* @license GNU General Public License, version 2 (GPL-2.0) * * For full copyright and license information, please see * the docs/CREDITS.txt file. * */ namespace phpbb\db; /** * Database Tools for handling cross-db actions such as altering columns, etc. * Currently not supported is returning SQL for creating tables. */ class tools { /** * Current sql layer */ var $sql_layer = ''; /** * @var object DB object */ var $db = null; /** * The Column types for every database we support * @var array */ var $dbms_type_map = array(); /** * Is the used MS SQL Server a SQL Server 2000? * @var bool */ protected $is_sql_server_2000; /** * Get the column types for every database we support * * @return array */ public static function get_dbms_type_map() { return array( 'mysql_41' => array( 'INT:' => 'int(%d)', 'BINT' => 'bigint(20)', 'UINT' => 'mediumint(8) UNSIGNED', 'UINT:' => 'int(%d) UNSIGNED', 'TINT:' => 'tinyint(%d)', 'USINT' => 'smallint(4) UNSIGNED', 'BOOL' => 'tinyint(1) UNSIGNED', 'VCHAR' => 'varchar(255)', 'VCHAR:' => 'varchar(%d)', 'CHAR:' => 'char(%d)', 'XSTEXT' => 'text', 'XSTEXT_UNI'=> 'varchar(100)', 'STEXT' => 'text', 'STEXT_UNI' => 'varchar(255)', 'TEXT' => 'text', 'TEXT_UNI' => 'text', 'MTEXT' => 'mediumtext', 'MTEXT_UNI' => 'mediumtext', 'TIMESTAMP' => 'int(11) UNSIGNED', 'DECIMAL' => 'decimal(5,2)', 'DECIMAL:' => 'decimal(%d,2)', 'PDECIMAL' => 'decimal(6,3)', 'PDECIMAL:' => 'decimal(%d,3)', 'VCHAR_UNI' => 'varchar(255)', 'VCHAR_UNI:'=> 'varchar(%d)', 'VCHAR_CI' => 'varchar(255)', 'VARBINARY' => 'varbinary(255)', ), 'mysql_40' => array( 'INT:' => 'int(%d)', 'BINT' => 'bigint(20)', 'UINT' => 'mediumint(8) UNSIGNED', 'UINT:' => 'int(%d) UNSIGNED', 'TINT:' => 'tinyint(%d)', 'USINT' => 'smallint(4) UNSIGNED', 'BOOL' => 'tinyint(1) UNSIGNED', 'VCHAR' => 'varbinary(255)', 'VCHAR:' => 'varbinary(%d)', 'CHAR:' => 'binary(%d)', 'XSTEXT' => 'blob', 'XSTEXT_UNI'=> 'blob', 'STEXT' => 'blob', 'STEXT_UNI' => 'blob', 'TEXT' => 'blob', 'TEXT_UNI' => 'blob', 'MTEXT' => 'mediumblob', 'MTEXT_UNI' => 'mediumblob', 'TIMESTAMP' => 'int(11) UNSIGNED', 'DECIMAL' => 'decimal(5,2)', 'DECIMAL:' => 'decimal(%d,2)', 'PDECIMAL' => 'decimal(6,3)', 'PDECIMAL:' => 'decimal(%d,3)', 'VCHAR_UNI' => 'blob', 'VCHAR_UNI:'=> array('varbinary(%d)', 'limit' => array('mult', 3, 255, 'blob')), 'VCHAR_CI' => 'blob', 'VARBINARY' => 'varbinary(255)', ), 'mssql' => array( 'INT:' => '[int]', 'BINT' => '[float]', 'UINT' => '[int]', 'UINT:' => '[int]', 'TINT:' => '[int]', 'USINT' => '[int]', 'BOOL' => '[int]', 'VCHAR' => '[varchar] (255)', 'VCHAR:' => '[varchar] (%d)', 'CHAR:' => '[char] (%d)', 'XSTEXT' => '[varchar] (1000)', 'STEXT' => '[varchar] (3000)', 'TEXT' => '[varchar] (8000)', 'MTEXT' => '[text]', 'XSTEXT_UNI'=> '[varchar] (100)', 'STEXT_UNI' => '[varchar] (255)', 'TEXT_UNI' => '[varchar] (4000)', 'MTEXT_UNI' => '[text]', 'TIMESTAMP' => '[int]', 'DECIMAL' => '[float]', 'DECIMAL:' => '[float]', 'PDECIMAL' => '[float]', 'PDECIMAL:' => '[float]', 'VCHAR_UNI' => '[varchar] (255)', 'VCHAR_UNI:'=> '[varchar] (%d)', 'VCHAR_CI' => '[varchar] (255)', 'VARBINARY' => '[varchar] (255)', ), 'mssqlnative' => array( 'INT:' => '[int]', 'BINT' => '[float]', 'UINT' => '[int]', 'UINT:' => '[int]', 'TINT:' => '[int]', 'USINT' => '[int]', 'BOOL' => '[int]', 'VCHAR' => '[varchar] (255)', 'VCHAR:' => '[varchar] (%d)', 'CHAR:' => '[char] (%d)', 'XSTEXT' => '[varchar] (1000)', 'STEXT' => '[varchar] (3000)', 'TEXT' => '[varchar] (8000)', 'MTEXT' => '[text]', 'XSTEXT_UNI'=> '[varchar] (100)', 'STEXT_UNI' => '[varchar] (255)', 'TEXT_UNI' => '[varchar] (4000)', 'MTEXT_UNI' => '[text]', 'TIMESTAMP' => '[int]', 'DECIMAL' => '[float]', 'DECIMAL:' => '[float]', 'PDECIMAL' => '[float]', 'PDECIMAL:' => '[float]', 'VCHAR_UNI' => '[varchar] (255)', 'VCHAR_UNI:'=> '[varchar] (%d)', 'VCHAR_CI' => '[varchar] (255)', 'VARBINARY' => '[varchar] (255)', ), 'oracle' => array( 'INT:' => 'number(%d)', 'BINT' => 'number(20)', 'UINT' => 'number(8)', 'UINT:' => 'number(%d)', 'TINT:' => 'number(%d)', 'USINT' => 'number(4)', 'BOOL' => 'number(1)', 'VCHAR' => 'varchar2(255)', 'VCHAR:' => 'varchar2(%d)', 'CHAR:' => 'char(%d)', 'XSTEXT' => 'varchar2(1000)', 'STEXT' => 'varchar2(3000)', 'TEXT' => 'clob', 'MTEXT' => 'clob', 'XSTEXT_UNI'=> 'varchar2(300)', 'STEXT_UNI' => 'varchar2(765)', 'TEXT_UNI' => 'clob', 'MTEXT_UNI' => 'clob', 'TIMESTAMP' => 'number(11)', 'DECIMAL' => 'number(5, 2)', 'DECIMAL:' => 'number(%d, 2)', 'PDECIMAL' => 'number(6, 3)', 'PDECIMAL:' => 'number(%d, 3)', 'VCHAR_UNI' => 'varchar2(765)', 'VCHAR_UNI:'=> array('varchar2(%d)', 'limit' => array('mult', 3, 765, 'clob')), 'VCHAR_CI' => 'varchar2(255)', 'VARBINARY' => 'raw(255)', ), 'sqlite' => array( 'INT:' => 'int(%d)', 'BINT' => 'bigint(20)', 'UINT' => 'INTEGER UNSIGNED', //'mediumint(8) UNSIGNED', 'UINT:' => 'INTEGER UNSIGNED', // 'int(%d) UNSIGNED', 'TINT:' => 'tinyint(%d)', 'USINT' => 'INTEGER UNSIGNED', //'mediumint(4) UNSIGNED', 'BOOL' => 'INTEGER UNSIGNED', //'tinyint(1) UNSIGNED', 'VCHAR' => 'varchar(255)', 'VCHAR:' => 'varchar(%d)', 'CHAR:' => 'char(%d)', 'XSTEXT' => 'text(65535)', 'STEXT' => 'text(65535)', 'TEXT' => 'text(65535)', 'MTEXT' => 'mediumtext(16777215)', 'XSTEXT_UNI'=> 'text(65535)', 'STEXT_UNI' => 'text(65535)', 'TEXT_UNI' => 'text(65535)', 'MTEXT_UNI' => 'mediumtext(16777215)', 'TIMESTAMP' => 'INTEGER UNSIGNED', //'int(11) UNSIGNED', 'DECIMAL' => 'decimal(5,2)', 'DECIMAL:' => 'decimal(%d,2)', 'PDECIMAL' => 'decimal(6,3)', 'PDECIMAL:' => 'decimal(%d,3)', 'VCHAR_UNI' => 'varchar(255)', 'VCHAR_UNI:'=> 'varchar(%d)', 'VCHAR_CI' => 'varchar(255)', 'VARBINARY' => 'blob', ), 'sqlite3' => array( 'INT:' => 'INT(%d)', 'BINT' => 'BIGINT(20)', 'UINT' => 'INTEGER UNSIGNED', 'UINT:' => 'INTEGER UNSIGNED', 'TINT:' => 'TINYINT(%d)', 'USINT' => 'INTEGER UNSIGNED', 'BOOL' => 'INTEGER UNSIGNED', 'VCHAR' => 'VARCHAR(255)', 'VCHAR:' => 'VARCHAR(%d)', 'CHAR:' => 'CHAR(%d)', 'XSTEXT' => 'TEXT(65535)', 'STEXT' => 'TEXT(65535)', 'TEXT' => 'TEXT(65535)', 'MTEXT' => 'MEDIUMTEXT(16777215)', 'XSTEXT_UNI'=> 'TEXT(65535)', 'STEXT_UNI' => 'TEXT(65535)', 'TEXT_UNI' => 'TEXT(65535)', 'MTEXT_UNI' => 'MEDIUMTEXT(16777215)', 'TIMESTAMP' => 'INTEGER UNSIGNED', //'int(11) UNSIGNED', 'DECIMAL' => 'DECIMAL(5,2)', 'DECIMAL:' => 'DECIMAL(%d,2)', 'PDECIMAL' => 'DECIMAL(6,3)', 'PDECIMAL:' => 'DECIMAL(%d,3)', 'VCHAR_UNI' => 'VARCHAR(255)', 'VCHAR_UNI:'=> 'VARCHAR(%d)', 'VCHAR_CI' => 'VARCHAR(255)', 'VARBINARY' => 'BLOB', ), 'postgres' => array( 'INT:' => 'INT4', 'BINT' => 'INT8', 'UINT' => 'INT4', // unsigned 'UINT:' => 'INT4', // unsigned 'USINT' => 'INT2', // unsigned 'BOOL' => 'INT2', // unsigned 'TINT:' => 'INT2', 'VCHAR' => 'varchar(255)', 'VCHAR:' => 'varchar(%d)', 'CHAR:' => 'char(%d)', 'XSTEXT' => 'varchar(1000)', 'STEXT' => 'varchar(3000)', 'TEXT' => 'varchar(8000)', 'MTEXT' => 'TEXT', 'XSTEXT_UNI'=> 'varchar(100)', 'STEXT_UNI' => 'varchar(255)', 'TEXT_UNI' => 'varchar(4000)', 'MTEXT_UNI' => 'TEXT', 'TIMESTAMP' => 'INT4', // unsigned 'DECIMAL' => 'decimal(5,2)', 'DECIMAL:' => 'decimal(%d,2)', 'PDECIMAL' => 'decimal(6,3)', 'PDECIMAL:' => 'decimal(%d,3)', 'VCHAR_UNI' => 'varchar(255)', 'VCHAR_UNI:'=> 'varchar(%d)', 'VCHAR_CI' => 'varchar_ci', 'VARBINARY' => 'bytea', ), ); } /** * A list of types being unsigned for better reference in some db's * @var array */ var $unsigned_types = array('UINT', 'UINT:', 'USINT', 'BOOL', 'TIMESTAMP'); /** * A list of supported DBMS. We change this class to support more DBMS, the DBMS itself only need to follow some rules. * @var array */ var $supported_dbms = array('mssql', 'mssqlnative', 'mysql_40', 'mysql_41', 'oracle', 'postgres', 'sqlite', 'sqlite3'); /** * This is set to true if user only wants to return the 'to-be-executed' SQL statement(s) (as an array). * This mode has no effect on some methods (inserting of data for example). This is expressed within the methods command. */ var $return_statements = false; /** * Constructor. Set DB Object and set {@link $return_statements return_statements}. * * @param \phpbb\db\driver\driver_interface $db Database connection * @param bool $return_statements True if only statements should be returned and no SQL being executed */ public function __construct(\phpbb\db\driver\driver_interface $db, $return_statements = false) { $this->db = $db; $this->return_statements = $return_statements; $this->dbms_type_map = self::get_dbms_type_map(); // Determine mapping database type switch ($this->db->get_sql_layer()) { case 'mysql': $this->sql_layer = 'mysql_40'; break; case 'mysql4': if (version_compare($this->db->sql_server_info(true), '4.1.3', '>=')) { $this->sql_layer = 'mysql_41'; } else { $this->sql_layer = 'mysql_40'; } break; case 'mysqli': $this->sql_layer = 'mysql_41'; break; case 'mssql': case 'mssql_odbc': $this->sql_layer = 'mssql'; break; case 'mssqlnative': $this->sql_layer = 'mssqlnative'; break; default: $this->sql_layer = $this->db->get_sql_layer(); break; } } /** * Setter for {@link $return_statements return_statements}. * * @param bool $return_statements True if SQL should not be executed but returned as strings * @return null */ public function set_return_statements($return_statements) { $this->return_statements = $return_statements; } /** * Gets a list of tables in the database. * * @return array Array of table names (all lower case) */ function sql_list_tables() { switch ($this->db->get_sql_layer()) { case 'mysql': case 'mysql4': case 'mysqli': $sql = 'SHOW TABLES'; break; case 'sqlite': $sql = 'SELECT name FROM sqlite_master WHERE type = "table"'; break; case 'sqlite3': $sql = 'SELECT name FROM sqlite_master WHERE type = "table" AND name <> "sqlite_sequence"'; break; case 'mssql': case 'mssql_odbc': case 'mssqlnative': $sql = "SELECT name FROM sysobjects WHERE type='U'"; break; case 'postgres': $sql = 'SELECT relname FROM pg_stat_user_tables'; break; case 'oracle': $sql = 'SELECT table_name FROM USER_TABLES'; break; } $result = $this->db->sql_query($sql); $tables = array(); while ($row = $this->db->sql_fetchrow($result)) { $name = current($row); $tables[$name] = $name; } $this->db->sql_freeresult($result); return $tables; } /** * Check if table exists * * * @param string $table_name The table name to check for * @return bool true if table exists, else false */ function sql_table_exists($table_name) { $this->db->sql_return_on_error(true); $result = $this->db->sql_query_limit('SELECT * FROM ' . $table_name, 1); $this->db->sql_return_on_error(false); if ($result) { $this->db->sql_freeresult($result); return true; } return false; } /** * Create SQL Table * * @param string $table_name The table name to create * @param array $table_data Array containing table data. * @return array Statements if $return_statements is true. */ function sql_create_table($table_name, $table_data) { // holds the DDL for a column $columns = $statements = array(); if ($this->sql_table_exists($table_name)) { return $this->_sql_run_sql($statements); } // Begin transaction $statements[] = 'begin'; // Determine if we have created a PRIMARY KEY in the earliest $primary_key_gen = false; // Determine if the table requires a sequence $create_sequence = false; // Begin table sql statement switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': $table_sql = 'CREATE TABLE [' . $table_name . '] (' . "\n"; break; default: $table_sql = 'CREATE TABLE ' . $table_name . ' (' . "\n"; break; } if ($this->sql_layer == 'mssql' || $this->sql_layer == 'mssqlnative') { if (!isset($table_data['PRIMARY_KEY'])) { $table_data['COLUMNS']['mssqlindex'] = array('UINT', null, 'auto_increment'); $table_data['PRIMARY_KEY'] = 'mssqlindex'; } } // Iterate through the columns to create a table foreach ($table_data['COLUMNS'] as $column_name => $column_data) { // here lies an array, filled with information compiled on the column's data $prepared_column = $this->sql_prepare_column_data($table_name, $column_name, $column_data); if (isset($prepared_column['auto_increment']) && $prepared_column['auto_increment'] && strlen($column_name) > 26) // "${column_name}_gen" { trigger_error("Index name '${column_name}_gen' on table '$table_name' is too long. The maximum auto increment column length is 26 characters.", E_USER_ERROR); } // here we add the definition of the new column to the list of columns switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': $columns[] = "\t [{$column_name}] " . $prepared_column['column_type_sql_default']; break; default: $columns[] = "\t {$column_name} " . $prepared_column['column_type_sql']; break; } // see if we have found a primary key set due to a column definition if we have found it, we can stop looking if (!$primary_key_gen) { $primary_key_gen = isset($prepared_column['primary_key_set']) && $prepared_column['primary_key_set']; } // create sequence DDL based off of the existance of auto incrementing columns if (!$create_sequence && isset($prepared_column['auto_increment']) && $prepared_column['auto_increment']) { $create_sequence = $column_name; } } // this makes up all the columns in the create table statement $table_sql .= implode(",\n", $columns); // Close the table for two DBMS and add to the statements switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': $table_sql .= "\n);"; $statements[] = $table_sql; break; } // we have yet to create a primary key for this table, // this means that we can add the one we really wanted instead if (!$primary_key_gen) { // Write primary key if (isset($table_data['PRIMARY_KEY'])) { if (!is_array($table_data['PRIMARY_KEY'])) { $table_data['PRIMARY_KEY'] = array($table_data['PRIMARY_KEY']); } switch ($this->sql_layer) { case 'mysql_40': case 'mysql_41': case 'postgres': case 'sqlite': case 'sqlite3': $table_sql .= ",\n\t PRIMARY KEY (" . implode(', ', $table_data['PRIMARY_KEY']) . ')'; break; case 'mssql': case 'mssqlnative': // We need the data here $old_return_statements = $this->return_statements; $this->return_statements = true; $primary_key_stmts = $this->sql_create_primary_key($table_name, $table_data['PRIMARY_KEY']); foreach ($primary_key_stmts as $pk_stmt) { $statements[] = $pk_stmt; } $this->return_statements = $old_return_statements; break; case 'oracle': $table_sql .= ",\n\t CONSTRAINT pk_{$table_name} PRIMARY KEY (" . implode(', ', $table_data['PRIMARY_KEY']) . ')'; break; } } } // close the table switch ($this->sql_layer) { case 'mysql_41': // make sure the table is in UTF-8 mode $table_sql .= "\n) CHARACTER SET `utf8` COLLATE `utf8_bin`;"; $statements[] = $table_sql; break; case 'mysql_40': case 'sqlite': case 'sqlite3': $table_sql .= "\n);"; $statements[] = $table_sql; break; case 'postgres': // do we need to add a sequence for auto incrementing columns? if ($create_sequence) { $statements[] = "CREATE SEQUENCE {$table_name}_seq;"; } $table_sql .= "\n);"; $statements[] = $table_sql; break; case 'oracle': $table_sql .= "\n)"; $statements[] = $table_sql; // do we need to add a sequence and a tigger for auto incrementing columns? if ($create_sequence) { // create the actual sequence $statements[] = "CREATE SEQUENCE {$table_name}_seq"; // the trigger is the mechanism by which we increment the counter $trigger = "CREATE OR REPLACE TRIGGER t_{$table_name}\n"; $trigger .= "BEFORE INSERT ON {$table_name}\n"; $trigger .= "FOR EACH ROW WHEN (\n"; $trigger .= "\tnew.{$create_sequence} IS NULL OR new.{$create_sequence} = 0\n"; $trigger .= ")\n"; $trigger .= "BEGIN\n"; $trigger .= "\tSELECT {$table_name}_seq.nextval\n"; $trigger .= "\tINTO :new.{$create_sequence}\n"; $trigger .= "\tFROM dual;\n"; $trigger .= "END;"; $statements[] = $trigger; } break; } // Write Keys if (isset($table_data['KEYS'])) { foreach ($table_data['KEYS'] as $key_name => $key_data) { if (!is_array($key_data[1])) { $key_data[1] = array($key_data[1]); } $old_return_statements = $this->return_statements; $this->return_statements = true; $key_stmts = ($key_data[0] == 'UNIQUE') ? $this->sql_create_unique_index($table_name, $key_name, $key_data[1]) : $this->sql_create_index($table_name, $key_name, $key_data[1]); foreach ($key_stmts as $key_stmt) { $statements[] = $key_stmt; } $this->return_statements = $old_return_statements; } } // Commit Transaction $statements[] = 'commit'; return $this->_sql_run_sql($statements); } /** * Handle passed database update array. * Expected structure... * Key being one of the following * drop_tables: Drop tables * add_tables: Add tables * change_columns: Column changes (only type, not name) * add_columns: Add columns to a table * drop_keys: Dropping keys * drop_columns: Removing/Dropping columns * add_primary_keys: adding primary keys * add_unique_index: adding an unique index * add_index: adding an index (can be column:index_size if you need to provide size) * * The values are in this format: * {TABLE NAME} => array( * {COLUMN NAME} => array({COLUMN TYPE}, {DEFAULT VALUE}, {OPTIONAL VARIABLES}), * {KEY/INDEX NAME} => array({COLUMN NAMES}), * ) * * For more information have a look at /develop/create_schema_files.php (only available through SVN) */ function perform_schema_changes($schema_changes) { if (empty($schema_changes)) { return; } $statements = array(); $sqlite = false; // For SQLite