You can extract metadata about schema objects managed by
InnoDB
using InnoDB
INFORMATION_SCHEMA
tables. This information
comes from the data dictionary. Traditionally, you would get this
type of information using the techniques from
Section 17.17, “InnoDB Monitors”, setting up
InnoDB
monitors and parsing the output from the
SHOW ENGINE INNODB
STATUS
statement. The InnoDB
INFORMATION_SCHEMA
table interface allows you
to query this data using SQL.
InnoDB
INFORMATION_SCHEMA
schema object tables include the tables listed here:
INNODB_DATAFILES
INNODB_TABLESTATS
INNODB_FOREIGN
INNODB_COLUMNS
INNODB_INDEXES
INNODB_FIELDS
INNODB_TABLESPACES
INNODB_TABLESPACES_BRIEF
INNODB_FOREIGN_COLS
INNODB_TABLES
The table names are indicative of the type of data provided:
INNODB_TABLES
provides metadata aboutInnoDB
tables.INNODB_COLUMNS
provides metadata aboutInnoDB
table columns.INNODB_INDEXES
provides metadata aboutInnoDB
indexes.INNODB_FIELDS
provides metadata about the key columns (fields) ofInnoDB
indexes.INNODB_TABLESTATS
provides a view of low-level status information aboutInnoDB
tables that is derived from in-memory data structures.INNODB_DATAFILES
provides data file path information forInnoDB
file-per-table and general tablespaces.INNODB_TABLESPACES
provides metadata aboutInnoDB
file-per-table, general, and undo tablespaces.INNODB_TABLESPACES_BRIEF
provides a subset of metadata aboutInnoDB
tablespaces.INNODB_FOREIGN
provides metadata about foreign keys defined onInnoDB
tables.INNODB_FOREIGN_COLS
provides metadata about the columns of foreign keys that are defined onInnoDB
tables.
InnoDB
INFORMATION_SCHEMA
schema object tables can be joined together through fields such as
TABLE_ID
, INDEX_ID
, and
SPACE
, allowing you to easily retrieve all
available data for an object you want to study or monitor.
Refer to the InnoDB
INFORMATION_SCHEMA
documentation for information about the columns of each table.
Example 17.2 InnoDB INFORMATION_SCHEMA Schema Object Tables
This example uses a simple table (t1
) with a
single index (i1
) to demonstrate the type of
metadata found in the InnoDB
INFORMATION_SCHEMA
schema object tables.
Create a test database and table
t1
:mysql> CREATE DATABASE test; mysql> USE test; mysql> CREATE TABLE t1 ( col1 INT, col2 CHAR(10), col3 VARCHAR(10)) ENGINE = InnoDB; mysql> CREATE INDEX i1 ON t1(col1);
After creating the table
t1
, queryINNODB_TABLES
to locate the metadata fortest/t1
:mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_TABLES WHERE NAME='test/t1' \G *************************** 1. row *************************** TABLE_ID: 71 NAME: test/t1 FLAG: 1 N_COLS: 6 SPACE: 57 ROW_FORMAT: Compact ZIP_PAGE_SIZE: 0 INSTANT_COLS: 0
Table
t1
has aTABLE_ID
of 71. TheFLAG
field provides bit level information about table format and storage characteristics. There are six columns, three of which are hidden columns created byInnoDB
(DB_ROW_ID
,DB_TRX_ID
, andDB_ROLL_PTR
). The ID of the table'sSPACE
is 57 (a value of 0 would indicate that the table resides in the system tablespace). TheROW_FORMAT
is Compact.ZIP_PAGE_SIZE
only applies to tables with aCompressed
row format.INSTANT_COLS
shows number of columns in the table prior to adding the first instant column usingALTER TABLE ... ADD COLUMN
withALGORITHM=INSTANT
.Using the
TABLE_ID
information fromINNODB_TABLES
, query theINNODB_COLUMNS
table for information about the table's columns.mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_COLUMNS where TABLE_ID = 71\G *************************** 1. row *************************** TABLE_ID: 71 NAME: col1 POS: 0 MTYPE: 6 PRTYPE: 1027 LEN: 4 HAS_DEFAULT: 0 DEFAULT_VALUE: NULL *************************** 2. row *************************** TABLE_ID: 71 NAME: col2 POS: 1 MTYPE: 2 PRTYPE: 524542 LEN: 10 HAS_DEFAULT: 0 DEFAULT_VALUE: NULL *************************** 3. row *************************** TABLE_ID: 71 NAME: col3 POS: 2 MTYPE: 1 PRTYPE: 524303 LEN: 10 HAS_DEFAULT: 0 DEFAULT_VALUE: NULL
In addition to the
TABLE_ID
and columnNAME
,INNODB_COLUMNS
provides the ordinal position (POS
) of each column (starting from 0 and incrementing sequentially), the columnMTYPE
or “main type” (6 = INT, 2 = CHAR, 1 = VARCHAR), thePRTYPE
or “precise type” (a binary value with bits that represent the MySQL data type, character set code, and nullability), and the column length (LEN
). TheHAS_DEFAULT
andDEFAULT_VALUE
columns only apply to columns added instantly usingALTER TABLE ... ADD COLUMN
withALGORITHM=INSTANT
.Using the
TABLE_ID
information fromINNODB_TABLES
once again, queryINNODB_INDEXES
for information about the indexes associated with tablet1
.mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_INDEXES WHERE TABLE_ID = 71 \G *************************** 1. row *************************** INDEX_ID: 111 NAME: GEN_CLUST_INDEX TABLE_ID: 71 TYPE: 1 N_FIELDS: 0 PAGE_NO: 3 SPACE: 57 MERGE_THRESHOLD: 50 *************************** 2. row *************************** INDEX_ID: 112 NAME: i1 TABLE_ID: 71 TYPE: 0 N_FIELDS: 1 PAGE_NO: 4 SPACE: 57 MERGE_THRESHOLD: 50
INNODB_INDEXES
returns data for two indexes. The first index isGEN_CLUST_INDEX
, which is a clustered index created byInnoDB
if the table does not have a user-defined clustered index. The second index (i1
) is the user-defined secondary index.The
INDEX_ID
is an identifier for the index that is unique across all databases in an instance. TheTABLE_ID
identifies the table that the index is associated with. The indexTYPE
value indicates the type of index (1 = Clustered Index, 0 = Secondary index). TheN_FILEDS
value is the number of fields that comprise the index.PAGE_NO
is the root page number of the index B-tree, andSPACE
is the ID of the tablespace where the index resides. A nonzero value indicates that the index does not reside in the system tablespace.MERGE_THRESHOLD
defines a percentage threshold value for the amount of data in an index page. If the amount of data in an index page falls below the this value (the default is 50%) when a row is deleted or when a row is shortened by an update operation,InnoDB
attempts to merge the index page with a neighboring index page.Using the
INDEX_ID
information fromINNODB_INDEXES
, queryINNODB_FIELDS
for information about the fields of indexi1
.mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_FIELDS where INDEX_ID = 112 \G *************************** 1. row *************************** INDEX_ID: 112 NAME: col1 POS: 0
INNODB_FIELDS
provides theNAME
of the indexed field and its ordinal position within the index. If the index (i1) had been defined on multiple fields,INNODB_FIELDS
would provide metadata for each of the indexed fields.Using the
SPACE
information fromINNODB_TABLES
, queryINNODB_TABLESPACES
table for information about the table's tablespace.mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_TABLESPACES WHERE SPACE = 57 \G *************************** 1. row *************************** SPACE: 57 NAME: test/t1 FLAG: 16417 ROW_FORMAT: Dynamic PAGE_SIZE: 16384 ZIP_PAGE_SIZE: 0 SPACE_TYPE: Single FS_BLOCK_SIZE: 4096 FILE_SIZE: 114688 ALLOCATED_SIZE: 98304 AUTOEXTEND_SIZE: 0 SERVER_VERSION: 8.4.0 SPACE_VERSION: 1 ENCRYPTION: N STATE: normal
In addition to the
SPACE
ID of the tablespace and theNAME
of the associated table,INNODB_TABLESPACES
provides tablespaceFLAG
data, which is bit level information about tablespace format and storage characteristics. Also provided are tablespaceROW_FORMAT
,PAGE_SIZE
, and several other tablespace metadata items.Using the
SPACE
information fromINNODB_TABLES
once again, queryINNODB_DATAFILES
for the location of the tablespace data file.mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_DATAFILES WHERE SPACE = 57 \G *************************** 1. row *************************** SPACE: 57 PATH: ./test/t1.ibd
The datafile is located in the
test
directory under MySQL'sdata
directory. If a file-per-table tablespace were created in a location outside the MySQL data directory using theDATA DIRECTORY
clause of theCREATE TABLE
statement, the tablespacePATH
would be a fully qualified directory path.As a final step, insert a row into table
t1
(TABLE_ID = 71
) and view the data in theINNODB_TABLESTATS
table. The data in this table is used by the MySQL optimizer to calculate which index to use when querying anInnoDB
table. This information is derived from in-memory data structures.mysql> INSERT INTO t1 VALUES(5, 'abc', 'def'); Query OK, 1 row affected (0.06 sec) mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_TABLESTATS where TABLE_ID = 71 \G *************************** 1. row *************************** TABLE_ID: 71 NAME: test/t1 STATS_INITIALIZED: Initialized NUM_ROWS: 1 CLUST_INDEX_SIZE: 1 OTHER_INDEX_SIZE: 0 MODIFIED_COUNTER: 1 AUTOINC: 0 REF_COUNT: 1
The
STATS_INITIALIZED
field indicates whether or not statistics have been collected for the table.NUM_ROWS
is the current estimated number of rows in the table. TheCLUST_INDEX_SIZE
andOTHER_INDEX_SIZE
fields report the number of pages on disk that store clustered and secondary indexes for the table, respectively. TheMODIFIED_COUNTER
value shows the number of rows modified by DML operations and cascade operations from foreign keys. TheAUTOINC
value is the next number to be issued for any autoincrement-based operation. There are no autoincrement columns defined on tablet1
, so the value is 0. TheREF_COUNT
value is a counter. When the counter reaches 0, it signifies that the table metadata can be evicted from the table cache.
