. */ Doctrine::autoload('Doctrine_Export'); /** * Doctrine_Export_Sqlite * * @package Doctrine * @author Konsta Vesterinen * @author Lukas Smith (PEAR MDB2 library) * @author Lorenzo Alberton (PEAR MDB2 Interbase driver) * @license http://www.opensource.org/licenses/lgpl-license.php LGPL * @category Object Relational Mapping * @link www.phpdoctrine.com * @since 1.0 * @version $Revision$ */ class Doctrine_Export_Firebird extends Doctrine_Export { /** * create a new database * * @param string $name name of the database that should be created * @return void */ public function createDatabase($name) { throw new Doctrine_Export_Firebird_Exception( 'PHP Interbase API does not support direct queries. You have to ' . 'create the db manually by using isql command or a similar program'); } /** * drop an existing database * * @param string $name name of the database that should be dropped * @return void */ public function dropDatabase($name) { throw new Doctrine_Export_Firebird_Exception( 'PHP Interbase API does not support direct queries. You have ' . 'to drop the db manually by using isql command or a similar program'); } /** * add an autoincrement sequence + trigger * * @param string $name name of the PK field * @param string $table name of the table * @param string $start start value for the sequence * @return void */ public function _makeAutoincrement($name, $table, $start = null) { if (is_null($start)) { $db->beginTransaction(); $query = 'SELECT MAX(' . $db->quoteIdentifier($name, true) . ') FROM ' . $db->quoteIdentifier($table, true); $start = $this->db->queryOne($query, 'integer'); if (PEAR::isError($start)) { return $start; } ++$start; $result = $db->manager->createSequence($table, $start); $db->commit(); } else { $result = $db->manager->createSequence($table, $start); } $sequence_name = $db->getSequenceName($table); $trigger_name = $db->quoteIdentifier($table . '_AUTOINCREMENT_PK', true); $table = $db->quoteIdentifier($table, true); $name = $db->quoteIdentifier($name, true); $trigger_sql = 'CREATE TRIGGER ' . $trigger_name . ' FOR ' . $table . ' ACTIVE BEFORE INSERT POSITION 0 AS BEGIN IF (NEW.' . $name . ' IS NULL OR NEW.' . $name . ' = 0) THEN NEW.' . $name . ' = GEN_ID('.$sequence_name.', 1); END'; $result = $db->exec($trigger_sql); $this->_silentCommit(); return $result; } /** * drop an existing autoincrement sequence + trigger * * @param string $table name of the table * @return void */ public function _dropAutoincrement($table) { $result = $this->dropSequence($table); /** if (PEAR::isError($result)) { return $db->raiseError(null, null, null, 'sequence for autoincrement PK could not be dropped', __FUNCTION__); } */ //remove autoincrement trigger associated with the table $table = $this->conn->getDbh()->quote(strtoupper($table)); $trigger_name = $this->conn->getDbh()->quote(strtoupper($table) . '_AUTOINCREMENT_PK'); $result = $this->conn->getDbh()->exec("DELETE FROM RDB\$TRIGGERS WHERE UPPER(RDB\$RELATION_NAME)=$table AND UPPER(RDB\$TRIGGER_NAME)=$trigger_name"); /** if (PEAR::isError($result)) { return $db->raiseError(null, null, null, 'trigger for autoincrement PK could not be dropped', __FUNCTION__); } */ } /** * create a new table * * @param string $name Name of the database that should be created * @param array $fields Associative array that contains the definition of each field of the new table * The indexes of the array entries are the names of the fields of the table an * the array entry values are associative arrays like those that are meant to be * passed with the field definitions to get[Type]Declaration() functions. * * Example * array( * * 'id' => array( * 'type' => 'integer', * 'unsigned' => 1, * 'notnull' => 1, * 'default' => 0, * ), * 'name' => array( * 'type' => 'text', * 'length' => 12, * ), * 'description' => array( * 'type' => 'text', * 'length' => 12, * ) * ); * @param array $options An associative array of table options: * * @return void */ public function createTable($name, $fields, $options = array()) { parent::createTable($name, $fields, $options); $this->_silentCommit(); foreach($fields as $field_name => $field) { if( ! empty($field['autoincrement'])) { //create PK constraint $pk_definition = array( 'fields' => array($field_name => array()), 'primary' => true, ); //$pk_name = $name.'