we need to perform the schema changes in a much more different way if (($this->db->get_sql_layer() == 'sqlite' || $this->db->get_sql_layer() == 'sqlite3') && $this->return_statements) { $sqlite_data = array(); $sqlite = true; } // Drop tables? if (!empty($schema_changes['drop_tables'])) { foreach ($schema_changes['drop_tables'] as $table) { // only drop table if it exists if ($this->sql_table_exists($table)) { $result = $this->sql_table_drop($table); if ($this->return_statements) { $statements = array_merge($statements, $result); } } } } // Add tables? if (!empty($schema_changes['add_tables'])) { foreach ($schema_changes['add_tables'] as $table => $table_data) { $result = $this->sql_create_table($table, $table_data); if ($this->return_statements) { $statements = array_merge($statements, $result); } } } // Change columns? if (!empty($schema_changes['change_columns'])) { foreach ($schema_changes['change_columns'] as $table => $columns) { foreach ($columns as $column_name => $column_data) { // If the column exists we change it, else we add it ;) if ($column_exists = $this->sql_column_exists($table, $column_name)) { $result = $this->sql_column_change($table, $column_name, $column_data, true); } else { $result = $this->sql_column_add($table, $column_name, $column_data, true); } if ($sqlite) { if ($column_exists) { $sqlite_data[$table]['change_columns'][] = $result; } else { $sqlite_data[$table]['add_columns'][] = $result; } } else if ($this->return_statements) { $statements = array_merge($statements, $result); } } } } // Add columns? if (!empty($schema_changes['add_columns'])) { foreach ($schema_changes['add_columns'] as $table => $columns) { foreach ($columns as $column_name => $column_data) { // Only add the column if it does not exist yet if ($column_exists = $this->sql_column_exists($table, $column_name)) { continue; // This is commented out here because it can take tremendous time on updates // $result = $this->sql_column_change($table, $column_name, $column_data, true); } else { $result = $this->sql_column_add($table, $column_name, $column_data, true); } if ($sqlite) { if ($column_exists) { continue; // $sqlite_data[$table]['change_columns'][] = $result; } else { $sqlite_data[$table]['add_columns'][] = $result; } } else if ($this->return_statements) { $statements = array_merge($statements, $result); } } } } // Remove keys? if (!empty($schema_changes['drop_keys'])) { foreach ($schema_changes['drop_keys'] as $table => $indexes) { foreach ($indexes as $index_name) { if (!$this->sql_index_exists($table, $index_name)) { continue; } $result = $this->sql_index_drop($table, $index_name); if ($this->return_statements) { $statements = array_merge($statements, $result); } } } } // Drop columns? if (!empty($schema_changes['drop_columns'])) { foreach ($schema_changes['drop_columns'] as $table => $columns) { foreach ($columns as $column) { // Only remove the column if it exists... if ($this->sql_column_exists($table, $column)) { $result = $this->sql_column_remove($table, $column, true); if ($sqlite) { $sqlite_data[$table]['drop_columns'][] = $result; } else if ($this->return_statements) { $statements = array_merge($statements, $result); } } } } } // Add primary keys? if (!empty($schema_changes['add_primary_keys'])) { foreach ($schema_changes['add_primary_keys'] as $table => $columns) { $result = $this->sql_create_primary_key($table, $columns, true); if ($sqlite) { $sqlite_data[$table]['primary_key'] = $result; } else if ($this->return_statements) { $statements = array_merge($statements, $result); } } } // Add unique indexes? if (!empty($schema_changes['add_unique_index'])) { foreach ($schema_changes['add_unique_index'] as $table => $index_array) { foreach ($index_array as $index_name => $column) { if ($this->sql_unique_index_exists($table, $index_name)) { continue; } $result = $this->sql_create_unique_index($table, $index_name, $column); if ($this->return_statements) { $statements = array_merge($statements, $result); } } } } // Add indexes? if (!empty($schema_changes['add_index'])) { foreach ($schema_changes['add_index'] as $table => $index_array) { foreach ($index_array as $index_name => $column) { if ($this->sql_index_exists($table, $index_name)) { continue; } $result = $this->sql_create_index($table, $index_name, $column); if ($this->return_statements) { $statements = array_merge($statements, $result); } } } } if ($sqlite) { foreach ($sqlite_data as $table_name => $sql_schema_changes) { // Create temporary table with original data $statements[] = 'begin'; $sql = "SELECT sql FROM sqlite_master WHERE type = 'table' AND name = '{$table_name}' ORDER BY type DESC, name;"; $result = $this->db->sql_query($sql); if (!$result) { continue; } $row = $this->db->sql_fetchrow($result); $this->db->sql_freeresult($result); // Create a backup table and populate it, destroy the existing one $statements[] = preg_replace('#CREATE\s+TABLE\s+"?' . $table_name . '"?#i', 'CREATE TEMPORARY TABLE ' . $table_name . '_temp', $row['sql']); $statements[] = 'INSERT INTO ' . $table_name . '_temp SELECT * FROM ' . $table_name; $statements[] = 'DROP TABLE ' . $table_name; // Get the columns... preg_match('#\((.*)\)#s', $row['sql'], $matches); $plain_table_cols = trim($matches[1]); $new_table_cols = preg_split('/,(?![\s\w]+\))/m', $plain_table_cols); $column_list = array(); foreach ($new_table_cols as $declaration) { $entities = preg_split('#\s+#', trim($declaration)); if ($entities[0] == 'PRIMARY') { continue; } $column_list[] = $entities[0]; } // note down the primary key notation because sqlite only supports adding it to the end for the new table $primary_key = false; $_new_cols = array(); foreach ($new_table_cols as $key => $declaration) { $entities = preg_split('#\s+#', trim($declaration)); if ($entities[0] == 'PRIMARY') { $primary_key = $declaration; continue; } $_new_cols[] = $declaration; } $new_table_cols = $_new_cols; // First of all... change columns if (!empty($sql_schema_changes['change_columns'])) { foreach ($sql_schema_changes['change_columns'] as $column_sql) { foreach ($new_table_cols as $key => $declaration) { $entities = preg_split('#\s+#', trim($declaration)); if (strpos($column_sql, $entities[0] . ' ') === 0) { $new_table_cols[$key] = $column_sql; } } } } if (!empty($sql_schema_changes['add_columns'])) { foreach ($sql_schema_changes['add_columns'] as $column_sql) { $new_table_cols[] = $column_sql; } } // Now drop them... if (!empty($sql_schema_changes['drop_columns'])) { foreach ($sql_schema_changes['drop_columns'] as $column_name) { // Remove from column list... $new_column_list = array(); foreach ($column_list as $key => $value) { if ($value === $column_name) { continue; } $new_column_list[] = $value; } $column_list = $new_column_list; // Remove from table... $_new_cols = array(); foreach ($new_table_cols as $key => $declaration) { $entities = preg_split('#\s+#', trim($declaration)); if (strpos($column_name . ' ', $entities[0] . ' ') === 0) { continue; } $_new_cols[] = $declaration; } $new_table_cols = $_new_cols; } } // Primary key... if (!empty($sql_schema_changes['primary_key'])) { $new_table_cols[] = 'PRIMARY KEY (' . implode(', ', $sql_schema_changes['primary_key']) . ')'; } // Add a new one or the old primary key else if ($primary_key !== false) { $new_table_cols[] = $primary_key; } $columns = implode(',', $column_list); // create a new table and fill it up. destroy the temp one $statements[] = 'CREATE TABLE ' . $table_name . ' (' . implode(',', $new_table_cols) . ');'; $statements[] = 'INSERT INTO ' . $table_name . ' (' . $columns . ') SELECT ' . $columns . ' FROM ' . $table_name . '_temp;'; $statements[] = 'DROP TABLE ' . $table_name . '_temp'; $statements[] = 'commit'; } } if ($this->return_statements) { return $statements; } } /** * Gets a list of columns of a table. * * @param string $table Table name * * @return array Array of column names (all lower case) */ function sql_list_columns($table) { $columns = array(); switch ($this->sql_layer) { case 'mysql_40': case 'mysql_41': $sql = "SHOW COLUMNS FROM $table"; break; // PostgreSQL has a way of doing this in a much simpler way but would // not allow us to support all versions of PostgreSQL case 'postgres': $sql = "SELECT a.attname FROM pg_class c, pg_attribute a WHERE c.relname = '{$table}' AND a.attnum > 0 AND a.attrelid = c.oid"; break; // same deal with PostgreSQL, we must perform more complex operations than // we technically could case 'mssql': case 'mssqlnative': $sql = "SELECT c.name FROM syscolumns c LEFT JOIN sysobjects o ON c.id = o.id WHERE o.name = '{$table}'"; break; case 'oracle': $sql = "SELECT column_name FROM user_tab_columns WHERE LOWER(table_name) = '" . strtolower($table) . "'"; break; case 'sqlite': case 'sqlite3': $sql = "SELECT sql FROM sqlite_master WHERE type = 'table' AND name = '{$table}'"; $result = $this->db->sql_query($sql); if (!