mysql schema is the system schema. It
contains tables that store information required by the MySQL
server as it runs. A broad categorization is that the
mysql schema contains data dictionary tables
that store database object metadata, and system tables used for
other operational purposes. The following discussion further
subdivides the set of system tables into smaller categories.
The remainder of this section enumerates the tables in each
category, with cross references for additional information. Data
dictionary tables and system tables use the
InnoDB storage engine unless otherwise
mysql system tables and data dictionary tables
reside in a single
InnoDB tablespace file named
mysql.ibd in the MySQL data directory.
Previously, these tables were created in individual tablespace
files in the
mysql database directory.
Data-at-rest encryption can be enabled for the
mysql system schema tablespace. For more
information, see Section 15.13, “InnoDB Data-at-Rest Encryption”.
These tables comprise the data dictionary, which contains metadata about database objects. For additional information, see Chapter 14, MySQL Data Dictionary.
catalogs: Catalog information.
character_sets: Information about available character sets.
check_constraints: Information about
CHECKconstraints defined on tables. See Section 18.104.22.168, “CHECK Constraints”.
collations: Information about collations for each character set.
column_statistics: Histogram statistics for column values. See Section 8.9.6, “Optimizer Statistics”.
column_type_elements: Information about types used by columns.
columns: Information about columns in tables.
dd_properties: A table that identifies data dictionary properties, such as its version. The server uses this to determine whether the data dictionary must be upgraded to a newer version.
events: Information about Event Scheduler events. See Section 25.4, “Using the Event Scheduler”. If the server is started with the
--skip-grant-tablesoption, the event scheduler is disabled and events registered in the table do not run. See Section 25.4.2, “Event Scheduler Configuration”.
foreign_key_column_usage: Information about foreign keys.
index_column_usage: Information about columns used by indexes.
index_partitions: Information about partitions used by indexes.
index_stats: Used to store dynamic index statistics generated when
ANALYZE TABLEis executed.
indexes: Information about table indexes.
innodb_ddl_log: Stores DDL logs for crash-safe DDL operations.
parameter_type_elements: Information about stored procedure and function parameters, and about return values for stored functions.
parameters: Information about stored procedures and functions. See Section 25.2, “Using Stored Routines”.
resource_groups: Information about resource groups. See Section 5.1.16, “Resource Groups”.
routines: Information about stored procedures and functions. See Section 25.2, “Using Stored Routines”.
schemata: Information about schemata. In MySQL, a schema is a database, so this table provides information about databases.
st_spatial_reference_systems: Information about available spatial reference systems for spatial data.
table_partition_values: Information about values used by table partitions.
table_partitions: Information about partitions used by tables.
table_stats: Information about dynamic table statistics generated when
ANALYZE TABLEis executed.
tables: Information about tables in databases.
tablespace_files: Information about files used by tablespaces.
tablespaces: Information about active tablespaces.
triggers: Information about triggers.
view_routine_usage: Information about dependencies between views and stored functions used by them.
view_table_usage: Used to track dependencies between views and their underlying tables.
Data dictionary tables are invisible. They cannot be read with
SELECT, do not appear in the
SHOW TABLES, are not
listed in the
table, and so forth. However, in most cases there are
INFORMATION_SCHEMA tables that
can be queried. Conceptually, the
INFORMATION_SCHEMA provides a view through
which MySQL exposes data dictionary metadata. For example, you
cannot select from the
mysql> SELECT * FROM mysql.schemata; ERROR 3554 (HY000): Access to data dictionary table 'mysql.schemata' is rejected.
Instead, select that information from the corresponding
mysql> SELECT * FROM INFORMATION_SCHEMA.SCHEMATA\G *************************** 1. row *************************** CATALOG_NAME: def SCHEMA_NAME: mysql DEFAULT_CHARACTER_SET_NAME: utf8mb4 DEFAULT_COLLATION_NAME: utf8mb4_0900_ai_ci SQL_PATH: NULL DEFAULT_ENCRYPTION: NO *************************** 2. row *************************** CATALOG_NAME: def SCHEMA_NAME: information_schema DEFAULT_CHARACTER_SET_NAME: utf8mb3 DEFAULT_COLLATION_NAME: utf8mb3_general_ci SQL_PATH: NULL DEFAULT_ENCRYPTION: NO *************************** 3. row *************************** CATALOG_NAME: def SCHEMA_NAME: performance_schema DEFAULT_CHARACTER_SET_NAME: utf8mb4 DEFAULT_COLLATION_NAME: utf8mb4_0900_ai_ci SQL_PATH: NULL DEFAULT_ENCRYPTION: NO ...
