Database Consultant (Passionate about Database & Cloud Technologies)

Database Architect,Core DBA ,APPSDBA,Mysql DBA,MongoDB,PostgreSQL,MariaDB,Installations,Upgrades on all Flavors of UNIX (LINUX,SOLARIS,HP(AIX)). Oracle E-Business Suite R12 (Upgrades,Patching,Cloning) AWS upgrades and implementation expert. OCI (Oracle Cloud Infrastructure) Architect, Exadata (Oracle Database Exadata Cloud at Customer(Exacc)),Superclusters ,Autonomous Databases, AWS RDS Customs , Sql Tuning Expert. ***Never Stop sharing,Learning and Growing***

Sunday, February 22, 2026

OCI Object Storage S3 Compatibility Enhancements – POST Uploads & Virtual Hosted URLs Explained

Oracle Cloud Infrastructure (OCI) continues to improve its S3 Compatibility API for OCI Object Storage, making it easier for teams to integrate OCI Object Storage with AWS S3–compatible tools, SDKs, and applications. In this post, I’m summarizing two key enhancements:

S3 POST Upload Support – secure, browser-based direct uploads
Virtual-Hosted Style URLs – improved compatibility for S3 clients and tools

Reference: Oracle blog post – S3 Compatibility API Enhancements for OCI Object Storage

Why This Update Matters

Many organizations build applications and automation around the AWS S3 ecosystem (SDKs, CLI tools, backup utilities, frameworks). When OCI Object Storage becomes more S3-compatible, it reduces friction for:

Hybrid / multi-cloud design
Migrating S3-based apps or tooling to OCI
Using third-party tools that assume AWS-like URL patterns
Browser / web application workflows for uploads

1) S3 POST Upload Support (Secure Direct Browser Uploads)

Traditionally, many S3 integrations rely heavily on PUT requests (single request upload). OCI now supports S3 POST, which is especially useful for browser-based uploads using an HTML form and a pre-signed policy.

What is S3 POST?

S3 POST allows a user’s browser (or client) to upload directly to Object Storage using a signed POST policy generated by the backend. The backend defines upload rules and the client uploads without needing long-lived credentials.

Benefits of S3 POST

Improved Security: No permanent credentials exposed to the browser/client.
Fine-Grained Control: You can restrict file size, content-type, key prefix, and policy expiration.
Reduced Backend Load: Upload traffic doesn’t need to pass through your application server.
Web-Friendly: Works naturally with HTML forms and modern web apps.

Typical Flow (High Level)

User requests upload authorization from the application backend.
Backend generates a pre-signed POST policy with conditions (size, type, expiry).
User uploads directly to OCI Object Storage using POST form parameters + policy.
Application can validate/store metadata, and process the uploaded object.

2) Virtual-Hosted Style URL Support

OCI Object Storage S3 Compatibility has historically been used widely with path-style addressing. Oracle is enhancing support for virtual-hosted style URLs to align more closely with AWS S3 behavior.

Path-Style vs Virtual-Hosted Style

Path-Style URL (bucket appears in the path):

https://<namespace>.compat.objectstorage.<region>.oraclecloud.com/<bucket-name>/<object-name>

Virtual-Hosted Style URL (bucket appears in the hostname):

https://<bucket-name>.vhcompat.objectstorage.<region>.oraclecloud.com/<object-name>

Why Virtual-Hosted Style is Important

Better Tool Compatibility: Some SDKs/tools expect virtual-hosted style and may not work correctly with path-style.
Smoother Migrations: Apps built for AWS S3 often assume this URL format.
More AWS-Like Experience: Improves “drop-in” compatibility for S3 ecosystem clients.

Architecture Overview (Simple)

Below is a simple conceptual view of how modern browser uploads and S3-compatible access can look in OCI:

[User Browser]
     |
     | (Request signed POST policy)
     v
[App Backend] ---- generates ----> [Signed POST Policy + Form Fields]
     |
     | (Client uploads directly using POST)
     v
[OCI Object Storage (S3 Compatibility API)]

Once uploaded, applications and tools can access objects using S3-compatible SDKs/clients (now with improved URL handling support).

Enterprise Benefits Summary

Enhancement	Why It Helps
S3 POST Support	Enables secure direct uploads from browsers/clients without exposing credentials and without backend upload traffic.
Virtual-Hosted Style URLs	Improves compatibility with S3 tools/SDKs that expect AWS-like bucket-in-hostname patterns.
More S3 Compatibility	Reduces friction for multi-cloud deployments and migration of S3-based workloads.

Final Thoughts

These enhancements are valuable for teams building cloud-native applications, especially if you already use the AWS S3 ecosystem and want an OCI Object Storage option that integrates smoothly. S3 POST enables more secure and scalable direct upload patterns, while virtual-hosted style URL support improves compatibility across tools and SDKs.

I’ll continue exploring OCI + AWS interoperability topics as part of my cloud learning journey, focusing on practical architecture and real-world integration patterns.

Suggested Labels (Blogger)

Oracle Cloud
OCI
Object Storage
S3 Compatibility
Cloud Architecture
Multi Cloud
AWS Integration

Oracle DBA Scripts Collection – A Must-Have Toolkit for Every DBA

As Oracle Database Administrators, we perform repetitive monitoring, troubleshooting, tuning, and maintenance activities daily. Instead of reinventing the wheel every time, having a ready-made, organized script repository can significantly improve productivity and standardization.

In this article, I am sharing a very useful GitHub repository that can serve as a reference toolkit for DBAs:

GitHub Repository:
https://github.com/amanpandey1729/oracle-dba-scripts

About the Repository

This repository contains categorized Oracle DBA scripts covering monitoring, performance tuning, security checks, backup validation, tablespace management, memory diagnostics, OS checks, and more.

The scripts are well organized into folders, making it easy to locate the required utility based on your task.

Major Script Categories

Monitoring – Session checks, blocking sessions, active sessions, resource usage
Performance Tuning – Slow SQL detection, optimizer statistics, execution plan insights
Tablespace Management – Tablespace usage, free space monitoring
Memory Management – SGA, PGA analysis
Backup and Recovery – Backup validation scripts
Security – User privileges, roles, security checks
OS Linux Checks – CPU, disk, memory health scripts
Jobs and Scheduler – Job monitoring and failure checks

How to Use These Scripts

Step 1: Clone the repository

git clone https://github.com/amanpandey1729/oracle-dba-scripts.git

Step 2: Navigate to required folder based on your task.

Step 3: Review and customize scripts as per your environment (SID, DB_NAME, paths, etc.).

Step 4: Test in Non-Production before using in Production.

Why Every DBA Should Bookmark This

✔ Saves time during incident troubleshooting
✔ Helps standardize health checks across environments
✔ Good learning material for junior DBAs
✔ Ready reference during audits
✔ Can be integrated with cron / scheduler jobs

Important Note

All credits go to the original repository author. This article is shared as a reference and learning resource for the Oracle DBA community.

Always review scripts before running in production environments.

My Recommendation

I recommend maintaining your own customized DBA toolkit by combining:

Open-source script collections like this
Your internal automation scripts
Enterprise-specific health check standards

This will help you build a strong, reusable DBA operations framework.

