改卷流程

Uppgjord (?ven faktaansvarig om annan) - Prepared (also subject responsible if other)

Internal information INSTRUCTION Nr - No. Kontr - Checked File GUC/N/I Liu Tie / Scottie Liu Dokansv/Godk - Doc respons/Approved GUC/N/IC Kevin Cheng GUC/N/I - 2003-114 Datum - Date Rev 2003-08-03 A 2003-114.doc

RESIZING SPG VOLUMES

1 Disturbances

The Implementation instruction wrote for ZS A HLR, which has HLR redundancy function is activated.

Volume resizing takes around 3-6 hours. One reload in the EX-node and two reloads in the SB-node will occur.

The change will not influence the traffic handling of the exchange but the SP will be updating for about 1.5 up to 3 hours.

Event Small system restart in CP Large system restart in CP Reload with Large system restart Initial start with side switch Initial load with side switch Small system restart in SP Reload with system restart in SP Function change of CP (Method I) Function change of CP(Method II) Function change of RP Function change of SP CP disturbances RP disturbances EM disturbances Yes No x x x x x x Downtime x 5 min x x x x x x x SP disturbances BS disturbances Alarms Traffic disturbances External contacts interrupt x x x X x 5 min 2 REQUIREMENTS

2.1 Prerequisites

The following conditions must apply before this procedure can be completed :

- The IOG(s) must be equipped with an Optical Drive (OD). - The function change should take place during low traffic. - This Implementation Instruction is only to be used by experienced personnel with the proper authority. - The CP must be in parallel operation with A side EX and B side SB/WO. - All links between the CP and the SPG(s) must be Working. - Unused old systems should be removed (LASYP, SYSRR). - The SP shall be in parallel operation with both sides WORKING / NORMAL. - The SP is free from major faults when the function change is initiated. - No other changes or test activities are in progress. - Output of Charging files, STS, Accounting Data, Command Log and HLR data dump to external media shall be done before starting the upgrade. - Command files to deactivate all Traffic Recording functions, including STS, in both CP and SP should be prepared and executed before the function change.

Corresponding files to activate those recordings after the function change shall also be prepared. - Non-Traffic Recording functions which are

activated/started via timetable, are not scheduled to be activated or started during the function change. - The required SP SW and the appropriate Start Systems are available, as well as EXDATA.

2.2 Dependencies

This OPI can only used to resizing

RELVOLUMSW,EXCHVOLUME,CHARVOLUME,STATVOLUME volumes.

3 IMPLEMENTATION

Open a log file on all AT-terminals that are used during this procedure.

3.1 Check and Preparation of SPG0

3.1.1 Check Alarm List

1 Check the alarm status of the

exchange : ALLIP;

Printout ALARM LIST

Make sure that no serious faults exist in the exchange. Check for outstanding faults. If faults exist, do proper action according to existing OPI from other terminal.

Check that Test System is deactivated on all terminals. If necessary

deactivate Test System with command END TEST by using the terminal(s)

pointed out in the alarm list.

3.1.2 Check Node Status

1 Check the status of the SPG : IMMCT: SPG=0; IMCSP; END;

Printout NODE CONFIGURATION DATA

Both Nodes must be in status WORKING/NORMAL.

3.1.3 Check which system is active

1 Check what system is active in

both nodes : LASYP: SPG=0, VNODE=A; LASYP: SPG=0, VNODE=B;

Printout SP SYSTEM LIST

3.1.4 Print list of suspected boards

1 Print the list of boards with

suspected faults of both nodes : RESUP: SPG=0, NODE=A; RESUP: SPG=0, NODE=B;

Printout SP UNIT REPAIR LIST

Continue with the next step if no suspected boards are detected.

Do a repair check of SP units if a list of faulty boards was received :

- Block the SB node BLSNI: SPG=0, NODE=sb_node;

- Do a repair check of both RESUI: SPG=0, NODE=faulty_node; node

Printout SP LINK DEBLOCKING EXECUTED or SP FAULT AT REPAIR

- If the result is OK, deblock BLSNE: SPG=0, NODE=sb_node; the NODE :

This may end into an updating large, which will take about 1 hour.

