The mysql
system database includes several
grant tables that contain information about user accounts and the
privileges held by them. This section describes those tables. For
information about other tables in the system database, see
Section 7.3, “The mysql System Schema”.
The discussion here describes the underlying structure of the
grant tables and how the server uses their contents when
interacting with clients. However, normally you do not modify the
grant tables directly. Modifications occur indirectly when you use
account-management statements such as CREATE
USER
, GRANT
, and
REVOKE
to set up accounts and
control the privileges available to each one. See
Section 15.7.1, “Account Management Statements”. When you use such
statements to perform account manipulations, the server modifies
the grant tables on your behalf.
Direct modification of grant tables using statements such as
INSERT
,
UPDATE
, or
DELETE
is discouraged and done at
your own risk. The server is free to ignore rows that become
malformed as a result of such modifications.
For any operation that modifies a grant table, the server checks whether the table has the expected structure and produces an error if not. To update the tables to the expected structure, perform the MySQL upgrade procedure. See Chapter 3, Upgrading MySQL.
These mysql
database tables contain grant
information:
user
: User accounts, static global privileges, and other nonprivilege columns.global_grants
: Dynamic global 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
: Default user roles.role_edges
: Edges for role subgraphs.password_history
: Password change history.
For information about the differences between static and dynamic global privileges, see Static Versus Dynamic Privileges.)
Grant tables use the InnoDB
storage engine
and are transactional. Each statement either succeeds for all
named users or rolls back and has no effect if any error occurs.
Each grant table contains scope columns and privilege columns:
Scope columns determine the scope of each row in the tables; that is, the context in which the row applies. For example, a
user
table row withHost
andUser
values of'h1.example.net'
and'bob'
applies to authenticating connections made to the server from the hosth1.example.net
by a client that specifies a user name ofbob
. Similarly, adb
table row withHost
,User
, andDb
column values of'h1.example.net'
,'bob'
and'reports'
applies whenbob
connects from the hosth1.example.net
to access thereports
database. Thetables_priv
andcolumns_priv
tables contain scope columns indicating tables or table/column combinations to which each row applies. Theprocs_priv
scope columns indicate the stored routine to which each row applies.Privilege columns indicate which privileges a table row grants; that is, which operations it permits to be performed. The server combines the information in the various grant tables to form a complete description of a user's privileges. Section 8.2.7, “Access Control, Stage 2: Request Verification”, describes the rules for this.
In addition, a grant table may contain columns used for purposes other than scope or privilege assessment.
The server uses the grant tables in the following manner:
The
user
table scope columns determine whether to reject or permit incoming connections. For permitted connections, any privileges granted in theuser
table indicate the user's static global privileges. Any privileges granted in this table apply to all databases on the server.CautionBecause any static global privilege is considered a privilege for all databases, any static global privilege enables a user to see all database names with
SHOW DATABASES
or by examining theSCHEMATA
table ofINFORMATION_SCHEMA
, except databases that have been restricted at the database level by partial revokes.The
global_grants
table lists current assignments of dynamic global privileges to user accounts. For each row, the scope columns determine which user has the privilege named in the privilege column.The
db
table scope columns determine which users can access which databases from which hosts. The privilege columns determine the permitted operations. A privilege granted at the database level applies to the database and to all objects in the database, such as tables and stored programs.The
tables_priv
andcolumns_priv
tables are similar to thedb
table, but are more fine-grained: They apply at the table and column levels rather than at the database level. A privilege granted at the table level applies to the table and to all its columns. A privilege granted at the column level applies only to a specific column.The
procs_priv
table applies to stored routines (stored procedures and functions). A privilege granted at the routine level applies only to a single procedure or function.The
proxies_priv
table indicates which users can act as proxies for other users and whether a user can grant thePROXY
privilege to other users.The
default_roles
androle_edges
tables contain information about role relationships.The
password_history
table retains previously chosen passwords to enable restrictions on password reuse. See Section 8.2.15, “Password Management”.