Happy Learning & Happy DBA Life! 🚀

Saturday, February 21, 2026

PostgreSQL DBA Scripts from GitHub

Project POSTGRES

Exploring the postgres_dba GitHub Repository (PostgreSQL DBA Scripts Guide)

As part of my structured learning journey into PostgreSQL administration, focused on practical PostgreSQL DBA skills including monitoring, performance diagnostics, and production best practices.

Learning Objectives

Understand how to use Git for DBA script management
Clone and explore a PostgreSQL DBA repository
Identify useful monitoring and diagnostic scripts
Apply scripts safely in real environments

Repository Details

Repository Name: postgres_dba
Author: Nikolay Samokhvalov
Official GitHub Link:
https://github.com/NikolayS/postgres_dba

How to Clone the Repository

cd ~/Documents
git clone https://github.com/NikolayS/postgres_dba.git
cd postgres_dba
ls -l

The git clone command downloads the complete repository, including full version history.

Repository Structure (High-Level View)

After cloning, review the file structure:

find . -type f | sort

The repository contains multiple SQL scripts focused on:

Active session monitoring
Long-running query detection
Index usage analysis
Vacuum and maintenance monitoring
Replication diagnostics

Key DBA Scripts to Start With

1️⃣ Active Session Monitoring

Helps identify currently running queries and wait events.

2️⃣ Long Running Queries

Detects queries running longer than expected.

3️⃣ Index Usage Statistics

Helps identify tables performing sequential scans.

4️⃣ Vacuum / Autovacuum Monitoring

Validates maintenance effectiveness and detects bloat risk.

5️⃣ Replication Status

Monitors replication lag and WAL shipping status.

Oracle DBA Mapping

Oracle v$session ↔ PostgreSQL pg_stat_activity
Oracle ASH ↔ PostgreSQL extensions / Performance Insights
Oracle wait events ↔ wait_event_type / wait_event

Best Practices

Always review scripts before running in production
Test heavy queries in non-production first
Capture output for trend analysis
Integrate useful scripts into your DBA toolkit

Conclusion

Instead of copying full repositories, the correct approach is: Clone → Analyze → Curate → Learn → Apply.

Project POSTGRES will continue with deeper script analysis and performance diagnostics.

References & Credits

All original scripts belong to the author: Nikolay Samokhvalov.

Official Repository: https://github.com/NikolayS/postgres_dba

This article is written for educational and knowledge-sharing purposes.

PostgreSQL Active Session History (pg_ash) – Complete DBA Guide

As Oracle DBAs, we are very familiar with Active Session History (ASH) for performance diagnostics. PostgreSQL does not provide built-in ASH like Oracle — but thanks to the open-source project pg_ash, we can implement similar functionality in PostgreSQL environments.

What is pg_ash?

pg_ash is a PostgreSQL extension that collects and stores Active Session History samples, similar to Oracle ASH. It helps DBAs analyze wait events, long-running queries, blocking sessions, and overall workload behavior.

Tracks active sessions over time
Captures wait events
Stores query execution samples
Helps in performance troubleshooting
Provides historical workload visibility

Installation Steps

# Clone repository
git clone https://github.com/NikolayS/pg_ash.git

cd pg_ash

# Build and install
make
make install

Then connect to PostgreSQL and enable extension:

CREATE EXTENSION pg_ash;

Sample Queries for Monitoring

1️⃣ View ASH Samples:

SELECT * FROM pg_ash;

2️⃣ Top Queries by Activity:

SELECT queryid, count(*) AS samples
FROM pg_ash
GROUP BY queryid
ORDER BY samples DESC;

3️⃣ Analyze Wait Events:

SELECT wait_event_type, wait_event, count(*)
FROM pg_ash
GROUP BY wait_event_type, wait_event
ORDER BY count(*) DESC;

Why pg_ash is Important for DBAs

Provides Oracle-like ASH visibility in PostgreSQL
Helps identify performance bottlenecks
Useful for production troubleshooting
Great learning tool for PostgreSQL internals
Bridges monitoring gap for hybrid Oracle + PostgreSQL DBAs

DBA Perspective

For DBAs transitioning from Oracle to PostgreSQL (especially in cloud environments like AWS RDS), pg_ash provides a familiar monitoring model. It helps us analyze workload patterns in a structured way, similar to Oracle ASH/AWR concepts.

This makes it a powerful tool for performance diagnostics in modern PostgreSQL deployments.

Conclusion

Open-source tools like pg_ash demonstrate the strength of the PostgreSQL ecosystem. Understanding ASH-style monitoring is essential for DBAs working in hybrid Oracle and PostgreSQL environments.

Stay tuned for more PostgreSQL performance deep dives as part of my learning journey.

References & Credits

This open-source extension is developed by Nikolay Samokhvalov.

Official GitHub Repository:
https://github.com/NikolayS/pg_ash

All credits for the original project belong to the author. This article is written for learning and DBA knowledge-sharing purposes.

Friday, February 20, 2026

Oracle Database Scripts – Full Script Listing

Oracle Database Scripts Repository

This repository contains a large collection of Oracle DBA utility scripts covering performance tuning, monitoring, RMAN, RAC, ASM, Data Guard, AWR, ASH, and general administration.

GitHub Repository:
https://github.com/fatdba/Oracle-Database-Scripts

Download Full Repository:
Click Code → Download ZIP from GitHub.

Complete Script Listing (Generated from Downloaded ZIP)