If the result is not OK, follow the appropriate OPI.

2 Check the status of the SPG : IMMCT: SPG=0; Both Nodes must be in status IMCSP; WORKING/NORMAL. END;

3.1.5 Print subset of fault log

1 Print a subset of the fault log

of both nodes : DISFP: SPG=0, NODE=A, FRDATE=frdate;

DISFP: SPG=0, NODE=B, FRDATE=frdate;

Parameter FRDATE should be the current date minus one month.

Printout SP FAULT DETECTION LOG

3.1.6 Print corrupted file data

1 Print file data : IMLCT: SPG=0; INMFP; END;

Printout FILES SUBJECT TO MAINTENANCE

Check for corrupted, blocked or recovered files and act according to

the appropriate OPI (INFBI, INREI, INFBE).

3.1.7 Print disturbance list

1 Print a subset of the alarm

and disturbance list : IMMCT: SPG=0;

IMALP: NODE=A, FRTIME=frtime, FRDATE=frdate;

IMALP: NODE=B, FRTIME=frtime, FRDATE=frdate; END;

Use the current time in FRTIME and yesterdays date in FRDATE.

Printout SPS EVENT LOG

Do not proceed if problems occurred recently and have not been identified

and corrected.

3.1.8 Print Restart Data

1 Print the SP restart log

incident list : IMLCT:SPG=0;

IMRLP:PTYPE=INCIDENT; END;

IMLCT:SPG=0;

IMRLP:PTYPE=RESTART; END;

Printout SP RESTART LOG INCIDENT LIST

3.1.9 Start application

1 Make a printout of Job

Transfer Application data : EXJAP: APPL=ALL;

Printout JTP APPLICATION DATA

2 Insert new Job Transfer

Application data: EXJAI: APPL=\NODE=A&B;

EXJAI: APPL=\

EXJAI: APPL=\NMC\

Faultcode 201 will be received if the Application is already

defined.

4.0 General Preparation on CP and SP

4.0.1 Deactivate automatic dumping

1 Deactivate the automatic dumping of DS variables : SYBUE;

Alarm printout : BACKUP INFORMATION FAULT

Faultcode 23 is received if the function was not active.

4.0.2 Deactivate Auto Reload

1 Block the automatic reload function : SYRBI;

4.0.3 Stop Heart Beat

1 Stop the heart beat to OMC : ALHBE;

When there is no OMC-link connected to the exchange or the function

was not active, FAULT CODE 25 FUNCTION NOT ACTIVATED is received.

Stop alarm status to OMC : ALSTE;

When there is no OMC-link connected to the exchange or the function

was not active, FAULT CODE 25 FUNCTION NOT ACTIVATED is received.

4.0.4 Block IO-device

1 Block all external IO-devices,

e.g. OMC links : IMLCT: SPG=0; ILBLI: NP=np; END;

4.0.5 Deactivate Command Log

1 Deactivate the Command log : SYCLE;

Wait for printout \

OR

In case that the command log \RESULT\

was not activated, the following

printout will be received. \

\

\

4.0.6 Check CP state

1 Make sure that the CP state DPWSP; is normal (A-side is EX).

4.0.7 Check Links

1 Check the status of the CP-SP

links : EXSLP: SPG=ALL;

Printout SP LINK DATA

All links should be up and working.

4.0.8 Set Size Alteration in block CHOF

1 Order a printout of the Size Alteration Event 500 for block CHOF : SAAEP:SAE=500,BLOCK=CHOF;

Printout DATA FILE INFORMATION

2 If needed set to NI=2000 : SAAII:SAE=500,BLOCK=CHOF,NI=20000;

Printout SIZE ALTERATION RESULT

Depending on the amount of traffic the SAE can be set up to 15000.

4.0.9 End Measuring Programs

Save the following printouts on a separate logfile.

