@title Database Schema @group developer This document describes key components of the database schema and should answer questions like how to store new types of data. = Database System = Phabricator uses MySQL with InnoDB engine. The only exception is the `search_documentfield` table which uses MyISAM because MySQL doesn't support fulltext search in InnoDB. Let us know if you need to use other database system: @{article:Give Feedback! Get Support!}. = PHP Drivers = Phabricator supports [[ http://www.php.net/book.mysql | MySQL ]] and [[ http://www.php.net/book.mysqli | MySQLi ]] PHP extensions. Most installations use MySQL but MySQLi should work equally well. = Databases = Each Phabricator application has its own database. The names are prefixed by `phabricator_`. This design has two advantages: * Each database is easier to comprehend and to maintain. * We don't do cross-database joins so each database can live on its own machine which is useful for load-balancing. = Connections = Phabricator specifies if it will use any opened connection just for reading or also for writing. This allows opening write connections to master and read connections to slave in master/slave replication. It is useful for load-balancing. = Tables = Each table name is prefixed by its application. For example, Differential revisions are stored in database `phabricator_differential` and table `differential_revision`. This duplicity allows easy recognition of the table in DarkConsole (see @{article:Using DarkConsole}) and other places. The exception is tables which share the same schema over different databases such as `edge`. We use lower-case table names with words separated by underscores. = Column Names = Phabricator uses camelCase names for columns. The main advantage is that they directly map to properties in PHP classes. Don't use MySQL reserved words (such as `order`) for column names. = Data Types = Phabricator uses `int unsigned` columns for storing dates instead of `date` or `datetime`. We don't need to care about time-zones in both MySQL and PHP because of it. The other reason is that PHP internally uses numbers for storing dates. Phabricator uses UTF-8 encoding for storing all text data. We use `utf8_general_ci` collation for free-text and `utf8_bin` for identifiers. We don't use the `enum` data type because each change to the list of possible values requires altering the table (which is slow with big tables). We use numbers (or short strings in some cases) mapped to PHP constants instead. = JSON = Some data don't require structured access - you don't need to filter or order by them. We store these data as text fields in JSON format. This approach has several advantages: * If we decide to add another unstructured field then we don't need to alter the table (which is slow for big tables in MySQL). * Table structure is not cluttered by fields which could be unused most of the time. An example of such usage can be found in column `differential_diffproperty.data`. = Primary Keys = Most tables have auto-increment column named `id`. However creating such column is not required for tables which are not usually directly referenced (such as tables expressing M:N relations). Example of such table is `differential_relationship`. = Indexes = Create all indexes necessary for fast query execution in most cases. Don't create indexes which are not used. You can analyze queries @{article:Using DarkConsole}. = Foreign Keys = We don't use InnoDB's foreign keys because our application is so great that no inconsistencies can arise. It will just slow us down. = PHIDs = Each globally referencable object in Phabricator has its associated PHID (Phabricator ID) which serves as a global identifier. We use PHIDs for referencing data in different databases. We use both autoincrementing IDs and global PHIDs because each is useful in different contexts. Autoincrementing IDs are chronologically ordered and allow us to construct short, human-readable object names (like D2258) and URIs. Global PHIDs allow us to represent relationships between different types of objects in a homogenous way. For example, the concept of "subscribers" is more powerfully done with PHIDs because we could theoretically have users, projects, teams, and more all as "subscribers" of other objects. Using an ID column we would need to add a "type" column to avoid ID collision; using PHIDs does not require this additional column. = Transactions = Transactional code should be written using transactions. Example of such code is inserting multiple records where one doesn't make sense without the other or selecting data later used for update. See chapter in @{class:LiskDAO}. = Advanced Features = We don't use MySQL advanced features such as triggers, stored procedures or events because we like expressing the application logic in PHP more than in SQL. Some of these features (especially triggers) can also cause big confusion. Avoiding these advanced features is also good for supporting other database systems (which we don't support anyway). = Schema Denormalization = Phabricator uses schema denormalization for performance reasons sparingly. Try to avoid it if possible. = Changing the Schema = There are three simple steps to update the schema: # Create a `.sql` file in `resources/sql/patches/`. This file should: - Contain the approprate MySQL commands to update the schema. - Use `${NAMESPACE}` rather than `phabricator` for database names. - Use `COLLATE utf8_bin` for any columns that are to be used as identifiers, such as PHID columns. Otherwise, use `COLLATE utf8_general_ci`. - Name all indexes so it is possible to delete them later. # Edit `src/infrastructure/storage/patch/PhabricatorBuiltinPatchList.php` and add your patch to @{method@phabricator:PhabricatorBuiltinPatchList::getPatches}. # Run `bin/storage/upgrade`. It is also possible to create more complex patch in PHP. See the [[https://secure.phabricator.com/rPb39175342dc5bee0c2246b05fa277e76a7e96ed3 | commit adding policy storage for Paste ]] for a reasonable example of the code changes. = See Also = * @{class:LiskDAO} * @{class:PhabricatorPHID}