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|
<?php
/*
* @Author "Ashar Voultoiz" <hashar@altern.org>
* @License GPL v2 or later
*/
// Some regex definition to "play" with IP address and IP address blocks
// An IP is made of 4 bytes from x00 to xFF which is d0 to d255
define( 'RE_IP_BYTE', '(25[0-5]|2[0-4][0-9]|1[0-9][0-9]|0?[0-9]?[0-9])');
define( 'RE_IP_ADD' , RE_IP_BYTE . '\.' . RE_IP_BYTE . '\.' . RE_IP_BYTE . '\.' . RE_IP_BYTE );
// An IPv4 block is an IP address and a prefix (d1 to d32)
define( 'RE_IP_PREFIX', '(3[0-2]|[12]?\d)');
define( 'RE_IP_BLOCK', RE_IP_ADD . '\/' . RE_IP_PREFIX);
// For IPv6 canonicalization (NOT for strict validation; these are quite lax!)
define( 'RE_IPV6_WORD', '([0-9A-Fa-f]{1,4})' );
define( 'RE_IPV6_GAP', ':(?:0+:)*(?::(?:0+:)*)?' );
define( 'RE_IPV6_V4_PREFIX', '0*' . RE_IPV6_GAP . '(?:ffff:)?' );
// An IPv6 block is an IP address and a prefix (d1 to d128)
define( 'RE_IPV6_PREFIX', '(12[0-8]|1[01][0-9]|[1-9]?\d)');
// An IPv6 IP is made up of 8 octets. However abbreviations like "::" can be used. This is lax!
define( 'RE_IPV6_ADD', '(:(:' . RE_IPV6_WORD . '){1,7}|' . RE_IPV6_WORD . '(:{1,2}' . RE_IPV6_WORD . '|::$){1,7})' );
define( 'RE_IPV6_BLOCK', RE_IPV6_ADD . '\/' . RE_IPV6_PREFIX );
// This might be useful for regexps used elsewhere, matches any IPv6 or IPv6 address or network
define( 'IP_ADDRESS_STRING',
'(?:' .
RE_IP_ADD . '(\/' . RE_IP_PREFIX . '|)' .
'|' .
RE_IPV6_ADD . '(\/' . RE_IPV6_PREFIX . '|)' .
')' );
/**
* A collection of public static functions to play with IP address
* and IP blocks.
*/
class IP {
/**
* Given a string, determine if it as valid IP
* Unlike isValid(), this looks for networks too
* @param $ip IP address.
* @return string
*/
public static function isIPAddress( $ip ) {
if ( !$ip ) return false;
if ( is_array( $ip ) ) {
throw new MWException( "invalid value passed to " . __METHOD__ );
}
// IPv6 IPs with two "::" strings are ambiguous and thus invalid
return preg_match( '/^' . IP_ADDRESS_STRING . '$/', $ip) && ( substr_count($ip, '::') < 2 );
}
public static function isIPv6( $ip ) {
if ( !$ip ) return false;
if( is_array( $ip ) ) {
throw new MWException( "invalid value passed to " . __METHOD__ );
}
// IPv6 IPs with two "::" strings are ambiguous and thus invalid
return preg_match( '/^' . RE_IPV6_ADD . '(\/' . RE_IPV6_PREFIX . '|)$/', $ip) && ( substr_count($ip, '::') < 2);
}
public static function isIPv4( $ip ) {
if ( !$ip ) return false;
return preg_match( '/^' . RE_IP_ADD . '(\/' . RE_IP_PREFIX . '|)$/', $ip);
}
/**
* Given an IP address in dotted-quad notation, returns an IPv6 octet.
* See http://www.answers.com/topic/ipv4-compatible-address
* IPs with the first 92 bits as zeros are reserved from IPv6
* @param $ip quad-dotted IP address.
* @return string
*/
public static function IPv4toIPv6( $ip ) {
if ( !$ip ) return null;
// Convert only if needed
if ( self::isIPv6( $ip ) ) return $ip;
// IPv4 CIDRs
if ( strpos( $ip, '/' ) !== false ) {
$parts = explode( '/', $ip, 2 );
if ( count( $parts ) != 2 ) {
return false;
}
$network = self::toUnsigned( $parts[0] );
if ( $network !== false && is_numeric( $parts[1] ) && $parts[1] >= 0 && $parts[1] <= 32 ) {
$bits = $parts[1] + 96;
return self::toOctet( $network ) . "/$bits";
} else {
return false;
}
}
return self::toOctet( self::toUnsigned( $ip ) );
}
/**
* Given an IPv6 address in octet notation, returns an unsigned integer.
