gtpa1m0l | ACF/SNA Network Generation |
The following sample input definition statements define a loosely coupled TPF system consisting of processor B, C, and D. See Sample OSTG Reports for the OSTG output report based on this configuration.
Figure 17. Sample Configuration Diagram
The following is an example of the ANT deck that would be produced by SIP for the configuration shown in Figure 17.
See ANT Deck for more information about the ANT deck and the ANTDEF, ANTNME, and ANTEND statements.
* See note 2 regarding the ANTDEF definition. ANTDEF CPUID=B,SDPSID=(B,C,D) ANTNME NAME=SMPB,CPUID=B,RECVRY=NO,SNA=NO,APPL=P ANTNME NAME=BBBB,CPUID=B,RECVRY=YES,SNA=YES,APPL=(S,002) ANTNME NAME=SMPC,CPUID=C,RECVRY=NO,SNA=NO,APPL=P ANTNME NAME=CCCC,CPUID=C,RECVRY=YES,SNA=YES,APPL=P ANTNME NAME=SMPD,CPUID=D,RECVRY=NO,SNA=NO,APPL=P ANTNME NAME=DDDD,CPUID=D,RECVRY=YES,SNA=YES,APPL=P ANTNME NAME=APPC,CPUID=*,RECVRY=NO,SNA=APPC,APPL=P ANTNME NAME=SMPA,CPUID=A,RECVRY=NO,SNA=NO,APPL=P ANTNME NAME=AAAA,CPUID=A,RECVRY=YES,SNA=YES,APPL=P ANTEND * See note 3 regarding CPUID=A.
The following is an example of the RSC deck for the configuration shown in Figure 17.
See RSC Deck for more information about the RSC deck and the CDRM, RSCDEF, RSC, RSCSET, and RSCEND statements.
******************************************************************** * * * Define all CDRM resources * * * ******************************************************************** VTAM CDRM SUBAREA=5,ELEMENT=1 TPFA CDRM SUBAREA=1,ELEMENT=0,CPUID=A TPFB CDRM SUBAREA=2,ELEMENT=0,CPUID=B TPFC CDRM SUBAREA=3,ELEMENT=0,CPUID=C TPFD CDRM SUBAREA=4,ELEMENT=0,CPUID=D ******************************************************************** * * * Define all cross-domain resources that may reside * * in any NETID. The actual NETID will be discovered * * at session-initiation time. * * * * See note 4 regarding the RSCDEF definition. * * See note 5 regarding the VTAM LOGON MANAGER. * * See note 11 regarding CICS RSC LUTYPE=L6PLU. * ******************************************************************** RSCDEF NETID=ANY CICS RSC LUTYPE=L6PLU LOGMR RSC LUTYPE=APPLU VTAM LOGON MANAGER NCPNEF2 RSC LUTYPE=NEF RSCSET LUTYPE=3614,CCTYPE=3602,UMODE=F9 CHANGE RSC DEFAULTS T36A1 RSC T36A2 RSC MAXRUSZ=0,RECVRY=YES,UMODE=F8 T36A3 RSC NEFA RSC LUTYPE=APPLU TPFAFMMR RSC LUTYPE=FMMR SMPA RSC LUTYPE=APPLU AAAA RSC LUTYPE=APPLU RSCEND ******************************************************************** * * * Define all cross-domain resources that reside * * only in specific NETIDs. * * * ******************************************************************** * * * NETID = NET1 * * * * See notes 7 and 8 regarding * * the RSCSET definition and NETID. * * * ******************************************************************** RSCDEF NETID=NET1 RSCSET LUTYPE=3277,CCTYPE=3274 DEV1 RSC DEV2 RSC RECVRY=YES DEV3 RSC LUMOD=2,IATA=0002 DEV4 RSC DEV5 RSC CCTYPE=3271 DEV6 RSC LUTYPE=3287 DEV7 RSC LUTYPE=3289,SCSBUF=4K RSCEND ******************************************************************** * * * NETID = NET2 * * * * See note 9 regarding duplicate resource names. * * * ******************************************************************** RSCDEF NETID=NET2 TOM