for direct, indirect, special, incidental or consequential damages in connection with the furnishing or use of this material.
Printing History New editions are complete revisions of the manual. Updates, which are issued between editions, contain additional and replacement pages to be merged into the manual. The dates on the title page change only when a new edition or a new update is published. Edition 1 . . . . . . . . . . . . . . . . . . . . . . . . . . December 1992 Edition 2 . . . . . . . . . . . . . . . . . . . . . . . . . . December 1993 Edition 3 . . . . . . . . . . . . . . . . . . . . . . . . . .
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Preface MPE/iX, Multiprogramming Executive with Integrated POSIX, is the latest in a series of forward-compatible operating systems for the HP 3000 line of computers. In HP documentation and in talking with HP 3000 users, you will encounter references to MPE XL, the direct predecessor of MPE/iX. MPE/iX is a superset of MPE XL. All programs written for MPE XL will run without change under MPE/iX.
Chapter 2, JES Con guration, describes the required JES2, JES3, and POWER con gurations for SNA NRJE (MPE/V and MPE/iX). Relevant JES and POWER macros and parameters are described in the second half of the chapter. Chapter 3, CICS Con guration, describes the required CICS con gurations for SNA IMF (MPE/V and MPE/iX), LU 6.2 API (MPE/V and MPE/iX), LU 6.2 Base/V, and HP SNADS/iX. Relevant CICS macros and operands are described in the second half of the chapter.
Conventions UPPERCASE In a syntax statement, commands and keywords are shown in uppercase characters. The characters must be entered in the order shown; however, you can enter the characters in either uppercase or lowercase.
Conventions (continued) [ ... ] In a syntax statement, horizontal ellipses enclosed in brackets indicate that you can repeatedly select the element(s) that appear within the immediately preceding pair of brackets or braces. In the example below, you can select parameter zero or more times. Each instance of parameter must be preceded by a comma: [,parameter][...
Contents 1. ACF/NCP and ACF/VTAM Con guration MPE/V SNA Product Con guration . . . . . . . . . . . . ACF/NCP and ACF/VTAM Requirements . . . . . . . . . Switched Lines . . . . . . . . . . . . . . . . . . . . Non-Switched Lines . . . . . . . . . . . . . . . . . . Logmode Table Requirements . . . . . . . . . . . . . . MPE/iX SNA Product Con guration . . . . . . . . . . . . ACF/NCP and ACF/VTAM Requirements . . . . . . . . . Switched Lines . . . . . . . . . . . . . . . . . . . . Non-Switched Lines . . . . . .
PATH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . LU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Logmode Table Parameter Descriptions . . . . . . . . . . . . . . . . 1-61 1-62 1-63 2. JES Con guration SNA NRJE/V and SNA NRJE/iX Con guration JES2 Requirements (SNA NRJE) . . . . . . JES3 Requirements (SNA NRJE) . . . . . . VSE/POWER Requirements (SNA NRJE) . . JES2 Parameter Descriptions . . . . . . . . . Global JES2 Parameters . . . . . . . . . . LOGONn . . . . . . . . . .
4. IMS Con guration IMS Requirements . . IMS Macro and Operand TYPE . . . . . . . TERMINAL . . . . . . . . . . Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1 4-3 4-3 4-3 5. DISOSS Con guration SNADS/iX to DISOSS Con guration . . . . . . . Con guring HP Desk Resident Users in the DISOSS ADD Control Statement Parameter De nitions . .
A. VTAM Examples SNA NRJE Con guration Example . . . . . . . . . . . . Switched Major Node . . . . . . . . . . . . . . . . . SNA IMF Con guration Example . . . . . . . . . . . . . LU 6.2 API Con guration Example . . . . . . . . . . . . SNA NRJE, SNA IMF, & LU 6.2 API Con guration Example HP SNADS/iX Con guration Example . . . . . . . . . . SNA DHCF/iX Con guration Example . . . . . . . . . . Host Con guration for HP 3000 . . . . . . . . . . . . . Host Con guration for IBM 3270 Terminals . . . . . . .
Figures 5-1. 5-2. 6-1. 6-2. A-1. A-2. A-3. A-4. A-5. A-6. A-7. E-1. E-2. F-1. F-2. F-3. F-4. F-5. F-6. F-7. HP Desk Resident User Worksheet . . . . . . . IBM SNA/DS Resident User Worksheet . . . . . HP Desk Resident User Worksheet . . . . . . . IBM SNA/DS Resident User Worksheet . . . . . SNA NRJE Example Network . . . . . . . . . SNA IMF Example Network . . . . . . . . . . LU 6.2 API Example Network . . . . . . . . . SNA NRJE/SNA IMF/LU 6.2 Example Network . HP SNADS/iX Example Network . . . . . . . .
Tables 1-1. 1-2. 1-3. 1-3. 1-4. 1-5. 1-6. 1-7. 1-7. 1-8. 1-9. 1-10. 1-10. 1-11. 1-11. 1-11. 1-12. 1-12. 1-13. 1-14. 1-14. 1-15. 1-16. 1-17. 1-17. 1-18. 1-19. 1-20. 1-21. 1-21. 1-22. 1-23. 1-24. 1-25. 2-1. 2-1. 2-2. 2-3. 3-1. 3-2. 3-3. 3-4. 3-5. MPE/V Products: NCP/VTAM Switched Line . . . . . . . . . MPE/V Products: VTAMLST Switched Major Node . . . . . . MPE/V Products: NCP/VTAM Non-Switched Line . . . . . . . MPE/V Products: NCP/VTAM Non-Switched Line (cont.) . . . SNA NRJE/V: JES2 Logmode Table . . . .
3-5. TCT Macro to RDO Keyword Cross-Reference (cont.) . . . . . . . . . . 4-1. Con guring IMS Parameters for LU.T1 and LUT3 . . . . . . . . . . . 4-2. Con guring IMS Parameters for LU.T2 and LU.T2X . . . . . . . . . .
1 ACF/NCP and ACF/VTAM Configuration This chapter describes the IBM Advanced Communication Function Network Control Program (ACF/NCP) and Advanced Communication Function Virtual Telecommunication Access Method (ACF/VTAM) con guration parameters necessary for the operation of HP SNA products for the following two platforms: MPE/V MPE/iX MPE/V SNA Product Configuration This section covers remote system con guration requirements for the following MPE/V SNA products: SNA Link SNA IMF SNA NRJE LU 6.
ACF/NCP and ACF/VTAM Requirements The ACF/VTAM start parameters refer to the table and bu er size de nitions that ACF/VTAM uses to con gure the resource requirements for the network. Because start parameters apply to the entire VTAM domain and are not speci c to the remote node, HP does not make any suggestions. HP does recommend that the ACF/VTAM system programmer review the de ned values and make any adjustments for additional requirements put on the system.
Table 1-1. MPE/V Products: NCP/VTAM Switched Line Operands and Values Comments LUDRPOOL macro NUMTYPE2=n Required by all MPE/V SNA products. GROUP macro DIAL=YES LNCTL=SDLC REPLYTO TEXTTO TYPE=NCP Required by all MPE/V SNA products. Required by all MPE/V SNA products. Required by all MPE/V SNA products.
Table 1-2. MPE/V Products: VTAMLST Switched Major Node Operands and Values Comments VBUILD macro TYPE=SWNET Required by all MPE/V SNA products. PU macro puname PU ADDR=n ANS IDBLK=023 IDNUM=n DISCNT=NO ISTATUS MAXLU PUTYPE=2 SRT XID=YES Required by all MPE/V SNA products. Required by all MPE/V SNA products. Required by all MPE/V SNA products. Required for LU 6.2 API/V, LU 6.2 Base/V, SNA IMF/V, and SNA NRJE/V. Required by all MPE/V SNA products. Required by all MPE/V SNA products.
Non-Switched Lines Table 1-3 de nes the parameters necessary to connect MPE/V SNA products to a leased (non-switched) line. See Parameter Descriptions at the end of this chapter or refer to the appropriate NCP or VTAM manual for the remote system for more information. Table 1-3. MPE/V Products: NCP/VTAM Non-Switched Line Operands and Values Comments GROUP macro DIAL=NO LNCTL=SDLC REPLYTO TEXTTO TYPE=NCP Required by all MPE/V SNA products. Required by all MPE/V SNA products.
Table 1-3. MPE/V Products: NCP/VTAM Non-Switched Line (cont.) Operands and Values Comments SERVICE macro ORDER MAXLIST PU macro puname PU ADDR=n ANS DISCNT=NO IRETRY ISTATUS MAXDATA=265 or MAXDATA=521 MAXOUT=7 PASSLIM=7 PUTYPE=2 RETRIES=7 SRT XID=YES Required by all MPE/V SNA products. Required by all MPE/V SNA products. Required by all MPE/V SNA products. Required by all MPE/V SNA products. Required for type 2.1 node.
Logmode Table Requirements The Logmode table de nitions determine the operating characteristics of the session with a host LU|the bind parameters. The tables in this section de ne the Logmode table parameters necessary for MPE/V SNA products. Tables 1-4, 1-5, and 1-6 contain Logmode table parameters required for SNA NRJE/V for the JES2, JES3, and POWER job entry subsystems. Table 1-7 contains the Logmode table parameters required for SNA IMF/V.
Table 1-5. SNA NRJE/V: JES3 Logmode Table Required Parameters Values (hexadecimal) Comments COMPROT 7080 Required value. FMPROF 03 Required value. LOGMODE MODENRJE Suggested value. PSNDPAC 3 Suggested value. PRIPROT A1, A3, B1, or B3 Required value. PSERVIC 01102000F100C00000010040 Suggested value. RUSIZES* 8686 Required value. SECPROT A1 or A3 Required value. SSNDPAC 3 Suggested value. SRCVPAC 3 Suggested value. TSPROF 03 Required value.
Table 1-6. SNA NRJE/V: POWER Logmode Table Required Parameters Values (hexadecimal) COMPROT 7080 Comments Required value. FMPROF 03 Required value. LOGMODE MODENRJE Suggested value. PSNDPAC 3 Suggested value. PRIPROT A3 B3 Required value. PSERVIC 01102000F100C00000010040 Suggested value. RUSIZES* 8585 Required value. SECPROT A1 Required value. SSNDPAC 3 Suggested value. SRCVPAC 3 Suggested value. TSPROF 03 Required value.
Table 1-7. SNA IMF/V: Logmode Table Required Parameters Values (hexadecimal) COMPROT 3080 Comments Required value. FMPROF 03 Required value. LOGMODE IMFLU1 for LU.T1 IMF1920 for LU.T2 with 1920 size Suggested value. screen IMF480 for LU.T2 with 480 size screen IMF3440 for LU.T2 with 3440 size screen IMFLU3 for LU.T3 PSNDPAC 3 Suggested value. PRIPROT 11, 21, 31, A1, or B1 Required value. PSERVIC Printer (LU.T1): Suggested values. 01000000E100000000000000 Terminal (LU.
Table 1-7. SNA IMF/V: Logmode Table (cont.) Required Parameters Values (hexadecimal) Must be 8989 or less. 8587{LU.T1 Printer 8989{LU.T2 Terminal Comments Suggested value. SECPROT 90 (LU.T1/T3 printer), A0, or B0 Required value. SSNDPAC 3{LU.T1 and LU.T3 printers 0{LU.T2 terminals Suggested value. SRCVPAC 3 Suggested value. TSPROF 03 Required value. RUSIZES* (LU.T2 display station) * See Parameter Descriptions at the end of this chapter for an explanation of RUSIZES values.
Table 1-8. MPE/V LU 6.2: Logmode Table Required Parameters Values (hexadecimal) LOGMODE MODE62 Comments Suggested value. PSERVIC 000000000000000000000000 Suggested value. PSNDPAC 3 for LU 6.2 Base/V 3 for LU 6.2 API/V Suggested value. SSNDPAC 0 Suggested value. SRCVPAC 0 Suggested value. Note 1-12 The values in table 1-8 are for node type 2.0 (T2.0) only. For T2.1 LUs (that is, independent LUs), the actual logmode value is not important, as long as the logmode is a valid one.
MPE/iX SNA Product Configuration This section covers remote system con guration requirements for the following MPE/iX SNA products: SNA/SDLC Link/iX SNA/X.25 Link/iX SNA/Token Ring Link/iX SNA DHCF/iX SNA IMF/iX SNA NRJE/iX LU 6.2 API/iX HP SNADS/iX This section presents the requirements for: ACF/NCP and ACF/VTAM for switched and non-switched lines NCP Token-Ring Interconnection (NTRI) X.25 NCP Packet Switching Interface (NPSI) logmode table parameters.
