2 /* vim: set expandtab sw=4 ts=4 sts=4: */
4 * Library that provides common import functions that are used by import plugins
8 if (! defined('PHPMYADMIN')) {
13 * We need to know something about user
15 require_once './libraries/check_user_privileges.lib.php';
18 * We do this check, DROP DATABASE does not need to be confirmed elsewhere
20 define('PMA_CHK_DROP', 1);
23 * Check whether timeout is getting close
25 * @return boolean true if timeout is close
28 function PMA_checkTimeout()
30 global $timestamp, $maximum_time, $timeout_passed;
31 if ($maximum_time == 0) {
33 } elseif ($timeout_passed) {
35 /* 5 in next row might be too much */
36 } elseif ((time() - $timestamp) > ($maximum_time - 5)) {
37 $timeout_passed = true;
45 * Detects what compression filse uses
47 * @param string $filepath filename to check
48 * @return string MIME type of compression, none for none
51 function PMA_detectCompression($filepath)
53 $file = @fopen
($filepath, 'rb');
57 $test = fread($file, 4);
60 if ($len >= 2 && $test[0] == chr(31) && $test[1] == chr(139)) {
61 return 'application/gzip';
63 if ($len >= 3 && substr($test, 0, 3) == 'BZh') {
64 return 'application/bzip2';
66 if ($len >= 4 && $test == "PK\003\004") {
67 return 'application/zip';
73 * Runs query inside import buffer. This is needed to allow displaying
74 * of last SELECT, SHOW or HANDLER results and similar nice stuff.
76 * @param string $sql query to run
77 * @param string $full query to display, this might be commented
78 * @param bool $controluser whether to use control user for queries
81 function PMA_importRunQuery($sql = '', $full = '', $controluser = false)
83 global $import_run_buffer, $go_sql, $complete_query, $display_query,
84 $sql_query, $my_die, $error, $reload,
85 $last_query_with_results,
86 $skip_queries, $executed_queries, $max_sql_len, $read_multiply,
87 $cfg, $sql_query_disabled, $db, $run_query, $is_superuser;
89 if (isset($import_run_buffer)) {
90 // Should we skip something?
91 if ($skip_queries > 0) {
94 if (!empty($import_run_buffer['sql']) && trim($import_run_buffer['sql']) != '') {
95 $max_sql_len = max($max_sql_len, strlen($import_run_buffer['sql']));
96 if (!$sql_query_disabled) {
97 $sql_query .= $import_run_buffer['full'];
99 if (!$cfg['AllowUserDropDatabase']
101 && preg_match('@^[[:space:]]*DROP[[:space:]]+(IF EXISTS[[:space:]]+)?DATABASE @i', $import_run_buffer['sql'])
103 $GLOBALS['message'] = PMA_Message
::error(__('"DROP DATABASE" statements are disabled.'));
108 && $GLOBALS['finished']
111 && ((!empty($import_run_buffer['sql'])
112 && preg_match('/^[\s]*(SELECT|SHOW|HANDLER)/i', $import_run_buffer['sql']))
113 ||
($executed_queries == 1))
116 if (!$sql_query_disabled) {
117 $complete_query = $sql_query;
118 $display_query = $sql_query;
120 $complete_query = '';
123 $sql_query = $import_run_buffer['sql'];
124 // If a 'USE <db>' SQL-clause was found, set our current $db to the new one
125 list($db, $reload) = PMA_lookForUse($import_run_buffer['sql'], $db, $reload);
126 } elseif ($run_query) {
128 $result = PMA_query_as_controluser($import_run_buffer['sql']);
130 $result = PMA_DBI_try_query($import_run_buffer['sql']);
133 if ($result === false) { // execution failed
134 if (! isset($my_die)) {
137 $my_die[] = array('sql' => $import_run_buffer['full'], 'error' => PMA_DBI_getError());
139 if ($cfg['VerboseMultiSubmit']) {
143 if (!$cfg['IgnoreMultiSubmitErrors']) {
147 } elseif ($cfg['VerboseMultiSubmit']) {
148 $a_num_rows = (int)@PMA_DBI_num_rows
($result);
149 $a_aff_rows = (int)@PMA_DBI_affected_rows
();
150 if ($a_num_rows > 0) {
151 $msg .= __('Rows'). ': ' . $a_num_rows;
