specification) * that describes the table's database columns. The specification * is also an array. The following specification parameters are defined: * * - 'description': A string in non-markup plain text describing this field * and its purpose. References to other tables should be enclosed in * curly-brackets. For example, the node table vid field * description might contain "Always holds the largest (most * recent) {node_revision}.vid value for this nid." * - 'type': The generic datatype: 'varchar', 'int', 'serial' * 'float', 'numeric', 'text', 'blob' or 'datetime'. Most types * just map to the according database engine specific * datatypes. Use 'serial' for auto incrementing fields. This * will expand to 'int auto_increment' on mysql. * - 'serialize': A boolean indicating whether the field will be stored as * a serialized string. * - 'size': The data size: 'tiny', 'small', 'medium', 'normal', * 'big'. This is a hint about the largest value the field will * store and determines which of the database engine specific * datatypes will be used (e.g. on MySQL, TINYINT vs. INT vs. BIGINT). * 'normal', the default, selects the base type (e.g. on MySQL, * INT, VARCHAR, BLOB, etc.). * * Not all sizes are available for all data types. See * db_type_map() for possible combinations. * - 'not null': If true, no NULL values will be allowed in this * database column. Defaults to false. * - 'default': The field's default value. The PHP type of the * value matters: '', '0', and 0 are all different. If you * specify '0' as the default value for a type 'int' field it * will not work because '0' is a string containing the * character "zero", not an integer. * - 'length': The maximal length of a type 'char', 'varchar' or 'text' * field. Ignored for other field types. * - 'unsigned': A boolean indicating whether a type 'int', 'float' * and 'numeric' only is signed or unsigned. Defaults to * FALSE. Ignored for other field types. * - 'precision', 'scale': For type 'numeric' fields, indicates * the precision (total number of significant digits) and scale * (decimal digits right of the decimal point). Both values are * mandatory. Ignored for other field types. * * All parameters apart from 'type' are optional except that type * 'numeric' columns must specify 'precision' and 'scale'. * * - 'primary key': An array of one or more key column specifiers (see below) * that form the primary key. * - 'unique keys': An associative array of unique keys ('keyname' => * specification). Each specification is an array of one or more * key column specifiers (see below) that form a unique key on the table. * - 'foreign keys': An associative array, each key references a column * of the local table, each value is an array with a single key pair as * 'tablename' => 'column' where 'column' is the foreign column to * reference. * - 'indexes': An associative array of indexes ('indexame' => * specification). Each specification is an array of one or more * key column specifiers (see below) that form an index on the * table. * * A key column specifier is either a string naming a column or an * array of two elements, column name and length, specifying a prefix * of the named column. * * As an example, here is a SUBSET of the schema definition for * Drupal's 'node' table. It show four fields (nid, vid, type, and * title), the primary key on field 'nid', a unique key named 'vid' on * field 'vid', and two indexes, one named 'nid' on field 'nid' and * one named 'node_title_type' on the field 'title' and the first four * bytes of the field 'type': * * @code * $schema['node'] = array( * 'description' => 'The base table for nodes.', * 'fields' => array( * 'nid' => array('type' => 'serial', 'unsigned' => TRUE, 'not null' => TRUE), * 'vid' => array('type' => 'int', 'unsigned' => TRUE, 'not null' => TRUE,'default' => 0), * 'type' => array('type' => 'varchar','length' => 32,'not null' => TRUE, 'default' => ''), * 'language' => array('type' => 'varchar','length' => 12,'not null' => TRUE,'default' => ''), * 'title' => array('type' => 'varchar','length' => 255,'not null' => TRUE, 'default' => ''), * 'uid' => array('type' => 'int', 'not null' => TRUE, 'default' => 0), * 'status' => array('type' => 'int', 'not null' => TRUE, 'default' => 1), * 'created' => array('type' => 'int', 'not null' => TRUE, 'default' => 0), * 'changed' => array('type' => 'int', 'not null' => TRUE, 'default' => 0), * 'comment' => array('type' => 'int', 'not null' => TRUE, 'default' => 0), * 'promote' => array('type' => 'int', 'not null' => TRUE, 'default' => 0), * 'moderate' => array('type' => 'int', 'not null' => TRUE,'default' => 0), * 'sticky' => array('type' => 'int', 'not null' => TRUE, 'default' => 0), * 'tnid' => array('type' => 'int', 'unsigned' => TRUE, 'not null' => TRUE, 'default' => 0), * 'translate' => array('type' => 'int', 'not null' => TRUE, 'default' => 0), * ), * 'indexes' => array( * 'node_changed' => array('changed'), * 'node_created' => array('created'), * 'node_moderate' => array('moderate'), * 'node_frontpage' => array('promote', 'status', 'sticky', 'created'), * 'node_status_type' => array('status', 'type', 'nid'), * 'node_title_type' => array('title', array('type', 4)), * 'node_type' => array(array('type', 4)), * 'uid' => array('uid'), * 'tnid' => array('tnid'), * 'translate' => array('translate'), * ), * 'unique keys' => array( * 'vid' => array('vid'), * ), * 'foreign keys' => array( * 'vid' => array('node_revision' => 'vid'), * 'uid' => array('users' => 'uid'), * ), * 'primary key' => array('nid'), * ); * @endcode * * @see drupal_install_schema() */ abstract