$result) { return false; } $row = $this->db->sql_fetchrow($result); $this->db->sql_freeresult($result); preg_match('#\((.*)\)#s', $row['sql'], $matches); $cols = trim($matches[1]); $col_array = preg_split('/,(?![\s\w]+\))/m', $cols); foreach ($col_array as $declaration) { $entities = preg_split('#\s+#', trim($declaration)); if ($entities[0] == 'PRIMARY') { continue; } $column = strtolower($entities[0]); $columns[$column] = $column; } return $columns; break; } $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { $column = strtolower(current($row)); $columns[$column] = $column; } $this->db->sql_freeresult($result); return $columns; } /** * Check whether a specified column exist in a table * * @param string $table Table to check * @param string $column_name Column to check * * @return bool True if column exists, false otherwise */ function sql_column_exists($table, $column_name) { $columns = $this->sql_list_columns($table); return isset($columns[$column_name]); } /** * Check if a specified index exists in table. Does not return PRIMARY KEY and UNIQUE indexes. * * @param string $table_name Table to check the index at * @param string $index_name The index name to check * * @return bool True if index exists, else false */ function sql_index_exists($table_name, $index_name) { if ($this->sql_layer == 'mssql' || $this->sql_layer == 'mssqlnative') { $sql = "EXEC sp_statistics '$table_name'"; $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { if ($row['TYPE'] == 3) { if (strtolower($row['INDEX_NAME']) == strtolower($index_name)) { $this->db->sql_freeresult($result); return true; } } } $this->db->sql_freeresult($result); return false; } switch ($this->sql_layer) { case 'postgres': $sql = "SELECT ic.relname as index_name FROM pg_class bc, pg_class ic, pg_index i WHERE (bc.oid = i.indrelid) AND (ic.oid = i.indexrelid) AND (bc.relname = '" . $table_name . "') AND (i.indisunique != 't') AND (i.indisprimary != 't')"; $col = 'index_name'; break; case 'mysql_40': case 'mysql_41': $sql = 'SHOW KEYS FROM ' . $table_name; $col = 'Key_name'; break; case 'oracle': $sql = "SELECT index_name FROM user_indexes WHERE table_name = '" . strtoupper($table_name) . "' AND generated = 'N' AND uniqueness = 'NONUNIQUE'"; $col = 'index_name'; break; case 'sqlite': case 'sqlite3': $sql = "PRAGMA index_list('" . $table_name . "');"; $col = 'name'; break; } $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { if (($this->sql_layer == 'mysql_40' || $this->sql_layer == 'mysql_41') && !$row['Non_unique']) { continue; } // These DBMS prefix index name with the table name switch ($this->sql_layer) { case 'oracle': case 'postgres': case 'sqlite': case 'sqlite3': $row[$col] = substr($row[$col], strlen($table_name) + 1); break; } if (strtolower($row[$col]) == strtolower($index_name)) { $this->db->sql_freeresult($result); return true; } } $this->db->sql_freeresult($result); return false; } /** * Check if a specified index exists in table. Does not return PRIMARY KEY indexes. * * @param string $table_name Table to check the index at * @param string $index_name The index name to check * * @return bool True if index exists, else false */ function sql_unique_index_exists($table_name, $index_name) { if ($this->sql_layer == 'mssql' || $this->sql_layer == 'mssqlnative') { $sql = "EXEC sp_statistics '$table_name'"; $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { // Usually NON_UNIQUE is the column we want to check, but we allow for both if ($row['TYPE'] == 3) { if (strtolower($row['INDEX_NAME']) == strtolower($index_name)) { $this->db->sql_freeresult($result); return true; } } } $this->db->sql_freeresult($result); return false; } switch ($this->sql_layer) { case 'postgres': $sql = "SELECT ic.relname as index_name, i.indisunique FROM pg_class bc, pg_class ic, pg_index i WHERE (bc.oid = i.indrelid) AND (ic.oid = i.indexrelid) AND (bc.relname = '" . $table_name . "') AND (i.indisprimary != 't')"; $col = 'index_name'; break; case 'mysql_40': case 'mysql_41': $sql = 'SHOW KEYS FROM ' . $table_name; $col = 'Key_name'; break; case 'oracle': $sql = "SELECT index_name, table_owner FROM user_indexes WHERE table_name = '" . strtoupper($table_name) . "' AND generated = 'N' AND uniqueness = 'UNIQUE'"; $col = 'index_name'; break; case 'sqlite': case 'sqlite3': $sql = "PRAGMA index_list('" . $table_name . "');"; $col = 'name'; break; } $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { if (($this->sql_layer == 'mysql_40' || $this->sql_layer == 'mysql_41') && ($row['Non_unique'] || $row[$col] == 'PRIMARY')) { continue; } if (($this->sql_layer == 'sqlite' || $this->sql_layer == 'sqlite3') && !$row['unique']) { continue; } if ($this->sql_layer == 'postgres' && $row['indisunique'] != 't') { continue; } // These DBMS prefix index name with the table name switch ($this->sql_layer) { case 'oracle': // Two cases here... prefixed with U_[table_owner] and not prefixed with table_name if (strpos($row[$col], 'U_') === 0) { $row[$col] = substr($row[$col], strlen('U_' . $row['table_owner']) + 1); } else if (strpos($row[$col], strtoupper($table_name)) === 0) { $row[$col] = substr($row[$col], strlen($table_name) + 1); } break; case 'postgres': case 'sqlite': case 'sqlite3': $row[$col] = substr($row[$col], strlen($table_name) + 1); break; } if (strtolower($row[$col]) == strtolower($index_name)) { $this->db->sql_freeresult($result); return true; } } $this->db->sql_freeresult($result); return false; } /** * Private method for performing sql statements (either execute them or return them) * @access private */ function _sql_run_sql($statements) { if ($this->return_statements) { return $statements; } // We could add error handling here... foreach ($statements as $sql) { if ($sql === 'begin') { $this->db->sql_transaction('begin'); } else if ($sql === 'commit') { $this->db->sql_transaction('commit'); } else { $this->db->sql_query($sql); } } return true; } /** * Function to prepare some column information for better usage * @access private */ function sql_prepare_column_data($table_name, $column_name, $column_data) { if (strlen($column_name) > 30) { trigger_error("Column name '$column_name' on table '$table_name' is too long. The maximum is 30 characters.", E_USER_ERROR); } // Get type list($column_type, $orig_column_type) = $this->get_column_type($column_data[0]); // Adjust default value if db-dependent specified if (is_array($column_data[1])) { $column_data[1] = (isset($column_data[1][$this->sql_layer])) ? $column_data[1][$this->sql_layer] : $column_data[1]['default']; } $sql = ''; $return_array = array(); switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': $sql .= " {$column_type} "; $sql_default = " {$column_type} "; // For adding columns we need the default definition if (!is_null($column_data[1])) { // For hexadecimal values do not use single quotes if (strpos($column_data[1], '0x') === 0) { $return_array['default'] = 'DEFAULT (' . $column_data[1] . ') '; $sql_default .= $return_array['default']; } else { $return_array['default'] = 'DEFAULT (' . ((is_numeric($column_data[1])) ? $column_data[1] : "'{$column_data[1]}'") . ') '; $sql_default .= $return_array['default']; } } if (isset($column_data[2]) && $column_data[2] == 'auto_increment') { // $sql .= 'IDENTITY (1, 1) '; $sql_default .= 'IDENTITY (1, 1) '; } $return_array['textimage'] = $column_type === '[text]'; if (!is_null($column_data[1]) || (isset($column_data[2]) && $column_data[2] == 'auto_increment')) { $sql .= 'NOT NULL'; $sql_default .= 'NOT NULL'; } else { $sql .= 'NULL'; $sql_default .= 'NULL'; } $return_array['column_type_sql_default'] = $sql_default; break; case 'mysql_40': case 'mysql_41': $sql .= " {$column_type} "; // For hexadecimal values do not use single quotes if (!is_null($column_data[1]) && substr($column_type, -4) !== 'text' && substr($column_type, -4) !== 'blob') { $sql .= (strpos($column_data[1], '0x') === 0) ? "DEFAULT {$column_data[1]} " : "DEFAULT '{$column_data[1]}' "; } if (!is_null($column_data[1])) { $sql .= 'NOT NULL'; } else { $sql .= 'NULL'; } if (isset($column_data[2])) { if ($column_data[2] == 'auto_increment') { $sql .= ' auto_increment'; } else if ($this->sql_layer === 'mysql_41' && $column_data[2] == 'true_sort') { $sql .