Oracle® Database Administrator's Guide 10g Release 1 (10.1) Part Number B10739-01 |
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Oracle Database provides database resource management capability through its Database Resource Manager. This chapter introduces you to its use and contains the following topics:
Viewing Database Resource Manager Information
Note: This chapter discusses the use of the Oracle-suppliedDBMS_RESOURCE_MANAGER and DBMS_RESOURCE_MANAGER_PRIVS packages to administer the Database Resource Manager. You can more easily administer the Database Resource Manager through the Oracle Enterprise Manager (EM). It provides an easy to use graphical interface for administering the Database Resource Manager. See the Oracle Enterprise Manager documentation set for more information. |
The main goal of the Database Resource Manager is to give the Oracle Database server more control over resource management decisions, thus circumventing problems resulting from inefficient operating system management.
This section contains the following topics:
When database resource allocation decisions are left to the operating system, you may encounter the following problems:
Excessive overhead
Excessive overhead results from operating system context switching between Oracle Database server processes when the number of server processes is high.
Inefficient scheduling
The operating system deschedules database servers while they hold latches, which is inefficient.
Inappropriate allocation of resources
The operating system distributes resources equally among all active processes and is unable to prioritize one task over another.
Inability to manage database-specific resources, such as parallel execution servers and active sessions
The Oracle Database Resource Manager helps to overcome these problems by allowing the database more control over how machine resources are allocated.
Specifically, using the Database Resource Manager, you can:
Guarantee certain users a minimum amount of processing resources regardless of the load on the system and the number of users
Distribute available processing resources by allocating percentages of CPU time to different users and applications. In a data warehouse, a higher percentage may be given to ROLAP (relational on-line analytical processing) applications than to batch jobs.
Limit the degree of parallelism of any operation performed by members of a group of users
Create an active session pool. This pool consists of a specified maximum number of user sessions allowed to be concurrently active within a group of users. Additional sessions beyond the maximum are queued for execution, but you can specify a timeout period, after which queued jobs will terminate.
Allow automatic switching of users from one group to another group based on administrator defined criteria. If a member of a particular group of users creates a session that executes for longer than a specified amount of time, that session can be automatically switched to another group of users with different resource requirements.
Prevent the execution of operations that the optimizer estimates will run for a longer time than a specified limit
Create an undo pool. This pool consists of the amount of undo space that can be consumed in by a group of users.
Limit the amount of time that a session can be idle. This can be further defined to mean only sessions that are blocking other sessions.
Configure an instance to use a particular method of allocating resources. You can dynamically change the method, for example, from a daytime setup to a nighttime setup, without having to shut down and restart the instance.
Allow the cancellation of long-running SQL statements and the termination of long-running sessions.
The elements of database resource management, which you define through the Database Resource Manager packages, are described below.
You will learn how to create and use these elements in later sections of this chapter.
This section briefly introduces the concept of resource plans. Included are some illustrations of simple resource plans. More complex plans are included in the examples presented later ("Putting It All Together: Database Resource Manager Examples "), after it has been explained how to build and maintain the elements of the Database Resource Manager.
Resource plans specify the resource consumer groups belonging to the plan and contain directives for how resources are to be allocated among these groups. You use the DBMS_RESOURCE_MANAGER
package to create and maintain these elements of the Database Resource Manager: resource plans, resource consumer groups, and resource plan directives. Plan information is stored in tables in the data dictionary. Several views are available for viewing plan data.
The first illustration, shown in Figure 24-1, is of a single-level plan, where the plan allocates resources among resource consumer groups. The Great Bread Company has a plan called GREAT_BREAD
that allocates CPU resources among three resource consumer groups. Specifically, SALES
is allotted 60% of the CPU time, MARKET
is allotted 20%, and DEVELOP
receives the remaining 20%.
Oracle Database provides a procedure (CREATE_SIMPLE_PLAN
) that enables you to quickly create a simple resource plan. This procedure is discussed in "Creating a Simple Resource Plan ".
In addition to containing resource consumer groups, a plan can contain subplans. Perhaps the Great Bread Company chooses to divide their CPU resource as shown in Figure 24-2. The figure illustrates a plan schema, which contains a top plan (GREAT_BREAD
) and all of its descendents.
In this case, the GREAT_BREAD
plan still allocates 20% of CPU resources to the consumer group MARKET
. However, now it allocates CPU resources to subplans SALES_TEAM
(60%), which in turn divides its share equally between the WHOLESALE
and RETAIL
groups, and DEVELOP_TEAM
(20%), which in turn divides its resources equally between the BREAD
and MUFFIN
groups.
It is possible for a subplan or consumer group to have more than one parent (owning plan), but there cannot be any loops in a plan schema. An example of a subplan having more that one parent would be if the Great Bread Company had a night plan and a day plan. Both the night plan and the day plan contain the sales
subplan as a member, but perhaps with a different CPU resource allocation in each instance.
Resource consumer groups are groups of users, or sessions, that are grouped together based on their processing needs. Resource plan directives, discussed next, specify how resources are allocated among consumer groups and subplans in a plan schema.
How resources are allocated to resource consumer groups is specified in resource allocation directives. The Database Resource Manager provides several means of allocating resources.
This method enables you to specify how CPU resources are to be allocated among consumer groups or subplans. The multiple levels of CPU resource allocation (up to eight levels) provide a means of prioritizing CPU usage within a plan schema. Level 2 gets resources only after level 1 is unable to use all of its resources. Multiple levels not only provide a way of prioritizing, but they provide a way of explicitly specifying how all primary and leftover resources are to be used.
You can control the maximum number of concurrently active sessions allowed within a consumer group. This maximum designates the active session pool. When a session cannot be initiated because the pool is full, the session is placed into a queue. When an active session completes, the first session in the queue can then be scheduled for execution. You can also specify a timeout period after which a job in the execution queue (waiting for execution) will timeout, causing it to terminate with an error.
An entire parallel execution session is counted as one active session.
Specifying a parallel degree limit enables you to control the maximum degree of parallelism for any operation within a consumer group.
This method enables you to control resources by specifying criteria that, if met, causes the automatic switching of sessions to another consumer group. The criteria used to determine switching are:
Switch group: specifies the consumer group to which this session is switched if the other (following) criteria are met
Switch time: specifies the length of time that a session can execute before it is switched to another consumer group
Switch time in call: specifies the length of time that a session can execute before it is switched to another consumer group. Once the top call finishes, the session is restored to its original consumer group.
Use estimate: specifies whether the database is to use its own estimate of how long an operation will execute
The Database Resource Manager switches a running session to switch group if the session is active for more than switch time seconds. Active means that the session is running and consuming resources, not waiting idly for user input or waiting for CPU cycles. The session is allowed to continue running, even if the active session pool for the new group is full. Under these conditions a consumer group can have more sessions running than specified by its active session pool. Once the session finishes its operation and becomes idle, it is switched back to its original group.
If use estimate is set to TRUE
, the Database Resource Manager uses a predicted estimate of how long the operation will take to complete. If the database estimate is longer than the value specified as the switch time, then the database switches the session before execution starts. If this parameter is not set, the operation starts normally and only switches groups when other switch criteria are met.
Switch time in call is useful for three-tier applications where the middle tier server is using session pooling. At the end of every top call, a session is switched back to its original consumer group--that is, the group it would be in had it just logged in. A top call in PL/SQL is an entire PL/SQL block being treated as one call. A top call in SQL is an individual SQL statement issued separately by the client being treated as a one call.
You cannot specify both switch time in call and switch time.
You can also specify directives to cancel long-running SQL queries or to terminate long-running sessions. You specify this by setting CANCEL_SQL
or KILL_SESSION
as the switch group.