152 $last_query_with_results = $import_run_buffer['sql'];
153 } elseif ($a_aff_rows > 0) {
154 $message = PMA_Message
::affected_rows($a_aff_rows);
155 $msg .= $message->getMessage();
157 $msg .= __('MySQL returned an empty result set (i.e. zero rows).');
160 if (!$sql_query_disabled) {
161 $sql_query .= $msg . "\n";
164 // If a 'USE <db>' SQL-clause was found and the query succeeded, set our current $db to the new one
165 if ($result != false) {
166 list($db, $reload) = PMA_lookForUse($import_run_buffer['sql'], $db, $reload);
170 && preg_match('@^[\s]*(DROP|CREATE)[\s]+(IF EXISTS[[:space:]]+)?(TABLE|DATABASE)[[:space:]]+(.+)@im', $import_run_buffer['sql'])
175 } // end if not DROP DATABASE
176 // end non empty query
177 } elseif (!empty($import_run_buffer['full'])) {
179 $complete_query .= $import_run_buffer['full'];
180 $display_query .= $import_run_buffer['full'];
182 if (!$sql_query_disabled) {
183 $sql_query .= $import_run_buffer['full'];
187 // check length of query unless we decided to pass it to sql.php
188 // (if $run_query is false, we are just displaying so show
189 // the complete query in the textarea)
190 if (! $go_sql && $run_query) {
191 if ($cfg['VerboseMultiSubmit'] && ! empty($sql_query)) {
192 if (strlen($sql_query) > 50000 ||
$executed_queries > 50 ||
$max_sql_len > 1000) {
194 $sql_query_disabled = true;
197 if (strlen($sql_query) > 10000 ||
$executed_queries > 10 ||
$max_sql_len > 500) {
199 $sql_query_disabled = true;
203 } // end do query (no skip)
204 } // end buffer exists
206 // Do we have something to push into buffer?
207 if (!empty($sql) ||
!empty($full)) {
208 $import_run_buffer = array('sql' => $sql, 'full' => $full);
210 unset($GLOBALS['import_run_buffer']);
215 * Looks for the presence of USE to possibly change current db
217 * @param string $buffer buffer to examine
218 * @param string $db current db
219 * @param bool $reload reload
220 * @return array (current or new db, whether to reload)
223 function PMA_lookForUse($buffer, $db, $reload)
225 if (preg_match('@^[\s]*USE[[:space:]]+([\S]+)@i', $buffer, $match)) {
226 $db = trim($match[1]);
227 $db = trim($db, ';'); // for example, USE abc;
230 return(array($db, $reload));
235 * Returns next part of imported file/buffer
237 * @param int $size size of buffer to read (this is maximal size function will return)
238 * @return string part of file/buffer
241 function PMA_importGetNextChunk($size = 32768)
243 global $compression, $import_handle, $charset_conversion, $charset_of_file,
246 // Add some progression while reading large amount of data
247 if ($read_multiply <= 8) {
248 $size *= $read_multiply;
254 // We can not read too much
255 if ($size > $GLOBALS['read_limit']) {
256 $size = $GLOBALS['read_limit'];
259 if (PMA_checkTimeout()) {
262 if ($GLOBALS['finished']) {
266 if ($GLOBALS['import_file'] == 'none') {
267 // Well this is not yet supported and tested, but should return content of textarea
268 if (strlen($GLOBALS['import_text']) < $size) {
269 $GLOBALS['finished'] = true;
270 return $GLOBALS['import_text'];
272 $r = substr($GLOBALS['import_text'], 0, $size);
273 $GLOBALS['offset'] +
= $size;
274 $GLOBALS['import_text'] = substr($GLOBALS['import_text'], $size);
279 switch ($compression) {
280 case 'application/bzip2':
281 $result = bzread($import_handle, $size);
282 $GLOBALS['finished'] = feof($import_handle);
284 case 'application/gzip':
285 $result = gzread($import_handle, $size);
286 $GLOBALS['finished'] = feof($import_handle);
288 case 'application/zip':
289 $result = substr($GLOBALS['import_text'], 0, $size);