_PK'; $pk_name = null; $result = $this->createConstraint($name, $pk_name, $pk_definition); //create autoincrement sequence + trigger return $this->_makeAutoincrement($field_name, $name, 1); } } } /** * Check if planned changes are supported * * @param string $name name of the database that should be dropped * @return void */ public function checkSupportedChanges(&$changes) { $db =& $this->getDBInstance(); if (PEAR::isError($db)) { return $db; } foreach ($changes as $change_name => $change) { switch ($change_name) { case 'notnull': return $db->raiseError(MDB2_ERROR_UNSUPPORTED, null, null, 'it is not supported changes to field not null constraint', __FUNCTION__); case 'default': return $db->raiseError(MDB2_ERROR_UNSUPPORTED, null, null, 'it is not supported changes to field default value', __FUNCTION__); case 'length': /* return $db->raiseError(MDB2_ERROR_UNSUPPORTED, null, null, 'it is not supported changes to field default length', __FUNCTION__); */ case 'unsigned': case 'type': case 'declaration': case 'definition': break; default: return $db->raiseError(MDB2_ERROR_UNSUPPORTED, null, null, 'it is not supported change of type' . $change_name, __FUNCTION__); } } return MDB2_OK; } /** * drop an existing table * * @param string $name name of the table that should be dropped * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ public function dropTable($name) { $result = $this->_dropAutoincrement($name); $result = parent::dropTable($name); //$this->_silentCommit(); return $result; } /** * alter an existing table * * @param string $name name of the table that is intended to be changed. * @param array $changes associative array that contains the details of each type * of change that is intended to be performed. The types of * changes that are currently supported are defined as follows: * * name * * New name for the table. * * add * * Associative array with the names of fields to be added as * indexes of the array. The value of each entry of the array * should be set to another associative array with the properties * of the fields to be added. The properties of the fields should * be the same as defined by the Metabase parser. * * * remove * * Associative array with the names of fields to be removed as indexes * of the array. Currently the values assigned to each entry are ignored. * An empty array should be used for future compatibility. * * rename * * Associative array with the names of fields to be renamed as indexes * of the array. The value of each entry of the array should be set to * another associative array with the entry named name with the new * field name and the entry named Declaration that is expected to contain * the portion of the field declaration already in DBMS specific SQL code * as it is used in the CREATE TABLE statement. * * change * * Associative array with the names of the fields to be changed as indexes * of the array. Keep in mind that if it is intended to change either the * name of a field and any other properties, the change array entries * should have the new names of the fields as array indexes. * * The value of each entry of the array should be set to another associative * array with the properties of the fields to that are meant to be changed as * array entries. These entries should be assigned to the new values of the * respective properties. The properties of the fields should be the same * as defined by the Metabase parser. * * Example * array( * 'name' => 'userlist', * 'add' => array( * 'quota' => array( * 'type' => 'integer', * 'unsigned' => 1 * ) * ), * 'remove' => array( * 'file_limit' => array(), * 'time_limit' => array() * ), * 'change' => array( * 'name' => array( * 'length' => '20', * 'definition' => array( * 'type' => 'text', * 'length' => 20, * ), * ) * ), * 'rename' => array( * 'sex' => array( * 'name' => 'gender', * 'definition' => array( * 'type' => 'text', * 'length' => 1, * 'default' => 'M', * ), * ) * ) * ) * * @param boolean $check indicates whether the function should just check if the DBMS driver * can perform the requested table alterations if the value is true or * actually perform them otherwise. * @return void */ public function alterTable($name, $changes, $check) { foreach ($changes as $change_name => $change) { switch ($change_name) { case 'add': case 'remove': case 'rename': break; case 'change': foreach ($changes['change'] as $field) { if (PEAR::isError($err = $this->checkSupportedChanges($field))) { return $err; } } break; default: return $db->raiseError(MDB2_ERROR_CANNOT_ALTER, null, null, 'change type ' . $change_name . ' not yet supported', __FUNCTION__); } } if ($check) { return MDB2_OK; } $query = ''; if (!empty($changes['add']) && is_array($changes['add'])) { foreach ($changes['add'] as $field_name => $field) { if ($query) { $query.= ', '; } $query.= 'ADD ' . $db->getDeclaration($field['type'], $field_name, $field, $name); } } if (!empty($changes['remove']) && is_array($changes['remove'])) { foreach ($changes['remove'] as $field_name => $field) { if ($query) { $query.= ', '; } $field_name = $db->quoteIdentifier($field_name, true); $query.= 'DROP ' . $field_name; } } if (!empty($changes['rename']) && is_array($changes['rename'])) { foreach ($changes['rename'] as $field_name => $field) { if ($query) { $query.= ', '; } $field_name = $db->quoteIdentifier($field_name, true); $query.= 'ALTER ' . $field_name . ' TO ' . $db->quoteIdentifier($field['name'], true); } } if (!empty($changes['change']) && is_array($changes['change'])) { // missing support to change DEFAULT and NULLability foreach ($changes['change'] as $field_name => $field) { if (PEAR::isError($err = $this->checkSupportedChanges($field))) { return $err; } if ($query) { $query.