1 Print the measuring programs for traffic recording and

processor load : C7TPP: MP=ALL; C7PPP: MP=ALL; PLSMP: MP=ALL; TRRPP: MP=ALL; TRADP; SQMPP: MP=ALL; TRSMP; TRCMP: MP=ALL; TRATP: MP=ALL; TRDMP: MP=ALL;

Printout CCITT7 TRAFFIC MEASUREMENT MEASURING PROGRAM DATA CCITT7 SIGNALLING PERFORMANCE MEASUREMENT MEASURING PROGRAM DATA PROCESSOR LOAD MEASUREMENT PROGRAM TRAFFIC MEASUREMENT ON ROUTES MEASURING PROGRAM DATA RECORDING PER CALL MEASURING PROGRAM SERVICE QUALITY STATISTICS MEASURING PROGRAM TRAFFIC CHARACTER MEASUREMENT MEASURING PROGRAM TRAFFIC MEASUREMENT TIME CONGESTION MEASUREMENT ON ROUTES

MEASURING PROGRAM

TRAFFIC TYPE MEASUREMENT PROGRAM TRAFFIC DISPERSION MEASUREMENT PROGRAM DATA

2 Print the time schedule for those MPs in state RECORDING

and MEASURING : TRTSP: MP=mp;

Printout TRAFFIC RECORDING TIME SCHEDULE

Take note of settings for later redefinition.

3 Stop MPs in state RECORDING

and MEASURING : TRTSE: MP=mp;

4.0.10 Passivate SP-trace

1 Check if SP-trace is active : IMLCT: SPG=0; IMTSP; END;

Printout SP TRACE SYSTEM STATUS

2 Passivate SP-trace (if active): IMLCT: SPG=0; IMTSE: NODE=ALL; END;

Printout SP TRACE SYSTEM DEACTIVATION RESULT

Alarm printout SP TRACE SYSTEM INACTIVE

3 Remove SP-trace logfiles (if present) : IMLCT: SPG=0; IMTLR: NODE=node; END;

Printout SP TRACE SYSTEM LOG REMOVAL RESULT

4.0.11 Block the Transaction Log

1 Print the transaction log : IMLCT: SPG=0; MCTLP; END;

Printout MCS TRANSACTION LOGGING CONDITIONS

2 Block the transaction log function, if active : IMLCT: SPG=0; MCTBI: FILE=file; END;

Printout MCS TRANSACTION LOG DEACTIVATION RESULT

4.0.12 Remove statistics time table

1 Print the statistics time table: IMLCT: SPG=0; ILTTP; END;

Printout DCS TRAFFIC RECORDING TIME TABLE DATA

2 Remove statistics time table : IMLCT: SPG=0; ILTTR: TRG=trg; END;

4.0.13 Stop STS

1 Take a printout of the database IMLIT: SPG=0; configuration on a logfile :SDDOP: OBJTYPE=ALL, AREA=OPER; SDRPP:RECPNM=ALL,OBJTYPE=ALL,DETAILED; SDRRP:RPTID=ALL,DETAILED; SDTPP:MP=ALL,DETAILED; SDFOP:RPTID=ALL; SDFSP:FILE=ALL; END;

Printout STATISTIC DATA DATA BASE CONFIGURATION STATISTIC DATA RECORDING PARAMETER SPECIFICATION STATISTIC DATA SINGLE REPORT SPECIFICATION STATISTIC DATA MEASURING PROGRAM SPECIFICATION STATISTIC DATA FILE OUTPUT REPORT SPECIFICATION DATA STATISTIC DATA FILE OUTPUT SUBFILE COLLECTION INTERVAL DATA

This logfile can be used to redefine the data after the function change.

2 Check if file \

\

INFIP:FILE=STSTART; INFIP:FILE=STOBJTYPE; INFIP:FILE=STFIOPADM; END;

3 Print STS measuring programs IMLIT: SPG=0; again: SDTPP: MP=ALL, DETAILED; END;

Printout STATISTIC DATA MEASURING PROGRAM SPECIFICATION

4 Stop recording : IMLIT: SPG=0; SDTPE: MP=mp, MPE; END;

If STS data base was configured, \

5 Remove the STS files STSTART INMCT: SPG=0; and STOBJTYPE : INFIR: FILE=STSTART; INFIR: FILE=STOBJTYPE; END

6 Stop the STS. IMLIT: SPG=0; SDDOI; SDDOE: EXEC; END;

Printout FAULT CODE 8 CONFIGURATION FAILED

Alarm printout STATISTIC TRAFFIC MEASUREMENT SYSTEM STOPPED

7 Stop the collection of statistic counters to the data base : IMLIT: SPG=0; SDDCE; END;

Fault code 14 is received if STS is not active.