290 $GLOBALS['import_text'] = substr($GLOBALS['import_text'], $size);
291 $GLOBALS['finished'] = empty($GLOBALS['import_text']);
294 $result = fread($import_handle, $size);
295 $GLOBALS['finished'] = feof($import_handle);
298 $GLOBALS['offset'] +
= $size;
300 if ($charset_conversion) {
301 return PMA_convert_string($charset_of_file, 'utf-8', $result);
304 * Skip possible byte order marks (I do not think we need more
305 * charsets, but feel free to add more, you can use wikipedia for
306 * reference: <http://en.wikipedia.org/wiki/Byte_Order_Mark>)
308 * @todo BOM could be used for charset autodetection
310 if ($GLOBALS['offset'] == $size) {
312 if (strncmp($result, "\xEF\xBB\xBF", 3) == 0) {
313 $result = substr($result, 3);
315 } elseif (strncmp($result, "\xFE\xFF", 2) == 0 ||
strncmp($result, "\xFF\xFE", 2) == 0) {
316 $result = substr($result, 2);
324 * Returns the "Excel" column name (i.e. 1 = "A", 26 = "Z", 27 = "AA", etc.)
326 * This functions uses recursion to build the Excel column name.
328 * The column number (1-26) is converted to the responding ASCII character (A-Z) and returned.
330 * If the column number is bigger than 26 (= num of letters in alfabet),
331 * an extra character needs to be added. To find this extra character, the number is divided by 26
332 * and this value is passed to another instance of the same function (hence recursion).
333 * In that new instance the number is evaluated again, and if it is still bigger than 26, it is divided again
334 * and passed to another instance of the same function. This continues until the number is smaller than 26.
335 * Then the last called function returns the corresponding ASCII character to the function that called it.
336 * Each time a called function ends an extra character is added to the column name.
337 * When the first function is reached, the last character is addded and the complete column name is returned.
342 * @return string The column's "Excel" name
344 function PMA_getColumnAlphaName($num)
346 $A = 65; // ASCII value for capital "A"
350 $div = (int)($num / 26);
351 $remain = (int)($num %
26);
353 // subtract 1 of divided value in case the modulus is 0,
354 // this is necessary because A-Z has no 'zero'
359 // recursive function call
360 $col_name = PMA_getColumnAlphaName($div);
361 // use modulus as new column number
366 // use 'Z' if column number is 0,
367 // this is necessary because A-Z has no 'zero'
368 $col_name .= chr(($A +
26) - 1);
370 // convert column number to ASCII character
371 $col_name .= chr(($A +
$num) - 1);
378 * Returns the column number based on the Excel name.
379 * So "A" = 1, "Z" = 26, "AA" = 27, etc.
381 * Basicly this is a base26 (A-Z) to base10 (0-9) conversion.
382 * It iterates through all characters in the column name and
383 * calculates the corresponding value, based on character value
384 * (A = 1, ..., Z = 26) and position in the string.
388 * @param string $name (i.e. "A", or "BC", etc.)
389 * @return int The column number
391 function PMA_getColumnNumberFromName($name)
394 $name = strtoupper($name);
395 $num_chars = strlen($name);
397 for ($i = 0; $i < $num_chars; ++
$i) {
398 // read string from back to front
399 $char_pos = ($num_chars - 1) - $i;
401 // convert capital character to ASCII value
402 // and subtract 64 to get corresponding decimal value
403 // ASCII value of "A" is 65, "B" is 66, etc.
404 // Decimal equivalent of "A" is 1, "B" is 2, etc.
405 $number = (ord($name[$char_pos]) - 64);
407 // base26 to base10 conversion : multiply each number
408 // with corresponding value of the position, in this case
409 // $i=0 : 1; $i=1 : 26; $i=2 : 676; ...
