PHPBuilder - Table types in MySQL: Part 2 - InnoDB Tables

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Table types in MySQL: Part 2 - InnoDB Tables

by: Ian Gilfillan
March 22, 2007

Last month we looked at the HEAP table type, a table type which runs entirely in memory. This month we look at setting up the InnoDB table type, the type of most interest to serious users. The standard MyISAM table type is ideal for website use, where there are many reads in comparison to writes, and no transactions. Where these conditions do not apply (and besides websites, they do not apply often in the database world), the InnoDB table is likely to be the table type of choice. This article is aimed at users who are familiar with MySQL, but have only used the default MyISAM table type.

InnoDB Features

  • ACID-compliant transactions.
  • Full referential integrity
  • Row-level locking
  • Tables are stored in a tablespace (unlike MyISAM tables where each table is a file)

What is an ACID-compliant transaction?

Database requests (selects, updates or inserts) happen linearly, one after the other. When one user has a related set of requests, or there are many users working at the same time, it is important that the results remain consistent. A transaction is a set of related SQL statements making up one logical whole, for example, a sales transaction could consist of updates to customer, sales and product tables. A transaction is said to be committed when it is completed. To maintain data integrity, there are four conditions which must apply to transactions, encapsulated by the acronym ACID. These are Atomicity, Consistency, Isolation and Durability. Very briefly, atomicity means that the whole transaction must complete, and if this is not possible, none of the individual statements must be carried out.
Consistency refers to the state of the data, and the rules to ensure this state is maintained. For example, each invoice may have to relate to a customer. During a transaction, these rules can be broken (an invoice could be inserted before the customer), but once the transaction is complete, the consistency must be restored. Isolation means that data changed during one transaction cannot be used by another until the first transaction is complete. Two transactions trying to reduce a bank balance cannot both work off the same balance (if you had two transactions removing $100 from a $1000 account, the second must obviously work off a $900 balance, once the first is complete.) Each transaction works in isolation. Durability means that once a transaction has been committed, the data remains consistent. Therefore, if the database crashes in the middle of a transaction, a restore will return the data to the situation it was in as of the most recently committed transaction.
Creating InnoDB tables

Being a more complex table type, InnoDB tables require slightly more administration savvy than the default MyISAM tables. InnoDB tables are created in a tablespace, which is not the same as the MyISAM table, that being simply a file on the filesystem. Assuming you are running a stable version of MySQL 4 (4.0.15 is the latest at the time of writing), MySQL automatically creates a file called ibdata1 in the data directory (datadir, usually C:\MYSQL\data on Windows systems, or /usr/local/mysql/data or /usr/local/var on Unix-based systems). This file begins at 10MB, but is auto-extending, meaning it grows larger (in 8MB blocks) as your data expands. Early versions of MySQL 4 set the table to be 64MB, but not auto-extending, meaning when that was full, you would be unable to add more data).

With all this happening automatically, all that is left to create an InnoDB table is simply the CREATE statement. Here is an example:
CREATE TABLE innodb_table1(field1 INT, field2 CHAR(10), INDEX (field1)) 

The syntax is identical to what you are probably used to, but with the type specified at the end.

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