Click Here to Expand Full Script List

./++
./+imp_scr_oracle_daily
./+plusenv.sql
./+simplecool.sql
./activesessions_ash.sql
./Admin_General/+login.sql
./Admin_General/+plusenv.sql
./Admin_General/+simplecool.sql
./Admin_General/archive_new.sql
./Admin_General/archive.sql
./Admin_General/Bigtable_fortest.sql
./Admin_General/blocking_local.sql.com
./Admin_General/columns_usage.sql
./Admin_General/create_schedule_job.sql
./Admin_General/current_redologfile_usage.sql
./Admin_General/datafiles_fora_tablespace.sql
./Admin_General/dba_schedulerjobs.sql
./Admin_General/dbgrowth_permonth.sql
./Admin_General/dblink_checker_withJob.sql
./Admin_General/dblink_details.sql
./Admin_General/dbms_jobs_broken.sql
./Admin_General/dbserverdetails.sql
./Admin_General/dbtime.sql
./Admin_General/dbupgdiag.sql
./Admin_General/ddl_schema.sql
./Admin_General/ddl-objects.sql
./Admin_General/Fat200objects.sql
./Admin_General/file_block.sql
./Admin_General/file_border.sql
./Admin_General/find_objects_1.sql
./Admin_General/find_objects_2.sql
./Admin_General/find_objects.sql
./Admin_General/find_x$_basetables.sql
./Admin_General/flashback_main.sql
./Admin_General/get_dependent_ddl.sql
./Admin_General/hidden_params.sql
./Admin_General/hugepages.sh
./Admin_General/iostat_summary.sql
./Admin_General/jobs.sql
./Admin_General/killer.sql
./Admin_General/latest_tab_stats.sql
./Admin_General/logmining.sql
./Admin_General/materializedview.sql
./Admin_General/object_blocks.sql
./Admin_General/object_changes.sql
./Admin_General/object_dependencies.sql
./Admin_General/object_details.sql
./Admin_General/object_growth_trend.sql
./Admin_General/object_username.sql
./Admin_General/objectid.sql
./Admin_General/objects_changed.sql
./Admin_General/objects_matching_pattern.sql
./Admin_General/oem_informationpublishereport.sql
./Admin_General/oracle_license_info.sql
./Admin_General/Oracle_Test1.sql
./Admin_General/params.sql
./Admin_General/partitions_drop_future.sql
./Admin_General/partitions_expimp_stats.sql
./Admin_General/partitions_rowcount_each.sql
./Admin_General/partitions_synopsys_incremental.sql
./Admin_General/privileges_copy.sql
./Admin_General/redostats.sql
./Admin_General/resize-datafiles.sql
./Admin_General/running_jobs.sql
./Admin_General/scheduler_shellscript_dbmsscheduler.sql
./Admin_General/securefile_testdata.sql
./Admin_General/segments_inside_datafile.sql
./Admin_General/sequences.sql
./Admin_General/sessions_active.sql
./Admin_General/sessions_main.sql
./Admin_General/sessionusage_upanddownstats.sql
./Admin_General/setnlsdateformat.sql
./Admin_General/shrink_datafiles.sql
./Admin_General/sid_from_ospid.sql
./Admin_General/smon_rollback_monitoring.sql
./Admin_General/states.sql
./Admin_General/tab_ind_detailsschema.sql
./Admin_General/table_set_preference.sql
./Admin_General/tablespace_boundary.sql
./Admin_General/tablespace_free-sum.sql
./Admin_General/tablespaceinfo.sql
./Admin_General/tmp_stats.sql
./Admin_General/top_ts_segments.sql
./Admin_General/top_workarea.sql
./Admin_General/top10.sql
./Admin_General/trace_all_session_ofauser.sql
./Admin_General/tracking_database_usage.sql
./Admin_General/undo_another.sql
./Admin_General/undo_somemore.sql
./Admin_General/undo_stats.sql
./Admin_General/undomain.sql
./Admin_General/unregister_mview_snap.sql
./Admin_General/unused_space.sql
./Admin_General/what_has_changed.sql
./all_stalestats.sql
./archive_new.sql
./archive.sql
./ash_cachebufferchain.sql
./ash_event_trend.sql
./ash_last_x_mins.sql
./ash_last_x_secs.sql
./ash_latch.sql
./ash_object_enq_contention.sql
./ash_pio_events.sql
./ash_sid.sql
./ash_sqlid_mins.sql
./ash_top_events.sql
./ash_toppga_2mb.sql
./asm_diskdrop.sql
./ASM/+login.sql
./ASM/+plusenv.sql
./ASM/asm_diskdrop.sql
./ASM/asmdiskgroup.sql
./ASM/asmfilevolinfo.sql
./ASM/asmspaceused.sql
./asmdiskgroup.sql
./asmfilevolinfo.sql
./asmspaceused.sql
./autostatsgatherdet.sql
./awr_manualsnap.sql
./awr_modify_topnsql.sql
./awretention.sql
./BackupAndRecovery/+login.sql
./BackupAndRecovery/+plusenv.sql
./BackupAndRecovery/rman_bkpdetails.sql
./BackupAndRecovery/rman_datafile_backup.sql
./BackupAndRecovery/rman_everything.sql
./BackupAndRecovery/rman_fulldb_backupscript.sql
./BackupAndRecovery/rman_incremental_backup.sql
./BackupAndRecovery/rman_main.sql
./BackupAndRecovery/rman_monitoring.sql
./BackupAndRecovery/rman_tablespace_backup.sql
./BackupAndRecovery/rman1.sql
./BackupAndRecovery/rmanbest.sql
./Bigtable_fortest.sql
./bindvariables_fromawr.sql
./blocking_local.sql
./check_dataguard_config.sql
./check_modify_awrretention.sql
./coe_xfr_sql_profile.sql
./columns_usage.sql
./cpu_stats.sql
./cpubusytime_db.sql
./cpuusage.sql
./create_schedule_job.sql
./create_sql_patch.sql
./current_redologfile_usage.sql
./cursor_notsharing_reason.sql
./datampump_monitoring.sql
./datapump_10046trace_process.sql
./datapump_cleanup_orphanedjobs.sql
./datapump_samplescript.sh
./DataPump/data_pump_monitor_core.sql
./DataPump/datampump_monitoring.sql
./DataPump/datapump_10046trace_process.sql
./DataPump/datapump_cleanup_orphanedjobs.sql
./DataPump/datapump_samplescript.sh
./DataPump/partitions_expimp_stats.sql
./db_hang.sql
./dba_hist_snapshot.sql
./dba_hist_sqlbind.sql
./dba_schedulerjobs.sql
./dbgrowth_permonth.sql
./dblink_details.sql
./dbms_jobs_broken.sql
./dbserverdetails.sql
./dbtime.sql
./dbupgdiag.sql
./ddl_schema.sql
./ddl-objects.sql
./disable_resourcemanager.sql
./dop_tablesindexes.sql
./drop_phv_baseline.sql
./drop_sql_baseline.sql
./drop_sql_profile.sql
./drop_sqlplan_baselines.sql
./dynamic_sampling_objects.sql
./enq_tx_indexcontention_split.sql
./exadata_cellperf.sql
./Exadata/+login.sql
./Exadata/+plusenv.sql
./Exadata/exadata_cellperf.sql
./failover_stats.sql
./Fat200objects.sql
./file_block.sql
./file_border.sql
./find_objects_1.sql
./find_objects_2.sql
./find_objects.sql
./find_sql_2.sql
./find_sql_pio_1.sql
./find_sql_pio.sql
./find_sql.sql
