$field) { $sql .= _db_create_field_sql($field_name, _db_process_field($field)) .", \n"; } // Process keys & indexes. $keys = _db_create_keys_sql($table); if (count($keys)) { $sql .= implode(", \n", $keys) .", \n"; } // Remove the last comma and space. $sql = substr($sql, 0, -3) ."\n) "; $sql .= $table['mysql_suffix']; return array($sql); } function _db_create_keys_sql($spec) { $keys = array(); if (!empty($spec['primary key'])) { $keys[] = 'PRIMARY KEY ('. _db_create_key_sql($spec['primary key']) .')'; } if (!empty($spec['unique keys'])) { foreach ($spec['unique keys'] as $key => $fields) { $keys[] = 'UNIQUE KEY '. $key .' ('. _db_create_key_sql($fields) .')'; } } if (!empty($spec['indexes'])) { foreach ($spec['indexes'] as $index => $fields) { $keys[] = 'INDEX '. $index .' ('. _db_create_key_sql($fields) .')'; } } return $keys; } function _db_create_key_sql($fields) { $ret = array(); foreach ($fields as $field) { if (is_array($field)) { $ret[] = $field[0] .'('. $field[1] .')'; } else { $ret[] = $field; } } return implode(', ', $ret); } /** * Set database-engine specific properties for a field. * * @param $field * A field description array, as specified in the schema documentation. */ function _db_process_field($field) { if (!isset($field['size'])) { $field['size'] = 'normal'; } // Set the correct database-engine specific datatype. if (!isset($field['mysql_type'])) { $map = db_type_map(); $field['mysql_type'] = $map[$field['type'] .':'. $field['size']]; } if ($field['type'] == 'serial') { $field['auto_increment'] = TRUE; } return $field; } /** * Create an SQL string for a field to be used in table creation or alteration. * * Before passing a field out of a schema definition into this function it has * to be processed by _db_process_field(). * * @param $name * Name of the field. * @param $spec * The field specification, as per the schema data structure format. */ function _db_create_field_sql($name, $spec) { $sql = "`". $name ."` ". $spec['mysql_type']; if (in_array($spec['type'], array('varchar', 'char', 'text')) && isset($spec['length'])) { $sql .= '('. $spec['length'] .')'; } elseif (isset($spec['precision']) && isset($spec['scale'])) { $sql .= '('. $spec['precision'] .', '. $spec['scale'] .')'; } if (!empty($spec['unsigned'])) { $sql .= ' unsigned'; } if (!empty($spec['not null'])) { $sql .= ' NOT NULL'; } if (!empty($spec['auto_increment'])) { $sql .= ' auto_increment'; } if (isset($spec['default'])) { if (is_string($spec['default'])) { $spec['default'] = "'". $spec['default'] ."'"; } $sql .= ' DEFAULT '. $spec['default']; } if (empty($spec['not null']) && !isset($spec['default'])) { $sql .= ' DEFAULT NULL'; } return $sql; } /** * This maps a generic data type in combination with its data size * to the engine-specific data type. */ function db_type_map() { // Put :normal last so it gets preserved by array_flip. This makes // it much easier for modules (such as schema.module) to map // database types back into schema types. $map = array( 'varchar:normal' => 'VARCHAR', 'char:normal' => 'CHAR', 'text:tiny' => 'TINYTEXT', 'text:small' => 'TINYTEXT', 'text:medium' => 'MEDIUMTEXT', 'text:big' => 'LONGTEXT', 'text:normal' => 'TEXT', 'serial:tiny' => 'TINYINT', 'serial:small' => 'SMALLINT', 'serial:medium' => 'MEDIUMINT', 'serial:big' => 'BIGINT', 'serial:normal' => 'INT', 'int:tiny' => 'TINYINT', 'int:small' => 'SMALLINT', 'int:medium' => 'MEDIUMINT', 'int:big' => 'BIGINT', 'int:normal' => 'INT', 'float:tiny' => 'FLOAT', 'float:small' => 'FLOAT', 'float:medium' => 'FLOAT', 'float:big' => 'DOUBLE', 'float:normal' => 'FLOAT', 'numeric:normal' => 'DECIMAL', 'blob:big' => 'LONGBLOB', 'blob:normal' => 'BLOB', 'datetime:normal' => 'DATETIME', ); return $map; } /** * Rename a table. * * @param $ret * Array to which query results will be added. * @param $table * The table to be renamed. * @param $new_name * The new name for the table. */ function db_rename_table(&$ret, $table, $new_name) { $ret[] = update_sql('ALTER TABLE {'. $table .'} RENAME TO {'. $new_name .'