. * */ require_once 'MDB2/Driver/Manager/Common.php'; /** * MDB2 SQLite driver for the management modules * * @package MDB2 * @category Database * @author Lukas Smith * @author Lorenzo Alberton */ class MDB2_Driver_Manager_sqlite3 extends MDB2_Driver_Manager_Common { // {{{ createDatabase() /** * create a new database * * @param string $name name of the database that should be created * @param array $options array with charset info * * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function createDatabase($name, $options = array()) { $datadir=OC_Config::getValue( "datadirectory", OC::$SERVERROOT."/data" ); $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $database_file = $db->_getDatabaseFile($name); if (file_exists($database_file)) { return $db->raiseError(MDB2_ERROR_ALREADY_EXISTS, null, null, 'database already exists', __FUNCTION__); } $php_errormsg = ''; $database_file="$datadir/$database_file.db"; $handle=new SQLite3($database_file); if (!$handle) { return $db->raiseError(MDB2_ERROR_CANNOT_CREATE, null, null, (isset($php_errormsg) ? $php_errormsg : 'could not create the database file'), __FUNCTION__); } //sqlite doesn't support the latin1 we use // if (!empty($options['charset'])) { // $query = 'PRAGMA encoding = ' . $db->quote($options['charset'], 'text'); // $handle->exec($query); // } $handle->close(); return MDB2_OK; } // }}} // {{{ dropDatabase() /** * drop an existing database * * @param string $name name of the database that should be dropped * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function dropDatabase($name) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $database_file = $db->_getDatabaseFile($name); if (!@file_exists($database_file)) { return $db->raiseError(MDB2_ERROR_CANNOT_DROP, null, null, 'database does not exist', __FUNCTION__); } $result = @unlink($database_file); if (!$result) { return $db->raiseError(MDB2_ERROR_CANNOT_DROP, null, null, (isset($php_errormsg) ? $php_errormsg : 'could not remove the database file'), __FUNCTION__); } return MDB2_OK; } // }}} // {{{ _getAdvancedFKOptions() /** * Return the FOREIGN KEY query section dealing with non-standard options * as MATCH, INITIALLY DEFERRED, ON UPDATE, ... * * @param array $definition * @return string * @access protected */ function _getAdvancedFKOptions($definition) { $query = ''; if (!empty($definition['match'])) { $query .= ' MATCH '.$definition['match']; } if (!empty($definition['onupdate']) && (strtoupper($definition['onupdate']) != 'NO ACTION')) { $query .= ' ON UPDATE '.$definition['onupdate']; } if (!empty($definition['ondelete']) && (strtoupper($definition['ondelete']) != 'NO ACTION')) { $query .= ' ON DELETE '.$definition['ondelete']; } if (!empty($definition['deferrable'])) { $query .= ' DEFERRABLE'; } else { $query .= ' NOT DEFERRABLE'; } if (!empty($definition['initiallydeferred'])) { $query .= ' INITIALLY DEFERRED'; } else { $query .= ' INITIALLY IMMEDIATE'; } return $query; } // }}} // {{{ _getCreateTableQuery() /** * Create a basic SQL query for a new table creation * @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 * @param array $options An associative array of table options * @return mixed string (the SQL query) on success, a MDB2 error on failure * @see createTable() */ function _getCreateTableQuery($name, $fields, $options = array()) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } if (!$name) { return $db->raiseError(MDB2_ERROR_CANNOT_CREATE, null, null, 'no valid table name specified', __FUNCTION__); } if (empty($fields)) { return $db->raiseError(MDB2_ERROR_CANNOT_CREATE, null, null, 'no fields specified for table "'.$name.'"', __FUNCTION__); } $query_fields = $this->getFieldDeclarationList($fields); if (PEAR::isError($query_fields)) { return $query_fields; } if (!empty($options['foreign_keys'])) { foreach ($options['foreign_keys'] as $fkname => $fkdef) { if (empty($fkdef)) { continue; } $query_fields.= ', CONSTRAINT '.$fkname.' FOREIGN KEY ('.implode(', ', array_keys($fkdef['fields'])).')'; $query_fields.= ' REFERENCES '.$fkdef['references']['table'].' ('.implode(', ', array_keys($fkdef['references']['fields'])).')'; $query_fields.