ACF/NCP and ACF/VTAM Requirements The ACF/VTAM start parameters refer to the table and bu er size de nitions that ACF/VTAM uses to con gure the resource requirements for the network. Because start parameters apply to the entire VTAM domain and are not speci c to the remote node, HP does not make any suggestions. HP does recommend that the ACF/VTAM system programmer review the de ned values and make any adjustments for additional requirements put on the system.
Table 1-9. MPE/iX SNA Products: NCP/VTAM Switched Line Operands and Values Comments LUDRPOOL macro NUMTYPE2=n Required by all MPE/iX SNA products. GROUP macro DIAL=YES LNCTL=SDLC REPLYTO TEXTTO TYPE=NCP Required by all SNA products. Required by all MPE/iX SNA products. Required by all MPE/iX SNA products.
Table 1-10. MPE/iX SNA Products: VTAMLST Switched Major Node Operands and Values Comments VBUILD macro TYPE=SWNET Required by all MPE/iX SNA products. PU macro puname PU ADDR=n ANS IDBLK=023 IDNUM=n DISCNT=NO ISTATUS MAXLU PUTYPE=2 SRT XID=YES 1-16 Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required for SNA IMF/iX, SNA NRJE/iX, LU 6.2 API/iX, HP SNADS/iX, SNA DHCF/iX. Required by all MPE/iX SNA products.
Table 1-10. MPE/iX SNA Products: VTAMLST Switched Major Node (cont.) Operands and Values Comments LU macro luname LU LOCADDR=n BATCH=YES DLOGMOD ISTATUS MODETAB=HPMODTAB PACING=0 SSCPFM=FSS SSCPFM=USSSCS VPACING=0 USSTAB LOGAPPL Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Set to 0 for independent LUs. Recommended for SNA NRJE/iX on applicable versions of ACF/NCP. This parameter is not supported for ACF/NCP version 5 or later. Do not specify for SNA DHCF/iX.
Non-Switched Lines Table 1-11 de nes the parameters necessary to connect MPE/iX SNA products to a leased (non-switched) line. See Parameter Descriptions at the end of this chapter or refer to the appropriate NCP or VTAM manual for the remote system for more information. Table 1-11. MPE/iX SNA Products: NCP/VTAM Non-Switched Line Operands and Values Comments GROUP macro DIAL=NO LNCTL=SDLC REPLYTO TEXTTO TYPE=NCP Required by all MPE/iX SNA products. Required by all MPE/iX SNA products.
Table 1-11. MPE/iX SNA Products: NCP/VTAM Non-Switched Line (cont.) Operands and Values Comments SERVICE macro ORDER MAXLIST PU macro puname PU ADDR=n ANS DISCNT=NO IRETRY ISTATUS MAXDATA=265 or MAXDATA=521 MAXOUT=7 PASSLIM=7 PUTYPE=2 RETRIES=7 SRT XID=YES Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required for type 2.1 node.
Table 1-11. MPE/iX SNA Products: NCP/VTAM Non-Switched Line (cont.) Operands and Values Comments LU macro luname LU LOCADDR= n BATCH=YES DLOGMOD ISTATUS MODETAB=HPMODTAB PACING=0 SSCPFM=FSS SSCPFM=USSSCS VPACING=0 USSTAB LOGAPPL 1-20 Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Set to 0 for independent LUs. Recommended for SNA NRJE/iX on applicable versions of ACF/NCP. This parameter is not supported for ACF/NCP version 5 or later. Do not specify for SNA DHCF/iX.
NTRI Requirements This section de nes the Network Control Program Token-Ring Interconnection (NTRI) parameters that are necessary for a successful connection between a host and MPE/iX SNA products. The ACF/VTAM start parameters refer to the table and bu er size de nitions that ACF/VTAM uses to con gure the resource requirements for the network. Because start parameters apply to the whole network and are not speci c to the remote node, HP does not make any suggestions.
NTRI Parameters NTRI is an NCP function that allows a communications controller to be attached to an IBM Token-Ring network. NTRI provides SNA subarea and peripheral nodes with data link control services. Table 1-12 contains NTRI parameters that are de ned in NCP. Table 1-13 contains the VTAM switched major node parameters for NTRI. Table 1-12.
Table 1-12. MPE/iX SNA Products: NTRI Parameters (cont.) Operands and Values Comments GROUP macro (logical) ECLTYPE=(LOGICAL, PERIPHERAL) DIAL=YES PHYPORT=n Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. LINE macro linename LINE Required by all MPE/iX SNA products. PU macro puname LU Note Required by all MPE/iX SNA products. Table 1-13 contains those parameters that are added to the BUILD statement for NTRI.
Table 1-13. MPE/iX SNA Products: NTRI Switched Major Node Operands and Values Comments VBUILD macro TYPE=SWNET Required by all MPE/iX SNA products. PU macro puname PU ADDR=n ANS=CONT IDBLK=n IDNUM=n DISCNT=NO ISTATUS=ACTIVE MAXDATA MAXLU PUTYPE=2 SRT XID=YES MAXDATA= n Required by all name. Required by all Required by all Required by all Required by all MPE/iX SNA products. Must match logical PU MPE/iX MPE/iX MPE/iX MPE/iX SNA products. SNA products. SNA products. SNA products.
X.25 NPSI Requirements This section de nes the X.25 Network Control Program Packet Switching Interface (NPSI) parameters that are necessary for a successful connection between a host and MPE/iX SNA products. The ACF/VTAM start parameters refer to the table and bu er size de nitions that ACF/VTAM uses to con gure the resource requirements for the network. Because start parameters apply to the whole network and are not speci c to the remote node, HP does not make any suggestions.
Table 1-14. MPE/iX SNA Products: Common SVC/PVC Parameters Operands and Values Comments BUILD macro X25.MAXPIU=n X25.MWINDOW=7 X25.PREFIX X25.SNAP X25.USGTIER Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. X25.NET macro CPHINDX DM NETTYPE OUHINDX Required by all MPE/iX SNA products. X25.VCCPT macro INDEX=index INSLOW MAXPKL=128 VWINDOW=7 Required by all MPE/iX SNA products. X25.
Table 1-14. MPE/iX SNA Products: Common SVC/PVC Parameters (cont.) Operands and Values LLCLIST=LLC3 MWINDOW SUBADDR NCPGRP NDRETRY NPRETRY PAD=NO PKTMODL=8 PUNAME PWPROT SPAN SPEED SPNQLLC=NO STATION STATOPT T1TIMER TDTIMER TPTIMER VMODTAB Comments Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. X25.LCG macro LCGN=groupnumber Required by all MPE/iX SNA products.
PVC Parameters Table 1-15 de nes the NPSI parameters that are necessary to connect to a PVC. See the Parameter Descriptions at the end of this chapter or refer to the NPSI manual for the remote system for more information. Table 1-15. MPE/iX SNA Products: PVC NPSI Parameters Operands and Values Comments X25.LINE macro COMMITO DSTNODE=BNN ISTATUS LCN=nnnn NCPGRP RETVCCT RETVCTO SPAN STATOPT TYPE=PERMANENT VCCINDX Required by all MPE/iX SNA products. Required by all MPE/iX SNA products.
SVC Parameters There are two methods that can be used to de ne an SVC: Use the X25.LINE macro, the X25.PU macro, and the Switched Major Node parameters for SVCs. Use the X25.VC macro and the Switched Major Node parameters for SVCs. The method chosen depends upon the remote system. See the Parameter Descriptions at the end of this chapter or refer to the NPSI manual for the remote system for more information. Table 1-16 de nes the NPSI parameters that are necessary to connect to an SVC.
Table 1-16. MPE/iX SNA Products: SVC NPSI Parameters Operands and Values Comments X25.LINE macro LCN=ennn TYPE=SWITCHED OUFINDX LLC=LLC3 VCCINDX= index CALL=IN DSTNODE=BNN COMMITO ISTATUS NCPGRP RETVCCT RETVCTO SPAN STATOPT Required by all Required by all Required by all Required by all Required by all Required by all Required by all MPE/iX MPE/iX MPE/iX MPE/iX MPE/iX MPE/iX MPE/iX SNA products. SNA products. SNA products. SNA products. SNA products. SNA products. SNA products. X25.
Table 1-17. MPE/iX SNA Products: SVC Switched Major Node Operands and Values Comments VBUILD macro TYPE=SWNET Required by all MPE/iX SNA products. PU macro puname pu ANS IDBLK=023 IDBLK=017 IDBLK=018 IDNUM=n DISCNT=NO ISTATUS MAXLU MAXDAT MAXPATH PASSLIM PUTYPE=2 SRT Required by all MPE/iX SNA products. Required for LU 6.2 API/iX, SNA NRJE/iX, and HP SNADS/iX. Required for SNA IMF/iX and SNA DHCF/iX IBM 3274 emulation. Required for SNA IMF/iX and SNA DHCF/iX IBM 3276 emulation.
Table 1-17. MPE/iX SNA Products: SVC Switched Major Node (cont.) Operands and Values Comments LU macro luname LU LOCADDR= address BATCH=YES DLOGMOD ISTATUS MODTAB=HPMODTAB PACING=0 SSCPFM=FSS SSCPFM=USSSCS VPACING=0 USSTAB LOGAPPL 1-32 Required by all MPE/iX SNA products. Required by all MPE/iX SNA products. Recommended for SNA NRJE/iX on applicable versions of ACF/NCP. This parameter is not supported for ACF/NCP version 5 or later. Do not specify for SNA DHCF/iX. Do not specify for SNA DHCF/iX.
Logmode Table Requirements The Logmode table de nitions determine the operating characteristics of the session with a host LU|the bind parameters. The tables in this section de ne the Logmode table parameters necessary for MPE/iX SNA products. Tables 1-18, 1-19, and 1-20 contain Logmode table parameters required for SNA NRJE/iX for the JES2, JES3, and POWER job entry subsystems. Table 1-21 contains the Logmode table parameters required for SNA IMF/iX.
Table 1-19. SNA NRJE/iX: JES3 Logmode Table Required Parameters Values (hexadecimal) Comments COMPROT 7080 Required value. FMPROF 03 Required value. LOGMODE MODENRJE Suggested value. PSNDPAC 3 Suggested value. PRIPROT A1, A3, B1, or B3 Required value. PSERVIC 01102000F100C00000010040 Suggested value. RUSIZES* 8686 Required value. SECPROT A1 or A3 Required value. SSNDPAC 3 Suggested value. SRCVPAC 3 Suggested value. TSPROF 03 Required value.
Table 1-20. SNA NRJE/iX: POWER Logmode Table Required Parameters Values (hexadecimal) COMPROT 7080 Comments Required value. FMPROF 03 Required value. LOGMODE MODENRJE Suggested value. PSNDPAC 3 Suggested value. PRIPROT A3 B3 Required value. PSERVIC 01102000F100C00000010040 Suggested value. RUSIZES* 8585 Required value. SECPROT A1 Required value. SSNDPAC 3 Suggested value. SRCVPAC 3 Suggested value. TSPROF 03 Required value.
Table 1-21. SNA IMF/iX: Logmode Table Required Parameters Values (hexadecimal) COMPROT 3080 Comments Required value. FMPROF 03 Required value. LOGMODE IMFLU1 for LU.T1 IMF1920 for LU.T2 with 1920 size Suggested value. screen IMF480 for LU.T2 with 480 size screen IMF3440 for LU.T2 with 3440 size screen IMFLU3 for LU.T3 PSNDPAC 3 Suggested value. PRIPROT 11, 21, 31, A1, or B1 Required value. PSERVIC Printer (LU.T1): Suggested value. 01000000E100000000000000 Terminal (LU.
Table 1-21. SNA IMF/iX: Logmode Table (cont.) Required Parameters Values (hexadecimal) Must be 8989 or less. 8587{LU.T1 Printer 8989{LU.T2 Terminal Comments Suggested value. SECPROT 90 (LU.T1/T3 printer), A0, or B0 (LU.T2 display station) Required value. SSNDPAC 3{LU.T1 and LU.T3 printers 0{LU.T2 terminals Suggested value. SRCVPAC 3 Suggested value. TSPROF 03 Required value. RUSIZES* * See Parameter Descriptions at the end of this chapter for an explanation of RUSIZES values.