410 $column_number +
= $number * pow(26,$i);
412 return $column_number;
419 * Constants definitions
422 /* MySQL type defs */
424 define("VARCHAR", 1);
426 define("DECIMAL", 3);
428 define("GEOMETRY", 5);
430 /* Decimal size defs */
435 /* Table array defs */
436 define("TBL_NAME", 0);
437 define("COL_NAMES", 1);
440 /* Analysis array defs */
443 define("FORMATTEDSQL", 2);
446 * Obtains the precision (total # of digits) from a size of type decimal
450 * @param string $last_cumulative_size
451 * @return int Precision of the given decimal size notation
453 function PMA_getM($last_cumulative_size)
455 return (int)substr($last_cumulative_size, 0, strpos($last_cumulative_size, ","));
459 * Obtains the scale (# of digits to the right of the decimal point) from a size of type decimal
463 * @param string $last_cumulative_size
464 * @return int Scale of the given decimal size notation
466 function PMA_getD($last_cumulative_size)
468 return (int)substr($last_cumulative_size, (strpos($last_cumulative_size, ",") +
1), (strlen($last_cumulative_size) - strpos($last_cumulative_size, ",")));
472 * Obtains the decimal size of a given cell
476 * @param string &$cell
477 * @return array Contains the precision, scale, and full size representation of the given decimal cell
479 function PMA_getDecimalSize(&$cell)
481 $curr_size = strlen((string)$cell);
482 $decPos = strpos($cell, ".");
483 $decPrecision = ($curr_size - 1) - $decPos;
488 return array($m, $d, ($m . "," . $d));
492 * Obtains the size of the given cell
494 * @todo Handle the error cases more elegantly
498 * @param string $last_cumulative_size Last cumulative column size
499 * @param int $last_cumulative_type Last cumulative column type (NONE or VARCHAR or DECIMAL or INT or BIGINT)
500 * @param int $curr_type Type of the current cell (NONE or VARCHAR or DECIMAL or INT or BIGINT)
501 * @param string &$cell The current cell
502 * @return string Size of the given cell in the type-appropriate format
504 function PMA_detectSize($last_cumulative_size, $last_cumulative_type, $curr_type, &$cell)
506 $curr_size = strlen((string)$cell);
509 * If the cell is NULL, don't treat it as a varchar
511 if (! strcmp('NULL', $cell)) {
512 return $last_cumulative_size;
515 * What to do if the current cell is of type VARCHAR
517 elseif ($curr_type == VARCHAR
) {
519 * The last cumulative type was VARCHAR
521 if ($last_cumulative_type == VARCHAR
) {
522 if ($curr_size >= $last_cumulative_size) {
525 return $last_cumulative_size;
529 * The last cumulative type was DECIMAL
531 elseif ($last_cumulative_type == DECIMAL
) {
532 $oldM = PMA_getM($last_cumulative_size);
534 if ($curr_size >= $oldM) {
541 * The last cumulative type was BIGINT or INT
543 elseif ($last_cumulative_type == BIGINT ||
$last_cumulative_type == INT) {
544 if ($curr_size >= $last_cumulative_size) {
547 return $last_cumulative_size;
551 * This is the first row to be analyzed
553 elseif (! isset($last_cumulative_type) ||
$last_cumulative_type == NONE
) {
557 * An error has DEFINITELY occurred
561 * TODO: Handle this MUCH more elegantly
568 * What to do if the current cell is of type DECIMAL
570 elseif ($curr_type == DECIMAL
) {
572 * The last cumulative type was VARCHAR
574 if ($last_cumulative_type == VARCHAR
) {
575 /* Convert $last_cumulative_size from varchar to decimal format */
576 $size = PMA_getDecimalSize($cell);
578 if ($size[M
] >= $last_cumulative_size) {
581 return $last_cumulative_size;
585 * The last cumulative type was DECIMAL
587 elseif ($last_cumulative_type == DECIMAL
) {
588 $size = PMA_getDecimalSize($cell);
590 $oldM = PMA_getM($last_cumulative_size);
591 $oldD = PMA_getD($last_cumulative_size);
593 /* New val if M or D is greater than current largest */
594 if ($size[M
] > $oldM ||
$size[D
] > $oldD) {
595 /* Take the largest of both types */
596 return (string)((($size[M
] > $oldM) ?
