MySQL 9.3 Reference Manual Including MySQL NDB Cluster 9.3
SHOW ENGINE engine_name {STATUS | MUTEX}
SHOW ENGINE displays operational
information about a storage engine. It requires the
PROCESS privilege. The statement
has these variants:
SHOW ENGINE INNODB STATUS SHOW ENGINE INNODB MUTEX SHOW ENGINE PERFORMANCE_SCHEMA STATUS
SHOW ENGINE INNODB STATUS displays extensive
information from the standard InnoDB Monitor
about the state of the InnoDB storage engine.
For information about the standard monitor and other
InnoDB Monitors that provide information
about InnoDB processing, see
Section 17.17, “InnoDB Monitors”.
SHOW ENGINE INNODB MUTEX displays
InnoDB
mutex and
rw-lock statistics.
InnoDB mutexes and rwlocks can also be
monitored using Performance
Schema tables. See
Section 17.16.2, “Monitoring InnoDB Mutex Waits Using Performance Schema”.
Mutex statistics collection is configured dynamically using the following options:
To enable the collection of mutex statistics, run:
SET GLOBAL innodb_monitor_enable='latch';
To reset mutex statistics, run:
SET GLOBAL innodb_monitor_reset='latch';
To disable the collection of mutex statistics, run:
SET GLOBAL innodb_monitor_disable='latch';
Collection of mutex statistics for SHOW ENGINE INNODB
MUTEX can also be enabled by setting
innodb_monitor_enable='all', or
disabled by setting
innodb_monitor_disable='all'.
SHOW ENGINE INNODB MUTEX output has these
columns:
Type
Always InnoDB.
Name
For mutexes, the Name field reports only
the mutex name. For rwlocks, the Name
field reports the source file where the rwlock is
implemented, and the line number in the file where the
rwlock is created. The line number is specific to your
version of MySQL.
Status
The mutex status. This field reports the number of spins,
waits, and calls. Statistics for low-level operating system
mutexes, which are implemented outside of
InnoDB, are not reported.
spins indicates the number of spins.
waits indicates the number of mutex
waits.
calls indicates how many times the
mutex was requested.
SHOW ENGINE INNODB MUTEX does not list
mutexes and rw-locks for each buffer pool block, as the amount
of output would be overwhelming on systems with a large buffer
pool. SHOW ENGINE INNODB MUTEX does, however,
print aggregate BUF_BLOCK_MUTEX spin, wait,
and call values for buffer pool block mutexes and rw-locks.
SHOW ENGINE INNODB MUTEX also does not list
any mutexes or rw-locks that have never been waited on
(os_waits=0). Thus, SHOW ENGINE
INNODB MUTEX only displays information about mutexes
and rw-locks outside of the buffer pool that have caused at
least one OS-level wait.
Use SHOW ENGINE PERFORMANCE_SCHEMA STATUS to
inspect the internal operation of the Performance Schema code:
mysql> SHOW ENGINE PERFORMANCE_SCHEMA STATUS\G
...
*************************** 3. row ***************************
Type: performance_schema
Name: events_waits_history.size
Status: 76
*************************** 4. row ***************************
Type: performance_schema
Name: events_waits_history.count
Status: 10000
*************************** 5. row ***************************
Type: performance_schema
Name: events_waits_history.memory
Status: 760000
...
*************************** 57. row ***************************
Type: performance_schema
Name: performance_schema.memory
Status: 26459600
...
This statement is intended to help the DBA understand the effects that different Performance Schema options have on memory requirements.
Name values consist of two parts, which name
an internal buffer and a buffer attribute, respectively.
Interpret buffer names as follows:
An internal buffer that is not exposed as a table is named
within parentheses. Examples:
(pfs_cond_class).size,
(pfs_mutex_class).memory.
An internal buffer that is exposed as a table in the
performance_schema database is named
after the table, without parentheses. Examples:
events_waits_history.size,
mutex_instances.count.
A value that applies to the Performance Schema as a whole
begins with performance_schema. Example:
performance_schema.memory.
Buffer attributes have these meanings:
size is the size of the internal record
used by the implementation, such as the size of a row in a
table. size values cannot be changed.
count is the number of internal records,
such as the number of rows in a table.
count values can be changed using
Performance Schema configuration options.
For a table,
tbl_name.memorysize and
count. For the Performance Schema as a
whole, performance_schema.memory is the
sum of all the memory used (the sum of all other
memory values).
In some cases, there is a direct relationship between a
Performance Schema configuration parameter and a SHOW
ENGINE value. For example,
events_waits_history_long.count corresponds
to
performance_schema_events_waits_history_long_size.
In other cases, the relationship is more complex. For example,
events_waits_history.count corresponds to
performance_schema_events_waits_history_size
(the number of rows per thread) multiplied by
performance_schema_max_thread_instances
(the number of threads).