= ' COLLATE utf8_unicode_ci'; } } break; case 'oracle': $sql .= " {$column_type} "; $sql .= (!is_null($column_data[1])) ? "DEFAULT '{$column_data[1]}' " : ''; // In Oracle empty strings ('') are treated as NULL. // Therefore in oracle we allow NULL's for all DEFAULT '' entries // Oracle does not like setting NOT NULL on a column that is already NOT NULL (this happens only on number fields) if (!preg_match('/number/i', $column_type)) { $sql .= ($column_data[1] === '' || $column_data[1] === null) ? '' : 'NOT NULL'; } $return_array['auto_increment'] = false; if (isset($column_data[2]) && $column_data[2] == 'auto_increment') { $return_array['auto_increment'] = true; } break; case 'postgres': $return_array['column_type'] = $column_type; $sql .= " {$column_type} "; $return_array['auto_increment'] = false; if (isset($column_data[2]) && $column_data[2] == 'auto_increment') { $default_val = "nextval('{$table_name}_seq')"; $return_array['auto_increment'] = true; } else if (!is_null($column_data[1])) { $default_val = "'" . $column_data[1] . "'"; $return_array['null'] = 'NOT NULL'; $sql .= 'NOT NULL '; } else { $default_val = "'" . $column_data[1] . "'"; $return_array['null'] = 'NULL'; $sql .= 'NULL '; } $return_array['default'] = $default_val; $sql .= "DEFAULT {$default_val}"; // Unsigned? Then add a CHECK contraint if (in_array($orig_column_type, $this->unsigned_types)) { $return_array['constraint'] = "CHECK ({$column_name} >= 0)"; $sql .= " CHECK ({$column_name} >= 0)"; } break; case 'sqlite': case 'sqlite3': $return_array['primary_key_set'] = false; if (isset($column_data[2]) && $column_data[2] == 'auto_increment') { $sql .= ' INTEGER PRIMARY KEY'; $return_array['primary_key_set'] = true; if ($this->sql_layer === 'sqlite3') { $sql .= ' AUTOINCREMENT'; } } else { $sql .= ' ' . $column_type; } if (!is_null($column_data[1])) { $sql .= ' NOT NULL '; $sql .= "DEFAULT '{$column_data[1]}'"; } break; } $return_array['column_type_sql'] = $sql; return $return_array; } /** * Get the column's database type from the type map * * @param string $column_map_type * @return array column type for this database * and map type without length */ function get_column_type($column_map_type) { if (strpos($column_map_type, ':') !== false) { list($orig_column_type, $column_length) = explode(':', $column_map_type); if (!is_array($this->dbms_type_map[$this->sql_layer][$orig_column_type . ':'])) { $column_type = sprintf($this->dbms_type_map[$this->sql_layer][$orig_column_type . ':'], $column_length); } else { if (isset($this->dbms_type_map[$this->sql_layer][$orig_column_type . ':']['rule'])) { switch ($this->dbms_type_map[$this->sql_layer][$orig_column_type . ':']['rule'][0]) { case 'div': $column_length /= $this->dbms_type_map[$this->sql_layer][$orig_column_type . ':']['rule'][1]; $column_length = ceil($column_length); $column_type = sprintf($this->dbms_type_map[$this->sql_layer][$orig_column_type . ':'][0], $column_length); break; } } if (isset($this->dbms_type_map[$this->sql_layer][$orig_column_type . ':']['limit'])) { switch ($this->dbms_type_map[$this->sql_layer][$orig_column_type . ':']['limit'][0]) { case 'mult': $column_length *= $this->dbms_type_map[$this->sql_layer][$orig_column_type . ':']['limit'][1]; if ($column_length > $this->dbms_type_map[$this->sql_layer][$orig_column_type . ':']['limit'][2]) { $column_type = $this->dbms_type_map[$this->sql_layer][$orig_column_type . ':']['limit'][3]; } else { $column_type = sprintf($this->dbms_type_map[$this->sql_layer][$orig_column_type . ':'][0], $column_length); } break; } } } $orig_column_type .= ':'; } else { $orig_column_type = $column_map_type; $column_type = $this->dbms_type_map[$this->sql_layer][$column_map_type]; } return array($column_type, $orig_column_type); } /** * Add new column */ function sql_column_add($table_name, $column_name, $column_data, $inline = false) { $column_data = $this->sql_prepare_column_data($table_name, $column_name, $column_data); $statements = array(); switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': // Does not support AFTER, only through temporary table $statements[] = 'ALTER TABLE [' . $table_name . '] ADD [' . $column_name . '] ' . $column_data['column_type_sql_default']; break; case 'mysql_40': case 'mysql_41': $after = (!empty($column_data['after'])) ? ' AFTER ' . $column_data['after'] : ''; $statements[] = 'ALTER TABLE `' . $table_name . '` ADD COLUMN `' . $column_name . '` ' . $column_data['column_type_sql'] . $after; break; case 'oracle': // Does not support AFTER, only through temporary table $statements[] = 'ALTER TABLE ' . $table_name . ' ADD ' . $column_name . ' ' . $column_data['column_type_sql']; break; case 'postgres': // Does not support AFTER, only through temporary table if (version_compare($this->db->sql_server_info(true), '8.0', '>=')) { $statements[] = 'ALTER TABLE ' . $table_name . ' ADD COLUMN "' . $column_name . '" ' . $column_data['column_type_sql']; } else { // old versions cannot add columns with default and null information $statements[] = 'ALTER TABLE ' . $table_name . ' ADD COLUMN "' . $column_name . '" ' . $column_data['column_type'] . ' ' . $column_data['constraint']; if (isset($column_data['null'])) { if ($column_data['null'] == 'NOT NULL') { $statements[] = 'ALTER TABLE ' . $table_name . ' ALTER COLUMN ' . $column_name . ' SET NOT NULL'; } } if (isset($column_data['default'])) { $statements[] = 'ALTER TABLE ' . $table_name . ' ALTER COLUMN ' . $column_name . ' SET DEFAULT ' . $column_data['default']; } } break; case 'sqlite': if ($inline && $this->return_statements) { return $column_name . ' ' . $column_data['column_type_sql']; } $recreate_queries = $this->sqlite_get_recreate_table_queries($table_name); if (empty($recreate_queries)) { break; } $statements[] = 'begin'; $sql_create_table = array_shift($recreate_queries); // Create a backup table and populate it, destroy the existing one $statements[] = preg_replace('#CREATE\s+TABLE\s+"?' . $table_name . '"?#i', 'CREATE TEMPORARY TABLE ' . $table_name . '_temp', $sql_create_table); $statements[] = 'INSERT INTO ' . $table_name . '_temp SELECT * FROM ' . $table_name; $statements[] = 'DROP TABLE ' . $table_name; preg_match('#\((.*)\)#s', $sql_create_table, $matches); $new_table_cols = trim($matches[1]); $old_table_cols = preg_split('/,(?![\s\w]+\))/m', $new_table_cols); $column_list = array(); foreach ($old_table_cols as $declaration) { $entities = preg_split('#\s+#', trim($declaration)); if ($entities[0] == 'PRIMARY') { continue; } $column_list[] = $entities[0]; } $columns = implode(',', $column_list); $new_table_cols = $column_name . ' ' . $column_data['column_type_sql'] . ',' . $new_table_cols; // create a new table and fill it up. destroy the temp one $statements[] = 'CREATE TABLE ' . $table_name . ' (' . $new_table_cols . ');'; $statements = array_merge($statements, $recreate_queries); $statements[] = 'INSERT INTO ' . $table_name . ' (' . $columns . ') SELECT ' . $columns . ' FROM ' . $table_name . '_temp;'; $statements[] = 'DROP TABLE ' . $table_name . '_temp'; $statements[] = 'commit'; break; case 'sqlite3': if ($inline && $this->return_statements) { return $column_name . ' ' . $column_data['column_type_sql']; } $statements[] = 'ALTER TABLE ' . $table_name . ' ADD ' . $column_name . ' ' . $column_data['column_type_sql']; break; } return $this->_sql_run_sql($statements); } /** * Drop column */ function sql_column_remove($table_name, $column_name, $inline = false) { $statements = array(); switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': // We need the data here $old_return_statements = $this->return_statements; $this->return_statements = true; $indexes = $this->get_existing_indexes($table_name, $column_name); $indexes = array_merge($indexes, $this->get_existing_indexes($table_name, $column_name, true)); // Drop any indexes $recreate_indexes = array(); if (!empty($indexes)) { foreach ($indexes as $index_name => $index_data) { $result = $this->sql_index_drop($table_name, $index_name); $statements = array_merge($statements, $result); if (sizeof($index_data) > 1) { // Remove this column from the index and recreate it $recreate_indexes[$index_name] = array_diff($index_data, array($column_name)); } } } // Drop default value constraint $result = $this->mssql_get_drop_default_constraints_queries($table_name, $column_name); $statements = array_merge($statements, $result); // Remove the column $statements[] = 'ALTER TABLE [' . $table_name . '] DROP COLUMN [' . $column_name . ']'; if (!empty($recreate_indexes)) { // Recreate indexes after we removed the column foreach ($recreate_indexes as $index_name => $index_data) { $result = $this->sql_create_index($table_name, $index_name, $index_data); $statements = array_merge($statements, $result); } } $this->return_statements = $old_return_statements; break; case 'mysql_40': case 'mysql_41': $statements[] = 'ALTER TABLE `' . $table_name . '` DROP COLUMN `' . $column_name . '`'; break; case 'oracle': $statements[] = 'ALTER TABLE ' . $table_name . ' DROP COLUMN ' . $column_name; break; case 'postgres': $statements[] = 'ALTER TABLE ' . $table_name . ' DROP COLUMN "' . $column_name . '"'; break; case 'sqlite': case 'sqlite3': if ($inline && $this->return_statements) { return $column_name; } $recreate_queries = $this->sqlite_get_recreate_table_queries($table_name, $column_name); if (empty($recreate_queries)) { break; } $statements[] = 'begin'; $sql_create_table = array_shift($recreate_queries); // Create a backup table and populate it, destroy the existing one $statements[] = preg_replace('#CREATE\s+TABLE\s+"?' . $table_name . '"?