You can specify a maximum execution time allowed for an operation. If the database estimates that an operation will run longer than the specified maximum execution time, the operation is terminated with an error. This error can be trapped and the operation rescheduled.
You can specify an undo pool for each consumer group. An undo pool controls the amount of total undo that can be generated by a consumer group. When the total undo generated by a consumer group exceeds its undo limit, the current DML statement generating the redo is terminated. No other members of the consumer group can perform further data manipulation until undo space is freed from the pool.
You must have the system privilege ADMINISTER_RESOURCE_MANAGER
to administer the Database Resource Manager. Typically, database administrators have this privilege with the ADMIN
option as part of the DBA (or equivalent) role.
Being an administrator for the Database Resource Manager lets you execute all of the procedures in the DBMS_RESOURCE_MANAGER
package. These are listed in the following table, and their use is explained in succeeding sections of this chapter.
Procedure | Description |
---|---|
CREATE_SIMPLE_PLAN |
Creates a simple resource plan, containing up to eight consumer groups, in one step. This is the quickest way to get started when you use this package. |
CREATE_PLAN |
Creates a resource plan and specifies its allocation methods. |
UPDATE_PLAN |
Updates a resource plan. |
DELETE_PLAN |
Deletes a resource plan and its directives. |
DELETE_PLAN_CASCADE |
Deletes a resource plan and all of its descendents. |
CREATE_CONSUMER_GROUP |
Creates a resource consumer group. |
UPDATE_CONSUMER_GROUP |
Updates a consumer group. |
DELETE_CONSUMER_GROUP |
Deletes a consumer group. |
CREATE_PLAN_DIRECTIVE |
Specifies the resource plan directives that allocate resources to resource consumer groups within a plan or among subplans in a multilevel plan schema. |
UPDATE_PLAN_DIRECTIVE |
Updates plan directives |
DELETE_PLAN_DIRECTIVE |
Deletes plan directives |
CREATE_PENDING_AREA |
Creates a pending area (scratch area) within which changes can be made to a plan schema |
VALIDATE_PENDING_AREA |
Validates the pending changes to a plan schema |
CLEAR_PENDING_AREA |
Clears all pending changes from the pending area |
SUBMIT_PENDING_AREA |
Submits all changes for a plan schema |
SET_INITIAL_CONSUMER_GROUP |
Sets the initial consumer group for a user. This procedure has been deprecated. The database recommends that you use the SET_CONSUMER_GROUP_MAPPING procedure to specify the initial consumer group. |
SWITCH_CONSUMER_GROUP_FOR_SESS |
Switches the consumer group of a specific session |
SWITCH_CONSUMER_GROUP_FOR_USER |
Switches the consumer group of all sessions belonging to a specific user |
SET_CONSUMER_GROUP_MAPPING |
Maps sessions to consumer groups |
SET_CONSUMER_MAPPING_PRI |
Establishes session attribute mapping priorities |
You may, as an administrator with the ADMIN
option, choose to grant the administrative privilege to other users or roles. This is possible using the DBMS_RESOURCE_MANAGER_PRIVS
package. This package contains the procedures listed in the table below.
Procedure | Description |
---|---|
GRANT_SYSTEM_PRIVILEGE |
Grants ADMINISTER_RESOURCE_MANAGER system privilege to a user or role. |
REVOKE_SYSTEM_PRIVILEGE |
Revokes ADMINISTER_RESOURCE_MANAGER system privilege from a user or role. |
GRANT_SWITCH_CONSUMER_GROUP |
Grants permission to a user, role, or PUBLIC to switch to a specified resource consumer group. |
REVOKE_SWITCH_CONSUMER_GROUP |
Revokes permission for a user, role, or PUBLIC to switch to a specified resource consumer group. |
The following example grants the administrative privilege to user scott
, but does not grant scott
the ADMIN
option. Therefore, scott
can execute all of the procedures in the DBMS_RESOURCE_MANAGER
package, but scott
cannot use the GRANT_SYSTEM_PRIVILEGE
procedure to grant the administrative privilege to others.
EXEC DBMS_RESOURCE_MANAGER_PRIVS.GRANT_SYSTEM_PRIVILEGE - (GRANTEE_NAME => 'scott', PRIVILEGE_NAME => 'ADMINISTER_RESOURCE_MANAGER', - ADMIN_OPTION => FALSE);
You can revoke this privilege using the REVOKE_SYSTEM_PRVILEGE
procedure.
The other procedures in the DBMS_RESOURCE_MANAGER_PRIVS
package are discussed in "Managing the Switch Privilege".
See Also: PL/SQL Packages and Types Reference. contains detailed information about the Database Resource Manager packages:
|
You can quickly create a simple resource plan that will be adequate for many situations using the CREATE_SIMPLE_PLAN
procedure. This procedure enables you to create consumer groups and allocate resources to them by executing a single statement. Using this procedure, you are not required to invoke the procedures that are described in succeeding sections for creating a pending area, creating each consumer group individually, and specifying resource plan directives.
You can specify the following parameters for the CREATE_SIMPLE_PLAN
procedure:
Parameter | Description |
---|---|
SIMPLE_PLAN |
Name of the plan |
CONSUMER_GROUP1 |
Consumer group name for first group |
GROUP1_CPU |
CPU resource allocated to this group |
CONSUMER_GROUP2 |
Consumer group name for second group |
GROUP2_CPU |
CPU resource allocated to this group |
CONSUMER_GROUP3 |
Consumer group name for third group |
GROUP3_CPU |
CPU resource allocated to this group |
CONSUMER_GROUP4 |
Consumer group name for fourth group |
GROUP4_CPU |
CPU resource allocated to this group |
CONSUMER_GROUP5 |
Consumer group name for fifth group |
GROUP5_CPU |
CPU resource allocated to this group |
CONSUMER_GROUP6 |
Consumer group name for sixth group |
GROUP6_CPU |
CPU resource allocated to this group |
CONSUMER_GROUP7 |
Consumer group name for seventh group |
GROUP7_CPU |
CPU resource allocated to this group |
CONSUMER_GROUP8 |
Consumer group name for eighth group |
GROUP8_CPU |
CPU resource allocated to this group |
Up to eight consumer groups can be specified using this procedure and the only plan directive that can be specified is for CPU. The plan uses the EMPHASIS
CPU allocation policy and each consumer group uses the ROUND_ROBIN
scheduling policy.Each consumer group specified in the plan is allocated its CPU percentage at level 2. Also included in the plan are SYS_GROUP
(a system-defined group that is the initial consumer group for the users SYS
and SYSTEM
) and OTHER_GROUPS
.
BEGIN DBMS_RESOURCE_MANAGER.CREATE_SIMPLE_PLAN(SIMPLE_PLAN => 'simple_plan1', CONSUMER_GROUP1 => 'mygroup1', GROUP1_CPU => 80, CONSUMER_GROUP2 => 'mygroup2', GROUP2_CPU => 20); END;
Executing the preceding statements creates the following plan:
Consumer Group | Level 1 | Level 2 | Level 3 |
---|---|---|---|
SYS_GROUP |
100% | - | - |
mygroup1 |
- | 80% | - |
mygroup2 |
- | 20% | - |
OTHER_GROUPS |
- | - | 100% |
This section describes the actions and DBMS_RESOURCE_MANAGER
procedures that you can use when your situation requires that you create more complex resource plans. It contains the following sections:
The first thing you must do to create or modify plan schemas is to create a pending area. This is a scratch area allowing you to stage your changes and to validate them before they are made active.