RSC LUTYPE=ANY,UMODE=F5 DICK RSC LUTYPE=ANY HARRY RSC LUTYPE=ANY MARY RSC LUTYPE=ANY RSCEND ******************************************************************** * * * NETID = NET3 * * * ******************************************************************** RSCDEF NETID=NET3 TOM RSC LUTYPE=ANY DICK RSC LUTYPE=ANY HARRY RSC LUTYPE=ANY MERRY RSC LUTYPE=ANY RSCEND ******************************************************************** * * * NETID = NET4 * * * * Sample of AX.25 and NPSI Devices * ******************************************************************** RSCDEF NETID=NET4 XAX1DEV1 RSC LUTYPE=AX001,LEID=E1A0 XAX2DEV2 RSC LUTYPE=AX002,LEID=E1 XMCHLU01 RSC LUTYPE=MCHLU,LEID=E1C0C0,PSV=MHIN01 XVCLU01 RSC LUTYPE=VCLU,LEID=E1C0C1,PSV=MHIN02 RSCEND ******************************************************************** * * * NETID = NET5 * * * * Sample of LU 6.2 Devices * ******************************************************************** RSCDEF NETID=NET5 T62SLU01 RSC LUTYPE=L6SLU T62SLU02 RSC LUTYPE=L6SLU RSCEND ********************************************************************** * FTPI Pseudo links, also known as CTCP pseudo LUs, that use the * * XALCI Protocol. COBU must have an entry for PSV name XALCI that * * refers to segment CNEA. * ********************************************************************** RSCDEF NETID=ANY M30CPU0 RSC LUTYPE=XALCI,AWARE=NO,PSV=XALCI M30CPU1 RSC LUTYPE=XALCI,AWARE=NO,PSV=XALCI ********************************************************************** * FTPI Pseudo links are also known as CTCP pseudo LUs. A user CTCP * * is required to handle call setup and takedowns, as well as * * managing relationships of DTE addresses to RIDs/LEIDs. COBU must * * have an entry for PSV name FTPIUSR that refers to this user CTCP. * ********************************************************************** M30CPU2 RSC LUTYPE=FTPI,AWARE=NO,PSV=FTPUSR M34CPU0 RSC LUTYPE=FTPI,AWARE=NO,PSV=FTPUSR ********************************************************************** * MCH_LU Type Devices - 3705 Box 94 (01A) to 3745 Box 93 CCUB * * Virtual Circuits subordinate to T3452MCH support RH * * Chaining. * ********************************************************************** T3451MCH RSC LUTYPE=MCHLU,AWARE=YES,LEID=FF06 T3452MCH RSC LUTYPE=MCHLU,AWARE=YES,LEID=FF07,CHAIN=YES ********************************************************************** * VCLU Type Devices - 3705 Box 94 (01A) to 3745 Box 93 CCUB * * Virtual Circuits subordinate to T3452MCH support RH * * Chaining. * ********************************************************************** T3452X01 RSC LUTYPE=VCLU,AWARE=NO, X LEID=80,CHAIN=YES T3452X02 RSC LUTYPE=VCLU,AWARE=NO, X LEID=81,CHAIN=YES T3452X03 RSC LUTYPE=VCLU,AWARE=NO, X LEID=82,CHAIN=YES T3452X04 RSC LUTYPE=VCLU,AWARE=NO, X LEID=83,CHAIN=YES T3452X05 RSC LUTYPE=VCLU,AWARE=NO, X LEID=84,CHAIN=YES T3452X06 RSC LUTYPE=VCLU,AWARE=NO, X LEID=85,CHAIN=YES T3452X07 RSC LUTYPE=VCLU,AWARE=NO, X LEID=86,CHAIN=YES T3452X08 RSC LUTYPE=VCLU,AWARE=NO, X LEID=87,CHAIN=YES RSCEND
The following is an example of the ALS deck for the configuration shown in Figure 17.
See ALS Deck for more information about the ALS deck and the ALS, NCP, and CTC statements.
