7 Operational Prerequisites to Maximizing Availability

Use the following operational best practices to provide a successful MAA implementation.

Understand Availability and Performance SLAs

Understand and document your high availability and performance service-level agreements (SLAs):

Implement and Validate a High Availability Architecture That Meets Your SLAs

When you have agreement on your high availability and performance service level requirements:

Establish Test Practices and Environment

You must validate or automate the following to ensure that your target high availability SLAs are met:

  • All software update and upgrade maintenance events
  • All repair operations, including those for various types of unplanned outages
  • Backup, restore, and recovery operations

If you use Oracle Data Guard for disaster recovery and data protection, Oracle recommends that you:

  • Perform periodic switchover operations, or conduct full application and database failover tests
  • Validate end-to-end role transition procedures by performing application and Data Guard switchovers periodically

A good test environment and proper test practices are essential prerequisites to achieving the highest stability and availability in your production environment. By validating every change in your test environment thoroughly, you can proactively detect, prevent, and avoid problems before applying the same change on your production systems.

These practices involve the following:

Configuring the Test System and QA Environments

The test system should be a replica of the production MAA environment (for example, using the MAA Gold reference architecture.) There will be trade offs if the test system is not identical to the MAA service-level driven standard reference architecture that you plan to implement. It's recommended that you execute functional, performance, and availability tests with a workload that mimics production. Evaluate if availability and performance SLAs are maintained after each change, and ensure that clear fallback or repair procedures are in place if things go awry, while applying the change on the production environment.

With a properly configured test system, many problems can be avoided, because changes are validated with an equivalent production and standby database configuration containing a full data set and using a workload framework to mimic production (for example, using Oracle Real Application Testing.)

Do not try to reduce costs by eliminating the test system, because that decision ultimately affects the stability and the availability of your production applications. Using only a subset of system resources for testing and QA has the tradeoffs shown in the following table, which is an example of the MAA Gold reference architecture.

Table 7-1 Tradeoffs for Different Test and QA Environments

Test Environment Benefits and Tradeoffs

Full Replica of Production and Standby Systems


  • All software updates and upgrades
  • All functional tests
  • Full performance at production scale
  • Full high availability

Full Replica of Production Systems


  • All software updates and upgrades
  • All functional tests
  • Full performance at production scale
  • Full high availability minus the standby system

Cannot Validate:

  • Functional tests, performance at scale, high availability, and disaster recovery on standby database

Standby System


  • Most software update changes
  • All functional tests
  • Full performance--if using Data Guard Snapshot Standby, but this can extend recovery time if a failover is required
  • Role transition
  • Resource management and scheduling--required if standby and test databases exist on the same system

Shared System Resource


  • Most software update changes
  • All functional tests

This environment may be suitable for performance testing if enough system resources can be allocated to mimic production. Typically, however, the environment includes a subset of production system resources, compromising performance validation. Resource management and scheduling is required.

Smaller or Subset of the system resources


  • All software update changes
  • All functional tests
  • Limited full-scale high availability evaluations

Cannot Validate:

  • Performance testing at production scale

Different hardware or platform system resources but same operating system


  • Some software update changes
  • Limited firmware patching test
  • All functional tests unless limited by new hardware features
  • Limited production scale performance tests
  • Limited full-scale high availability evaluations

Performing Preproduction Validation Steps

Pre-production validation and testing of hardware, software, database, application or any changes is an important way to maintain stability. The high-level pre-production validation steps are:

  1. Review the patch or upgrade documentation or any document relevant to that change. Evaluate the possibility of performing a rolling upgrade if your SLAs require zero or minimal downtime. Evaluate any rolling upgrade opportunities to minimize or eliminate planned downtime. Evaluate whether the patch or the change qualifies for Standby-First Patching.


    Standby-First Patch enables you to apply a patch initially to a physical standby database while the primary database remains at the previous software release (this applies to certain types of software updates and does not apply to major release upgrades; use the Data Guard transient logical standby and DBMS_ROLLING method for patch sets and major releases). Once you are satisfied with the change, then perform a switchover to the standby database. The fallback is to switchback if required. Alternatively, you can proceed to the following step and apply the change to your production environment. For more information, see "Oracle Patch Assurance - Data Guard Standby-First Patch Apply" in My Oracle Support Note 1265700.1 at https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=1265700.1

  2. Validate the application in a test environment and ensure the change meets or exceeds your functionality, performance, and availability requirements. Automate the procedure and be sure to also document and test a fallback procedure. This requires comparing metrics captured before and after patch application on the test and against metrics captured on the production system. Real Application Testing may be used to capture the workload on the production system and replay it on the test system. AWR and SQL Performance Analyzer may be used to assess performance improvement or regression resulting from the patch.

