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Posted by Pete On 13/01/26 At 12:02 PM

Oracle 26ai is not yet available on Bare Metal ODA, but it will probably be in a few weeks. For now, 26ai is available as a DB System on Oracle Database Appliance, meaning that it’s already possible to test this new version. Let’s try to migrate a 19c Bare Metal PDB to a 26ai DB System using 3 different methods.

26ai is only available with the minimum release 19.29, meaning on ODA X8-2 and newer models. You will need to patch your ODA to 19.29 first if you want to test 26ai. 26ai is only compatible with multitenant architecture, so another prerequisite is to migrate your non-container databases to PDBs. If you’re still using non-CDB architecture, and among these 3 methods, only the first one will work for you.

The recommended patching method as told by Oracle is using AutoUpgrade: please refer to this blog post if you want more details.

On my side, I will explore these 3 other possibilities:

• Datapump Export/Import
• PDB copy through a DB link
• PDB unplug/plug

These files are needed for creating a 26ai DB System:

36524660 => System image for 26ai DB Systems
36524627 => the GI clone needed for deploying newer 26ai GI version
36524642 => the DB clone for deploying new version 26ai

Be sure to choose the very latest 19.29 patch when downloading these files, download link from MOS will first propose older versions.

My source database is a 19c container database with one PDB running on an ODA X8-2M. I want to migrate this PDB to 26ai:

su - oracle
 . oraenv <<< CPROD19
ORACLE_SID = [CPROD19] ? The Oracle base remains unchanged with value /u01/app/odaorabase/oracle
sqlplus / as sysdba

SQL*Plus: Release 19.0.0.0.0 - Production on Thu Jan 8 09:53:43 2026
Version 19.29.0.0.0

Copyright (c) 1982, 2025, Oracle.  All rights reserved.


Connected to:
Oracle Database 19c Enterprise Edition Release 19.0.0.0.0 - Production
Version 19.29.0.0.0

show pdbs

    CON_ID CON_NAME                       OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
         2 PDB$SEED                       READ ONLY  NO
         3 PRODDB01                       READ WRITE NO

exit

It’s not yet possible to deploy a 26ai container database on Bare Metal, so let’s create a DB System for testing this migration. First unzip and register the VM template, GI 26ai and DB 26ai:

cd /opt/dbi

unzip -o p36524660_1929000_Linux-x86-64.zip
unzip -o p36524627_1929000_Linux-x86-64.zip
unzip -o p36524642_1929000_Linux-x86-64.zip

odacli update-repository -f /opt/dbi/odacli-dcs-23.26.0.0.0-251116-ODAVM-19.29.0.0.zip
odacli update-repository -f /opt/dbi/odacli-dcs-23.26.0.0.0-251116-GI-23.26.0.0.zip
odacli update-repository -f /opt/dbi/odacli-dcs-23.26.0.0.0-251116-DB-23.26.0.0.zip

sleep 30 ; odacli list-jobs | tail -n 4
d4700315-db8c-4522-af55-0fddd262bfe4     Repository Update                                                           2025-12-08 15:20:14 CET             Success
ba7d452f-e03d-46d0-a607-fd7c758cd1b1     Repository Update                                                           2025-12-08 15:20:59 CET             Success
bfc102d1-985b-4792-8054-03709aa8d949     Repository Update                                                           2025-12-08 15:21:20 CET             Success

odacli describe-dbsystem-image | grep 23.26
DBVM                  23.26.0.0.0           23.26.0.0.0
GI                    23.26.0.0.0           23.26.0.0.0
DB                    23.26.0.0.0           23.26.0.0.0

A CPU pool is needed for DB Systems, if you don’t have one. A 2-core CPU pool is enough:

odacli create-cpupool -c 2 -n cpupool2c -dbs

Now let’s create a json file, then create a new DB System based on this file:

cat /opt/dbi/create_dbs-04-tst-cdb.json
{
    "system": {
        "name": "dbs-04-tst",
        "shape": "dbs2",
        "systemPassword": "***********",
        "timeZone": "Europe/Zurich",
        "diskGroup": "DATA",
        "cpuPoolName": "cpupool2c",
        "enableRoleSeparation": true,
        "customRoleSeparation": {
            "groups": [
                {
                    "name": "oinstall",
                    "id": 1001,
                    "role": "oinstall"
                },
                {
                    "name": "dbaoper",
                    "id": 1002,
                    "role": "dbaoper"
                },
                {
                    "name": "dba",
                    "id": 1003,
                    "role": "dba"
                },
                {
                    "name": "asmadmin",
                    "id": 1004,
                    "role": "asmadmin"
                },
                {
                    "name": "asmoper",
                    "id": 1005,
                    "role": "asmoper"
                },
                {
                    "name": "asmdba",
                    "id": 1006,
                    "role": "asmdba"
                }
            ],
            "users": [
                {
                    "name": "grid",
                    "id": 1001,
                    "role": "gridUser"
                },
                {
                    "name": "oracle",
                    "id": 1000,
                    "role": "oracleUser"
                }
            ]
        }
    },
    "database": {
        "name": "CTEST26",
        "uniqueName": "CTEST26_S1",
        "domainName": "dbi-lab.ch",
        "adminPassword": "**********",
        "version": "23.26.0.0.0",
        "edition": "EE",
        "type": "SI",
        "dbClass": "OLTP",
        "shape": "odb2",
        "role": "PRIMARY",
        "enableDbConsole": false,
        "enableFlashStorage": false,
        "redundancy": null,
        "characterSet": {
            "characterSet": "AL32UTF8",
            "nlsCharacterset": "AL16UTF16",
            "dbTerritory": "AMERICA",
            "dbLanguage": "AMERICAN"
        },
        "rmanBackupPassword": null,
        "enableTDE": false,
        "isCdb": true,
        "pdbName": "pdb1",
        "pdbAdminUser": "pdbadmin",
        "tdePassword": null
    },
    "network": {
        "domainName": "dbi-lab.ch",
        "ntpServers": [
            "85.195.224.28"
        ],
        "dnsServers": [
            "10.16.0.250"
        ],
        "nodes": [
            {
                "name": "dbs-04-tst",
                "ipAddress": "10.16.0.247",
                "netmask": "255.255.255.0",
                "gateway": "10.16.0.1",
                "number": 0
            }
        ],
        "publicVNetwork": "pubnet"
    },
    "grid": {
        "language": "en"
    }
}

odacli create-dbsystem -p /opt/dbi/create_dbs-04-tst-cdb.json
Enter password for system "dbs-04-tst":
Retype password for system "dbs-04-tst":
Enter administrator password for DB "CTEST26":
Retype administrator password for DB "CTEST26":
...

35 minutes later, my new DB System is ready to use:

odacli describe-job -i c79ecbbf-dd0c-4b75-ba10-249c78b25f33

Job details
----------------------------------------------------------------
                     ID:  c79ecbbf-dd0c-4b75-ba10-249c78b25f33
            Description:  DB System dbs-04-tst creation
                 Status:  Success
                Created:  January 08, 2026 10:23:39 CET
                Message:

Task Name                                Start Time                               End Time                                 Status
---------------------------------------- ---------------------------------------- ---------------------------------------- ----------------
Create DB System metadata                January 08, 2026 10:23:39 CET            January 08, 2026 10:23:41 CET            Success
Persist new DB System                    January 08, 2026 10:23:41 CET            January 08, 2026 10:23:41 CET            Success
Remove unused network interfaces         January 08, 2026 10:23:41 CET            January 08, 2026 10:23:41 CET            Success
Validate DB System creation              January 08, 2026 10:23:41 CET            January 08, 2026 10:23:46 CET            Success
Create the infra quota group             January 08, 2026 10:23:46 CET            January 08, 2026 10:23:50 CET            Success
Setup DB System environment              January 08, 2026 10:23:46 CET            January 08, 2026 10:23:46 CET            Success
Create DB System ASM volume              January 08, 2026 10:23:50 CET            January 08, 2026 10:24:01 CET            Success
Create DB System ACFS filesystem         January 08, 2026 10:24:01 CET            January 08, 2026 10:24:13 CET            Success
Create DB System ACFS mount point        January 08, 2026 10:24:01 CET            January 08, 2026 10:24:01 CET            Success
Create DB System VM ACFS snapshots	 January 08, 2026 10:24:13 CET            January 08, 2026 10:24:28 CET            Success
Setup ASM client cluster config          January 08, 2026 10:24:28 CET            January 08, 2026 10:24:30 CET            Success
Create temporary SSH key pair            January 08, 2026 10:24:30 CET            January 08, 2026 10:24:31 CET            Success
Create BM certificates in ACFS location  January 08, 2026 10:24:31 CET            January 08, 2026 10:24:32 CET            Success
Create DB System cloud-init config	 January 08, 2026 10:24:32 CET            January 08, 2026 10:24:32 CET            Success
Provision DB System VM(s)                January 08, 2026 10:24:32 CET            January 08, 2026 10:24:35 CET            Success
Create u01 vDisk for DB System           January 08, 2026 10:24:35 CET            January 08, 2026 10:24:36 CET            Success
Add DB System to Clusterware             January 08, 2026 10:24:36 CET            January 08, 2026 10:24:37 CET            Success
Attach disks to DB System                January 08, 2026 10:24:36 CET            January 08, 2026 10:24:36 CET            Success
Attach u01 vDisk to DB System            January 08, 2026 10:24:36 CET            January 08, 2026 10:24:36 CET            Success
Add extra PCI slots                      January 08, 2026 10:24:37 CET            January 08, 2026 10:24:37 CET            Success
Create Network Filters                   January 08, 2026 10:24:37 CET            January 08, 2026 10:24:37 CET            Success
Export clones repository                 January 08, 2026 10:24:37 CET            January 08, 2026 10:24:37 CET            Success
Start DB System                          January 08, 2026 10:24:37 CET            January 08, 2026 10:24:40 CET            Success
Wait DB System VM first boot             January 08, 2026 10:24:40 CET            January 08, 2026 10:26:49 CET            Success
Setup Mutual TLS (mTLS)                  January 08, 2026 10:26:49 CET            January 08, 2026 10:26:51 CET            Success
Cleanup temporary SSH key pair           January 08, 2026 10:26:51 CET            January 08, 2026 10:26:52 CET            Success
Copy ASM client cluster config           January 08, 2026 10:26:51 CET            January 08, 2026 10:26:51 CET            Success
Delete Mutual TLS (mTLS) Artifacts	 January 08, 2026 10:26:51 CET            January 08, 2026 10:26:51 CET            Success
Wait DB System VM DCS Agent readiness    January 08, 2026 10:26:52 CET            January 08, 2026 10:27:12 CET            Success
Add Network Filters                      January 08, 2026 10:27:12 CET            January 08, 2026 10:27:14 CET            Success
Install DB System                        January 08, 2026 10:27:14 CET            January 08, 2026 10:53:57 CET            Success
Wait DB System VM DCS Agent readiness    January 08, 2026 10:53:57 CET            January 08, 2026 10:55:58 CET            Success
Set DB System as configured              January 08, 2026 10:55:58 CET            January 08, 2026 10:55:58 CET            Success

odacli list-dbsystems

Name                  Shape       GI version          DB info                         Status                  Created                   Updated
--------------------  ----------  ------------------  ------------------------------  ----------------------  ------------------------  ------------------------
dbs-04-tst            dbs2        23.26.0.0.0         23.26(CONFIGURED=1)             CONFIGURED              2026-01-08 10:23:39 CET   2026-01-08 10:55:58 CET

Let’s consider a classic migration using datapump. This tool has been the official one for migration for nearly 2 decades now.

Let’s first create a new PDB inside the container database of the new DB System:

ssh root@dbs-04-tst
su - oracle
. oraenv <<< CTEST26
sqlplus / as sysdba
show pdbs
    CON_ID CON_NAME			  OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
	 2 PDB$SEED			  READ ONLY  NO
	 3 PDB1 			  READ WRITE NO

alter pluggable database PDB1 close immediate;
Pluggable database altered.

drop pluggable database PDB1 including datafiles;
Pluggable database dropped.

create pluggable database MIG26DTPUMP admin user pdbadmin identified by "*********";
Pluggable database created.

alter pluggable database MIG26DTPUMP open;
Pluggable database altered.

alter pluggable database MIG26DTPUMP save state;
Pluggable database altered.

show pdbs
    CON_ID CON_NAME			  OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
	 2 PDB$SEED			  READ ONLY  NO
	 4 MIG26DTPUMP			  READ WRITE NO

alter session set container=MIG26DTPUMP;

create tablespace users datafile size 100M autoextend on maxsize 10G;
Tablespace created.

exit

On source database, non-CDB or PDB it doesn’t matter, export data using datapump:

su - oracle
. oraenv <<< CPROD19
export ORACLE_PDB_SID=PRODDB01
sqlplus / as sysdba
create or replace directory mig as '/backup/dumps/';
col current_scn for 999999999999
select current_scn from v$database;
    CURRENT_SCN
---------------
        6292616
exit
expdp system directory=MIG full=y dumpfile=PRODDB01_20260112.dmp logfile=exp_PRODDB01_20260112.log flashback_scn=6292616

Export: Release 19.0.0.0.0 - Production on Mon Jan 12 10:36:52 2026
Version 19.29.0.0.0

Copyright (c) 1982, 2019, Oracle and/or its affiliates.  All rights reserved.
Password:

Connected to: Oracle Database 19c Enterprise Edition Release 19.0.0.0.0 - Production
Starting "SYSTEM"."SYS_EXPORT_FULL_01":  system/******** directory=MIG full=y dumpfile=PRODDB01_20260112.dmp logfile=exp_PRODDB01_20260112.log flashback_scn=6292616
Processing object type DATABASE_EXPORT/EARLY_OPTIONS/VIEWS_AS_TABLES/TABLE_DATA
Processing object type DATABASE_EXPORT/NORMAL_OPTIONS/TABLE_DATA
Processing object type DATABASE_EXPORT/NORMAL_OPTIONS/VIEWS_AS_TABLES/TABLE_DATA
Processing object type DATABASE_EXPORT/SCHEMA/TABLE/TABLE_DATA
Processing object type DATABASE_EXPORT/SCHEMA/TABLE/INDEX/STATISTICS/INDEX_STATISTICS
Processing object type DATABASE_EXPORT/SCHEMA/TABLE/STATISTICS/TABLE_STATISTICS
Processing object type DATABASE_EXPORT/STATISTICS/MARKER
Processing object type DATABASE_EXPORT/PRE_SYSTEM_IMPCALLOUT/MARKER
Processing object type DATABASE_EXPORT/PRE_INSTANCE_IMPCALLOUT/MARKER
Processing object type DATABASE_EXPORT/TABLESPACE
...