= $this->_getAdvancedFKOptions($fkdef); } } $name = $db->quoteIdentifier($name, true); $result = 'CREATE '; if (!empty($options['temporary'])) { $result .= $this->_getTemporaryTableQuery(); } $result .= " TABLE $name ($query_fields)"; return $result; } // }}} // {{{ createTable() /** * 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 * @param array $options An associative array of table options * * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function createTable($name, $fields, $options = array()) { $result = parent::createTable($name, $fields, $options); if (PEAR::isError($result)) { return $result; } // create triggers to enforce FOREIGN KEY constraints if (!empty($options['foreign_keys'])) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } foreach ($options['foreign_keys'] as $fkname => $fkdef) { if (empty($fkdef)) { continue; } //set actions to default if not set $fkdef['onupdate'] = empty($fkdef['onupdate']) ? $db->options['default_fk_action_onupdate'] : strtoupper($fkdef['onupdate']); $fkdef['ondelete'] = empty($fkdef['ondelete']) ? $db->options['default_fk_action_ondelete'] : strtoupper($fkdef['ondelete']); $trigger_names = array( 'insert' => $fkname.'_insert_trg', 'update' => $fkname.'_update_trg', 'pk_update' => $fkname.'_pk_update_trg', 'pk_delete' => $fkname.'_pk_delete_trg', ); //create the [insert|update] triggers on the FK table $table_fields = array_keys($fkdef['fields']); $referenced_fields = array_keys($fkdef['references']['fields']); $query = 'CREATE TRIGGER %s BEFORE %s ON '.$name .' FOR EACH ROW BEGIN' .' SELECT RAISE(ROLLBACK, \'%s on table "'.$name.'" violates FOREIGN KEY constraint "'.$fkname.'"\')' .' WHERE (SELECT '; $aliased_fields = array(); foreach ($referenced_fields as $field) { $aliased_fields[] = $fkdef['references']['table'] .'.'.$field .' AS '.$field; } $query .= implode(',', $aliased_fields) .' FROM '.$fkdef['references']['table'] .' WHERE '; $conditions = array(); for ($i=0; $iexec(sprintf($query, $trigger_names['insert'], 'INSERT', 'insert')); if (PEAR::isError($result)) { return $result; } $result = $db->exec(sprintf($query, $trigger_names['update'], 'UPDATE', 'update')); if (PEAR::isError($result)) { return $result; } //create the ON [UPDATE|DELETE] triggers on the primary table $restrict_action = 'SELECT RAISE(ROLLBACK, \'%s on table "'.$name.'" violates FOREIGN KEY constraint "'.$fkname.'"\')' .' WHERE (SELECT '; $aliased_fields = array(); foreach ($table_fields as $field) { $aliased_fields[] = $name .'.'.$field .' AS '.$field; } $restrict_action .= implode(',', $aliased_fields) .' FROM '.$name .' WHERE '; $conditions = array(); $new_values = array(); $null_values = array(); for ($i=0; $i OLD.'.$referenced_fields[$i]; } $restrict_action .= implode(' AND ', $conditions).') IS NOT NULL' .' AND (' .implode(' OR ', $conditions2) .')'; $cascade_action_update = 'UPDATE '.$name.' SET '.implode(', ', $new_values) .' WHERE '.implode(' AND ', $conditions); $cascade_action_delete = 'DELETE FROM '.$name.' WHERE '.implode(' AND ', $conditions); $setnull_action = 'UPDATE '.$name.' SET '.implode(', ', $null_values).' WHERE '.implode(' AND ', $conditions); if ('SET DEFAULT' == $fkdef['onupdate'] || 'SET DEFAULT' == $fkdef['ondelete']) { $db->loadModule('Reverse', null, true); $default_values = array(); foreach ($table_fields as $table_field) { $field_definition = $db->reverse->getTableFieldDefinition($name, $field); if (PEAR::isError($field_definition)) { return $field_definition; } $default_values[] = $table_field .' = '. $field_definition[0]['default']; } $setdefault_action = 'UPDATE '.$name.' SET '.implode(', ', $default_values).' WHERE '.implode(' AND ', $conditions); } $query = 'CREATE TRIGGER %s' .' %s ON '.$fkdef['references']['table'] .' FOR EACH ROW BEGIN '; if ('CASCADE' == $fkdef['onupdate']) { $sql_update = sprintf($query, $trigger_names['pk_update'], 'AFTER UPDATE', 'update') . $cascade_action_update. '; END;'; } elseif ('SET NULL' == $fkdef['onupdate']) { $sql_update = sprintf($query, $trigger_names['pk_update'], 'BEFORE UPDATE', 'update') . $setnull_action. '; END;'; } elseif ('SET DEFAULT' == $fkdef['onupdate']) { $sql_update = sprintf($query, $trigger_names['pk_update'], 'BEFORE UPDATE', 'update') . $setdefault_action. '; END;'; } elseif ('NO ACTION' == $fkdef['onupdate']) { $sql_update = sprintf($query.