Fault code 13 is received if measurement data base was never configured

8 Remove the STS file STFIOPADM, INMCT:SPG=0;

if defined. INFIR:FILE=STFIOPADM; END;

4.0.14 Save current Hardware Tables and data

1 Print/log the hardware table : IMHWP: NODE=A; IMHWP: NODE=B; END;

Printout SP HW DATA

2 Print/log the IO unit table : INIOP: NODE=A; INIOP: NODE=B; END;

Printout IO UNIT MODES

3 Print restart data dumps : IMRDP: NODE=A; IMRDP: NODE=B; END;

Printout NODE RESTART DATA

IMLCT: SPG=0;

IMMCT: SPG=0;

IMMCT: SPG=0;

4.1 Resizing volumes in SPG

Note: Try to keep as fewer files as possible in the resizing volume! Remove useless files! It’s better only keeping one dump in RELVOLUMSW. Other dumps can be output to OD and input in SPG after resizing volumes.

4.1.1 start volume change in SB node

1 Start the function change :

BLSNI: SPG=X,node=SB;

2 Insert SP start disk in OD of blocked node.

3 boot SB(blocked) node with start disk: SYRSI:SPG=X,NODE=SB(BLOCKED);

4 connect PC to local port in SB(blocked) node. Wait for printout:

WELCOME TO ERIOS 2::VD-1 (B/T=9) DATE 2003-08-05 TIME 121125

System S20_R4:STARTSIOG20_LZY_20444_R4.SYS;1 is running

5 Use file utility, Winfiol use TTY mode: FILUTIL; Wait for printout

ioc< FILUTIL;

U T I L I T Y M E N U E FILUTIL.B

0 Backup (physical copying of volume) Q Quick physical copying 1 Copy (logical copying of volume ) V Backup vol to file P Copy Volume (result printout per file) W Restore vol from file 2 Pack Volume 3 Copy File 4 Pack File

5 Volume Catalogue 5S Volume Cat/Short List 6 Call Process (e.g. FILDISUT) 7 Format Medium and Create Volume 8 Delete a File

9 Force Volume Close S Close a volume

A Create File I List Volume Contents B Compare Files J Selective Delete C Compare Volumes K Rename File

D Rename Volume L To Command mode E List Medium M Selective Copy F Mount Medium N Purge Files

G Format Medium O Set def file owner H Create Volume R Change vol map Y Open File X FC shutdown Z EXIT R option is used to resizing volume! 5 option is used to see volume catalogue. 1 option is used to copy file between volume. 1::HD(X) means a volume in node A; 2::HD(X) means a Volume in node B.

4.1.2 View volume catalogue which need to be resized

1 use option 5 in FILUTIL to view all volumes information.

Write down start: which is the start sector number of a volume and size: which is the total sectors define for a volume of each volumes. These are used in next step.

Wait for printout, here be low is an example: enter selection $ 5

VOLUME CATALOGUE

Give Input Volume $ 1::HD(3)

Volume status : Formatted Media, Files Open volume protection : Read/Write Volume

type of file index: VTOC-Index Impl. By FC

volume name : RELVOLUMSW01 ?watch here, make sure you change right volumes

owner : FM/1 revision : 1 alarm threshold : 90 hysteresis : 2

creation date : 2001-01-02 expiration date : 2002-01-02 no. of open files : 1/1 sector size : 512 lowest sector no : 1 sectors/track : 186

total sectors : 3000000 bad sectors : 0

used sectors : 2048586

subvol: 1 media: 1::HD-1 start: 270000 size: 3000000 to continue --- please take $

