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<?php
/* vim: set expandtab sw=4 ts=4 sts=4: */
/**
* Library that provides common import functions that are used by import plugins
*
* @package PhpMyAdmin-Import
*/
namespace PhpMyAdmin;
use PhpMyAdmin\Encoding;
use PhpMyAdmin\Message;
use PhpMyAdmin\Response;
use PhpMyAdmin\SqlParser\Parser;
use PhpMyAdmin\SqlParser\Statements\DeleteStatement;
use PhpMyAdmin\SqlParser\Statements\InsertStatement;
use PhpMyAdmin\SqlParser\Statements\ReplaceStatement;
use PhpMyAdmin\SqlParser\Statements\UpdateStatement;
use PhpMyAdmin\SqlParser\Utils\Query;
use PhpMyAdmin\Table;
use PhpMyAdmin\Url;
use PhpMyAdmin\Util;
/**
* We need to know something about user
*/
$GLOBALS['cfg']['Server']['DisableIS'] = false;
require_once './libraries/check_user_privileges.inc.php';
/**
* PhpMyAdmin\Import class
*
* @package PhpMyAdmin
*/
class Import
{
/* MySQL type defs */
const NONE = 0;
const VARCHAR = 1;
const INT = 2;
const DECIMAL = 3;
const BIGINT = 4;
const GEOMETRY = 5;
/* Decimal size defs */
const M = 0;
const D = 1;
const FULL = 2;
/* Table array defs */
const TBL_NAME = 0;
const COL_NAMES = 1;
const ROWS = 2;
/* Analysis array defs */
const TYPES = 0;
const SIZES = 1;
const FORMATTEDSQL = 2;
/**
* Checks whether timeout is getting close
*
* @return boolean true if timeout is close
* @access public
*/
public static function checkTimeout()
{
global $timestamp, $maximum_time, $timeout_passed;
if ($maximum_time == 0) {
return false;
} elseif ($timeout_passed) {
return true;
/* 5 in next row might be too much */
} elseif ((time() - $timestamp) > ($maximum_time - 5)) {
$timeout_passed = true;
return true;
}
return false;
}
/**
* Runs query inside import buffer. This is needed to allow displaying
* of last SELECT, SHOW or HANDLER results and similar nice stuff.
*
* @param string $sql query to run
* @param string $full query to display, this might be commented
* @param array &$sql_data SQL parse data storage
*
* @return void
* @access public
*/
public static function executeQuery($sql, $full, array &$sql_data)
{
global $go_sql,
$sql_query, $my_die, $error, $reload,
$result, $msg,
$cfg, $sql_query_disabled, $db;
$result = $GLOBALS['dbi']->tryQuery($sql);
// USE query changes the database, son need to track
// while running multiple queries
$is_use_query = mb_stripos($sql, "use ") !== false;
$msg = '# ';
if ($result === false) { // execution failed
if (! isset($my_die)) {
$my_die = array();
}
$my_die[] = array(
'sql' => $full,
'error' => $GLOBALS['dbi']->getError()
);
$msg .= __('Error');
if (! $cfg['IgnoreMultiSubmitErrors']) {
$error = true;
return;
}
} else {
$a_num_rows = (int)@$GLOBALS['dbi']->numRows($result);
$a_aff_rows = (int)@$GLOBALS['dbi']->affectedRows();
if ($a_num_rows > 0) {
$msg .= __('Rows') . ': ' . $a_num_rows;
} elseif ($a_aff_rows > 0) {
$message = Message::getMessageForAffectedRows(
$a_aff_rows
);
$msg .= $message->getMessage();
} else {
$msg .= __(
'MySQL returned an empty result set (i.e. zero '
. 'rows).'
);
}
if (($a_num_rows > 0) || $is_use_query) {
$sql_data['valid_sql'][] = $sql;
if (!isset($sql_data['valid_queries'])) {
$sql_data['valid_queries'] = 0;
}
$sql_data['valid_queries']++;
}
}
if (! $sql_query_disabled) {
$sql_query .= $msg . "\n";
}
// If a 'USE <db>' SQL-clause was found and the query
// succeeded, set our current $db to the new one
if ($result != false) {
list($db, $reload) = self::lookForUse(
$sql,
$db,
$reload
);
}
$pattern = '@^[\s]*(DROP|CREATE)[\s]+(IF EXISTS[[:space:]]+)'
. '?(TABLE|DATABASE)[[:space:]]+(.+)@im';
if ($result != false
&& preg_match($pattern, $sql)
) {
$reload = true;
}
}
/**
* Runs query inside import buffer. This is needed to allow displaying
* of last SELECT, SHOW or HANDLER results and similar nice stuff.
*
* @param string $sql query to run
* @param string $full query to display, this might be commented
* @param array &$sql_data SQL parse data storage
*
* @return void
* @access public
*/
public static function runQuery($sql = '', $full = '', array &$sql_data = array())
{
global $import_run_buffer, $go_sql, $complete_query, $display_query,
$sql_query, $error, $reload, $result, $msg,
$skip_queries, $executed_queries, $max_sql_len, $read_multiply,
$cfg, $sql_query_disabled, $db, $run_query;
$read_multiply = 1;
if (!isset($import_run_buffer)) {
// Do we have something to push into buffer?
$import_run_buffer = self::runQueryPost(
$import_run_buffer, $sql, $full
);
return;
}
// Should we skip something?
if ($skip_queries > 0) {
$skip_queries--;
// Do we have something to push into buffer?