The server reads the contents of the grant tables into memory
when it starts. You can tell it to reload the tables by issuing
a FLUSH PRIVILEGES
statement or
executing a mysqladmin flush-privileges or
mysqladmin reload command. Changes to the
grant tables take effect as indicated in
Section 8.2.13, “When Privilege Changes Take Effect”.
When you modify an account, it is a good idea to verify that
your changes have the intended effect. To check the privileges
for a given account, use the SHOW
GRANTS
statement. For example, to determine the
privileges that are granted to an account with user name and
host name values of bob
and
pc84.example.com
, use this statement:
SHOW GRANTS FOR 'bob'@'pc84.example.com';
To display nonprivilege properties of an account, use
SHOW CREATE USER
:
SHOW CREATE USER 'bob'@'pc84.example.com';
The server uses the user
and
db
tables in the mysql
database at both the first and second stages of access control
(see Section 8.2, “Access Control and Account Management”). The columns in the
user
and db
tables are
shown here.
Table 8.4 user and db Table Columns
Table Name | user |
db |
---|---|---|
Scope columns | Host |
Host |
User |
Db |
|
User |
||
Privilege columns | Select_priv |
Select_priv |
Insert_priv |
Insert_priv |
|
Update_priv |
Update_priv |
|
Delete_priv |
Delete_priv |
|
Index_priv |
Index_priv |
|
Alter_priv |
Alter_priv |
|
Create_priv |
Create_priv |
|
Drop_priv |
Drop_priv |
|
Grant_priv |
Grant_priv |
|
Create_view_priv |
Create_view_priv |
|
Show_view_priv |
Show_view_priv |
|
Create_routine_priv |
Create_routine_priv |
|
Alter_routine_priv |
Alter_routine_priv |
|
Execute_priv |
Execute_priv |
|
Trigger_priv |
Trigger_priv |
|
Event_priv |
Event_priv |
|
Create_tmp_table_priv |
Create_tmp_table_priv |
|
Lock_tables_priv |
Lock_tables_priv |
|
References_priv |
References_priv |
|
Reload_priv |
||
Shutdown_priv |
||
Process_priv |
||
File_priv |
||
Show_db_priv |
||
Super_priv |
||
Repl_slave_priv |
||
Repl_client_priv |
||
Create_user_priv |
||
Create_tablespace_priv |
||
Create_role_priv |
||
Drop_role_priv |
||
Security columns | ssl_type |
|
ssl_cipher |
||
x509_issuer |
||
x509_subject |
||
plugin |
||
authentication_string |
||
password_expired |
||
password_last_changed |
||
password_lifetime |
||
account_locked |
||
Password_reuse_history |
||
Password_reuse_time |
||
Password_require_current |
||
User_attributes |
||
Resource control columns | max_questions |
|
max_updates |
||
max_connections |
||
max_user_connections |
The user
table plugin
and
authentication_string
columns store
authentication plugin and credential information.
The server uses the plugin named in the
plugin
column of an account row to
authenticate connection attempts for the account.
The plugin
column must be nonempty. At
startup, and at runtime when FLUSH
PRIVILEGES
is executed, the server checks
user
table rows. For any row with an empty
plugin
column, the server writes a warning to
the error log of this form:
[Warning] User entry 'user_name'@'host_name' has an empty plugin
value. The user will be ignored and no one can login with this user
anymore.
To assign a plugin to an account that is missing one, use the
ALTER USER
statement.
The password_expired
column permits DBAs to
expire account passwords and require users to reset their
password. The default password_expired
value
is 'N'
, but can be set to
'Y'
with the ALTER
USER
statement. After an account's password has been
expired, all operations performed by the account in subsequent
connections to the server result in an error until the user
issues an ALTER USER
statement to
establish a new account password.