#i', 'CREATE TEMPORARY TABLE ' . $table_name . '_temp', $sql_create_table); $statements[] = 'INSERT INTO ' . $table_name . '_temp SELECT * FROM ' . $table_name; $statements[] = 'DROP TABLE ' . $table_name; preg_match('#\((.*)\)#s', $sql_create_table, $matches); $new_table_cols = trim($matches[1]); $old_table_cols = preg_split('/,(?![\s\w]+\))/m', $new_table_cols); $column_list = array(); foreach ($old_table_cols as $declaration) { $entities = preg_split('#\s+#', trim($declaration)); if ($entities[0] == 'PRIMARY' || $entities[0] === $column_name) { continue; } $column_list[] = $entities[0]; } $columns = implode(',', $column_list); $new_table_cols = trim(preg_replace('/' . $column_name . '\b[^,]+(?:,|$)/m', '', $new_table_cols)); if (substr($new_table_cols, -1) === ',') { // Remove the comma from the last entry again $new_table_cols = substr($new_table_cols, 0, -1); } // create a new table and fill it up. destroy the temp one $statements[] = 'CREATE TABLE ' . $table_name . ' (' . $new_table_cols . ');'; $statements = array_merge($statements, $recreate_queries); $statements[] = 'INSERT INTO ' . $table_name . ' (' . $columns . ') SELECT ' . $columns . ' FROM ' . $table_name . '_temp;'; $statements[] = 'DROP TABLE ' . $table_name . '_temp'; $statements[] = 'commit'; break; } return $this->_sql_run_sql($statements); } /** * Drop Index */ function sql_index_drop($table_name, $index_name) { $statements = array(); switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': $statements[] = 'DROP INDEX ' . $table_name . '.' . $index_name; break; case 'mysql_40': case 'mysql_41': $statements[] = 'DROP INDEX ' . $index_name . ' ON ' . $table_name; break; case 'oracle': case 'postgres': case 'sqlite': case 'sqlite3': $statements[] = 'DROP INDEX ' . $table_name . '_' . $index_name; break; } return $this->_sql_run_sql($statements); } /** * Drop Table */ function sql_table_drop($table_name) { $statements = array(); if (!$this->sql_table_exists($table_name)) { return $this->_sql_run_sql($statements); } // the most basic operation, get rid of the table $statements[] = 'DROP TABLE ' . $table_name; switch ($this->sql_layer) { case 'oracle': $sql = 'SELECT A.REFERENCED_NAME FROM USER_DEPENDENCIES A, USER_TRIGGERS B WHERE A.REFERENCED_TYPE = \'SEQUENCE\' AND A.NAME = B.TRIGGER_NAME AND B.TABLE_NAME = \'' . strtoupper($table_name) . "'"; $result = $this->db->sql_query($sql); // any sequences ref'd to this table's triggers? while ($row = $this->db->sql_fetchrow($result)) { $statements[] = "DROP SEQUENCE {$row['referenced_name']}"; } $this->db->sql_freeresult($result); break; case 'postgres': // PGSQL does not "tightly" bind sequences and tables, we must guess... $sql = "SELECT relname FROM pg_class WHERE relkind = 'S' AND relname = '{$table_name}_seq'"; $result = $this->db->sql_query($sql); // We don't even care about storing the results. We already know the answer if we get rows back. if ($this->db->sql_fetchrow($result)) { $statements[] = "DROP SEQUENCE {$table_name}_seq;\n"; } $this->db->sql_freeresult($result); break; } return $this->_sql_run_sql($statements); } /** * Add primary key */ function sql_create_primary_key($table_name, $column, $inline = false) { $statements = array(); switch ($this->sql_layer) { case 'postgres': case 'mysql_40': case 'mysql_41': $statements[] = 'ALTER TABLE ' . $table_name . ' ADD PRIMARY KEY (' . implode(', ', $column) . ')'; break; case 'mssql': case 'mssqlnative': $sql = "ALTER TABLE [{$table_name}] WITH NOCHECK ADD "; $sql .= "CONSTRAINT [PK_{$table_name}] PRIMARY KEY CLUSTERED ("; $sql .= '[' . implode("],\n\t\t[", $column) . ']'; $sql .= ')'; $statements[] = $sql; break; case 'oracle': $statements[] = 'ALTER TABLE ' . $table_name . ' add CONSTRAINT pk_' . $table_name . ' PRIMARY KEY (' . implode(', ', $column) . ')'; break; case 'sqlite': case 'sqlite3': if ($inline && $this->return_statements) { return $column; } $recreate_queries = $this->sqlite_get_recreate_table_queries($table_name); if (empty($recreate_queries)) { break; } $statements[] = 'begin'; $sql_create_table = array_shift($recreate_queries); // Create a backup table and populate it, destroy the existing one $statements[] = preg_replace('#CREATE\s+TABLE\s+"?' . $table_name . '"?#i', 'CREATE TEMPORARY TABLE ' . $table_name . '_temp', $sql_create_table); $statements[] = 'INSERT INTO ' . $table_name . '_temp SELECT * FROM ' . $table_name; $statements[] = 'DROP TABLE ' . $table_name; preg_match('#\((.*)\)#s', $sql_create_table, $matches); $new_table_cols = trim($matches[1]); $old_table_cols = preg_split('/,(?![\s\w]+\))/m', $new_table_cols); $column_list = array(); foreach ($old_table_cols as $declaration) { $entities = preg_split('#\s+#', trim($declaration)); if ($entities[0] == 'PRIMARY') { continue; } $column_list[] = $entities[0]; } $columns = implode(',', $column_list); // create a new table and fill it up. destroy the temp one $statements[] = 'CREATE TABLE ' . $table_name . ' (' . $new_table_cols . ', PRIMARY KEY (' . implode(', ', $column) . '));'; $statements = array_merge($statements, $recreate_queries); $statements[] = 'INSERT INTO ' . $table_name . ' (' . $columns . ') SELECT ' . $columns . ' FROM ' . $table_name . '_temp;'; $statements[] = 'DROP TABLE ' . $table_name . '_temp'; $statements[] = 'commit'; break; } return $this->_sql_run_sql($statements); } /** * Add unique index */ function sql_create_unique_index($table_name, $index_name, $column) { $statements = array(); $table_prefix = substr(CONFIG_TABLE, 0, -6); // strlen(config) if (strlen($table_name . '_' . $index_name) - strlen($table_prefix) > 24) { $max_length = strlen($table_prefix) + 24; trigger_error("Index name '{$table_name}_$index_name' on table '$table_name' is too long. The maximum is $max_length characters.", E_USER_ERROR); } switch ($this->sql_layer) { case 'postgres': case 'oracle': case 'sqlite': case 'sqlite3': $statements[] = 'CREATE UNIQUE INDEX ' . $table_name . '_' . $index_name . ' ON ' . $table_name . '(' . implode(', ', $column) . ')'; break; case 'mysql_40': case 'mysql_41': $statements[] = 'ALTER TABLE ' . $table_name . ' ADD UNIQUE INDEX ' . $index_name . '(' . implode(', ', $column) . ')'; break; case 'mssql': case 'mssqlnative': $statements[] = 'CREATE UNIQUE INDEX [' . $index_name . '] ON [' . $table_name . ']([' . implode('], [', $column) . '])'; break; } return $this->_sql_run_sql($statements); } /** * Add index */ function sql_create_index($table_name, $index_name, $column) { $statements = array(); $table_prefix = substr(CONFIG_TABLE, 0, -6); // strlen(config) if (strlen($table_name . $index_name) - strlen($table_prefix) > 24) { $max_length = strlen($table_prefix) + 24; trigger_error("Index name '{$table_name}_$index_name' on table '$table_name' is too long. The maximum is $max_length characters.", E_USER_ERROR); } // remove index length unless MySQL4 if ('mysql_40' != $this->sql_layer) { $column = preg_replace('#:.*$#', '', $column); } switch ($this->sql_layer) { case 'postgres': case 'oracle': case 'sqlite': case 'sqlite3': $statements[] = 'CREATE INDEX ' . $table_name . '_' . $index_name . ' ON ' . $table_name . '(' . implode(', ', $column) . ')'; break; case 'mysql_40': // add index size to definition as required by MySQL4 foreach ($column as $i => $col) { if (false !