The query cache stores the text of a SELECT
statement together with the corresponding result that was sent to
the client. If an identical statement is received later, the
server retrieves the results from the query cache rather than
parsing and executing the statement again.
The query cache is extremely useful in an environment where you have tables that do not change very often and for which the server receives many identical queries. This is a typical situation for many Web servers that generate many dynamic pages based on database content.
Note: The query cache does not return stale data. When tables are modified, any relevant entries in the query cache are flushed.
Note: The query cache does not
work in an environment where you have multiple
mysqld servers updating the same
MyISAM tables.
Note: The query cache is not used for server-side prepared statements. If you're using server-side prepared statements consider that these statement won't be satisfied by the query cache. See Section 22.2.4, “C API Prepared Statements”.
Some performance data for the query cache follows. These results were generated by running the MySQL benchmark suite on a Linux Alpha 2×500MHz system with 2GB RAM and a 64MB query cache.
If all the queries you are performing are simple (such as selecting a row from a table with one row), but still differ so that the queries cannot be cached, the overhead for having the query cache active is 13%. This could be regarded as the worst case scenario. In real life, queries tend to be much more complicated, so the overhead normally is significantly lower.
Searches for a single row in a single-row table are 238% faster with the query cache than without it. This can be regarded as close to the minimum speedup to be expected for a query that is cached.
To disable the query cache at server startup, set the
query_cache_size system variable to 0. By
disabling the query cache code, there is no noticeable overhead.
If you build MySQL from source, query cache capabilities can be
excluded from the server entirely by invoking
configure with the
--without-query-cache option.
This section describes how the query cache works when it is operational. Section 5.14.3, “Query Cache Configuration”, describes how to control whether it is operational.
Incoming queries are compared to those in the query cache before parsing, so the following two queries are regarded as different by the query cache:
SELECT * FROMtbl_nameSelect * fromtbl_name
Queries must be exactly the same (byte for byte) to be seen as identical. In addition, query strings that are identical may be treated as different for other reasons. Queries that use different databases, different protocol versions, or different default character sets are considered different queries and are cached separately.
Before a query result is fetched from the query cache, MySQL
checks that the user has SELECT privilege for
all databases and tables involved. If this is not the case, the
cached result is not used.
If a query result is returned from query cache, the server
increments the Qcache_hits status variable,
not Com_select. See
Section 5.14.4, “Query Cache Status and Maintenance”.
If a table changes, all cached queries that use the table become
invalid and are removed from the cache. This includes queries
that use MERGE tables that map to the changed
table. A table can be changed by many types of statements, such
as INSERT, UPDATE,
DELETE, TRUNCATE,
ALTER TABLE, DROP TABLE,
or DROP DATABASE.
Transactional InnoDB tables that have been
changed are invalidated when a COMMIT is
performed.
The query cache also works within transactions when using
InnoDB tables, making use of the table
version number to detect whether its contents are still current.
In MySQL 5.0, queries generated by views are cached.
Before MySQL 5.0, a query that began with a leading comment could be cached, but could not be fetched from the cache. This problem is fixed in MySQL 5.0.
The query cache works for SELECT SQL_CALC_FOUND_ROWS
... and SELECT FOUND_ROWS() type
queries. FOUND_ROWS() returns the correct
value even if the preceding query was fetched from the cache
because the number of found rows is also stored in the cache.
A query cannot be cached if it contains any of the functions shown in the following table.
BENCHMARK() | CONNECTION_ID() | CURDATE() |
CURRENT_DATE() | CURRENT_TIME() | CURRENT_TIMESTAMP() |
CURTIME() | DATABASE() | ENCRYPT() with one parameter |
FOUND_ROWS() | GET_LOCK() | LAST_INSERT_ID() |
LOAD_FILE() | MASTER_POS_WAIT() | NOW() |
RAND() | RELEASE_LOCK() | SYSDATE() |
UNIX_TIMESTAMP() with no parameters | USER() |
A query also is not cached under these conditions:
It refers to user-defined functions (UDFs).
It refers to user variables.
It refers to tables in the mysql system
database.
It is of any of the following forms:
SELECT ... IN SHARE MODE SELECT ... FOR UPDATE SELECT ... INTO OUTFILE ... SELECT ... INTO DUMPFILE ... SELECT * FROM ... WHERE autoincrement_col IS NULL
The last form is not cached because it is used as the ODBC workaround for obtaining the last insert ID value. See the MyODBC section of Chapter 23, Connectors.
It was issued as a prepared statement, even if no placeholders were employed. For example, the query used here is not cached:
char *my_sql_stmt = "SELECT a, b FROM table_c"; /* ... */ mysql_stmt_prepare(stmt, my_sql_stmt, strlen(my_sql_stmt));
It uses TEMPORARY tables.
It does not use any tables.
The user has a column-level privilege for any of the involved tables.
Two query cache-related options may be specified in
SELECT statements:
Examples:
SELECT SQL_CACHE id, name FROM customer; SELECT SQL_NO_CACHE id, name FROM customer;
The have_query_cache server system variable
indicates whether the query cache is available:
mysql> SHOW VARIABLES LIKE 'have_query_cache';
+------------------+-------+
| Variable_name | Value |
+------------------+-------+
| have_query_cache | YES |
+------------------+-------+
When using a standard MySQL binary, this value is always
YES, even if query caching is disabled.
Several other system variables control query cache operation.
