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* @author Sebastian Kroczek
* @author Dmitry Lukashin
* @author Laurent Bassin
* * @internal */ final class Idn { const INTL_IDNA_VARIANT_2003 = 0; const INTL_IDNA_VARIANT_UTS46 = 1; private static $encodeTable = array( 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', ); private static $decodeTable = array( 'a' => 0, 'b' => 1, 'c' => 2, 'd' => 3, 'e' => 4, 'f' => 5, 'g' => 6, 'h' => 7, 'i' => 8, 'j' => 9, 'k' => 10, 'l' => 11, 'm' => 12, 'n' => 13, 'o' => 14, 'p' => 15, 'q' => 16, 'r' => 17, 's' => 18, 't' => 19, 'u' => 20, 'v' => 21, 'w' => 22, 'x' => 23, 'y' => 24, 'z' => 25, '0' => 26, '1' => 27, '2' => 28, '3' => 29, '4' => 30, '5' => 31, '6' => 32, '7' => 33, '8' => 34, '9' => 35, ); public static function idn_to_ascii($domain, $options, $variant, &$idna_info = array()) { if (\PHP_VERSION_ID >= 70200 && self::INTL_IDNA_VARIANT_2003 === $variant) { @trigger_error('idn_to_ascii(): INTL_IDNA_VARIANT_2003 is deprecated', E_USER_DEPRECATED); } if (self::INTL_IDNA_VARIANT_UTS46 === $variant) { $domain = mb_strtolower($domain, 'utf-8'); } $parts = explode('.', $domain); foreach ($parts as $i => &$part) { if ('' === $part && \count($parts) > 1 + $i) { return false; } if (false === $part = self::encodePart($part)) { return false; } } $output = implode('.', $parts); $idna_info = array( 'result' => \strlen($output) > 255 ? false : $output, 'isTransitionalDifferent' => false, 'errors' => 0, ); return $idna_info['result']; } public static function idn_to_utf8($domain, $options, $variant, &$idna_info = array()) { if (\PHP_VERSION_ID >= 70200 && self::INTL_IDNA_VARIANT_2003 === $variant) { @trigger_error('idn_to_utf8(): INTL_IDNA_VARIANT_2003 is deprecated', E_USER_DEPRECATED); } $parts = explode('.', $domain); foreach ($parts as &$part) { $length = \strlen($part); if ($length < 1 || 63 < $length) { continue; } if (0 !== strpos($part, 'xn--')) { continue; } $part = substr($part, 4); $part = self::decodePart($part); } $output = implode('.', $parts); $idna_info = array( 'result' => \strlen($output) > 255 ? false : $output, 'isTransitionalDifferent' => false, 'errors' => 0, ); return $idna_info['result']; } private static function encodePart($input) { if (\substr($input, 0, 1) === '-' || \substr($input, -1) === '-') { return false; } $codePoints = self::listCodePoints($input); $n = 128; $bias = 72; $delta = 0; $h = $b = \count($codePoints['basic']); $output = ''; foreach ($codePoints['basic'] as $code) { $output .= mb_chr($code, 'utf-8'); } if ($input === $output) { return $output; } if ($b > 0) { $output .= '-'; } $codePoints['nonBasic'] = array_unique($codePoints['nonBasic']); sort($codePoints['nonBasic']); $i = 0; $length = mb_strlen($input, 'utf-8'); while ($h < $length) { $m = $codePoints['nonBasic'][$i++]; $delta += ($m - $n) * ($h + 1); $n = $m; foreach ($codePoints['all'] as $c) { if ($c < $n || $c < 128) { ++$delta; } if ($c === $n) { $q = $delta; for ($k = 36;; $k += 36) { $t = self::calculateThreshold($k, $bias); if ($q < $t) { break; } $code = $t + (($q - $t) % (36 - $t)); $output .= self::$encodeTable[$code]; $q = ($q - $t) / (36 - $t); } $output .= self::$encodeTable[$q]; $bias = self::adapt($delta, $h + 1, ($h === $b)); $delta = 0; ++$h; } } ++$delta; ++$n; } $output = 'xn--'.$output; return \strlen($output) < 1 || 63 < \strlen($output) ? false : strtolower($output); } private static function listCodePoints($input) { $codePoints = array( 'all' => array(), 'basic' => array(), 'nonBasic' => array(), ); $length = mb_strlen($input, 'utf-8'); for ($i = 0; $i < $length; ++$i) { $char = mb_substr($input, $i, 1, 'utf-8'); $code = mb_ord($char, 'utf-8'); if ($code < 128) { $codePoints['all'][] = $codePoints['basic'][] = $code; } else { $codePoints['all'][] = $codePoints['nonBasic'][] = $code; } } return $codePoints; } private static function calculateThreshold($k, $bias) { if ($k <= $bias + 1) { return 1; } if ($k >= $bias + 26) { return 26; } return $k - $bias; } private static function adapt($delta, $numPoints, $firstTime) { $delta = (int) ($firstTime ? $delta / 700 : $delta / 2); $delta += (int) ($delta / $numPoints); $k = 0; while ($delta > 35 * 13) { $delta = (int) ($delta / 35); $k = $k + 36; } return $k + (int) (36 * $delta / ($delta + 38)); } private static function decodePart($input) { $n = 128; $i = 0; $bias = 72; $output = ''; $pos = strrpos($input, '-'); if (false !== $pos) { $output = substr($input, 0, $pos++); } else { $pos = 0; } $outputLength = \strlen($output); $inputLength = \strlen($input); while ($pos < $inputLength) { $oldi = $i; $w = 1; for ($k = 36;; $k += 36) { $digit = self::$decodeTable[$input[$pos++]]; $i += $digit * $w; $t = self::calculateThreshold($k, $bias); if ($digit < $t) { break; } $w *= 36 - $t; } $bias = self::adapt($i - $oldi, ++$outputLength, 0 === $oldi); $n = $n + (int) ($i / $outputLength); $i = $i % $outputLength; $output = mb_substr($output, 0, $i, 'utf-8').mb_chr($n, 'utf-8').mb_substr($output, $i, $outputLength - 1, 'utf-8'); ++$i; } return $output; } }