$import_run_buffer = self::runQueryPost(
$import_run_buffer, $sql, $full
);
return;
}
if (! empty($import_run_buffer['sql'])
&& trim($import_run_buffer['sql']) != ''
) {
$max_sql_len = max(
$max_sql_len,
mb_strlen($import_run_buffer['sql'])
);
if (! $sql_query_disabled) {
$sql_query .= $import_run_buffer['full'];
}
$executed_queries++;
if ($run_query && $executed_queries < 50) {
$go_sql = true;
if (! $sql_query_disabled) {
$complete_query = $sql_query;
$display_query = $sql_query;
} else {
$complete_query = '';
$display_query = '';
}
$sql_query = $import_run_buffer['sql'];
$sql_data['valid_sql'][] = $import_run_buffer['sql'];
$sql_data['valid_full'][] = $import_run_buffer['full'];
if (! isset($sql_data['valid_queries'])) {
$sql_data['valid_queries'] = 0;
}
$sql_data['valid_queries']++;
} elseif ($run_query) {
/* Handle rollback from go_sql */
if ($go_sql && isset($sql_data['valid_full'])) {
$queries = $sql_data['valid_sql'];
$fulls = $sql_data['valid_full'];
$count = $sql_data['valid_queries'];
$go_sql = false;
$sql_data['valid_sql'] = array();
$sql_data['valid_queries'] = 0;
unset($sql_data['valid_full']);
for ($i = 0; $i < $count; $i++) {
self::executeQuery(
$queries[$i],
$fulls[$i],
$sql_data
);
}
}
self::executeQuery(
$import_run_buffer['sql'],
$import_run_buffer['full'],
$sql_data
);
} // end run query
// end non empty query
} elseif (! empty($import_run_buffer['full'])) {
if ($go_sql) {
$complete_query .= $import_run_buffer['full'];
$display_query .= $import_run_buffer['full'];
} else {
if (! $sql_query_disabled) {
$sql_query .= $import_run_buffer['full'];
}
}
}
// check length of query unless we decided to pass it to sql.php
// (if $run_query is false, we are just displaying so show
// the complete query in the textarea)
if (! $go_sql && $run_query) {
if (! empty($sql_query)) {
if (mb_strlen($sql_query) > 50000
|| $executed_queries > 50
|| $max_sql_len > 1000
) {
$sql_query = '';
$sql_query_disabled = true;
}
}
}
// Do we have something to push into buffer?
$import_run_buffer = self::runQueryPost($import_run_buffer, $sql, $full);
// In case of ROLLBACK, notify the user.
if (isset($_POST['rollback_query'])) {
$msg .= __('[ROLLBACK occurred.]');
}
}
/**
* Return import run buffer
*
* @param array $import_run_buffer Buffer of queries for import
* @param string $sql SQL query
* @param string $full Query to display
*
* @return array Buffer of queries for import
*/
public static function runQueryPost($import_run_buffer, $sql, $full)
{
if (!empty($sql) || !empty($full)) {
$import_run_buffer = array('sql' => $sql, 'full' => $full);
return $import_run_buffer;
}
unset($GLOBALS['import_run_buffer']);
return $import_run_buffer;
}
/**
* Looks for the presence of USE to possibly change current db
*
* @param string $buffer buffer to examine
* @param string $db current db
* @param bool $reload reload
*
* @return array (current or new db, whether to reload)
* @access public
*/
public static function lookForUse($buffer, $db, $reload)
{
if (preg_match('@^[\s]*USE[[:space:]]+([\S]+)@i', $buffer, $match)) {
$db = trim($match[1]);
$db = trim($db, ';'); // for example, USE abc;
// $db must not contain the escape characters generated by backquote()
// ( used in self::buildSql() as: backquote($db_name), and then called
// in self::runQuery() which in turn calls self::lookForUse() )
$db = Util::unQuote($db);
$reload = true;
}
return(array($db, $reload));
}
/**
* Returns next part of imported file/buffer
*
* @param int $size size of buffer to read
* (this is maximal size function will return)
*
* @return string part of file/buffer
* @access public
*/
public static function getNextChunk($size = 32768)
{
global $compression, $import_handle, $charset_conversion, $charset_of_file,
$read_multiply;
// Add some progression while reading large amount of data
if ($read_multiply <= 8) {
$size *= $read_multiply;
} else {
$size *= 8;
}
$read_multiply++;
// We can not read too much
if ($size > $GLOBALS['read_limit']) {
$size = $GLOBALS['read_limit'];
}
if (self::checkTimeout()) {
return false;
}
if ($GLOBALS['finished']) {
return true;
}
if ($GLOBALS['import_file'] == 'none') {
// Well this is not yet supported and tested,
// but should return content of textarea
if (mb_strlen($GLOBALS['import_text']) < $size) {
$GLOBALS['finished'] = true;
return $GLOBALS['import_text'];
} else {
$r = mb_substr($GLOBALS['import_text'], 0, $size);
$GLOBALS['offset'] += $size;
$GLOBALS['import_text'] = mb_substr($GLOBALS['import_text'], $size);
return $r;
}
}
$result = $import_handle->read($size);
$GLOBALS['finished'] = $import_handle->eof();
$GLOBALS['offset'] += $size;
if ($charset_conversion) {
return Encoding::convertString($charset_of_file, 'utf-8', $result);
}
/**
* Skip possible byte order marks (I do not think we need more
* charsets, but feel free to add more, you can use wikipedia for
* reference: <https://en.wikipedia.org/wiki/Byte_Order_Mark>)
*
* @todo BOM could be used for charset autodetection
*/
if ($GLOBALS['offset'] == $size) {
// UTF-8
if (strncmp($result, "\xEF\xBB\xBF", 3) == 0) {
$result = mb_substr($result, 3);
// UTF-16 BE, LE
} elseif (strncmp($result, "\xFE\xFF", 2) == 0
|| strncmp($result, "\xFF\xFE", 2) == 0
) {
$result = mb_substr($result, 2);
}
}
return $result;
}
/**
* Returns the "Excel" column name (i.e. 1 = "A", 26 = "Z", 27 = "AA", etc.)