Table 1-22. SNA DHCF/iX: Logmode Table Required Parameters Values (hexadecimal) COMPROT 3080 FMPROF LOGMODE 03 DHCF1920 for 1920 size screen DHCF2560 for 2560 size screen DHCF3440 for 3440 size screen Required value. Suggested values. dP12D4A3278 may be used for Model 2 devices. PRIPROT B1 Required value. PSERVIC Screen size of 1920 (24 x 80): Suggested values. 020000000000185000007E00 Comments Required value.
Table 1-23. Non-SNA HCF Devices: Logmode Table Required Parameters Values (hexadecimal) Comments COMPROT 2000 Required value. FMPROF 02 Required value. D4B32782, the standard LOGMODE IBM-supplied logmode entry for non-SNA or BSC Model 2 devices, may be used. PRIPROT 71 Required value. PSERVIC Screen size of 1920: Suggested value. RUSIZES* A8A8 Suggested value. SECPROT 40 Required value. TSPROF 02 Required value.
Table 1-24. MPE/iX LU 6.2 Products: Logmode Table Required Parameters Values (hexadecimal) LOGMODE MODE62 Comments Suggested value. PSERVIC 000000000000000000000000 Suggested value. PSNDPAC 3 for LU 6.2 API/iX 3 for HP SNADS/iX Suggested value. SSNDPAC 0 Suggested value. SRCVPAC 0 Suggested value. Note 1-40 The values in table 1-24 are for node type 2.0 (T2.0) only. For T2.1 LUs (that is, independent LUs), the actual logmode value is not important, as long as the logmode is a valid one.
Parameter Descriptions ACF/NCP and ACF/VTAM Macro and Operands Descriptions This section describes the ACF/NCP and ACF/VTAM operands for the LUDRPOOL, GROUP, LINE, SERVICE, VBUILD, PU, and LU macros. This section contains generic descriptions of the macros and operands. Refer to the tables earlier in this chapter for operand values that are speci c to the con guration of the HP SNA products. See the NCP or VTAM manual for the remote system for a more thorough explanation of the parameters and their values.
TEXTTO Speci es the time-out value between characters in a message. If the time between characters exceeds this value, the NCP ends the read or write operation with a text time-out error. NCP parameter Default: 3.0 Range: 0{1632 Speci es the mode in which the lines in the group operate. NCP parameter TYPE Default: NCP Range: EP,NCP,PEP LINE This macro de nes a communications link to the host.
HDXSP Speci es whether the NCP has priority over polling when sending data. NCP parameter Default: NO Range: YES,NO LPDATS Speci es whether modems support LPDA commands. NCP parameter Default: NO Range: YES,LPDAT1,[LPDATA1,3867],LPDA2 MAXPU Speci es the maximum number of PUs that may be de ned on this line. Value must be at least equal to the number of PUs de ned. Coding this operand is not necessary unless dynamic recon guration is used. NCP parameter Default: The number of PUs de ned.
Range: YES,NO TRANSFR OWNER See the ACF/NCP installation manual for the remote system for restrictions. NCP parameter Used for the division of resources within VTAM. See the NCP/VTAM manual for the remote system. VTAM parameter SERVICE This macro creates a service order table for non-switched lines. Service order refers to the order in which devices on the line are serviced by the scanner. The SERVICE macro is invalid for switched lines.
DISCNT Speci es that the PU-SSCP session is to terminate after the last LU-LU session logs o . VTAM parameter Default: NO Range: YES, NO ISTATUS Speci es whether automatic activation of this PU occurs when ACF/VTAM is started. VTAM parameter Default: ACTIVE Range: ACTIVE, INACTIVE IRETRY Speci es whether the NCP services the next device polled or immediately retries when an idle-detect time-out condition follows a polling operation.
Range: 1{32768 Speci es whether or not the host sends an XID to the remote PU. For type 2.1 node operation, XID must be set to YES. NCP parameter XID Range: YES, NO LU There must be an LU de nition for each LU associated with a PU. An LU macro must be coded for each IBM 3270 emulation device attached to an IBM 3270 service. For example, emulation of an IBM 3274 cluster controller with three IBM 3278 keyboard/displays and one IBM 3286 printer requires four separate LU macro statements.
Range: 0{255 SSCPFM Speci es whether an LU can support character-coded messages, or only formatted commands for communication with the SSCP. VTAM parameter Default: FSS Range: FSS,USSSCS VPACING Speci es pacing between NCP and host on a speci c LU-LU session. VTAM parameter Default: 1 Range: 0{63 USSTAB Speci es the unformatted system services (USS) table that VTAM uses to translate character-coded requests. This parameter must be speci ed only at the LU macro level.
ECLTYPE=(PHYSICAL, PERIPHERAL) ECLTYPE=(LOGICAL, PERHIPHERAL LNCTL=SDLC Speci es whether this GROUP de nition statement de nes a physical or a logical connection to the token ring. At least one physical connection must be coded in a GROUP de nition statement to de ne the token-ring interface coupler (TIC). At least one logical connection must be coded in a GROUP de nition statement to de ne the devices attached to the token ring. Speci es the line control for lines in the group.
NPSI Macro and Operand Descriptions This section describes the NPSI macros and operands listed in the preceding tables. This section contains generic descriptions of NPSI macros and operands. Refer to the tables earlier in this chapter for operand values that are speci c to the con guration of HP SNA products. See the X.25 Network Control Program Packet Switching Interface manual for the remote system for a more thorough explanation of the parameters and their values.
X25.NET The X25.NET statement describes a Packet Switched Data Network. Each PSDN connected to the host must be described by a separate X25.NET statement. Up to nine X25.NET statements may be speci ed. DM Speci es whether the Packet Switched Data Network (PSDN) receives or sends the LAPB DM command. Note that the DM command is not supported by all PSDNs. Default: None Range: YES, NO CPHINDX Speci es the highest index value coded for the X25.VCCPT statements in this NPSI generation.
Range: 32, 64, 128, 256, 512, 1024, 2048, 4096 INSLOW Speci es the percentage of free bu ers that must be used before entering unsafe or danger conditions for the virtual circuits associated with this VCCPT entry. When this keyword is coded, two percentages must be supplied, separated by a comma. Percentage 1|the unsafe percentage Percentage 2|the danger percentage These values are not absolute; they are de ned in relation to the value of the NCP SLODOWN keyword.
Note that this value will not be the same as the Frame Size value in the HP DTC con guration. HP DTC con guration interprets Frame Size to equal the value of the X.25 N1 parameter divided by 8, which is the sum of the data packet size plus 3 bytes for the packet header and 4 bytes for the LAP-B header and LAP-B trailer. HP's Frame Size value re ects the maximum frame length in bytes owing over the physical circuit.
Range: 0.1{1632.0 seconds (speci ed in tenths of a second) ENABLTO Speci es the maximum delay during which the DTE expects the DSR signal to come up after the enable command is issued. Default: 3.0 seconds Range: 0.1{1632.0 seconds (speci ed in tenths of a second) GATE Speci es whether the physical circuit supports General Access to X.25 Transport Extended (GATE), or Dedicated Access to X.25 Transport Extended (DATE).
The value LLC3 signi es that multiple SVCs can connect to an SNA peripheral node using the QLLC protocol. Default: None Range: LLC0, LLC2, LLC3, LLC4, LLC5 NCPGRP Speci es the label of the NCP GROUP statement that includes this physical circuit. Omitting this keyword, or specifying NEW causes a label to be created by X.25 NPSI. If you specify a label, an NCP GROUP statement is generated with a name matching the label.
Default: NO Range: YES, NO STATION Speci es whether the MCH operates as a DTE or a DCE. The value DTE must be used to support a normal connection to a network node. Default: DTE Range: DCE, DTE STATOPT T1TIMER This keyword is used by Netview. Refer to the appropriate NetView documentation for more information. Speci es how many seconds the DCE waits for frame acknowledgment. Note that the value of 0 does not allow for link-level piggybacking. Can be speci ed in tenths of a second.
Speci es whether this X25.VC statement de nes a switched virtual circuit (SVC) or a permanent virtual circuit (PVC). TYPE Code TYPE=SWITCHED to de ne an SVC. If you code this value, you must also code the OUFINDX keyword, which points to the X25.OUFT entry that name the facility set you wish to use for this line. Code TYPE=PERMANENT to de ne a PVC. If you code this value, you must also code the LLC keyword, which speci es the type of PVC being de ned.
Range: N/A OWNER Passes the OWNER parameter to the NCP LINE statement generated by this X25.VC statement. Default: N/A Range: N/A RETVCCT Speci es how many times a physical services command is to be retransmitted. This keyword is used for virtual circuits connected to SNA DTEs. Default: 3 Range: RETVCTO 0{255 Speci es the time interval between retransmissions of physical services commands. This keyword is only valid when the virtual circuit is associated with a DTE.
LLC VCCINDX packet. This keyword must be speci ed if TYPE=SWITCHED. This value must correlate to the value of the appropriate INDEX keyword of the X25.OUFT statement. Speci es the type of permanent virtual circuit de ned. LLC=LLC3 means that the PVC is attached to an SNA peripheral node. This keyword must be speci ed if TYPE=PERMANENT. Speci es the X25.VCCPT statement that describes the connection parameters that this virtual circuit uses. This value must match the X25.
Range: N/A OWNER Passes the OWNER parameter to the NCP LINE statement generated by this X25.LINE statement. The OWNER parameter is used to control the division of resources within VTAM. Default: N/A Range: N/A RETVCCT Speci es how many times a physical services command is retransmitted. This keyword is used for virtual circuits connected to SNA DTEs. Default: 3 Range: RETVCTO 0{255 Speci es the time interval between retransmissions of physical services commands.
PU The PU macro de nes variables associated with data link control, such as the station address and link bu er size, and other variables, such as initial status and Exchange ID (XID). puname PU A symbolic name for this PU. The PU name consists of one to eight characters; it must be unique throughout the network. ANS Speci es whether the station stops or continues when the ACF/NCP goes into automatic network shutdown.
SRT Speci es threshold values for the total number of transmissions and the total number of error retries for this PU. Default: (32768,32768) Range: 1{32768 PATH The PATH statement de nes a dial-out path to a PU residing in a switched major node. Up to 256 PATH statements may be de ned for each PU. USE Speci es to VTAM whether or not this path is initially usable or not. The e ect of this parameter is similar to that of ISTATUS for a minor node.
Speci es the symbolic name of a GROUP statement in an NCP major node that de nes a group of SDLC switched links. The group referenced must have all the characteristics necessary to handle the telephone number, and must be compatible with the type of physical unit. Speci es the path being de ned. This identi er is unique for a given PU. GRPNM PID Range: 0{255 LU There must be an LU de nition for each LU associated with a PU.
SSCPFM Speci es whether an LU can support character coded messages, or only formatted commands for communication with the SSCP. VTAM parameter Default: FSS Range: FSS,USSSCS VPACING Speci es pacing between host and NCP. VTAM parameter Default: 1 Range: 0{63 USSTAB Speci es the unformatted system services (USS) table that VTAM uses to translate character-coded requests.
PSERVIC=X'. . . . . . . . . . . . xxxx. . . . . . . . ' (PS Usage - Default Screen Size) 2 bytes PSERVIC=X'. . . . . . . . . . . . . . . . xxxx. . . . ' (PS Usage - Alternate Screen Size) 2 bytes PSERVIC=X'. . . . . . . . . . . . . . . . . . . . xx..' (PS Usage - Screen Selection) 1 byte PSERVIC=X'. . . . . . . . . . . . . . . . . . . . ..xx' (Cryptography Options) Default: 000000000000000000000000 Range: 0{FFFFF . . .
Table 1-25.
2 JES Configuration This chapter contains the JES con guration parameters necessary for a successful connection between JES2, JES3, and POWER and the following HP products: SNA NRJE/V and SNA NRJE/iX Warning The HP SNA products are emulations of the IBM products. So, some parameters will need particular values based on the requirements needed by the HP products. Code these as specified or results are unpredictable.
SNA NRJE/V and SNA NRJE/iX Configuration JES2 Requirements (SNA NRJE) The JES2 con guration consists of de ning the remote workstation to JES2 in a con guration le. JES2 requires (either speci cally or by default) that the following information be de ned for each workstation: JES2 global parameters LINEnnnn |line de nition RMTnnnn |remote workstation de nition Rnnnn .PRm |remote printer de nition Rnnnn .PUm |remote punch de nition Rnnnn .