To create a pending area, you use the following statement:
EXEC DBMS_RESOURCE_MANAGER.CREATE_PENDING_AREA;
In effect, you are making the pending area active and "loading" all existing, or active, plan schemas into the pending area so that they can be updated or new plans added. Active plan schemas are those schemas already stored in the data dictionary for use by the Database Resource Manager. If you attempt to update a plan or add a new plan without first activating (creating) the pending area, you will receive an error message notifying you that the pending area is not active.
Views are available for inspecting all active resource plan schemas as well as the pending ones. These views are listed in Viewing Database Resource Manager Information.
At any time when you are making changes in the pending area you can call the validate procedure as shown here.
EXEC DBMS_RESOURCE_MANAGER.VALIDATE_PENDING_AREA;
This procedure checks whether changes that have been made are valid. The following rules must be adhered to, and are checked by the validate procedure:
No plan schema can contain any loops.
All plans and resource consumer groups referred to by plan directives must exist.
All plans must have plan directives that point to either plans or resource consumer groups.
All percentages in any given level must not add up to greater than 100.
A plan that is currently being used as a top plan by an active instance cannot be deleted.
The following plan directive parameters can appear only in plan directives that refer to resource consumer groups (not other resource plans):
PARALLEL_DEGREE_LIMIT_P1
ACTIVE_SESS_POOL_P1
QUEUEING_P1
SWITCH_GROUP
SWITCH_TIME
SWITCH_ESTIMATE
MAX_EST_EXEC_TIME
UNDO_POOL
MAX_IDLE_TIME
MAX_IDLE_BLOCKER_TIME
SWITCH_TIME_IN_CALL
There can be no more than 32 resource consumer groups in any active plan schema. Also, at most, a plan can have 32 children.
Plans and resource consumer groups cannot have the same name.
There must be a plan directive for OTHER_GROUPS
somewhere in any active plan schema. This ensures that a session which is not part of any of the consumer groups included in the currently active plan is allocated resources (as specified by the OTHER_GROUPS
directive).
You will receive an error message if any of the preceding rules are violated. You can then make changes to fix any problems and call the validate procedure again.
It is possible to create "orphan" consumer groups that have no plan directives referring to them. This allows the creation of consumer groups that will not currently be used, but may be part of some plan to be implemented in the future.
After you have validated your changes, call the submit procedure to make your changes active.
EXEC DBMS_RESOURCE_MANAGER.SUBMIT_PENDING_AREA;
The submit procedure also performs validation, so you do not necessarily need to make separate calls to the validate procedure. However, if you are making major changes to plan schemas, debugging problems is often easier if you incrementally validate your changes. No changes are submitted (made active) until validation is successful on all of the changes in the pending area.
The SUBMIT_PENDING_AREA
procedure clears (deactivates) the pending area after successfully validating and committing the changes.
Note: A call toSUBMIT_PENDING_AREA may fail even if VALIDATE_PENDING_AREA succeeds. This can happen if, for example, a plan being deleted is loaded by an instance after a call to VALIDATE_PENDING_AREA , but before a call to SUBMIT_PENDING_AREA . |
There is also a procedure for clearing the pending area at any time. This statement causes all of your changes to be cleared from the pending area:
EXEC DBMS_RESOURCE_MANAGER.CLEAR_PENDING_AREA;
You must call the CREATE_PENDING_AREA
procedure before you can again attempt to make changes.
When you create a resource plan, you can specify the parameters shown in the following table. The first parameter is required; the remainder are optional.
Oracle Database provides one resource plan, SYSTEM_PLAN
, that contains a simple structure that may be adequate for some environments. It is illustrated later in "An Oracle-Supplied Plan".
You create a plan using the CREATE_PLAN
procedure. The following creates a plan called great_bread
. You choose to use the default resource allocation methods.
EXEC DBMS_RESOURCE_MANAGER.CREATE_PLAN(PLAN => 'great_bread', - COMMENT => 'great plan');
Use the UPDATE_PLAN
procedure to update plan information. If you do not specify the arguments for the UPDATE_PLAN
procedure, they remain unchanged in the data dictionary. The following statement updates the COMMENT
parameter.
EXEC DBMS_RESOURCE_MANAGER.UPDATE_PLAN(PLAN => 'great_bread', - NEW_COMMENT => 'great plan for great bread');
The DELETE_PLAN
procedure deletes the specified plan as well as all the plan directives associated with it. The following statement deletes the great_bread
plan and its directives.
EXEC DBMS_RESOURCE_MANAGER.DELETE_PLAN(PLAN => 'great_bread');
The resource consumer groups themselves are not deleted, but they are no longer associated with the great_bread
plan.
The DELETE_PLAN_CASCADE
procedure deletes the specified plan as well as all its descendants (plan directives, subplans, resource consumer groups). If DELETE_PLAN_CASCADE
encounters an error, it will roll back, leaving the plan schema unchanged.
the RATIO
policy is a single-level CPU allocation method. Instead of percentages, you specify numbers corresponding to the ratio of CPU you want to give to the consumer group. For example, given three consumer groups GOLD_CG
, SILVER_CG
, and BRONZE_CG
, assume that we specify the following plan directives:
DBMS_RESOURCE_MANAGER.CREATE_PLAN (PLAN => 'service_level_plan', CPU_MTH -> 'RATIO', COMMENT => 'service level plan'); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE (PLAN => 'service_level_plan', GROUP_OR_SUBPLAN => 'GOLD_CG', COMMENT => 'Gold service level customers', CPU_P1 => 10);DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE (PLAN => 'service_level_plan', GROUP_OR_SUBPLAN => 'SILVER_CG', COMMENT => 'Silver service level customers', CPU_P1 => 5);DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE (PLAN => 'service_level_plan', GROUP_OR_SUBPLAN => 'BRONZE_CG', COMMENT => 'Bonze service level customers', CPU_P1 => 2);DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE (PLAN => 'service_level_plan', GROUP_OR_SUBPLAN => 'OTHER_GROUPS', COMMENT => 'Lowest priority sessions', CPU_P1 => 1);
The ratio of CPU allocation would be 10:5:2:1 for the GOLD_CG
, SILVER_CG
, BRONZE_CG
, and OTHER_GROUPS
consumer groups, respectively.
If sessions exists only in the GOLD_CG
and SILVER_CG
consumer groups, then the ratio of CPU allocation would be 10:5 between the two groups.
When you create a resource consumer group, you can specify the following parameters:
There are two special consumer groups that are always present in the data dictionary, and they cannot be modified or deleted. These are:
DEFAULT_CONSUMER_GROUP
This is the initial consumer group for all users/sessions that have not been explicitly assigned an initial consumer group. DEFAULT_CONSUMER_GROUP
has switch privileges granted to PUBLIC
; therefore, all users are automatically granted switch privilege for this consumer group (see "Managing the Switch Privilege").
This consumer group cannot be explicitly assigned to a user. OTHER_GROUPS
must have a resource directive specified in the schema of any active plan. This group applies collectively to all sessions that belong to a consumer group that is not part of the currently active plan schema, including DEFAULT_CONSUMER_GROUP
.
Additionally, two other groups, SYS_GROUP
and LOW_GROUP
, are provided as part of the Oracle-supplied SYSTEM_PLAN
that is described in "An Oracle-Supplied Plan".
You create a consumer group using the CREATE_CONSUMER_GROUP
procedure. The following creates a consumer group called sales
. Remember, the pending area must be active to execute this statement successfully.
EXEC DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP (CONSUMER_GROUP => 'sales', - COMMENT => 'retail and wholesale sales');
Use the UPDATE_CONSUMER_GROUP
procedure to update consumer group information. If you do not specify the arguments for the UPDATE_CONSUMER_GROUP
procedure, they remain unchanged in the data dictionary.