*
* This functions uses recursion to build the Excel column name.
*
* The column number (1-26) is converted to the responding
* ASCII character (A-Z) and returned.
*
* If the column number is bigger than 26 (= num of letters in alphabet),
* an extra character needs to be added. To find this extra character,
* the number is divided by 26 and this value is passed to another instance
* of the same function (hence recursion). In that new instance the number is
* evaluated again, and if it is still bigger than 26, it is divided again
* and passed to another instance of the same function. This continues until
* the number is smaller than 26. Then the last called function returns
* the corresponding ASCII character to the function that called it.
* Each time a called function ends an extra character is added to the column name.
* When the first function is reached, the last character is added and the complete
* column name is returned.
*
* @param int $num the column number
*
* @return string The column's "Excel" name
* @access public
*/
public static function getColumnAlphaName($num)
{
$A = 65; // ASCII value for capital "A"
$col_name = "";
if ($num > 26) {
$div = (int)($num / 26);
$remain = (int)($num % 26);
// subtract 1 of divided value in case the modulus is 0,
// this is necessary because A-Z has no 'zero'
if ($remain == 0) {
$div--;
}
// recursive function call
$col_name = self::getColumnAlphaName($div);
// use modulus as new column number
$num = $remain;
}
if ($num == 0) {
// use 'Z' if column number is 0,
// this is necessary because A-Z has no 'zero'
$col_name .= mb_chr(($A + 26) - 1);
} else {
// convert column number to ASCII character
$col_name .= mb_chr(($A + $num) - 1);
}
return $col_name;
}
/**
* Returns the column number based on the Excel name.
* So "A" = 1, "Z" = 26, "AA" = 27, etc.
*
* Basically this is a base26 (A-Z) to base10 (0-9) conversion.
* It iterates through all characters in the column name and
* calculates the corresponding value, based on character value
* (A = 1, ..., Z = 26) and position in the string.
*
* @param string $name column name(i.e. "A", or "BC", etc.)
*
* @return int The column number
* @access public
*/
public static function getColumnNumberFromName($name)
{
if (empty($name)) {
return 0;
}
$name = mb_strtoupper($name);
$num_chars = mb_strlen($name);
$column_number = 0;
for ($i = 0; $i < $num_chars; ++$i) {
// read string from back to front
$char_pos = ($num_chars - 1) - $i;
// convert capital character to ASCII value
// and subtract 64 to get corresponding decimal value
// ASCII value of "A" is 65, "B" is 66, etc.
// Decimal equivalent of "A" is 1, "B" is 2, etc.
$number = (int)(mb_ord($name[$char_pos]) - 64);
// base26 to base10 conversion : multiply each number
// with corresponding value of the position, in this case
// $i=0 : 1; $i=1 : 26; $i=2 : 676; ...
$column_number += $number * pow(26, $i);
}
return $column_number;
}
/**
* Obtains the precision (total # of digits) from a size of type decimal
*
* @param string $last_cumulative_size Size of type decimal
*
* @return int Precision of the given decimal size notation
* @access public
*/
public static function getDecimalPrecision($last_cumulative_size)
{
return (int)substr(
$last_cumulative_size,
0,
strpos($last_cumulative_size, ",")
);
}
/**
* Obtains the scale (# of digits to the right of the decimal point)
* from a size of type decimal
*
* @param string $last_cumulative_size Size of type decimal
*
* @return int Scale of the given decimal size notation
* @access public
*/
public static function getDecimalScale($last_cumulative_size)
{
return (int)substr(
$last_cumulative_size,
(strpos($last_cumulative_size, ",") + 1),
(strlen($last_cumulative_size) - strpos($last_cumulative_size, ","))
);
}
/**
* Obtains the decimal size of a given cell
*
* @param string $cell cell content
*
* @return array Contains the precision, scale, and full size
* representation of the given decimal cell
* @access public
*/
public static function getDecimalSize($cell)
{
$curr_size = mb_strlen((string)$cell);
$decPos = mb_strpos($cell, ".");
$decPrecision = ($curr_size - 1) - $decPos;
$m = $curr_size - 1;
$d = $decPrecision;
return array($m, $d, ($m . "," . $d));
}
/**
* Obtains the size of the given cell
*
* @param string $last_cumulative_size Last cumulative column size
* @param int $last_cumulative_type Last cumulative column type
* (NONE or VARCHAR or DECIMAL or INT or BIGINT)
* @param int $curr_type Type of the current cell
* (NONE or VARCHAR or DECIMAL or INT or BIGINT)
* @param string $cell The current cell
*
* @return string Size of the given cell in the type-appropriate format
* @access public
*
* @todo Handle the error cases more elegantly
*/
public static function detectSize($last_cumulative_size, $last_cumulative_type,
$curr_type, $cell
) {
$curr_size = mb_strlen((string)$cell);
/**
* If the cell is NULL, don't treat it as a varchar
*/
if (! strcmp('NULL', $cell)) {
return $last_cumulative_size;
} elseif ($curr_type == self::VARCHAR) {
/**
* What to do if the current cell is of type VARCHAR
*/
/**
* The last cumulative type was VARCHAR
*/
if ($last_cumulative_type == self::VARCHAR) {
if ($curr_size >= $last_cumulative_size) {
return $curr_size;
}
return $last_cumulative_size;
} elseif ($last_cumulative_type == self::DECIMAL) {
/**
* The last cumulative type was DECIMAL
*/
$oldM = self::getDecimalPrecision($last_cumulative_size);
if ($curr_size >= $oldM) {
return $curr_size;
}
return $oldM;
} elseif ($last_cumulative_type == self::BIGINT || $last_cumulative_type == self::INT) {