Table 2-1. SNA NRJE: JES2 Parameters (cont.) Pre-version 4.1 Parameters Version 4.1 Parameters Comments Rnnnn .PRm macro SELECT SEP UCS=O Required for Ver. 1.3.2 and earlier. Required. Do NOT specify. Do NOT specify. Required. Do NOT specify. If speci ed, must be between 40 and 255. Required (value must be between 40 and 255). Do NOT specify. Required. Required. CCTL=YES CMPCT=YES/NO COMPRESS=YES/NO START=YES SELECT SEP Required for Ver. 1.3.3 and earlier. Required. Do NOT specify. Do NOT specify.
JES3 Requirements (SNA NRJE) The JES3 con guration consists of de ning the remote workstation to JES3 in a con guration le. JES3 requires (either speci cally or by default) that the following information be de ned for each workstation: JES3 global parameters CONSOLE|remote workstation console DEVICE|to de ne printers and punches RJPWS|remote workstation de nition JES3 macro and operand values for SNA NRJE should be coded as though a DPPX/RJE 8100 SNA workstation were being installed.
VSE/POWER Requirements (SNA NRJE) The VSE/POWER con guration consists of de ning the remote workstation to VSE/POWER in a con guration le. VSE/POWER requires (either speci cally or by default) that the following information be de ned for each workstation: VSE/POWER global parameters PRMT|remote workstation de nition VSE/POWER macro and operand values for SNA NRJE should be coded as though a DPPX/RJE 8100 SNA workstation were being installed.
JES2 Parameter Descriptions Global JES2 Parameters Note that the global parameters and subparameters described below have special implications for the SNA NRJE workstation de nitions. Caution The parameters are speci ed in version 1.3.4 format, and must be converted to the new format if your installation is running JES 1.3.6 or later. &STDFORM=vvvvvvvv When a forms ID is not speci ed, this parameter speci es the default forms ID.
JES2 Macros and Parameters This section describes JES2 macros and parameters. Parameters are listed according to JES2 version 4.1 syntax. Some parameters used a di erent syntax in earlier versions of JES2 than in 4.1; the pre-4.1 syntax is shown in parentheses. LINEnnn Password=xxxxxxxx UNIT=SNA A security measure to keep unauthorized users from using this line. Speci es that this is a logical line used in an SNA environment.
Speci es that JES2 is to inform the remote operator of any setup requirements through messages to the operator console. The alternative parameter, SETUP=PDIR, speci es that the setup information is sent in a Function Management Header. For more information, see the JES2 installation guide for your system. SETUP=PDIR (SETUPHDR) Causes JES2 to send a PDIR to the remote workstation. SNA NRJE interprets the information contained there, enabling it to print extra copies and perform Job Management tasks.
Sep=YES START=YES START Speci es that separator pages will be provided between data set groups. Causes JES2 to start this printer when it starts processing; so, the DRAIN parameter must not be speci ed. Default: If neither the START parameter nor the DRAIN parameter is speci ed, this macro (Rnnnn .PRm ) defaults to START. UCS=0 Speci es the universal character set (UCS) is to be mounted for any output that does not specify a UCS. Rnnnn.
Rnnnn.RDm This macro speci es the characteristics of a card reader at a remote terminal. nnnn is the number of the remote terminal speci ed in the RMTnnnn statement. START Causes JES2 to start this reader when it starts processing.
JES3 Parameter Descriptions Global JES3 Parameters Note that the global parameters and subparameters described below have special implications for the SNA NRJE workstation de nitions. BUFFER BUFSIZE=nnnn The length, in bytes, of each record in spool data sets. The value must be a multiple of four. Range: 1024{4048 Default: 1248 COMMDEFN APPLID=JES3 The job entry subsystem VTAM is expecting.
Recommended value: This parameter (FORMS) should match theCDSTOCK parameter (described above). This makes SNA NRJE Job Management easier to use. Default: 1PRT JES3 Macros and Parameters CONSOLE JNAME=name TYPE=RJP DEST=destcode The name of the SNA remote job processing (RJP) workstation, as given in the RJPWS macro. De nes this workstation as an RJP workstation. The type of console messages this console is to receive.
FORMS=forms Indicates whether the forms can be changed during writer execution (YES or NO), and designates the initial form to be mounted on the printer. STANDARD means that whatever is speci ed on the OUTSERV global parameter is to be used. Recommended value: (YES,STANDARD) Default: (YES,STANDARD) JNAME=name SELECT=EX1 The name of the SNA RJP workstation, as given in the RJPWS macro (described below). Required for an exchange device.
LEVEL=nn The level of authority for the console. Commands allowed at this console are determined by the authority level.
POWER Parameter Descriptions Global POWER Parameters Note that the global parameters and subparameters described below have special implications for the SNA NRJE workstation de nitions. POWER BLOCKGP=n The block group size for data les. FBA devices only . Specify this parameter for Recommended value: 0 Default: 0 COPYSEP=YES/NO Speci es whether separator pages/cards are produced between each copy of the output.
If a priority is not speci ed on the * $ $ JOB statement, the priority will default to the value speci ed here. PRI=n Range: 1{9 Default: 3 RBS=(n,m ) The number of pages and cards to be processed before segmentation happens. Range: 1{999999 Recommended value: (0,0) Default: (0,0), which means no segmentation. RJEBSC=YES/NO Speci es whether RJEBSC code should be loaded. If no BSC nodes exist, specify NO.
POWER Macro and Parameters PRMT CMPACT=name CONSOLE=YES LSTROUT LU=name PSWRD=password PUNROUT REMOTE=nnn Do not specify this parameter . Hewlett-Packard does not support compaction. Speci es whether outbound data will be interrupted for messages to the remote operator. This parameter can be speci ed only if the workstation has a line printer in addition to a terminal console. The default destination for output from jobs submitted by this remote workstation.
3 CICS Configuration This chapter contains the CICS con guration parameters necessary for a successful connection between CICS and the following HP products: SNA IMF/V and SNA IMF/iX LU 6.2 API/V and LU 6.2 API/iX LU 6.2 Base/V HP SNADS/iX The SNA IMF product emulates an IBM 3274/3276 cluster controller (PU.T2) with attached terminal/printer devices. These emulations implement one of the following LU types: An IBM 3270 keyboard/display|LU type 2 (LU.T2 or LU.T2X) IBM 3270 printers|LU types 1 or 3 (LU.
Terminal Control Table Requirements The Terminal Control Table (TCT) de nes the logical units used by CICS. The TCT macro DFHTCT TYPE=TERMINAL speci es the CICS environment for IBM 3270 keyboard/displays and printers. This environment can include telecommunications devices, sequential processing devices, graphic devices, and intersystem and interregion links. The macro DFHTCT TYPE=SYSTEM de nes the environment for remote systems served by an LU type 6.2.
DFHTCT TYPE=TERMINAL Requirements Tables 3-1 through 3-3 contain parameters for the DFHTCT TYPE=TERMINAL macro. This macro de nes an IBM 3270 LU to CICS. One macro must be coded for each LU. Table 3-1. Configuring LU Type 1 in CICS Parameters Value Comments ACCMETH VTAM Required BUFFER 256 Suggested value. CHNASSY NO Suggested value. ERRATT NO Suggested value. FEATURE AUDALARM Suggested value. FF YES Suggested value. HF YES Suggested value.
Table 3-2. Configuring LU Type 2 in CICS Parameters Value ACCMETH VTAM Comments Required. BUFFER 1536 Suggested value. CHNASSY YES Suggested value. FEATURE AUDALARM SELCTPEN Suggested value. GMMSG YES Suggested value. NETNAME name RELREQ NO, YES Suggested value. RUSIZE 256 Required. TCTUAL n TIOAL n,n Maximum chain size must not exceed 3870 when con guring SNA IMF for data stream mode. TRMIDNT name Required. TRMMODL 2 Required. TRMTYPE LUTYPE2 Required.
Table 3-3. Configuring LU Type 3 in CICS Parameters Value Comments ACCMETH VTAM Required. BUFFER 256 Suggested value. CHNASSY NO Suggested value. FEATURE AUDALARM Suggested value. FF NO Required. HF NO Required. NETNAME name Suggested value. PGESTAT AUTOPAGE Suggested value. RELREQ YES, YES Suggested value. RUSIZE 256 Required. TCTUAL n Suggested value. TRMIDNT name Required. TRMMODL 2 Required. TRMTYPE LUTYPE3 Required. TRMSTAT RECEIVE Suggested value.
DFHTCT TYPE=SYSTEM Requirements Table 3-4 contains parameters for the DFHTCT TYPE=SYSTEM macro. This macro de nes an LU 6.2 intercommunication link to CICS. Table 3-4. Configuring LU Type 6.2 in CICS 3-6 Parameters Value Comments ACCMETH VTAM Required. BUFFER 256 Required. FEATURE SINGLE APPC/V and APPC/iX do not support parallel CICS sessions. NETNAME name RUSIZE 256 Required. SYSIDNT sysname Required. TRMTYPE LUTYPE62 Required. TRMSTAT TRANSCEIVE Required.
CICS Macro and Operand Descriptions This section describes CICS operands for the macros DFHTCT TYPE=TERMINAL and DFHTCT TYPE=SYSTEM. Warning The configuration values HP's SNA products require are in the tables that precede this section. Discussion of a specific value in the following pages does not imply that a particular HP SNA product can support that value.
GMMSG Speci es whether the CICS \good morning" message will be displayed when the logical unit is signed on to VTAM. If you have speci ed ERRATT=LASTLINE, the \good morning" message will not overwrite the error message line. Default: NO Speci es whether the LU supports the SCS Horizontal Format (HF) feature. HF Default: NO NETNAME Speci es a one-to-eight character symbolic name, which is the LUname speci ed for this LU in the NCP/VTAM generation.
TRMSTAT The value for this operand speci es the types of activity that may occur at a terminal. TRANSCEIVE speci es that a given terminal can initiate transactions and receive messages. RECEIVE indicates that a terminal can receive messages, but cannot accept input. Default: TRANSCEIVE VF Speci es whether the LU supports the SCS Vertical Format (VF) feature. Default: NO DFHTCT TYPE=SYSTEM Macro The DFHTCT TYPE=SYSTEM macro is used to de ne the characteristics of an LU type 6.
Resource Definition Online Resource De nition Online (RDO) allows a system programmer to interactively de ne resources to CICS. The system programmer can install RDO de nitions as CICS system tables, by specifying a list of de nitions at system initialization time. The system programmer can also install these de nitions while CICS is running, so that they can be used immediately.
Table 3-5. TCT Macro to RDO Keyword Cross-Reference (cont.
4 IMS Configuration This chapter contains the IMS con guration parameters necessary for a successful connection between IMS and the HP SNA products listed below: SNA IMF/V and SNA IMF/iX These products emulate an IBM 3274/3276 cluster controller (PU.T2) with attached terminal/printer devices. Each of the terminal/printer emulations can be LU type 1 (LU.T1), 2 (LU.T2), or 3 (LU.T3). IMS Requirements The IMS con guration consists of de ning the LU and its associated end-user device.
Table 4-1. Configuring IMS Parameters for LU.T1 and LUT3 IMS Operands and Values Comments TYPE macro UNITTYPE=SLUTYPE1 Required. TERMINAL macro NAME=luname MODEL=2 MSGDEL=NOTERM OUTBUF= bufsize Required. Required. Required. Required. Table 4-2. Configuring IMS Parameters for LU.T2 and LU.T2X IMS Operands and Values Comments TYPE macro UNITTYPE=SLUTYPE2 Required. TERMINAL macro NAME=luname MODEL=2 FEAT=(PFK,NOCD) OPTIONS= * OUTBUF=bufsize Required. Required. Required. Required. Required.
IMS Macro and Operand Descriptions The IMS installation macro operands for the TYPE and TERMINAL macros allowed for HP SNA products are described below. Note See the IMS installation manual for your system for a more thorough explanation of the macros and their values. TYPE De nes the SNA LU type. The TYPE macro contains all TERMINAL and NAME macros until another TYPE macro appears. UNITTYPE= Speci es the LU type for all TERMINAL macros de ned under this TYPE macro: SLUTYPE1 Speci es LU type 1.