The DELETE_CONSUMER_GROUP
procedure deletes the specified consumer group. Upon deletion of a consumer group, all users having the deleted group as their initial consumer group will have the DEFAULT_CONSUMER_GROUP
set as their initial consumer group. All currently running sessions belonging to a deleted consumer group will be switched to DEFAULT_CONSUMER_GROUP
.
Resource plan directives assign consumer groups to resource plans and provide the parameters for each resource allocation method. When you create a resource plan directive, you can specify the following parameters
Parameter | Description |
---|---|
PLAN |
Name of the resource plan. |
GROUP_OR_SUBPLAN |
Name of the consumer group or subplan. |
COMMENT |
Any comment. |
CPU_P1 |
For EMPHASIS , specifies the CPU percentage at the first level. For RATIO , specifies the weight of CPU usage. Default is NULL for all CPU parameters. |
CPU_P2 |
For EMPHASIS , specifies CPU percentage at the second level. Not applicable for RATIO . |
CPU_P3 |
For EMPHASIS , specifies CPU percentage at the third level. Not applicable for RATIO . |
CPU_P4 |
For EMPHASIS , specifies CPU percentage at the fourth level. Not applicable for RATIO . |
CPU_P5 |
For EMPHASIS , specifies CPU percentage at the fifth level. Not applicable for RATIO . |
CPU_P6 |
For EMPHASIS , specifies CPU percentage at the sixth level. Not applicable for RATIO . |
CPU_P7 |
For EMPHASIS , specifies CPU percentage at the seventh level. Not applicable for RATIO . |
CPU_P8 |
For EMPHASIS , specifies CPU percentage at the eighth level. Not applicable for RATIO . |
ACTIVE_SESS_POOL_P1 |
Specifies maximum number of concurrently active sessions for a consumer group. Default is UNLIMITED . |
QUEUEING_P1 |
Specified time (in seconds) after which a job in an inactive session queue (waiting for execution) will time out. Default is UNLIMITED . |
PARALLEL_DEGREE_LIMIT_P1 |
Specifies a limit on the degree of parallelism for any operation. Default is UNLIMITED . |
SWITCH_GROUP |
Specifies consumer group to which this session is switched if other switch criteria are met. If the group name is 'CANCEL_SQL ', then the current call will be canceled when other switch criteria are met. If the group name is 'KILL_SESSION ', then the session will be killed when other switch criteria are met. Default is NULL . |
SWITCH_TIME |
Specifies time (in seconds) that a session can execute before an action is taken. Default in UNLIMITED . You cannot specify both SWITCH_TIME and SWITCH_TIME_IN_CALL . |
SWITCH_ESTIMATE |
If TRUE , tells the database to use its execution time estimate to automatically switch the consumer group of an operation prior to beginning its execution. Default is FALSE . |
MAX_EST_EXEC_TIME |
Specifies the maximum execution time (in seconds) allowed for a session. If the optimizer estimates that an operation will take longer than MAX_EST_EXEC_TIME , the operation is not started and ORA-07455 is issued. If the optimizer does not provide an estimate, this directive has no effect. Default is UNLIMITED . |
UNDO_POOL |
Sets a maximum in kilobytes (K) on the total amount of undo generated by a consumer group. Default is UNLIMITED . |
MAX_IDLE_TIME |
Indicates the maximum session idle time. Default is NULL , which implies unlimited. |
MAX_IDLE_BLOCKER_TIME |
Indicates the maximum session idle time of a blocking session. Default is NULL , which implies unlimited. |
SWITCH_TIME_IN_CALL |
Specifies the time (in seconds) that a session can execute before an action is taken. At the end of the call, the consumer group of the session is restored to its original consumer group. Default is UNLIMITED . You cannot specify both SWITCH_TIME_IN_CALL and SWITCH_TIME . |
You use the CREATE_PLAN_DIRECTIVE
to create a resource plan directive. The following statement creates a resource plan directive for plan great_bread
.
EXEC DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE (PLAN => 'great_bread', - GROUP_OR_SUBPLAN => 'sales', COMMENT => 'sales group', - CPU_P1 => 60, PARALLEL_DEGREE_LIMIT_P1 => 4);
To complete the plan, similar to that shown in Figure 24-1, execute the following statements:
BEGIN DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE (PLAN => 'great_bread', GROUP_OR_SUBPLAN => 'market', COMMENT => 'marketing group', CPU_P1 => 20); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE (PLAN => 'great_bread', GROUP_OR_SUBPLAN => 'develop', COMMENT => 'development group', CPU_P1 => 20); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE (PLAN => 'great_bread', GROUP_OR_SUBPLAN => 'OTHER_GROUPS', COMMENT => 'this one is required', CPU_P1 => 0, CPU_P2 => 100); END;
In this plan, consumer group sales
has a maximum degree of parallelism of 4 for any operation, while none of the other consumer groups are limited in their degree of parallelism. Also, whenever there are leftover level 1 CPU resources, they are allocated (100%) to OTHER_GROUPS
.
Use the UPDATE_PLAN_DIRECTIVE
procedure to update plan directives. This example changes CPU allocation for resource consumer group develop
.
EXEC DBMS_RESOURCE_MANAGER.UPDATE_PLAN_DIRECTIVE (PLAN => 'great_bread', - GROUP_OR_SUBPLAN => 'develop', NEW_CPU_P1 => 15);
If you do not specify the arguments for the UPDATE_PLAN_DIRECTIVE
procedure, they remain unchanged in the data dictionary.
To delete a resource plan directive, use the DELETE_PLAN_DIRECTIVE
procedure
If there are multiple resource plan directives that refer to the same consumer group, then the following rules apply for specific cases:
The parallel degree limit for the consumer group will be the minimum of all the incoming values.
The active session pool for the consumer group will be the sum of all the incoming values and the queue timeout will be the minimum of all incoming timeout values.
If there is more than one switch group and more than one switch time, the Database Resource Manager will choose the most restrictive of all incoming values. Specifically:
SWITCH_TIME =
min
(all incoming over_switch_time values)
SWITCH_ESTIMATE = TRUE
overrides SWITCH_ESTIMATE = FALSE
Notes:
|
If a session is switched to another consumer group because it exceeds its switch time, that session will execute even if the active session pool for the new consumer group is full.
The maximum estimated execution time will be the most restrictive of all incoming values. Specifically:
MAX_EST_EXEC_TIME = min
(all incoming MAX_EST_EXEC_TIME
values)
Before you enable the Database Resource Manager, you must assign resource consumer groups to users. This can be done manually, or you can provide mappings that enable the database to automatically assign user sessions to consumer groups depending upon session attributes.
In addition to providing procedures to create, update, or delete the elements used by the Database Resource Manager, the DBMS_RESOURCE_MANAGER
package contains procedures that effect the assigning of resource consumer groups to users. It also provides procedures that allow you to temporarily switch a user session to another consumer group.
The DBMS_RESOURCE_MANAGER_PRIVS
package, described earlier for granting the Database Resource Manager system privilege, can also be used to grant the switch privilege to another user, who can then alter their own consumer group.
Of the procedures discussed in this section, you use a pending area only for the SET_CONSUMER_GROUP_MAPPING
and SET_CONSUMER_MAPPING_PRI
procedures. These procedures are used for the automatic assigning of sessions to consumer groups.
This section contains the following topics:
The initial consumer group of a session is determined by mapping the attributes of the session to a consumer group. For more information on how to configure the mapping, see the section "Automatically Assigning Resource Consumer Groups to Sessions".
There are two procedures, which are part of the DBMS_RESOURCE_MANAGER
package, that allow administrators to change the resource consumer group of running sessions. Both of these procedures can also change the consumer group of any parallel execution server sessions associated with the coordinator session. The changes made by these procedures pertain to current sessions only; they are not persistent. They also do not change the initial consumer groups for users.