/**
* The last cumulative type was BIGINT or INT
*/
if ($curr_size >= $last_cumulative_size) {
return $curr_size;
}
return $last_cumulative_size;
} elseif (! isset($last_cumulative_type) || $last_cumulative_type == self::NONE) {
/**
* This is the first row to be analyzed
*/
return $curr_size;
}
/**
* An error has DEFINITELY occurred
*/
/**
* TODO: Handle this MUCH more elegantly
*/
return -1;
} elseif ($curr_type == self::DECIMAL) {
/**
* What to do if the current cell is of type DECIMAL
*/
/**
* The last cumulative type was VARCHAR
*/
if ($last_cumulative_type == self::VARCHAR) {
/* Convert $last_cumulative_size from varchar to decimal format */
$size = self::getDecimalSize($cell);
if ($size[self::M] >= $last_cumulative_size) {
return $size[self::M];
}
return $last_cumulative_size;
} elseif ($last_cumulative_type == self::DECIMAL) {
/**
* The last cumulative type was DECIMAL
*/
$size = self::getDecimalSize($cell);
$oldM = self::getDecimalPrecision($last_cumulative_size);
$oldD = self::getDecimalScale($last_cumulative_size);
/* New val if M or D is greater than current largest */
if ($size[self::M] > $oldM || $size[self::D] > $oldD) {
/* Take the largest of both types */
return (string) ((($size[self::M] > $oldM) ? $size[self::M] : $oldM)
. "," . (($size[self::D] > $oldD) ? $size[self::D] : $oldD));
}
return $last_cumulative_size;
} elseif ($last_cumulative_type == self::BIGINT || $last_cumulative_type == self::INT) {
/**
* The last cumulative type was BIGINT or INT
*/
/* Convert $last_cumulative_size from int to decimal format */
$size = self::getDecimalSize($cell);
if ($size[self::M] >= $last_cumulative_size) {
return $size[self::FULL];
}
return ($last_cumulative_size . "," . $size[self::D]);
} elseif (! isset($last_cumulative_type) || $last_cumulative_type == self::NONE) {
/**
* This is the first row to be analyzed
*/
/* First row of the column */
$size = self::getDecimalSize($cell);
return $size[self::FULL];
}
/**
* An error has DEFINITELY occurred
*/
/**
* TODO: Handle this MUCH more elegantly
*/
return -1;
} elseif ($curr_type == self::BIGINT || $curr_type == self::INT) {
/**
* What to do if the current cell is of type BIGINT or INT
*/
/**
* The last cumulative type was VARCHAR
*/
if ($last_cumulative_type == self::VARCHAR) {
if ($curr_size >= $last_cumulative_size) {
return $curr_size;
}
return $last_cumulative_size;
} elseif ($last_cumulative_type == self::DECIMAL) {
/**
* The last cumulative type was DECIMAL
*/
$oldM = self::getDecimalPrecision($last_cumulative_size);
$oldD = self::getDecimalScale($last_cumulative_size);
$oldInt = $oldM - $oldD;
$newInt = mb_strlen((string)$cell);
/* See which has the larger integer length */
if ($oldInt >= $newInt) {
/* Use old decimal size */
return $last_cumulative_size;
}
/* Use $newInt + $oldD as new M */
return (($newInt + $oldD) . "," . $oldD);
} elseif ($last_cumulative_type == self::BIGINT || $last_cumulative_type == self::INT) {
/**
* The last cumulative type was BIGINT or INT
*/
if ($curr_size >= $last_cumulative_size) {
return $curr_size;
}
return $last_cumulative_size;
} elseif (! isset($last_cumulative_type) || $last_cumulative_type == self::NONE) {
/**
* This is the first row to be analyzed
*/
return $curr_size;
}
/**
* An error has DEFINITELY occurred
*/
/**
* TODO: Handle this MUCH more elegantly
*/
return -1;
}
/**
* An error has DEFINITELY occurred
*/
/**
* TODO: Handle this MUCH more elegantly
*/
return -1;
}
/**
* Determines what MySQL type a cell is
*
* @param int $last_cumulative_type Last cumulative column type
* (VARCHAR or INT or BIGINT or DECIMAL or NONE)
* @param string $cell String representation of the cell for which
* a best-fit type is to be determined
*
* @return int The MySQL type representation
* (VARCHAR or INT or BIGINT or DECIMAL or NONE)
* @access public
*/
public static function detectType($last_cumulative_type, $cell)
{
/**
* If numeric, determine if decimal, int or bigint
* Else, we call it varchar for simplicity
*/
if (! strcmp('NULL', $cell)) {
if ($last_cumulative_type === null || $last_cumulative_type == self::NONE) {
return self::NONE;
}
return $last_cumulative_type;
}
if (!is_numeric($cell)) {
return self::VARCHAR;
}
if ($cell == (string)(float)$cell
&& mb_strpos($cell, ".") !== false
&& mb_substr_count($cell, ".") == 1
) {
return self::DECIMAL;
}
if (abs((int) $cell) > 2147483647) {
return self::BIGINT;
}
if ($cell !== (string)(int)$cell) {
return self::VARCHAR;
}
return self::INT;
}
/**
* Determines if the column types are int, decimal, or string
*
* @param array &$table array(string $table_name, array $col_names, array $rows)
*
* @return array array(array $types, array $sizes)
* @access public
*
* @link https://wiki.phpmyadmin.net/pma/Import
*
* @todo Handle the error case more elegantly
*/
public static function analyzeTable(array &$table)
{
/* Get number of rows in table */
$numRows = count($table[self::ROWS]);
/* Get number of columns */
$numCols = count($table[self::COL_NAMES]);
/* Current type for each column */
$types = array();
$sizes = array();
/* Initialize $sizes to all 0's */
for ($i = 0; $i < $numCols; ++$i) {
$sizes[$i] = 0;
}
/* Initialize $types to NONE */
for ($i = 0; $i < $numCols; ++$i) {
$types[$i] = self::NONE;
}
/* If the passed array is not of the correct form, do not process it */
if (!is_array($table)
|| is_array($table[self::TBL_NAME])
|| !is_array($table[self::COL_NAMES])
|| !is_array($table[self::ROWS])
) {
/**
* TODO: Handle this better
*/
return false;
}
/* Analyze each column */
for ($i = 0; $i < $numCols; ++$i) {
