Use Resource Control to Achieve Resource Isolation
As a cluster administrator, you can use the resource control feature to create resource groups, set read and write quotas for resource groups, and bind users to those groups.
The TiDB resource control feature provides two layers of resource management capabilities: the flow control capability at the TiDB layer and the priority scheduling capability at the TiKV layer. The two capabilities can be enabled separately or simultaneously. See the Parameters for resource control for details. This allows the TiDB layer to control the flow of user read and write requests based on the quotas set for the resource groups, and allows the TiKV layer to schedule the requests based on the priority mapped to the read and write quota. By doing this, you can ensure resource isolation for your applications and meet quality of service (QoS) requirements.
TiDB flow control: TiDB flow control uses the token bucket algorithm. If there are not enough tokens in a bucket, and the resource group does not specify the
BURSTABLE
option, the requests to the resource group will wait for the token bucket to backfill the tokens and retry. The retry might fail due to timeout.TiKV scheduling: You can set the absolute priority (
PRIORITY
) as needed. Different resources are scheduled according to thePRIORITY
setting. Tasks with highPRIORITY
are scheduled first. If you do not set the absolute priority, TiKV uses the value ofRU_PER_SEC
of each resource group to determine the priority of the read and write requests for each resource group. Based on the priorities, the storage layer uses the priority queue to schedule and process requests.
Scenarios for resource control
The introduction of the resource control feature is a milestone for TiDB. It can divide a distributed database cluster into multiple logical units. Even if an individual unit overuses resources, it does not crowd out the resources needed by other units.
With this feature, you can:
- Combine multiple small and medium-sized applications from different systems into a single TiDB cluster. When the workload of an application grows larger, it does not affect the normal operation of other applications. When the system workload is low, busy applications can still be allocated the required system resources even if they exceed the set read and write quotas, so as to achieve the maximum utilization of resources.
- Choose to combine all test environments into a single TiDB cluster, or group the batch tasks that consume more resources into a single resource group. It can improve hardware utilization and reduce operating costs while ensuring that critical applications can always get the necessary resources.
In addition, the rational use of the resource control feature can reduce the number of clusters, ease the difficulty of operation and maintenance, and save management costs.
Limitations
Currently, the resource control feature has the following limitations:
- This feature only supports flow control and scheduling of read and write requests initiated by foreground clients. It does not support flow control and scheduling of background tasks such as DDL operations and auto analyze.
- Resource control incurs additional scheduling overhead. Therefore, there might be a slight performance degradation when this feature is enabled.
What is Request Unit (RU)
Request Unit (RU) is a unified abstraction unit in TiDB for system resources, which currently includes CPU, IOPS, and IO bandwidth metrics. It is used to indicate the amount of resources consumed by a single request to the database. The number of RUs consumed by a request depends on a variety of factors, such as the type of operations, and the amount of data being queried or modified. Currently, the RU contains consumption statistics for the resources in the following table:
Resource type | RU consumption |
---|---|
Read | 2 storage read batches consume 1 RU |
8 storage read requests consume 1 RU | |
64 KiB read request payload consumes 1 RU | |
Write | 1 storage write batch consumes 1 RU for each replica |
1 storage write request consumes 1 RU | |
1 KiB write request payload consumes 1 RU | |
SQL CPU | 3 ms consumes 1 RU |
Estimate RU consumption of SQL statements
You can use the EXPLAIN ANALYZE
statement to get the amount of RUs consumed during SQL execution. Note that the amount of RUs is affected by the cache (for example, coprocessor cache). When the same SQL is executed multiple times, the amount of RUs consumed by each execution might be different. The RU value does not represent the exact value for each execution, but can be used as a reference for estimation.
Parameters for resource control
The resource control feature introduces two new global variables.
- TiDB: you can use the
tidb_enable_resource_control
system variable to control whether to enable flow control for resource groups.
- TiKV: you can use the
resource-control.enabled
parameter to control whether to use request scheduling based on resource groups.
The results of the combinations of these two parameters are shown in the following table.
resource-control.enabled | tidb_enable_resource_control = ON | tidb_enable_resource_control = OFF |
---|---|---|
resource-control.enabled = true | Flow control and scheduling (recommended) | Invalid combination |
resource-control.enabled = false | Only flow control (not recommended) | The feature is disabled. |
For more information about the resource control mechanism and parameters, see RFC: Global Resource Control in TiDB.