Instead of killing a session of a user who is using excessive CPU, an administrator can instead change that user's consumer group to one that is allowed less CPU. Or, this switching can be enforced automatically, using automatic consumer group switching resource plan directives.
The SWITCH_CONSUMMER_GROUP_FOR_SESS
causes the specified session to immediately be moved into the specified resource consumer group. In effect, this statement can raise or lower priority. The following statement changes the resource consumer group of a specific session to a new consumer group. The session identifier (SID
) is 17, the session serial number (SERIAL#
) is 12345, and the session is to be changed to the high_priority
consumer group.
EXEC DBMS_RESOURCE_MANAGER.SWITCH_CONSUMER_GROUP_FOR_SESS ('17', '12345', - 'high_priorty');
The SID
, session serial number, and current resource consumer group for a session are viewable using the V$SESSION
data dictionary view.
The SWITCH_CONSUMER_GROUP_FOR_USER
procedure changes the resource consumer group for all sessions with a given user name.
EXEC DBMS_RESOURCE_MANAGER.SWITCH_CONSUMER_GROUP_FOR_USER ('scott', - 'low_group');
If granted the switch privilege, users can switch their current consumer group using the SWITCH_CURRENT_CONSUMER_GROUP
procedure in the DBMS_SESSION
package.
This procedure enables users to switch to a consumer group for which they have the switch privilege. If the caller is another procedure, then this procedure enables users to switch to a consumer group for which the owner of that procedure has switch privileges.
The parameters for this procedure are:
Parameter | Description |
---|---|
NEW_CONSUMER_GROUP |
The consumer group to which the user is switching. |
OLD_CONSUMER_GROUP |
An output parameter. Stores the name of the consumer group from which the user switched. Can be used to switch back later. |
INITIAL_GROUP_ON_ERROR |
Controls behavior if a switching error occurs.
If If |
The following example illustrates switching to a new consumer group. By printing the value of the output parameter old_group
, we illustrate how the old consumer group name has been saved.
SET serveroutput on DECLARE old_group varchar2(30); BEGIN DBMS_SESSION.SWITCH_CURRENT_CONSUMER_GROUP('sales', old_group, FALSE); DBMS_OUTPUT.PUT_LINE('OLD GROUP = ' || old_group); END;
The following line is output:
OLD GROUP = DEFAULT_CONSUMER_GROUP
The DBMS_SESSION
package can be used from within a PL/SQL application, thus allowing the application to change consumer groups, or effectively priority, dynamically.
Note: The Database Resource Manager also works in environments where a generic database user name is used to log on to an application. TheDBMS_SESSION package can be called to switch the consumer group assignment of a session at session startup, or as particular modules are called. |
See Also: PL/SQL Packages and Types Reference for additional examples and more information about theDBMS_SESSION package |
Using the DBMS_RESOURCE_MANAGER_PRIVS
package, you can grant or revoke the switch privilege to a user, role, or PUBLIC
. The switch privilege gives users the privilege to switch their current resource consumer group to a specified resource consumer group. The package also enables you to revoke the switch privilege.
The actual switching is done by executing a procedure in the DBMS_SESSION
package. A user who has been granted the switch privilege (or a procedure owned by that user) can use the SWITCH_CURRENT_CONSUMER_GROUP
procedure to switch to another resource consumer group. The new group must be one to which the user has been specifically authorized to switch.
The following example grants the privilege to switch to a consumer group. User scott
is granted the privilege to switch to consumer group bug_batch_group
.
EXEC DBMS_RESOURCE_MANAGER_PRIVS.GRANT_SWITCH_CONSUMER_GROUP ('scott', - 'bug_batch_group', TRUE);
User scott
is also granted permission to grant switch privileges for bug_batch_group
to others.
If you grant a user permission to switch to a particular consumer group, then that user can switch their current consumer group to the new consumer group.
If you grant a role permission to switch to a particular resource consumer group, then any users who have been granted that role and have enabled that role can immediately switch their current consumer group to the new consumer group.
If you grant PUBLIC
the permission to switch to a particular consumer group, then any user can switch to that group.
If the GRANT_OPTION
argument is TRUE
, then users granted switch privilege for the consumer group can also grant switch privileges for that consumer group to others.
The following example revokes user scott
's privilege to switch to consumer group bug_batch_group
.
EXEC DBMS_RESOURCE_MANAGER_PRIVS.REVOKE_SWITCH_CONSUMER_GROUP ('scott', - 'bug_batch_group');
If you revoke a user's switch privileges to a particular consumer group, then any subsequent attempts by that user to switch to that consumer group will fail. If you revoke the initial consumer group from a user, then that user will automatically be part of the DEFAULT_CONSUMER_GROUP
when logging in.
If you revoke from a role the switch privileges to a consumer group, then any users who only had switch privilege for the consumer group through that role will not be able to subsequently switch to that consumer group.
If you revoke switch privileges to a consumer group from PUBLIC
, then any users other than those who are explicitly assigned switch privileges either directly or through PUBLIC
, will not be able to subsequently switch to that consumer group.
You can configure the Database Resource Manager to automatically assign consumer groups to sessions by providing mappings between session attributes and consumer groups. Further, you can prioritize the mappings so as to indicate which mapping has precedence in case of conflicts.
There are two types of session attributes: login attributes and runtime attributes. The login attributes are meaningful only at session login time, when the Database Resource Manager determines the initial consumer group of the session. In contrast, a session that has already logged in can later be reassigned to another consumer group based on its run-time attributes.
You use the SET_CONSUMER_GROUP_MAPPING
and SET_CONSUMER_MAPPING_PRI
procedures to configure the automatic assigning of sessions to consumer groups. You must use a pending area for these procedures.
The SET_CONSUMER_GROUP_MAPPING
procedure maps a session attribute to a consumer group. The parameters for this procedure are:
Parameter | Description |
---|---|
ATTRIBUTE |
The login or runtime session attribute type |
VALUE |
The value of the attribute being mapped |
CONSUMER_GROUP |
The consumer group to be mapped to. |
The attribute can be one of the following:
Attribute | Type | Description |
---|---|---|
ORACLE_USER |
Login | The standard Oracle Database user name |
SERVICE_NAME |
Login | The service name used by the client to establish a login |
CLIENT_OS_USER |
Login | The operating system user name of the client that is logging in |
CLIENT_PROGRAM |
Login | The name of the client program used to log into the server |
CLIENT_MACHINE |
Login | The name of the machine from which the client is making the connection |
MODULE_NAME |
Runtime | The module name in the application currently executing as set by the DBMS_APPLICATION_INFO.SET_MODULE_NAME procedure, or the equivalent OCI attribute setting |
MODULE_NAME_ACTION |
Runtime | The current module and action being performed by the user as set by either of the following procedures, or their equivalent OCI attribute setting:
The attribute is specified by the module name, followed by a period (.), followed by the action name. |
SERVICE_MODULE |
Runtime | A combination service and module names in this form: service_name.module_name |
SERVICE_MODULE_ACTION |
Runtime | A combination of service and module names and action name, in this form: service_name.module_name.action_name |
EXPLICIT |
n/a | An explicit mapping refers to the consumer group explicitly requested by the client, for example by invoking the SWITCH_CURRENT_CONSUMER_GROUP , SWITCH_CONSUMER_GROUP_FOR_SESS , or SWITCH_CONSUMER_GROUP_FOR_USER procedure. See "Explicit Session Switching" |
For each of the session attributes, you specify a mapping that consists of a set of pairs (attribute, consumer group) that determines how a session is matched to a consumer group. For example, the following statement causes user scott
to map to the dev_group
every time he logs in:
DBMS_RESOURCE_MANAGER.SET_CONSUMER_GROUP_MAPPING (DBMS_RESOURCE_MANAGER.ORACLE_USER, 'scott', 'dev group');
In order to decide between conflicting mappings, you can establish a priority ordering of the attributes from most important to least important. The priority of each attribute is set to a unique integer from 1 to 10 using the SET_CONSUMER_MAPPING_PRI
procedure. For example, the following statement illustrates this setting of priorities:
DBMS_RESOURCE_MANAGER.SET_MAPPING_PRIORITY( EXPLICIT => 1, CLIENT_MACHINE => 2, MODULE_NAME => 3, ORACLE_USER => 4, SERVICE_NAME => 5, CLIENT_OS_USER => 6, CLIENT_PROGRAM => 7, MODULE_NAME_ACTION => 8, SERVICE_MODULE=>9, SERVICE_MODULE_ACTION=>10);
To illustrate how mapping priorities work, assume that in addition to the mapping of scott
to the dev group
, there is also a module name mapping as follows:
EXEC DBMS_RESOURCE_MANAGER.SET_CONSUMER_GROUP_MAPPING - (DBMS_RESOURCE_MANAGER.MODULE_NAME, 'backup', 'low priority');
In this example, the priority of the database user name is set to 4 (less important), while the priority of the module name is set to 3 (more important). Now if the session sets its module name to backup
, presumably because it is going to perform a backup operation, then the session would be reassigned to the low priority
consumer group, because that mapping has a higher priority.