$restrict_action, $trigger_names['pk_update'], 'AFTER UPDATE', 'update') . '; END;'; } elseif ('RESTRICT' == $fkdef['onupdate']) { $sql_update = sprintf($query.$restrict_action, $trigger_names['pk_update'], 'BEFORE UPDATE', 'update') . '; END;'; } if ('CASCADE' == $fkdef['ondelete']) { $sql_delete = sprintf($query, $trigger_names['pk_delete'], 'AFTER DELETE', 'delete') . $cascade_action_delete. '; END;'; } elseif ('SET NULL' == $fkdef['ondelete']) { $sql_delete = sprintf($query, $trigger_names['pk_delete'], 'BEFORE DELETE', 'delete') . $setnull_action. '; END;'; } elseif ('SET DEFAULT' == $fkdef['ondelete']) { $sql_delete = sprintf($query, $trigger_names['pk_delete'], 'BEFORE DELETE', 'delete') . $setdefault_action. '; END;'; } elseif ('NO ACTION' == $fkdef['ondelete']) { $sql_delete = sprintf($query.$restrict_action, $trigger_names['pk_delete'], 'AFTER DELETE', 'delete') . '; END;'; } elseif ('RESTRICT' == $fkdef['ondelete']) { $sql_delete = sprintf($query.$restrict_action, $trigger_names['pk_delete'], 'BEFORE DELETE', 'delete') . '; END;'; } if (PEAR::isError($result)) { return $result; } $result = $db->exec($sql_delete); if (PEAR::isError($result)) { return $result; } $result = $db->exec($sql_update); if (PEAR::isError($result)) { return $result; } } } if (PEAR::isError($result)) { return $result; } return MDB2_OK; } // }}} // {{{ dropTable() /** * drop an existing table * * @param string $name name of the table that should be dropped * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function dropTable($name) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } //delete the triggers associated to existing FK constraints $constraints = $this->listTableConstraints($name); if (!PEAR::isError($constraints) && !empty($constraints)) { $db->loadModule('Reverse', null, true); foreach ($constraints as $constraint) { $definition = $db->reverse->getTableConstraintDefinition($name, $constraint); if (!PEAR::isError($definition) && !empty($definition['foreign'])) { $result = $this->_dropFKTriggers($name, $constraint, $definition['references']['table']); if (PEAR::isError($result)) { return $result; } } } } $name = $db->quoteIdentifier($name, true); return $db->exec("DROP TABLE $name"); } // }}} // {{{ vacuum() /** * Optimize (vacuum) all the tables in the db (or only the specified table) * and optionally run ANALYZE. * * @param string $table table name (all the tables if empty) * @param array $options an array with driver-specific options: * - timeout [int] (in seconds) [mssql-only] * - analyze [boolean] [pgsql and mysql] * - full [boolean] [pgsql-only] * - freeze [boolean] [pgsql-only] * * @return mixed MDB2_OK success, a MDB2 error on failure * @access public */ function vacuum($table = null, $options = array()) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $query = 'VACUUM'; if (!empty($table)) { $query .= ' '.$db->quoteIdentifier($table, true); } return $db->exec($query); } // }}} // {{{ alterTable() /** * 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 MDB2 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 MDB2 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 $check indicates whether the function should just check if the DBMS driver * can perform the requested table alterations if the value is true or * actually perform them otherwise. * @access public * * @return mixed MDB2_OK on success, a MDB2 error on failure */ function alterTable($name, $changes, $check, $options = array()) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } foreach ($changes as $change_name => $change) { switch ($change_name) { case 'add': case 'remove': case 'change': case 'name': case 'rename': break; default: return $db->raiseError(MDB2_ERROR_CANNOT_ALTER, null, null, 'change type "'.