There is no Information Schema table that corresponds exactly to
contains much of the same information.
As of yet, there are no
tables that correspond exactly to
mysql.foreign_key_column_usage. The standard
SQL way to obtain foreign key information is by using the
KEY_COLUMN_USAGE tables; these
tables are now implemented as views on the
foreign_key_column_usage, and other data
These system tables contain grant information about user accounts and the privileges held by them. For additional information about the structure, contents, and purpose of the these tables, see Section 6.2.3, “Grant Tables”.
The MySQL 8.2 grant tables are
InnoDB (transactional) tables.
Account-management statements are transactional and either
succeed for all named users or roll back and have no effect if
any error occurs.
user: User accounts, global privileges, and other nonprivilege columns.
global_grants: Assignments of dynamic global privileges to users; see Static Versus Dynamic Privileges.
db: Database-level privileges.
tables_priv: Table-level privileges.
columns_priv: Column-level privileges.
procs_priv: Stored procedure and function privileges.
proxies_priv: Proxy-user privileges.
default_roles: This table lists default roles to be activated after a user connects and authenticates, or executes
SET ROLE DEFAULT.
role_edges: This table lists edges for role subgraphs.
usertable row might refer to a user account or a role. The server can distinguish whether a row represents a user account, a role, or both by consulting the
role_edgestable for information about relations between authentication IDs.
password_history: Information about password changes.
These system tables contain information about components, loadable functions, and server-side plugins:
component: The registry for server components installed using
INSTALL COMPONENT. Any components listed in this table are installed by a loader service during the server startup sequence. See Section 5.5.1, “Installing and Uninstalling Components”.
func: The registry for loadable functions installed using
CREATE FUNCTION. During the normal startup sequence, the server loads functions registered in this table. If the server is started with the
--skip-grant-tablesoption, functions registered in the table are not loaded and are unavailable. See Section 5.7.1, “Installing and Uninstalling Loadable Functions”.Note
mysql.funcsystem table, the Performance Schema
user_defined_functionstable lists loadable functions installed using
CREATE FUNCTION. Unlike the
user_defined_functionstable also lists functions installed automatically by server components or plugins. This difference makes
mysql.funcfor checking which functions are installed. See Section 22.214.171.124, “The user_defined_functions Table”.
plugin: The registry for server-side plugins installed using
INSTALL PLUGIN. During the normal startup sequence, the server loads plugins registered in this table. If the server is started with the
--skip-grant-tablesoption, plugins registered in the table are not loaded and are unavailable. See Section 5.6.1, “Installing and Uninstalling Plugins”.
The server uses these system tables for logging:
Log tables use the
CSV storage engine.
For more information, see Section 5.4, “MySQL Server Logs”.
These system tables contain server-side help information:
For more information, see Section 5.1.17, “Server-Side Help Support”.
These system tables contain time zone information:
For more information, see Section 5.1.15, “MySQL Server Time Zone Support”.
The server uses these system tables to support replication:
gtid_executed: Table for storing GTID values. See mysql.gtid_executed Table.
ndb_binlog_index: Binary log information for NDB Cluster replication. This table is created only if the server is built with
NDBCLUSTERsupport. See Section 23.7.4, “NDB Cluster Replication Schema and Tables”.
slave_worker_info: Used to store replication information on replica servers. See Section 17.2.4, “Relay Log and Replication Metadata Repositories”.
All of the tables just listed use the
InnoDB storage engine.
These system tables are for use by the optimizer:
innodb_table_stats: Used for
InnoDBpersistent optimizer statistics. See Section 126.96.36.199, “Configuring Persistent Optimizer Statistics Parameters”.
engine_cost: The optimizer cost model uses tables that contain cost estimate information about operations that occur during query execution.
server_costcontains optimizer cost estimates for general server operations.
engine_costcontains estimates for operations specific to particular storage engines. See Section 8.9.5, “The Optimizer Cost Model”.
Other system tables do not fit the preceding categories:
audit_log_user: If MySQL Enterprise Audit is installed, these tables provide persistent storage of audit log filter definitions and user accounts. See Audit Log Tables.
firewall_whitelist: If MySQL Enterprise Firewall is installed, these tables provide persistent storage for information used by the firewall. See Section 6.4.7, “MySQL Enterprise Firewall”.
servers: Used by the
FEDERATEDstorage engine. See Section 188.8.131.52, “Creating a FEDERATED Table Using CREATE SERVER”.
innodb_dynamic_metadata: Used by the
InnoDBstorage engine to store fast-changing table metadata such as auto-increment counter values and index tree corruption flags. Replaces the data dictionary buffer table that resided in the