To prevent unauthorized clients from setting their session attributes so that they map to higher priority consumer groups, user switch privileges for consumer groups are enforced. This means that even though the attribute of a given session matches a mapping pair, the mapping is only considered valid if the session has the switching privilege for that particular consumer group. Sessions are automatically switched only to consumer groups for which they have been granted switch privileges.
A session can manually switch its own consumer group, given the privilege to do so, using the procedure DBMS_SESSION.SWITCH_CURRENT_CONSUMER_GROUP
. Although there is no mapping for the EXPLICIT
group setting, it is considered an attribute in the mapping priorities when deciding whether to use this EXPLICIT
setting or use the consumer group mapping. In other words, if the EXPLICIT
setting has the highest priority, then the session always switches consumer groups when it calls the SWITCH_CURRENT_CONSUMER_GROUP
procedure.
On the other hand, if the EXPLICIT
setting has the lowest priority, then the session only switches consumer groups if none of the other session attributes match in the mappings. Note that the Database Resource Manager considers a switch to have taken place even if the SWITCH_CURRENT_COSUMER_GROUP
procedure is called to switch the session to the consumer group that it is already in.
Each session can be switched automatically to another consumer group via the mappings at distinct points in time:
When the session first logs in, the mapping is evaluated to determine the initial group of the session.
If the current mapping attribute of a session is A, then if the attribute A is set to a new value (only possible for runtime attributes) then the mapping is reevaluated and the session is switched to the appropriate consumer group.
If a runtime session attribute is modified such that the current mapping becomes a different attribute B, then the session is switched.
Whenever the client ID is set to a different value, the mapping is reevaluated and the session is switched.
Two things to note about the preceding rules are:
If a runtime attribute for which a mapping is provided is set to the same value it already has, or if the client ID is set to the same value it already has, then no switching takes place.
A session can be switched to the same consumer group it is already in. The effect of switching in this case is to zero out session statistics that are typically zeroed out during a switch to a different group (for example, the ACTIVE_TIME_IN_GROUP
value of the session).
You enable the Database Resource Manager by setting the RESOURCE_MANAGER_PLAN
initialization parameter. This parameter specifies the top plan, identifying the plan schema to be used for this instance. If no plan is specified with this parameter, the Database Resource Manager is not activated. The following example activates the Database Resource Manager and assigns the top plan as mydb_plan
.
RESOURCE_MANAGER_PLAN = mydb_plan
You can also activate or deactivate the Database Resource Manager, or change the current top plan, using the ALTER SYSTEM
statement. In this example, the top plan is specified as mydb_plan
.
ALTER SYSTEM SET RESOURCE_MANAGER_PLAN = 'mydb_plan';
An error message is returned if the specified plan does not exist in the data dictionary.
To deactivate the Database Resource Manager, issue the following statement:
ALTER SYSTEM SET RESOURCE_MANAGER_PLAN = '';
When enabled, the DBMS Scheduler can automatically change the Resource Manager plan at Scheduler window boundaries. In some cases, this may be unacceptable. For example, if you have an important task to finish, and if you set the Resource Manager plan to give your task priority, then you expect that the plan will remain the same until you change it. However, because a Scheduler window could become activated after you have set your plan, the Resource Manager plan may change while your task is running.
To prevent this situation, you can set the RESOURCE_MANAGER_PLAN
parameter to the name of the plan you want for the system and prepend the name with "FORCE:
". Using the prefix FORCE
indicates that the current Resource Manager plan can be changed only when the database administrator changes the value of the RESOURCE_MANAGER_PLAN
parameter. This restriction can be lifted by reexecuting the command without prepending the plan name with "FORCE:
".
ALTER SYSTEM SET RESOURCE_MANAGER_PLAN = 'FORCE:mydb_plan';
This section provides some examples of resource plan schemas. The following examples are presented:
The following statements create a multilevel schema as illustrated in Figure 24-3. They use default plan and resource consumer group methods.
BEGIN DBMS_RESOURCE_MANAGER.CREATE_PENDING_AREA(); DBMS_RESOURCE_MANAGER.CREATE_PLAN(PLAN => 'bugdb_plan', COMMENT => 'Resource plan/method for bug users sessions'); DBMS_RESOURCE_MANAGER.CREATE_PLAN(PLAN => 'maildb_plan', COMMENT => 'Resource plan/method for mail users sessions'); DBMS_RESOURCE_MANAGER.CREATE_PLAN(PLAN => 'mydb_plan', COMMENT => 'Resource plan/method for bug and mail users sessions'); DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP(CONSUMER_GROUP => 'Bug_Online_group', COMMENT => 'Resource consumer group/method for online bug users sessions'); DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP(CONSUMER_GROUP => 'Bug_Batch_group', COMMENT => 'Resource consumer group/method for batch job bug users sessions'); DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP(CONSUMER_GROUP => 'Bug_Maintenance_group', COMMENT => 'Resource consumer group/method for users sessions for bug db maint'); DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP(CONSUMER_GROUP => 'Mail_users_group', COMMENT => 'Resource consumer group/method for mail users sessions'); DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP(CONSUMER_GROUP => 'Mail_Postman_group', COMMENT => 'Resource consumer group/method for mail postman'); DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP(CONSUMER_GROUP => 'Mail_Maintenance_group', COMMENT => 'Resource consumer group/method for users sessions for mail db maint'); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'bugdb_plan', GROUP_OR_SUBPLAN => 'Bug_Online_group', COMMENT => 'online bug users sessions at level 1', CPU_P1 => 80, CPU_P2=> 0, PARALLEL_DEGREE_LIMIT_P1 => 8); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'bugdb_plan', GROUP_OR_SUBPLAN => 'Bug_Batch_group', COMMENT => 'batch bug users sessions at level 1', CPU_P1 => 20, CPU_P2 => 0, PARALLEL_DEGREE_LIMIT_P1 => 2); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'bugdb_plan', GROUP_OR_SUBPLAN => 'Bug_Maintenance_group', COMMENT => 'bug maintenance users sessions at level 2', CPU_P1 => 0, CPU_P2 => 100, PARALLEL_DEGREE_LIMIT_P1 => 3); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'bugdb_plan', GROUP_OR_SUBPLAN => 'OTHER_GROUPS', COMMENT => 'all other users sessions at level 3', CPU_P1 => 0, CPU_P2 => 0, CPU_P3 => 100); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'maildb_plan', GROUP_OR_SUBPLAN => 'Mail_Postman_group', COMMENT => 'mail postman at level 1', CPU_P1 => 40, CPU_P2 => 0, PARALLEL_DEGREE_LIMIT_P1 => 4); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'maildb_plan', GROUP_OR_SUBPLAN => 'Mail_users_group', COMMENT => 'mail users sessions at level 2', CPU_P1 => 0, CPU_P2 => 80, PARALLEL_DEGREE_LIMIT_P1 => 4); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'maildb_plan', GROUP_OR_SUBPLAN => 'Mail_Maintenance_group', COMMENT => 'mail maintenance users sessions at level 2', CPU_P1 => 0, CPU_P2 => 20, PARALLEL_DEGREE_LIMIT_P1 => 2); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'maildb_plan', GROUP_OR_SUBPLAN => 'OTHER_GROUPS', COMMENT => 'all other users sessions at level 3', CPU_P1 => 0, CPU_P2 => 0, CPU_P3 => 100); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'mydb_plan', GROUP_OR_SUBPLAN => 'maildb_plan', COMMENT=> 'all mail users sessions at level 1', CPU_P1 => 30); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'mydb_plan', GROUP_OR_SUBPLAN => 'bugdb_plan', COMMENT => 'all bug users sessions at level 1', CPU_P1 => 70); DBMS_RESOURCE_MANAGER.VALIDATE_PENDING_AREA(); DBMS_RESOURCE_MANAGER.SUBMIT_PENDING_AREA(); END;
The preceding call to VALIDATE_PENDING_AREA
is optional because the validation is implicitly performed in SUBMIT_PENDING_AREA
.