$change_name.'" not yet supported', __FUNCTION__); } } if ($check) { return MDB2_OK; } if (empty($changes['remove']) and empty($changes['rename']) and empty($changes['change']) ){//if only rename or add changes are required, we can use ALTER TABLE $query = ''; if (!empty($changes['name'])) { $change_name = $db->quoteIdentifier($changes['name'], true); $query = 'RENAME TO ' . $change_name; $db->exec("ALTER TABLE $name $query"); } if (!empty($changes['add']) && is_array($changes['add'])) { foreach ($changes['add'] as $field_name => $field) { $query= 'ADD ' . $db->getDeclaration($field['type'], $field_name, $field); $db->exec("ALTER TABLE $name $query"); } } return MDB2_OK; } $db->loadModule('Reverse', null, true); // for other operations we need to emulate them with sqlite3 $fields = $db->manager->listTableFields($name); if (PEAR::isError($fields)) { return $fields; } $fields = array_flip($fields); foreach ($fields as $field => $value) { $definition = $db->reverse->getTableFieldDefinition($name, $field); if (PEAR::isError($definition)) { return $definition; } $fields[$field] = $definition[0]; } $indexes = $db->manager->listTableIndexes($name); if (PEAR::isError($indexes)) { return $indexes; } $indexes = array_flip($indexes); foreach ($indexes as $index => $value) { $definition = $db->reverse->getTableIndexDefinition($name, $index); if (PEAR::isError($definition)) { return $definition; } $indexes[$index] = $definition; } $constraints = $db->manager->listTableConstraints($name); if (PEAR::isError($constraints)) { return $constraints; } if (!array_key_exists('foreign_keys', $options)) { $options['foreign_keys'] = array(); } $constraints = array_flip($constraints); foreach ($constraints as $constraint => $value) { if (!empty($definition['primary'])) { if (!array_key_exists('primary', $options)) { $options['primary'] = $definition['fields']; //remove from the $constraint array, it's already handled by createTable() unset($constraints[$constraint]); } } else { $c_definition = $db->reverse->getTableConstraintDefinition($name, $constraint); if (PEAR::isError($c_definition)) { return $c_definition; } if (!empty($c_definition['foreign'])) { if (!array_key_exists($constraint, $options['foreign_keys'])) { $options['foreign_keys'][$constraint] = $c_definition; } //remove from the $constraint array, it's already handled by createTable() unset($constraints[$constraint]); } else { $constraints[$constraint] = $c_definition; } } } $name_new = $name; $create_order = $select_fields = array_keys($fields); foreach ($changes as $change_name => $change) { switch ($change_name) { case 'add': foreach ($change as $field_name => $field) { $fields[$field_name] = $field; $create_order[] = $field_name; } break; case 'remove': foreach ($change as $field_name => $field) { unset($fields[$field_name]); $select_fields = array_diff($select_fields, array($field_name)); $create_order = array_diff($create_order, array($field_name)); } break; case 'change': foreach ($change as $field_name => $field) { $fields[$field_name] = $field['definition']; } break; case 'name': $name_new = $change; break; case 'rename': foreach ($change as $field_name => $field) { unset($fields[$field_name]); $fields[$field['name']] = $field['definition']; $create_order[array_search($field_name, $create_order)] = $field['name']; } break; default: return $db->raiseError(MDB2_ERROR_CANNOT_ALTER, null, null, 'change type "'.$change_name.'" not yet supported', __FUNCTION__); } } //rename the old table so we can create the new one $db->exec("ALTER TABLE $name RENAME TO __$name"); $data = null; $result = $this->createTable($name_new, $fields, $options); if (PEAR::isError($result)) { return $result; } //these seem to only give errors // foreach ($indexes as $index => $definition) { // $this->createIndex($name_new, $index, $definition); // } // foreach ($constraints as $constraint => $definition) { // $this->createConstraint($name_new, $constraint, $definition); // } //fill the new table with data from the old one if (!empty($select_fields)) { $query = 'INSERT INTO '.$db->quoteIdentifier($name_new, true); $query.= '('.implode(', ', array_slice(array_keys($fields), 0, count($select_fields))).')'; $query .= ' SELECT '.implode(', ', $select_fields).' FROM '.$db->quoteIdentifier('__'.