$size[M
] : $oldM) . "," . (($size[D
] > $oldD) ?
$size[D
] : $oldD));
598 return $last_cumulative_size;
602 * The last cumulative type was BIGINT or INT
604 elseif ($last_cumulative_type == BIGINT ||
$last_cumulative_type == INT) {
605 /* Convert $last_cumulative_size from int to decimal format */
606 $size = PMA_getDecimalSize($cell);
608 if ($size[M
] >= $last_cumulative_size) {
611 return ($last_cumulative_size.",".$size[D
]);
615 * This is the first row to be analyzed
617 elseif (! isset($last_cumulative_type) ||
$last_cumulative_type == NONE
) {
618 /* First row of the column */
619 $size = PMA_getDecimalSize($cell);
624 * An error has DEFINITELY occurred
628 * TODO: Handle this MUCH more elegantly
635 * What to do if the current cell is of type BIGINT or INT
637 elseif ($curr_type == BIGINT ||
$curr_type == INT) {
639 * The last cumulative type was VARCHAR
641 if ($last_cumulative_type == VARCHAR
) {
642 if ($curr_size >= $last_cumulative_size) {
645 return $last_cumulative_size;
649 * The last cumulative type was DECIMAL
651 elseif ($last_cumulative_type == DECIMAL
) {
652 $oldM = PMA_getM($last_cumulative_size);
653 $oldD = PMA_getD($last_cumulative_size);
654 $oldInt = $oldM - $oldD;
655 $newInt = strlen((string)$cell);
657 /* See which has the larger integer length */
658 if ($oldInt >= $newInt) {
659 /* Use old decimal size */
660 return $last_cumulative_size;
662 /* Use $newInt + $oldD as new M */
663 return (($newInt +
$oldD) . "," . $oldD);
667 * The last cumulative type was BIGINT or INT
669 elseif ($last_cumulative_type == BIGINT ||
$last_cumulative_type == INT) {
670 if ($curr_size >= $last_cumulative_size) {
673 return $last_cumulative_size;
677 * This is the first row to be analyzed
679 elseif (! isset($last_cumulative_type) ||
$last_cumulative_type == NONE
) {
683 * An error has DEFINITELY occurred
687 * TODO: Handle this MUCH more elegantly
694 * An error has DEFINITELY occurred
698 * TODO: Handle this MUCH more elegantly
706 * Determines what MySQL type a cell is
710 * @param int $last_cumulative_type Last cumulative column type (VARCHAR or INT or BIGINT or DECIMAL or NONE)
711 * @param string &$cell String representation of the cell for which a best-fit type is to be determined
712 * @return int The MySQL type representation (VARCHAR or INT or BIGINT or DECIMAL or NONE)
714 function PMA_detectType($last_cumulative_type, &$cell)
717 * If numeric, determine if decimal, int or bigint
718 * Else, we call it varchar for simplicity
721 if (! strcmp('NULL', $cell)) {
722 if ($last_cumulative_type === null ||
$last_cumulative_type == NONE
) {
725 return $last_cumulative_type;
727 } elseif (is_numeric($cell)) {
728 if ($cell == (string)(float)$cell && strpos($cell, ".") !== false && substr_count($cell, ".") == 1) {
731 if (abs($cell) > 2147483647) {
743 * Determines if the column types are int, decimal, or string
745 * @link http://wiki.phpmyadmin.net/pma/Import
747 * @todo Handle the error case more elegantly
751 * @param &$table array(string $table_name, array $col_names, array $rows)
752 * @return array array(array $types, array $sizes)
754 function PMA_analyzeTable(&$table)
756 /* Get number of rows in table */
757 $numRows = count($table[ROWS
]);
758 /* Get number of columns */
759 $numCols = count($table[COL_NAMES
]);
760 /* Current type for each column */
764 /* Initialize $sizes to all 0's */
765 for ($i = 0; $i < $numCols; ++
$i) {
769 /* Initialize $types to NONE */