/* Analyze the column in each row */
for ($j = 0; $j < $numRows; ++$j) {
/* Determine type of the current cell */
$curr_type = self::detectType($types[$i], $table[self::ROWS][$j][$i]);
/* Determine size of the current cell */
$sizes[$i] = self::detectSize(
$sizes[$i],
$types[$i],
$curr_type,
$table[self::ROWS][$j][$i]
);
/**
* If a type for this column has already been declared,
* only alter it if it was a number and a varchar was found
*/
if ($curr_type != self::NONE) {
if ($curr_type == self::VARCHAR) {
$types[$i] = self::VARCHAR;
} elseif ($curr_type == self::DECIMAL) {
if ($types[$i] != self::VARCHAR) {
$types[$i] = self::DECIMAL;
}
} elseif ($curr_type == self::BIGINT) {
if ($types[$i] != self::VARCHAR && $types[$i] != self::DECIMAL) {
$types[$i] = self::BIGINT;
}
} elseif ($curr_type == self::INT) {
if ($types[$i] != self::VARCHAR
&& $types[$i] != self::DECIMAL
&& $types[$i] != self::BIGINT
) {
$types[$i] = self::INT;
}
}
}
}
}
/* Check to ensure that all types are valid */
$len = count($types);
for ($n = 0; $n < $len; ++$n) {
if (! strcmp(self::NONE, $types[$n])) {
$types[$n] = self::VARCHAR;
$sizes[$n] = '10';
}
}
return array($types, $sizes);
}
/**
* Builds and executes SQL statements to create the database and tables
* as necessary, as well as insert all the data.
*
* @param string $db_name Name of the database
* @param array &$tables Array of tables for the specified database
* @param array|null &$analyses Analyses of the tables
* @param array|null &$additional_sql Additional SQL statements to be executed
* @param array|null $options Associative array of options
* @param array &$sql_data 2-element array with sql data
*
* @return void
* @access public
*
* @link https://wiki.phpmyadmin.net/pma/Import
*/
public static function buildSql($db_name, array &$tables, &$analyses = null,
&$additional_sql = null, $options = null, array &$sql_data
) {
/* Needed to quell the beast that is Message */
$import_notice = null;
/* Take care of the options */
if (isset($options['db_collation'])&& ! is_null($options['db_collation'])) {
$collation = $options['db_collation'];
} else {
$collation = "utf8_general_ci";
}
if (isset($options['db_charset']) && ! is_null($options['db_charset'])) {
$charset = $options['db_charset'];
} else {
$charset = "utf8";
}
if (isset($options['create_db'])) {
$create_db = $options['create_db'];
} else {
$create_db = true;
}
/* Create SQL code to handle the database */
$sql = array();
if ($create_db) {
$sql[] = "CREATE DATABASE IF NOT EXISTS " . Util::backquote($db_name)
. " DEFAULT CHARACTER SET " . $charset . " COLLATE " . $collation
. ";";
}
/**
* The calling plug-in should include this statement,
* if necessary, in the $additional_sql parameter
*
* $sql[] = "USE " . backquote($db_name);
*/
/* Execute the SQL statements create above */
$sql_len = count($sql);
for ($i = 0; $i < $sql_len; ++$i) {
self::runQuery($sql[$i], $sql[$i], $sql_data);
}
/* No longer needed */
unset($sql);
/* Run the $additional_sql statements supplied by the caller plug-in */
if ($additional_sql != null) {
/* Clean the SQL first */
$additional_sql_len = count($additional_sql);
/**
* Only match tables for now, because CREATE IF NOT EXISTS
* syntax is lacking or nonexisting for views, triggers,
* functions, and procedures.
*
* See: https://bugs.mysql.com/bug.php?id=15287
*
* To the best of my knowledge this is still an issue.
*
* $pattern = 'CREATE (TABLE|VIEW|TRIGGER|FUNCTION|PROCEDURE)';
*/
$pattern = '/CREATE [^`]*(TABLE)/';
$replacement = 'CREATE \\1 IF NOT EXISTS';
/* Change CREATE statements to CREATE IF NOT EXISTS to support
* inserting into existing structures
*/
for ($i = 0; $i < $additional_sql_len; ++$i) {
$additional_sql[$i] = preg_replace(
$pattern,
$replacement,
$additional_sql[$i]
);
/* Execute the resulting statements */
self::runQuery($additional_sql[$i], $additional_sql[$i], $sql_data);
}
}
if ($analyses != null) {
$type_array = array(
self::NONE => "NULL",
self::VARCHAR => "varchar",
self::INT => "int",
self::DECIMAL => "decimal",
self::BIGINT => "bigint",
self::GEOMETRY => 'geometry'
);
/* TODO: Do more checking here to make sure they really are matched */
if (count($tables) != count($analyses)) {
exit();
}
/* Create SQL code to create the tables */
$num_tables = count($tables);
for ($i = 0; $i < $num_tables; ++$i) {
$num_cols = count($tables[$i][self::COL_NAMES]);
$tempSQLStr = "CREATE TABLE IF NOT EXISTS "
. Util::backquote($db_name)
. '.' . Util::backquote($tables[$i][self::TBL_NAME]) . " (";
for ($j = 0; $j < $num_cols; ++$j) {
$size = $analyses[$i][self::SIZES][$j];
if ((int)$size == 0) {
$size = 10;
}
$tempSQLStr .= Util::backquote(
$tables[$i][self::COL_NAMES][$j]
) . " "
. $type_array[$analyses[$i][self::TYPES][$j]];
if ($analyses[$i][self::TYPES][$j] != self::GEOMETRY) {
$tempSQLStr .= "(" . $size . ")";
}
if ($j != (count($tables[$i][self::COL_NAMES]) - 1)) {
$tempSQLStr .= ", ";
}
}
$tempSQLStr .= ") DEFAULT CHARACTER SET " . $charset
. " COLLATE " . $collation . ";";
/**
* Each SQL statement is executed immediately
* after it is formed so that we don't have
* to store them in a (possibly large) buffer
*/
self::runQuery($tempSQLStr, $tempSQLStr, $sql_data);
}
}
/**
* Create the SQL statements to insert all the data
*
* Only one insert query is formed for each table
*/
$tempSQLStr = "";
$col_count = 0;
$num_tables = count($tables);
for ($i = 0; $i < $num_tables; ++$i) {
$num_cols = count($tables[$i][self::COL_NAMES]);
$num_rows = count($tables[$i][self::ROWS]);
$tempSQLStr = "INSERT INTO " . Util::backquote($db_name) . '.'