    Validate the new software on a test system that mimics your production environment, and ensure the change meets or exceeds your functionality, performance, and availability requirements. Automate the patch or upgrade procedure and ensure fallback. Being thorough during this step eliminates most critical issues during and after the patch or upgrade.

  3. Use Oracle Real Application Testing and test data management features to comprehensively validate your application while also complying with any security restrictions your line of business may have. Oracle Real Application Testing (a separate database option) enables you to perform real-world testing of Oracle Database. By capturing production workloads and assessing the impact of system changes on these workloads before production deployment, Oracle Real Application Testing minimizes the risk of instabilities associated with system changes. SQL Performance Analyzer and Database Replay are key components of Oracle Real Application Testing. Depending on the nature and impact of the system change being tested, and on the type of system on which the test will be performed, you can use either or both components to perform your testing.

    When performing real-world testing there is a risk of exposing sensitive data to non-production users in a test environment. The test data management features of Oracle Database help to minimize this risk by enabling you to perform data masking and data subsetting on the test data.

  4. If applicable, perform final pre-production validation of all changes on a Data Guard standby database before applying them to production. Apply the change in a Data Guard environment, if applicable.

  5. Apply the change in your production environment.

Set Up and Use Security Best Practices

Corporate data can be at grave risk if placed on a system or database that does not have proper security measures in place. A well-defined security policy can help protect your systems from unwanted access and protect sensitive corporate information from sabotage. Proper data protection reduces the chance of outages due to security breaches.

Establish Change Control Procedures

Institute procedures that manage and control changes as a way to maintain the stability of the system and to ensure that no changes are incorporated in the primary database unless they have been rigorously evaluated on your test systems, or any one of the base architectures in the MAA service-level tiers.

Review the changes and get feedback and approval from your change management team.

Apply Recommended Patches and Software Periodically

By periodically testing and applying the latest recommended patches and software versions, you ensure that your system has the latest security and software fixes required to maintain stability and avoid many known issues. Remember to validate all updates and changes on a test system before performing the upgrade on the production system.

Furthermore, Oracle health check tools such as
(supporting Non-Engineered Systems and Oracle Database Appliance) and
(supporting Engineered Systems such as Oracle Exadata Database Machine, Exalogic, Zero Data Loss Recovery Appliance, and Big Data Appliance) provide Oracle software upgrade advice, critical software update recommendations, and patching and upgrading pre-checks, along with its system and database health checks and MAA recommendations.

See Also:

"Oracle Recommended Patches -- Oracle Database" in My Oracle Support Note 756671.1 at https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=756671.1

"Exadata Database Machine and Exadata Storage Server Supported Versions" in My Oracle Support Note 888828.1 at https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=888828.1

"ORAchk - Health Checks for the Oracle Stack" in My Oracle Support Note 1268927.2 at https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=1268927.2

"Oracle Exadata Database Machine exachk or HealthCheck" in My Oracle Support Note 1070954.1 at https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=1070954.1

Execute Disaster Recovery Validation

Disaster recovery validation is required to ensure that you meet your disaster recovery service level requirements such as RTO and RPO.

Whether you have a standby database, Oracle GoldenGate replica, or leverage database backups from Zero Data Loss Recovery Appliance (Recovery Appliance), ZFS Storage, or another third party, it is important to ensure that the operations and database administration teams are well prepared to failover or restore the database and application any time the primary database is down or underperforming. The concerned teams should be able to detect and decide to failover or restore as required. Such efficient execution during disasters will significantly reduce overall downtime.

If you use Data Guard or Oracle GoldenGate for high availability, disaster recovery, and data protection, Oracle recommends that you perform regular application and database switchover operations every three to six months, or conduct full application and database failover tests.

Periodic RMAN cross checks, RMAN backup validations, and complete database restore and recovery are required to validate your disaster recovery solution through backups. Inherent backup checks and validations are done automatically with the Recovery Appliance, but periodic restore and recovery tests are still recommended.