1::HD(3)=RELVOLUMSW01: Sectors Total/Bad/Used 3000000/0/2048586

file_name type version file_number

Press to continue (or new menu-choice) $ 5

VOLUME CATALOGUE

Give Input Volume $ 1::HD(4):

Volume status : Formatted Media, Files Open volume protection : Read/Write Volume

type of file index: VTOC-Index Impl. By FC

volume name : EXCHVOLUME01 ?watch here, make sure you change right volumes

owner : FM/1 revision : 1 alarm threshold : 80 hysteresis : 2

creation date : 2001-01-02 expiration date : 2002-01-02 no. of open files : 1/1 sector size : 512 lowest sector no : 1 sectors/track : 186

total sectors : 1443520

bad sectors : 0

used sectors : 171552

subvol: 1 media: 1::HD-1 start: 3270000 size: 1443520 to continue --- please take $

1::HD(4)=EXCHVOLUME01: Sectors Total/Bad/Used 1443520/0/171552

file_name type version file_number

we can see that volume information of RELVOLUMSW and EXCHVOLUME in SPG node A (1::HD(3&4)), red marked char need to be input use Winfiol.

RELVOLUMSW start at sector 270000, occupy 3000000 sectors, so it end at 3269999!

EXCHVOLUME start at sector 3270000, occupy 1443520 sectors, so it end at 4713519!

In the next step, RELVOLUMSW will increase 100000 sectors (50000K), and EXCHVOLUME has to decrease 100000 sectors (50000K)!

In INVOP printout, volume size unit is Kilobytes, in FILUTIL printout, volume size unit is sector(512 bytes). If volume will increase 10000KB (INVOP), which means increase 2*10000 sector when you use FILUTIL!!!!

4.1.3 Resize volumes in SB(blocked) node

use option R to resizing volumes:

Here below is an sample printout to decrease EXCHVOLUME, and increase RELVOLUMSW within FILUTIL.

Press to continue (or new menu-choice) $ R

CHANGE VOLUME MAP

C - Create new volume D - Delete a volume

M - Redefine a volume (volume/media relations) R - Rename and redefine a volume C, D, M or R $ R

Give volume $ 1::HD(4)

Type for values that are not to be changed

Volume name EXCHVOLUME01 $ ?watch here, make sure you

change right volumes!!!

Revision level 1 $ Volume owner FM/1 $ Alarm threshold 80 $ Expiration date 2002-01-02 $

subvol: 1 medium: 1::HD-1 start: 3270000 size : 1443520 medium $

start $ 3370000 size $ 1343520

subvol: 2 medium: 1::HD-0 start: 0 size : 0 medium $ start $ size $

subvol: 3 medium: 1::HD-0 start: 0 size : 0

medium $ start $ size $

subvol: 4 medium: 1::HD-0 start: 0 size : 0 medium $ start $ size $

Confirm rename/redefinition of 1::HD(4) (Contents will be destroyed) (Y/N) $ Y

*** FILUTIL Volume map COMPLETE ***

Press to continue (or new menu-choice) $ R

CHANGE VOLUME MAP

C - Create new volume D - Delete a volume

M - Redefine a volume (volume/media relations) R - Rename and redefine a volume C, D, M or R $ R

Give volume $ 1::HD(3)

Type for values that are not to be changed

Volume name RELVOLUMSW01 $ watch here, make sure you change

right volumes!!!

Revision level 1 $ Volume owner FM/1 $ Alarm threshold 90 $ Expiration date 2002-01-02 $

subvol: 1 medium: 1::HD-1 start: 270000 size : 3000000 medium $ start $

size $ 3100000

subvol: 2 medium: 1::HD-0 start: 0 size : 0 medium $ start $ size $

subvol: 3 medium: 1::HD-0 start: 0 size : 0 medium $ start $ size $

subvol: 4 medium: 1::HD-0 start: 0 size : 0 medium $ start $ size $

Confirm rename/redefinition of 1::HD(3) (Contents will be destroyed) (Y/N) $ Y

*** FILUTIL Volume map COMPLETE ***

Red marked char need to be input use Winfiol.