The example presented here could represent a plan for a database supporting a packaged ERP (Enterprise Resource Planning) or CRM (Customer Relationship Management). The work in such an environment can be highly varied. There may be a mix of short transactions and quick queries, in combination with longer running batch jobs that include large parallel queries. The goal is to give good response time to OLTP (Online Transaction Processing), while allowing batch jobs to run in parallel.
The plan is summarized in the following table.
Group | CPU Resource Allocation % | Active Session Pool Parameters | Automatic Switching Parameters | Maximum Estimated Execution Time | Undo Pool |
---|---|---|---|---|---|
oltp |
Level 1: 80% | Switch to group: batch
Switch time: 3 Use estimate: |
-- | Size: 200K | |
batch |
Level 2: 100% | Pool size: 5
Timeout: 600 |
-- | Time: 3600 | -- |
OTHER_GROUPS |
Level 3: 100% | -- | -- | -- | -- |
The following statements create the preceding plan, which is named erp_plan
:
BEGIN DBMS_RESOURCE_MANAGER.CREATE_PENDING_AREA(); DBMS_RESOURCE_MANAGER.CREATE_PLAN(PLAN => 'erp_plan', COMMENT => 'Resource plan/method for ERP Database'); DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP(CONSUMER_GROUP => 'oltp', COMMENT => 'Resource consumer group/method for OLTP jobs'); DBMS_RESOURCE_MANAGER.CREATE_CONSUMER_GROUP(CONSUMER_GROUP => 'batch', COMMENT => 'Resource consumer group/method for BATCH jobs'); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'erp_plan', GROUP_OR_SUBPLAN => 'oltp', COMMENT => 'OLTP sessions', CPU_P1 => 80, SWITCH_GROUP => 'batch', SWITCH_TIME => 3,SWITCH_ESTIMATE => TRUE, UNDO_POOL => 200); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'erp_plan', GROUP_OR_SUBPLAN => 'batch', COMMENT => 'BATCH sessions', CPU_P2 => 100, ACTIVE_SESS_POOL_P1 => 5, QUEUEING_P1 => 600, MAX_EST_EXEC_TIME => 3600); DBMS_RESOURCE_MANAGER.CREATE_PLAN_DIRECTIVE(PLAN => 'erp_plan', GROUP_OR_SUBPLAN => 'OTHER_GROUPS', COMMENT => 'mandatory', CPU_P3 => 100); DBMS_RESOURCE_MANAGER.VALIDATE_PENDING_AREA(); DBMS_RESOURCE_MANAGER.SUBMIT_PENDING_AREA(); END;
Oracle Database provides one default resource manager plan, SYSTEM_PLAN
, which gives priority to system sessions. SYSTEM_PLAN
is defined as follows:
Resource Consumer Group | CPU Resource Allocation | ||
---|---|---|---|
Level 1 | Level 2 | Level 3 | |
SYS_GROUP |
100% | 0% | 0% |
OTHER_GROUPS |
0% | 100% | 0% |
LOW_GROUP |
0% | 0% | 100% |
The database-provided groups in this plan are:
SYS_GROUP
is the initial consumer group for the users SYS
and SYSTEM
.
OTHER_GROUPS
applies collectively to all sessions that belong to a consumer group that is not part of the currently active plan schema.
LOW_GROUP
provides a group having lower priority than SYS_GROUP
and OTHER_GROUPS
in this plan. It is up to you to decide which user sessions will be part of LOW_GROUP
. Switch privilege is granted to PUBLIC
for this group.
These groups can be used, or not used, and can be modified or deleted.
You can use this simple database-supplied plan if it is appropriate for your environment.
To effectively monitor and tune the Database Resource Manager, you must design a representative environment. The Database Resource Manager works best in large production environments in which system utilization is high. If a test places insufficient load on the system, measured CPU allocations can be very different from the allocations specified in the active resource plan. This is because the Database Resource Manager does not attempt to enforce CPU allocation percentage limits as long as consumer groups are getting the resources they need.
To create a representative environment, there must be sufficient load (demand for CPU resources) to make CPU resources scarce. If the following rules are followed, the test environment should generate actual (measured) resource allocations that match those specified in the active resource plan.
Create the minimum number of concurrently running processes required to generate sufficient load. This is the larger of:
Four processes for each consumer group
1.5 * (number of processors) for each consumer group. If the result is not an integer, round up.
Each and every process must be capable of consuming all of the CPU resources allocated to the consumer group in which it runs. Write resource intensive programs that continue to spin no matter what happens. This can be as simple as:
BEGIN DECLARE m NUMBER; BEGIN FOR i IN 1..100000 LOOP FOR j IN 1..100000 LOOP m := sqrt(4567); END LOOP; END LOOP; END; END; /
When every group can secure as much CPU resources as it demands, the Database Resource Manager first seeks to maximize system throughput, not to enforce allocation percentages. For example, consider the following conditions:
There is only one process available to run for each consumer group.
Each process runs continuously.
There are four CPUs.
In this case, the measured CPU allocation to each consumer group will be 25%, no matter what the allocations specified in the active resource plan.
Another factor determines the calculation in (1) in the preceding section. Processor affinity scheduling at the operating system level can distort CPU allocation on underutilized systems. This is explained in the following paragraphs.
Until the number of concurrently running processes reaches a certain level, typical operating system scheduling algorithms will prevent full utilization. The Database Resource Manager controls CPU usage by restricting the number of running processes. By deciding which processes are allowed to run and for what duration, the Database Resource Manager controls CPU resource allocation. When a CPU has resources available, and other processors are fully utilized, the operating system migrates processes to the underutilized processor, but not immediately.
With processor affinity, the operating system waits (for a time) to migrate processes, "hoping" that another process will be dispatched to run instead of forcing process migration from one CPU to another. On a fully loaded system with enough processes waiting, this strategy will work. In large production environments, processor affinity increases performance significantly, because invalidating the current CPU cache and then loading the new one is quite expensive. Since processes have processor affinity on most platforms, more processes than CPUs for each consumer group must be run. Otherwise, full system utilization is not possible.