Recommended Value for LU.T2 and LU.T3: 1536 Default: 2000 OPTIONS= Speci es whether IMS can initiate the screen print (\local copy") feature. This function is dependent upon whether an LU type 1 printer has been con gured in NCP/VTAM and IMS: COPY The printer is con gured. Note that the printer must be attached to the same cluster controller as the keyboard/display. NOCOPY The printer is not con gured.
5 DISOSS Configuration This chapter describes the con guration parameters necessary for a successful connection between DISOSS and HP SNADS/iX. HP SNADS/iX enables users on the HP 3000 mail system HP DeskManager to send and receive documents, messages, and notes from users on the SNA/DS network. SNADS/iX to DISOSS Configuration This section describes the con guration parameters necessary for a successful connection between HP SNADS/iX to DISOSS.
Configuring HP Desk Resident Users in the DISOSS HUP The Worksheet for HP Desk Resident Users provides information that the DISOSS administrator needs to con gure HP Desk users into the HUP. This worksheet is also used by the HP SNADS/iX gateway administrator to con gure the foreign address alias table within HP Desk. Figure 5-1 shows the HP SNADS/iX con guration worksheet for HP Desk resident users. Figure 5-1. HP Desk Resident User Worksheet The elds correspond to the numbers on the worksheet.
Note After the HP SNADS/iX gateway administrator has completed the above elds, the DISOSS administrator should complete elds 4, 5, and 6 of the worksheet. After each eld has been completed for each user speci ed on the worksheet, the DISOSS administrator should have the information necessary to con gure the HP Desk users into the directory (HUP) and routing tables of DISOSS.
Routing Table Parameters The routing table determines the communication route that is used to distribute documents to particular users at particular systems. The following parameters are used with the ADD control statement for the routing table. RGN=Routing Group Name Groups SNA/DS nodes for routing purposes. The RGN value can be one to eight characters, an asterisk, or blank. All capital letters must be used when specifying the RGN. REN=Routing Element Name Identi es a single node for routing purposes.
Note If you specify an asterisk for both the DDN and SA parameters, and a user cannot be matched to a speci c node, the user will be matched to the node that contains an asterisk in the DDN and SA elds. Configuring SNA/DS Resident Users into HP Desk The Worksheet for IBM SNA/DS Resident Users provides information that the HP SNADS/iX gateway administrator needs to con gure SNA/DS users into the HP Desk foreign address table. Figure 5-2 shows the con guration worksheet for IBM SNA/DS resident users.
speci ed for that user. The REN and RGN speci ed for a user must have the capability of forwarding a message to its nal destination. The REN and RGN must be in all uppercase letters. Note After completing the above elds for each IBM SNA/DS user, the DISOSS administrator should give the worksheet to the HP SNADS/iX gateway administrator to complete the remaining eld. Field 4: Loc/Sub Speci es the location and sublocation for each IBM SNA/DS resident user who will be addressed transparently.
DISOSS Configuration 5-7
6 AS/400 Configuration This chapter describes the con guration parameters necessary for a successful connection between an AS/400 and the following HP-to-IBM networking products: SNA IMF/iX SNA IMF/iX over X.25 SNADS/iX LU 6.
SNA IMF/V and SNA IMF/iX Configuration This section describes the AS/400 con guration parameters that must be speci ed in order for the AS/400 to communicate with SNA IMF on the HP 3000. Display Line Description This portion of the AS/400 con guration describes the connection between the AS/400 and the HP 3000. ROLE (Data link role) Must be *PRI (data link role for the AS/400). MAXFRAME (Maximum frame size) Must match the MAX DATA value con gured on the HP 3000 SNA Node Con guration: PU Data screen.
SNA IMF/iX over X.25 Configuration This section describes the AS/400 con guration parameters that must be speci ed in order for the AS/400 to communicate with SNA IMF/iX over an X.25 network. Display Line Description This portion of the AS/400 con guration describes the connection between the AS/400 and the HP 3000. NETADDR (Local network address) Must match the Remote's X.25 Network Address value con gured on the HP 3000 SNA Node Con guration: X.25 Link Data screen.
HP SNADS/iX Configuration This section describes the AS/400 con guration parameters that must be speci ed in order for the AS/400 to communicate with HP SNADS/iX. To enable HP Desk users and SNA/DS users on an AS/400 (such as AS/400 O ce users) to exchange documents and messages, two parallel con gurations must occur: The HP Desk users on the HP 3000 (referred to as \HP Desk resident users" in this document) must be de ned in the AS/400 system directory.
Figure 6-1. HP Desk Resident User Worksheet Field 1: HP Desk User Name Field 2: Loc/Sub Field 3: Comment Note Speci es the name of each HP Desk user. Allows the HP SNADS/iX gateway administrator to generate the DEN component of an SNA/DS address. Speci es the location and sublocation of each HP Desk user. Allows the HP SNADS/iX gateway administrator to use regional groupings when generating the DGN component of an SNA/DS address.
Field 5: HP REN RGN Field 6: User DEN DGN Speci es the IBM SNA/DS address of the HP node in the SNA/DS network. All messages being sent to the HP node will have this REN and RGN in their destination address. A REN (system name) and RGN (system group) must be chosen for HP SNADS/iX. Speci es a DEN (user ID) and DGN (user address) for each user speci ed in the table.
Configuring a Distribution Queue In order for AS/400 O ce users to send messages to HP Desk users, HP SNADS/iX must have at least one distribution queue con gured on the AS/400. A distribution queue serves to map a remote system address (in this case, the REN and RGN of the HP 3000 gateway system) to a speci c APPC device. This allows messages destined for HP Desk to be directed to the proper connection and link.
Configuring SNA/DS Resident Users into HP Desk The Worksheet for IBM SNA/DS Resident Users provides information that the HP SNADS/iX gateway administrator needs to con gure AS/400 O ce users into the HP Desk foreign address table. Figure 6-2 shows an example of the con guration worksheet for IBM SNA/DS resident users. Note DEN, DGN, REN, and RGN are generic IBM SNA/DS terms that describe a user's fully-quali ed IBM name in the SNA/DS network.
HP SNADS/iX to the DEN and DGN for a user will be sent to the REN and RGN speci ed for that user. The REN and RGN speci ed for a user must have the capability of forwarding a message to its nal destination. The REN and RGN must be in all uppercase letters. Note After completing the above elds for each AS/400 O ce user, the AS/400 system administrator should give the worksheet to the HP SNADS/iX gateway administrator to complete the remaining eld.
LU 6.2 API/iX Configuration This section describes the AS/400 con guration parameters that must be speci ed in order for an HP 3000 to communicate in an APPN network. The HP 3000 uses LU 6.2 API/iX to act as a LEN node . The AS/400, con gured as a Network Node, routes APPC sessions from the HP 3000 to other nodes in the APPN network. Display Network Attributes This portion of the AS/400 con guration describes the attributes of the APPN network.
Display Controller Description This portion of the AS/400 con guration describes the HP 3000 as a LEN node in the APPN network. RMTNETID (Remote network identi er) If the AS/400 and the HP 3000 have di erent network IDs, this value must match the Network ID con gured in the HP 3000 APPC: Network ID Data screen. If the AS/400 and the HP 3000 reside in the same network, this value can be speci ed as *NETATTR, which points to the Local network ID in the Network Attribute Table.
SNA/Token Ring/iX Configuration This section describes the AS/400 con guration parameters that must be speci ed in order for the AS/400 to communicate with an HP 3000 on a token ring network. Display Line Description This portion of the AS/400 con guration describes the connection between the AS/400 and the HP 3000. MAXFRAME (Maximum frame size) Must match the MAX DATA value con gured on the HP 3000 SNA Node Con guration: PU Data screen.
AS/400 Configuration 6-13
6-14 AS/400 Configuration
A VTAM Examples This appendix contains sample VTAM con gurations for HP peripheral nodes with HP's SNA products installed. Each of these sample con gurations is based on the following: ACF/NCP version 3, release 2 ACF/VTAM version 3, release 2 X.25 NPSI version 2, release 1 or later (for the IBM 3725) X.25 NPSI version 3 or later (for the IBM 3745) Required parameters that have changed in later releases are documented in notes.
SNA NRJE Configuration Example This example de nes a network with SNA NRJE as shown in gure A-1. Each of these HP 3000s is de ned as an NRJE workstation. Figure A-1. SNA NRJE Example Network ******************************************************************* * LG05 GROUP DIAL=NO, LNCTL=SDLC, REPLYTO=1.0, TEXTTO=1.
SPDSEL=NO, TRANSFR=12, ******************************************************************** * PU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** IRETRY=NO, MAXDATA=265, MAXOUT=3, PASSLIM=7, PUTYPE=2, SRT=(32768,32768), ******************************************************************** * LU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** BATCH=NO, DLOGMOD=MODENRJE, ISTATUS=ACTIVE, MODETAB=H
LN033 LINE ADDRESS =033, SPEED=9600, DUPLEX=FULL, MAXPU=3 * * SERV300C SERVICE ORDER =(PU3000C1,PU3000C2,PU3000C3) * PU3000C1 PU ADDR =C1 * LU30C102 LU LOCADDR =2 * LU30C103 LU LOCADDR =3 * LU30C104 LU LOCADDR =4 * * * PU3000C2 PU ADDR =C2 * LU30C202 LU LOCADDR =2 * LU30C203 LU LOCADDR =3 * LU30C204 LU LOCADDR =4 * * * PU3000C3 PU ADDR =C3 * LU30C302 LU LOCADDR =2 * LU30C303 LU LOCADDR =3 * LU30C304 LU LOCADDR =4 * * Point to point line.
PU3000E PU ADDR =C1 * LU30002E LU LOCADDR * LU30003E LU LOCADDR * LU30004E LU LOCADDR * LU30005E LU LOCADDR * LU30006E LU LOCADDR * LU30007E LU LOCADDR * LU30008E LU LOCADDR * LU30009E LU LOCADDR Note =2 =3 =4 =5 =6 =7 =8 =9 The POLLED=YES parameter is required by a PU type 2 for ACF/NCP version 1, releases 1 and 2. This parameter is invalid for an SDLC line for ACF/NCP version 1, release 3 and later versions.
****************************************************************** ************************ HP3000 DIAL UP ************************** * *The following example shows a line GROUP that defines a switched *line. The VTAM operands of the PU macros, and the LU macros, are *defined under a VBUILD macro, which is kept as a separate member *in SYS1.VTAMLST, the parameter library for VTAM.
* NCPEND Note GENEND SCANCTL=(2,,,,1100) END The POLLED=YES parameter is required by a PU type 2 for ACF/NCP version 1, releases 1 and 2. This parameter is invalid for an SDLC line for ACF/NCP version 1, release 3 and later versions. Switched Major Node The following is an example of the PU and LU de nitions in a switched major node that could use the switched (dial) line LN034 under group LGSWITCH.
SNA IMF Configuration Example This example de nes a network with SNA IMF as shown in gure A-2. Figure A-2. SNA IMF Example Network ******************************************************************* LG05 GROUP DIAL=NO, LNCTL=SDLC, REPLYTO=1.0, TEXTTO=1.
******************************************************************** * PU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** IRETRY=NO, MAXDATA=265, MAXOUT=3, PASSLIM=7, PUTYPE=2, SRT=(32768,32768), ******************************************************************** * LU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** BATCH=NO, DLOGMOD=MODEIMF, ISTATUS=ACTIVE, MODETAB=HPMODTAB, PACING=0, SSCP
SERV300C SERVICE ORDER =(PU3000C1,PU3000C2,PU3000C3) * * PU3000C1 PU ADDR =C1 * LU30C102 LU LOCADDR =2 * LU30C103 LU LOCADDR =3 * LU30C104 LU LOCADDR =4 * * PU3000C2 PU ADDR =C2 * LU30C202 LU LOCADDR =2 * LU30C203 LU LOCADDR =3 * * PU3000C3 PU ADDR =C3 * LU30C302 LU LOCADDR =2 * LU30C303 LU LOCADDR =3 * LU30C304 LU LOCADDR =4 * LU30C305 LU LOCADDR =5 * LU30C306 LU LOCADDR =6 * * Point to point line.
* LU30004E LU LOCADDR * LU30005E LU LOCADDR Note =4 =5 The POLLED=YES parameter is required by a PU type 2 for ACF/NCP version 1, releases 1 and 2. This parameter is invalid for an SDLC line for ACF/NCP version 1, release 3 and later versions.