770 for ($i = 0; $i < $numCols; ++
$i) {
778 /* If the passed array is not of the correct form, do not process it */
779 if (is_array($table) && ! is_array($table[TBL_NAME
]) && is_array($table[COL_NAMES
]) && is_array($table[ROWS
])) {
780 /* Analyze each column */
781 for ($i = 0; $i < $numCols; ++
$i) {
782 /* Analyze the column in each row */
783 for ($j = 0; $j < $numRows; ++
$j) {
784 /* Determine type of the current cell */
785 $curr_type = PMA_detectType($types[$i], $table[ROWS
][$j][$i]);
786 /* Determine size of the current cell */
787 $sizes[$i] = PMA_detectSize($sizes[$i], $types[$i], $curr_type, $table[ROWS
][$j][$i]);
790 * If a type for this column has already been declared,
791 * only alter it if it was a number and a varchar was found
793 if ($curr_type != NONE
) {
794 if ($curr_type == VARCHAR
) {
795 $types[$i] = VARCHAR
;
796 } else if ($curr_type == DECIMAL
) {
797 if ($types[$i] != VARCHAR
) {
798 $types[$i] = DECIMAL
;
800 } else if ($curr_type == BIGINT
) {
801 if ($types[$i] != VARCHAR
&& $types[$i] != DECIMAL
) {
804 } else if ($curr_type == INT) {
805 if ($types[$i] != VARCHAR
&& $types[$i] != DECIMAL
&& $types[$i] != BIGINT
) {
813 /* Check to ensure that all types are valid */
814 $len = count($types);
815 for ($n = 0; $n < $len; ++
$n) {
816 if (! strcmp(NONE
, $types[$n])) {
817 $types[$n] = VARCHAR
;
822 return array($types, $sizes);
825 * TODO: Handle this better
832 /* Needed to quell the beast that is PMA_Message */
833 $import_notice = null;
836 * Builds and executes SQL statements to create the database and tables
837 * as necessary, as well as insert all the data.
839 * @link http://wiki.phpmyadmin.net/pma/Import
843 * @param string $db_name Name of the database
844 * @param array &$tables Array of tables for the specified database
845 * @param array &$analyses Analyses of the tables
846 * @param array &$additional_sql Additional SQL statements to be executed
847 * @param array $options Associative array of options
850 function PMA_buildSQL($db_name, &$tables, &$analyses = null, &$additional_sql = null, $options = null)
852 /* Take care of the options */
853 if (isset($options['db_collation'])&& ! is_null($options['db_collation'])) {
854 $collation = $options['db_collation'];
856 $collation = "utf8_general_ci";
859 if (isset($options['db_charset']) && ! is_null($options['db_charset'])) {
860 $charset = $options['db_charset'];
865 if (isset($options['create_db'])) {
866 $create_db = $options['create_db'];
871 /* Create SQL code to handle the database */
875 $sql[] = "CREATE DATABASE IF NOT EXISTS " . PMA_backquote($db_name) . " DEFAULT CHARACTER SET " . $charset . " COLLATE " . $collation;
879 * The calling plug-in should include this statement, if necessary, in the $additional_sql parameter
881 * $sql[] = "USE " . PMA_backquote($db_name);
884 /* Execute the SQL statements create above */
885 $sql_len = count($sql);
886 for ($i = 0; $i < $sql_len; ++
$i) {
887 PMA_importRunQuery($sql[$i], $sql[$i]);
890 /* No longer needed */
893 /* Run the $additional_sql statements supplied by the caller plug-in */
894 if ($additional_sql != null) {
895 /* Clean the SQL first */
896 $additional_sql_len = count($additional_sql);
899 * Only match tables for now, because CREATE IF NOT EXISTS
900 * syntax is lacking or nonexisting for views, triggers,
901 * functions, and procedures.
903 * See: http://bugs.mysql.com/bug.php?id=15287
905 * To the best of my knowledge this is still an issue.