./find_x$_basetables.sql
./fklocking.sql
./flashback_main.sql
./flushsql_cursor.sql
./FULL_FILE_LIST.txt
./gather_stats.sql
./generate_set_tablestats.sql
./get_dependent_ddl.sql
./get_optimizer_trace.sql
./getbinds-sqlid.sql
./goldengate_healthcheck.sql
./GoldenGate/+login.sql
./GoldenGate/+plusenv.sql
./GoldenGate/goldengate_healthcheck.sql
./hidden_params.sql
./hidden.sql
./high_version_count.sql
./hints.sql
./hot_librarycache_objects.sql
./hourly_segment_stats.sql
./hugepages.sh
./idx_2.sql
./idx_3.sql
./idx_fragmentation.sql
./idx_main.sql
./idx_split_2.sql
./idx_split_session.sql
./idx_split.sql
./idx_usage.sql
./indexlargerthantable.sql
./iointensive_sql_mem.sql
./iostat_summary.sql
./iousage_tempfiles.sql
./latchdetails.sql
./librarycache_locks.sql
./lockingmother.sql
./logfilesync_lfsdiag.sql
./mismatch.sql
./mutex_sleep.sql
./mypoormanscript_fancy.sql
./mypoormanscript.sh
./mypoormanscript.sql
./mysid.sql
./Nonindexedfkconstraints.sql
./object_dependencies.sql
./objects_waiting_miss_sleep.sql
./OFE_12.1.0.2_in_12.2.0.1.sql
./oracle_license_info.sql
./Oracle_Test1.sql
./outlinedata_for_spmsqlbaselines.sql
./p_ash_blockers.sql
./p_ash_events.sql
./parentchild_rel.sql
./partitions_drop_future.sql
./partitions_expimp_stats.sql
./partitions_rowcount_each.sql
./partitions_synopsys_incremental.sql
./pdhc_v1.2.sql
./PerformanceTuning_Mgmt/+login.sql
./PerformanceTuning_Mgmt/+plusenv.sql
./PerformanceTuning_Mgmt/active_sql_workarea.sql
./PerformanceTuning_Mgmt/activesessions_ash.sql
./PerformanceTuning_Mgmt/all_stalestats.sql
./PerformanceTuning_Mgmt/archive_new.sql
./PerformanceTuning_Mgmt/ash_cachebufferchain.sql
./PerformanceTuning_Mgmt/ash_event_trend.sql
./PerformanceTuning_Mgmt/ash_last_x_mins.sql
./PerformanceTuning_Mgmt/ash_last_x_secs.sql
./PerformanceTuning_Mgmt/ash_latch.sql
./PerformanceTuning_Mgmt/ash_object_enq_contention.sql
./PerformanceTuning_Mgmt/ash_pio_events.sql
./PerformanceTuning_Mgmt/ash_sid.sql
./PerformanceTuning_Mgmt/ash_sqlid_mins.sql
./PerformanceTuning_Mgmt/ash_top_events.sql
./PerformanceTuning_Mgmt/ash_toppga_2mb.sql
./PerformanceTuning_Mgmt/auto_stats_collection.sql
./PerformanceTuning_Mgmt/autostatsgatherdet.sql
./PerformanceTuning_Mgmt/awr_manualsnap.sql
./PerformanceTuning_Mgmt/awr_modify_topnsql.sql
./PerformanceTuning_Mgmt/awretention.sql
./PerformanceTuning_Mgmt/bindvariables_fromawr.sql
./PerformanceTuning_Mgmt/check_modify_awrretention.sql
./PerformanceTuning_Mgmt/coe_xfr_sql_profile.sql
./PerformanceTuning_Mgmt/columns_usage.sql
./PerformanceTuning_Mgmt/cpu_stats.sql
./PerformanceTuning_Mgmt/cpubusytime_db.sql
./PerformanceTuning_Mgmt/cpuusage.sql
./PerformanceTuning_Mgmt/create_sql_patch.sql
./PerformanceTuning_Mgmt/cursor_notsharing_reason.sql
./PerformanceTuning_Mgmt/db_hang.sql
./PerformanceTuning_Mgmt/dba_hist_snapshot.sql
./PerformanceTuning_Mgmt/dba_hist_sqlbind.sql
./PerformanceTuning_Mgmt/dbgrowth_permonth.sql
./PerformanceTuning_Mgmt/dbtime.sql
./PerformanceTuning_Mgmt/disable_resourcemanager.sql
./PerformanceTuning_Mgmt/dop_tablesindexes.sql
./PerformanceTuning_Mgmt/drop_phv_baseline.sql
./PerformanceTuning_Mgmt/drop_sql_baseline.sql
./PerformanceTuning_Mgmt/drop_sql_profile.sql
./PerformanceTuning_Mgmt/drop_sqlplan_baselines.sql
./PerformanceTuning_Mgmt/dynamic_sampling_objects.sql
./PerformanceTuning_Mgmt/enq_tx_indexcontention_split.sql
./PerformanceTuning_Mgmt/find_sql_2.sql
./PerformanceTuning_Mgmt/find_sql_pio_1.sql
./PerformanceTuning_Mgmt/find_sql_pio.sql
./PerformanceTuning_Mgmt/find_sql.sql
./PerformanceTuning_Mgmt/fklocking.sql
./PerformanceTuning_Mgmt/flushsql_cursor.sql
./PerformanceTuning_Mgmt/gather_stats.sql
./PerformanceTuning_Mgmt/generate_set_tablestats.sql
./PerformanceTuning_Mgmt/get_optimizer_trace.sql
./PerformanceTuning_Mgmt/getbinds-sqlid.sql
./PerformanceTuning_Mgmt/high_version_count.sql
./PerformanceTuning_Mgmt/hints.sql
./PerformanceTuning_Mgmt/hot_librarycache_objects.sql
./PerformanceTuning_Mgmt/hourly_segment_stats.sql
./PerformanceTuning_Mgmt/idx_2.sql
./PerformanceTuning_Mgmt/idx_3.sql
./PerformanceTuning_Mgmt/idx_fragmentation.sql
./PerformanceTuning_Mgmt/idx_main.sql
./PerformanceTuning_Mgmt/idx_split_2.sql
./PerformanceTuning_Mgmt/idx_split_session.sql
./PerformanceTuning_Mgmt/idx_split.sql
./PerformanceTuning_Mgmt/idx_usage.sql
./PerformanceTuning_Mgmt/indexlargerthantable.sql
./PerformanceTuning_Mgmt/iointensive_sql_mem.sql
./PerformanceTuning_Mgmt/iousage_tempfiles.sql
./PerformanceTuning_Mgmt/latch_waits.sql
./PerformanceTuning_Mgmt/latchdetails.sql
./PerformanceTuning_Mgmt/latchholder.sql
./PerformanceTuning_Mgmt/libcache_lock_bysid.sql
./PerformanceTuning_Mgmt/libcache_lock_waits.sql
./PerformanceTuning_Mgmt/libcache_pin_waits.sql
./PerformanceTuning_Mgmt/libcache_pins_bysid.sql
./PerformanceTuning_Mgmt/Librarycache_lock_holders.sql
./PerformanceTuning_Mgmt/librarycache_locks.sql
./PerformanceTuning_Mgmt/locked_objects_summary.sql
./PerformanceTuning_Mgmt/locked_objects.sql
./PerformanceTuning_Mgmt/lockedstats.sql
./PerformanceTuning_Mgmt/lockingmother.sql
./PerformanceTuning_Mgmt/logfilesync_lfsdiag.sql
./PerformanceTuning_Mgmt/mismatch.sql
./PerformanceTuning_Mgmt/module_pio.sql
./PerformanceTuning_Mgmt/mutex_sleep.sql
./PerformanceTuning_Mgmt/mutex.sql
./PerformanceTuning_Mgmt/mysid.sql
./PerformanceTuning_Mgmt/Nonindexedfkconstraints.sql
./PerformanceTuning_Mgmt/objects_waiting_miss_sleep.sql
./PerformanceTuning_Mgmt/OFE_12.1.0.2_in_12.2.0.1.sql
./PerformanceTuning_Mgmt/outlinedata_for_spmsqlbaselines.sql
./PerformanceTuning_Mgmt/p_ash_blockers.sql
./PerformanceTuning_Mgmt/p_ash_events.sql
./PerformanceTuning_Mgmt/parentchild_rel.sql
./PerformanceTuning_Mgmt/pga_size_estim.sql
./PerformanceTuning_Mgmt/pgaintensivesql.sql
./PerformanceTuning_Mgmt/pretty_metadata.sql
./PerformanceTuning_Mgmt/procwatcher_prw.sql
./PerformanceTuning_Mgmt/px_query_details.sql