LU 6.2 API Configuration Example This example de nes a network with LU 6.2 API as shown in gure A-3. Figure A-3. LU 6.2 API Example Network ******************************************************************* * LG05 GROUP DIAL=NO, LNCTL=SDLC, REPLYTO=1.0, TEXTTO=1.
TRANSFR=12, ******************************************************************** * PU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** IRETRY=NO, MAXDATA=265, MAXOUT=3, PASSLIM=7, PUTYPE=2, SRT=(32768,32768), ******************************************************************** * LU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** BATCH=NO, DLOGMOD=MODE62, ISTATUS=ACTIVE, MODETAB=HPMODTAB, PACI
SNA NRJE, SNA IMF, & LU 6.2 API Configuration Example This example de nes a network with SNA NRJE, SNA IMF, SNA DHCF/iX and LU 6.2 API as shown in gure A-4. Figure A-4. SNA NRJE/SNA IMF/LU 6.2 Example Network ******************************************************************* * LG05 GROUP DIAL=NO, LNCTL=SDLC, REPLYTO=1.0, TEXTTO=1.
SPDSEL=NO, TRANSFR=12, ******************************************************************** * PU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** IRETRY=NO, MAXDATA=265, MAXOUT=3, PASSLIM=7, PUTYPE=2, SRT=(32768,32768), ******************************************************************** * LU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** BATCH=NO, ISTATUS=ACTIVE, PACING=(3,1), VPACING=2 LN0
LU40C105 LU * LU40C106 LU * LU40C107 LU * LU40C108 LU * LU40C109 * LU40C110 * LU40C111 * LU40C112 * LU40C113 LOCADDR =5, MODETAB=HPMODTAB, DLOGMOD=MODEIMF, SSCPFM=USSSCS LOCADDR =6, MODETAB=HPMODTAB, DLOGMOD=MODEIMF, SSCPFM=USSSCS LOCADDR =7, MODETAB=HPMODTAB, DLOGMOD=MODEIMF, SSCPFM=USSSCS LOCADDR =8, MODETAB=HPMODTAB, DLOGMOD=MODEIMF, SSCPFM=USSSCS LU LOCADDR =9 LU LOCADDR =10 LU LOCADDR =11 LU LOCADDR =12 LU LOCADDR =13 * LU40C114 LU MODETAB=HPMODTAB, DLOGMOD=MODE62, SSCPFM=
HP SNADS/iX Configuration Example This example de nes a network with HP SNADS/iX as shown in gure A-5. Figure A-5. HP SNADS/iX Example Network ******************************************************************* * LG05 GROUP DIAL=NO, LNCTL=SDLC, REPLYTO=1.0, TEXTTO=1.
TRANSFR=12, ******************************************************************** * PU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** IRETRY=NO, MAXDATA=265, MAXOUT=3, PASSLIM=7, PUTYPE=2, SRT=(32768,32768), ******************************************************************** * LU OPERANDS MOVED UP TO THE GROUP MACRO ******************************************************************** BATCH=NO, DLOGMOD=MODE62, ISTATUS=ACTIVE, MODETAB=HPMODTAB, PACI
SNA DHCF/iX Configuration Example This example de nes a network with DHCF/iX as shown in gure A-6. The network illustration and the example host gen re ect the connections between SNA and BSC devices, and HCF. For cluster control unit con guration information, refer to the IBM manuals for the control unit being con gured. Figure A-6.
Host Configuration for HP 3000 This example shows the portion of the NCP gen de ning the HP 3000s. ******************************************************************* LG05 GROUP DIAL=NO, LNCTL=SDLC, REPLYTO=1.0, TEXTTO=1.
* PU3000C1 * LU30C102 * LU30C103 * LU30C104 * * PU3000C2 * LU30C202 * LU30C203 * PU3000C3 * LU30C302 * LU30C303 * LU30C304 * LU30C305 * LU30C306 Note PU ADDR LU LOCADDR =2 LU LOCADDR =3 LU LOCADDR =4 PU ADDR LU LOCADDR =2 LU LOCADDR =3 PU ADDR =C1 =C2 =C3 LU LOCADDR =2 LU LOCADDR =3 LU LOCADDR =4 LU LOCADDR =5 LU LOCADDR =6 The POLLED=YES parameter is required by a PU type 2 for ACF/NCP version 1, releases 1 and 2.
Host Configuration for IBM 3270 Terminals This example shows a portion of the VBUILD table de nition for two locally attached SNA display stations. Note that a standard IBM logmode entry is used for the IBM 3270 Model 2 display station. ******************************************************************** * * IBM 3274A Cluster Controller attached terminals * SNAPU PU ............
SNA Services using SNA/X.25 iX Configuration Example This example de nes a network with LU 6.2 API, SNA IMF, and SNA NRJE using SNA/X.25 as shown in gure A-7. Figure A-7. SNA/X.
****************************************************************** ********* BUILD STATEMENT ****************** * *The following lines from the BUILD statement are required by *X.25 NPSI. They do not represent a complete BUILD statement. * ****************************************************************** P38X25 BUILD X25.MAXPIU=1296, X25.MCHCNT=1, X25.MWINDOW=7, X25.PREFIX=Z, X25.SNAP=YES, X25.USGTIER=3 ****************************************************************** ********* X.
* SPEED=9600, STATION=DTE, TDTIMER=1, TPTIMER=1.0, TRAN=NO X25.LCG LCGN=0 * ZL25034A X25.LINE LCN=1, VCCINDX=1, LLC=LLC3, TYPE=PERMANENT, DSTNODE=BNN * ZP25034A X25.PU PUTYPE=2, ADDR=01, ISTATUS=ACTIVE, MODETAB=HPMODTAB, IRETRY=YES, MAXDATA=521, MAXOUT=7, PASSLIM=7 * ZU2534A1 X25.LU LOCADDR=2, DLOGMOD= MODE62 DLOGMOD= MODE62 DLOGMOD= MODE62 DLOGMOD= MODEIMF DLOGMOD= MODEIMF DLOGMOD= MODEIMF * ZU2534A2 X25.LU LOCADDR=3, * ZU2534A3 X25.LU LOCADDR=4, * ZU2534A4 X25.
CALL=IN, OUFINDX=1, DSTNODE=BNN * ZP25034B X25.PU PUTYPE=2, MAXLU=16 **************************************************** * The following section defines an SVC using the * * X25.VC macro. * **************************************************** ZL25034C X25.VC LCN=3, VCCINDX=2, TYPE=SWITCHED, CALL=IN, OUFINDX=2 Switched Major Node The following is an example of the PU and LU de nitions in a switched major node that could use the switched (dial) line LN046 de ned under group LG06.
SSCPFM=FSS, ZU2534B4 LU DLOGMOD=MODENRJE LOCADDR=5, ZU2534B5 LU DLOGMOD=MODE62 LOCADDR=6, ZU2534B6 LU DLOGMOD=MODE62 LOCADDR=7, * * ZP25034C PU SSCPFM=USSSCS, SSCPFM=USSSCS, SSCPFM=USSSCS, DLOGMOD=MODE62 IDBLK=023, IDNUM= 12345, MAXLU=7, PUTYPE=2, * XPATHC BATCH=NO, ISTATUS=ACTIVE, MODTAB=HPMODTAB, PACING=(3,1), VPACING=(2,1) PATH USE=NO, * * ZU2534C1 LU DIALNO= 51*0130001, GRPNM= S0 PID=3 LOCADDR=2, SSCPFM=FSS, ZU2534C2 LU DLOGMOD=MODENRJE LOCADDR=3, ZU2534C3 LU DLOGMOD=MODENRJE LOCADDR=4,
NTRI Example This example shows an NCP con guration for a token ring connection and the corresponding switched major node de nition. ******************************************************************* * *** LUDRPOOL *** * * THIS DEFINITION STATEMENT SPECIFIES POOLS OF EMPTY LUCB'S * * WHILE USING DYNAMIC RECONFIGURATION OR SWITCHED SDLC LINKS.
* THIS IS THE LOGICAL DEFINITION OF TOKEN RING ADAPTER 1 PORT 1 * * * ******************************************************************* TR1LGRP GROUP ECLTYPE=(LOGICAL,PERIPHERAL),PERIPHERAL NODE ONLY T DIAL=YES, PAGE ES OR NCP CAN INITIATE T PHYPORT=1 MATCH TO PORTADD ABOVE * TR1LLIN1 LINE AUTOCOPY=(2,TR1LLIN2) TR1LPU1 PU NEXT=(TR1LPU2) ENDAUTO * * VTAM Switched Major node for 3745 TRN TRN3745 VBUILD TYPE=SWNET * TR1LPU1 PU ADDR=10, USSTAB=HPUSSTAB,MODETAB=HPMODTAB,ISTATUS=ACTIVE, IDBLK=017,IDNUM=DCA01,AN
TIC1LU34 LU LOCADDR=5 TIC1LU35 LU LOCADDR=6 * Logmode Table Examples The Logmode table and the con guration of the host application subsystem determine the operational characteristics of a session. The following is an example of the Logmode table for the NCP/VTAM con guration examples. Remember, you must use the operands and values that are in bold. HPMODTAB MODTAB * * The following entry is an example for SNA NRJE for JES2.
COMPROT=X'3080', RUSIZES=X'8587', PSNDPAC=3, SRCVPAC=3, SSNDPAC=3, PSERVIC=X'01000000E100000000000000' * IMFLU3 MODEENT LOGMODE * =IMFLU3, FMPROF=X'03', TSPROF=X'03', PRIPROT=X'B1', SECPROT=X'B0', COMPROT=X'3080', RUSIZES=X'8587', PSNDPAC=3, SRCVPAC=3, SSNDPAC=3, PSERVIC=X'030000000000000000000200' * The following four entries are examples for the IBM 3270 * display stations used by SNA DHCF/iX.
RUSIZES=X'8989', PSNDPAC=3, SRCVPAC=3, SSNDPAC=3, PSERVIC=X'0200000000002B5000007E00' * BSC1920 MODEENT LOGMODE= BSC1920, FMPROF=X'02' TSPROF=X'02' PRIPROT=X'71' SECPROT=X'40' COMPROT=X'2000' RUSIZE=X'0000' PSERVIC=X'000000000000185000007E00' * * The following table is an example for LU 6.2 API or HP SNADS/iX.
B JES Examples This appendix contains sample JES and POWER con gurations for the LU types described in chapter 2. To ensure that the host con guration is compatible with HP's SNA products, there are values that HP requires you set for some operands. These values are in bold in this appendix. If an operand is in bold but the value for it is not, you must include the operand, but you do not have to set it to the value shown.
SNA NRJE Configuration Examples JES2 Configuration for NRJE Shown below is an example of a JES2 con guration for two workstations. * ******************************************************************* * HEWLETT PACKARD REMOTE DEFINITIONS (JES 1.3.2 OR 1.3.
********************************************************************* * NRJE REMOTE WORKSTATION DEFINITIONS * ********************************************************************* RMT16 LUTYPE1,BUFSIZE=512,COMP,CONSOLE,NOCMPCT, DISCINTV=0,NUMPR=4,NUMPU=4, NUMRDR=2 SETUPHDR,SETUPINF,WAITIME=1 R16.RD1 CLASS=A,START R16.RD2 CLASS=A,START R16.PR1 AUTO1 ,CCTL,CLASS=A,CKPTLNS=100,CKPTPGS=10, START,PRWIDTH=132,UCS=0,SEP R16.PR2 AUTO,CCTL,CLASS=A,CKPTLNS=100,CKPTPGS=10, START,PRWIDTH=132,UCS=0,SEP R16.
JES3 Configuration for SNA NRJE Shown below is an example of a JES3 con guration for two workstations.
RD=02, PR=4, PU=4, C=R, P=NODE1, PL=2, AUTO=N * CONSOLE,JNAME=NRJE2, TYPE=RJP, DEST=NONE, LL=80, LEVEL=10 * DEVICE,DTYPE=RMTPRINT, JNAME=NRJE2PR1 * DEVICE,DTYPE=RMTPRINT, JNAME=NRJE2PR2 * DEVICE,DTYPE=RMTPRINT, JNAME=NRJE2PR3 * DEVICE,DTYPE=RMTPRINT, JNAME=NRJE2PR4 * DEVICE,DTYPE=RMTPUNCH, JNAME=NRJE2PU1 * DEVICE,DTYPE=RMTPUNCH, JNAME=NRJE2PU1 * DEVICE,DTYPE=RMTPUNCH, JNAME=NRJE2PU3 * DEVICE,DTYPE=RMTPUNCH, JNAME=NRJE2PU4 JES Examples B-5
POWER Configuration for NRJE Shown below is an example of a VSE/POWER con guration for two workstations.