Although it is possible to “reset” an expired password by setting it to its current value, it is preferable, as a matter of good policy, to choose a different password. DBAs can enforce non-reuse by establishing an appropriate password-reuse policy. See Password Reuse Policy.
password_last_changed
is a
TIMESTAMP
column indicating when the password
was last changed. The value is non-NULL
only
for accounts that use a MySQL built-in authentication plugin
(sha256_password
or
caching_sha2_password
). The value is
NULL
for other accounts, such as those
authenticated using an external authentication system.
password_last_changed
is updated by the
CREATE USER
,
ALTER USER
, and
SET PASSWORD
statements, and by
GRANT
statements that create an
account or change an account password.
password_lifetime
indicates the account
password lifetime, in days. If the password is past its lifetime
(assessed using the password_last_changed
column), the server considers the password expired when clients
connect using the account. A value of
N
greater than zero means that the
password must be changed every N
days. A value of 0 disables automatic password expiration. If
the value is NULL
(the default), the global
expiration policy applies, as defined by the
default_password_lifetime
system variable.
account_locked
indicates whether the account
is locked (see Section 8.2.20, “Account Locking”).
Password_reuse_history
is the value of the
PASSWORD HISTORY
option for the account, or
NULL
for the default history.
Password_reuse_time
is the value of the
PASSWORD REUSE INTERVAL
option for the
account, or NULL
for the default interval.
Password_require_current
corresponds to the
value of the PASSWORD REQUIRE
option for the
account, as shown by the following table.
Table 8.5 Permitted Password_require_current Values
Password_require_current Value | Corresponding PASSWORD REQUIRE Option |
---|---|
'Y' |
PASSWORD REQUIRE CURRENT |
'N' |
PASSWORD REQUIRE CURRENT OPTIONAL |
NULL |
PASSWORD REQUIRE CURRENT DEFAULT |
User_attributes
is a JSON-format column that
stores account attributes not stored in other columns. The
INFORMATION_SCHEMA
exposes these attributes
through the USER_ATTRIBUTES
table.
The User_attributes
column may contain these
attributes:
additional_password
: The secondary password, if any. See Dual Password Support.Restrictions
: Restriction lists, if any. Restrictions are added by partial-revoke operations. The attribute value is an array of elements that each haveDatabase
andRestrictions
keys indicating the name of a restricted database and the applicable restrictions on it (see Section 8.2.12, “Privilege Restriction Using Partial Revokes”).Password_locking
: The conditions for failed-login tracking and temporary account locking, if any (see Failed-Login Tracking and Temporary Account Locking). ThePassword_locking
attribute is updated according to theFAILED_LOGIN_ATTEMPTS
andPASSWORD_LOCK_TIME
options of theCREATE USER
andALTER USER
statements. The attribute value is a hash withfailed_login_attempts
andpassword_lock_time_days
keys indicating the value of such options as have been specified for the account. If a key is missing, its value is implicitly 0. If a key value is implicitly or explicitly 0, the corresponding capability is disabled.multi_factor_authentication
: Rows in themysql.user
system table have aplugin
column that indicates an authentication plugin. For single-factor authentication, that plugin is the only authentication factor. For two-factor or three-factor forms of multifactor authentication, that plugin corresponds to the first authentication factor, but additional information must be stored for the second and third factors. Themulti_factor_authentication
attribute holds this information.The
multi_factor_authentication
value is an array, where each array element is a hash that describes an authentication factor using these attributes:plugin
: The name of the authentication plugin.authentication_string
: The authentication string value.passwordless
: A flag that denotes whether the user is meant to be used without a password (with a security token as the only authentication method).requires_registration
: a flag that defines whether the user account has registered a security token.
The first and second array elements describe multifactor authentication factors 2 and 3.
If no attributes apply, User_attributes
is
NULL
.