$name, true); $db->exec($query); } // if (!empty($select_fields) && !empty($data)) { // $query = 'INSERT INTO '.$db->quoteIdentifier($name_new, true); // $query.= '('.implode(', ', array_slice(array_keys($fields), 0, count($select_fields))).')'; // $query.=' VALUES (?'.str_repeat(', ?', (count($select_fields) - 1)).')'; // $stmt =$db->prepare($query, null, MDB2_PREPARE_MANIP); // if (PEAR::isError($stmt)) { // return $stmt; // } // foreach ($data as $row) { // $result = $stmt->execute($row); // if (PEAR::isError($result)) { // return $result; // } // } // } //remove the old table $result = $this->dropTable('__'.$name); if (PEAR::isError($result)) { return $result; } return MDB2_OK; } // }}} // {{{ listDatabases() /** * list all databases * * @return mixed array of database names on success, a MDB2 error on failure * @access public */ function listDatabases() { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } return $db->raiseError(MDB2_ERROR_UNSUPPORTED, null, null, 'list databases is not supported', __FUNCTION__); } // }}} // {{{ listUsers() /** * list all users * * @return mixed array of user names on success, a MDB2 error on failure * @access public */ function listUsers() { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } return $db->raiseError(MDB2_ERROR_UNSUPPORTED, null, null, 'list databases is not supported', __FUNCTION__); } // }}} // {{{ listViews() /** * list all views in the current database * * @return mixed array of view names on success, a MDB2 error on failure * @access public */ function listViews($dummy=null) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $query = "SELECT name FROM sqlite_master WHERE type='view' AND sql NOT NULL"; $result = $db->queryCol($query); if (PEAR::isError($result)) { return $result; } if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $result = array_map(($db->options['field_case'] == CASE_LOWER ? 'strtolower' : 'strtoupper'), $result); } return $result; } // }}} // {{{ listTableViews() /** * list the views in the database that reference a given table * * @param string table for which all referenced views should be found * @return mixed array of view names on success, a MDB2 error on failure * @access public */ function listTableViews($table) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $query = "SELECT name, sql FROM sqlite_master WHERE type='view' AND sql NOT NULL"; $views = $db->queryAll($query, array('text', 'text'), MDB2_FETCHMODE_ASSOC); if (PEAR::isError($views)) { return $views; } $result = array(); foreach ($views as $row) { if (preg_match("/^create view .* \bfrom\b\s+\b{$table}\b /i", $row['sql'])) { if (!empty($row['name'])) { $result[$row['name']] = true; } } } if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $result = array_change_key_case($result, $db->options['field_case']); } return array_keys($result); } // }}} // {{{ listTables() /** * list all tables in the current database * * @return mixed array of table names on success, a MDB2 error on failure * @access public */ function listTables($dummy=null) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $query = "SELECT name FROM sqlite_master WHERE type='table' AND sql NOT NULL AND name!='sqlite_sequence' ORDER BY name"; $table_names = $db->queryCol($query); if (PEAR::isError($table_names)) { return $table_names; } $result = array(); foreach ($table_names as $table_name) { if (!$this->_fixSequenceName($table_name, true)) { $result[] = $table_name; } } if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $result = array_map(($db->options['field_case'] == CASE_LOWER ? 'strtolower' : 'strtoupper'), $result); } return $result; } // }}} // {{{ listTableFields() /** * list all fields in a table in the current database * * @param string $table name of table that should be used in method * @return mixed array of field names on success, a MDB2 error on failure * @access public */ function listTableFields($table) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $result = $db->loadModule('Reverse', null, true); if (PEAR::isError($result)) { return $result; } $query = "SELECT sql FROM sqlite_master WHERE type='table' AND "; if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $query.