./PerformanceTuning_Mgmt/px_query_monitoring.sql
./PerformanceTuning_Mgmt/PXHCDR.sql
./PerformanceTuning_Mgmt/rat_approx_replayprogress.sql
./PerformanceTuning_Mgmt/rat_blocking_sessions.sql
./PerformanceTuning_Mgmt/rat_replay_divergence.sql
./PerformanceTuning_Mgmt/rat_waitevents.sql
./PerformanceTuning_Mgmt/redundantindex.sql
./PerformanceTuning_Mgmt/segments_stats_daily.sql
./PerformanceTuning_Mgmt/sequenceexhaustion80.sql
./PerformanceTuning_Mgmt/session-wait-by-sid.sql
./PerformanceTuning_Mgmt/sessions_librarycachelock.sql
./PerformanceTuning_Mgmt/sga-details.sql
./PerformanceTuning_Mgmt/share.sql
./PerformanceTuning_Mgmt/shared_sqlcursor_reason.sql
./PerformanceTuning_Mgmt/sharedpool_advisory.sql
./PerformanceTuning_Mgmt/sharedpool_lru.sql
./PerformanceTuning_Mgmt/sharedpool_pinned.sql
./PerformanceTuning_Mgmt/sharedpool_stats.sql
./PerformanceTuning_Mgmt/sharedpool_statssubpool.sql
./PerformanceTuning_Mgmt/sharedpool_subpool.sql
./PerformanceTuning_Mgmt/showlock.sql
./PerformanceTuning_Mgmt/snap-session-waits.sql
./PerformanceTuning_Mgmt/sp-reserved.sql
./PerformanceTuning_Mgmt/sparse_Indexes.sql
./PerformanceTuning_Mgmt/sql_changed_elapsedtime.sql
./PerformanceTuning_Mgmt/sql_from_procedures.sql
./PerformanceTuning_Mgmt/sql_plan_baselines.sql
./PerformanceTuning_Mgmt/sql_planflip_new.sql
./PerformanceTuning_Mgmt/sqlflip_newbetter.sql
./PerformanceTuning_Mgmt/sqlflip1.sql
./PerformanceTuning_Mgmt/sqlflip2.sql
./PerformanceTuning_Mgmt/sqlhistory.sql
./PerformanceTuning_Mgmt/sqlid_info.sql
./PerformanceTuning_Mgmt/sqlid_main.sql
./PerformanceTuning_Mgmt/sqlid_phv.sql
./PerformanceTuning_Mgmt/sqlid_topworkarea.sql
./PerformanceTuning_Mgmt/sqloffload_iosaved.sql
./PerformanceTuning_Mgmt/sqlprofile_hints.sql
./PerformanceTuning_Mgmt/sqls_doing_fulltablescan.sql
./PerformanceTuning_Mgmt/sqlstats_history_sqlid.sql
./PerformanceTuning_Mgmt/sqlstats_main.sql
./PerformanceTuning_Mgmt/STA_SQLID_Cursor.sql
./PerformanceTuning_Mgmt/stale_stats.sql
./PerformanceTuning_Mgmt/stats_delete.sql
./PerformanceTuning_Mgmt/stats_get_preference.sql
./PerformanceTuning_Mgmt/stats_incremental.sql
./PerformanceTuning_Mgmt/stats_lock.sql
./PerformanceTuning_Mgmt/table_ind_pkfkcons_DDL.sql
./PerformanceTuning_Mgmt/table_stats_details.sql
./PerformanceTuning_Mgmt/tempintensivesql.sql
./PerformanceTuning_Mgmt/test.sql
./PerformanceTuning_Mgmt/top_sql_cpu.sql
./PerformanceTuning_Mgmt/top_sqls.sql
./PerformanceTuning_Mgmt/top10activesessions.sql
./PerformanceTuning_Mgmt/trace-onoff.sql
./PerformanceTuning_Mgmt/tracemy_sqlid.sql
./PerformanceTuning_Mgmt/treedump.sql
./PerformanceTuning_Mgmt/wait_Chains.sql
./PerformanceTuning_Mgmt/waiteventcontributors.sql
./PerformanceTuning_Mgmt/waits_lfs.sql
./PerformanceTuning_Mgmt/waits_sum.sql
./PerformanceTuning_Mgmt/waitstats.sql
./PerformanceTuning_Mgmt/whattypeof_histogram.sql
./PerformanceTuning_Mgmt/workarea.sql
./PerformanceTuning_Mgmt/xplan_adv_sqlid.sql
./PerformanceTuning_Mgmt/xplan_awr_phash.sql
./PerformanceTuning_Mgmt/xplan_awr.sql
./PerformanceTuning_Mgmt/xplan_objectname.sql
./PerformanceTuning_Mgmt/xplan_phash.sql
./PerformanceTuning_Mgmt/xplan_sid.sql
./PerformanceTuning_Mgmt/xplan_sqlhash.sql
./PerformanceTuning_Mgmt/xplan_sqlid_incursor.sql
./pgaintensivesql.sql
./privileges_copy.sql
./procwatcher_prw.sql
./px_query_details.sql
./px_query_monitoring.sql
./PXHCDR.sql
./rac_clock_sync.sql
./rac_diag.sql
./rac_longops.sql
./rac_main.sql
./RAC/+login.sql
./RAC/+plusenv.sql
./RAC/rac_clock_sync.sql
./RAC/rac_diag.sql
./RAC/rac_longops.sql
./RAC/rac_main.sql
./RAC/racdbstatus.sql
./racdbstatus.sql
./rat_approx_replayprogress.sql
./rat_blocking_sessions.sql
./rat_replay_divergence.sql
./rat_waitevents.sql
./redostats.sql
./redundantindex.sql
./rman_bkpdetails.sql
./rman_datafile_backup.sql
./rman_fulldb_backupscript.sql
./rman_incremental_backup.sql
./rman_main.sql
./rman_monitoring.sql
./rman_tablespace_backup.sql
./rman1.sql
./rowlocking.sql
./scheduler_shellscript_dbmsscheduler.sql
./segments_inside_datafile.sql
./segments_stats_daily.sql
./sequenceexhaustion80.sql
./sessions_active.sql
./sessions_librarycachelock.sql
./sessions_main.sql
./sessionusage_upanddownstats.sql
./sga-details.sql
./sharedpool_advisory.sql
./showlock.sql
./sid_from_ospid.sql
./smon_rollback_monitoring.sql
./sparse_Indexes.sql
./sql_changed_elapsedtime.sql
./sql_from_procedures.sql
./sql_planflip_new.sql
./sqlflip_newbetter.sql
./sqlflip1.sql
./sqlflip2.sql
./sqlhistory.sql
./sqlid_info.sql
./sqlid_main.sql
./sqlid_phv.sql
./sqloffload_iosaved.sql
./sqls_doing_fulltablescan.sql
./sqlstats_history_sqlid.sql
./STA_SQLID_Cursor.sql
./standby_core_collection.sql
./standby_monitorlag_rac.sql
./standby_single.sql
./Standby/+login.sql
./Standby/+plusenv.sql
./Standby/check_dataguard_config.sql
./Standby/DGDiagnostic.sh
./Standby/failover_stats.sql
./Standby/quick_gap_check.sql
./Standby/srdc_DGlogicalStby_diag.sql
./Standby/srdc_DGPhyStby_diag.sql
./Standby/srdc_DGPrimary_diag.sql
./Standby/standby_core_collection.sql
./Standby/standby_monitor.sql
./Standby/standby_monitorlag_rac.sql
./Standby/standby_single.sql
./Standby/standbygap.sql
./standbygap.sql
./stats_delete.sql
./stats_get_preference.sql
./stats_incremental.sql
./stats_lock.sql
./table_ind_pkfkcons_DDL.sql
./tablespaceinfo.sql
./tempintensivesql.sql
./Tools_And_Monitoring/+login.sql
./Tools_And_Monitoring/+plusenv.sql
./Tools_And_Monitoring/ashtop.sql
./Tools_And_Monitoring/dashtop.sql
./Tools_And_Monitoring/mypoormanscript_fancy.sql
./Tools_And_Monitoring/mypoormanscript.sh
./Tools_And_Monitoring/mypoormanscript.sql
./Tools_And_Monitoring/pdhc_v1.2.sql
./Tools_And_Monitoring/snapper.sql
./top_sqls.sql
./top10activesessions.sql
./trace_all_session_ofauser.sql
./tracemy_sqlid.sql
./tracking_database_usage.sql
./undo_somemore.sql
./undomain.sql
./wait_Chains.sql
./waiteventcontributors.sql
./what_has_changed.sql
./whattypeof_histogram.sql