907 * $pattern = 'CREATE (TABLE|VIEW|TRIGGER|FUNCTION|PROCEDURE)';
909 $pattern = '/CREATE .*(TABLE)/';
910 $replacement = 'CREATE \\1 IF NOT EXISTS';
912 /* Change CREATE statements to CREATE IF NOT EXISTS to support inserting into existing structures */
913 for ($i = 0; $i < $additional_sql_len; ++
$i) {
914 $additional_sql[$i] = preg_replace($pattern, $replacement, $additional_sql[$i]);
915 /* Execute the resulting statements */
916 PMA_importRunQuery($additional_sql[$i], $additional_sql[$i]);
920 if ($analyses != null) {
921 $type_array = array(NONE
=> "NULL", VARCHAR
=> "varchar", INT => "int", DECIMAL
=> "decimal", BIGINT
=> "bigint", GEOMETRY
=> 'geometry');
923 /* TODO: Do more checking here to make sure they really are matched */
924 if (count($tables) != count($analyses)) {
928 /* Create SQL code to create the tables */
930 $num_tables = count($tables);
931 for ($i = 0; $i < $num_tables; ++
$i) {
932 $num_cols = count($tables[$i][COL_NAMES
]);
933 $tempSQLStr = "CREATE TABLE IF NOT EXISTS " . PMA_backquote($db_name) . '.' . PMA_backquote($tables[$i][TBL_NAME
]) . " (";
934 for ($j = 0; $j < $num_cols; ++
$j) {
935 $size = $analyses[$i][SIZES
][$j];
936 if ((int)$size == 0) {
940 $tempSQLStr .= PMA_backquote($tables[$i][COL_NAMES
][$j]) . " " . $type_array[$analyses[$i][TYPES
][$j]];
941 if ($analyses[$i][TYPES
][$j] != GEOMETRY
) {
942 $tempSQLStr .= "(" . $size . ")";
945 if ($j != (count($tables[$i][COL_NAMES
]) - 1)) {
949 $tempSQLStr .= ") DEFAULT CHARACTER SET " . $charset . " COLLATE " . $collation . ";";
952 * Each SQL statement is executed immediately
953 * after it is formed so that we don't have
954 * to store them in a (possibly large) buffer
956 PMA_importRunQuery($tempSQLStr, $tempSQLStr);
961 * Create the SQL statements to insert all the data
963 * Only one insert query is formed for each table
967 $num_tables = count($tables);
968 for ($i = 0; $i < $num_tables; ++
$i) {
969 $num_cols = count($tables[$i][COL_NAMES
]);
970 $num_rows = count($tables[$i][ROWS
]);
972 $tempSQLStr = "INSERT INTO " . PMA_backquote($db_name) . '.' . PMA_backquote($tables[$i][TBL_NAME
]) . " (";
974 for ($m = 0; $m < $num_cols; ++
$m) {
975 $tempSQLStr .= PMA_backquote($tables[$i][COL_NAMES
][$m]);
977 if ($m != ($num_cols - 1)) {
982 $tempSQLStr .= ") VALUES ";
984 for ($j = 0; $j < $num_rows; ++
$j) {
987 for ($k = 0; $k < $num_cols; ++
$k) {
988 // If fully formatted SQL, no need to enclose with aphostrophes, add shalshes etc.
989 if ($analyses != null
990 && isset($analyses[$i][FORMATTEDSQL
][$col_count])
991 && $analyses[$i][FORMATTEDSQL
][$col_count] == true
993 $tempSQLStr .= (string) $tables[$i][ROWS
][$j][$k];
995 if ($analyses != null) {
996 $is_varchar = ($analyses[$i][TYPES
][$col_count] === VARCHAR
);
998 $is_varchar = !is_numeric($tables[$i][ROWS
][$j][$k]);
1001 /* Don't put quotes around NULL fields */
1002 if (! strcmp($tables[$i][ROWS
][$j][$k], 'NULL')) {
1003 $is_varchar = false;
1006 $tempSQLStr .= (($is_varchar) ?
"'" : "");
1007 $tempSQLStr .= PMA_sqlAddSlashes((string)$tables[$i][ROWS
][$j][$k]);
1008 $tempSQLStr .= (($is_varchar) ?