= 'LOWER(name)='.$db->quote(strtolower($table), 'text'); } else { $query.= 'name='.$db->quote($table, 'text'); } $sql = $db->queryOne($query); if (PEAR::isError($sql)) { return $sql; } $columns = $db->reverse->_getTableColumns($sql); $fields = array(); foreach ($columns as $column) { if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { if ($db->options['field_case'] == CASE_LOWER) { $column['name'] = strtolower($column['name']); } else { $column['name'] = strtoupper($column['name']); } } else { $column = array_change_key_case($column, $db->options['field_case']); } $fields[] = $column['name']; } return $fields; } // }}} // {{{ listTableTriggers() /** * list all triggers in the database that reference a given table * * @param string table for which all referenced triggers should be found * @return mixed array of trigger names on success, a MDB2 error on failure * @access public */ function listTableTriggers($table = null) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $query = "SELECT name FROM sqlite_master WHERE type='trigger' AND sql NOT NULL"; if (!is_null($table)) { if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $query.= ' AND LOWER(tbl_name)='.$db->quote(strtolower($table), 'text'); } else { $query.= ' AND tbl_name='.$db->quote($table, 'text'); } } $result = $db->queryCol($query); if (PEAR::isError($result)) { return $result; } if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $result = array_map(($db->options['field_case'] == CASE_LOWER ? 'strtolower' : 'strtoupper'), $result); } return $result; } // }}} // {{{ createIndex() /** * 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 $definition associative array that defines properties of the index to be created. * Currently, only one property named FIELDS is supported. This property * is also an associative with the names of the index fields as array * indexes. Each entry of this array is set to another type of associative * array that specifies properties of the index that are specific to * each field. * * Currently, only the sorting property is supported. It should be used * to define the sorting direction of the index. It may be set to either * ascending or descending. * * Not all DBMS support index sorting direction configuration. The DBMS * drivers of those that do not support it ignore this property. Use the * function support() to determine whether the DBMS driver can manage indexes. * Example * array( * 'fields' => array( * 'user_name' => array( * 'sorting' => 'ascending' * ), * 'last_login' => array() * ) * ) * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function createIndex($table, $name, $definition) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $table = $db->quoteIdentifier($table, true); $name = $db->getIndexName($name); $query = "CREATE INDEX $name ON $table"; $fields = array(); foreach ($definition['fields'] as $field_name => $field) { $field_string = $field_name; if (!empty($field['sorting'])) { switch ($field['sorting']) { case 'ascending': $field_string.= ' ASC'; break; case 'descending': $field_string.= ' DESC'; break; } } $fields[] = $field_string; } $query .= ' ('.implode(', ', $fields) . ')'; return $db->exec($query); } // }}} // {{{ dropIndex() /** * drop existing index * * @param string $table name of table that should be used in method * @param string $name name of the index to be dropped * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function dropIndex($table, $name) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $name = $db->getIndexName($name); return $db->exec("DROP INDEX $name"); } // }}} // {{{ listTableIndexes() /** * list all indexes in a table * * @param string $table name of table that should be used in method * @return mixed array of index names on success, a MDB2 error on failure * @access public */ function listTableIndexes($table) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $table = $db->quote($table, 'text'); $query = "SELECT sql FROM sqlite_master WHERE type='index' AND "; if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $query.