. . exported "WMSYS"."WM$METADATA_MAP"                   11.16 KB       0 rows
. . exported "MDSYS"."RDF_PARAM$"                        6.515 KB       3 rows
. . exported "SYS"."AUDTAB$TBS$FOR_EXPORT"               5.960 KB       2 rows
. . exported "SYS"."DBA_SENSITIVE_DATA"                  8.070 KB       0 rows
. . exported "SYS"."DBA_TSDP_POLICY_PROTECTION"          7.656 KB       0 rows
. . exported "SYS"."NACL$_ACE_EXP"                       9.812 KB       0 rows
. . exported "SYS"."NACL$_HOST_EXP"                      6.921 KB       1 rows
. . exported "SYS"."NACL$_WALLET_EXP"                    5.929 KB       0 rows
. . exported "DBI"."CONSULTANTS"                         5.937 KB       1 rows
Master table "SYSTEM"."SYS_EXPORT_FULL_01" successfully loaded/unloaded
******************************************************************************
Dump file set for SYSTEM.SYS_EXPORT_FULL_01 is:
  /backup/dumps/PRODDB01_20260112.dmp
Job "SYSTEM"."SYS_EXPORT_FULL_01" successfully completed at Mon Jan 12 10:38:52 2026 elapsed 0 00:01:54


ls -lrth /backup/dumps/*20260112*
-rw-r-----. 1 oracle asmadmin  34M Jan 12 10:38 /backup/dumps/PRODDB01_20260112.dmp
-rw-r--r--. 1 oracle asmadmin 9.8K Jan 12 10:38 /backup/dumps/exp_PRODDB01_20260112.log

On target database, let’s do the import:

ssh root@dbs-04-tst
su - oracle
. oraenv <<< CTEST26
export ORACLE_PDB_SID=MIG26DTPUMP
sqlplus / as sysdba
create or replace directory mig as '/backup/dumps/';
exit

vi /backup/dumps/imp_PRODDB01.par
directory=MIG
schemas=dbi
dumpfile=PRODDB01_20260112.dmp
logfile=imp_PRODDB01_to_MIG26DTPUMP_20260112.log
exclude=statistics

impdp system parfile=/backup/dumps/imp_PRODDB01.par
Import: Release 23.26.0.0.0 - for Oracle Cloud and Engineered Systems on Mon Jan 12 10:51:39 2026
Version 23.26.0.0.0

Copyright (c) 1982, 2025, Oracle and/or its affiliates.  All rights reserved.
Password:

Connected to: Oracle AI Database 26ai Enterprise Edition Release 23.26.0.0.0 - for Oracle Cloud and Engineered Systems
Master table "SYSTEM"."SYS_IMPORT_SCHEMA_01" successfully loaded/unloaded
import done in AL32UTF8 character set and AL16UTF16 NCHAR character set
export done in WE8MSWIN1252 character set and AL16UTF16 NCHAR character set
Warning: possible data loss in character set conversions
Starting "SYSTEM"."SYS_IMPORT_SCHEMA_01":  system/******** parfile=/backup/dumps/imp_PRODDB01.par
Processing object type DATABASE_EXPORT/SCHEMA/USER
Processing object type DATABASE_EXPORT/SCHEMA/GRANT/SYSTEM_GRANT
Processing object type DATABASE_EXPORT/SCHEMA/ROLE_GRANT
Processing object type DATABASE_EXPORT/SCHEMA/DEFAULT_ROLE
Processing object type DATABASE_EXPORT/SCHEMA/PROCACT_SCHEMA/LOGREP
Processing object type DATABASE_EXPORT/SCHEMA/TABLE/TABLE
Processing object type DATABASE_EXPORT/SCHEMA/TABLE/TABLE_DATA
. . imported "DBI"."CONSULTANTS"                           5.9 KB       1 rows
Job "SYSTEM"."SYS_IMPORT_SCHEMA_01" successfully completed at Mon Jan 12 10:51:54 2026 elapsed 0 00:00:08

Let’s now compute statistics for my schema:

sqlplus / as sysdba
exec dbms_stats.gather_schema_stats(ownname => 'DBI');
PL/SQL procedure successfully completed.
exit;

Let’s do a quick check on data:

sqlplus / as sysdba
select start_date from dbi.consultants where name like 'DUB%';

START_DAT
---------
04-SEP-17

exit

That’s fine.

Pros & cons

• + Same procedure as previous migrations
• + Reorganize data and indexes
• + Keep the source database untouched
• – Rather slow when database is big

If the source database is a PDB, it can be copied through a DB link, this is a very convenient way of migrating a database.

First, it’s weird but the PDB administrator of the source DB must have the CREATE PLUGGABLE DATABASE privilege:

su - oracle
. oraenv <<< CPROD19
sqlplus / as sysdba
alter session set container=PRODDB01;
grant create pluggable database to pdbadmin;
exit

On the DB System, let’s create a new TNS entry for the 19c PDB:

ssh dbs-04-tst
su - oracle
. oraenv <<< CTEST26
vi $ORACLE_HOME/network/admin/tnsnames.ora

...
PRODDB01 =
  (DESCRIPTION =
      (ADDRESS = (PROTOCOL = TCP)(HOST = dbioda01.dbi-lab.ch)(PORT = 1521))
    (CONNECT_DATA =
      (SERVER = DEDICATED)
      (SERVICE_NAME = proddb01.dbi-lab.ch)
    )
  )

On the target CDB, create a new database link to the source database:

CREATE DATABASE LINK PRODDB01 CONNECT TO PDBADMIN IDENTIFIED BY "*********"  USING 'PRODDB01';

select count(*) from dual@PRODDB01;
  COUNT(*)
----------
         1

Now let’s copy the source PDB under a new name on the 26ai container:

create pluggable database MIG26DBLINK from PRODDB01@PRODDB01;
Pluggable database created.

alter pluggable database MIG26DBLINK open;

Opening this PDB will take some minutes because it automatically triggers the upgrade from 19c to 26ai:

tail -n 15 --f /u01/app/oracle/diag/rdbms/ctest26_s1/CTEST26/trace/alert_CTEST26.log 
...
MIG26DBLINK(3):Starting Upgrade on PDB Open
2026-01-12T10:57:49.606651+01:00
MIG26DBLINK(3):alter pluggable database application APP$CDB$CATALOG begin install '19.0.0.0.0' on error capture
MIG26DBLINK(3):Completed: alter pluggable database application APP$CDB$CATALOG begin install '19.0.0.0.0' on error capture
MIG26DBLINK(3):alter pluggable database application APP$CDB$CATALOG end install '19.0.0.0.0'
MIG26DBLINK(3):Completed: alter pluggable database application APP$CDB$CATALOG end install '19.0.0.0.0'
MIG26DBLINK(3):alter pluggable database application APP$CDB$CATALOG begin upgrade
  '19.0.0.0.0' to '23.0.0.0.0.partial' on error capture
MIG26DBLINK(3):Completed: alter pluggable database application APP$CDB$CATALOG begin upgrade
  '19.0.0.0.0' to '23.0.0.0.0.partial' on error capture
...
MIG26DBLINK(3):SERVER COMPONENT id=CATJAVA: status=UPGRADED, version=23.26.0.0.0, timestamp=2026-01-12 11:09:54 Container=MIG26DBLINK Id=3
2026-01-12T11:09:58.200636+01:00
MIG26DBLINK(3):Resize operation completed for file# 19, fname +DATA/CTEST26_S1/482EE16D86417106E063F700240A6555/DATAFILE/undotbs1.294.1222340161, old size 450560K, new size 455680K
2026-01-12T11:09:59.496448+01:00
MIG26DBLINK(3):Resize operation completed for file# 19, fname +DATA/CTEST26_S1/482EE16D86417106E063F700240A6555/DATAFILE/undotbs1.294.1222340161, old size 455680K, new size 460800K
2026-01-12T11:10:26.701609+01:00
MIG26DBLINK(3):oracle :
MIG26DBLINK(3):SERVER COMPONENT id=XDB: status=UPGRADED, version=23.26.0.0.0, timestamp=2026-01-12 11:10:26 Container=MIG26DBLINK Id=3
2026-01-12T11:10:36.378304+01:00
MIG26DBLINK(3):Resize operation completed for file# 19, fname +DATA/CTEST26_S1/482EE16D86417106E063F700240A6555/DATAFILE/undotbs1.294.1222340161, old size 460800K, new size 465920K
2026-01-12T11:10:45.077998+01:00
MIG26DBLINK(3):Resize operation completed for file# 19, fname +DATA/CTEST26_S1/482EE16D86417106E063F700240A6555/DATAFILE/undotbs1.294.1222340161, old size 465920K, new size 471040K
...
MIG26DBLINK(3):***************************************************************
MIG26DBLINK(3):WARNING: Pluggable Database MIG26DBLINK with pdb id - 3 is
MIG26DBLINK(3):         altered with errors or warnings. Please look into
MIG26DBLINK(3):         PDB_PLUG_IN_VIOLATIONS view for more details.
MIG26DBLINK(3):***************************************************************
MIG26DBLINK(3):--ATTENTION--
MIG26DBLINK(3):Errors reported while opening PDB (ContainerId: 3) and have been recorded in pdb_alert$ table.
MIG26DBLINK(3) Error Violation: SQL Patch, Cause: '23.26.0.0.0 Release_Update 2509270520' is installed in the CDB but no release updates are installed in the PDB, Action: Call datapatch to install in the PDB or the CDB
2026-01-12T11:13:31.632629+01:00
MIG26DBLINK(3):Opening pdb with no Resource Manager plan active
Violations: Type: 1, Count: 1
Violations: Type: 2, Count: 2
Completed: Pluggable database MIG26DBLINK opened read write
Completed: alter pluggable database MIG26DBLINK open

After a couple of minutes, the PDB is opened with errors:

Warning: PDB altered with errors.
exit

Let’s apply datapatch on this very PDB:

$ORACLE_HOME/OPatch/datapatch -pdbs MIG26DBLINK
SQL Patching tool version 23.26.0.0.0 Lim on Mon Jan 12 11:14:55 2026
Copyright (c) 2012, 2025, Oracle.  All rights reserved.

Log file for this invocation: /u01/app/oracle/product/23.0.0.0/dbhome_1/cfgtoollogs/sqlpatch/sqlpatch_sid_CTEST26_ts_2026_01_12_11_14_55_pid_5074/sqlpatch_invocation.log

Connecting to database...OK
Gathering database info...done

Note:  Datapatch will only apply or rollback SQL fixes for PDBs
       that are in an open state, no patches will be applied to closed PDBs.
       Please refer to Note: Datapatch: Database 12c Post Patch SQL Automation
       (Doc ID 1585822.1)

Bootstrapping registry and package to current versions...done
Determining current state...done

Current state of interim SQL patches:
  No interim patches found

Current state of release update SQL patches:
  Binary registry:
    23.26.0.0.0 Release_Update 250927052030: Installed
  PDB MIG26DBLINK:
    Applied 23.26.0.0.0 Release_Update 250927052030 successfully

Adding patches to installation queue and performing prereq checks...done
Installation queue:
  For the following PDBs: MIG26DBLINK
    No interim patches need to be rolled back
    No release update patches need to be installed
    No interim patches need to be applied

Bypass install queue:
  For the following PDBs: MIG26DBLINK
    No interim rollbacks will bypass install
    Patch 38404116 (Database Release Update : 23.26.0.0.0 (38404116) Gold Image): will bypass install
      Apply from 23.26.0.0.0 Release_Update 250927052030 to 23.26.0.0.0 Release_Update 250927052030
    No interim applys will bypass install


Installation queue after removing bypass entries...
Installation queue:
  For the following PDBs: MIG26DBLINK
    No interim patches need to be rolled back
    No release update patches need to be installed
    No interim patches need to be applied


Processing bypass install queue:
  Patch 38404116 apply (pdb MIG26DBLINK): SUCCESS (bypass_install)

SQL Patching tool complete on Mon Jan 12 11:15:03 2026

Everything is fine, now let’s close and open this PDB in normal mode:

sqlplus / as sysdba
show pdbs

    CON_ID CON_NAME			  OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
	 2 PDB$SEED			  READ ONLY  NO
	 3 MIG26DBLINK			  READ WRITE YES
	 4 MIG26DTPUMP			  READ WRITE NO

alter pluggable database MIG26DBLINK close immediate;
alter pluggable database MIG26DBLINK open;
alter pluggable database MIG26DBLINK save state;

show pdbs

    CON_ID CON_NAME			  OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
	 2 PDB$SEED			  READ ONLY  NO
	 3 MIG26DBLINK			  READ WRITE NO
	 4 MIG26DTPUMP			  READ WRITE NO

Let’s do a quick data check:

sqlplus / as sysdba
alter session set container=MIG26DBLINK;
select start_date from dbi.consultants where name like 'DUB%';
START_DAT
---------
04-SEP-17

exit

Database is ready to use.

Pros & cons

• + Maybe the easiest way of migrating a PDB
• + Keep the source database untouched
• + Rather fast
• + No downtime of the source database
• – Need to apply datapatch

If the source database is a PDB, it can be unplugged and plugged back to another container. This is how multitenant architecture was presented when it first came to 12cR1.

Let’s unplug the source PDB:

su - oracle
. oraenv <<< CPROD19
sqlplus / as sysdba
alter pluggable database PRODDB01 close immediate;
Pluggable database altered.

alter pluggable database PRODDB01 unplug into '/backup/dumps/PRODDB01.xml';
Pluggable database altered.

exit

Now let’s plug this PDB to the new 26ai container:

ssh root@dbs-04-tst
su - oracle
. oraenv <<< CTEST26

sqlplus / as sysdba

show pdbs

    CON_ID CON_NAME			  OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
	 2 PDB$SEED			  READ ONLY  NO
	 3 MIG26DBLINK			  READ WRITE NO
	 4 MIG26DTPUMP			  READ WRITE NO

create pluggable database MIG26REPLUG using '/backup/dumps/PRODDB01.xml' COPY;
create pluggable database MIG26REPLUG using '/backup/dumps/PRODDB01.xml' COPY
*
ERROR at line 1:
ORA-19505: failed to identify file
"+DATA/CPROD19_S1/450AA2873245B6F5E063F100240AC35A/DATAFILE/system.302.122233608
1"
ORA-17503: ksfdopn:2 Failed to open file
+DATA/CPROD19_S1/450AA2873245B6F5E063F100240AC35A/DATAFILE/system.302.1222336081
ORA-15260: permission denied on ASM disk group
Help: https://docs.oracle.com/error-help/db/ora-19505/