Example: An account that has a secondary password and partially
revoked database privileges has
additional_password
and
Restrictions
attributes in the column value:
mysql> SELECT User_attributes FROM mysql.User WHERE User = 'u'\G
*************************** 1. row ***************************
User_attributes: {"Restrictions":
[{"Database": "mysql", "Privileges": ["SELECT"]}],
"additional_password": "hashed_credentials"}
To determine which attributes are present, use the
JSON_KEYS()
function:
SELECT User, Host, JSON_KEYS(User_attributes)
FROM mysql.user WHERE User_attributes IS NOT NULL;
To extract a particular attribute, such as
Restrictions
, do this:
SELECT User, Host, User_attributes->>'$.Restrictions'
FROM mysql.user WHERE User_attributes->>'$.Restrictions' <> '';
Here is an example of the kind of information stored for
multi_factor_authentication
:
{
"multi_factor_authentication": [
{
"plugin": "authentication_ldap_simple",
"passwordless": 0,
"authentication_string": "ldap auth string",
"requires_registration": 0
},
{
"plugin": "authentication_webauthn",
"passwordless": 0,
"authentication_string": "",
"requires_registration": 1
}
]
}
During the second stage of access control, the server performs
request verification to ensure that each client has sufficient
privileges for each request that it issues. In addition to the
user
and db
grant tables,
the server may also consult the tables_priv
and columns_priv
tables for requests that
involve tables. The latter tables provide finer privilege
control at the table and column levels. They have the columns
shown in the following table.
Table 8.6 tables_priv and columns_priv Table Columns
Table Name | tables_priv |
columns_priv |
---|---|---|
Scope columns | Host |
Host |
Db |
Db |
|
User |
User |
|
Table_name |
Table_name |
|
Column_name |
||
Privilege columns | Table_priv |
Column_priv |
Column_priv |
||
Other columns | Timestamp |
Timestamp |
Grantor |
The Timestamp
and Grantor
columns are set to the current timestamp and the
CURRENT_USER
value, respectively,
but are otherwise unused.
For verification of requests that involve stored routines, the
server may consult the procs_priv
table,
which has the columns shown in the following table.
Table 8.7 procs_priv Table Columns
Table Name | procs_priv |
---|---|
Scope columns | Host |
Db |
|
User |
|
Routine_name |
|
Routine_type |
|
Privilege columns | Proc_priv |
Other columns | Timestamp |
Grantor |
The Routine_type
column is an
ENUM
column with values of
'FUNCTION'
or 'PROCEDURE'
to indicate the type of routine the row refers to. This column
enables privileges to be granted separately for a function and a
procedure with the same name.
The Timestamp
and Grantor
columns are unused.
The proxies_priv
table records information
about proxy accounts. It has these columns:
For an account to be able to grant the
PROXY
privilege to other
accounts, it must have a row in the
proxies_priv
table with
With_grant
set to 1 and
Proxied_host
and
Proxied_user
set to indicate the account or
accounts for which the privilege can be granted. For example,
the 'root'@'localhost'
account created during
MySQL installation has a row in the
proxies_priv
table that enables granting the
PROXY
privilege for
''@''
, that is, for all users and all hosts.
This enables root
to set up proxy users, as
well as to delegate to other accounts the authority to set up
proxy users. See Section 8.2.19, “Proxy Users”.
The global_grants
table lists current
assignments of dynamic global privileges to user accounts. The
table has these columns:
USER
,HOST
: The user name and host name of the account to which the privilege is granted.PRIV
: The privilege name.WITH_GRANT_OPTION
: Whether the account can grant the privilege to other accounts.
The default_roles
table lists default user
roles. It has these columns:
HOST
,USER
: The account or role to which the default role applies.DEFAULT_ROLE_HOST
,DEFAULT_ROLE_USER
: The default role.
The role_edges
table lists edges for role
subgraphs. It has these columns:
FROM_HOST
,FROM_USER
: The account that is granted a role.TO_HOST
,TO_USER
: The role that is granted to the account.WITH_ADMIN_OPTION
: Whether the account can grant the role to and revoke it from other accounts by usingWITH ADMIN OPTION
.