= 'LOWER(tbl_name)='.strtolower($table); } else { $query.= "tbl_name=$table"; } $query.= " AND sql NOT NULL ORDER BY name"; $indexes = $db->queryCol($query, 'text'); if (PEAR::isError($indexes)) { return $indexes; } $result = array(); foreach ($indexes as $sql) { if (preg_match("/^create index ([^ ]+) on /i", $sql, $tmp)) { $index = $this->_fixIndexName($tmp[1]); if (!empty($index)) { $result[$index] = true; } } } if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $result = array_change_key_case($result, $db->options['field_case']); } return array_keys($result); } // }}} // {{{ createConstraint() /** * 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 $definition associative array that defines properties of the constraint to be created. * Currently, only one property named FIELDS is supported. This property * is also an associative with the names of the constraint fields as array * constraints. Each entry of this array is set to another type of associative * array that specifies properties of the constraint that are specific to * each field. * * Example * array( * 'fields' => array( * 'user_name' => array(), * 'last_login' => array() * ) * ) * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function createConstraint($table, $name, $definition) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } if (!empty($definition['primary'])) { return $db->manager->alterTable($table, array(), false, array('primary' => $definition['fields'])); } if (!empty($definition['foreign'])) { return $db->manager->alterTable($table, array(), false, array('foreign_keys' => array($name => $definition))); } $table = $db->quoteIdentifier($table, true); $name = $db->getIndexName($name); $query = "CREATE UNIQUE INDEX $name ON $table"; $fields = array(); foreach ($definition['fields'] as $field_name => $field) { $field_string = $field_name; if (!empty($field['sorting'])) { switch ($field['sorting']) { case 'ascending': $field_string.= ' ASC'; break; case 'descending': $field_string.= ' DESC'; break; } } $fields[] = $field_string; } $query .= ' ('.implode(', ', $fields) . ')'; return $db->exec($query); } // }}} // {{{ dropConstraint() /** * drop existing constraint * * @param string $table name of table that should be used in method * @param string $name name of the constraint to be dropped * @param string $primary hint if the constraint is primary * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function dropConstraint($table, $name, $primary = false) { if ($primary || $name == 'PRIMARY') { return $this->alterTable($table, array(), false, array('primary' => null)); } $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } //is it a FK constraint? If so, also delete the associated triggers $db->loadModule('Reverse', null, true); $definition = $db->reverse->getTableConstraintDefinition($table, $name); if (!PEAR::isError($definition) && !empty($definition['foreign'])) { //first drop the FK enforcing triggers $result = $this->_dropFKTriggers($table, $name, $definition['references']['table']); if (PEAR::isError($result)) { return $result; } //then drop the constraint itself return $this->alterTable($table, array(), false, array('foreign_keys' => array($name => null))); } $name = $db->getIndexName($name); return $db->exec("DROP INDEX $name"); } // }}} // {{{ _dropFKTriggers() /** * Drop the triggers created to enforce the FOREIGN KEY constraint on the table * * @param string $table table name * @param string $fkname FOREIGN KEY constraint name * @param string $referenced_table referenced table name * * @return mixed MDB2_OK on success, a MDB2 error on failure * @access private */ function _dropFKTriggers($table, $fkname, $referenced_table) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $triggers = $this->listTableTriggers($table); $triggers2 = $this->listTableTriggers($referenced_table); if (!PEAR::isError($triggers2) && !PEAR::isError($triggers)) { $triggers = array_merge($triggers, $triggers2); $pattern = '/^'.$fkname.'(_pk)?_(insert|update|delete)_trg$/i'; foreach ($triggers as $trigger) { if (preg_match($pattern, $trigger)) { $result = $db->exec('DROP TRIGGER '.