Files from the source database are not readable by this DB System. Let’s change the permission on these files from the Bare Metal ASM instance:

exit
exit
exit
su - grid

asmcmd ls -lt +DATA/CPROD19_S1/450AA2873245B6F5E063F100240AC35A/DATAFILE/* --permission
Type      Redund  Striped  Time             Sys  User                                     Group  Permission  Name
DATAFILE  MIRROR  COARSE   JAN 12 11:00:00  Y    oracle@e7d9d36f6b157fdabf89026bcf48d757          rw-------  USERS.297.1222336081
DATAFILE  MIRROR  COARSE   JAN 12 11:00:00  Y    oracle@e7d9d36f6b157fdabf89026bcf48d757          rw-------  UNDOTBS1.306.1222336081
DATAFILE  MIRROR  COARSE   JAN 12 11:00:00  Y    oracle@e7d9d36f6b157fdabf89026bcf48d757          rw-------  SYSTEM.302.1222336081
DATAFILE  MIRROR  COARSE   JAN 12 11:00:00  Y    oracle@e7d9d36f6b157fdabf89026bcf48d757          rw-------  SYSAUX.305.1222336081

asmcmd ls -lt +DATA/CTEST26_S1/DATAFILE/* --permission
Type      Redund  Striped  Time             Sys  User                                     Group  Permission  Name
DATAFILE  MIRROR  COARSE   JAN 12 10:00:00  Y    oracle@b94b488f82b1cf5cbf58f54162aafac0          rw-------  USERS.299.1222339507
DATAFILE  MIRROR  COARSE   JAN 12 10:00:00  Y    oracle@b94b488f82b1cf5cbf58f54162aafac0          rw-------  UNDOTBS1.693.1222338993
DATAFILE  MIRROR  COARSE   JAN 12 10:00:00  Y    oracle@b94b488f82b1cf5cbf58f54162aafac0          rw-------  SYSTEM.906.1222338951
DATAFILE  MIRROR  COARSE   JAN 12 10:00:00  Y    oracle@b94b488f82b1cf5cbf58f54162aafac0          rw-------  SYSAUX.832.1222338987

asmcmd chmod a+r +DATA/CPROD19_S1/450AA2873245B6F5E063F100240AC35A/DATAFILE/*
asmcmd ls -lt +DATA/CPROD19_S1/450AA2873245B6F5E063F100240AC35A/DATAFILE/* --permission
Type      Redund  Striped  Time             Sys  User                                     Group  Permission  Name
DATAFILE  MIRROR  COARSE   JAN 12 11:00:00  Y    oracle@e7d9d36f6b157fdabf89026bcf48d757          rw-r--r--  USERS.297.1222342153
DATAFILE  MIRROR  COARSE   JAN 12 11:00:00  Y    oracle@e7d9d36f6b157fdabf89026bcf48d757          rw-r--r--  UNDOTBS1.301.1222341995
DATAFILE  MIRROR  COARSE   JAN 12 11:00:00  Y    oracle@e7d9d36f6b157fdabf89026bcf48d757          rw-r--r--  SYSTEM.305.1222341995
DATAFILE  MIRROR  COARSE   JAN 12 11:00:00  Y    oracle@e7d9d36f6b157fdabf89026bcf48d757          rw-r--r--  SYSAUX.302.1222341995

exit

ssh root@dbs-04-tst
su - oracle
. oraenv <<< CTEST26

sqlplus / as sysdba

create pluggable database MIG26REPLUG using '/backup/dumps/PRODDB01.xml' COPY;
Pluggable database created.

show pdbs

    CON_ID CON_NAME			  OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
	 2 PDB$SEED			  READ ONLY  NO
	 3 MIG26DBLINK			  READ WRITE NO
	 4 MIG26DTPUMP			  READ WRITE NO
	 6 MIG26REPLUG			  MOUNTED

alter pluggable database MIG26REPLUG open;

It will also take a couple of minutes for this upgrade to 26ai. You will see corresponding traces in the alert.log file of the 26ai container:

tail -f /u01/app/oracle/diag/rdbms/ctest26_s1/CTEST26/trace/alert_CTEST26.log
...
2026-01-12T11:34:21.075364+01:00
MIG26REPLUG(6):Starting Upgrade on PDB Open
...
MIG26REPLUG(6):***************************************************************
MIG26REPLUG(6):WARNING: Pluggable Database MIG26REPLUG with pdb id - 6 is
MIG26REPLUG(6):         altered with errors or warnings. Please look into
MIG26REPLUG(6):         PDB_PLUG_IN_VIOLATIONS view for more details.
MIG26REPLUG(6):***************************************************************
MIG26REPLUG(6):--ATTENTION--
MIG26REPLUG(6):Errors reported while opening PDB (ContainerId: 6) and have been recorded in pdb_alert$ table.
MIG26REPLUG(6) Error Violation: SQL Patch, Cause: '23.26.0.0.0 Release_Update 2509270520' is installed in the CDB but no release updates are installed in the PDB, Action: Call datapatch to install in the PDB or the CDB
2026-01-12T11:49:56.836062+01:00
MIG26REPLUG(6):Opening pdb with no Resource Manager plan active
Violations: Type: 1, Count: 1
Violations: Type: 2, Count: 1
Completed: Pluggable database MIG26REPLUG opened read write
Completed: alter pluggable database MIG26REPLUG open

Let’s have a look at my PDBs and apply the datapatch on MIG26REPLUG:

show pdbs
    CON_ID CON_NAME			  OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
	 2 PDB$SEED			  READ ONLY  NO
	 3 MIG26DBLINK			  READ WRITE NO
	 4 MIG26DTPUMP			  READ WRITE NO
	 6 MIG26REPLUG			  READ WRITE YES

exit

$ORACLE_HOME/OPatch/datapatch -pdbs MIG26REPLUG

SQL Patching tool version 23.26.0.0.0 Lim on Mon Jan 12 11:51:42 2026
Copyright (c) 2012, 2025, Oracle.  All rights reserved.

Log file for this invocation: /u01/app/oracle/product/23.0.0.0/dbhome_1/cfgtoollogs/sqlpatch/sqlpatch_sid_CTEST26_ts_2026_01_12_11_51_42_pid_24026/sqlpatch_invocation.log

Connecting to database...OK
Gathering database info...done

Note:  Datapatch will only apply or rollback SQL fixes for PDBs
       that are in an open state, no patches will be applied to closed PDBs.
       Please refer to Note: Datapatch: Database 12c Post Patch SQL Automation
       (Doc ID 1585822.1)

Bootstrapping registry and package to current versions...done
Determining current state...done

Current state of interim SQL patches:
  No interim patches found

Current state of release update SQL patches:
  Binary registry:
    23.26.0.0.0 Release_Update 250927052030: Installed
  PDB MIG26REPLUG:
    Applied 23.26.0.0.0 Release_Update 250927052030 successfully

Adding patches to installation queue and performing prereq checks...done
Installation queue:
  For the following PDBs: MIG26REPLUG
    No interim patches need to be rolled back
    No release update patches need to be installed
    No interim patches need to be applied

Bypass install queue:
  For the following PDBs: MIG26REPLUG
    No interim rollbacks will bypass install
    Patch 38404116 (Database Release Update : 23.26.0.0.0 (38404116) Gold Image): will bypass install
      Apply from 23.26.0.0.0 Release_Update 250927052030 to 23.26.0.0.0 Release_Update 250927052030
    No interim applys will bypass install


Installation queue after removing bypass entries...
Installation queue:
  For the following PDBs: MIG26REPLUG
    No interim patches need to be rolled back
    No release update patches need to be installed
    No interim patches need to be applied


Processing bypass install queue:
  Patch 38404116 apply (pdb MIG26REPLUG): SUCCESS (bypass_install)

SQL Patching tool complete on Mon Jan 12 11:51:50 2026

Now let’s restart the PDB in normal mode:

sqlplus / as sysdba

alter pluggable database MIG26REPLUG close immediate;
alter pluggable database MIG26REPLUG open;
alter pluggable database MIG26REPLUG save state;

show pdbs

    CON_ID CON_NAME			  OPEN MODE  RESTRICTED
---------- ------------------------------ ---------- ----------
	 2 PDB$SEED			  READ ONLY  NO
	 3 MIG26DBLINK			  READ WRITE NO
	 4 MIG26DTPUMP			  READ WRITE NO
	 6 MIG26REPLUG			  READ WRITE NO

This PDB is now running on 26ai.

Let’s check my consultants table:

alter session set container=MIG26REPLUG;
select start_date from dbi.consultants where name like 'DUB%';
START_DAT
---------
04-SEP-17

exit

Pros & cons

• + Easy migration
• + Preserve source files with the copy option
• + Rather fast
• – Need a downtime of the source PDB
• – Reuse of source database is only possible by unplugging and plugging back the PDB with the xml file

There are multiple ways of migrating to 26ai. There is quite a lot of new features coming with 26ai. You will use them or not, but trying to migrate to this version is something to start thinking about in 2026.

L’article Migrate your database to 26ai on ODA est apparu en premier sur dbi Blog.

Classic Extracts have been deprecated in GoldenGate 19c and shouldn’t be part of your GoldenGate replications for a long time now. Yet, some customers still have them, and with GoldenGate 19c support coming to an end in a few months, it is high time you upgrade to GoldenGate 23ai.

However, GoldenGate 23ai doesn’t support classic extract, and the migration utility provided by Oracle will not take care of them. So, what to do with your classic extracts before migrating to GoldenGate 23ai ?

The natural solution is to migrate the extracts from the classic mode to the integrated mode. It might not be possible, depending on your situation, but it is the easiest way to get your extracts ready for a GoldenGate 23ai migration.

To do so, we will use the info extract <extract> upgrade command, which tells us whether the extract is ready for an upgrade. Log in with the correct alias, stop the extract and register the extract before running the command.

GGSCI (vmogg) > dblogin useridalias ggadmin
Successfully logged into database.

GGSCI (vmogg as ggadmin@DB1) > stop extract ext

Sending STOP request to EXTRACT EXT ...
Request processed.

GGSCI (vmogg as ggadmin@DB1) > info extract ext

EXTRACT    EXT       Last Started 2025-12-21 10:13   Status STOPPED
Checkpoint Lag       00:00:00 (updated 00:00:10 ago)
Log Read Checkpoint  Oracle Redo Logs
                     2025-12-21 10:19:13  Seqno 10, RBA 18472448
                     SCN 0.2170788 (2170788)

GGSCI (vmogg as ggadmin@DB1) > register extract ext database

2025-12-21 10:21:13  INFO   OGG-02003  Extract EXT successfully registered with database at SCN 2170800.

GGSCI (vmogg as ggadmin@DB1) > info extract ext upgrade

You might need to run the command multiple times, depending on the output of the last command. Once the extract is ready to be upgraded, you will see the following output.

GGSCI (vmogg as ggadmin@DB1) > info extract ext upgrade
Extract EXT is ready to be upgraded to integrated capture.

After this, run the upgrade command and restart the extract. The extract is now in Oracle Integrated Redo Logs mode.

GGSCI (vmogg as ggadmin@DB1) > alter extract ext upgrade integrated tranlog
Extract EXT successfully upgraded to integrated capture.

GGSCI (vmogg as ggadmin@DB1) > info extract ext

EXTRACT    EXT       Initialized   2025-12-21 10:13   Status STOPPED
Checkpoint Lag       00:00:00 (updated 00:11:43 ago)
Log Read Checkpoint  Oracle Integrated Redo Logs
                     2025-12-21 10:19:13
                     SCN 0.2170788 (2170788)

GGSCI (vmogg as ggadmin@DB1) > start extract ext

Sending START request to MANAGER ...
EXTRACT EXT starting

If your extract doesn’t start, have a detailed look at the parameters used in the extract with view params ext. You could use parameters for your extract that were accepted for classic extracts but not supported for integrated extracts.

Repeat this procedure for all your classic extracts in all your GoldenGate deployments, and you will be ready to migrate to GoldenGate 23ai !

If you get the following error when registering the extract:

OGG-08241  ERROR: This EXTRACT EXT is already registered with the database.

Check the dba_capture view of the database you are trying to register the extract into. If you see an extract already registered, it might mean that you previously registered an integrated extract with the same name.

SELECT capture_name, queue_name, queue_owner, source_database, start_scn from dba_capture;

If you receive this error when running the upgrade command, you should try restarting the extract and stopping it again.

Extract ext is not ready to be upgraded because recovery SCN ... has not reached SCN ...

start extract ext
stop extract ext
info extract ext upgrade

Technically, the info extract ... upgrade command works for ABENDED extracts. But depending on the reason your extract ended up in this state, you might not be able to upgrade.

L’article Upgrade Classic Extracts to Integrated Mode Before Migrating to GoldenGate 23ai est apparu en premier sur dbi Blog.

In this article, I will explain how I containerized my Vuetify + Vue 3 application with GitLab CI/CD.

My goal was to deploy my application on Kubernetes. To achieve this, I need to:

• Build the Vue 3 application
• Build the Docker image
• Push the image to the GitLab registry

Quick overview: overall, the full project uses a micro-service architecture and runs on Kubernetes. The Vue 3 project only contains the UI, and we containerize it and serve it with an Nginx image. The backend is a REST API built with NestJS, and we containerize it separately.

First, I need a Dockerfile to build the image for my application. In this Dockerfile, I use a double-stage build. As a result, a final image containing only what is strictly necessary.

# Build the Vue.js application
FROM node:current-alpine AS build
COPY . ./app
WORKDIR /app
RUN npm install
RUN npm run build 

# Final Nginx container
FROM nginx:alpine
COPY --from=build /app/dist /usr/share/nginx/html

The important part in this Dockerfile is the multi-stage build.
The first part, with the Node container, build the application, but production does not require all the tools used during this step.
As a result, the second step copies only the dist folder, the result of the build, and embeds it into an Nginx container to serve the generated files.

In the second step, I add the .gitlab-ci.yml file to the project root directory.

This file configures the pipeline, I use the docker-in-docker service to build the image. First, I login into the registry of my project. Next, I build and push the image.

stages:
- build

build:
  # Use the official docker image.
  image: docker:latest
  stage: build
  services:
    - docker:dind
  before_script:
    # Login to the gitlab registry
    - docker login -u "$CI_REGISTRY_USER" -p "$CI_REGISTRY_PASSWORD" $CI_REGISTRY
  script:
    # Build and push the image
    - docker build --pull -t "$CI_REGISTRY_IMAGE:$CI_COMMIT_SHA" .
    - docker push "$CI_REGISTRY_IMAGE:$CI_COMMIT_SHA"

  # Run this job where a Dockerfile exists
  rules:
    - if: $CI_COMMIT_BRANCH
      exists:
        - Dockerfile

Note: all the variables ($CI_REGISTRY_IMAGE, $CI_COMMIT_SHA…) used in the .gitlab-ci.yml are predefined variables provided by GitLab CI/CD.

Once I push the .gitlab-ci.yml file, GitLab automatically triggers the pipeline following the rules definition.

After completion, the status of the pipeline is green and the status passed

As expected, the image is available in the registry of the project.

In summary, properly containerizing a Vue application is easy, but it requires to separate build and execution. A multi-step build with an Nginx container produces a lightweight, production-ready image.

L’article Containerize Vue 3 application with GitLab CI/CD est apparu en premier sur dbi Blog.

Monitoring backups in a SQL Server Always On Availability Group can often feel like a game of hide and seek where the rules change every time you flip a failover switch. On paper, your backup strategy is solid ; you’ve configured your replica priorities and your jobs are running like clockwork. But when you query the backup history to ensure everything is under control, you realize the truth is fragmented.

Because the msdb database is local to each instance, each replica only knows about the backups it performed itself. If your backups happen on the secondary today and the primary tomorrow, no single node holds the complete story. This leads to inconsistent monitoring reports, “false positive” alerts, and a lot of manual jumping between instances just to answer a simple question: “Are we actually protected with consistent backups?”.

Before we dive deeper, a quick disclaimer for the lucky ones: If you are running SQL Server 2022 and have implemented Contained Availability Groups you can stop reading here, you are safe. In a Contained AG, the system databases are replicated alongside your data, meaning the backup history is finally unified and follows the group.

For the others, in this post, we’re going to explore how to stop chasing metadata across your cluster. We’ll look at the limitations of the local msdb, compare different ways to consolidate a unified backup view using Linked Servers, OPENDATASOURCE, and PowerShell, and see how to build a monitoring query that finally tells the whole truth, regardless of where the backup actually ran.

The traditional approach is therefore to query the msdb through the AG listener, pointing to the primary replica. Using a simple TSQL query to find the most recent backup, we get the following results.