The password_history
table contains
information about password changes. It has these columns:
Host
,User
: The account for which the password change occurred.Password_timestamp
: The time when the password change occurred.Password
: The new password hash value.
The password_history
table accumulates a
sufficient number of nonempty passwords per account to enable
MySQL to perform checks against both the account password
history length and reuse interval. Automatic pruning of entries
that are outside both limits occurs when password-change
attempts occur.
The empty password does not count in the password history and is subject to reuse at any time.
If an account is renamed, its entries are renamed to match. If an account is dropped or its authentication plugin is changed, its entries are removed.
Scope columns in the grant tables contain strings. The default value for each is the empty string. The following table shows the number of characters permitted in each column.
Table 8.8 Grant Table Scope Column Lengths
Column Name | Maximum Permitted Characters |
---|---|
Host , Proxied_host |
255 |
User , Proxied_user |
32 |
Db |
64 |
Table_name |
64 |
Column_name |
64 |
Routine_name |
64 |
Host
and Proxied_host
values are converted to lowercase before being stored in the
grant tables.
For access-checking purposes, comparisons of
User
, Proxied_user
,
authentication_string
, Db
,
and Table_name
values are case-sensitive.
Comparisons of Host
,
Proxied_host
, Column_name
,
and Routine_name
values are not
case-sensitive.
The user
and db
tables
list each privilege in a separate column that is declared as
ENUM('N','Y') DEFAULT 'N'
. In other words,
each privilege can be disabled or enabled, with the default
being disabled.
The tables_priv
,
columns_priv
, and
procs_priv
tables declare the privilege
columns as SET
columns. Values in
these columns can contain any combination of the privileges
controlled by the table. Only those privileges listed in the
column value are enabled.
Table 8.9 Set-Type Privilege Column Values
Table Name | Column Name | Possible Set Elements |
---|---|---|
tables_priv |
Table_priv |
'Select', 'Insert', 'Update', 'Delete', 'Create', 'Drop',
'Grant', 'References', 'Index', 'Alter', 'Create View',
'Show view', 'Trigger' |
tables_priv |
Column_priv |
'Select', 'Insert', 'Update', 'References' |
columns_priv |
Column_priv |
'Select', 'Insert', 'Update', 'References' |
procs_priv |
Proc_priv |
'Execute', 'Alter Routine', 'Grant' |
Only the user
and
global_grants
tables specify administrative
privileges, such as RELOAD
,
SHUTDOWN
, and
SYSTEM_VARIABLES_ADMIN
.
Administrative operations are operations on the server itself
and are not database-specific, so there is no reason to list
these privileges in the other grant tables. Consequently, the
server need consult only the user
and
global_grants
tables to determine whether a
user can perform an administrative operation.
The FILE
privilege also is
specified only in the user
table. It is not
an administrative privilege as such, but a user's ability to
read or write files on the server host is independent of the
database being accessed.
To permit concurrent DML and DDL operations on MySQL grant tables, read operations that previously acquired row locks on MySQL grant tables are executed as non-locking reads. Operations that are performed as non-locking reads on MySQL grant tables include:
SELECT
statements and other read-only statements that read data from grant tables through join lists and subqueries, includingSELECT ... FOR SHARE
statements, using any transaction isolation level.DML operations that read data from grant tables (through join lists or subqueries) but do not modify them, using any transaction isolation level.
Statements that no longer acquire row locks when reading data from grant tables report a warning if executed while using statement-based replication.
When using
-binlog_format=mixed
, DML
operations that read data from grant tables are written to the
binary log as row events to make the operations safe for
mixed-mode replication.
SELECT ...
FOR SHARE
statements that read data from grant tables
report a warning. With the FOR SHARE
clause,
read locks are not supported on grant tables.
DML operations that read data from grant tables and are executed
using the SERIALIZABLE
isolation level report a warning. Read locks that would normally
be acquired when using the
SERIALIZABLE
isolation level
are not supported on grant tables.