class DatabaseSchema { protected $connection; public function __construct($connection) { $this->connection = $connection; } /** * Build a condition to match a table name against a standard information_schema. * * The information_schema is a SQL standard that provides information about the * database server and the databases, schemas, tables, columns and users within * it. This makes information_schema a useful tool to use across the drupal * database drivers and is used by a few different functions. The function below * describes the conditions to be meet when querying information_schema.tables * for drupal tables or information associated with drupal tables. Even though * this is the standard method, not all databases follow standards and so this * method should be overwritten by a database driver if the database provider * uses alternate methods. Because information_schema.tables is used in a few * different functions, a database driver will only need to override this function * to make all the others work. For example see includes/databases/mysql/schema.inc. * * @param $table_name * The name of the table to explode. * @param $operator * The operator to apply on the 'table' part of the condition. * @return * A DatabaseCondition object. */ protected function buildTableNameCondition($table_name, $operator = '=') { $info = Database::getConnectionInfo(); // The table name may describe the schema eg. schema.table. if (strpos($table_name, '.')) { list($schema, $table_name) = explode('.', $table_name); } else { $schema = 'public'; } $condition = new DatabaseCondition('AND'); $condition->condition('table_catalog', $info['default']['database']); $condition->condition('table_schema', $schema); $condition->condition('table_name', $table_name, $operator); return $condition; } /** * Check if a table exists. * * @param $table * The name of the table in drupal (no prefixing). * @return * false is no table exists otherwise the actual table name. */ public function tableExists($table) { $condition = $this->buildTableNameCondition($this->connection->prefixTables('{' . $table . '}')); $condition->compile($this->connection); // Normally, we would heartily discourage the use of string // concatination for conditionals like this however, we // couldn't use db_select() here because it would prefix // information_schema.tables and the query would fail. // Don't use {} around information_schema.tables table. return db_query("SELECT table_name FROM information_schema.tables WHERE " . (string) $condition, $condition->arguments())->fetchField(); } /** * Find all tables that are like the specified base table name. * * @param $table_expression * An SQL expression, for example "simpletest%" (without the quotes). * BEWARE: this is not prefixed, the caller should take care of that. * @return * Array, both the keys and the values are the matching tables. */ public function findTables($table_expression) { $condition = $this->buildTableNameCondition($table_expression, 'LIKE'); $condition->compile($this->connection); // Normally, we would heartily discourage the use of string // concatination for conditionals like this however, we // couldn't use db_select() here because it would prefix // information_schema.tables and the query would fail. // Don't use {} around information_schema.tables table. return db_query("SELECT table_name FROM information_schema.tables WHERE " . (string) $condition, $condition->arguments())->fetchAllKeyed(0, 0); } /** * Check if a column exists in the given table. */ public function columnExists($table, $column) { $condition = $this->buildTableNameCondition($this->connection->prefixTables('{' . $table . '}')); $condition->condition('column_name', $column); $condition->compile($this->connection); // Normally, we would heartily discourage the use of string // concatination for conditionals like this however, we // couldn't use db_select() here because it would prefix // information_schema.tables and the query would fail. // Don't use {} around information_schema.columns table. return db_query("SELECT column_name FROM information_schema.columns WHERE " . (string) $condition, $condition->arguments())->fetchAllKeyed(0, 0); } /** * This maps a generic data type in combination with its data size * to the engine-specific data type. */ abstract public function getFieldTypeMap(); /** * Rename a table. * * @param $ret * Array to which query results will be added. * @param $table * The table to be renamed. * @param $new_name * The new name for the table. */ abstract public function renameTable(&$ret, $table, $new_name); /** * Drop a table. * * @param $ret * Array to which query results will be added. * @param $table * The table to be dropped. */ abstract public function dropTable(&$ret, $table); /** * Add a new field to a table. * * @param $ret * Array to which query results will be added. * @param $table * Name of the table to be altered. * @param $field * Name of the field to be added. * @param $spec * The field specification array, as taken from a schema definition. * The specification may also contain the key 'initial', the newly * created field will be set to the value of the key in all rows. * This is most useful for creating NOT NULL columns with no default * value in existing tables. * @param $keys_new * Optional keys and indexes specification to be created on the * table along with adding the field. The format is the same as a * table specification but without the 'fields' element. If you are * adding a type 'serial' field, you MUST specify at least one key * or index including it in this array. @see db_change_field for more * explanation why. */ abstract public function addField(&$ret, $table, $field, $spec, $keys_new = array()); /** * Drop a field. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $field * The field to be dropped. */ abstract public function dropField(&$ret, $table, $field); /** * Set the default value for a field. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $field * The field to be altered. * @param $default * Default value to be set. NULL for 'default NULL'. */ abstract public function fieldSetDefault(&$ret, $table, $field, $default); /** * Set a field to have no default value. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $field * The field to be altered. */ abstract public function fieldSetNoDefault(&$ret, $table, $field); /** * Add a primary key. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $fields * Fields for the primary key. */ abstract public function addPrimaryKey(&$ret, $table, $fields); /** * Drop the primary key. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. */ abstract public function dropPrimaryKey(&$ret, $table); /** * Add a unique key. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $name * The name of the key. * @param $fields * An array of field names. */ abstract public function addUniqueKey(&$ret, $table, $name, $fields); /** * Drop a unique key. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $name * The name of the key. */ abstract public function dropUniqueKey(&$ret, $table, $name); /** * Add an index. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $name * The name of the index. * @param $fields * An array of field names. */ abstract public function addIndex(&$ret, $table, $name, $fields); /** * Drop an index. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $name * The name of the index. */ abstract public function dropIndex(&$ret, $table, $name); /** * Change a field definition. * * IMPORTANT NOTE: To maintain database portability, you have to explicitly * recreate all indices and primary keys that are using the changed field. * * That means that you have to drop all affected keys and indexes with * db_drop_{primary_key,unique_key,index}() before calling db_change_field(). * To recreate the keys and indices, pass the key definitions as the * optional $keys_new argument directly to db_change_field(). * * For example, suppose you have: * @code * $schema['foo'] = array( * 'fields' => array( * 'bar' => array('type' => 'int', 'not null' => TRUE) * ), * 'primary key' => array('bar') * ); * @endcode * and you want to change foo.bar to be type serial, leaving it as the * primary key. The correct sequence is: * @code * db_drop_primary_key($ret, 'foo'); * db_change_field($ret, 'foo', 'bar', 'bar', * array('type' => 'serial', 'not null' => TRUE), * array('primary key' => array('bar'))); * @endcode * * The reasons for this are due to the different database engines: * * On PostgreSQL, changing a field definition involves adding a new field * and dropping an old one which* causes any indices, primary keys and * sequences (from serial-type fields) that use the changed field to be dropped. * * On MySQL, all type 'serial' fields must be part of at least one key * or index as soon as they are created. You cannot use * db_add_{primary_key,unique_key,index}() for this purpose because * the ALTER TABLE command will fail to add the column without a key * or index specification. The solution is to use the optional * $keys_new argument to create the key or index at the same time as * field. * * You could use db_add_{primary_key,unique_key,index}() in all cases * unless you are converting a field to be type serial. You can use * the $keys_new argument in all cases. * * @param $ret * Array to which query results will be added. * @param $table * Name of the table. * @param $field * Name of the field to change. * @param $field_new * New name for the field (set to the same as $field if you don't want to change the name). * @param $spec * The field specification for the new field. * @param $keys_new * Optional keys and indexes specification to be created on the * table along with changing the field. The format is the same as a * table specification but without the 'fields' element. */ abstract public function changeField(&$ret, $table, $field, $field_new, $spec, $keys_new = array()); /** * Create a new table from a Drupal table definition. * * @param $ret * Array to which query results will be added. * @param $name * The name of the table to create. * @param $table * A Schema API table definition array. */ public function createTable(&$ret, $name, $table) { $statements = $this->createTableSql($name, $table); foreach ($statements as $statement) { $ret[] = update_sql($statement); } } /** * Return an array of field names from an array of key/index column specifiers. * * This is usually an identity function but if a key/index uses a column prefix * specification, this function extracts just the name. * * @param $fields * An array of key/index column specifiers. * @return * An array of field names. */ public function fieldNames($fields) { $ret = array(); foreach ($fields as $field) { if (is_array($field)) { $ret[] = $field[0]; } else { $ret[] = $field; } } return $ret; } /** * Prepare a table or column comment for database query. * * @param $comment * The comment string to prepare. * @param $length * Optional upper limit on the returned string length. * @return * The prepared comment. */ public function prepareComment($comment, $length = NULL) { return $this->connection->quote($comment); } } /** * @} End of "defgroup schemaapi". */