SELECT
bs.database_name,
MAX(bs.backup_finish_date) AS LastBackup
FROM msdb.dbo.backupset bs
WHERE bs.database_name = 'StackOverflow2010'
GROUP BY bs.database_name;

As we can see, the two backup dates differ (14:39 being the time the database was created in the AG and 15:15 being the time of the last backup). As a result, if a failover occurs, the main msdb will contain incomplete data because the primary msdb will be the one on SQLAGVM2.

This traditional approach is perfectly acceptable for standalone instances because there is only one source of truth, but in the case of Always-On, we need a more robust solution. Let’s examine the different possibilities.

If you want to keep everything within the SQL Engine, Linked Servers are your go-to tool. The idea is simple: from your Primary replica, you reach out to the Secondary, query its msdb, and union the results with your local data.

SELECT
@@SERVERNAME AS [PrimaryServer],
bs.database_name,
MAX(bs.backup_finish_date) AS LastBackup
FROM msdb.dbo.backupset bs
WHERE bs.database_name = 'StackOverflow2010'
GROUP BY bs.database_name

UNION ALL

SELECT
'REMOTE_MSDB' AS [ReportingServer],
bs.database_name,
MAX(bs.backup_finish_date) AS LastBackup
FROM [REMOTE_MSDB].msdb.dbo.backupset bs
WHERE bs.database_name = 'StackOverflow2010'
GROUP BY bs.database_name;

On paper, the best way to secure a Linked Server is to use the Self option, ensuring that your own permissions are carried over to the next node. It’s the most transparent approach for auditing and security. However, this is where we often hit a silent wall: the Double-Hop. Unless Kerberos delegation is perfectly configured in your domain, NTLM will prevent your identity from traveling to the second replica. You’ll end up with a connection error, not because of a lack of permissions, but because your identity simply couldn’t make the trip. To determine the type of authentication protocol you are using, use the following query.

SELECT auth_scheme 
FROM sys.dm_exec_connections 
WHERE session_id = @@SPID;

To bypass this hurdle, it is common to see Fixed Logins being used as a pragmatic workaround. But by hardcoding credentials to make the bridge work, we create a permanent, pre-authenticated tunnel. From a security standpoint, this can facilitate lateral movement if one instance is ever compromised, a major concern in modern Zero Trust architectures. Furthermore, it obscures your audit logs, as the remote server only sees the service account instead of the actual user. These hidden complexities and security risks are precisely why many DBAs are now moving toward more decoupled, scalable alternatives.

To address the frustrations of Linked Servers, another T-SQL path often explored is the use of ad hoc queries via OPENDATASOURCE.
The concept is tempting: instead of building a permanent bridge (Linked Server), you use a temporary ladder ; OPENDATASOURCE allows you to define a connection string directly inside your T-SQL statement, reaching out to a remote replica only for the duration of that specific query. It feels lightweight and dynamic because it requires no pre-configured server objects.

In theory, you would use it like this to pull backup history from your secondary node:

SELECT 
    @@SERVERNAME AS [Source Server],
    bs.database_name, 
    MAX(bs.backup_finish_date) AS LastBackup
FROM OPENDATASOURCE('MSOLEDBSQL', 'Data Source=SQLAGVM1,1432;Integrated Security=SSPI').msdb.dbo.backupset bs
WHERE bs.database_name = 'StackOverflow2010'
GROUP BY bs.database_name;

However, if the environment is not properly configured, an error will occur immediately.

Msg 15281, Level 16, State 1, Line 1
SQL Server blocked access to STATEMENT 'OpenRowset/OpenDatasource' of component 'Ad Hoc Distributed Queries' because this component is turned off as part of the security configuration for this server. A system administrator can enable the use of 'Ad Hoc Distributed Queries' by using sp_configure. 

By default, SQL Server locks this door. It is a protective measure to prevent users from using the SQL instance as a jumping point to query any other server on the network. To get past this error, a sysadmin must explicitly enable Ad Hoc Distributed Queries. This requires tweaking the advanced configuration of the instance.

EXEC sp_configure 'show advanced options', 1;
RECONFIGURE;
GO
EXEC sp_configure 'Ad Hoc Distributed Queries', 1;
RECONFIGURE;
GO

Once these options have been reconfigured, access to the remote msdb is finally possible.

While we successfully made OPENDATASOURCE work, the trade-offs are significant. We have ended up with a solution that is brittle, difficult to maintain, and a potential liability:

• Hardcoding & Maintenance: Every replica requires a manually adapted connection string. If a server is renamed, a port is migrated, or a password expires, the entire monitoring logic collapses.
• Security & Shadow IT Risk: Enabling Ad Hoc Distributed Queries opens a permanent hole in your instance. You aren’t just allowing your script to run; you are allowing any sysadmin to connect to any external server, creating a ghost feature that can be easily misused.

In short, we are fighting the SQL engine’s security defaults just to get a simple timestamp. For a truly robust and scalable solution, it is time to look beyond T-SQL.

PowerShell steps in as the ultimate lifesaver, delivering high-level automation and pure execution simplicity. It allows you to centralize and control your scripts from an external management server, piloting your entire fleet remotely without cluttering your SQL instances.

By leveraging the power of dbatools, we shatter the limitations of traditional T-SQL. We gain dynamic flexibility and enhanced security by bypassing risky configurations, all while maintaining total control over how we manipulate the retrieved data. The security gain does not come from PowerShell itself, but from removing risky SQL Server surface area features and centralizing access control on a hardened management host. This works because PowerShell establishes direct connections from your management host to each replica. This bypasses the NTLM double-hop issue entirely, as your identity is never passed between servers, removing any need for complex Kerberos delegation or risky fixed logins.

Here is how to put this into practice. By using the Availability Group Listener as your unique gateway, you can dynamically discover the cluster topology and query all member nodes.

$Listener = 'SQLLISTENER,1432'
$TargetDB = 'StackOverflow2010'

try {
    $Nodes = Invoke-DbaQuery -SqlInstance $Listener -Database 'master' -Query "SELECT replica_server_name FROM sys.dm_hadr_availability_replica_cluster_states" 
    $BackupQuery = "SELECT SERVERPROPERTY('ServerName') as [InstanceName], MAX(backup_finish_date) as [LastBackup] FROM msdb.dbo.backupset WHERE database_name = '$TargetDB' GROUP BY database_name"
    write-output $Nodes
    $Results = foreach ($Node in $Nodes.replica_server_name) {
        write-output $Node
        Invoke-DbaQuery -SqlInstance $Node -Database 'msdb' -Query $BackupQuery -ErrorAction SilentlyContinue
    }

    $Results | Where-Object { $_.LastBackup } | Sort-Object LastBackup -Descending | Select-Object -First 1 | Format-Table -AutoSize
}
catch {
    Write-Error "Error : $($_.Exception.Message)"
}

This script is just a first step, but it lays the foundation for truly scalable infrastructure management. By shifting the logic to PowerShell instead of overloading our SQL instances, we achieve a robust and extensible method capable of handling large Always-On ecosystems without additional manual effort.

In this example, the listener name is hardcoded for the sake of clarity. However, the true strength of this approach lies in its ability to work behind the scenes with a dynamic inventory. In a Production environment, you would typically query a CMDB or a centralized configuration file to automatically populate the list of instances. This transforms a simple check into a silent, reliable automation that adapts seamlessly as your SQL environment evolves.

While we wrote the T-SQL manually in this example for the sake of clarity, it is worth noting that dbatools offers an even more streamlined approach with the Get-DbaBackupHistory command. This native function eliminates the need for manual queries entirely, returning rich metadata objects that are ready to be filtered and aggregated across your entire fleet.

$Nodes.replica_server_name | Get-DbaBackupHistory -Database 'StackOverflow2010' | Sort-Object End -Descending | Select-Object -First 1

To wrap up, remember that technical skills are only as good as the management strategy behind them. Transitioning away from legacy methods toward a PowerShell-driven approach is about gaining control over your environment. Here is what you should keep in mind:

• Beyond T-SQL Boundaries: While Linked Servers or OPENDATASOURCE might work for quick fixes, they quickly become bottlenecks and security risks in hardened infrastructures.
• Object-Oriented Efficiency: By using PowerShell and dbatools, you stop managing raw text and start handling objects. This allows you to effortlessly filter, sort, and aggregate data from multiple Always-On nodes to extract a single, reliable source of truth.
• Smarter Security: Running queries externally via dedicated management shells ensures you maintain a high security posture without needing to enable high-risk surface area features on your SQL instances.

The real game-changer is the Central Management Server. By centralizing your logic on a dedicated administration machine, you stop scattering scripts across every instance. This server becomes your orchestrator: it pulls from your inventory (CMDB, central tables), broadcasts tasks across your entire fleet, and consolidates the results. This is exactly the approach we take at dbi services to manage the extensive SQL Server environments under our care. We leverage PowerShell and the dbatools module as the backbone of our scripting architecture. This allows us to collect data in the most comprehensive and optimized way possible, ensuring we deliver top-tier service to our clients.

This is how you move from artisanal, server-by-server management to an industrial-grade automation capable of piloting hundreds of instances with the same simplicity as a single one.

L’article SQL Server Always-On: Centralizing Backup History Across Replicas est apparu en premier sur dbi Blog.

Sometimes it is necessary to troubleshoot locks in PostgreSQL to figure out what is going on in the system. While locks are important and necessary in a database system, too many locks can also be an issue, performance wise and resource consumption wise. There are several levels of locks, e.g. table level and row level locks. Depending on what kind of locks are causing an issue you need to take other actions to resolve it.

We’ll start with some basics and a very simple playground: One simple table containing one row:

postgres=# create table t (a int);
CREATE TABLE
postgres=# insert into t values (1);
INSERT 0 1

One source of information about locking is pg_locks. Do we already see something in this catalog view? Indeed we do:

postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart from pg_locks;
  locktype  | database | relation | pid  |      mode       | granted | waitstart 
------------+----------+----------+------+-----------------+---------+-----------
 relation   | postgres | pg_locks | 9119 | AccessShareLock | t       | 
 virtualxid |          |          | 9119 | ExclusiveLock   | t       | 
(2 rows)

What we see here is our own session (ignore the second row with “virtualxid” for now):

postgres=# select pg_backend_pid();
 pg_backend_pid 
----------------
           9119
(1 row)

The question is why? We only did a simple select, but even a select which does not modify the database needs locking because while we’re reading nobody else is allowed to modify the underlying objects. This is what “AccessShareLock” is about: Others can still read, but not change.

If you do the same in a second session you might expect to see four rows in total, but:

-- session 2
postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart from pg_locks;
  locktype  | database | relation | pid  |      mode       | granted | waitstart 
------------+----------+----------+------+-----------------+---------+-----------
 relation   | postgres | pg_locks | 9673 | AccessShareLock | t       | 
 virtualxid |          |          | 9673 | ExclusiveLock   | t       | 
(2 rows)

Seems a bit surprising but pg_locks shows only locks from active processes and once the statement completes the process is not active anymore and the lock is gone.

So what we can do to exclude our own locks is this:

postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart from pg_locks where pid != pg_backend_pid();
 locktype | database | relation | pid | mode | granted | waitstart 
----------+----------+----------+-----+------+---------+-----------
(0 rows)

The story is a bit different if we do the same thing in a transaction in the first session and then query the view in the second session:

-- session 1
postgres=# begin;
BEGIN
postgres=*# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart from pg_locks where pid != pg_backend_pid();
 locktype | database | relation | pid | mode | granted | waitstart 
----------+----------+----------+-----+------+---------+-----------
(0 rows)

-- session 2
postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart from pg_locks where pid != pg_backend_pid();
  locktype  | database | relation | pid  |      mode       | granted | waitstart 
------------+----------+----------+------+-----------------+---------+-----------
 relation   | postgres | pg_locks | 9119 | AccessShareLock | t       | 
 virtualxid |          |          | 9119 | ExclusiveLock   | t       | 
(2 rows)

Because the first session is still active and the transaction is open, this session still holds the lock. Ending the transaction releases the lock:

-- session 1
postgres=*# end;
COMMIT

-- session 2
postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart from pg_locks where pid != pg_backend_pid();
 locktype | database | relation | pid | mode | granted | waitstart 
----------+----------+----------+-----+------+---------+-----------
(0 rows)

Lets start doing something with our table in session two:

-- session 2
postgres=# begin;
BEGIN
postgres=*# select * from t;
 a 
---
 1
(1 row)

How does it look like in session one?

postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart from pg_locks where pid != pg_backend_pid();
  locktype  | database | relation | pid  |      mode       | granted | waitstart 
------------+----------+----------+------+-----------------+---------+-----------
 relation   | postgres | t        | 9673 | AccessShareLock | t       | 
 virtualxid |          |          | 9673 | ExclusiveLock   | t       | 
(2 rows)

This is consistent to the results above. As the second session is reading from the table and the transaction is still open, the lock is still there, no surprise. Lets update the row in the still open transaction and then have a look again in session one:

-- session 2
postgres=*# update t set a = 2 where a = 1;
UPDATE 1

-- session 1
postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart from pg_locks where pid != pg_backend_pid();
   locktype    | database | relation | pid  |       mode       | granted | waitstart 
---------------+----------+----------+------+------------------+---------+-----------
 relation      | postgres | t        | 9673 | AccessShareLock  | t       | 
 relation      | postgres | t        | 9673 | RowExclusiveLock | t       | 
 virtualxid    |          |          | 9673 | ExclusiveLock    | t       | 
 transactionid |          |          | 9673 | ExclusiveLock    | t       | 
(4 rows)

Now we got a “RowExclusiveLock” in addition and that means nobody else can do anything with the new row/tuple we’ve just created. When someone else (third session) is trying to perform the same update this will block:

-- session 3
postgres=# begin;
BEGIN
postgres=*# update t set a = 2 where a = 1;

… and the results in the first session look like this (I have added an order by and the “page” and “tuple” columns):

-- session 1
postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart,page,tuple from pg_locks where pid != pg_backend_pid() order by pid;
   locktype    | database | relation | pid  |       mode       | granted |           waitstart           | page | tuple 
---------------+----------+----------+------+------------------+---------+-------------------------------+------+-------
 relation      | postgres | t        | 9673 | RowExclusiveLock | t       |                               |      |      
 virtualxid    |          |          | 9673 | ExclusiveLock    | t       |                               |      |      
 transactionid |          |          | 9673 | ExclusiveLock    | t       |                               |      |      
 relation      | postgres | t        | 9673 | AccessShareLock  | t       |                               |      |      
 tuple         | postgres | t        | 9691 | ExclusiveLock    | t       |                               |    0 |     1
 transactionid |          |          | 9691 | ExclusiveLock    | t       |                               |      |      
 relation      | postgres | t        | 9691 | RowExclusiveLock | t       |                               |      |      
 virtualxid    |          |          | 9691 | ExclusiveLock    | t       |                               |      |      
 transactionid |          |          | 9691 | ShareLock        | f       | 2026-01-08 09:14:00.330564+01 |      |      
(9 rows)

What we see now is, that the third session (pid=9691) is trying to get the lock but can’t and must wait (waitstart) for the second session to release the lock. We can also see that the row/tuple in question is in block/page 0 and the tuple/row is the first one in that block. Once session two either commits or rollbacks the update in session three will proceed but there is nothing to update as there is no row which matches the where clause anymore.