C CICS Examples This appendix contains sample CICS con gurations for the LU types described in chapter 3. To ensure that the host con guration is compatible with HP's SNA products, there are values that HP requires you set for some operands. These values are in bold in this appendix. If an operand is in bold but the value for it is not, you must include the operand, but you do not have to set it to the value shown.
LU.T1 Configuration Example This sample de nes an IBM 3287 SNA Character String (SCS) printer (LU.T1) to CICS. ******************************************************************* * SAMPLE TCT FOR SCS PRINTER LU.
LU.T2 Configuration Example This sample de nes an IBM 3278 model 2 keyboard/display (LU.T2) to CICS. ********************************************************************* * SAMPLE TCT FOR 3270 KEYBOARD/DISPLAY (LU.
LU.T2X Configuration Example This sample de nes an IBM 3278 model 2 keyboard/display with extended features (LU.T2X) to CICS. ******************************************************************* * SAMPLE TCT FOR EXTENDED FEATURE KEYBOARD/DISPLAY (LU.
LU.T3 Configuration Example This sample de nes an IBM 3287 Data Stream Compatible (DSC) printer (LU.T3) to CICS. **************************************************************** * SAMPLE TCT FOR DSC PRINTER (LU.
LU Type 6.2 Configuration Example The following sample de nes an MPE LU type 6.2 to CICS. ************************************************************** * SAMPLE TCT FOR LU TYPE 6.
D IMS Example This appendix contains a sample IMS con guration for the HP SNA products described in chapter 4. To ensure that the host con guration is compatible with HP's SNA products, there are values that HP requires you set for some parameters. These values are in bold in this appendix. If a parameter is in bold but the value for it is not, you must include the parameter, but you do not have to set it to the value shown.
E DISOSS Examples This appendix contains sample DISOSS con gurations for the HP SNADS/iX product, as described in chapter 5. To ensure that the host con guration is compatible with HP's SNA products, there are values that HP requires you set for some parameters. These values are in bold in this appendix. If a parameter is in bold but the value for it is not, you must include the parameter, but you do not have to set it to the value shown.
HP SNADS/iX Examples Configuration of HP Desk Resident Users Figure E-1 shows an example of the HP SNADS/iX con guration worksheet for HP Desk resident users. The elds correspond to the numbers on the worksheet. Fields 1, 2, and 3 should be completed by the HP SNADS/iX gateway administrator. Fields 4, 5, and 6 should be completed by the IBM system programmer. Figure E-1. Example SNADS Config.
To connect to HP SNADS/iX, one routing table entry needs to be de ned. An REN.RGN should be chosen to represent the HP SNADS/iX gateway. For example, if this REN.RGN is HPGATE.HP, the following entry should be added. ADD RGN=HP, REN=HPGATE, SSL=*, QUEUE=LDSP, TRANSID=DSVE The REN.RGN, HPGATE.HP, will need to be con gured on the HP SNADS/iX gateway once the product is installed. In addition, an entry for every HP Desk user needs to be de ned in the directory (HUP). For example, a user whose DGN.
Configuration of SNA/DS Resident Users Figure E-2 shows an example of the HP SNADS/iX con guration worksheet for IBM SNA/DS resident users. The elds correspond to the numbers on the worksheet. Fields 1, 2, and 3 should be completed by the IBM system programmer. Field 4 should be completed by the HP SNADS/iX gateway administrator. Figure E-2. Example SNADS Config.
F AS/400 Examples This appendix contains AS/400 con gurations for the networking products described in chapter 6. To ensure that the AS/400 con guration is compatible with HP's SNA products, there are values that HP requires you set for some parameters. These values are in bold in this appendix. If an operand is in bold but the value for it is not, you must include the operand, but you do not have to set it to the value shown. Required parameters must be coded as speci ed.
SNA IMF/iX Configuration Example This section contains a tested AS/400 con guration for communicating with SNA IMF over a leased line. SNA IMF communication over a switched line has also been tested and veri ed. This AS/400 con guration can be used to communicate with either SNA IMF/iX or SNA IMF/V. Figure F-1 illustrates the con guration described in this section. Figure F-1. SNA IMF/iX Example Network Display Line Description - SDLC Line description . . . . . . Resource name. . . . . . . .
Maximum frame size . . . . . Error threshold level. . . . Duplex . . . . . . . . . . . Modulus. . . . . . . . . . . Maximum outstanding frames . Inactivity timer . . . . . . Poll response delay. . . . . Nonproductive receive timer. Idle timer . . . . . . . . . Connect poll timer . . . . . Poll cycle pause . . . . . . Frame retry. . . . . . . . . Link speed . . . . . . . . . Cost/connect time. . . . . . Cost/byte. . . . . . . . . . Security for line. . . . . . Propagation delay. . . . . . User-defined 1 . .
Initial connection . Connection number. . Predial delay. . . . Redial delay . . . . Dial retry . . . . . Remote autoanswer. . SHM disconnect limit SHM disconnect timer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .: .: .: .: .: .: .: .: INLCNN CNNNBR PREDIALDLY REDIALDLY DIALRTY RMTAUTOANS SHMDSCLMT SHMDSCTMR Station address. . . . . SDLC poll priority . . . SDLC poll limit. . . . . SDLC connect poll retry. SDLC NRM poll timer. . .
Device model . . . . . Port number. . . . . . Switch setting . . . . Local location address Online at IPL. . . . . Attached controller. . Keyboard language type Drop line at signoff . Character identifier . Allow blinking cursor. Auxiliary devices. . . Printer. . . . Print file . . Library. . . Maximum length Text . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .: .: .: .: .: .: .: .: .: .: .
SNA IMF/iX over X.25 Configuration Example This section contains a tested AS/400 con guration for communicating with SNA IMF/iX over an X.25 network. Figure F-2 illustrates the con guration described in this section. Figure F-2. SNA IMF/iX over X.25 Example Network Display Line Description - X.25 Line description . . . . . . . . . .: Resource name. . . . . . . . . . . .: Logical channel entries. . . . . . .
Vary on wait . . . . . . Line speed . . . . . . . Exchange identifier. . . Default packet size. . . Maximum packet size. . . Modulus. . . . . . . . . Default window size. . . Switched controller list . . . . . . . . . . . . . . . . . . . . . . . . .: .: .: .: .: .: .: .: VRYWAIT LINESPEED EXCHID DFTPKTSIZE MAXPKTSIZE MODULUS DFTWDWSIZE SWTCTLLIST *NOWAIT 9600 05600000 128 128 8 2 *NONE Idle timer . . . . . . . . . . Frame retry. . . . . . . . . . Insert net address in packets. X.25 DCE support . . .
SSCP identifier. . . . . . . . Initial connection . . . . . . Connection number. . . . . . . Predial delay. . . . . . . . . Redial delay . . . . . . . . . Dial retry . . . . . . . . . . Remote autoanswer. . . . . . . SHM disconnect limit . . . . . SHM disconnect timer . . . . . X.25 network level . . . . . . X.25 link level protocol . . . X.25 logical channel ID. . . . X.25 connection password . . . X.25 default packet size . . . Negotiated packet size . . . X.25 default window size . . .
Allow blinking cursor. . . . . Auxiliary devices. . . . . . . Printer. . . . . . . . . . . . Print file . . . . . . . . . . Library. . . . . . . . . . . Maximum length of request unit Text . . . . . . . . . . . . . . . . . . . . . . . . . . . .: .: .: .: .: .: .: . . . . . . . . . . . . . . . . . . . .: .: .: .: .: .: .: .: .: .: .: .: .: .: .: .: .: .: .: . . . . . . . . . . . . . . . . . .: .: .: .: .: .: .: .: .: .: .: .: .: .: .: .: .
Maximum length of request unit . . .: Text . . . . . . . . . . . . . . . .
HP SNADS/iX Configuration Example This section contains a tested con guration for an AS/400 that acts as a Network Node and performs routing services for an HP 3000 con gured as a LEN node. The AS/400 and the HP 3000 use HP SNADS/iX to communicate over an APPN network. Figure F-3 illustrates the con guration described in this section. Figure F-3. SNADS/iX Example Network Display Details of Distribution Queue Queue. . . . . . . . . . . . Queue type. . . . . .. . . . Remote location name . . . . Mode. . . .
name/group. . . . . . Description . . . . .. . Service level: Fast: Queue name. . . . Maximum hops . . . Status: Queue name . . . . Maximum hops. . . Data high: Queue name . . . . Maximum hops. . . Data low: Queue name . . . . Maximum hops. . . . . . . . . . . . . . : . . . . . . . . . . . : HPGATE HP HP Desk system . . . . . . . . . . . : . . . . . . . . . . . : HPDESKQ *DFT . . . . . . . . . . . : . . . . . . . . . . . : HPDESKQ *DFT . . . . . . . . . . . : . . . . . . . . . . . : HPDESKQ *DFT .
Configuration of HP Desk Resident Users Figure F-4 shows an example of the HP SNADS/iX con guration worksheet for HP Desk resident users. The elds correspond to the numbers on the worksheet. Fields 1, 2, and 3 should be completed by the HP SNADS/iX gateway administrator. Fields 4, 5, and 6 should be completed by the AS/400 system administrator. Figure F-4. Example SNADS Config.
Configuration of SNA/DS Resident Users Figure F-5 shows an example of the HP SNADS/iX con guration worksheet for IBM SNA/DS resident users. The elds correspond to the numbers on the worksheet. Fields 1, 2, and 3 should be completed by the AS/400 system administrator. Field 4 should be completed by the HP SNADS/iX gateway administrator. Figure F-5. Example SNADS Config.
LU 6.2 API/iX Configuration Example This section contains a tested con guration for an AS/400 that acts as a Network Node and performs routing services for an HP 3000 con gured as a LEN node. The AS/400 and the HP 3000 use LU 6.2 API/iX to communicate over an APPN network. Figure F-6 illustrates the con guration described in this section. Figure F-6. LU 6.2 API/iX Example Network Display Network Attributes Current system name. . . . . . . . . . . . . Pending system name. . . . . . . . . . . .
Display Mode Description Mode description name. . . . Class-of-service . . . . . . Maximum number of sessions . Maximum conversations. . . . Locally controlled sessions. Pre-established sessions . . Inbound pacing value . . . . Outbound pacing value. . . . Max length of request unit . Text . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Define APPN Remote Locations Remote Location Name APPC001 APPC002 APPC003 Remote Network ID APPN APPN APPN Remote Network ID APPN APPN APPN . . . . . .
Autocall unit. . . . . . . . Attached nonswitched ctl . . Exchange identifier. . . . . NRZI data encoding . . . . . Maximum controllers. . . . . Clocking . . . . . . . . . . Line speed . . . . . . . . . Modem type supported . . . . Modem data rate select . . . Maximum frame size . . . . . Duplex . . . . . . . . . . . Inactivity timer . . . . . . Poll response delay. . . . . Nonproductive receive timer. Idle timer . . . . . . . . . Connect poll timer . . . . . Poll cycle pause . . . . . . Frame retry. . . .
Disconnect timer . . . . . . Data link role . . . . . . . SHM disconnect limit . . . . SHM disconnect timer . . . . Station address. . . . . . . SDLC poll priority . . . . . SDLC poll limit. . . . . . . SDLC connect poll retry. . . SDLC NRM poll timer. . . . . SDLC NDM poll timer. . . . . APPN CP session support. . . APPN node type . . . . . . . APPN transmission grp number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mode . . . . . . . . . . . . . . . . : MODE DW Message queue. . . . . . . Library. . . . . . . . . APPN-capable . . . . . . . Single session . . . . . . Locally controlled session Pre-established session. . Secure location. . . . . . Local location address . . Text . . . . . . . . . . . MSGQ QSYSOPR *LIBL *YES *NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SNA/Token Ring/iX Configuration Example This section contains a tested AS/400 con guration for communicating with an HP 3000 over a token ring network. Figure F-7 illustrates the con guration described in this section. Figure F-7. SNA/Token Ring/iX Example Network Display Line Description - Token Ring Line description . . . . . . . . . .: Resource name. . . . . . . . . . . .: Online at IPL. . . . . . . . . . . .: Vary on wait . . . . . . . . . . . .: Network Controller . .. . . . . . .