RELVOLUMSW increase 100000 (unit is 512 byte) or 50000 (unit is kbyte, which use in printout of C’INVOP).

EXCHVOLUME decrease 100000 (unit is 512 byte) or 50000 (unit is kbyte, which use in printout of C’INVOP).

4.1.4 RELOAD SB(blocked) NODE

In local port at SB(blocked) node, push reset button twice. Wait for printout:

WELCOME TO ERIOS 1::VD-1 (B/T=9) DATE 2003-08-05 TIME 125327

System S20_R4:STARTSIOG20_LZY_20444_R4.SYS;1 is running

Repeat step 4.1.2 to view volume catalogue, make sure volume size

and name are all correct!!!

If size of volume is wrong, repeat step 4.1.3 to change it again.

4.1.5 COPY FILES FROM EX SIDE TO SB(blocked) NODE

In step 4.1.3, volumes contents were destroyed, and have to re-cover from EX side.

Make sure you are select the right volume and right input and

output direction. Other vise all files in EX node would be cleared!!

Start file utility: FILUTIL; Select option 1 to copy files.

Here below is an sample printout to copy files with two node.

U T I L I T Y M E N U E FILUTIL.B

0 Backup (physical copying of volume) Q Quick physical copying 1 Copy (logical copying of volume ) V Backup vol to file P Copy Volume (result printout per file) W Restore vol from file 2 Pack Volume 3 Copy File 4 Pack File

5 Volume Catalogue 5S Volume Cat/Short List 6 Call Process (e.g. FILDISUT) 7 Format Medium and Create Volume 8 Delete a File

9 Force Volume Close S Close a volume

A Create File I List Volume Contents B Compare Files J Selective Delete C Compare Volumes K Rename File

D Rename Volume L To Command mode E List Medium M Selective Copy F Mount Medium N Purge Files

G Format Medium O Set def file owner H Create Volume R Change vol map Y Open File X FC shutdown Z EXIT

enter selection $ 1

LOGICAL VOLUME COPYING

Give Input Volume $ 1::HD(3)

Give Output Volume $ 2::HD(3) Copying started

**************************************************************************************************. Number of files copied: 877

Red marked char need to be input use Winfiol. We can see that 877 files in 1::HD(3) in node A is copied to 2::HD(3) in node B.

4.1.6 RELOAD SB(blocked) NODE AGAIN

Remove start disk form OD from SB(blocked) node. In local port at SB(blocked) node, push reset button twice. Wait for printout:

CPU-60 C1 BOOTSTRAP - CNA 219 13 R3A

BOOTBLOCK READ FROM INDEX 5

System PROG_B:IOG20_20_4_GAP024_216_0453R2_E12.SYS;1 loaded.

Large system loaded from harddisk!

4.1.7 Manually sets SB node to executive mode

Connect local port in SB(blocked) node. Make sure no OD in both nodes. Force SP switch side: IMEXS:NODE=SB(blocked) node; You will receive below printout: THE HARD DISK DATA MAY BE CORRUPTED DO YOU STILL WANT TO SET THE NODE AS EX? Confirm it with YES; Wait for printout:

CPU-60 C1 BOOTSTRAP - CNA 219 13 R3A BOOTBLOCK READ FROM INDEX 5

System PROG_B:IOG20_20_4_GAP024_216_0453R2_E12.SYS;1 loaded. Large system loaded from harddisk in new EX side.

4.1.8 Test SP function.

Connect PC to normal AT, wait for about 5 minute. Try to connect CP.

If CP connected, print CP status: DPWSP;

If IO lost, go to SP node to inspect CPU led, call ITAC or Support hot line!

4.1.9 Boot New SB node in Small system.

Insert Start disk in OD at new SB node. Connect local port to NEW SB node. Start in small system: SYRSI:SPG=X,NODE=NEW_SB,RANK=RELOAD;

Wait for printout:

CPU-60 C1 BOOTSTRAP - CNA 219 13 R3A

BOOTBLOCK READ FROM INDEX 5

System PROG_B:IOG20_20_4_GAP024_216_0453R2_E12.SYS;1 loaded.