$trigger); if (PEAR::isError($result)) { return $result; } } } } return MDB2_OK; } // }}} // {{{ listTableConstraints() /** * list all constraints in a table * * @param string $table name of table that should be used in method * @return mixed array of constraint names on success, a MDB2 error on failure * @access public */ function listTableConstraints($table) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $table = $db->quote($table, 'text'); $query = "SELECT sql FROM sqlite_master WHERE type='index' AND "; if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $query.= 'LOWER(tbl_name)='.strtolower($table); } else { $query.= "tbl_name=$table"; } $query.= " AND sql NOT NULL ORDER BY name"; $indexes = $db->queryCol($query, 'text'); if (PEAR::isError($indexes)) { return $indexes; } $result = array(); foreach ($indexes as $sql) { if (preg_match("/^create unique index ([^ ]+) on /i", $sql, $tmp)) { $index = $this->_fixIndexName($tmp[1]); if (!empty($index)) { $result[$index] = true; } } } // also search in table definition for PRIMARY KEYs... $query = "SELECT sql FROM sqlite_master WHERE type='table' AND "; if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $query.= 'LOWER(name)='.strtolower($table); } else { $query.= "name=$table"; } $query.= " AND sql NOT NULL ORDER BY name"; $table_def = $db->queryOne($query, 'text'); if (PEAR::isError($table_def)) { return $table_def; } if (preg_match("/\bPRIMARY\s+KEY\b/i", $table_def, $tmp)) { $result['primary'] = true; } // ...and for FOREIGN KEYs if (preg_match_all("/\bCONSTRAINT\b\s+([^\s]+)\s+\bFOREIGN\s+KEY/imsx", $table_def, $tmp)) { foreach ($tmp[1] as $fk) { $result[$fk] = true; } } if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $result = array_change_key_case($result, $db->options['field_case']); } return array_keys($result); } // }}} // {{{ createSequence() /** * create sequence * * @param string $seq_name name of the sequence to be created * @param string $start start value of the sequence; default is 1 * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function createSequence($seq_name, $start = 1) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $sequence_name = $db->quoteIdentifier($db->getSequenceName($seq_name), true); $seqcol_name = $db->quoteIdentifier($db->options['seqcol_name'], true); $query = "CREATE TABLE $sequence_name ($seqcol_name INTEGER PRIMARY KEY DEFAULT 0 NOT NULL)"; $res = $db->exec($query); if (PEAR::isError($res)) { return $res; } if ($start == 1) { return MDB2_OK; } $res = $db->exec("INSERT INTO $sequence_name ($seqcol_name) VALUES (".($start-1).')'); if (!PEAR::isError($res)) { return MDB2_OK; } // Handle error $result = $db->exec("DROP TABLE $sequence_name"); if (PEAR::isError($result)) { return $db->raiseError($result, null, null, 'could not drop inconsistent sequence table', __FUNCTION__); } return $db->raiseError($res, null, null, 'could not create sequence table', __FUNCTION__); } // }}} // {{{ dropSequence() /** * drop existing sequence * * @param string $seq_name name of the sequence to be dropped * @return mixed MDB2_OK on success, a MDB2 error on failure * @access public */ function dropSequence($seq_name) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $sequence_name = $db->quoteIdentifier($db->getSequenceName($seq_name), true); return $db->exec("DROP TABLE $sequence_name"); } // }}} // {{{ listSequences() /** * list all sequences in the current database * * @return mixed array of sequence names on success, a MDB2 error on failure * @access public */ function listSequences($dummy=null) { $db =$this->getDBInstance(); if (PEAR::isError($db)) { return $db; } $query = "SELECT name FROM sqlite_master WHERE type='table' AND sql NOT NULL ORDER BY name"; $table_names = $db->queryCol($query); if (PEAR::isError($table_names)) { return $table_names; } $result = array(); foreach ($table_names as $table_name) { if ($sqn = $this->_fixSequenceName($table_name, true)) { $result[] = $sqn; } } if ($db->options['portability'] & MDB2_PORTABILITY_FIX_CASE) { $result = array_map(($db->options['field_case'] == CASE_LOWER ? 'strtolower' : 'strtoupper'), $result); } return $result; } // }}} }