These can be set in an option file or on the command line when
starting mysqld. The query cache system
variables all have names that begin with
query_cache_. They are described briefly in
Section 5.2.2, “Server System Variables”, with additional
configuration information given here.
To set the size of the query cache, set the
query_cache_size system variable. Setting it
to 0 disables the query cache. The default size is 0, so the
query cache is disabled by default.
When you set query_cache_size to a non-zero
value, keep in mind that the query cache needs a minimum size of
about 40KB to allocate its structures. (The exact size depends
on system architecture.) If you set the value too small, you'll
get a warning, as in this example:
mysql>SET GLOBAL query_cache_size = 40000;Query OK, 0 rows affected, 1 warning (0.00 sec) mysql>SHOW WARNINGS\G*************************** 1. row *************************** Level: Warning Code: 1282 Message: Query cache failed to set size 39936; new query cache size is 0 mysql>SET GLOBAL query_cache_size = 41984;Query OK, 0 rows affected (0.00 sec) mysql>SHOW VARIABLES LIKE 'query_cache_size';+------------------+-------+ | Variable_name | Value | +------------------+-------+ | query_cache_size | 41984 | +------------------+-------+
If the query cache size is greater than 0, the
query_cache_type variable influences how it
works. This variable can be set to the following values:
A value of 0 or OFF
prevents caching or retrieval of cached results.
A value of 1 or ON
allows caching except of those statements that begin with
SELECT SQL_NO_CACHE.
A value of 2 or DEMAND
causes caching of only those statements that begin with
SELECT SQL_CACHE.
Setting the GLOBAL
query_cache_type value determines query cache
behavior for all clients that connect after the change is made.
Individual clients can control cache behavior for their own
connection by setting the SESSION
query_cache_type value. For example, a client
can disable use of the query cache for its own queries like
this:
mysql> SET SESSION query_cache_type = OFF;
To control the maximum size of individual query results that can
be cached, set the query_cache_limit system
variable. The default value is 1MB.
When a query that is to be cached, its result (the data sent to
the client) is stored in the query cache during result
retrieval. Therefore the data usually is not handled in one big
chunk. The query cache allocates blocks for storing this data on
demand, so when one block is filled, a new block is allocated.
Because memory allocation operation is costly (timewise), the
query cache allocates blocks with a minimum size given by the
query_cache_min_res_unit system variable.
When a query is executed, the last result block is trimmed to
the actual data size so that unused memory is freed. Depending
on the types of queries your server executes, you might find it
helpful to tune the value of
query_cache_min_res_unit:
The default value of
query_cache_min_res_unit is 4KB. This
should be adequate for most cases.
If you have a lot of queries with small results, the default
block size may lead to memory fragmentation, as indicated by
a large number of free blocks. Fragmentation can force the
query cache to prune (delete) queries from the cache due to
lack of memory. In this case, you should decrease the value
of query_cache_min_res_unit. The number
of free blocks and queries removed due to pruning are given
by the values of the Qcache_free_blocks
and Qcache_lowmem_prunes status
variables.
If most of your queries have large results (check the
Qcache_total_blocks and
Qcache_queries_in_cache status
variables), you can increase performance by increasing
query_cache_min_res_unit. However, be
careful to not make it too large (see the previous item).
You can check whether the query cache is present in your MySQL server using the following statement:
mysql> SHOW VARIABLES LIKE 'have_query_cache';
+------------------+-------+
| Variable_name | Value |
+------------------+-------+
| have_query_cache | YES |
+------------------+-------+
You can defragment the query cache to better utilize its memory
with the FLUSH QUERY CACHE statement. The
statement does not remove any queries from the cache.
The RESET QUERY CACHE statement removes all
query results from the query cache. The FLUSH
TABLES statement also does this.
To monitor query cache performance, use SHOW
STATUS to view the cache status variables:
mysql> SHOW STATUS LIKE 'Qcache%';
+-------------------------+--------+
| Variable_name | Value |
+-------------------------+--------+
| Qcache_free_blocks | 36 |
| Qcache_free_memory | 138488 |
| Qcache_hits | 79570 |
| Qcache_inserts | 27087 |
| Qcache_lowmem_prunes | 3114 |
| Qcache_not_cached | 22989 |
| Qcache_queries_in_cache | 415 |
| Qcache_total_blocks | 912 |
+-------------------------+--------+
Descriptions of each of these variables are given in Section 5.2.4, “Server Status Variables”. Some uses for them are described here.
The total number of SELECT queries is given
by this formula:
Com_select + Qcache_hits + queries with errors found by parser
The Com_select value is given by this
formula:
Qcache_inserts + Qcache_not_cached + queries with errors found during the column-privileges check
The query cache uses variable-length blocks, so
Qcache_total_blocks and
Qcache_free_blocks may indicate query cache
memory fragmentation. After FLUSH QUERY
CACHE, only a single free block remains.
Every cached query requires a minimum of two blocks (one for the query text and one or more for the query results). Also, every table that is used by a query requires one block. However, if two or more queries use the same table, only one table block needs to be allocated.
The information provided by the
Qcache_lowmem_prunes status variable can help
you tune the query cache size. It counts the number of queries
that have been removed from the cache to free up memory for
caching new queries. The query cache uses a least recently used
(LRU) strategy to decide which queries to remove from the cache.
Tuning information is given in
Section 5.14.3, “Query Cache Configuration”.