-- session 2
postgres=*# commit;
COMMIT

-- session 3
UPDATE 0
postgres=*# select * from t;
 a 
---
 2
(1 row)

postgres=*# end;
COMMIT

In session one we can verify that all locks are gone:

postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart,page,tuple from pg_locks where pid != pg_backend_pid() order by pid;
 locktype | database | relation | pid | mode | granted | waitstart | page | tuple 
----------+----------+----------+-----+------+---------+-----------+------+-------
(0 rows)

Another example with 5 rows in the table and two sessions update only the last row:

-- session 1
postgres=# truncate t;
TRUNCATE TABLE
postgres=# insert into t values (1),(2),(3),(4),(5);
INSERT 0 5

-- session 2
postgres=# begin;
BEGIN
postgres=*# update t set a = -1 where a = 5;
UPDATE 1

-- session 3
postgres=# begin;
BEGIN
postgres=*# update t set a = -1 where a = 5;

-- session 1
postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart,page,tuple from pg_locks where pid != pg_backend_pid() order by pid;
   locktype    | database | relation | pid  |       mode       | granted |           waitstart           | page | tuple 
---------------+----------+----------+------+------------------+---------+-------------------------------+------+-------
 relation      | postgres | t        | 9673 | RowExclusiveLock | t       |                               |      |      
 virtualxid    |          |          | 9673 | ExclusiveLock    | t       |                               |      |      
 transactionid |          |          | 9673 | ExclusiveLock    | t       |                               |      |      
 virtualxid    |          |          | 9691 | ExclusiveLock    | t       |                               |      |      
 transactionid |          |          | 9691 | ShareLock        | f       | 2026-01-08 09:58:38.867534+01 |      |      
 tuple         | postgres | t        | 9691 | ExclusiveLock    | t       |                               |    0 |     5
 transactionid |          |          | 9691 | ExclusiveLock    | t       |                               |      |      
 relation      | postgres | t        | 9691 | RowExclusiveLock | t       |                               |      |      
(8 rows)

Now it is row number 5 in block 0.

The rows with “transactionid” and “virtualxid” are about the transactions, details here. Those values are also recorded in pg_locks:

-- session 1
postgres=# select locktype,database::regdatabase,relation::regclass,pid,mode,granted,waitstart,page,tuple,transactionid,virtualxid from pg_locks where pid != pg_backend_pid() order by pid;
   locktype    | database | relation | pid  |       mode       | granted |           waitstart           | page | tuple | transactionid | virtualxid 
---------------+----------+----------+------+------------------+---------+-------------------------------+------+-------+---------------+------------
 relation      | postgres | t        | 9673 | RowExclusiveLock | t       |                               |      |       |               | 
 virtualxid    |          |          | 9673 | ExclusiveLock    | t       |                               |      |       |               | 24/22
 transactionid |          |          | 9673 | ExclusiveLock    | t       |                               |      |       |           836 | 
 virtualxid    |          |          | 9691 | ExclusiveLock    | t       |                               |      |       |               | 25/18
 transactionid |          |          | 9691 | ShareLock        | f       | 2026-01-08 09:58:38.867534+01 |      |       |           836 | 
 tuple         | postgres | t        | 9691 | ExclusiveLock    | t       |                               |    0 |     5 |               | 
 transactionid |          |          | 9691 | ExclusiveLock    | t       |                               |      |       |           837 | 
 relation      | postgres | t        | 9691 | RowExclusiveLock | t       |                               |      |       |               | 

When there are only a few locks in the database this is an easy way to find out who is blocking whom but if you have hundreds of sessions and locks there is a more convenient way to check for blockers and waiters, and this is the function pg_blocking_pids:

-- session 1
postgres=# select pg_blocking_pids(9691);
 pg_blocking_pids 
------------------
 {9673}
(1 row)

Another option to check more details in regards to row locking is the extension pgrowlocks:

-- session 1
postgres=# create extension pgrowlocks;
CREATE EXTENSION
postgres=# select * from t as a, pgrowlocks('t') as b where b.locked_row = a.ctid;
 a | locked_row | locker | multi | xids  |       modes       |  pids  
---+------------+--------+-------+-------+-------------------+--------
 5 | (0,5)      |    836 | f     | {836} | {"No Key Update"} | {9673}
(1 row)

In the next post we’ll look more closely on transaction IDs and virtual transaction IDs when it comes to locking.

L’article PostgreSQL: An introduction to row locking est apparu en premier sur dbi Blog.

As we wrap up 2025 and head into 2026, it’s worth taking a quick look back and taking a sneak peek ahead.

We were proud to show our leadership in the Oracle community by once again being the top-level Titanium sponsor of the ODTUG Kscope25 conference in Grapevine, Texas. Kscope is the top technical event for people working with Oracle EPM, Oracle APEX, Oracle Cloud Infrastructure, Oracle Database, and other related technologies. It was a lot of fun seeing customers, partners, and friends in person.

This past year was also a great one for Dodeca. We added some initial AI capabilities, delivered significant enhancements for EPM Cloud, and introduced direct support for several new data sources such as Oracle Cloud EDM and Parquet. We also strengthened security by enhancing support for both SAML and OAuth authentication.

We had some fantastic customer presentations as well including a presentation where one customer shared how Dodeca helped their organization save more than 1,600 man-days per quarter. That is just one of many similar stories we hear from customers.

To add to our acclaimed technical support, we introduced free, online, hands-on training for Dodeca. In this 3-hour, instructor-guided class, you can try Dodeca for yourself and see what all the hype is about. As a self-funded, founder-led company, our measure of success isn’t profitability. Instead, it is the success of our customers who continue using our products in mission-critical applications year after year.

We did have some sad news this year.  In late October we lost our Chief Operating Officer, Michael McCarty, after a short illness. Michael was a friend for 30 years and helped lead our company for the past 25 years. His experience and humor are deeply missed, and we’re grateful for everything he contributed to our team and our work.

Looking ahead to 2026, we’re excited to keep pushing forward. We’ll continue adding capabilities to help customers eliminate spreadsheet chaos and use standardization, automation, and enterprise integration to bring confidence to the accuracy of corporate spreadsheets. And if you’re not yet a Dodeca customer, hopefully this will be the year you discover what Dodeca can do for you.

Here’s to a great 2026.

At the moment, three versions of GoldenGate are still under Premier Support, but this will very soon change, with GoldenGate 19c and 21c coming out of Premier Support in April this year ! I give below the official Oracle support end dates, as per 2026.

Of course, you should always consult the official updated resource (last update in November 2025). In fact, Oracle already extended the support for GoldenGate 19c once, so it’s always good to stay updated on this issue.

I don’t think it should come as a surprise that anything older than GoldenGate 19c is out of support for quite some time now.

Another valuable lesson from this table is that you should never play too much with intermediate release, except if you really need them. If you upgraded to GoldenGate 21c and have Extended Support, your GoldenGate won’t be supported ! However, GoldenGate 19c Extended Support ends only in April 2027.

Now would be the perfect time to upgrade to the latest version of GoldenGate, 23ai (soon to be 26ai). With that in mind, the upgrade process is more or less complex, depending on your current situation. I tried to summarize all situations in the following diagram. More explanations are available below, and full upgrade examples will follow in future blog posts.

If you already opted for GoldenGate Microservices Architecture, and you should have since it was first released nearly ten years ago, then the upgrade process is straightforward, with only one step to upgrade to GoldenGate 23ai. Again, the procedure itself is out of scope for this blog.

If you still have a Classic Architecture installation running, the upgrade process will be more complex, and depends on the version of GoldenGate you have.

If your version of GoldenGate is not too old (19c/21c), then you can use the Oracle Migration Utility available with the patch 37274898 (now KB100447 in MOS). I will give real migration examples when I have time to write more on the subject.

If you still have a GoldenGate 18c or older with a Classic Architecture, then you will need a two steps process to upgrade to GoldenGate 23ai.

• First a standard upgrade to a more recent version of GoldenGate, either 19c or 21c, with Classic Architecture.
• Then, use the Oracle Migration Utility mentioned above, to migrate from Classic Architecture to GoldenGate 23ai with Microservices Architecture.

As always, keeping your GoldenGate installations up-to-date is the best way to ensure you stay supported, secured and avoid a painful migration process when it becomes too late.

L’article Planning GoldenGate 23ai Migration Before Support Expires est apparu en premier sur dbi Blog.

Imagine you find yourself in a situation where you need to keep the passwords of a linux account in synch across multiple servers.
You don’t have admin privileges, and the accounts may be used in such a way that renders use of SSH keys impractical.
Depending on the number of servers involved, changing the password by hand may become something of a chore.
So, how could you automate this in such a way that enables you to run a single script, but which also avoids exposing the password in plain text ?
Fortunately, this being Linux, there’s a tool for that. Two tools, in fact :

• expect provides the ability to supply input to a program (e.g. ssh, passwd) programatically
• secret-tool allows the secure storage and retrieval of secrets, such as keys and passwords.

Now, when it comes to scripting, mine tend to be practical rather than elegent. Less Starship Enterprise and more USS Ceritos. This may explain some of the examples that follow…

For this post, I’ll be using what I have to hand – in this case a laptop running Ubuntu 24.04.3 LTS and a Raspberry Pi running Raspbian 11 (Bullseye) attached to the same network.
If you happen to be on RHEL 8 or above then you’ll be interested to know that the tools we’ll be using here appear to be included in the distro as standard.
On Ubuntu however, they require installation :

sudo apt-get install expect
sudo apt-get install libsecret-tools

The good news, if you’re getting squemish over the prospect of seeing me slog through the arcane syntax of bash, is that expect uses Tool Control Language (TCL, or Tickle to it’s friends).
The ban news is that, to the uninitiated ( i.e. me), the syntax appears equally arcane but in different ways.

Time for a simple example.

Beta Shift have been busy making the holodeck a bit more welcoming with a script called holodeck.sh :

#!/bin/bash
echo -n "Enter User's Name : "
read userName
case "$userName" in
    'Boimler')
        echo "Welcome Ensign. Safety Protocols engaged"
        ;;
    'Mariner')
        echo "Hey Beckett. Safety's off, just how you like it!"
        ;;
    'Rutherford')
        echo "Hi Rutherford. Safety protocols engaged...until Badgie says otherwise !"
        ;;
    'Tendi')
        echo "Hail, Mistress of the Winter Constellations !"
        ;;
    *)
        echo "Welcome to the holodeck, $userName"
        ;;
esac

As you can see, this script prompts for input. Using expect, we can supply this programatically :

#!/usr/bin/expect

set timeout 1
set prompt "\$"

set holoDecker [lindex $argv 0]
spawn bash holodeck.sh
expect "Enter User's Name :"
send "$holoDecker\r"
expect $prompt

The three expect commands at work here are :
spawn – run this command in a sub-process
send – send some input to the sub-process. Append the input string with a carriage return (\r) to simulate pressing Enter
expect – check the output of the command until you hit the pattern you specify

Run this ( saved as holodeck.exp) and we get :

expect holodeck.exp Mariner
Enter User's Name : Mariner
Hey Beckett. Safety's off, just how you like it!

Before we move on to the change password script, we’re going to need to do some setup.
When invoked, the passwd utility will prompt for the current password and then the new password, which we’ll need to re-enter to confirm.
Traditionally, the options for accessing passwords from a script have had a tendency to upset the Security Team.
Fortunately, for those anxious to avoid Lieutenant Shaxs threatening to eject the warp core, we now have the secret-tool utility at our disposal.

The man page for secret-tool explains it’s usage quite succinctly so, have a look at that now.

Incidentally, if you happen to be on a Linux desktop ( Gnome in this case), you can open the man page in a GUI Window rather than the conventional terminal view by running :

yelp main:secret-tool

In our case, we want to change the password for the betashift user on the pithree server.
So, let’s start by storing the current and new passwords in secret-tool :

secret-tool store --label="betashift_current_pwd" type current_pwd username betashift
secret-tool store --label="betashift_new_pwd" type new_pwd username betashift

Each command prompts you for the value to store.

As is typical for a password prompt in Linux, the input is not displayed on the screen.
So, if you want to double-check the input, you’ll need to query secret-tool. For example :

secret-tool lookup type new_pwd username betashift
Deltashiftrsmelly1#

If you want to change the value that’s been saved, you simply need to run the command again with the same parameters :

secret-tool store --label="betashift_new_pwd" type new_pwd username betashift

…and input the new value when prompted.

Obviously, if you can do this from the command-line, you can do it in a script. Which brings us on to …

Putting this all together, we want a script to :

• read the current and new password values from the secret-tool
• connect via ssh to the target server as the user whose password we want to change
• invoke the passwd utility and provide the appropriate responses when prompted
• capture session output in a logfile

#!/usr/bin/expect
# synch_passwords.exp user target_server
# ssh as user to target_server and update password

set uName [ lindex $argv 0 ]
set host [ lindex $argv 1 ]

# Turn off console output
log_user 0
# Write all output to a logfile
log_file -a -noappend synch_password_$uName\_on\_$host.log

send_log "\nChanging password of $uName at  [clock format [clock seconds]]\n"

# Retrieve the current and new password values that would have been set before calling this script by running :
# secret-tool store --label="betashift_current_pwd" type current_pwd username betashift
# secret-tool store --label="betashift_new_pwd" type new_pwd username betashift
set current_password [exec secret-tool lookup type current_pwd username "$uName"]
set new_password [exec secret-tool lookup type new_pwd username "$uName"]

send_log "\nConnecting to $host\n"

# Default timeout is 10 seconds. Increase it to 15 to allow for network latency
set timeout 15

# Spawn a sub-process connecting to the target server via SSH
spawn ssh $uName@$host

expect -nocase "password*"
send "$current_password\r"
expect {
    -nocase "permission denied*please try again*" {
        # ssh gives chances to try again but that's no good here because we'll just re-enter the same value.
        # Instead, log the fact then abandon the attempt.
        send_log "\nWrong Password !\n"
        exit
    }
    -nocase "*last login*" {
        # A successful connection will result in a message which includes the phrase "last login"
        send_log "\nConnected : \n"
    }
    timeout {
        # We've waited longer than the timeout value so something has not gone to plan
        send_log "\nConnection attempt timed out\n"
        exit
    }
}
# If we get here then we've connected successfully
send_log "\nSetting Password\n"
send "passwd\r"

expect -nocase "current*password*"
send "$current_password\r"

expect -nocase "enter new*password*"
send "$new_password\r"

expect -nocase "retype new*password*"
send "$new_password\r"

expect {
    -nocase "*password unchanged*" {
    send_log "\nError changing password\n"
    exit
    }
    -nocase "new unix password*" {
        send_log "\nError - password change failed \n $expect_out(buffer)\n"
        exit
    }
    -nocase "*password updated successfully*" {
        send_log "\nPassword updated\n"
        send "\n"
        send "exit\r"
    }
}
send_log "\nScript complete at [clock format [clock seconds] ]\n"

There are a couple of points to note.
The conditions in the compound expect statements are ALL evaluated, not just the first one that matches.
The output of the expect assertion is written to the expect_out buffer, not stdout. This means that comprehensive logging
cannot be easily achieved by simply re-directing stdout to a file.