. Util::backquote($tables[$i][self::TBL_NAME]) . " (";
for ($m = 0; $m < $num_cols; ++$m) {
$tempSQLStr .= Util::backquote($tables[$i][self::COL_NAMES][$m]);
if ($m != ($num_cols - 1)) {
$tempSQLStr .= ", ";
}
}
$tempSQLStr .= ") VALUES ";
for ($j = 0; $j < $num_rows; ++$j) {
$tempSQLStr .= "(";
for ($k = 0; $k < $num_cols; ++$k) {
// If fully formatted SQL, no need to enclose
// with apostrophes, add slashes etc.
if ($analyses != null
&& isset($analyses[$i][self::FORMATTEDSQL][$col_count])
&& $analyses[$i][self::FORMATTEDSQL][$col_count] == true
) {
$tempSQLStr .= (string) $tables[$i][self::ROWS][$j][$k];
} else {
if ($analyses != null) {
$is_varchar = ($analyses[$i][self::TYPES][$col_count] === self::VARCHAR);
} else {
$is_varchar = ! is_numeric($tables[$i][self::ROWS][$j][$k]);
}
/* Don't put quotes around NULL fields */
if (! strcmp($tables[$i][self::ROWS][$j][$k], 'NULL')) {
$is_varchar = false;
}
$tempSQLStr .= (($is_varchar) ? "'" : "");
$tempSQLStr .= $GLOBALS['dbi']->escapeString(
(string) $tables[$i][self::ROWS][$j][$k]
);
$tempSQLStr .= (($is_varchar) ? "'" : "");
}
if ($k != ($num_cols - 1)) {
$tempSQLStr .= ", ";
}
if ($col_count == ($num_cols - 1)) {
$col_count = 0;
} else {
$col_count++;
}
/* Delete the cell after we are done with it */
unset($tables[$i][self::ROWS][$j][$k]);
}
$tempSQLStr .= ")";
if ($j != ($num_rows - 1)) {
$tempSQLStr .= ",\n ";
}
$col_count = 0;
/* Delete the row after we are done with it */
unset($tables[$i][self::ROWS][$j]);
}
$tempSQLStr .= ";";
/**
* Each SQL statement is executed immediately
* after it is formed so that we don't have
* to store them in a (possibly large) buffer
*/
self::runQuery($tempSQLStr, $tempSQLStr, $sql_data);
}
/* No longer needed */
unset($tempSQLStr);
/**
* A work in progress
*/
/* Add the viewable structures from $additional_sql
* to $tables so they are also displayed
*/
$view_pattern = '@VIEW `[^`]+`\.`([^`]+)@';
$table_pattern = '@CREATE TABLE IF NOT EXISTS `([^`]+)`@';
/* Check a third pattern to make sure its not a "USE `db_name`;" statement */
$regs = array();
$inTables = false;
$additional_sql_len = is_null($additional_sql) ? 0 : count($additional_sql);
for ($i = 0; $i < $additional_sql_len; ++$i) {
preg_match($view_pattern, $additional_sql[$i], $regs);
if (count($regs) == 0) {
preg_match($table_pattern, $additional_sql[$i], $regs);
}
if (count($regs)) {
for ($n = 0; $n < $num_tables; ++$n) {
if (! strcmp($regs[1], $tables[$n][self::TBL_NAME])) {
$inTables = true;
break;
}
}
if (! $inTables) {
$tables[] = array(self::TBL_NAME => $regs[1]);
}
}
/* Reset the array */
$regs = array();
$inTables = false;
}
$params = array('db' => (string)$db_name);
$db_url = 'db_structure.php' . Url::getCommon($params);
$db_ops_url = 'db_operations.php' . Url::getCommon($params);
$message = '<br /><br />';
$message .= '<strong>' . __(
'The following structures have either been created or altered. Here you can:'
) . '</strong><br />';
$message .= '<ul><li>' . __(
"View a structure's contents by clicking on its name."
) . '</li>';
$message .= '<li>' . __(
'Change any of its settings by clicking the corresponding "Options" link.'
) . '</li>';
$message .= '<li>' . __('Edit structure by following the "Structure" link.')
