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Chapter 16 Alternative Storage Engines

Storage engines are MySQL components that handle the SQL operations for different table types. InnoDB is the default and most general-purpose storage engine, and Oracle recommends using it for tables except for specialized use cases. (The CREATE TABLE statement in MySQL 8.0 creates InnoDB tables by default.)

MySQL Server uses a pluggable storage engine architecture that enables storage engines to be loaded into and unloaded from a running MySQL server.

To determine which storage engines your server supports, use the SHOW ENGINES statement. The value in the Support column indicates whether an engine can be used. A value of YES, NO, or DEFAULT indicates that an engine is available, not available, or available and currently set as the default storage engine.

  1. mysql> SHOW ENGINES\G
  2. *************************** 1. row ***************************
  3.       Engine: PERFORMANCE_SCHEMA
  4.      Support: YES
  5.      Comment: Performance Schema
  6.           XA: NO
  7.   Savepoints: NO
  8. *************************** 2. row ***************************
  9.       Engine: InnoDB
  10.      Support: DEFAULT
  11.      Comment: Supports transactions, row-level locking, and foreign keys
  12.           XA: YES
  13.   Savepoints: YES
  14. *************************** 3. row ***************************
  15.       Engine: MRG_MYISAM
  16.      Support: YES
  17.      Comment: Collection of identical MyISAM tables
  18.           XA: NO
  19.   Savepoints: NO
  20. *************************** 4. row ***************************
  21.       Engine: BLACKHOLE
  22.      Support: YES
  23.      Comment: /dev/null storage engine (anything you write to it disappears)
  24.           XA: NO
  25.   Savepoints: NO
  26. *************************** 5. row ***************************
  27.       Engine: MyISAM
  28.      Support: YES
  29.      Comment: MyISAM storage engine
  30.           XA: NO
  31.   Savepoints: NO
  32. ...

This chapter covers use cases for special-purpose MySQL storage engines. It does not cover the default InnoDB storage engine or the NDB storage engine which are covered in Chapter 15, The InnoDB Storage Engine and Chapter 22, MySQL NDB Cluster 8.0. For advanced users, it also contains a description of the pluggable storage engine architecture (see Section 16.11, “Overview of MySQL Storage Engine Architecture”).

For information about features offered in commercial MySQL Server binaries, see MySQL Editions, on the MySQL website. The storage engines available might depend on which edition of MySQL you are using.

For answers to commonly asked questions about MySQL storage engines, see Section A.2, “MySQL 8.0 FAQ: Storage Engines”.

MySQL 8.0 Supported Storage Engines

  • InnoDB: The default storage engine in MySQL 8.0. InnoDB is a transaction-safe (ACID compliant) storage engine for MySQL that has commit, rollback, and crash-recovery capabilities to protect user data. InnoDB row-level locking (without escalation to coarser granularity locks) and Oracle-style consistent nonlocking reads increase multi-user concurrency and performance. InnoDB stores user data in clustered indexes to reduce I/O for common queries based on primary keys. To maintain data integrity, InnoDB also supports FOREIGN KEY referential-integrity constraints. For more information about InnoDB, see Chapter 15, The InnoDB Storage Engine.

  • MyISAM: These tables have a small footprint. Table-level locking limits the performance in read/write workloads, so it is often used in read-only or read-mostly workloads in Web and data warehousing configurations.

  • Memory: Stores all data in RAM, for fast access in environments that require quick lookups of non-critical data. This engine was formerly known as the HEAP engine. Its use cases are decreasing; InnoDB with its buffer pool memory area provides a general-purpose and durable way to keep most or all data in memory, and NDBCLUSTER provides fast key-value lookups for huge distributed data sets.

  • CSV: Its tables are really text files with comma-separated values. CSV tables let you import or dump data in CSV format, to exchange data with scripts and applications that read and write that same format. Because CSV tables are not indexed, you typically keep the data in InnoDB tables during normal operation, and only use CSV tables during the import or export stage.

  • Archive: These compact, unindexed tables are intended for storing and retrieving large amounts of seldom-referenced historical, archived, or security audit information.

  • Blackhole: The Blackhole storage engine accepts but does not store data, similar to the Unix /dev/null device. Queries always return an empty set. These tables can be used in replication configurations where DML statements are sent to slave servers, but the master server does not keep its own copy of the data.

  • NDB (also known as NDBCLUSTER): This clustered database engine is particularly suited for applications that require the highest possible degree of uptime and availability.

  • Merge: Enables a MySQL DBA or developer to logically group a series of identical MyISAM tables and reference them as one object. Good for VLDB environments such as data warehousing.

  • Federated: Offers the ability to link separate MySQL servers to create one logical database from many physical servers. Very good for distributed or data mart environments.

  • Example: This engine serves as an example in the MySQL source code that illustrates how to begin writing new storage engines. It is primarily of interest to developers. The storage engine is a stub that does nothing. You can create tables with this engine, but no data can be stored in them or retrieved from them.

You are not restricted to using the same storage engine for an entire server or schema. You can specify the storage engine for any table. For example, an application might use mostly InnoDB tables, with one CSV table for exporting data to a spreadsheet and a few MEMORY tables for temporary workspaces.

Choosing a Storage Engine

The various storage engines provided with MySQL are designed with different use cases in mind. The following table provides an overview of some storage engines provided with MySQL, with clarifying notes following the table.

Table 16.1 Storage Engines Feature Summary

Feature MyISAM Memory InnoDB Archive NDB
B-tree indexes Yes Yes Yes No No
Backup/point-in-time recovery (note 1) Yes Yes Yes Yes Yes
Cluster database support No No No No Yes
Clustered indexes No No Yes No No
Compressed data Yes (note 2) No Yes Yes No
Data caches No N/A Yes No Yes
Encrypted data Yes (note 3) Yes (note 3) Yes (note 4) Yes (note 3) Yes (note 3)
Foreign key support No No Yes No Yes (note 5)
Full-text search indexes Yes No Yes (note 6) No No
Geospatial data type support Yes No Yes Yes Yes
Geospatial indexing support Yes No Yes (note 7) No No
Hash indexes No Yes No (note 8) No Yes
Index caches Yes N/A Yes No Yes
Locking granularity Table Table Row Row Row
MVCC No No Yes No No
Replication support (note 1) Yes Limited (note 9) Yes Yes Yes
Storage limits 256TB RAM 64TB None 384EB
T-tree indexes No No No No Yes
Transactions No No Yes No Yes
Update statistics for data dictionary Yes Yes Yes Yes Yes

Notes:

1. Implemented in the server, rather than in the storage engine.

2. Compressed MyISAM tables are supported only when using the compressed row format. Tables using the compressed row format with MyISAM are read only.

3. Implemented in the server via encryption functions.

4. Implemented in the server via encryption functions; In MySQL 5.7 and later, data-at-rest tablespace encryption is supported.

5. Support for foreign keys is available in MySQL Cluster NDB 7.3 and later.

6. InnoDB support for FULLTEXT indexes is available in MySQL 5.6 and later.

7. InnoDB support for geospatial indexing is available in MySQL 5.7 and later.

8. InnoDB utilizes hash indexes internally for its Adaptive Hash Index feature.

9. See the discussion later in this section.


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