Once we’ve made sure the appropriate values are stored in secret-tool, we can run this :

expect synch_passwords.exp betashift pithree

Whilst there is no output to stdout, checking the logfile confirms that the change has succeeded :

Changing password of betashift at  Thu Jan 01 13:16:41 GMT 2026

Connecting to pithree
spawn ssh betashift@pithree

betashift@pithree's password: 
Linux pithree 5.10.63-v7+ #1488 SMP Thu Nov 18 16:14:44 GMT 2021 armv7l

The programs included with the Debian GNU/Linux system are free software;
the exact distribution terms for each program are described in the
individual files in /usr/share/doc/*/copyright.

Debian GNU/Linux comes with ABSOLUTELY NO WARRANTY, to the extent
permitted by applicable law.
Last login: Thu Jan  1 13:07:52 2026 from 192.168.1.253


Connected : 

Setting Password
passwd
$ Changing password for betashift.
(current) UNIX password: 
Enter new UNIX password: 
Retype new UNIX password: 
passwd: password updated successfully
$ 
Password updated

Script complete at Thu Jan 01 13:16:42 GMT 2026

Once you’ve synchronized the password across all the target servers, you may want to remove the passwords from the secret-tool.
We can delete all entries for username betashift by simply running :

secret-tool clear username betashift

There is a LinuxVox tutorial about expect here.

The gory details of expect logging are explored thoroughly in this article.

This article by Graham Watts is useful for further details about secret-tool and associated tools.

Jan Bodnar has written a short tutorial for TCL which may be of interest.

Finally, the scripts discussed here are available in the blog’s Github Repo.

Introduction

As a Data Architect, creating clear and effective diagrams is crucial for communicating and documenting software and data architectures. The C4 model, with its focus on abstraction-first design—a principle I firmly believe is the backbone of software engineering—immediately caught my interest. To explore this further, I recently began experimenting with C4 modeling using Structurizr DSL, (DSL=Domain Specific Language) VSCode, and popular diagramming tools like PlantUML and Mermaid. I used Cairo and Graphviz in the past but these newer libraries require less tinkering. Here’s a look at my journey and the insights I gained along the way while trying the diagram as code approach.

Why C4 Models?

The C4 model is a powerful way to describe software systems at four distinct levels of abstraction—Context, Containers, Components, and Code—often referred to as the "4 Cs." Its simplicity, scalability, and developer-friendly approach make it a perfect fit for both new (greenfield) and existing (brownfield) projects.

Since I prefer to avoid cloud-based tools for richer experience and control, initially I set up a local environment using VSCode and Docker on my trusty old but fast Ubuntu laptop. This way, I can create clear, maintainable diagrams while keeping everything offline and efficient. Looking at it again, I decided that even Docker is an overkill. I decided Vscode is enough to code and diagram.

My Setup

I took a quick look at the Structurizr DSL Python wrapper, but I also skipped it—I wanted to dive straight into the native DSL syntax and see my diagrams render with minimal overhead. After all, treating diagrams as code means I can version-control them like any other project, keeping everything clean and reproducible.

While I could have spun up Structurizr Lite in a Docker container (because who doesn’t love local, self-hosted solutions?), I went lighter—just VSCode extensions to get the job done. My philosophy? Minimum viable effort for maximum results. No unnecessary layers, no cloud dependencies, just code and diagrams, the way it should be. 

They integrate seamlessly with wiki platforms (like Confluence, Notion, or GitLab/GitHub Wikis) and Git repositories, allowing you to embed dynamic, version-controlled diagrams directly in your documentation.

Tools in Action

• Structurizr DSL: Writing diagrams as code in DSL in vscode and for better previews run their server on localhost
• VSCode: With extensions for PlantUML and Mermaid, I could preview diagrams instantly in vscode.
• PlantUML & Mermaid: Both tools integrated seamlessly with VSCode via extensions, though I found Mermaid’s syntax more intuitive for quick sketches and wiki integration. Mermaid has its own markup.

Outcomes

I successfully created Context, Container, and Component diagrams for a sample imaginary project. The ability to generate diagrams locally ensured full control and flexibility, no SaaS. Here are two examples of what I built:

Figure 1: Output from Structurizr server running on localhost:8080 in docker with code on the left generating the C4 model diagram on the right

Final Thoughts

I find the C4 model and tools like PlantUML and Mermaid are a game-changer for architecture documentation—it shifts the process from static, manual diagrams to code-driven, version-controlled clarity. By leveraging Structurizr DSL in VSCode and pairing it with Mermaid/PlantUML, I’ve crafted a workflow that’s both flexible and precise, giving me full control over how my systems are visualized.

There’s something deeply satisfying about coding your diagrams—no more wrestling with drag-and-drop tools or misaligned Bézier curves. Just clean, maintainable DSL and instant visual feedback. I’m officially done with joining rectangles by hand; from now on, it’s code all the way.

I recently faced another pretty interesting case with an incorrect r_object_id reference in OTDS. In a non-production (dev) Active Directory (Azure EntraID) that is used as source of truth for the users/groups, it looked like there was an account which was a bit messed-up. By that, I mean that the mail address, user name and other fields from that account were actually using the values from another account, which was completely separate. That resulted in a bit of mess inside OTDS and inside the Documentum Resource used behind it.

The main problem was that at that customer, the Documentum “dm_user.user_name” is set to a custom “Display Name” value, which isn’t the default Display Name of the AD but a custom attribute generated/filled with some logic behind. With OTDS, you can add some logic into the Resource through JavaScript, but you often still rely on the background AD to get correct details. For that specific account (USERID01 below), that custom Display Name was set to the value from another account (USERID02). Because of that, OTDS mapped the user to a certain Documentum account. Later, the messed-up account was corrected but OTDS wasn’t able to recognize that the Dctm reference that it had stored was, then, incorrect and therefore it couldn’t update the account anymore.

Initially, the Application Team reached out to me because they weren’t able to see a value for the “dm_user.user_global_unique_id” field (of USERID01). That parameter, when using OTDS, is supposed to contain the “oTObjectGUID” (by default mapped to AD objectGUID). So, I quickly checked inside the Documentum Repository to see if this account was synched or not, if there were duplicate accounts or some other evident issues:

[dmadmin@cs-0 mop]$ iapi $DOCBASE_NAME -Udmadmin -Pxxx

        OpenText Documentum iapi - Interactive API interface
        Copyright (c) 2023. OpenText Corporation
        All rights reserved.
        Client Library Release 23.4.0000.0180

Connecting to Server using docbase REPO01
[DM_SESSION_I_SESSION_START]info:  "Session 010f123480c63b32 started for user dmadmin."

Connected to OpenText Documentum Server running Release 23.4.0000.0143  Linux64.Oracle
Session id is s0
API> ?,c,select r_object_id, user_login_name, user_name from dm_user where upper(user_login_name) like '%USERID01%';
r_object_id       user_login_name        user_name
----------------  ---------------------  -----------------------------
110f12348000c96b  USERID01               User Display Name 01

(1 row affected)

API> dump,c,110f12348000c96b
...
USER ATTRIBUTES

  user_name                       : User Display Name 01
  user_os_name                    : USERID01
  user_address                    : user01@domain.com
  user_group_name                 :
  user_privileges                 : 0
  owner_def_permit                : 7
  world_def_permit                : 3
  group_def_permit                : 5
  default_folder                  : /Home/User Display Name 01
  user_db_name                    :
  description                     :
  acl_domain                      : User Display Name 01
  acl_name                        : dm_450f12348000f652
  user_os_domain                  :
  home_docbase                    :
  user_state                      : 0
  client_capability               : 2
  globally_managed                : F
  user_delegation                 :
  workflow_disabled               : F
  alias_set_id                    : 0000000000000000
  user_source                     : OTDS
  user_ldap_dn                    :
  user_xprivileges                : 32
  failed_auth_attempt             : 0
  user_admin                      :
  user_global_unique_id           :
  user_login_name                 : USERID01
  user_login_domain               :
  user_initials                   :
  user_password                   : ****************
  user_web_page                   :
  first_failed_auth_utc_time      : nulldate
  last_login_utc_time             : 1/3/2022 13:39:00
  deactivated_utc_time            : nulldate
  deactivated_ip_addr             :
  restricted_folder_ids         []: <none>
  root_log_dir                    :

SYSTEM ATTRIBUTES

  r_is_group                      : F
  r_modify_date                   : 11/6/2025 07:12:07
  r_has_events                    : F
  r_object_id                     : 110f12348000c96b

APPLICATION ATTRIBUTES


INTERNAL ATTRIBUTES

  i_is_replica                    : F
  i_vstamp                        : 13

API> exit
Bye
[dmadmin@cs-0 mop]$

As you can see above, the “user_global_unique_id” is empty and some other fields also confirmed that the OTDS synchronization wasn’t done / working. Based on the OTDS Resource configuration, there should have been a lot of changes to that account, which wasn’t the case here.

Therefore, I tried to trigger a consolidation on the user itself from the OTDS UI, to see what the logs were saying:

Thread Id: 654,623      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.UpdateApiOp      Method: update  Level: OK       Message: Enter: update(ObjectClass: __ACCOUNT__, Attribute: {Name=__UID__, Value=[110f12348004510b]}, [Attribute: {Name=__TENANT__, Value=[]}, Attribute: {Name=user_os_name, Value=[]}, Attribute: {Name=AccountDisabled, Value=[false]}, Attribute: {Name=user_global_unique_id, Value=[9ibc9uqrfKafp/K1LRb0og==]}, Attribute: {Name=user_rename_unlock_locked_obj, Value=[T]}, Attribute: {Name=client_capability, Value=[2]}, Attribute: {Name=user_login_domain, Value=[]}, Attribute: {Name=user_name, Value=[User Display Name 01]}, Attribute: {Name=user_ldap_dn, Value=[CN=USERID01,OU=Users,DC=domain,DC=com]}, Attribute: {Name=user_address, Value=[user01@domain.com]}, Attribute: {Name=user_login_name, Value=[USERID01]}, Attribute: {Name=user_xprivileges, Value=[32]}, Attribute: {Name=create_default_cabinet, Value=[F]}, Attribute: {Name=user_privileges, Value=[0]}, Attribute: {Name=__PARTITION__, Value=[PARTITION01]}, Attribute: {Name=__OTDS_UUID__, Value=[7748abe9-7a51-9d43-b6c4-13ba639481b5]}, Attribute: {Name=user_type, Value=[dm_user]}, Attribute: {Name=user_rename_enabled, Value=[T]}, Attribute: {Name=default_folder, Value=[/Home/User Display Name 01]}, Attribute: {Name=__NAME__, Value=[User Display Name 01]}], null)
Thread Id: 654,631      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f12348000051b]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@68f2554c})
Thread Id: 654,634      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f12348000051e]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@6fa3934d})
Thread Id: 654,635      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f123480007dd8]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@41d7fb29})
Thread Id: 654,637      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f12348000451d]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@7a229867})
Thread Id: 654,638      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f12348000451e]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@4e95620c})
Thread Id: 654,665      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.UpdateApiOp      Method: update  Level: OK       Message: Enter: update(ObjectClass: __ACCOUNT__, Attribute: {Name=__UID__, Value=[110f12348004510b]}, [Attribute: {Name=__TENANT__, Value=[]}, Attribute: {Name=user_os_name, Value=[]}, Attribute: {Name=AccountDisabled, Value=[false]}, Attribute: {Name=user_global_unique_id, Value=[9ibc9uqrfKafp/K1LRb0og==]}, Attribute: {Name=user_rename_unlock_locked_obj, Value=[T]}, Attribute: {Name=client_capability, Value=[2]}, Attribute: {Name=user_login_domain, Value=[]}, Attribute: {Name=user_name, Value=[User Display Name 01]}, Attribute: {Name=user_ldap_dn, Value=[cn=USERID01,ou=users,dc=domain,dc=com]}, Attribute: {Name=user_address, Value=[user01@domain.com]}, Attribute: {Name=user_login_name, Value=[USERID01]}, Attribute: {Name=user_xprivileges, Value=[32]}, Attribute: {Name=create_default_cabinet, Value=[F]}, Attribute: {Name=user_privileges, Value=[0]}, Attribute: {Name=__PARTITION__, Value=[PARTITION01]}, Attribute: {Name=__OTDS_UUID__, Value=[7748abe9-7a51-9d43-b6c4-13ba639481b5]}, Attribute: {Name=user_type, Value=[dm_user]}, Attribute: {Name=user_rename_enabled, Value=[T]}, Attribute: {Name=default_folder, Value=[/Home/User Display Name 01]}, Attribute: {Name=__NAME__, Value=[User Display Name 01]}], null)
Thread Id: 654,623      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.UpdateApiOp      Method: update  Level: OK       Message: Exception:
com.opentext.otds.connectors.rest.HttpException: Error updating member: 400 Bad Request <!doctype html><html lang="en"><head><title>HTTP Status 400 – Bad Request</title><style type="text/css">body {font-family:Tahoma,Arial,sans-serif;} h1, h2, h3, b {color:white;background-color:#525D76;} h1 {font-size:22px;} h2 {font-size:16px;} h3 {font-size:14px;} p {font-size:12px;} a {color:black;} .line {height:1px;background-color:#525D76;border:none;}</style></head><body><h1>HTTP Status 400 – Bad Request</h1></body></html>
        at com.opentext.otds.connectors.rest.RestSession.updateMember(RestSession.java:314)
        at com.opentext.otds.connectors.rest.RestConnector$9.endOfAttributes(RestConnector.java:557)
        at com.opentext.otds.connectors.rest.RestConnector$9.endOfAttributes(RestConnector.java:526)
        at com.opentext.otds.connectors.rest.RestAttributeParser.parse(RestAttributeParser.java:29)
        at com.opentext.otds.connectors.rest.RestConnector.updateMember(RestConnector.java:564)
        ...
Thread Id: 654,635      Time: 11/18/25, 8:53 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Exception:
com.opentext.otds.connectors.rest.HttpException: Error adding group members: 404 Not Found <!doctype html><html lang="en"><head><title>HTTP Status 404 – Not Found</title><style type="text/css">body {font-family:Tahoma,Arial,sans-serif;} h1, h2, h3, b {color:white;background-color:#525D76;} h1 {font-size:22px;} h2 {font-size:16px;} h3 {font-size:14px;} p {font-size:12px;} a {color:black;} .line {height:1px;background-color:#525D76;border:none;}</style></head><body><h1>HTTP Status 404 – Not Found</h1></body></html>
        at com.opentext.otds.connectors.rest.RestSession.addMembersToGroup(RestSession.java:387)
        at com.opentext.otds.connectors.rest.RestConnector$3.endOfAttributes(RestConnector.java:222)
        at com.opentext.otds.connectors.rest.RestConnector$3.endOfAttributes(RestConnector.java:172)
        at com.opentext.otds.connectors.rest.RestAttributeParser.parse(RestAttributeParser.java:29)
        ...

So OTDS Consolidation ends-up with “400 Bad Request” and “404 Not Found” errors. While looking into the message in more details, you can see that it has a “__UID__” attribute (“Attribute: {Name=__UID__, Value=[110f12348004510b]}“) which represents the r_object_id of the dm_user, normally… But in this case, it’s different from the one in the dump above. And that r_object_id doesn’t exist in the Repository anymore:

[dmadmin@cs-0 ~]$ iapi $DOCBASE_NAME -Udmadmin -Pxxx << EOC
> dump,c,110f12348004510b
> exit
> EOC

        OpenText Documentum iapi - Interactive API interface
        Copyright (c) 2023. OpenText Corporation
        All rights reserved.
        Client Library Release 23.4.0000.0180

Connecting to Server using docbase REPO01
[DM_SESSION_I_SESSION_START]info:  "Session 010f123480c63b54 started for user dmadmin."