. '</li>';
$message .= sprintf(
'<br /><li><a href="%s" title="%s">%s</a> (<a href="%s" title="%s">'
. __('Options') . '</a>)</li>',
$db_url,
sprintf(
__('Go to database: %s'),
htmlspecialchars(Util::backquote($db_name))
),
htmlspecialchars($db_name),
$db_ops_url,
sprintf(
__('Edit settings for %s'),
htmlspecialchars(Util::backquote($db_name))
)
);
$message .= '<ul>';
unset($params);
$num_tables = count($tables);
for ($i = 0; $i < $num_tables; ++$i) {
$params = array(
'db' => (string) $db_name,
'table' => (string) $tables[$i][self::TBL_NAME]
);
$tbl_url = 'sql.php' . Url::getCommon($params);
$tbl_struct_url = 'tbl_structure.php' . Url::getCommon($params);
$tbl_ops_url = 'tbl_operations.php' . Url::getCommon($params);
unset($params);
$_table = new Table($tables[$i][self::TBL_NAME], $db_name);
if (! $_table->isView()) {
$message .= sprintf(
'<li><a href="%s" title="%s">%s</a> (<a href="%s" title="%s">' . __(
'Structure'
) . '</a>) (<a href="%s" title="%s">' . __('Options') . '</a>)</li>',
$tbl_url,
sprintf(
__('Go to table: %s'),
htmlspecialchars(
Util::backquote($tables[$i][self::TBL_NAME])
)
),
htmlspecialchars($tables[$i][self::TBL_NAME]),
$tbl_struct_url,
sprintf(
__('Structure of %s'),
htmlspecialchars(
Util::backquote($tables[$i][self::TBL_NAME])
)
),
$tbl_ops_url,
sprintf(
__('Edit settings for %s'),
htmlspecialchars(
Util::backquote($tables[$i][self::TBL_NAME])
)
)
);
} else {
$message .= sprintf(
'<li><a href="%s" title="%s">%s</a></li>',
$tbl_url,
sprintf(
__('Go to view: %s'),
htmlspecialchars(
Util::backquote($tables[$i][self::TBL_NAME])
)
),
htmlspecialchars($tables[$i][self::TBL_NAME])
);
}
}
$message .= '</ul></ul>';
global $import_notice;
$import_notice = $message;
unset($tables);
}
/**
* Stops the import on (mostly upload/file related) error
*
* @param Message $error_message The error message
*
* @return void
* @access public
*
*/
public static function stop(Message $error_message)
{
global $import_handle, $file_to_unlink;
// Close open handles
if ($import_handle !== false && $import_handle !== null) {
$import_handle->close();
}
// Delete temporary file
if ($file_to_unlink != '') {
unlink($file_to_unlink);
}
$msg = $error_message->getDisplay();
$_SESSION['Import_message']['message'] = $msg;
$response = Response::getInstance();
$response->setRequestStatus(false);
$response->addJSON('message', Message::error($msg));
exit;
}
/**
* Handles request for Simulation of UPDATE/DELETE queries.
*
* @return void
*/
public static function handleSimulateDmlRequest()
{
$response = Response::getInstance();
$error = false;
$error_msg = __('Only single-table UPDATE and DELETE queries can be simulated.');
$sql_delimiter = $_POST['sql_delimiter'];
$sql_data = array();
$queries = explode($sql_delimiter, $GLOBALS['sql_query']);
foreach ($queries as $sql_query) {
if (empty($sql_query)) {
continue;
}
// Parsing the query.
$parser = new Parser($sql_query);
if (empty($parser->statements[0])) {
continue;
}
$statement = $parser->statements[0];
$analyzed_sql_results = array(
'query' => $sql_query,
'parser' => $parser,
'statement' => $statement,
);
if ((!(($statement instanceof UpdateStatement)
|| ($statement instanceof DeleteStatement)))
|| (!empty($statement->join))
) {
$error = $error_msg;
break;
}
$tables = Query::getTables($statement);
if (count($tables) > 1) {
$error = $error_msg;
break;
}
// Get the matched rows for the query.
$result = self::getMatchedRows($analyzed_sql_results);
if (! $error = $GLOBALS['dbi']->getError()) {
$sql_data[] = $result;
} else {
break;
}
}
if ($error) {
$message = Message::rawError($error);
$response->addJSON('message', $message);
$response->addJSON('sql_data', false);
} else {
$response->addJSON('sql_data', $sql_data);
}
}
/**
* Find the matching rows for UPDATE/DELETE query.
*
* @param array $analyzed_sql_results Analyzed SQL results from parser.
*
* @return mixed
*/
public static function getMatchedRows(array $analyzed_sql_results = array())
{
$statement = $analyzed_sql_results['statement'];
$matched_row_query = '';
if ($statement instanceof DeleteStatement) {
$matched_row_query = self::getSimulatedDeleteQuery($analyzed_sql_results);
} elseif ($statement instanceof UpdateStatement) {
$matched_row_query = self::getSimulatedUpdateQuery($analyzed_sql_results);
}
// Execute the query and get the number of matched rows.
$matched_rows = self::executeMatchedRowQuery($matched_row_query);
// URL to matched rows.
$_url_params = array(
'db' => $GLOBALS['db'],
'sql_query' => $matched_row_query
);
$matched_rows_url = 'sql.php' . Url::getCommon($_url_params);
return array(
'sql_query' => Util::formatSql($analyzed_sql_results['query']),
'matched_rows' => $matched_rows,
'matched_rows_url' => $matched_rows_url
);
}
/**
* Transforms a UPDATE query into SELECT statement.
*
* @param array $analyzed_sql_results Analyzed SQL results from parser.