* @param $ip octet ipv6 IP address.
* @return string
*/
public static function toUnsigned6( $ip ) {
if ( !$ip ) return null;
$ip = explode(':', self::sanitizeIP( $ip ) );
$r_ip = '';
foreach ($ip as $v) {
$r_ip .= str_pad( $v, 4, 0, STR_PAD_LEFT );
}
$r_ip = wfBaseConvert( $r_ip, 16, 10 );
return $r_ip;
}
/**
* Given an IPv6 address in octet notation, returns the expanded octet.
* IPv4 IPs will be trimmed, thats it...
* @param $ip octet ipv6 IP address.
* @return string
*/
public static function sanitizeIP( $ip ) {
$ip = trim( $ip );
if ( $ip === '' ) return null;
// Trim and return IPv4 addresses
if ( self::isIPv4($ip) ) return $ip;
// Only IPv6 addresses can be expanded
if ( !self::isIPv6($ip) ) return $ip;
// Remove any whitespaces, convert to upper case
$ip = strtoupper( $ip );
// Expand zero abbreviations
if ( strpos( $ip, '::' ) !== false ) {
$ip = str_replace('::', str_repeat(':0', 8 - substr_count($ip, ':')) . ':', $ip);
}
// For IPs that start with "::", correct the final IP so that it starts with '0' and not ':'
if ( $ip[0] == ':' ) $ip = "0$ip";
// Remove leading zereos from each bloc as needed
$ip = preg_replace( '/(^|:)0+' . RE_IPV6_WORD . '/', '$1$2', $ip );
return $ip;
}
/**
* Given an unsigned integer, returns an IPv6 address in octet notation
* @param $ip integer IP address.
* @return string
*/
public static function toOctet( $ip_int ) {
// Convert to padded uppercase hex
$ip_hex = wfBaseConvert($ip_int, 10, 16, 32, false);
// Seperate into 8 octets
$ip_oct = substr( $ip_hex, 0, 4 );
for ($n=1; $n < 8; $n++) {
$ip_oct .= ':' . substr($ip_hex, 4*$n, 4);
}
// NO leading zeroes
$ip_oct = preg_replace( '/(^|:)0+' . RE_IPV6_WORD . '/', '$1$2', $ip_oct );
return $ip_oct;
}
/**
* Convert a network specification in IPv6 CIDR notation to an integer network and a number of bits
* @return array(string, int)
*/
public static function parseCIDR6( $range ) {
# Expand any IPv6 IP
$parts = explode( '/', IP::sanitizeIP( $range ), 2 );
if ( count( $parts ) != 2 ) {
return array( false, false );
}
$network = self::toUnsigned6( $parts[0] );
if ( $network !== false && is_numeric( $parts[1] ) && $parts[1] >= 0 && $parts[1] <= 128 ) {
$bits = $parts[1];
if ( $bits == 0 ) {
$network = 0;
} else {
# Native 32 bit functions WONT work here!!!
# Convert to a padded binary number
$network = wfBaseConvert( $network, 10, 2, 128 );
# Truncate the last (128-$bits) bits and replace them with zeros
$network = str_pad( substr( $network, 0, $bits ), 128, 0, STR_PAD_RIGHT );
# Convert back to an integer
$network = wfBaseConvert( $network, 2, 10 );
}
} else {
$network = false;
$bits = false;
}
return array( $network, $bits );
}
/**
* Given a string range in a number of formats, return the start and end of
* the range in hexadecimal. For IPv6.
*
* Formats are:
* 2001:0db8:85a3::7344/96 CIDR
* 2001:0db8:85a3::7344 - 2001:0db8:85a3::7344 Explicit range
* 2001:0db8:85a3::7344/96 Single IP
* @return array(string, int)
*/
public static function parseRange6( $range ) {
# Expand any IPv6 IP
$range = IP::sanitizeIP( $range );
if ( strpos( $range, '/' ) !== false ) {
# CIDR
list( $network, $bits ) = self::parseCIDR6( $range );
if ( $network === false ) {
$start = $end = false;
} else {
$start = wfBaseConvert( $network, 10, 16, 32, false );
# Turn network to binary (again)
$end = wfBaseConvert( $network, 10, 2, 128 );
# Truncate the last (128-$bits) bits and replace them with ones
$end = str_pad( substr( $end, 0, $bits ), 128, 1, STR_PAD_RIGHT );
# Convert to hex
$end = wfBaseConvert( $end, 2, 16, 32, false );
# see toHex() comment
$start = "v6-$start"; $end = "v6-$end";
}
} elseif ( strpos( $range, '-' ) !== false ) {
# Explicit range
list( $start, $end ) = array_map( 'trim', explode( '-', $range, 2 ) );
$start = self::toUnsigned6( $start ); $end = self::toUnsigned6( $end );
if ( $start > $end ) {
$start = $end = false;
} else {
$start = wfBaseConvert( $start, 10, 16, 32, false );
$end = wfBaseConvert( $end, 10, 16, 32, false );
}
# see toHex() comment
$start = "v6-$start"; $end = "v6-$end";
} else {
# Single IP
$start = $end = self::toHex( $range );
}
if ( $start === false || $end === false ) {
return array( false, false );
} else {
return array( $start, $end );
}
}
/**
* Validate an IP address.