"'" : "");
1011 if ($k != ($num_cols - 1)) {
1012 $tempSQLStr .= ", ";
1015 if ($col_count == ($num_cols - 1)) {
1021 /* Delete the cell after we are done with it */
1022 unset($tables[$i][ROWS
][$j][$k]);
1027 if ($j != ($num_rows - 1)) {
1028 $tempSQLStr .= ",\n ";
1032 /* Delete the row after we are done with it */
1033 unset($tables[$i][ROWS
][$j]);
1039 * Each SQL statement is executed immediately
1040 * after it is formed so that we don't have
1041 * to store them in a (possibly large) buffer
1043 PMA_importRunQuery($tempSQLStr, $tempSQLStr);
1046 /* No longer needed */
1050 * A work in progress
1053 /* Add the viewable structures from $additional_sql to $tables so they are also displayed */
1055 $view_pattern = '@VIEW `[^`]+`\.`([^`]+)@';
1056 $table_pattern = '@CREATE TABLE IF NOT EXISTS `([^`]+)`@';
1057 /* Check a third pattern to make sure its not a "USE `db_name`;" statement */
1063 $additional_sql_len = count($additional_sql);
1064 for ($i = 0; $i < $additional_sql_len; ++
$i) {
1065 preg_match($view_pattern, $additional_sql[$i], $regs);
1067 if (count($regs) == 0) {
1068 preg_match($table_pattern, $additional_sql[$i], $regs);
1072 for ($n = 0; $n < $num_tables; ++
$n) {
1073 if (!strcmp($regs[1], $tables[$n][TBL_NAME
])) {
1080 $tables[] = array(TBL_NAME
=> $regs[1]);
1084 /* Reset the array */
1089 $params = array('db' => (string)$db_name);
1090 $db_url = 'db_structure.php' . PMA_generate_common_url($params);
1091 $db_ops_url = 'db_operations.php' . PMA_generate_common_url($params);
1093 $message = '<br /><br />';
1094 $message .= '<strong>' . __('The following structures have either been created or altered. Here you can:') . '</strong><br />';
1095 $message .= '<ul><li>' . __("View a structure's contents by clicking on its name") . '</li>';
1096 $message .= '<li>' . __('Change any of its settings by clicking the corresponding "Options" link') . '</li>';
1097 $message .= '<li>' . __('Edit structure by following the "Structure" link') . '</li>';
1098 $message .= sprintf('<br /><li><a href="%s" title="%s">%s</a> (<a href="%s" title="%s">' . __('Options') . '</a>)</li>',
1100 __('Go to database') . ': ' . htmlspecialchars(PMA_backquote($db_name)),
1101 htmlspecialchars($db_name),
1103 sprintf(__('Edit settings for %s'), htmlspecialchars(PMA_backquote($db_name))));
1109 $num_tables = count($tables);
1110 for ($i = 0; $i < $num_tables; ++
$i) {
1111 $params = array('db' => (string)$db_name, 'table' => (string)$tables[$i][TBL_NAME
]);
1112 $tbl_url = 'sql.php' . PMA_generate_common_url($params);
1113 $tbl_struct_url = 'tbl_structure.php' . PMA_generate_common_url($params);
1114 $tbl_ops_url = 'tbl_operations.php' . PMA_generate_common_url($params);
1118 if (! PMA_isView($db_name, $tables[$i][TBL_NAME
])) {
1119 $message .= sprintf('<li><a href="%s" title="%s">%s</a> (<a href="%s" title="%s">' . __('Structure') . '</a>) (<a href="%s" title="%s">' . __('Options') . '</a>)</li>',
1121 __('Go to table') . ': ' . htmlspecialchars(PMA_backquote($tables[$i][TBL_NAME
])),
1122 htmlspecialchars($tables[$i][TBL_NAME
]),
1124 sprintf(__('Structure of %s'), htmlspecialchars(PMA_backquote($tables[$i][TBL_NAME
]))),
1126 sprintf(__('Edit settings for %s'), htmlspecialchars(PMA_backquote($db_name))));
1128 $message .= sprintf('<li><a href="%s" title="%s">%s</a></li>',
1130 __('Go to view') . ': ' . htmlspecialchars(PMA_backquote($tables[$i][TBL_NAME
])),
1131 htmlspecialchars($tables[$i][TBL_NAME
]));
1135 $message .= '</ul></ul>';
1137 global $import_notice;
1138 $import_notice = $message;