Connected to OpenText Documentum Server running Release 23.4.0000.0143  Linux64.Oracle
Session id is s0
API> ...
[DM_API_E_EXIST]error:  "Document/object specified by 110f12348004510b does not exist."

[DM_SESSION_W_FETCH_FAILED]warning:  "Fetch of object with handle 110f12348004510b and type NULL failed."

API> Bye
[dmadmin@cs-0 ~]$

What happened exactly? I’m not sure, I tried to ask the people that were looking at that case / trying to fix the AD account, but nobody could tell me if there was another account that was removed / re-assigned. I can only assume OTDS initially created a duplicate account (USERID02) because it couldn’t map the existing account in the Repository since the user_name was messed-up in the AD. And that someone either deleted or re-assigned the OTDS account to the other account (which was initially created by the LDAP Sync years ago, before the migration to OTDS in the past few days/weeks).

In any cases, what can be done to fix the situation…? The problem is that now OTDS references a r_object_id that doesn’t exist in Documentum and that prevent the synchronization to happen properly. Even if an account exists in the Repository with the expected user_login_name / user_name, since it’s not the one OTDS has internally, it’s not doing anything.

I could see 2 options to solve the case:

1. Since it’s part of a Synchronized Partition, you cannot delete the OTDS account. Therefore, a first solution could be to exclude this specific account from the Partition (by updating the user filter to specifically exclude that one), execute a consolidation to make sure all references of it disappears before re-adding the account again.
2. Find and update the wrong reference in the OTDS DB

The safest approach is probably the #1, but since I was in the middle of debugging the issue, I wanted to try the second one instead. This is to confirm how OTDS behaves and maybe to get more insights on how the DB is organized… Who knows, it might be helpful at some point in the future ;).

From what I already knew, the users are put inside the “MEMBERS” table but that would only contain things from the Source system (AD here). The possible external details like the “r_object_id” I’m looking for here would usually be in the “RESOURCEACCESS” table instead. Therefore, I found my user through its user id, fetched the UUID that is the cross-reference used by OTDS and was indeed able to find the wrong reference there:

SQL> SET PAGES 999;
SQL> SET WRAP OFF;
SQL> SET LINESIZE 50;
SQL> SELECT UUID, NAME FROM MEMBERS WHERE NAME='USERID01';

UUID                             NAME
-------------------------------- -----------------
7BE9748AA57149D3BC641A948363B1B5 USERID01

SQL> SELECT MEMBERID, IDINRESOURCE FROM RESOURCEACCESS WHERE MEMBERID='7BE9748AA57149D3BC641A948363B1B5';

MEMBERID                         IDINRESOURCE
-------------------------------- -----------------
7BE9748AA57149D3BC641A948363B1B5 110f12348004510b

But what if you aren’t certain if this is the only reference in the whole DB…? I was in this position too. I knew I could find what I was looking for in these 2 tables, but I wasn’t 100% certain if it was the only place. Well, I sure hoped so, as having duplicates / multiple references for the same thing in the DB could be pretty bad.

Let’s crawl the DB to see if there are any other references then! First of all, I created a small SQL file which contains the connection to the DB, the generation of all needed SELECT statements for each column of each table which have a string data_type and finally the execution of the generated selects:

[dmadmin@cs-0 mop]$ ls -l
total 4
-rw-r----- 1 dmadmin dmadmin 536 Nov 18 09:03 generate_and_execute_selects.sql
[dmadmin@cs-0 mop]$
[dmadmin@cs-0 mop]$ cat generate_and_execute_selects.sql
CONNECT otds-user/otds-password@otds-tns
spool selects.sql
set pagesize 0
set linesize 10000
set trims on
SELECT
    'SELECT ''' || table_name || ''' AS table_name, ''' ||
    column_name || ''' AS column_name, "' ||
    column_name || '" AS value_found ' ||
    'FROM ' || owner || '.' || table_name ||
    ' WHERE "' || column_name || '" LIKE ''%110f12348004510b%'';'
  FROM
    all_tab_columns
  WHERE
    data_type IN ('VARCHAR2','NVARCHAR2','CHAR','NCHAR','CLOB','RAW')
    AND owner = 'OTDS';
spool off
set echo on
@selects.sql
quit
[dmadmin@cs-0 mop]$

Note 1: I put the CONNECT inside the SQL file, but you can obviously set it at command line or through variables, so it doesn’t show in the bash history. It’s just an example.

Note 2: You can change the string that you are looking for, it’s in between the ‘%string%‘ (line 11 of the SQL file). You can also change the data_type as required (line 15 of the SQL file). For OTDS on Oracle, only VARCHAR2, CLOB and RAW are used.

Note 3: I’m using double quotes (“) around the column_name. This is because, unfortunately, some columns for OTDS appears to be created by the product with case sensitivity… Therefore, without these double quotes, you wouldn’t be able to query for the 2 tables: “SCHEMA_HISTORY” and “BOOTSTRAP_HISTORY“. Without it, the DB Crawling would succeed for all tables except these 2 where you would get an “invalid identifier” on the column name… As an example, you can try to execute these two queries:

select * from SCHEMA_HISTORY WHERE description like '%setup%'; -- this might not work
select * from SCHEMA_HISTORY WHERE "description" like '%setup%'; -- this works

Once you have the above SQL file, you can execute it. As mentioned, it will start with the generation of another SQL file, containing all needed SELECT statements for all columns of all tables. And it will then execute all these SELECT statements one by one. All the logs will be inside the “selects.log” file in this case:

[dmadmin@cs-0 mop]$ sqlplus /nolog @generate_and_execute_selects.sql > selects.log
[dmadmin@cs-0 mop]$
[dmadmin@cs-0 mop]$ echo $?
0
[dmadmin@cs-0 mop]$
[dmadmin@cs-0 mop]$ ls -l
total 96
-rw-r----- 1 dmadmin dmadmin   536 Nov 18 09:03 generate_and_execute_selects.sql
-rw-r----- 1 dmadmin dmadmin 54518 Nov 18 09:03 selects.log
-rw-r----- 1 dmadmin dmadmin 25122 Nov 18 09:03 selects.sql
[dmadmin@cs-0 mop]$

I usually start a first execution with “@selects.sql” being commented in the “generate_and_execute_selects.sql” file. This is to generate the SELECT statements without executing them. I can first verify if everything looks good before cleaning and re-executing without the line commented out.

For OTDS, there are 164 SELECT statements being generated. For this environment, there are 252 columns owned by “OTDS” in total, but 49+39 of these that have a TIMESTAMP+NUMBER data_type, respectively, which gives us the 164 results, as expected:

[dmadmin@cs-0 mop]$ cat selects.sql
SELECT 'ACCESSROLEMEMBERS' AS table_name, 'TENANTID' AS column_name, "TENANTID" AS value_found FROM OTDS.ACCESSROLEMEMBERS WHERE "TENANTID" LIKE '%110f12348004510b%';
SELECT 'ACCESSROLEMEMBERS' AS table_name, 'ACCESSROLEID' AS column_name, "ACCESSROLEID" AS value_found FROM OTDS.ACCESSROLEMEMBERS WHERE "ACCESSROLEID" LIKE '%110f12348004510b%';
SELECT 'ACCESSROLEMEMBERS' AS table_name, 'MEMBERID' AS column_name, "MEMBERID" AS value_found FROM OTDS.ACCESSROLEMEMBERS WHERE "MEMBERID" LIKE '%110f12348004510b%';
SELECT 'SCHEMA_HISTORY' AS table_name, 'version' AS column_name, "version" AS value_found FROM OTDS.SCHEMA_HISTORY WHERE "version" LIKE '%110f12348004510b%';
SELECT 'SCHEMA_HISTORY' AS table_name, 'description' AS column_name, "description" AS value_found FROM OTDS.SCHEMA_HISTORY WHERE "description" LIKE '%110f12348004510b%';
...
...
SELECT 'JOBS' AS table_name, 'NAME' AS column_name, "NAME" AS value_found FROM OTDS.JOBS WHERE "NAME" LIKE '%110f12348004510b%';
SELECT 'JOBS' AS table_name, 'TARGET' AS column_name, "TARGET" AS value_found FROM OTDS.JOBS WHERE "TARGET" LIKE '%110f12348004510b%';
SELECT 'BOOTSTRAP_HISTORY' AS table_name, 'version' AS column_name, "version" AS value_found FROM OTDS.BOOTSTRAP_HISTORY WHERE "version" LIKE '%110f12348004510b%';
SELECT 'BOOTSTRAP_HISTORY' AS table_name, 'description' AS column_name, "description" AS value_found FROM OTDS.BOOTSTRAP_HISTORY WHERE "description" LIKE '%110f12348004510b%';
SELECT 'BOOTSTRAP_HISTORY' AS table_name, 'type' AS column_name, "type" AS value_found FROM OTDS.BOOTSTRAP_HISTORY WHERE "type" LIKE '%110f12348004510b%';
SELECT 'BOOTSTRAP_HISTORY' AS table_name, 'script' AS column_name, "script" AS value_found FROM OTDS.BOOTSTRAP_HISTORY WHERE "script" LIKE '%110f12348004510b%';
SELECT 'BOOTSTRAP_HISTORY' AS table_name, 'installed_by' AS column_name, "installed_by" AS value_found FROM OTDS.BOOTSTRAP_HISTORY WHERE "installed_by" LIKE '%110f12348004510b%';

164 rows selected.

[dmadmin@cs-0 mop]$

To verify if all SELECT statements were executed successfully and to check the list of occurrences of the specific string, you can use such commands:

[dmadmin@cs-0 mop]$ grep '^SQL> SELECT' selects.log | wc -l
164
[dmadmin@cs-0 mop]$
[dmadmin@cs-0 mop]$ grep -i 'ERROR' selects.log | wc -l
0
[dmadmin@cs-0 mop]$
[dmadmin@cs-0 mop]$ grep 'no rows selected' selects.log | wc -l
163
[dmadmin@cs-0 mop]$
[dmadmin@cs-0 mop]$ grep -B1 '[^%]110f12348004510b' selects.log
SQL> SELECT 'RESOURCEACCESS' AS table_name, 'IDINRESOURCE' AS column_name, "IDINRESOURCE" AS value_found FROM OTDS.RESOURCEACCESS WHERE "IDINRESOURCE" LIKE '%110f12348004510b%';
RESOURCEACCESS IDINRESOURCE 110f12348004510b
[dmadmin@cs-0 mop]$

Therefore, that confirms that all 164 SELECT statements were executed, there was 0 errors, 163 empty results (no match in the full column) and only a single query that matched. This means that the only reference present for the Documentum r_object_id in the OTDS DB is indeed stored inside the “RESOURCEACCESS.IDINRESOURCE” column. So let’s update / correct that value:

SQL> SELECT MEMBERID, IDINRESOURCE FROM RESOURCEACCESS WHERE MEMBERID='7BE9748AA57149D3BC641A948363B1B5';

MEMBERID                         IDINRESOURCE
-------------------------------- -----------------
7BE9748AA57149D3BC641A948363B1B5 110f12348004510b

SQL> UPDATE RESOURCEACCESS SET IDINRESOURCE='110f12348000c96b' WHERE MEMBERID='7BE9748AA57149D3BC641A948363B1B5';

1 row updated.

SQL> SELECT MEMBERID, IDINRESOURCE FROM RESOURCEACCESS WHERE MEMBERID='7BE9748AA57149D3BC641A948363B1B5';

MEMBERID                         IDINRESOURCE
-------------------------------- -----------------
7BE9748AA57149D3BC641A948363B1B5 110f12348000c96b

Now that it’s corrected, the final step is to trigger a new consolidation for that specific account, to see if OTDS is now able to update the account in Documentum:

Thread Id: 655,026      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.UpdateApiOp      Method: update  Level: OK       Message: Enter: update(ObjectClass: __ACCOUNT__, Attribute: {Name=__UID__, Value=[110f12348000c96b]}, [Attribute: {Name=__TENANT__, Value=[]}, Attribute: {Name=user_os_name, Value=[]}, Attribute: {Name=AccountDisabled, Value=[false]}, Attribute: {Name=user_global_unique_id, Value=[9ibc9uqrfKafp/K1LRb0og==]}, Attribute: {Name=user_rename_unlock_locked_obj, Value=[T]}, Attribute: {Name=client_capability, Value=[2]}, Attribute: {Name=user_login_domain, Value=[]}, Attribute: {Name=user_name, Value=[User Display Name 01]}, Attribute: {Name=user_ldap_dn, Value=[CN=USERID01,OU=Users,DC=domain,DC=com]}, Attribute: {Name=user_address, Value=[user01@domain.com]}, Attribute: {Name=user_login_name, Value=[USERID01]}, Attribute: {Name=user_xprivileges, Value=[32]}, Attribute: {Name=create_default_cabinet, Value=[F]}, Attribute: {Name=user_privileges, Value=[0]}, Attribute: {Name=__PARTITION__, Value=[PARTITION01]}, Attribute: {Name=__OTDS_UUID__, Value=[7748abe9-7a51-9d43-b6c4-13ba639481b5]}, Attribute: {Name=user_type, Value=[dm_user]}, Attribute: {Name=user_rename_enabled, Value=[T]}, Attribute: {Name=default_folder, Value=[/Home/User Display Name 01]}, Attribute: {Name=__NAME__, Value=[User Display Name 01]}], null)
Thread Id: 655,032      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f123480007dd8]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@289175b7})
Thread Id: 655,033      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f12348000051b]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@2551d69b})
Thread Id: 655,036      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f12348000051e]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@3f885a33})
Thread Id: 655,038      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f12348000451d]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@39b49b96})
Thread Id: 655,040      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Enter: create(ObjectClass: DIRECTIONAL_ASSOCIATION, [Attribute: {Name=ToObjClassName, Value=[__GROUP__]}, Attribute: {Name=FromObjClassName, Value=[__MEMBER__]}, Attribute: {Name=From, Value=[[Multiple Members]]}, Attribute: {Name=To, Value=[120f12348000451e]}, Attribute: {Name=Type, Value=[MemberOfGroup]}], OperationOptions: {Members=[Ljava.lang.String;@4504edb8})
Thread Id: 655,066      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.UpdateApiOp      Method: update  Level: OK       Message: Enter: update(ObjectClass: __ACCOUNT__, Attribute: {Name=__UID__, Value=[110f12348000c96b]}, [Attribute: {Name=__TENANT__, Value=[]}, Attribute: {Name=user_os_name, Value=[]}, Attribute: {Name=AccountDisabled, Value=[false]}, Attribute: {Name=user_global_unique_id, Value=[9ibc9uqrfKafp/K1LRb0og==]}, Attribute: {Name=user_rename_unlock_locked_obj, Value=[T]}, Attribute: {Name=client_capability, Value=[2]}, Attribute: {Name=user_login_domain, Value=[]}, Attribute: {Name=user_name, Value=[User Display Name 01]}, Attribute: {Name=user_ldap_dn, Value=[cn=USERID01,ou=users,dc=domain,dc=com]}, Attribute: {Name=user_address, Value=[user01@domain.com]}, Attribute: {Name=user_login_name, Value=[USERID01]}, Attribute: {Name=user_xprivileges, Value=[32]}, Attribute: {Name=create_default_cabinet, Value=[F]}, Attribute: {Name=user_privileges, Value=[0]}, Attribute: {Name=__PARTITION__, Value=[PARTITION01]}, Attribute: {Name=__OTDS_UUID__, Value=[7748abe9-7a51-9d43-b6c4-13ba639481b5]}, Attribute: {Name=user_type, Value=[dm_user]}, Attribute: {Name=user_rename_enabled, Value=[T]}, Attribute: {Name=default_folder, Value=[/Home/User Display Name 01]}, Attribute: {Name=__NAME__, Value=[User Display Name 01]}], null)
Thread Id: 655,026      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.UpdateApiOp      Method: update  Level: OK       Message: Return: Attribute: {Name=__UID__, Value=[110f12348000c96b]}
Thread Id: 655,033      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Return: Attribute: {Name=__UID__, Value=[[Multiple Members]__com.opentext.otds.connectors.reserved.string____MEMBER__%%%__GROUP__%%%MemberOfGroup__com.opentext.otds.connectors.reserved.string__120f12348000051b]}
Thread Id: 655,032      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Return: Attribute: {Name=__UID__, Value=[[Multiple Members]__com.opentext.otds.connectors.reserved.string____MEMBER__%%%__GROUP__%%%MemberOfGroup__com.opentext.otds.connectors.reserved.string__120f123480007dd8]}
Thread Id: 655,066      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.UpdateApiOp      Method: update  Level: OK       Message: Return: Attribute: {Name=__UID__, Value=[110f12348000c96b]}
Thread Id: 655,038      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Return: Attribute: {Name=__UID__, Value=[[Multiple Members]__com.opentext.otds.connectors.reserved.string____MEMBER__%%%__GROUP__%%%MemberOfGroup__com.opentext.otds.connectors.reserved.string__120f12348000451d]}
Thread Id: 655,040      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Return: Attribute: {Name=__UID__, Value=[[Multiple Members]__com.opentext.otds.connectors.reserved.string____MEMBER__%%%__GROUP__%%%MemberOfGroup__com.opentext.otds.connectors.reserved.string__120f12348000451e]}
Thread Id: 655,036      Time: 11/18/25, 9:11 AM Class: org.identityconnectors.framework.api.operations.CreateApiOp      Method: create  Level: OK       Message: Return: Attribute: {Name=__UID__, Value=[[Multiple Members]__com.opentext.otds.connectors.reserved.string____MEMBER__%%%__GROUP__%%%MemberOfGroup__com.opentext.otds.connectors.reserved.string__120f12348000051e]}