4.1.10 Resizing volumes in new SB node.

Reference to step 4.1.2 to checking volumes configuration in both

node. Reference to step 4.1.3 to resizing volumes in new SB node! Please Do double check you command in FILUTIL!! Make it clear in mind that you are changing volumes in NEW SB node.

4.1.11 RELOAD NEW SB(blocked) NODE

Remove start disk form OD from SB(blocked) node. In local port at SB(blocked) node, push reset button twice. Wait for printout:

CPU-60 C1 BOOTSTRAP - CNA 219 13 R3A

BOOTBLOCK READ FROM INDEX 5

System PROG_B:IOG20_20_4_GAP024_216_0453R2_E12.SYS;1 loaded.

Large system loaded from harddisk!

4.1.12 PERRALLEL SP NODES BY DEBLOCKING BLOCKED NODE.

Connect PC to normal AT.

De-block blocked node: BLSNE:NODE=BLOCKED,SPG=X; Wait for command result! Use c’IMSIP to see progress.

4.2 Final Check SPG

4.2.1 Update file table

1 Update the File Table : INFUI: SPG=0;

Printout FILE TABLE UPDATING

4.2.0 Check active system

1 Check that the new SP system is active in both nodes : LASYP: VNODE=A, SPG=0; LASYP: VNODE=B, SPG=0;

Printout SP SYSTEM LIST

4.2.1 Save HW table and IO status

1 Check that all units are correctly updated in the HW tables : IMLCT: SPG=0; IMHWP: NODE=A IMHWP: NODE=B; END;

Printout SP HW DATA

2 Check that all units are initialized : IMMCT: SPG=0; INIOP: NODE=A; INIOP: NODE=B; END;

Printout IO UNIT MODES

If this is not the case investigate the fault and go to chapter 'Restore Hardware table'.

Note: Sometime SP alarm is received such as 'Node-B, FD-1' and FD-1

appears in the printout of 'IO UNIT MODES 'but it didn't exist in

the HW table. Correct it by following 'Restore Hardware table '.

4.2.4 Check the Node Status

1 Check the status of the SPG : IMMCT: SPG=0; IMCSP; END;

Printout NODE CONFIGURATION DATA

Both Nodes must be in status WORKING/NORMAL before continuing with the next chapter.

2 When there is no SPG 1 continue with chapter 'Return to Normal'.

4.3 Redefine STS

1 Redefine the STS files STSTART

and STOBJTYPE : INMCT: SPG=0;

INFII: FILE=STSTART, VOL=STATVOLUME,

EXP=0, RLENGTH=20, SIZE=1,

TYPE=DIR, FCLASS=SPL; INFII: FILE=STOBJTYPE, VOL=STATVOLUME,

EXP=10, RLENGTH=20, SIZE=200,

TYPE=SEQ, FCLASS=CMP; END;

NOTE1: File STSOBJTYPE has to be redefined with RLENGTH = 20! (Before it was RLENGTH = 14).

Reactivation of STS should only be done after the CP upgrade.

2 If it is not existing, INMCT:SPG=0;

create it. INFII:FILE=STFIOPADM, VOL=STATVOLUME, RLENGTH=1800,SIZE=65,EXP=0,TYPE=DIR,

FCLASS=SPL; END;

3 Make a printout of Job

Transfer Application data : EXJAP: APPL=ALL;

Printout JTP APPLICATION DATA

4 Insert new Job Transfer

Application data : EXJAI: APPL=\NODE=A&B;

EXJAI: APPL=\NODE=A&B;

EXJAI: APPL=\NODE=A&B;

Faultcode 201 will be received if the Application is already defined.