Cost/byte. . . . . Security for line. Propagation delay. User-defined 1 . . User-defined 2 . . User-defined 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .: .: .: .: .: .: COSTBYTE SECURITY PRPDLY USRDFN1 USRDFN2 USRDFN3 Recovery limits. Count limit. . Time interval. Text . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .: .: .: .: CMNRCYLMT TEXT . . . . . . . . . . . .: .: .: .: .: .: .: .: .: .: .
TRLAN frame retry. . . . . . TRLAN connect retry. . . . . TRLAN response timer . . . . TRLAN connection timer . . . TRLAN acknowledgement timer. TRLAN inactivity timer . . . TRLAN ack frequency. . . . . TRLAN max outstanding frames TRLAN access priority. . . . Recovery limits. . . . . . . Count limit. . . . . . . . Time interval. . . . . . . Text . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .: .: .: .: .: .: .: .: .: .: .: .: .
Character identifier . . . . . . . .: Allow blinking cursor. . . . . . . .: Auxiliary devices. . . . . . . . . .: CHRID ALWBLN AUXDEV Printer. . . . Print file . . Library. . . Maximum length Text . . . . . PRINTER PRTFILE . . . . . . . . . . . . . . . . . . . . . . . . of request unit . . . . . . . . . . . . . . . . . . .: .: .: .: .
Index A ACCESSMETHOD, 3-10 ACCMETH, 3-7, 3-9 ADAPTER, 1-48 ADD control statement, 5-3 DDN, 5-4 directory parameters, 5-4 QUEUE, 5-4 REN, 5-4 RGN, 5-4 routing table parameters, 5-4 SA, 5-4 SSL, 5-4 TRANSID, 5-4 USERTYPE, 5-4 Add New Directory Entry screen, 6-6 System Group, 6-6 System Name, 6-6 User Address, 6-6 User ID, 6-6 ADDR, 1-44 ADDRESS, 1-42, 1-48, 1-51 Add Routing Table Entry Queue names, 6-7 System Group, 6-7 System Name, 6-7 ANS, 1-44, 1-52, 1-60 APPLID, 2-6, 2-11 AS/400 con guration Add New Dire
COMP/NOCOMP, 2-7, 2-8, 2-9 COMPress, 2-8 COMPRESS, 2-3, 2-7, 2-9 COMPROT description, 1-63 SNA DHCF/iX, 1-38, 1-39 SNA IMF, 1-10, 1-36 COMPSWP, 1-47 con guration HP Desk resident user, 5-2, 6-4, E-2 SNA/DS resident users, 5-5, 6-8, E-4 con guration parameters HP SNADS/iX to AS/400, 6-4 HP SNADS/iX to DISOSS, 5-1 CONNECT, 1-52 CONNECTION, 3-11 CONS, 2-7 CONSOLE, 2-2, 2-4, 2-5, 2-7, 2-12, 2-17 DEST, 2-12 JNAME, 2-4, 2-12 LEVEL, 2-12 LL, 2-12 TYPE, 2-4, 2-12 CONS=YES, 2-2 control statements ADD, 5-3 DELETE, 5-
E ECLTYPE, 1-48 emulations, 3-1 ENABLTO, 1-53 ERRATT, 3-7 ERRCOLOR, 3-10 ERRHILIGHT, 3-10 ERRINTENSIFY, 3-10 ETRATIO, 1-42 examples DISOSS con guration, E-1 IMS con guration, D-1 JES2, for SNA NRJE, B-2 JES3, for SNA NRJE, B-4 JES con guration, B-1 VSE/POWER, for SNA NRJE, B-6 EXTDS value, 3-7 EXTENDEDDS, 3-10 F FCBLOAD, 2-8 FCBLOAD/NOFCBLOAD, 2-3, 2-8 FEAT, 4-2, 4-3 PFK,NOCD, 4-2 FEATURE, 3-7, 3-9 FF, 3-7 FMPROF description, 1-63 SNA DHCF/iX, 1-38, 1-39 SNA IMF, 1-10, 1-36 SNA NRJE,JES2, 1-7, 1-33 SNA NR
SA, 5-4 source address, 5-4 USERTYPE, 5-4 I IBM Network Address, 1-61 IDBLK, 1-44, 1-60 IDNUM, 1-44, 1-60 IMS con guration example, D-1 INDEX, 1-50, 1-51 INSLOW, 1-51 IOAREALEN, 3-11 IRETRY, 1-45 ISTATUS, 1-45, 1-46, 1-53, 1-56, 1-58, 1-60, 1-62 ITRACE, 1-53 J JES2 example for SNA NRJE, B-2 JES2 Logmode table COMPROT, 1-7, 1-9, 1-33, 1-35 FMPROF, 1-7, 1-9, 1-33, 1-35 LOGMODE, 1-7, 1-9, 1-33, 1-35 PRIPROT, 1-7, 1-9, 1-35 PSERVIC, 1-7, 1-9, 1-35 PSNDPAC, 1-7, 1-9, 1-35 RUSIZES, 1-7, 1-9, 1-35 SECPROT, 1-7,
LOCAL190, 2-8 Local Location Name, 6-7 LOGAPPL, 1-46 LOGMODE description, 1-63 HP SNADS/iX, 1-40 LU 6.2, 1-40 LU 6.2 API/V, 1-12 LU 6.2 Base/V, 1-12 SNA DHCF/iX, 1-38, 1-39 SNA IMF, 1-10, 1-36 SNA NRJE,JES2, 1-7, 1-33 SNA NRJE,JES3, 1-8, 1-34 SNA NRJE,POWER, 1-9, 1-35 LOGONMSG, 3-10 LOGONn, 2-6 APPLID, 2-6 LPDATS, 1-43 LRECL, 2-3, 2-8, 2-9 LSTROUT, 2-17 LU, 2-4, 2-5, 2-11, 2-13, 2-17 LU6.2 API network, A-12 LU 6.
FORMS, 2-13 G, 2-13 JNAME, 2-12, 2-13 LEVEL, 2-12, 2-14 LINEnnn, 2-7 LL, 2-12 LOCAL190, 2-8 LRECL, 2-8, 2-9 LSTROUT, 2-17 LU, 2-13, 2-17 LUNAME, 2-7 LUTYPE, 2-7 N, 2-13 NOCMPCT, 2-7 NUMPR, 2-7 NUMPU, 2-7 P, 2-13 Password, 2-7 PL, 2-13 PR, 2-13 PRMT, 2-17 PRWIDTH, 2-8 PSWRD, 2-17 PU, 2-13 PUNROUT, 2-17 RD, 2-13 REMOTE, 2-17 RJPWS, 2-13 RMTnnnn, 2-7 Rnnnn.PRm, 2-8 Rnnnn.PUm, 2-9 Rnnnn.
PASSLIM, 1-45, 1-60 Password, 2-7 PATH macro, 1-61 PATH parameters DIALNO, 1-61 GRPNM, 1-62 HP Network Address, 1-61 IBM Network Address, 1-61 OUFINDX, 1-61 pi, 1-61 PID, 1-62 PROTOCOL IDENTIFIER, 1-61 USE, 1-61 VCCINDX, 1-61 PAUSE, 1-43, 2-15 PFK,NOCD, 4-3 PGESTAT, 3-8 PHYPORT, 1-48 pi, 1-61 PID, 1-62 PKTMODL, 1-54 PL, 2-13 POLLED, 1-43 PORTADD, 1-48 POWER, 2-5, 2-15 BLOCKGP, 2-15 COPYSEP, 2-15 DBLK, 2-15 JLOG, 2-15 JSEP, 2-15 NTFYMSG, 2-15 PAUSE, 2-15 PRI, 2-16 RBS, 2-16 RJEBSC, 2-16 SNA, 2-5, 2-16 STDCAR
Q QUEUE, 5-4 Queue Name, 6-7 Queue names, 6-7 Queue Type, 6-7 R R RD, 2-4 RBS, 2-16 RCVBUFC, 1-48 RD, 2-4, 2-13 RDO, 3-10 RDO attribute, 3-10, 3-11 ACCESSMETHOD, 3-10 ATI(NO), 3-11 ATI(YES), 3-11 AUDIBEALARM, 3-10 AUTOPAGE, 3-11 BUILDCHAIN, 3-10 COLOR, 3-10 CONNECTION, 3-11 DISCREQ, 3-11 ERRCOLOR, 3-10 ERRHILIGHT, 3-10 ERRINTENSIFY, 3-10 EXTENDEDDS, 3-10 FORMFEED, 3-10 HILIGHT, 3-10 HORIZFORM, 3-10 IOAREALEN, 3-11 LIGHTPEN, 3-10 LOGONMSG, 3-10 MAXIMUM, 3-10 MODENAME, 3-11 NETNAME, 3-11 PROTOCOL(APPC), 3-
CCTL, 2-3, 2-8 CKPTLINE, 2-8 CKPTPAGE, 2-8 CMPCT, 2-8 CMPCT/NOCMPCT, 2-8 COMP/NOCOMP, 2-8 COMPress, 2-8 COMPRESS, 2-3 FCBLOAD, 2-8 FCBLOAD/NOFCBLOAD, 2-8 LRECL, 2-3, 2-8 PRWIDTH, 2-3, 2-8 SELECT, 2-3, 2-8 Sep, 2-9 SEP, 2-3 START, 2-3, 2-9 UCS, 2-3, 2-9 Rnnnn.PUm, 2-3, 2-9 AUTO, 2-3, 2-9 CCTL, 2-3, 2-9 CKPTLINE, 2-9 CKPTPAGE, 2-9 CMPCT, 2-9 CMPCT/NOCMPCT, 2-9 COMP/NOCOMP, 2-9 COMPRESS, 2-9 LRECL, 2-9 SELECT, 2-3, 2-9 SEP, 2-3, 2-9 START, 2-3, 2-9 Rnnnn.
PSERVIC, 1-10, 1-36 PSNDPAC, 1-10, 1-36 RUSIZES, 1-11, 1-37 SECPROT, 1-11, 1-37 SRCVPAC, 1-11, 1-37 SSNDPAC, 1-11, 1-37 TSPROF, 1-11, 1-37 SNA NRJE global parameters for, 2-6, 2-11, 2-15 JES2, 1-7, 1-33 JES3, 1-8, 1-34 network, A-2 POWER, 1-9, 1-35 required global parameters for, 2-5 required JES2 parameters for, 2-2 required JES3 parameters for, 2-4 required VSE/POWER parameters for, 2-5 SNA NRJE Logmode table, JES2 COMPROT, 1-7, 1-33 FMPROF, 1-7, 1-33 LOGMODE, 1-7, 1-33 PRIPROT, 1-7 PSERVIC, 1-7, 1-33 PSN
TRMTYPE, 3-8, 3-9 TSPROF description, 1-64 SNA DHCF/iX, 1-38, 1-39 SNA IMF, 1-11, 1-37 SNA NRJE,JES2, 1-7, 1-33 SNA NRJE,JES3, 1-8, 1-34 SNA NRJE,POWER, 1-9, 1-35 TTI(NO), 3-11 TTI(YES), 3-11 TYPE, 1-42, 1-44, 1-48, 1-56, 1-57, 1-59, 2-4, 2-5, 2-12, 2-17, 4-1, 4-2, 4-3 U UCS, 2-3, 2-9 UNIT, 2-2, 2-7 UNITTYPE, 4-2, 4-3 SLUTYPE1, 4-3 SLUTYPE2, 4-3 UPDATE control statement, 5-3 USE, 1-61 User Address, 6-6 USERAREALEN, 3-11 User ID, 6-6 USERTYPE, 5-4 USSTAB, 1-47, 1-63 V VBUILD macro, 1-44, 1-59 VBUILD parame
X25.NET macro, 1-50 X25.NET parameters CPHINCX, 1-50 DM, 1-50 NETTYPE, 1-50 OUHINDX, 1-50 X25.OUFT macro, 1-51 X25.OUFT parameters INDEX, 1-51 X25.PREFIX, 1-49 X25.PU macro, 1-59 X25.PU parameters MAXDATA, 1-59 PUTYPE, 1-59 X25.SNAP, 1-49 X25.USGTIER, 1-49 X25.VCCPT macro, 1-50 X25.VCCPT parameters INDEX, 1-50 INSLOW, 1-51 Index-12 MAXPKL, 1-50 VWINDOW, 1-51 X25.VC macro, 1-55 X25.