Note: This list was generated from the downloaded repository package. All credits belong to the original author of the repository.

Wednesday, February 18, 2026

ORA-00600 [kqlhdlod-bad-base-objn] in 19c PDB – Dictionary Corruption Repair Using DBMS_DICTIONARY_CHECK

Environment: Oracle 19c Multitenant Database
PDB: FNDEV30
Error Type: ORA-00600 (Internal Error)
Component: Data Dictionary / DBMS_PDB

🚨 Problem Description

The following error was observed in the alert log:

ORA-00600: internal error code, arguments: [kqlhdlod-bad-base-objn], [1403], [849005], [2081137], [88], [5]
ORA-06512: at "SYS.DBMS_PDB", line 85

Trace file location:

/u01/app/oracle/diag/rdbms/fnutcdb/FNUTCDB/trace/FNUTCDB_j000_2280695.trc

Oracle generated incident files and recommended packaging via ADRCI or Support Workbench.

🔎 Understanding the Error

The error ORA-00600 [kqlhdlod-bad-base-objn] indicates a problem related to:

Dictionary metadata inconsistency
Invalid base object number reference
Possible orphaned or corrupted dictionary entry
Failure inside DBMS_PDB package

This is an internal error and typically requires Oracle Support involvement.

🛠 Oracle Recommended Solution

Oracle Support advised running the dictionary repair procedure using:

Step 1 – Connect to the affected PDB

SQL> ALTER SESSION SET CONTAINER=FNDEV30;

Step 2 – Run Dictionary Repair

SQL> SET SERVEROUTPUT ON SIZE UNLIMITED;
SQL> EXECUTE DBMS_DICTIONARY_CHECK.FULL(repair=>TRUE);

This command scans and repairs dictionary inconsistencies.

📋 Step 3 – Validate After Repair

SQL> SPOOL dictionary_check_after_repair.log
SQL> SET SERVEROUTPUT ON SIZE UNLIMITED;
SQL> EXECUTE DBMS_DICTIONARY_CHECK.FULL;
SQL> SPOOL OFF;

Review the spool log for remaining issues.

⚠️ Important Notes

WARNING:

• Always take a valid backup before running dictionary repair.
• Run repair only under Oracle Support guidance.
• Test in lower environment if possible.
• Never manually modify dictionary tables.

📌 Best Practices

Monitor alert log regularly
Package incidents using ADRCI before repair
Validate dictionary health during PDB clone/upgrade operations
Keep quarterly patches up to date

🎯 Conclusion

ORA-00600 errors involving dictionary corruption can look critical, but Oracle provides a supported repair mechanism using DBMS_DICTIONARY_CHECK.

Always involve Oracle Support, perform backups, and validate thoroughly after repair.

Stay proactive. Monitor. Validate. Repair safely.

Author: Punit – Oracle EBS & Database Specialist

Monday, February 16, 2026

Project PerformanceShield – Restoring Optimal Execution Plan Using SQL Plan Management (SPM) from AWR

Author: Punit Kumar
Category: Oracle Performance Tuning | SQL Plan Management | AWR | SPM
Database Version: Oracle 19c

⚠️ Production Advisory
Before enforcing SQL Plan Baselines in production, validate the SQL in a lower environment (if possible) and confirm:

Bind variable behavior / peeking sensitivity
Statistics freshness (table/index/system stats)
Adaptive plan behavior / SQL patches already applied
That the historical plan truly matches the same SQL text and environment

📌 Problem Statement

A SQL query (SQL_ID: xxxxxxxxxxxxxx) started performing poorly due to a plan change.

📊 Performance Observation

Plan Type	Plan Hash Value	Avg Elapsed Time (sec)	Last Snapshot
Current Plan (Last Hour)	3405316313	78.261	2026-02-11 16:00:00
Best Plan (History)	1234567890	0.0	2026-02-05 15:00:43

Justification:
DEFAULT: We have identified a better plan in plan history.
A potentially better execution plan was found. Estimated benefit 100.0%.

🎯 Objective

Load the best historical plan from AWR into SQL Plan Management (SPM) and enable it as an accepted SQL Plan Baseline to restore stable performance.