Example 17.3 Foreign Key INFORMATION_SCHEMA Schema Object Tables
The INNODB_FOREIGN
and
INNODB_FOREIGN_COLS
tables provide
data about foreign key relationships. This example uses a parent
table and child table with a foreign key relationship to
demonstrate the data found in the
INNODB_FOREIGN
and
INNODB_FOREIGN_COLS
tables.
Create the test database with parent and child tables:
mysql> CREATE DATABASE test; mysql> USE test; mysql> CREATE TABLE parent (id INT NOT NULL, PRIMARY KEY (id)) ENGINE=INNODB; mysql> CREATE TABLE child (id INT, parent_id INT, -> INDEX par_ind (parent_id), -> CONSTRAINT fk1 -> FOREIGN KEY (parent_id) REFERENCES parent(id) -> ON DELETE CASCADE) ENGINE=INNODB;
After the parent and child tables are created, query
INNODB_FOREIGN
and locate the foreign key data for thetest/child
andtest/parent
foreign key relationship:mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_FOREIGN \G *************************** 1. row *************************** ID: test/fk1 FOR_NAME: test/child REF_NAME: test/parent N_COLS: 1 TYPE: 1
Metadata includes the foreign key
ID
(fk1
), which is named for theCONSTRAINT
that was defined on the child table. TheFOR_NAME
is the name of the child table where the foreign key is defined.REF_NAME
is the name of the parent table (the “referenced” table).N_COLS
is the number of columns in the foreign key index.TYPE
is a numerical value representing bit flags that provide additional information about the foreign key column. In this case, theTYPE
value is 1, which indicates that theON DELETE CASCADE
option was specified for the foreign key. See theINNODB_FOREIGN
table definition for more information aboutTYPE
values.Using the foreign key
ID
, queryINNODB_FOREIGN_COLS
to view data about the columns of the foreign key.mysql> SELECT * FROM INFORMATION_SCHEMA.INNODB_FOREIGN_COLS WHERE ID = 'test/fk1' \G *************************** 1. row *************************** ID: test/fk1 FOR_COL_NAME: parent_id REF_COL_NAME: id POS: 0
FOR_COL_NAME
is the name of the foreign key column in the child table, andREF_COL_NAME
is the name of the referenced column in the parent table. ThePOS
value is the ordinal position of the key field within the foreign key index, starting at zero.
Example 17.4 Joining InnoDB INFORMATION_SCHEMA Schema Object Tables
This example demonstrates joining three
InnoDB
INFORMATION_SCHEMA
schema object tables
(INNODB_TABLES
,
INNODB_TABLESPACES
, and
INNODB_TABLESTATS
) to gather file
format, row format, page size, and index size information about
tables in the employees sample database.
The following table aliases are used to shorten the query string:
An IF()
control flow function is
used to account for compressed tables. If a table is compressed,
the index size is calculated using
ZIP_PAGE_SIZE
rather than
PAGE_SIZE
.
CLUST_INDEX_SIZE
and
OTHER_INDEX_SIZE
, which are reported in
bytes, are divided by 1024*1024
to provide
index sizes in megabytes (MBs). MB values are rounded to zero
decimal spaces using the ROUND()
function.
mysql> SELECT a.NAME, a.ROW_FORMAT,
@page_size :=
IF(a.ROW_FORMAT='Compressed',
b.ZIP_PAGE_SIZE, b.PAGE_SIZE)
AS page_size,
ROUND((@page_size * c.CLUST_INDEX_SIZE)
/(1024*1024)) AS pk_mb,
ROUND((@page_size * c.OTHER_INDEX_SIZE)
/(1024*1024)) AS secidx_mb
FROM INFORMATION_SCHEMA.INNODB_TABLES a
INNER JOIN INFORMATION_SCHEMA.INNODB_TABLESPACES b on a.NAME = b.NAME
INNER JOIN INFORMATION_SCHEMA.INNODB_TABLESTATS c on b.NAME = c.NAME
WHERE a.NAME LIKE 'employees/%'
ORDER BY a.NAME DESC;
+------------------------+------------+-----------+-------+-----------+
| NAME | ROW_FORMAT | page_size | pk_mb | secidx_mb |
+------------------------+------------+-----------+-------+-----------+
| employees/titles | Dynamic | 16384 | 20 | 11 |
| employees/salaries | Dynamic | 16384 | 93 | 34 |
| employees/employees | Dynamic | 16384 | 15 | 0 |
| employees/dept_manager | Dynamic | 16384 | 0 | 0 |
| employees/dept_emp | Dynamic | 16384 | 12 | 10 |
| employees/departments | Dynamic | 16384 | 0 | 0 |
+------------------------+------------+-----------+-------+-----------+