How to use resource control
Manage resource groups
To create, modify, or delete a resource group, you need to have the SUPER
or RESOURCE_GROUP_ADMIN
privilege.
You can create a resource group for a cluster by using CREATE RESOURCE GROUP
.
For an existing resource group, you can modify the RU_PER_SEC
option (the rate of RU backfilling per second) of the resource group by using ALTER RESOURCE GROUP
. The changes to the resource group take effect immediately.
You can delete a resource group by using DROP RESOURCE GROUP
.
Create a resource group
The following is an example of how to create a resource group.
Create a resource group
rg1
. The RU backfill rate is 500 RUs per second and allows applications in this resource group to overrun resources.CREATE RESOURCE GROUP IF NOT EXISTS rg1 RU_PER_SEC = 500 BURSTABLE;Create a resource group
rg2
. The RU backfill rate is 600 RUs per second and does not allow applications in this resource group to overrun resources.CREATE RESOURCE GROUP IF NOT EXISTS rg2 RU_PER_SEC = 600;Create a resource group
rg3
with the absolute priority set toHIGH
. The absolute priority currently supportsLOW|MEDIUM|HIGH
. The default value isMEDIUM
.CREATE RESOURCE GROUP IF NOT EXISTS rg3 RU_PER_SEC = 100 PRIORITY = HIGH;
Bind resource groups
TiDB supports three levels of resource group settings as follows.
- User level. Bind a user to a specific resource group via the
CREATE USER
orALTER USER
statement. After a user is bound to a resource group, sessions created by the user are automatically bound to the corresponding resource group. - Session level. Set the resource group for the current session via
SET RESOURCE GROUP
. - Statement level. Set the resource group for the current statement via
RESOURCE_GROUP()
Optimizer Hint.
Bind users to a resource group
The following example creates a user usr1
and binds the user to the resource group rg1
. rg1
is the resource group created in the example in Create Resource Group.
CREATE USER 'usr1'@'%' IDENTIFIED BY '123' RESOURCE GROUP rg1;
The following example uses ALTER USER
to bind the user usr2
to the resource group rg2
. rg2
is the resource group created in the example in Create Resource Group.
ALTER USER usr2 RESOURCE GROUP rg2;
After you bind users, the resource consumption of newly created sessions will be controlled by the specified quota (Request Unit, RU). If the system workload is relatively high and there is no spare capacity, the resource consumption rate of usr2
will be strictly controlled not to exceed the quota. Because usr1
is bound by rg1
with BURSTABLE
configured, the consumption rate of usr1
is allowed to exceed the quota.
If there are too many requests that result in insufficient resources for the resource group, the client's requests will wait. If the wait time is too long, the requests will report an error.
Bind the current session to a resource group
By binding a session to a resource group, the resource usage of the corresponding session is limited by the specified usage (RU).
The following example binds the current session to the resource group rg1
.
SET RESOURCE GROUP rg1;
Bind the current statement to a resource group
By adding the RESOURCE_GROUP(resource_group_name)
hint to a SQL statement, you can specify the resource group to which the statement is bound. This hint supports SELECT
, INSERT
, UPDATE
, and DELETE
statements.
The following example binds the current statement to the resource group rg1
.
SELECT /*+ RESOURCE_GROUP(rg1) */ * FROM t limit 10;
Disable resource control
Execute the following statement to disable the resource control feature.
SET GLOBAL tidb_enable_resource_control = 'OFF';Set the TiKV parameter
resource-control.enabled
tofalse
to disable scheduling based on the RU of the resource group.
Monitoring metrics and charts
TiDB regularly collects runtime information about resource control and provides visual charts of the metrics in Grafana's TiDB > Resource Control dashboard. The metrics are detailed in the Resource Control section of TiDB Important Monitoring Metrics.
TiKV also records the request QPS from different resource groups. For more details, see TiKV Monitoring Metrics Detail.
Tool compatibility
The resource control feature is still in its experimental stage. It does not impact the regular usage of data import, export, and other replication tools. BR, TiDB Lightning, and TiCDC do not currently support processing DDL operations related to resource control, and their resource consumption is not limited by resource control.