Use the V$RSRC_CONSUMER_GROUP
view to monitor CPU usage. It provides the cumulative amount of CPU time consumed by all sessions in each consumer group. It also provides a number of other measures helpful for tuning.
SQL> SELECT NAME, CONSUMED_CPU_TIME FROM V$RSRC_CONSUMER_GROUP; NAME CONSUMED_CPU_TIME -------------------------------- ----------------- OTHER_GROUPS 14301 TEST_GROUP 8802 TEST_GROUP2 0 3 rows selected.
The Oracle Database server expects a static configuration and allocates internal resources, such as latches, from available resources detected at database startup. The database might not perform optimally and can become unstable if resource configuration changes very frequently.
If you do choose to use Operating-system resource control with Oracle Database, then it should be used judiciously, according to the following guidelines:
Operating-system resource control should not be used concurrently with the Database Resource Manager, because neither of them are aware of each other's existence. As a result, both the operating system and Database Resource Manager try to control resource allocation in a manner that causes unpredictable behavior and instability of Oracle Database.
If you want to control resource distribution within an instance, use the Database Resource Manager and turn off operating-system resource control.
If you have multiple instances on a node and you want to distribute resources among them, use operating-system resource control, not the Database Resource Manager.
Note: Oracle Database currently does not support the use of both tools simultaneously. Future releases might allow for their interaction on a limited scale. |
In an Oracle Database environment, the use of an operating-system resource manager, such as Hewlett Packard's Process Resource Manager (PRM) or Sun's Solaris Resource Manager (SRM), is supported only if all of the following conditions are met:
Each instance must be assigned to a dedicated operating-system resource manager group or managed entity.
The dedicated entity running all the instance's processes must run at one priority (or resource consumption) level.
Process priority management must not be enabled.
Caution: Management of individual database processes at different priority levels (for example, using thenice command on UNIX platforms) is not supported. Severe consequences, including instance crashes, can result. You can expect similar undesirable results if operating-system resource control is permitted to manage memory on which an Oracle Database instance is pinned. |
If you chose to use operating-system resource control, make sure you turn off the Database Resource Manager. By default, the Database Resource Manager is turned off. If it is not, you can turn it off by issuing the following statement:
ALTER SYSTEM SET RESOURCE_MANAGER_PLAN='';
Also remember to reset this parameter in your initialization parameter file, so that the Database Resource Manager is not activated the next time the database is started up.
Tools such as Sun's processor sets and dynamic system domains work well with an Oracle Database. There is no need to restart an instance if the number of CPUs changes.
The database dynamically detects any change in the number of available CPUs and reallocates internal resources. On most platforms, the database automatically adjusts the value of the CPU_COUNT
initialization parameter to the number of available CPUs.
The following table lists views that are associated with Database Resource Manager:
View | Description |
---|---|
DBA_RSRC_CONSUMER_GROUP_PRIVS
|
DBA view lists all resource consumer groups and the users and roles to which they have been granted. USER view lists all resource consumer groups granted to the user. |
DBA_RSRC_CONSUMER_GROUPS |
Lists all resource consumer groups that exist in the database. |
DBA_RSRC_MANAGER_SYSTEM_PRIVS
|
DBA view lists all users and roles that have been granted Database Resource Manager system privileges. USER view lists all the users that are granted system privileges for the DBMS_RESOURCE_MANAGER package. |
DBA_RSRC_PLAN_DIRECTIVES |
Lists all resource plan directives that exist in the database. |
DBA_RSRC_PLANS |
Lists all resource plans that exist in the database. |
DBA_RSRC_GROUP_MAPPINGS |
Lists all of the various mapping pairs for all of the session attributes |
DBA_RSRC_MAPPING_PRIORITY |
Lists the current mapping priority of each attribute |
DBA_USERS
|
DBA view contains information about all users of the database. Specifically, for the Database Resource Manager, it contains the initial resource consumer group for the user. USER view contains information about the current user, and specifically, for the Database Resource Manager, it contains the current user's initial resource consumer group. |
V$ACTIVE_SESS_POOL_MTH |
Displays all available active session pool resource allocation methods. |
V$PARALLEL_DEGREE_LIMIT_MTH |
Displays all available parallel degree limit resource allocation methods. |
V$QUEUEING |
Displays all available queuing resource allocation methods. |
V$RSRC_CONSUMER_GROUP |
Displays information about active resource consumer groups. This view can be used for tuning. |
V$RSRC_CONSUMER_GROUP_CPU_MTH |
Displays all available CPU resource allocation methods for resource consumer groups. |
V$RSRC_PLAN |
Displays the names of all currently active resource plans. |
V$RSRC_PLAN_CPU_MTH |
Displays all available CPU resource allocation methods for resource plans. |
V$SESSION |
Lists session information for each current session. Specifically, lists the name of the resource consumer group of each current session. |
You can use these views for viewing privileges, viewing plan schemas, or you can monitor them to gather information for tuning the Database Resource Manager. Some examples of their use follow.
See Also: Oracle Database Reference for detailed information about the contents of each of these views |
The DBA_RSRC_CONSUMER_GROUP_PRIVS
view displays the consumer groups granted to users or roles. Specifically, it displays the groups to which a user or role is allowed to belong or be switched. For example, in the view shown below, user scott
can belong to the consumer groups market
or sales
, he has the ability to assign (grant) other users to the sales
group but not the market
group. Neither group is his initial consumer group.
SQL> SELECT * FROM DBA_RSRC_CONSUMER_GROUP_PRIVS; GRANTEE GRANTED_GROUP GRA INI ------------------------------ ------------------------------ --- --- PUBLIC DEFAULT_CONSUMER_GROUP YES YES PUBLIC LOW_GROUP NO NO SCOTT MARKET NO NO SCOTT SALES YES NO SYSTEM SYS_GROUP NO YES
Scott was granted the ability to switch to these groups using the DBMS_RESOURCE_MANAGER_PRIVS
package.
This example shows using the DBA_RSRC_PLANS
view to display all of the resource plans defined in the database. All of the plans displayed are active, meaning they are not staged in the pending area
SQL> SELECT PLAN,COMMENTS,STATUS FROM DBA_RSRC_PLANS; PLAN COMMENTS STATUS ----------- ------------------------------------------------------- ------ SYSTEM_PLAN Plan to give system sessions priority ACTIVE BUGDB_PLAN Resource plan/method for bug users sessions ACTIVE MAILDB_PLAN Resource plan/method for mail users sessions ACTIVE MYDB_PLAN Resource plan/method for bug and mail users sessions ACTIVE GREAT_BREAD Great plan for great bread ACTIVE ERP_PLAN Resource plan/method for ERP Database ACTIVE 6 rows selected.
You can use the V$SESSION
view to display the consumer groups that are currently assigned to sessions.
SQL> SELECT SID,SERIAL#,USERNAME,RESOURCE_CONSUMER_GROUP FROM V$SESSION; SID SERIAL# USERNAME RESOURCE_CONSUMER_GROUP ----- ------- ------------------------ -------------------------------- . . . 11 136 SYS SYS_GROUP 13 16570 SCOTT SALES 10 rows selected.
This example sets mydb_plan
, as created by the statements shown earlier in "Multilevel Schema Example", as the top level plan. The V$RSRC_PLAN
view is queried to display the currently active plans.
SQL> ALTER SYSTEM SET RESOURCE_MANAGER_PLAN = mydb_plan; System altered. SQL> SELECT NAME, IS_TOP_PLAN FROM V$RSRC_PLAN; NAME IS_TO ------------------------------------- MYDB_PLAN TRUE MAILDB_PLAN FALSE BUGDB_PLAN FALSE