== strpos($col, ':')) { list($col, $index_size) = explode(':', $col); $column[$i] = "$col($index_size)"; } } // no break case 'mysql_41': $statements[] = 'ALTER TABLE ' . $table_name . ' ADD INDEX ' . $index_name . '(' . implode(', ', $column) . ')'; break; case 'mssql': case 'mssqlnative': $statements[] = 'CREATE INDEX [' . $index_name . '] ON [' . $table_name . ']([' . implode('], [', $column) . '])'; break; } return $this->_sql_run_sql($statements); } /** * List all of the indices that belong to a table, * does not count: * * UNIQUE indices * * PRIMARY keys */ function sql_list_index($table_name) { $index_array = array(); if ($this->sql_layer == 'mssql' || $this->sql_layer == 'mssqlnative') { $sql = "EXEC sp_statistics '$table_name'"; $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { if ($row['TYPE'] == 3) { $index_array[] = $row['INDEX_NAME']; } } $this->db->sql_freeresult($result); } else { switch ($this->sql_layer) { case 'postgres': $sql = "SELECT ic.relname as index_name FROM pg_class bc, pg_class ic, pg_index i WHERE (bc.oid = i.indrelid) AND (ic.oid = i.indexrelid) AND (bc.relname = '" . $table_name . "') AND (i.indisunique != 't') AND (i.indisprimary != 't')"; $col = 'index_name'; break; case 'mysql_40': case 'mysql_41': $sql = 'SHOW KEYS FROM ' . $table_name; $col = 'Key_name'; break; case 'oracle': $sql = "SELECT index_name FROM user_indexes WHERE table_name = '" . strtoupper($table_name) . "' AND generated = 'N' AND uniqueness = 'NONUNIQUE'"; $col = 'index_name'; break; case 'sqlite': case 'sqlite3': $sql = "PRAGMA index_info('" . $table_name . "');"; $col = 'name'; break; } $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { if (($this->sql_layer == 'mysql_40' || $this->sql_layer == 'mysql_41') && !$row['Non_unique']) { continue; } switch ($this->sql_layer) { case 'oracle': case 'postgres': case 'sqlite': case 'sqlite3': $row[$col] = substr($row[$col], strlen($table_name) + 1); break; } $index_array[] = $row[$col]; } $this->db->sql_freeresult($result); } return array_map('strtolower', $index_array); } /** * Removes table_name from the index_name if it is at the beginning * * @param $table_name * @param $index_name * @return string */ protected function strip_table_name_from_index_name($table_name, $index_name) { return (strpos(strtoupper($index_name), strtoupper($table_name)) === 0) ? substr($index_name, strlen($table_name) + 1) : $index_name; } /** * Change column type (not name!) */ function sql_column_change($table_name, $column_name, $column_data, $inline = false) { $original_column_data = $column_data; $column_data = $this->sql_prepare_column_data($table_name, $column_name, $column_data); $statements = array(); switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': // We need the data here $old_return_statements = $this->return_statements; $this->return_statements = true; $indexes = $this->get_existing_indexes($table_name, $column_name); $unique_indexes = $this->get_existing_indexes($table_name, $column_name, true); // Drop any indexes if (!empty($indexes) || !empty($unique_indexes)) { $drop_indexes = array_merge(array_keys($indexes), array_keys($unique_indexes)); foreach ($drop_indexes as $index_name) { $result = $this->sql_index_drop($table_name, $index_name); $statements = array_merge($statements, $result); } } // Drop default value constraint $result = $this->mssql_get_drop_default_constraints_queries($table_name, $column_name); $statements = array_merge($statements, $result); // Change the column $statements[] = 'ALTER TABLE [' . $table_name . '] ALTER COLUMN [' . $column_name . '] ' . $column_data['column_type_sql']; if (!empty($column_data['default'])) { // Add new default value constraint $statements[] = 'ALTER TABLE [' . $table_name . '] ADD CONSTRAINT [DF_' . $table_name . '_' . $column_name . '_1] ' . $this->db->sql_escape($column_data['default']) . ' FOR [' . $column_name . ']'; } if (!empty($indexes)) { // Recreate indexes after we changed the column foreach ($indexes as $index_name => $index_data) { $result = $this->sql_create_index($table_name, $index_name, $index_data); $statements = array_merge($statements, $result); } } if (!empty($unique_indexes)) { // Recreate unique indexes after we changed the column foreach ($unique_indexes as $index_name => $index_data) { $result = $this->sql_create_unique_index($table_name, $index_name, $index_data); $statements = array_merge($statements, $result); } } $this->return_statements = $old_return_statements; break; case 'mysql_40': case 'mysql_41': $statements[] = 'ALTER TABLE `' . $table_name . '` CHANGE `' . $column_name . '` `' . $column_name . '` ' . $column_data['column_type_sql']; break; case 'oracle': // We need the data here $old_return_statements = $this->return_statements; $this->return_statements = true; // Get list of existing indexes $indexes = $this->get_existing_indexes($table_name, $column_name); $unique_indexes = $this->get_existing_indexes($table_name, $column_name, true); // Drop any indexes if (!empty($indexes) || !empty($unique_indexes)) { $drop_indexes = array_merge(array_keys($indexes), array_keys($unique_indexes)); foreach ($drop_indexes as $index_name) { $result = $this->sql_index_drop($table_name, $this->strip_table_name_from_index_name($table_name, $index_name)); $statements = array_merge($statements, $result); } } $temp_column_name = 'temp_' . substr(md5($column_name), 0, 25); // Add a temporary table with the new type $result = $this->sql_column_add($table_name, $temp_column_name, $original_column_data); $statements = array_merge($statements, $result); // Copy the data to the new column $statements[] = 'UPDATE ' . $table_name . ' SET ' . $temp_column_name . ' = ' . $column_name; // Drop the original column $result = $this->sql_column_remove($table_name, $column_name); $statements = array_merge($statements, $result); // Recreate the original column with the new type $result = $this->sql_column_add($table_name, $column_name, $original_column_data); $statements = array_merge($statements, $result); if (!empty($indexes)) { // Recreate indexes after we changed the column foreach ($indexes as $index_name => $index_data) { $result = $this->sql_create_index($table_name, $this->strip_table_name_from_index_name($table_name, $index_name), $index_data); $statements = array_merge($statements, $result); } } if (!empty($unique_indexes)) { // Recreate unique indexes after we changed the column foreach ($unique_indexes as $index_name => $index_data) { $result = $this->sql_create_unique_index($table_name, $this->strip_table_name_from_index_name($table_name, $index_name), $index_data); $statements = array_merge($statements, $result); } } // Copy the data to the original column $statements[] = 'UPDATE ' . $table_name . ' SET ' . $column_name . ' = ' . $temp_column_name; // Drop the temporary column again $result = $this->sql_column_remove($table_name, $temp_column_name); $statements = array_merge($statements, $result); $this->return_statements = $old_return_statements; break; case 'postgres': $sql = 'ALTER TABLE ' . $table_name . ' '; $sql_array = array(); $sql_array[] = 'ALTER COLUMN ' . $column_name . ' TYPE ' . $column_data['column_type']; if (isset($column_data['null'])) { if ($column_data['null'] == 'NOT NULL') { $sql_array[] = 'ALTER COLUMN ' . $column_name . ' SET NOT NULL'; } else if ($column_data['null'] == 'NULL') { $sql_array[] = 'ALTER COLUMN ' . $column_name . ' DROP NOT NULL'; } } if (isset($column_data['default'])) { $sql_array[] = 'ALTER COLUMN ' . $column_name . ' SET DEFAULT ' . $column_data['default']; } // we don't want to double up on constraints if we change different number data types if (isset($column_data['constraint'])) { $constraint_sql = "SELECT consrc as constraint_data FROM pg_constraint, pg_class bc WHERE conrelid = bc.oid AND bc.relname = '{$table_name}' AND NOT EXISTS ( SELECT * FROM pg_constraint as c, pg_inherits as i WHERE i.inhrelid = pg_constraint.conrelid AND c.conname = pg_constraint.conname AND c.consrc = pg_constraint.consrc AND c.conrelid = i.inhparent )"; $constraint_exists = false; $result = $this->db->sql_query($constraint_sql); while ($row = $this->db->sql_fetchrow($result)) { if (trim($row['constraint_data']) == trim($column_data['constraint'])) { $constraint_exists = true; break; } } $this->db->sql_freeresult($result); if (!$constraint_exists) { $sql_array[] = 'ADD ' . $column_data['constraint']; } } $sql .= implode(', ', $sql_array); $statements[] = $sql; break; case 'sqlite': case 'sqlite3': if ($inline && $this->return_statements) { return $column_name . ' ' . $column_data['column_type_sql']; } $recreate_queries = $this->sqlite_get_recreate_table_queries($table_name); if (empty($recreate_queries)) { break; } $statements[] = 'begin'; $sql_create_table = array_shift($recreate_queries); // Create a temp table and populate it, destroy the existing one $statements[] = preg_replace('#CREATE\s+TABLE\s+"?' . $table_name . '"?