* @return boolean True if it is valid.
*/
public static function isValid( $ip ) {
return ( preg_match( '/^' . RE_IP_ADD . '$/', $ip) || preg_match( '/^' . RE_IPV6_ADD . '$/', $ip) );
}
/**
* Validate an IP Block.
* @return boolean True if it is valid.
*/
public static function isValidBlock( $ipblock ) {
return ( count(self::toArray($ipblock)) == 1 + 5 );
}
/**
* Determine if an IP address really is an IP address, and if it is public,
* i.e. not RFC 1918 or similar
* Comes from ProxyTools.php
*/
public static function isPublic( $ip ) {
$n = self::toUnsigned( $ip );
if ( !$n ) {
return false;
}
// ip2long accepts incomplete addresses, as well as some addresses
// followed by garbage characters. Check that it's really valid.
if( $ip != long2ip( $n ) ) {
return false;
}
static $privateRanges = false;
if ( !$privateRanges ) {
$privateRanges = array(
array( '10.0.0.0', '10.255.255.255' ), # RFC 1918 (private)
array( '172.16.0.0', '172.31.255.255' ), # "
array( '192.168.0.0', '192.168.255.255' ), # "
array( '0.0.0.0', '0.255.255.255' ), # this network
array( '127.0.0.0', '127.255.255.255' ), # loopback
);
}
foreach ( $privateRanges as $r ) {
$start = self::toUnsigned( $r[0] );
$end = self::toUnsigned( $r[1] );
if ( $n >= $start && $n <= $end ) {
return false;
}
}
return true;
}
/**
* Split out an IP block as an array of 4 bytes and a mask,
* return false if it can't be determined
*
* @param $ip string A quad dotted/octet IP address
* @return array
*/
public static function toArray( $ipblock ) {
$matches = array();
if( preg_match( '/^' . RE_IP_ADD . '(?:\/(?:'.RE_IP_PREFIX.'))?' . '$/', $ipblock, $matches ) ) {
return $matches;
} else if ( preg_match( '/^' . RE_IPV6_ADD . '(?:\/(?:'.RE_IPV6_PREFIX.'))?' . '$/', $ipblock, $matches ) ) {
return $matches;
} else {
return false;
}
}
/**
* Return a zero-padded hexadecimal representation of an IP address.
*
* Hexadecimal addresses are used because they can easily be extended to
* IPv6 support. To separate the ranges, the return value from this
* function for an IPv6 address will be prefixed with "v6-", a non-
* hexadecimal string which sorts after the IPv4 addresses.
*
* @param $ip Quad dotted/octet IP address.
* @return hexidecimal
*/
public static function toHex( $ip ) {
$n = self::toUnsigned( $ip );
if ( $n !== false ) {
$n = ( self::isIPv6($ip) ) ? "v6-" . wfBaseConvert( $n, 10, 16, 32, false ) : wfBaseConvert( $n, 10, 16, 8, false );
}
return $n;
}
/**
* Given an IP address in dotted-quad/octet notation, returns an unsigned integer.
* Like ip2long() except that it actually works and has a consistent error return value.
* Comes from ProxyTools.php
* @param $ip Quad dotted IP address.