= ', '; } $db->loadModule('Datatype', null, true); $field_name = $db->quoteIdentifier($field_name, true); $query.= 'ALTER ' . $field_name.' TYPE ' . $db->datatype->getTypeDeclaration($field['definition']); } } if (!strlen($query)) { return MDB2_OK; } $name = $db->quoteIdentifier($name, true); $result = $db->exec("ALTER TABLE $name $query"); $this->_silentCommit(); return $result; } /** * Get the stucture of a field into an array * * @param string $table name of the table on which the index is to be created * @param string $name name of the index to be created * @param array $definition associative array that defines properties of the index to be created. * Currently, only one property named FIELDS is supported. This property * is also an associative with the names of the index fields as array * indexes. Each entry of this array is set to another type of associative * array that specifies properties of the index that are specific to * each field. * * Currently, only the sorting property is supported. It should be used * to define the sorting direction of the index. It may be set to either * ascending or descending. * * Not all DBMS support index sorting direction configuration. The DBMS * drivers of those that do not support it ignore this property. Use the * function support() to determine whether the DBMS driver can manage indexes. * Example * array( * 'fields' => array( * 'user_name' => array( * 'sorting' => 'ascending' * ), * 'last_login' => array() * ) * ) * @return void */ public function createIndex($table, $name, array $definition) { $query = 'CREATE'; $query_sort = ''; foreach ($definition['fields'] as $field) { if (!strcmp($query_sort, '') && isset($field['sorting'])) { switch ($field['sorting']) { case 'ascending': $query_sort = ' ASC'; break; case 'descending': $query_sort = ' DESC'; break; } } } $table = $this->conn->quoteIdentifier($table, true); $name = $this->conn->quoteIdentifier($this->conn->getIndexName($name), true); $query .= $query_sort. ' INDEX ' . $name . ' ON ' . $table; $fields = array(); foreach (array_keys($definition['fields']) as $field) { $fields[] = $this->conn->quoteIdentifier($field, true); } $query .= ' ('.implode(', ', $fields) . ')'; $result = $this->conn->getDbh()->exec($query); // todo: $this->_silentCommit(); return $result; } /** * create a constraint on a table * * @param string $table name of the table on which the constraint is to be created * @param string $name name of the constraint to be created * @param array $definition associative array that defines properties of the constraint to be created. * Currently, only one property named FIELDS is supported. This property * is also an associative with the names of the constraint fields as array * constraints. Each entry of this array is set to another type of associative * array that specifies properties of the constraint that are specific to * each field. * * Example * array( * 'fields' => array( * 'user_name' => array(), * 'last_login' => array(), * ) * ) * @return void */ public function createConstraint($table, $name, $definition) { $table = $db->quoteIdentifier($table, true); if (!empty($name)) { $name = $db->quoteIdentifier($db->getIndexName($name), true); } $query = "ALTER TABLE $table ADD"; if (!empty($definition['primary'])) { if (!empty($name)) { $query.= ' CONSTRAINT '.$name; } $query.= ' PRIMARY KEY'; } else { $query.= ' CONSTRAINT '. $name; if (!empty($definition['unique'])) { $query.= ' UNIQUE'; } } $fields = array(); foreach (array_keys($definition['fields']) as $field) { $fields[] = $db->quoteIdentifier($field, true); } $query .= ' ('. implode(', ', $fields) . ')'; $result = $db->exec($query); $this->_silentCommit(); return $result; } /** * create sequence * * @param string $seq_name name of the sequence to be created * @param string $start start value of the sequence; default is 1 * @return void */ public function createSequence($seq_name, $start = 1) { $sequence_name = $db->getSequenceName($seq_name); if (PEAR::isError($result = $db->exec('CREATE GENERATOR '.$sequence_name))) { return $result; } if (PEAR::isError($result = $db->exec('SET GENERATOR '.$sequence_name.' TO '.($start-1)))) { if (PEAR::isError($err = $db->dropSequence($seq_name))) { return $db->raiseError($result, null, null, 'Could not setup sequence start value and then it was not possible to drop it', __FUNCTION__); } } return $result; } /** * drop existing sequence * * @param string $seq_name name of the sequence to be dropped * @return void */ public function dropSequence($seq_name) { $sequence_name = $this->conn->getSequenceName($seq_name); $sequence_name = $this->conn->getDbh()->quote($sequence_name); $query = "DELETE FROM RDB\$GENERATORS WHERE UPPER(RDB\$GENERATOR_NAME)=$sequence_name"; return $this->conn->getDbh()->exec($query); } }