#i', 'CREATE TEMPORARY TABLE ' . $table_name . '_temp', $sql_create_table); $statements[] = 'INSERT INTO ' . $table_name . '_temp SELECT * FROM ' . $table_name; $statements[] = 'DROP TABLE ' . $table_name; preg_match('#\((.*)\)#s', $sql_create_table, $matches); $new_table_cols = trim($matches[1]); $old_table_cols = preg_split('/,(?![\s\w]+\))/m', $new_table_cols); $column_list = array(); foreach ($old_table_cols as $key => $declaration) { $declaration = trim($declaration); // Check for the beginning of the constraint section and stop if (preg_match('/[^\(]*\s*PRIMARY KEY\s+\(/', $declaration) || preg_match('/[^\(]*\s*UNIQUE\s+\(/', $declaration) || preg_match('/[^\(]*\s*FOREIGN KEY\s+\(/', $declaration) || preg_match('/[^\(]*\s*CHECK\s+\(/', $declaration)) { break; } $entities = preg_split('#\s+#', $declaration); $column_list[] = $entities[0]; if ($entities[0] == $column_name) { $old_table_cols[$key] = $column_name . ' ' . $column_data['column_type_sql']; } } $columns = implode(',', $column_list); // Create a new table and fill it up. destroy the temp one $statements[] = 'CREATE TABLE ' . $table_name . ' (' . implode(',', $old_table_cols) . ');'; $statements = array_merge($statements, $recreate_queries); $statements[] = 'INSERT INTO ' . $table_name . ' (' . $columns . ') SELECT ' . $columns . ' FROM ' . $table_name . '_temp;'; $statements[] = 'DROP TABLE ' . $table_name . '_temp'; $statements[] = 'commit'; break; } return $this->_sql_run_sql($statements); } /** * Get queries to drop the default constraints of a column * * We need to drop the default constraints of a column, * before being able to change their type or deleting them. * * @param string $table_name * @param string $column_name * @return array Array with SQL statements */ protected function mssql_get_drop_default_constraints_queries($table_name, $column_name) { $statements = array(); if ($this->mssql_is_sql_server_2000()) { // http://msdn.microsoft.com/en-us/library/aa175912%28v=sql.80%29.aspx // Deprecated in SQL Server 2005 $sql = "SELECT so.name AS def_name FROM sysobjects so JOIN sysconstraints sc ON so.id = sc.constid WHERE object_name(so.parent_obj) = '{$table_name}' AND so.xtype = 'D' AND sc.colid = (SELECT colid FROM syscolumns WHERE id = object_id('{$table_name}') AND name = '{$column_name}')"; } else { $sql = "SELECT dobj.name AS def_name FROM sys.columns col LEFT OUTER JOIN sys.objects dobj ON (dobj.object_id = col.default_object_id AND dobj.type = 'D') WHERE col.object_id = object_id('{$table_name}') AND col.name = '{$column_name}' AND dobj.name IS NOT NULL"; } $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { $statements[] = 'ALTER TABLE [' . $table_name . '] DROP CONSTRAINT [' . $row['def_name'] . ']'; } $this->db->sql_freeresult($result); return $statements; } /** * Get a list with existing indexes for the column * * @param string $table_name * @param string $column_name * @param bool $unique Should we get unique indexes or normal ones * @return array Array with Index name => columns */ public function get_existing_indexes($table_name, $column_name, $unique = false) { switch ($this->sql_layer) { case 'mysql_40': case 'mysql_41': case 'postgres': case 'sqlite': case 'sqlite3': // Not supported throw new \Exception('DBMS is not supported'); break; } $sql = ''; $existing_indexes = array(); switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': if ($this->mssql_is_sql_server_2000()) { // http://msdn.microsoft.com/en-us/library/aa175912%28v=sql.80%29.aspx // Deprecated in SQL Server 2005 $sql = "SELECT DISTINCT ix.name AS phpbb_index_name FROM sysindexes ix INNER JOIN sysindexkeys ixc ON ixc.id = ix.id AND ixc.indid = ix.indid INNER JOIN syscolumns cols ON cols.colid = ixc.colid AND cols.id = ix.id WHERE ix.id = object_id('{$table_name}') AND cols.name = '{$column_name}' AND INDEXPROPERTY(ix.id, ix.name, 'IsUnique') = " . ($unique) ? '1' : '0'; } else { $sql = "SELECT DISTINCT ix.name AS phpbb_index_name FROM sys.indexes ix INNER JOIN sys.index_columns ixc ON ixc.object_id = ix.object_id AND ixc.index_id = ix.index_id INNER JOIN sys.columns cols ON cols.column_id = ixc.column_id AND cols.object_id = ix.object_id WHERE ix.object_id = object_id('{$table_name}') AND cols.name = '{$column_name}' AND ix.is_unique = " . ($unique) ? '1' : '0'; } break; case 'oracle': $sql = "SELECT ix.index_name AS phpbb_index_name, ix.uniqueness AS is_unique FROM all_ind_columns ixc, all_indexes ix WHERE ix.index_name = ixc.index_name AND ixc.table_name = '" . strtoupper($table_name) . "' AND ixc.column_name = '" . strtoupper($column_name) . "'"; break; } $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { if (!isset($row['is_unique']) || ($unique && $row['is_unique'] == 'UNIQUE') || (!$unique && $row['is_unique'] == 'NONUNIQUE')) { $existing_indexes[$row['phpbb_index_name']] = array(); } } $this->db->sql_freeresult($result); if (empty($existing_indexes)) { return array(); } switch ($this->sql_layer) { case 'mssql': case 'mssqlnative': if ($this->mssql_is_sql_server_2000()) { $sql = "SELECT DISTINCT ix.name AS phpbb_index_name, cols.name AS phpbb_column_name FROM sysindexes ix INNER JOIN sysindexkeys ixc ON ixc.id = ix.id AND ixc.indid = ix.indid INNER JOIN syscolumns cols ON cols.colid = ixc.colid AND cols.id = ix.id WHERE ix.id = object_id('{$table_name}') AND " . $this->db->sql_in_set('ix.name', array_keys($existing_indexes)); } else { $sql = "SELECT DISTINCT ix.name AS phpbb_index_name, cols.name AS phpbb_column_name FROM sys.indexes ix INNER JOIN sys.index_columns ixc ON ixc.object_id = ix.object_id AND ixc.index_id = ix.index_id INNER JOIN sys.columns cols ON cols.column_id = ixc.column_id AND cols.object_id = ix.object_id WHERE ix.object_id = object_id('{$table_name}') AND " . $this->db->sql_in_set('ix.name', array_keys($existing_indexes)); } break; case 'oracle': $sql = "SELECT index_name AS phpbb_index_name, column_name AS phpbb_column_name FROM all_ind_columns WHERE table_name = '" . strtoupper($table_name) . "' AND " . $this->db->sql_in_set('index_name', array_keys($existing_indexes)); break; } $result = $this->db->sql_query($sql); while ($row = $this->db->sql_fetchrow($result)) { $existing_indexes[$row['phpbb_index_name']][] = $row['phpbb_column_name']; } $this->db->sql_freeresult($result); return $existing_indexes; } /** * Is the used MS SQL Server a SQL Server 2000? * * @return bool */ protected function mssql_is_sql_server_2000() { if ($this->is_sql_server_2000 === null) { $sql = "SELECT CAST(SERVERPROPERTY('productversion') AS VARCHAR(25)) AS mssql_version"; $result = $this->db->sql_query($sql); $properties = $this->db->sql_fetchrow($result); $this->db->sql_freeresult($result); $this->is_sql_server_2000 = $properties['mssql_version'][0] == '8'; } return $this->is_sql_server_2000; } /** * Returns the Queries which are required to recreate a table including indexes * * @param string $table_name * @param string $remove_column When we drop a column, we remove the column * from all indexes. If the index has no other * column, we drop it completly. * @return array */ protected function sqlite_get_recreate_table_queries($table_name, $remove_column = '') { $queries = array(); $sql = "SELECT sql FROM sqlite_master WHERE type = 'table' AND name = '{$table_name}'"; $result = $this->db->sql_query($sql); $sql_create_table = $this->db->sql_fetchfield('sql'); $this->db->sql_freeresult($result); if (!$sql_create_table) { return array(); } $queries[] = $sql_create_table; $sql = "SELECT sql FROM sqlite_master WHERE type = 'index' AND tbl_name = '{$table_name}'"; $result = $this->db->sql_query($sql); while ($sql_create_index = $this->db->sql_fetchfield('sql')) { if ($remove_column) { $match = array(); preg_match('#(?:[\w ]+)\((.*)\)#', $sql_create_index, $match); if (!isset($match[1])) { continue; } // Find and remove $remove_column from the index $columns = explode(', ', $match[1]); $found_column = array_search($remove_column, $columns); if ($found_column !== false) { unset($columns[$found_column]); // If the column list is not empty add the index to the list if (!empty($columns)) { $queries[] = str_replace($match[1], implode(', ', $columns), $sql_create_index); } } else { $queries[] = $sql_create_index; } } else { $queries[] = $sql_create_index; } } $this->db->sql_freeresult($result); return $queries; } }