* @return integer
*/
public static function toUnsigned( $ip ) {
// Use IPv6 functions if needed
if ( self::isIPv6( $ip ) ) {
return self::toUnsigned6( $ip );
}
if ( $ip == '255.255.255.255' ) {
$n = -1;
} else {
$n = ip2long( $ip );
if ( $n == -1 || $n === false ) { # Return value on error depends on PHP version
$n = false;
}
}
if ( $n < 0 ) {
$n += pow( 2, 32 );
}
return $n;
}
/**
* Convert a dotted-quad IP to a signed integer
* Returns false on failure
*/
public static function toSigned( $ip ) {
if ( $ip == '255.255.255.255' ) {
$n = -1;
} else {
$n = ip2long( $ip );
if ( $n == -1 ) {
$n = false;
}
}
return $n;
}
/**
* Convert a network specification in CIDR notation to an integer network and a number of bits
* @return array(string, int)
*/
public static function parseCIDR( $range ) {
$parts = explode( '/', $range, 2 );
if ( count( $parts ) != 2 ) {
return array( false, false );
}
$network = self::toSigned( $parts[0] );
if ( $network !== false && is_numeric( $parts[1] ) && $parts[1] >= 0 && $parts[1] <= 32 ) {
$bits = $parts[1];
if ( $bits == 0 ) {
$network = 0;
} else {
$network &= ~((1 << (32 - $bits)) - 1);
}
# Convert to unsigned
if ( $network < 0 ) {
$network += pow( 2, 32 );
}
} else {
$network = false;
$bits = false;
}
return array( $network, $bits );
}
/**
* Given a string range in a number of formats, return the start and end of
* the range in hexadecimal.
*
* Formats are:
* 1.2.3.4/24 CIDR
* 1.2.3.4 - 1.2.3.5 Explicit range
* 1.2.3.4 Single IP
*
* 2001:0db8:85a3::7344/96 CIDR
* 2001:0db8:85a3::7344 - 2001:0db8:85a3::7344 Explicit range
* 2001:0db8:85a3::7344 Single IP
* @return array(string, int)
*/
public static function parseRange( $range ) {
// Use IPv6 functions if needed
if ( self::isIPv6( $range ) ) {
return self::parseRange6( $range );
}
if ( strpos( $range, '/' ) !== false ) {
# CIDR
list( $network, $bits ) = self::parseCIDR( $range );
if ( $network === false ) {
$start = $end = false;
} else {
$start = sprintf( '%08X', $network );
$end = sprintf( '%08X', $network + pow( 2, (32 - $bits) ) - 1 );
}
} elseif ( strpos( $range, '-' ) !== false ) {
# Explicit range
list( $start, $end ) = array_map( 'trim', explode( '-', $range, 2 ) );
$start = self::toUnsigned( $start ); $end = self::toUnsigned( $end );
if ( $start > $end ) {
$start = $end = false;
} else {
$start = sprintf( '%08X', $start );
$end = sprintf( '%08X', $end );
}
} else {
# Single IP
$start = $end = self::toHex( $range );
}
if ( $start === false || $end === false ) {
return array( false, false );
} else {
return array( $start, $end );
}
}
/**
* Determine if a given IPv4/IPv6 address is in a given CIDR network
* @param $addr The address to check against the given range.
* @param $range The range to check the given address against.
* @return bool Whether or not the given address is in the given range.
*/
public static function isInRange( $addr, $range ) {
// Convert to IPv6 if needed
$unsignedIP = self::toHex( $addr );
list( $start, $end ) = self::parseRange( $range );
return (($unsignedIP >= $start) && ($unsignedIP <= $end));
}
/**
* Convert some unusual representations of IPv4 addresses to their
* canonical dotted quad representation.
*
* This currently only checks a few IPV4-to-IPv6 related cases. More
* unusual representations may be added later.
*
* @param $addr something that might be an IP address
* @return valid dotted quad IPv4 address or null
*/
public static function canonicalize( $addr ) {
if ( self::isValid( $addr ) )
return $addr;
// Annoying IPv6 representations like ::ffff:1.2.3.4
if ( strpos($addr,':') !==false && strpos($addr,'.') !==false ) {
$addr = str_replace( '.', ':', $addr );
if( IP::isIPv6( $addr ) )
return $addr;
}
// IPv6 loopback address
$m = array();
if ( preg_match( '/^0*' . RE_IPV6_GAP . '1$/', $addr, $m ) )
return '127.0.0.1';
// IPv4-mapped and IPv4-compatible IPv6 addresses
if ( preg_match( '/^' . RE_IPV6_V4_PREFIX . '(' . RE_IP_ADD . ')$/i', $addr, $m ) )
return $m[1];
if ( preg_match( '/^' . RE_IPV6_V4_PREFIX . RE_IPV6_WORD . ':' . RE_IPV6_WORD . '$/i', $addr, $m ) )
return long2ip( ( hexdec( $m[1] ) << 16 ) + hexdec( $m[2] ) );
return null; // give up
}
}
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