Site failure

A site failure may affect all processing at a data center, or a subset of applications supported by a data center.

The definition of site varies given the contexts of on-premises and cloud.

• Site failure - entire regional failure
• Data center - entire data center location
• Availability domain - isolated data center within a region with possibly many other availability domains
• Fault domain - isolated set of system resources within an Availability Domain or data center

Typically, each site, data center, availability domain, and fault domain has its own set of isolated hardware, DB compute, network, storage, and power.

• Extended sitewide power failure
• Sitewide network failure
• Natural disaster makes a data center inoperable
• Terrorist or malicious attack on operations or the site

Clusterwide failure

The whole cluster hosting an Oracle RAC database is unavailable or fails. This includes:

• Failures of nodes in the cluster

• Failure of any other components that result in the cluster being unavailable and the Oracle database and instances on the site being unavailable

• The last surviving node on the Oracle RAC cluster fails and the node or database cannot be restarted

• Both redundant cluster interconnections fail or Clusterware failure

• Database corruption so severe that continuity is not possible on the current database server

• Clusterware and hardware-software defects preventing availability or stability.

Computer failure

A computer failure outage occurs when the system running the database becomes unavailable because it has failed or is no longer available. When the database uses Oracle RAC then a computer failure represents a subset of the system (while retaining full access to the data).

• Database system hardware failure

• Operating system failure

• Oracle instance failure

Network failure

A network failure outage occurs when a network device stops or reduces network traffic and communication from your application to database, database to storage, or any system to system that is critical to your application service processing.

• Network switch failure

• Network interface failure

• Network cable failures

Storage failure

A storage failure outage occurs when the storage holding some or all of the database contents becomes unavailable because it has shut down or is no longer available.

• Disk or flash drive failure

• Disk controller failure

• Storage array failure

Data corruption

A corrupt block is a block that was changed so that it differs from what Oracle Database expects to find. Block corruptions can be categorized as physical or logical:

• In a physical block corruption, which is also called a media corruption, the database does not recognize the block at all; the checksum is invalid or the block contains all zeros. An example of a more sophisticated block corruption is when the block header and footer do not match.

• In a logical block corruption, the contents of the block are physically sound and pass the physical block checks; however, the block can be logically inconsistent. Examples of logical block corruption include incorrect block type, incorrect data or redo block sequence number, corruption of a row piece or index entry, or data dictionary corruptions.

Block corruptions can also be divided into interblock corruption and intrablock corruption:

• In an intrablock corruption, the corruption occurs in the block itself and can be either a physical or a logical block corruption.

• In an interblock corruption, the corruption occurs between blocks and can only be a logical block corruption.

A data corruption outage occurs when a hardware, software, or network component causes corrupt data to be read or written. The service-level impact of a data corruption outage may vary, from a small portion of the application or database (down to a single database block) to a large portion of the application or database (making it essentially unusable).

• Operating system or storage device driver failure

• Faulty host bus adapter

• Disk controller failure

• Volume manager error causing a bad disk read or write

• Software or hardware defects

Human error

A human error outage occurs when unintentional or other actions are committed that cause data in the database to become incorrect or unusable. The service-level impact of a human error outage can vary significantly, depending on the amount and critical nature of the affected data.

• File deletion (at the file system level)

• Dropped database object

• Inadvertent data changes

• Malicious data changes

Lost or stray writes

A lost or stray write is another form of data corruption, but it is much more difficult to detect and repair quickly. A data block stray or lost write occurs when:

• For a lost write, an I/O subsystem acknowledges the completion of the block write even though the write I/O did not occur in the persistent storage. On a subsequent block read on the primary database, the I/O subsystem returns the stale version of the data block, which might be used to update other blocks of the database, thereby corrupting it.

• For a stray write, the write I/O completed but it was written somewhere else, and a subsequent read operation returns the stale value.

• For an Oracle RAC system, a read I/O from one cluster node returns stale data after a write I/O is completed from another node (lost write). For example, this occurs if a network file system (NFS) is mounted in Oracle RAC without disabling attribute caching (for example, without using the noac option). In this case, the write I/O from one node is not immediately visible to another node because it is cached.

Block corruptions caused by stray writes or lost writes can cause havoc to your database availability. The data block may be physically or logically correct but subsequent disk reads will show blocks that are stale or with an incorrect Oracle Database block address.

• Operating system or storage device driver failure

• Faulty host bus adapter

• Disk controller failure

• Volume manager error

• Other application software

• Lack of network file systems (NFS) write visibility across a cluster

• Software or hardware defects

Delay or slowdown

A delay or slowdown occurs when the database or the application cannot process transactions because of a resource or lock contention. A perceived delay can be caused by lack of system resources.

• Database or application deadlocks

• Runaway processes that consume system resources

• Logon storms or system faults

• Combination of application peaks with lack of system or database resources. This can occur with one application or many applications in a consolidated database environment without proper resource management.

• Archived redo log destination or fast recovery area destination becomes full

• Oversubscribed or heavily consolidated database system

Software changes

• Planned periodic software changes to apply minor fixes for stability and security
• Planned annual or bi-annual major upgrades to adopt new features and capabilities

• Software updates, including security updates to operating system, clusterware. or database
• Major upgrade of operating system, clusterware, or database
• Updating or upgrading application software

System and database changes

• Planned system changes to replace defected hardware
• Planned system changes to expand or reduce system resources
• Planned database changes to adopt parameter changes
• Planned change to migrate to new hardware or architecture

• Adding or removing processors or memory to a server

• Adding or removing nodes to or from a cluster

• Adding or removing disks drives or storage arrays

• Replacing any Field Replaceable Unit (FRU)

• Changing configuration parameters

• System platform migration

• Migrating to cluster architecture

• Migrating to new storage

Data changes

Planned data changes to the logical structure or physical organization of Oracle Database objects. The primary objective of these changes is to improve performance or manageability.

• Table definition changes

• Adding table partitioning

• Creating and rebuilding indexes

Application changes

Planned application changes can include data changes and schema and programmatic changes. The primary objective of these changes is to improve performance, manageability, and functionality.

Application upgrades