🧠 Solution Overview

Create a SQL Tuning Set (STS)
Capture the desired plan from AWR into STS
Load the plan from STS into SPM (SQL Plan Baseline)
Enable the baseline
Drop STS (cleanup)

🛠️ Step-by-Step Implementation

Step 1 – Create SQL Tuning Set

EXEC DBMS_SQLTUNE.CREATE_SQLSET('sts_xxxxxxxxxxxxxx_1234567890');

Step 2 – Load Plan from AWR into SQL Tuning Set and then into SPM

SET SERVEROUTPUT ON

DECLARE
  baseline_cursor DBMS_SQLTUNE.SQLSET_CURSOR;
  x PLS_INTEGER;
BEGIN
  OPEN baseline_cursor FOR
  SELECT VALUE(p)
  FROM TABLE (
    DBMS_SQLTUNE.SELECT_WORKLOAD_REPOSITORY(
      245,
      412,
      'sql_id='||CHR(39)||'xxxxxxxxxxxxxx'||CHR(39)||
      ' and plan_hash_value=1234567890',
      NULL,NULL,NULL,NULL,NULL,NULL,'ALL'
    )
  ) p;

  DBMS_SQLTUNE.LOAD_SQLSET(
      'sts_xxxxxxxxxxxxxx_1234567890',
      baseline_cursor
  );

  x := DBMS_SPM.LOAD_PLANS_FROM_SQLSET(
        sqlset_name => 'sts_xxxxxxxxxxxxxx_1234567890',
        fixed       => 'NO',
        enabled     => 'YES'
       );

  DBMS_OUTPUT.PUT_LINE(TO_CHAR(x) || ' plan baselines loaded');
END;
/

Step 3 – Drop Temporary SQL Tuning Set (Cleanup)

EXEC DBMS_SQLTUNE.DROP_SQLSET('sts_xxxxxxxxxxxxxx_1234567890');

🔍 Validation

Confirm that the baseline is created and enabled:

SELECT sql_handle,
       plan_name,
       origin,
       enabled,
       accepted,
       fixed
FROM   dba_sql_plan_baselines
WHERE  sql_text LIKE '%querystring%';

🔄 Backout Plan (If Required)

1️⃣ Identify SQL Handle and Plan Name

SELECT sql_handle,
       plan_name,
       origin,
       enabled,
       accepted,
       fixed
FROM   dba_sql_plan_baselines
WHERE  sql_text LIKE '%querystring%';

2️⃣ Drop the SQL Plan Baseline

SET SERVEROUTPUT ON
DECLARE
  rc NUMBER;
BEGIN
  rc := DBMS_SPM.DROP_SQL_PLAN_BASELINE(
          sql_handle => '(sql_handle)',
          plan_name  => '(plan_name)'
        );
  DBMS_OUTPUT.PUT_LINE(rc);
END;
/

📌 Plan Restoration Flow

AWR (Historical Best Plan)
        ↓
SQL Tuning Set (STS)
        ↓
SQL Plan Management (SPM)
        ↓
Accepted SQL Plan Baseline
        ↓
Stable Performance

✅ Why Use SPM Instead of Adding Hints?

No SQL code change required
Controlled and supported method to enforce stable plans
Can be enabled/disabled quickly
Rollback is clean and safe
Helps prevent future regression

📚 Technical References & Best Practice Notes

Loading SQL Plans from AWR into SQL Plan Management (SPM)
Oracle provides a supported approach to capture historical execution plans from AWR and load them as SQL Plan Baselines using STS.
Reference: MOS Doc ID 789888.1

SQL Tuning Health Check Script (SQLHC)
SQLHC helps analyze execution plans, statistics, optimizer environment, and common misconfigurations impacting SQL performance.
Reference: MOS Doc ID 1366133.1

Oracle Database Performance Tuning Guide
Refer to the official documentation section on SQL Plan Management (SPM) for concepts and lifecycle management.

AWR Best Practices
Always confirm that the historical plan represents the same SQL (and similar bind patterns) before enforcing it.

🏁 Conclusion

By loading the best historical plan (Plan HV: 1234567890) from AWR into SPM, we can restore stable performance and prevent regression. This approach is production-friendly because it avoids code changes and includes a clean backout option.

Author: Punit Kumar
Oracle EBS | Oracle 19c | Performance Tuning | SPM | AWR

Sunday, February 15, 2026

Workflow Services Not Starting in Oracle E-Business Suite R12 – BES Control Queue Fix

Workflow Services Not Running or Starting in Oracle E-Business Suite R12 (Target=1, Actual=0) – Complete Fix

In Oracle E-Business Suite R12, Oracle Workflow Services may sometimes fail to start from the frontend (System Administrator responsibility) or from the Concurrent > Manager > Administer form. In this scenario, Workflow service components remain stuck with:

Target = 1
Actual = 0

This post provides a clean, production-friendly fix to bring the Workflow services back online, along with the MOS-based advanced recovery for the common Service Component Container error.

Affected Workflow Components (Service Managers)

Workflow Agent Listener Service – WFALSNRSVC
Workflow Mailer Service – WFMLRSVC
Workflow Document Web Services Service – WFWSSVC

How to Confirm the Service Short Names (SQL)

You can confirm the concurrent queue short names using the following queries:

Workflow Agent Listener Service

SELECT concurrent_queue_name
FROM apps.fnd_concurrent_queues_tl
WHERE user_concurrent_queue_name = 'Workflow Agent Listener Service';

Workflow Mailer Service

SELECT concurrent_queue_name
FROM apps.fnd_concurrent_queues_tl
WHERE user_concurrent_queue_name = 'Workflow Mailer Service';

Workflow Document Web Services Service

SELECT concurrent_queue_name
FROM apps.fnd_concurrent_queues_tl
WHERE user_concurrent_queue_name = 'Workflow Document Web Services Service';

Solution (Primary Fix) – Reset Workflow Service Manager Definitions

⚠️ Important: Run the below updates carefully (preferably during a controlled window). Take a backup / snapshot before changes in Production. Execute as APPS.

Step 1 – Set process values to zero

UPDATE fnd_concurrent_queues
   SET running_processes = 0,
       max_processes     = 0
 WHERE concurrent_queue_name IN ('WFWSSVC','WFALSNRSVC','WFMLRSVC');

Step 2 – Reset invalid control codes (if applicable)

UPDATE fnd_concurrent_queues
   SET control_code = NULL
 WHERE concurrent_queue_name IN ('WFWSSVC','WFALSNRSVC','WFMLRSVC')
   AND control_code NOT IN ('E','R','X')
   AND control_code IS NOT NULL;

Step 3 – Clear target node (remove node binding)

UPDATE fnd_concurrent_queues
   SET target_node = NULL
 WHERE concurrent_queue_name IN ('WFWSSVC','WFALSNRSVC','WFMLRSVC');

Step 4 – Commit

COMMIT;

What Happens Next?

After the above reset, wait a few minutes. The Internal Concurrent Manager (ICM) typically brings the services up automatically.

Verification – Confirm Workflow Service Managers Are Up

SELECT concurrent_queue_name,
       control_code,
       running_processes,
       max_processes
  FROM fnd_concurrent_queues
 WHERE concurrent_queue_name IN ('WFALSNRSVC','WFMLRSVC','WFWSSVC');

Expected state:

CONTROL_CODE should typically be C
RUNNING_PROCESSES should be 1
MAX_PROCESSES should be 1 (or as configured)

Common Error Seen (When Services Still Do Not Start)

In some cases, the services still fail with the following error:

ERROR:[SVC-GSM-WFALSNRSVC-9700 : oracle.apps.fnd.cp.gsc.SvcComponentContainer.startBusinessEventListener()]:
BES system could not establish connection to the control queue after 180 seconds

oracle.apps.fnd.cp.gsc.SvcComponentContainerException:
Could not start Service Component Container

This points to an issue with the Business Event System (BES) control queue / container configuration.