* ******************************************************************** * * * Define all channel-attached 37x5s/3174s. * * * * See note 10 regarding 37x5s/3174s. * * See note 6 regarding NEF support in the NCP. * * * ******************************************************************** ALS2B ALS CLU=CLU2B,ALSQN=2B ALS2C ALS CLU=CLU2C,ALSQN=2C ALS2D ALS CLU=CLU2D,ALSQN=2D NCP1 NCP SUBAREA=6,WINSIZE=42 CTC1 CTC SUBAREA=1,WINSIZE=100,VRTO=200,VRILTO=20
The following sample OSTG output reports are produced by using the sample ANT deck described in Sample ANT Deck, the sample RSC deck described in Sample RSC Deck, and the sample ALS deck described in Sample ALS Deck. It contains examples of the following output reports:
For more information about the output reports, see OSTG Reports.
THIS REPORT SHOWS THE RRTS IN THE ORDER WHICH THEY ARE WRITTEN TO THE OUTPUT DATA SET. NETID NAME ELEM MODE TYPE WNSZ NASA OWSA CPU SDA APIX BIND QN LEID PSV VRTO VRILTO REAL SAW PG 10 0000 00000000 0000 00 00 0000 00 00 TPFA 0000 00000000 8100 01 01 A 0000 00 00 TPFB 0000 00000000 8100 02 02 B 0000 00 00 TPFC 0000 00000000 8100 03 03 C 0000 00 00 TPFD 0000 00000000 8100 04 04 D 0000 00 00 VTAM 0001 00000000 8100 05 05 0000 00 00 ALS2B 0000 00000000 8200 00 00 0000 00 00 2B ALS2C 0000 00000000 8200 00 00 0000 00 00 2C ALS2D 0000 00000000 8200 00 00 0000 00 00 2D CTC1 0000 00080000 8400 64 01 01 0000 00 00 00C8 14 NCP1 0000 00080000 8000 2A 06 06 0000 00 00 0000 00 AAAA 0000 1800F900 1600 01 01 A 0000 00 06 APPC 0000 10700080 1600 00 00 * 0000 07 14 BBBB 0000 90000000 1602 02 02 B 0000 02 07 BBBBB001 0000 88000000 1601 02 02 B 0000 02 07 Y BBBBB002 0000 88000000 1601 02 02 B 0000 02 07 Y CCCC 0000 90000000 1600 03 03 C 0000 04 07 CICS 0000 18700000 1600 00 00 0000 00 14 CLU2B 0000 04000000 1800 00 00 0000 00 01 CLU2C 0000 04000000 1800 00 00 0000 00 01 CLU2D 0000 04000000 1800 00 00 0000 00 01 DDDD 0000 90000000 1600 04 04 D 0000 06 07 NET1 DEV1 0000 00000000 1511 00 00 0000 00 05 NET1 DEV2 0000 80000000 1511 00 00 0000 00 05 NET1 DEV3 0000 00000000 1511 00 00 0000 00 05 FE0002 NET1 DEV4 0000 00000000 1511 00 00 0000 00 05 NET1 DEV5 0000 00000000 1411 00 00 0000 00 04 NET1 DEV6 0000 00000000 15C1 00 00 0000 00 05 NET1 DEV7 0000 00000000 15C9 00 00 0000 00 05 NET2 DICK 0000 40000000 1000 00 00 0000 00 00 NET3 DICK 0000 40000000 1000 00 00 0000 00 00 NET2 HARRY 0000 40000000 1000 00 00 0000 00 00 NET3 HARRY 0000 40000000 1000 00 00 0000 00 00 LOGMR 0000 18000000 1600 00 00 0000 00 06 NET2 MARY 0000 40000000 1000 00 00 0000 00 00 NET3 MERRY 0000 40000000 1000 00 00 0000 00 00 M30CPU0 0000 28000000 1A18 00 00 0000 00 12 XALCI M30CPU1 0000 