*
* @return string SQL query
*/
public static function getSimulatedUpdateQuery(array $analyzed_sql_results)
{
$table_references = Query::getTables(
$analyzed_sql_results['statement']
);
$where = Query::getClause(
$analyzed_sql_results['statement'],
$analyzed_sql_results['parser']->list,
'WHERE'
);
if (empty($where)) {
$where = '1';
}
$columns = array();
$diff = array();
foreach ($analyzed_sql_results['statement']->set as $set) {
$columns[] = $set->column;
$not_equal_operator = ' <> ';
if(strtoupper($set->value) == 'NULL'){
$not_equal_operator = ' IS NOT ';
}
$diff[] = $set->column . $not_equal_operator . $set->value;
}
if (!empty($diff)) {
$where .= ' AND (' . implode(' OR ', $diff) . ')';
}
$order_and_limit = '';
if (!empty($analyzed_sql_results['statement']->order)) {
$order_and_limit .= ' ORDER BY ' . Query::getClause(
$analyzed_sql_results['statement'],
$analyzed_sql_results['parser']->list,
'ORDER BY'
);
}
if (!empty($analyzed_sql_results['statement']->limit)) {
$order_and_limit .= ' LIMIT ' . Query::getClause(
$analyzed_sql_results['statement'],
$analyzed_sql_results['parser']->list,
'LIMIT'
);
}
return 'SELECT ' . implode(', ', $columns) .
' FROM ' . implode(', ', $table_references) .
' WHERE ' . $where . $order_and_limit;
}
/**
* Transforms a DELETE query into SELECT statement.
*
* @param array $analyzed_sql_results Analyzed SQL results from parser.
*
* @return string SQL query
*/
public static function getSimulatedDeleteQuery(array $analyzed_sql_results)
{
$table_references = Query::getTables(
$analyzed_sql_results['statement']
);
$where = Query::getClause(
$analyzed_sql_results['statement'],
$analyzed_sql_results['parser']->list,
'WHERE'
);
if (empty($where)) {
$where = '1';
}
$order_and_limit = '';
if (!empty($analyzed_sql_results['statement']->order)) {
$order_and_limit .= ' ORDER BY ' . Query::getClause(
$analyzed_sql_results['statement'],
$analyzed_sql_results['parser']->list,
'ORDER BY'
);
}
if (!empty($analyzed_sql_results['statement']->limit)) {
$order_and_limit .= ' LIMIT ' . Query::getClause(
$analyzed_sql_results['statement'],
$analyzed_sql_results['parser']->list,
'LIMIT'
);
}
return 'SELECT * FROM ' . implode(', ', $table_references) .
' WHERE ' . $where . $order_and_limit;
}
/**
* Executes the matched_row_query and returns the resultant row count.
*
* @param string $matched_row_query SQL query
*
* @return integer Number of rows returned
*/
public static function executeMatchedRowQuery($matched_row_query)
{
$GLOBALS['dbi']->selectDb($GLOBALS['db']);
// Execute the query.
$result = $GLOBALS['dbi']->tryQuery($matched_row_query);
// Count the number of rows in the result set.
$result = $GLOBALS['dbi']->numRows($result);
return $result;
}
/**
* Handles request for ROLLBACK.
*
* @param string $sql_query SQL query(s)
*
* @return void
*/
public static function handleRollbackRequest($sql_query)
{
$sql_delimiter = $_POST['sql_delimiter'];
$queries = explode($sql_delimiter, $sql_query);
$error = false;
$error_msg = __(
'Only INSERT, UPDATE, DELETE and REPLACE '
. 'SQL queries containing transactional engine tables can be rolled back.'
);
foreach ($queries as $sql_query) {
if (empty($sql_query)) {
continue;
}
// Check each query for ROLLBACK support.
if (! self::checkIfRollbackPossible($sql_query)) {
$global_error = $GLOBALS['dbi']->getError();
if ($global_error) {
$error = $global_error;
} else {
$error = $error_msg;
}
break;
}
}
if ($error) {
unset($_POST['rollback_query']);
$response = Response::getInstance();
$message = Message::rawError($error);
$response->addJSON('message', $message);
exit;
} else {
// If everything fine, START a transaction.
$GLOBALS['dbi']->query('START TRANSACTION');
}
}
/**
* Checks if ROLLBACK is possible for a SQL query or not.
*
* @param string $sql_query SQL query
*
* @return bool
*/
public static function checkIfRollbackPossible($sql_query)
{
$parser = new Parser($sql_query);
if (empty($parser->statements[0])) {
return true;
}
$statement = $parser->statements[0];
// Check if query is supported.
if (!(($statement instanceof InsertStatement)
|| ($statement instanceof UpdateStatement)
|| ($statement instanceof DeleteStatement)
|| ($statement instanceof ReplaceStatement))
) {
return false;
}
// Get table_references from the query.
$tables = Query::getTables($statement);
// Check if each table is 'InnoDB'.
foreach ($tables as $table) {
if (! self::isTableTransactional($table)) {
return false;
}
}
return true;
}
/**
* Checks if a table is 'InnoDB' or not.
*
* @param string $table Table details
*
* @return bool
*/
public static function isTableTransactional($table)
{
$table = explode('.', $table);
if (count($table) == 2) {
$db = Util::unQuote($table[0]);
$table = Util::unQuote($table[1]);
} else {
$db = $GLOBALS['db'];
$table = Util::unQuote($table[0]);
}
// Query to check if table exists.
$check_table_query = 'SELECT * FROM ' . Util::backquote($db)
. '.' . Util::backquote($table) . ' '
. 'LIMIT 1';
$result = $GLOBALS['dbi']->tryQuery($check_table_query);
if (! $result) {
return false;
}
// List of Transactional Engines.
$transactional_engines = array(
'INNODB',
'FALCON',
'NDB',
'INFINIDB',
'TOKUDB',
'XTRADB',
'SEQUENCE',
'BDB'
);
// Query to check if table is 'Transactional'.
$check_query = 'SELECT `ENGINE` FROM `information_schema`.`tables` '
. 'WHERE `table_name` = "' . $table . '" '
. 'AND `table_schema` = "' . $db . '" '
. 'AND UPPER(`engine`) IN ("'
. implode('", "', $transactional_engines)
. '")';
$result = $GLOBALS['dbi']->tryQuery($check_query);
return $GLOBALS['dbi']->numRows($result) == 1;
}
}
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