SHOW ENGINE NDB STATUS.
If the server has the NDB storage
engine enabled, SHOW ENGINE NDB STATUS
displays cluster status information such as the number of
connected data nodes, the cluster connectstring, and cluster
binary log epochs, as well as counts of various Cluster API
objects created by the MySQL Server when connected to the
cluster. Sample output from this statement is shown here:
mysql> SHOW ENGINE NDB STATUS;
+------------+-----------------------+--------------------------------------------------+
| Type | Name | Status |
+------------+-----------------------+--------------------------------------------------+
| ndbcluster | connection | cluster_node_id=7,
connected_host=198.51.100.103, connected_port=1186, number_of_data_nodes=4,
number_of_ready_data_nodes=3, connect_count=0 |
| ndbcluster | NdbTransaction | created=6, free=0, sizeof=212 |
| ndbcluster | NdbOperation | created=8, free=8, sizeof=660 |
| ndbcluster | NdbIndexScanOperation | created=1, free=1, sizeof=744 |
| ndbcluster | NdbIndexOperation | created=0, free=0, sizeof=664 |
| ndbcluster | NdbRecAttr | created=1285, free=1285, sizeof=60 |
| ndbcluster | NdbApiSignal | created=16, free=16, sizeof=136 |
| ndbcluster | NdbLabel | created=0, free=0, sizeof=196 |
| ndbcluster | NdbBranch | created=0, free=0, sizeof=24 |
| ndbcluster | NdbSubroutine | created=0, free=0, sizeof=68 |
| ndbcluster | NdbCall | created=0, free=0, sizeof=16 |
| ndbcluster | NdbBlob | created=1, free=1, sizeof=264 |
| ndbcluster | NdbReceiver | created=4, free=0, sizeof=68 |
| ndbcluster | binlog | latest_epoch=155467, latest_trans_epoch=148126,
latest_received_binlog_epoch=0, latest_handled_binlog_epoch=0,
latest_applied_binlog_epoch=0 |
+------------+-----------------------+--------------------------------------------------+
The Status column in each of these rows
provides information about the MySQL server's connection to
the cluster and about the cluster binary log's status,
respectively. The Status information is in
the form of comma-delimited set of name-value pairs.
The connection row's
Status column contains the name-value pairs
described in the following table.
| Name | Value |
|---|---|
cluster_node_id |
The node ID of the MySQL server in the cluster |
connected_host |
The host name or IP address of the cluster management server to which the MySQL server is connected |
connected_port |
The port used by the MySQL server to connect to the management server
(connected_host) |
number_of_data_nodes |
The number of data nodes configured for the cluster (that is, the number
of [ndbd] sections in the cluster
config.ini file) |
number_of_ready_data_nodes |
The number of data nodes in the cluster that are actually running |
connect_count |
The number of times this mysqld has connected or reconnected to cluster data nodes |
The binlog row's
Status column contains information relating
to NDB Cluster Replication. The name-value pairs it contains are
described in the following table.
| Name | Value |
|---|---|
latest_epoch |
The most recent epoch most recently run on this MySQL server (that is, the sequence number of the most recent transaction run on the server) |
latest_trans_epoch |
The most recent epoch processed by the cluster's data nodes |
latest_received_binlog_epoch |
The most recent epoch received by the binary log thread |
latest_handled_binlog_epoch |
The most recent epoch processed by the binary log thread (for writing to the binary log) |
latest_applied_binlog_epoch |
The most recent epoch actually written to the binary log |
See Section 25.7, “NDB Cluster Replication”, for more information.
The remaining rows from the output of SHOW ENGINE NDB
STATUS which are most likely to prove useful in
monitoring the cluster are listed here by
Name:
NdbTransaction: The number and size of
NdbTransaction objects that have been
created. An NdbTransaction is created
each time a table schema operation (such as
CREATE TABLE or
ALTER TABLE) is performed on
an NDB table.
NdbOperation: The number and size of
NdbOperation objects that have been
created.
NdbIndexScanOperation: The number and
size of NdbIndexScanOperation objects
that have been created.
NdbIndexOperation: The number and size of
NdbIndexOperation objects that have been
created.
NdbRecAttr: The number and size of
NdbRecAttr objects that have been
created. In general, one of these is created each time a
data manipulation statement is performed by an SQL node.
NdbBlob: The number and size of
NdbBlob objects that have been created.
An NdbBlob is created for each new
operation involving a BLOB
column in an NDB table.
NdbReceiver: The number and size of any
NdbReceiver object that have been
created. The number in the created column
is the same as the number of data nodes in the cluster to
which the MySQL server has connected.
SHOW ENGINE NDB STATUS returns an empty
result if no operations involving
NDB tables have been performed
during the current session by the MySQL client accessing the
SQL node on which this statement is run.