28000000 1A18 00 00 0000 00 12 XALCI M30CPU2 0000 28000000 1A10 00 00 0000 00 12 FTPUSR M34CPU0 0000 28000000 1A10 00 00 0000 00 12 FTPUSR NCPNEF2 0000 28000000 1900 00 00 0000 00 09 NEFA 0000 1800F900 1600 00 00 0000 00 06 NEFB 0000 10000000 1600 02 02 B 0000 00 09 NEFC 0000 10000000 1600 03 03 C 0000 00 09 NEFD 0000 10000000 1600 04 04 D 0000 00 09 SMPA 0000 1800F900 1600 01 01 A 0000 00 06 SMPB 0000 10000000 1600 02 02 B 0000 01 06 SMPC 0000 10000000 1600 03 03 C 0000 03 06 SMPD 0000 10000000 1600 04 04 D 0000 05 06 NET2 TOM 0000 4000F500 1000 00 00 0000 00 00 NET3 TOM 0000 40000000 1000 00 00 0000 00 00 TPFAFMMR 0000 0800F900 1700 00 00 0000 00 13 TPFBFMMR 0000 00000000 1700 02 02 B 0000 00 13 TPFCFMMR 0000 00000000 1700 03 03 C 0000 00 13 TPFDFMMR 0000 00000000 1700 04 04 D 0000 00 13 T3451MCH 0000 2A000000 1A80 00 00 0000 00 15 FF0600 T3452MCH 0000 2A010000 1A80 00 00 0000 00 15 FF0700 T3452X01 0000 28010000 1A40 00 00 0000 00 15 800000 T3452X02 0000 28010000 1A40 00 00 0000 00 15 810000 T3452X03 0000 28010000 1A40 00 00 0000 00 15 820000
NETID NAME ELEM MODE TYPE WNSZ NASA OWSA CPU SDA APIX BIND QN LEID PSV VRTO VRILTO REAL SAW PG 10 T3452X04 0000 28010000 1A40 00 00 0000 00 15 830000 T3452X05 0000 28010000 1A40 00 00 0000 00 15 840000 T3452X06 0000 28010000 1A40 00 00 0000 00 15 850000 T3452X07 0000 28010000 1A40 00 00 0000 00 15 860000 T3452X08 0000 28010000 1A40 00 00 0000 00 15 870000 T36A1 0000 2800F900 1200 00 00 0000 00 02 T36A2 0000 2800F800 1200 00 00 0000 00 02 T36A3 0000 2800F900 1200 00 00 0000 00 02 NET5 T62SLU01 0000 00600000 1600 00 00 0000 00 14 NET5 T62SLU02 0000 00600000 1600 00 00 0000 00 14 NET4 XAX1DEV1 0000 20000000 1A28 00 00 0000 00 15 E1A000 NET4 XAX2DEV2 0000 20000000 1A24 00 00 0000 00 15 E10000 NET4 XMCHLU01 0000 20000000 1A80 00 00 0000 00 15 E1C0C0 MHIN01 NET4 XVCLU01 0000 20000000 1A40 00 00 0000 00 15 E1C0C1 MHIN02 THE NUMBER OF RRT ENTRIES GENERATED: 000000074 THIS REPORT SHOWS THE RRT ENTRIES IN LEID SEQUENCE - DUPLICATE ENTRIES ARE NOTED PAGE 1 NODE NAME LEID LENGTH T3452X01 800000 1 T3452X02 810000 1 T3452X03 820000 1 T3452X04 830000 1 T3452X05 840000 1 T3452X06 850000 1 T3452X07 860000 1 T3452X08 870000 1 XAX2DEV2 E10000 1 XAX1DEV1 E1A000 2 XMCHLU01 E1C0C0 3 XVCLU01 E1C0C1 3 DEV3 FE0002 3 T3451MCH FF0600 2 T3452MCH FF0700 2 SAT DATA FOR GENERATING HOST SUB AREA PAGE 0001 SUB AREAS NOT SHOWN IN THIS REPORT ARE UNUSED IN THIS NETWORK GENERATION SUBAREA NAME CPUID RCPU 01 TPFA A 02 TPFB B B 03 TPFC C B 04 TPFD D B 05 VTAM 06 NCP1 THIS REPORT SHOWS THE PSV ROUTINE NAME IN SEQUENCE PAGE 1 FTPUSR MHIN01 MHIN02 XALCI *I901* NO STATEMENTS FLAGGED *I903* OSTG RUN COMPLETED