Advanced Fix (MOS) – Rebuild Workflow Control Queue / Container

🚨 MOS-Based Fix: Use this only when the primary fix does not resolve the issue and the error shows SvcComponentContainerException.

Refer to Oracle Support Document:

Starting Workflow Services Fails With Error oracle.apps.fnd.cp.gsc.SvcComponentContainerException Could not start Service Component Container
Doc ID 1663093.1

As per the document, run the following script to rebuild the Workflow control queue/container configuration:

Run as APPS user:

sqlplus apps/xxxxxxx @$FND_TOP/patch/115/sql/wfctqrec.sql APPLSYS xxxx

Replace:

xxxxxxx → APPS password
xxxx → APPLSYS password

Important Notes

Ensure Workflow Services are stopped before running the script.
Take a database backup / snapshot before executing in Production.
After script execution, bounce Concurrent Managers (or at least ICM).
Wait a few minutes and recheck the service status.

Post-Fix Verification

SELECT concurrent_queue_name,
       control_code,
       running_processes,
       max_processes
  FROM fnd_concurrent_queues
 WHERE concurrent_queue_name IN ('WFALSNRSVC','WFMLRSVC','WFWSSVC');

Once the Workflow services are healthy, you should see the managers running and the frontend should reflect:

Target = 1
Actual = 1

Root Cause (Why This Happens)

Corrupt / stale Service Component Container configuration
Invalid node binding (TARGET_NODE) after cloning or node changes
Improper shutdown causing inconsistent queue state
BES control queue connection timeouts

Conclusion

Workflow services stuck at Target=1 / Actual=0 can be fixed safely by resetting the service manager definitions in FND_CONCURRENT_QUEUES. If the environment throws the Service Component Container exception, the MOS script (wfctqrec.sql) provides the advanced recovery to rebuild the container/control queue configuration.

— Punit Kumar
Oracle EBS Techno Functional Consultant

Saturday, February 14, 2026

Project CloudBridge – Day 3: Designing & Deploying Amazon RDS PostgreSQL (OLTP Foundation)

Project CloudBridge – Day 3: Building the OLTP Foundation with Amazon RDS PostgreSQL

Series Context: After understanding why enterprises separate OLTP and Analytics (Day 1) and designing a real-time analytics architecture (Day 2), today we move into hands-on infrastructure setup.

Day 3 is where architecture thinking transforms into real implementation.

🎯 Day 3 Objective

Design and deploy a production-grade Amazon RDS PostgreSQL instance that will act as the OLTP source database for our real-time analytics pipeline.

This database will:

Act as the enterprise transactional system
Serve as the source for AWS DMS
Feed analytics data into Amazon Redshift (later days)

🧱 What We Are Building Today

Today we focus on the OLTP layer of our architecture:

Understand RDS PostgreSQL architecture components
Design production-ready configuration
Create and configure the RDS instance
Validate connectivity and basic database operations

📐 RDS PostgreSQL Architecture Overview

Before creating the database, we must understand key architectural components:

DB Instance vs Database
Multi-AZ vs Single-AZ deployment
Storage types (gp3, io1)
Subnet Groups and VPC isolation
Security Groups and access control
Parameter Groups
Backup and maintenance configuration

This is not just “Create Database”. This is infrastructure design.

⚙ Production Design Decisions

We will make enterprise-style configuration choices:

Instance class selection (compute vs memory optimized)
Storage sizing and autoscaling
Backup retention period
Monitoring configuration
Encryption using AWS KMS
Public vs Private accessibility

The goal is to think like a Cloud Architect — not just a console user.

🛠 Hands-On Tasks

By the end of today, we will:

Launch Amazon RDS PostgreSQL
Configure VPC and Subnet Group
Attach Security Group
Enable automated backups
Create initial database
Create application user
Test connectivity using psql

🔍 Validation Step

After deployment, we will verify:

SELECT version();

This confirms:

Database is operational
Network configuration is correct
Security rules are properly defined

🧠 Why Day 3 Matters

Without a properly designed OLTP source database:

AWS DMS cannot replicate data
Change Data Capture (CDC) will not work
Analytics pipeline will fail

Day 3 builds the foundation for the entire CloudBridge architecture.

📌 End of Day 3 Expected Outcome

One production-ready RDS PostgreSQL instance
Verified connectivity
Clear understanding of AWS database architecture
Ready to configure AWS DMS on Day 4

Next: Day 4 – Configuring AWS Database Migration Service (DMS) for Continuous Data Replication

Friday, February 13, 2026

Project CloudBridge – Day 1 & 2 Summary (Architect Consolidation)

Project CloudBridge – Brief Summary (Day 1 & Day 2)

This short recap consolidates the core learning from Day 1 and Day 2, so we can move into Day 3 (hands-on build) with a clear production mindset.

✅ Day 1 – Why Enterprises Separate OLTP and Analytics

Day 1 established the foundational enterprise principle: Transactional systems (OLTP) and analytical systems (Analytics/OLAP) are built for different workload patterns.

OLTP	Analytics
Small, frequent transactions	Large scans & aggregations
Low latency (milliseconds)	High throughput reporting
Predictable response time	Long-running queries

Enterprise Rule: Never run heavy analytics workload on the production OLTP database. It creates CPU/I/O contention, lock waits, and SLA impact.

The enterprise solution pattern introduced: separate OLTP and Analytics and connect them using a replication layer.

✅ Day 2 – Enterprise Real-Time Architecture Design (Deep Mode)

Day 2 moved from principle to production design thinking. We designed a real-time architecture using: RDS PostgreSQL (OLTP), AWS DMS (Full Load + CDC), and Amazon Redshift (Analytics).

Customer Applications
        ↓
Amazon RDS PostgreSQL (OLTP)
        ↓
AWS DMS (Full Load + CDC)
        ↓
Amazon Redshift (Analytics Warehouse)
        ↓
BI / Dashboards
  

Key technical decisions and learnings:

RDS (OLTP): design for low latency, high availability (Multi-AZ), and predictable storage performance.
CDC (Change Data Capture): DMS reads PostgreSQL WAL to capture INSERT/UPDATE/DELETE with minimal OLTP impact.
WAL/Slot Risk: if DMS lags or stops, WAL can accumulate (replication slot retention), creating storage pressure.
DMS Sizing Matters: under-sized replication instances lead to replication lag and stale analytics.
Redshift (Analytics): purpose-built warehouse for heavy aggregations and large scans; scales independently from OLTP.

Day 2 Outcome: We shifted from “tool learning” to architect thinking — workload isolation, CDC design, sizing awareness, and failure scenario planning.

🔜 Day 3 – What Comes Next (Hands-on Build)

Day 3 is execution with a production mindset:

Create RDS PostgreSQL with proper sizing and storage
Configure parameter group for CDC (WAL/logical replication)
Plan networking (subnets, security groups) and access model
Prepare DMS replication instance sizing and monitoring approach

Tags: #AWS #CloudBridge #RDS #PostgreSQL #DMS #CDC #Redshift #RealTimeAnalytics #DataEngineering