4.4 Return to normal operation

4.4.1 Check Disturbance List

1 Print alarm log and remove

restart alarm for SP : IMMCT: SPG=0; IMRDP: NODE=A; IMRDP: NODE=B; END;

Printout NODE RESTART DATA

IMMCT: SPG=0; IMALP: NODE=A; IMALP: NODE=B; END;

Printout SPS EVENT LOG

Idem for SPG1 if used : IMMCT: SPG=1; IMRDP: NODE=A; IMRDP: NODE=B; END;

Printout NODE RESTART DATA

IMMCT: SPG=1; IMALP: NODE=A; IMALP: NODE=B; END;

Printout SPS EVENT LOG

4.4.2 Deblock the automatic reload function

2 Deblock the automatic reload

function : SYRBE;

4.4.3 Deblock the external IO-devices

3 Deblock all external IO-devices

e.g. OMC links : IMLCT: SPG=spg; ILBLE: NP=np; END;

4.4.4 Start Heart Beat

4 Start the heart beat to OMC if

used previously : ALHBI;

5 Start alarm status to OMC if

used previously : ALSTI;

4.4.5 Deblock the transaction log

6 Deblock the transaction log if

active previously : IMLCT: SPG=0; MCTLP;

MCTBE: FILE=file; END;

4.4.6 Activate Command Log

7 Activate Command log if active

previously : SYCLI;

Printout COMMAND LOG ACTIVATION RESULT

Alarm ceasing COMMAND LOG BLOCKED

4.4.7 Activate auto dumping

8 Activate the automatic dumping

of DS variables : SYBUI: DISC;

This might only be possible after the next manual dump. This must be done according to local maintenance rules or according to

chapter 'Backup procedure'.

4.4.8 Check Alarm List

9 Check the alarm status of the

exchange : ALLIP;

Printout ALARM LIST

4.4.9 Reset Size Alteration

10 Reset SAE 500 for block CHOF if

changed previously : SAADI: SAE=500, BLOCK=CHOF, NI=ni;

Printout SIZE ALTERATION RESULT

4.4.10 Active SP-trace

11 Activate SP-trace if active

previously : IMLCT: SPG=0;

IMTSI: MODE=mode, NODE=ALL; END;

Wait for printout SP TRACE SYSTEM ACTIVATION RESULT

4.4.11 Activate STS

Reactivation of traffic and STS measurement programs according to the printout in the preparation part.

12 Initiates a session for IMLIT: SPG=0; changes of configuration SDDOI; data for the measurement SDDOC:OBJTYPE=...,INCL=...; data base. SDDOE:EXEC; END;

13 Initiates a recording IMLCT:SPG=0; parameter for the SDRPI:RECPNM=...,OBJTYPE=...,FMULA=\ Report Generator: END;

If RECPNM - recording parameter is already defined, \is received.

14 Initiates a specification of IMLCT:SPG=0; a Single Report for SDRSI:RPTID=...,OBJTYPE=..., the Report Generator. HEADING=\ END;

If RPTID - report identity is already defined, \received.

15 initiates a specification of IMLCT:SPG=0; a file report: SDFOI:FILE=...,RPTID=...,OBJTYPE=...;

Changes the time defining the subfile collection interval for the given main file SDFSC:FILE=...,INTm/INTH=...; END;

16 Define time table controlled IMLCT:SPG=0; output of reports by SDTPI:MP=...,RPTID=...,TIME=..., specifying a Measuring program INT=...,REP=...,DATE=...; with a time schedule. END;

17 Initiates a regular collection IMLCT:SPG=0; and transfer of statistic SDDCI; counter values to

the measurement data base

Updating of the translation SDDTI; tables. END;

NOTE: The program STSGEN.EXE can be used as a tool to regenerate the STS definitions.

You can download it from SA-FSC web page.

4.4.12 Activate Measurement Program

18 Initiates a measuring program were stop in preparation: C7TPI:MP=...,TRG=...,IO=...;

Activate the MPs

C7PPI:MP=...,TRG=,IO=; PLSMI:MP=...,IO=...; TRRPI:MP=...,TRG=...,io=...; TRADI:MP=...,TRG=...; SQMPI:MP=...,CTT=...,TT=...; TRSMI:MP=...,IO=...; TRCMI:MP=...,IO=...,TRG=...; TRATI:MP=...,IO=...; TRDMI:MP=...,IO=...,trd; TRTSI:MP=...,NRP=...,RPL=...,DATE=...,

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