The logs look clean and the same is shown on Documentum:

[dmadmin@cs-0 ~]$ iapi $DOCBASE_NAME -Udmadmin -Pxxx << EOC
> dump,c,110f12348000c96b
> exit
> EOC

        OpenText Documentum iapi - Interactive API interface
        Copyright (c) 2023. OpenText Corporation
        All rights reserved.
        Client Library Release 23.4.0000.0180

Connecting to Server using docbase REPO01
[DM_SESSION_I_SESSION_START]info:  "Session 010f123480c63b66 started for user dmadmin."

Connected to OpenText Documentum Server running Release 23.4.0000.0143  Linux64.Oracle
Session id is s0
API> ...
USER ATTRIBUTES

  user_name                       : User Display Name 01
  user_os_name                    :
  user_address                    : user01@domain.com
  user_group_name                 :
  user_privileges                 : 0
  owner_def_permit                : 7
  world_def_permit                : 3
  group_def_permit                : 5
  default_folder                  : /Home/User Display Name 01
  user_db_name                    :
  description                     :
  acl_domain                      : User Display Name 01
  acl_name                        : dm_450f12348000f652
  user_os_domain                  :
  home_docbase                    :
  user_state                      : 0
  client_capability               : 2
  globally_managed                : F
  user_delegation                 :
  workflow_disabled               : F
  alias_set_id                    : 0000000000000000
  user_source                     : OTDS
  user_ldap_dn                    : cn=USERID01,ou=users,dc=domain,dc=com
  user_xprivileges                : 32
  failed_auth_attempt             : 0
  user_admin                      :
  user_global_unique_id           : 9ibc9uqrfKafp/K1LRb0og==
  user_login_name                 : USERID01
  user_login_domain               :
  user_initials                   :
  user_password                   : ****************
  user_web_page                   :
  first_failed_auth_utc_time      : nulldate
  last_login_utc_time             : 1/3/2022 13:39:00
  deactivated_utc_time            : nulldate
  deactivated_ip_addr             :
  restricted_folder_ids         []: <none>
  root_log_dir                    :

SYSTEM ATTRIBUTES

  r_is_group                      : F
  r_modify_date                   : 11/18/2025 09:11:38
  r_has_events                    : F
  r_object_id                     : 110f12348000c96b

APPLICATION ATTRIBUTES


INTERNAL ATTRIBUTES

  i_is_replica                    : F
  i_vstamp                        : 15

API> Bye
[dmadmin@cs-0 ~]$

The account was just updated, the “user_global_unique_id” has been populated with some others as well. Therefore, the OTDS synchronization is now correct for that account. In summary, this case was pretty specific, with issues inside the AD directly, which created a bit of a mess in OTDS and Documentum with a mapping to a wrong user which is apparently not present anymore, etc… But once the AD was fixed, I was able to reset the r_object_id reference in OTDS, so that it could restore itself to a correct behavior.

L’article Dctm – Incorrect r_object_id reference in OTDS est apparu en premier sur dbi Blog.

In OpenText Directory Services (OTDS), you have multiple ways to handle two-factor authentication (2FA) or multi-factor authentication (MFA). As a quick reminder, 2FA is simply the fact that you need to prove your identity in 2 different ways (e.g. a username/password + a One-Time-Password or a token or a biometric signature or …) while the MFA is at least 2 different ways (i.e. it includes 2FA, but you can have more than 2 factors if needed). In this blog, I will talk about a customer case that I faced recently, with mixed MFA & non-MFA.

OTDS itself provides some 2FA capabilities, which you can enable globally, for all Users/Groups/OU/Partitions (OU = Organizational Units), or partially for some specific Users/Groups/OU/Partitions. That would be the first option if you don’t have anything else. However, you might already have 2FA or MFA managed outside of OTDS, like within your Azure Tenant. In that case, you can delegate the 2FA or MFA to the Auth Handler. This can be done, for example, by creating an OAuth 2 / OpenID Connect handler that could be connected to an Azure Application. In this case, users accessing an OTDS-managed client (Dctm, D2, …) would be redirected to OTDS, which could (or not) redirect automatically to your external SSO provider (Azure in previous example) that could perform the 2FA / MFA.

The reason why I’m writing this blog is because there are actually some limits in the way OTDS works. It’s a bit difficult to explain, but basically it looks like OTDS was made for rather small and simple setup / organizations and might not really be adapted for a fully centralized and global identity management system. From my point of view, it seems like OTDS was designed with the expectation that a specific user would only be present in a single partition. In theory, that could indeed make sense. But what if you have a very big enterprise with hundred of thousands of real users? What if you have a huge set of users and groups for some Applications? Somehow, it feels like OTDS was designed to be deployed not as a centralized solution but just as a side-application of each and every OpenText environment. If you have 10 Documentum Repositories on sandbox, 10 for dvlp, 10 for test, 10 for integration and 10 for prod, then you can obviously deploy 10 OTDS on sandbox (1 per Repo), 10 on dvlp, etc… But that just means that much more work! Technically, it feels like it was designed for that purpose. However, for simplicity, most companies will most probably not do that and instead might deploy 1 OTDS for sandbox, 1 for dvlp, etc. Or maybe even just 1 OTDS for sandbox/dvlp, 1 OTDS for test/integration and 1 for prod. To still keep some segregation between types of environments while reducing as much as possible the overhead for the operational management.

Important note: starting with Dctm 24.4, users need to be assigned a license by OTDS, to be able to login to Dctm clients. I won’t talk about that specific aspect in this blog, but just know that what I will describe later down below might have an impact on the license topic too (because of the randomness)…

Currently, in OTDS, you define Partitions (most of the time synchronized partition(s) which imports users/groups from an AD). Then you have Resources which represent a Documentum Repository in our case, for user push to Dctm and authentication. Resources come with Access Roles, which defines which Users/Groups/OU/Partitions are going to be synchronized to the associated Resource(s). Then you have OAuth Clients for your end-user application like D2. And finally, Auth Handlers, which basically represents authentication sources for users (already generated cookie, LDAP, external SSO providers, …).

The problem with the current approach is when you have a lot of users/groups and a lot of resources. Let’s assume that you have 500’000 users and 50’000 groups in your AD. How would you setup OTDS for 10 different Documentum Repositories, each of these repositories with thousands of users and groups, knowing that each Repositories might share parts of the users and groups (e.g. a userA has access to 5 of the 10 Repositories). You will have to create Resources for each Repository but how will you configure the Access Roles? You will obviously NOT manually select 10’000 users inside the Access Role, and you will probably not select manually 1’000 groups either. Especially so that, if you do that manually, then when something gets added to the AD in the future, it won’t automatically be sync to the Repository unless you manually do it on OTDS too… That’s not maintainable. What other solutions do you have then? Using an OU? That’s not really usable in most cases, as all users would most probably be under some “USERS” OU (and in there, you might have region-specific branches like EU/NA/JP or other split), and you cannot do exclusions. So how do you select multiple OU but excluding some of the lower OU? Most AD weren’t setup with end-user applications in mind, so the OU definitions usually do not reflect application needs for users import/sync. Therefore, the only remaining “practical” solution is Partitions…

In turns, you will probably end-up creating multiple Partitions with the goal that 1 Partition = 1 Repository. That’s actually pretty much how the LDAP Synchronization was working before OTDS was introduced… In Documentum, you configured your dm_ldap_config object with user source, group source, user filters, group filters and an LDAP hostname/port. That’s the same thing as an OTDS partition… And another Repository could have a very different configuration altogether. Therefore, you will have 10 Partitions, named based on your Applications (like APP1, APP2, …, APP10) and 10 Resources (1 per Repository for the user push through the JMS dmotdsrest URL). If we take the case of our “userA” from before, then that means you will have, in OTDS, 5 accounts “userA” from 5 of the Partitions (since this account needs access to 5 of the 10 applications, it must be part of some of the groups that these 5 applications are importing and therefore the Partition will import these groups with our userA).

Here comes the first problem: users are used to login to Applications with their userIDs, which might be an email or the sAMAccountName for example. And usually, they don’t want to change that. So, when OTDS comes in and tells you that you will have to login with “USERID@PARTITION“, so that the account actually used can be uniquely identified by OTDS, most people will just say “f*** off”, and rightly so! It’s not exactly the same topic, but you can take a look at two previous blog posts here and there where I talked about using sAMAccountName instead of the default userPrincipalName for logins.

But that’s not all, there is a second problem the comes from the first one: how do you restrict / link which OAuth Client uses which user / which partition for the authentication? Well, you can’t… For segregation, you will most probably create 1 OAuth Client for each D2 of the 10 Repository. So APP1 = REPO1 will have an OAUTHCLIENT1 for its D2. APP2 = REPO2 will have an OAUTHCLIENT2 for its D2, etc… In the OAuth Client, you can restrict which Partition will be allowed to login, but it doesn’t control which Partition will actually be used before that. Let’s assume userA has access to APP1 through APP5 and it wants to login to APP5. The OAUTHCLIENT5 will therefore be used in this case. When the user access D2, it gets redirected to OTDS. OTDS doesn’t know which user it is, so either it displays the OTDS login page or redirects to an external Auth Handler like the Azure integration I was talking about previously. Azure will return the user “USERA@DOMAIN-NAME.COM” to OTDS. However, OTDS has 5 accounts that match that, in the APP1 to APP5 Partitions, and it will pick randomly one of them. Therefore, APP2 or APP3 might be used in this case, while the OAUTHCLIENT5 was the one that initiated the request. Which means that you cannot restrict a specific Partition for the login, because you don’t know which one might have been selected by OTDS.

I haven’t talked much about the MFA & non-MFA since the beginning of this blog, but fear not, it is coming. In addition to all the complexity above, what would happen if you had different classification per Application? For example, let’s assume REPO1 is a High-Risk application that requires MFA while REPO2 is a Low-Risk application that does not require MFA. How do you manage that with OTDS?

And here comes the third problem: you can’t either. As mentioned at the beginning of this blog, OTDS only allows 2FA to be configured based on Users/Groups/OU/Partitions. You might think that this could then work if we set APP1 with 2FA and APP2 without. But as I was trying to explain on the second problem above, when you have the same accounts in multiple Partitions, you cannot control which one OTDS will use. That means that userA accessing APP2 (Low-Risk/non-MFA) might actually use the account userA from APP1, which means that user will have to enter MFA details for the non-MFA application. In this way, it’s annoying but not “critical”. However, you cannot make sure that the opposite will never happen (bypassing MFA for the High-Risk/MFA protected application). That was with the OTDS 2FA solution, but what if you are using an external Auth Handler (like Azure) to provide the MFA capability?

Well, here comes the fourth problem (which is quite similar to the second one): you cannot control which Auth Handler is being used by an OAuth Client. In above case, you would have defined 2 SSO Providers with Azure, one that can be named “SSO_MFA” (which would be MFA enabled on Azure side and force all users to provide additional authentication details) and another “SSO_NON_MFA” (which would not be MFA enabled on Azure side). Therefore, userA accessing the D2 of REPO1 (supposed to be MFA) would use the OAUTHCLIENT1. Since you have 2 SSO providers, you would probably make them both as non-default (“Active By Default: false” in the Auth Handler “Parameters” page). In this case, you would end-up on the OTDS login page and it would be up to the user to select either “SSO_MFA” or “SSO_NON_MFA“… Which means you are NOT restricting/forcing the MFA in the end… Nothing would prevent userA to always click on “SSO_NON_MFA” and it would actually work for him. If you make the “SSO_MFA” Auth Handler as default, then users will always have to provide MFA details, even if they are trying to access APP2 (which wouldn’t require that), so that’s not really a solution either.

What to do then? Since it looks like there are no other alternatives, at that customer, we simply installed another OTDS… We are using our own containers and automation in Kubernetes Clusters, so adding a new environment wasn’t much work, but that just mean that instead of having X OTDS (like 1 for sandbox/dvlp, 1 for test/integration and 1 for prod), we had to deploy 2X OTDS – always one that will be dedicated to MFA-enabled applications and one for the rest (non-MFA applications). I asked OpenText to open an improvement/feature request (OCTIM77DS4926338), to add the capability to link an OAuth Client to Auth Handler(s). With the reasoning that when a user tries to login to their end-user applications, it’s always linked to a specific OAuth Client no? So why can’t that Application/OAuth Client specify that it needs to use (can be made optional) a specific Auth Handler? If you can select multiple, then you would allow for default SSO but still have the capability to fallback to username/password (through the LDAP credentials for example) or other solutions you might have configured. There might be some work / update to be done on the cookie management to make that possible, but I will let OT look into it. In any cases, the workaround is already in place and it works as expected for the customer, so he is happy with that.

L’article Dctm – MFA & non-MFA within OTDS based on target Applications est apparu en premier sur dbi Blog.