High availability disaster recovery (HADR)
High availability disaster recovery (HADR) provides a high availability solution for both partial and complete site failures. HADR protects against data loss by replicating data changes from a source database, called the primary database, to the target databases, called the standby databases. HADR supports up to three remote standby servers.
A partial site failure can be caused by a hardware, network, or software (Db2® database system or operating system) failure. Without HADR, a partial site failure requires restarting the database management system (DBMS) server that contains the database. The length of time that it takes to restart the database and the server where it is located is unpredictable. It can take several minutes before the database is brought back to a consistent state and made available. With HADR, a standby database can take over in seconds. Further, you can redirect the clients that used the original primary database to the new primary database by using automatic client reroute or retry logic in the application.
A complete site failure can occur when a disaster, such as a fire, causes the entire site to be destroyed. However, because HADR uses TCP/IP for communication between the primary and standby databases, they can be situated in different locations. For example, the primary database might be located at your head office in one city, and a standby database might be located at your sales office in another city. If a disaster occurs at the primary site, data availability is maintained by having the remote standby database take over as the primary database with full Db2 functionality. After a takeover operation occurs, you can bring the original primary database back up and return it to its primary database status; this is known as failback. You can initiate a failback if you can make the old primary database consistent with the new primary database. After you reintegrate the old primary database into the HADR setup as a standby database, you can switch the roles of the databases to enable the original primary database to once again be the primary database.
- What level of synchronization will you use?
Standby databases are synchronized with the primary database through log data that is generated on the primary and shipped to the standbys. The standbys constantly roll forward through the logs. You can choose from four different synchronization modes. In order of most to least protection, these are SYNC, NEARSYNC, ASYNC, and SUPERASYNC.
- Will you use a peer window?
- The peer window feature specifies that the primary and standby
databases are to behave as though they are still in peer state for
a configured amount of time if the primary loses the HADR connection
in peer state. If primary fails in peer or this
disconnected peerstate, the failover to standby occurs with zero data loss. This feature provides the greatest protection.
- How many standbys will you deploy?
- With HADR, you can use up to three standby databases. With multiple standbys, you can achieve both your high availability and disaster recovery objectives with a single technology. For more information, see HADR multiple standby databases.
- Do you want to combine HADR with Db2 pureScale®
The Db2 pureScale feature offers outstanding availability and scalability and can now be combined with HADR to meet both your high availability and disaster recovery needs. For more information, see High availability disaster recovery (HADR) in Db2 pureScale environments.
- Reads on standby
- You can use the reads on standby feature to direct read-only workload
to one or more standby databases without affecting the HA or DR responsibility
of the standby. This feature can help reduce the workload on the primary
without affecting the main responsibility of the standby.
Unless you have reads on standby enabled, applications can access the current primary database only. If you have reads on standby enabled, read-only applications can be redirected to the standby. Applications connecting to the standby database do not affect the availability of the standby in the case of a failover.
- Delayed replay
- You can use delayed replay to specify that a standby database is to remain at an earlier point in time than the primary, in terms of log replay. If data is lost or corrupted on the primary, you can recovery this data on the time delayed standby.
- Rolling updates and upgrades
- Using an HADR setup, you can make various types of upgrades and Db2 fix pack updates to your databases without an outage. If you are using multiple standby databases, you can perform an upgrade while at the same time keeping the protection provided by HADR. For more information, see Performing rolling updates in a Db2 high availability disaster recovery (HADR) environment.
|Functionality or feature||Principal standby||Auxiliary standby||Principal standby in a Db2 pureScale environment|
|Synchronization mode||All modes are supported||SUPERASYNC mode only||All modes are supported|
|Reads on standby||Supported||Supported||Not supported|
|Tivoli SA MP as cluster manager for automated failover to HADR standby||Supported||Not supported||Not supported|
|Peer window||Supported||Not supported||Not supported|
|Network address translation (NAT)||Supported||Supported||Not supported|
|Automatic client reroute (ACR)||Supported||Supported||Supported|
HADR might be your best option if most or all data in your database requires protection or if you perform DDL operations that must be automatically replicated on a standby database. However, HADR is only one of several replication solutions that are offered in the Db2 product family. The InfoSphere® Federation Server software and the Db2 database system include SQL replication and Q replication solutions that you can also use, in some configurations, to provide high availability. These solutions maintain logically consistent copies of database tables at multiple locations. In addition, they provide flexibility and complex functionality such as support for column and row filtering, data transformation, and updates to any copy of a table. You can also use these solutions in partitioned database environments.
In IBM Data Studio Version 3.1 or later, you can use the task assistant for setting up HADR. Task assistants can guide you through the process of setting options, reviewing the automatically generated commands to perform the task, and running these commands. For more details, see Administering databases with task assistants.