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CHAPTER 5 ORACLE PROCESSES
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FBDA: Flashback Data Archiver Process
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This process is new in Oracle Database 11g Release 1 and above. It is the key component of the new flashback data archive capability the ability to query data as of long periods of time ago (for example, to query data in a table as it appeared one year ago, five years ago, and so on). This long term historical query capability is achieved by maintaining a history of the row changes made to every row in a table over time. This history, in turn, is maintained by the FBDA process in the background. This process functions by working soon after a transaction commits. The FBDA process will read the UNDO generated by that transaction and roll back the changes made by the transaction. It will then record these rolled back (the original values) rows in the flashback data archive for us.
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DBRM: Database ResourceManager Process
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This process implements the resource plans that may be configured for a database instance. It sets the resource plans in place and performs various operations related to enforcing/implementing those resource plans. The resource manager allows the administrators of a database to have fine grained control over the resources used by the database instance, by applications accessing the database, or by individual users accessing the database.
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GEN0: General Task Execution Process
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This process provides, as expected by its name, a general task execution thread for the database. The main goal of this process is to offload potentially blocking processing (processing that would cause a process to stop while it occurs) from some other process and perform it in the background. For example, if the main ASM process needs to perform some blocking file operation, but that operation could safely be done in the background (ASM can safely continue processing before the operation completes), then the ASM process may request the GEN0 process to perform this operation and let GEN0 notify it upon completion. It is similar in nature to the slave processes described further below.
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Remaining Common Focused Processes
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Depending on the features of Oracle you are using, other focused processes may be visible. Some are listed here with a brief description of their function.
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Note Appendix F of the Server Reference Manual, available on http://otn.oracle.com/, has a complete listing of
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the background processes and their functions.
Most of the processes described previously are nonnegotiable you will have them if you have an Oracle instance running. (ARCn is technically optional but is, in my opinion, mandatory for all production databases!) The following processes are optional and will appear only if you make use of the specific feature. The following processes are unique to a database instance using ASM, as discussed in 3, Files :
CHAPTER 5 ORACLE PROCESSES
Automatic Storage Management Background (ASMB) process: The ASMB process runs in a database instance that is making use of ASM. It is responsible for communicating to the ASM instance that is managing the storage, providing updated statistics to the ASM instance, and providing a heartbeat to the ASM instance, letting it know that it is still alive and functioning. ReBALance (RBAL) process: The RBAL process also runs in a database instance that is making use of ASM. It is responsible for processing a rebalance request (a redistribution request) as disks are added/removed to and from an ASM disk group.
The following processes are found in an Oracle RAC instance. RAC is a configuration of Oracle whereby multiple instances, each running on a separate node (typically a separate physical computer) in a cluster, may mount and open a single database. It gives you the ability to have more than one instance accessing, in a full read-write fashion, a single set of database files. The primary goals of RAC are twofold: High availability: With Oracle RAC, if one node/computer in the cluster fails due to a software, hardware, or human error, the other nodes may continue to function. The database will be accessible via the other nodes. You might lose some computing power, but you won t lose access to the database. Scalability: Instead of buying larger and larger machines to handle an increasing workload (known as vertical scaling), RAC allows you to add resources in the form of more machines in the cluster (known as horizontal scaling). Instead of trading your 4 CPU machine in for one that can grow to 8 or 16 CPUs, RAC gives you the option of adding another relatively inexpensive 4 CPU machine (or more than one).
The following processes are unique to a RAC environment. You will not see them otherwise. Lock monitor (LMON) process: The LMON process monitors all instances in a cluster to detect the failure of an instance. It then facilitates the recovery of the global locks held by the failed instance. It is also responsible for reconfiguring locks and other resources when instances leave or are added to the cluster (as they fail and come back online, or as new instances are added to the cluster in real time). Lock manager daemon (LMD0) process: The LMD process handles lock manager service requests for the global cache service (keeping the block buffers consistent between instances). It works primarily as a broker sending requests for resources to a queue that is handled by the LMSn processes. The LMD handles global deadlock detection/resolution and monitors for lock timeouts in the global environment. Lock manager server (LMSn) process: As noted earlier, in a RAC environment, each instance of Oracle is running on a different machine in a cluster, and they all access, in a read-write fashion, the same exact set of database files. To achieve this, the SGA block buffer caches must be kept consistent with respect to each other. This is one of the main goals of the LMSn process. In earlier releases of Oracle Parallel Server (OPS) this was accomplished via a ping. That is, if a node in the cluster needed a read-consistent view of a block that was locked in exclusive mode by another node, the exchange of data was done via a disk flush (the block was pinged). This was a very expensive operation just to read data. Now, with the LMSn, this exchange is done via very fast cache-to-cache exchange over the clusters high-speed connection. You may have up to ten LMSn processes per instance.
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