}'); } /** * Drop a table. * * @param $ret * Array to which query results will be added. * @param $table * The table to be dropped. */ function db_drop_table(&$ret, $table) { $ret[] = update_sql('DROP TABLE {'. $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 $keys_new * Optional keys and indexes specification to be created on the * table along with adding the field. The format is the same as a * table specification but without the 'fields' element. If you are * adding a type 'serial' field, you MUST specify at least one key * or index including it in this array. @see db_change_field for more * explanation why. */ function db_add_field(&$ret, $table, $field, $spec, $keys_new = array()) { $fixnull = FALSE; if (!empty($spec['not null']) && !isset($spec['default'])) { $fixnull = TRUE; $spec['not null'] = FALSE; } $query = 'ALTER TABLE {'. $table .'} ADD '; $query .= _db_create_field_sql($field, _db_process_field($spec)); if (count($keys_new)) { $query .= ', ADD '. implode(', ADD ', _db_create_keys_sql($keys_new)); } $ret[] = update_sql($query); if (isset($spec['initial'])) { // All this because update_sql does not support %-placeholders. $sql = 'UPDATE {'. $table .'} SET '. $field .' = '. db_type_placeholder($spec['type']); $result = db_query($sql, $spec['initial']); $ret[] = array('success' => $result !== FALSE, 'query' => check_plain($sql .' ('. $spec['initial'] .')')); } if ($fixnull) { $spec['not null'] = TRUE; db_change_field($ret, $table, $field, $field, $spec); } } /** * Drop a field. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $field * The field to be dropped. */ function db_drop_field(&$ret, $table, $field) { $ret[] = update_sql('ALTER TABLE {'. $table .'} DROP '. $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 $default * Default value to be set. NULL for 'default NULL'. */ function db_field_set_default(&$ret, $table, $field, $default) { if ($default === NULL) { $default = 'NULL'; } else { $default = is_string($default) ? "'$default'" : $default; } $ret[] = update_sql('ALTER TABLE {'. $table .'} ALTER COLUMN '. $field .' SET DEFAULT '. $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 $field * The field to be altered. */ function db_field_set_no_default(&$ret, $table, $field) { $ret[] = update_sql('ALTER TABLE {'. $table .'} ALTER COLUMN '. $field .' DROP DEFAULT'); } /** * Add a primary key. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $fields * Fields for the primary key. */ function db_add_primary_key(&$ret, $table, $fields) { $ret[] = update_sql('ALTER TABLE {'. $table .'} ADD PRIMARY KEY ('. _db_create_key_sql($fields) .')'); } /** * Drop the primary key. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. */ function db_drop_primary_key(&$ret, $table) { $ret[] = update_sql('ALTER TABLE {'. $table .'} DROP PRIMARY KEY'); } /** * 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 $fields * An array of field names. */ function db_add_unique_key(&$ret, $table, $name, $fields) { $ret[] = update_sql('ALTER TABLE {'. $table .'} ADD UNIQUE KEY '. $name .' ('. _db_create_key_sql($fields) .')'); } /** * Drop a unique key. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $name * The name of the key. */ function db_drop_unique_key(&$ret, $table, $name) { $ret[] = update_sql('ALTER TABLE {'. $table .'} DROP KEY '. $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 $fields * An array of field names. */ function db_add_index(&$ret, $table, $name, $fields) { $query = 'ALTER TABLE {'. $table .'} ADD INDEX '. $name .' ('. _db_create_key_sql($fields) .')'; $ret[] = update_sql($query); } /** * Drop an index. * * @param $ret * Array to which query results will be added. * @param $table * The table to be altered. * @param $name * The name of the index. */ function db_drop_index(&$ret, $table, $name) { $ret[] = update_sql('ALTER TABLE {'. $table .'} DROP INDEX '. $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 $keys_new * Optional keys and indexes specification to be created on the * table along with changing the field. The format is the same as a * table specification but without the 'fields' element. */ function db_change_field(&$ret, $table, $field, $field_new, $spec, $keys_new = array()) { $sql = 'ALTER TABLE {'. $table .'} CHANGE `'. $field .'` '. _db_create_field_sql($field_new, _db_process_field($spec)); if (count($keys_new)) { $sql .= ', ADD '. implode(', ADD ', _db_create_keys_sql($keys_new)); } $ret[] = update_sql($sql); } /** * Returns the last insert id. * * @param $table * The name of the table you inserted into. * @param $field * The name of the autoincrement field. */ function db_last_insert_id($table, $field) { return db_result(db_query('SELECT LAST_INSERT_ID()')); }