Establish Escalation Management Procedures

Establish escalation management procedures so repair is not hindered. Most repair solutions, when conducted properly are automatic and transparent with the MAA solution. The challenges occur when the primary database or system is not meeting availability or performance SLAs and failover procedures are not automatic as in the case with some Data Guard failover scenarios. Downtime can be prolonged if proper escalation policies are not followed and decisions are not made quickly.

If availability is the top priority, perform repair and failover operations first and then proceed with gathering logs and information for Root Cause Analysis (RCA) after the application service has been reestablished. For simple data gathering, use the Trace File Analyzer Collector (TFA).

See Also:

MAA web page at http://www.oracle.com/goto/maa

My Oracle Support note 1513912.2 “TFA Collector - Tool for Enhanced Diagnostic Gathering” at 1513912.2

Configure Monitoring and Service Request Infrastructure for High Availability

To maintain your High Availability environment, you should configure the monitoring infrastructure that can detect and react to performance and high availability related thresholds before any downtime has occurred.

Also, where available, Oracle can detect failures, dispatch field engineers, and replace failed hardware components such as disks, flash cards, fans, or power supplies without customer involvement.

Run Database Health Checks Periodically

Oracle Database health checks are designed to evaluate your hardware and software configuration and MAA compliance to best practices.

All of the Oracle health check tools will evaluate Oracle Grid Infrastructure, Oracle Database, and provide an automated MAA scorecard or review that highlights when key architectural and configuration settings are not enabled for tolerance of failures or fast recovery. For Oracle's engineered systems such as Exadata Database Machine, there may be hundreds of additional software, fault and configuration checks.

Oracle recommends periodically (for example, monthly for Exadata Database Machine) downloading the latest database health check, executing the health check, and addressing the key FAILURES, WARNINGS, and INFO messages. Use
for Engineered Systems such as Oracle Exadata Database Machine, Exalogic, Zero Data Loss Recovery Appliance, and Big Data Appliance, and use
for Non-Engineered Systems and Oracle Database Appliance.

Furthermore, it is recommended that you run the health check prior to and after any planned maintenance activity.

You must evaluate:

  • Existing or new critical health check alerts prior to planned maintenance window

  • Adding any new recommendations to the planned maintenance window after testing

  • Existing software or critical software recommendations

See Also:

My Oracle Support Note 1268927.2 "ORAchk - Health Checks for the Oracle Stack" at https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=1268927.2

My Oracle Support Note 1070954.1 "Oracle Exadata Database Machine exachk or HealthCheck" at https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=1070954.1

Configure Oracle Enterprise Manager Monitoring Infrastructure for High Availability

You should configure and use Enterprise Manager and the monitoring infrastructure that detects and reacts to performance and high availability related thresholds to avoid potential downtime.

The monitoring infrastructure assists you with monitoring for High Availability and enables you to do the following:

  • Monitor system, network, application, database and storage statistics

  • Monitor performance and service statistics

  • Create performance and high availability thresholds as early warning indicators of system or application problems

  • Provide performance and availability advice

  • Established alerts and tools and database performance

  • Receive alerts for engineered systems hardware faults

See Also:

MAA Best Practices for Enterprise Manager at http://www.oracle.com/goto/maa

Configure Automatic Service Request Infrastructure

In addition to monitoring infrastructure with Enterprise Manager in the Oracle high availability environment where available, Oracle can detect failures, dispatch field engineers, and replace failing hardware without customer involvement.

For example, Oracle Automatic Service Request (ASR) is a secure, scalable, customer-installable software solution available as a feature. The software resolves problems faster by using auto-case generation for Oracle's Solaris server and storage systems when specific hardware faults occur.

See Also:

See "Oracle Automatic Service Request" in My Oracle Support Note 1185493.1 at https://support.oracle.com/CSP/main/article?cmd=show&type=NOT&id=1185493.1

Check the Latest MAA Best Practices

The MAA solution encompasses the full stack of Oracle technologies, so you can find MAA best practices for Oracle Fusion Middleware, Oracle Fusion Applications, Oracle Applications Unlimited, Oracle Exalytics, Oracle Exalogic, Oracle VM, and Oracle Enterprise Manager Cloud Control on the MAA pages.

MAA solutions and best practices continue to be developed and published on http://www.oracle.com/goto/maa.