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<?php /* * ip_in_range.php - Function to determine if an IP is located in a * specific range as specified via several alternative * formats. * * Network ranges can be specified as: * 1. Wildcard format: 1.2.3.* * 2. CIDR format: 1.2.3/24 OR 1.2.3.4/255.255.255.0 * 3. Start-End IP format: 1.2.3.0-1.2.3.255 * * Return value BOOLEAN : ip_in_range($ip, $range); * * Copyright 2008: Paul Gregg <pgregg@pgregg.com> * 10 January 2008 * Version: 1.2 * * Source website: http://www.pgregg.com/projects/php/ip_in_range/ * Version 1.2 * * This software is Donationware - if you feel you have benefited from * the use of this tool then please consider a donation. The value of * which is entirely left up to your discretion. * http://www.pgregg.com/donate/ * * Please do not remove this header, or source attibution from this file. */ /* * Modified by James Greene <james@cloudflare.com> to include IPV6 support * (original version only supported IPV4). * 21 May 2012 */ // In order to simplify working with IP addresses (in binary) and their // netmasks, it is easier to ensure that the binary strings are padded // with zeros out to 32 characters - IP addresses are 32 bit numbers function rocket_decbin32($dec) { return str_pad(decbin($dec), 32, '0', STR_PAD_LEFT); } // This function takes 2 arguments, an IP address and a "range" in several // different formats. // Network ranges can be specified as: // 1. Wildcard format: 1.2.3.* // 2. CIDR format: 1.2.3/24 OR 1.2.3.4/255.255.255.0 // 3. Start-End IP format: 1.2.3.0-1.2.3.255 // The function will return true if the supplied IP is within the range. // Note little validation is done on the range inputs - it expects you to // use one of the above 3 formats. function rocket_ipv4_in_range($ip, $range) { if (strpos($range, '/') !== false) { // $range is in IP/NETMASK format list($range, $netmask) = explode('/', $range, 2); if (strpos($netmask, '.') !== false) { // $netmask is a 255.255.0.0 format $netmask = str_replace('*', '0', $netmask); $netmask_dec = ip2long($netmask); return ( (ip2long($ip) & $netmask_dec) == (ip2long($range) & $netmask_dec) ); } else { // $netmask is a CIDR size block // fix the range argument $x = explode('.', $range); while(count($x)<4) $x[] = '0'; list($a,$b,$c,$d) = $x; $range = sprintf("%u.%u.%u.%u", empty($a)?'0':$a, empty($b)?'0':$b,empty($c)?'0':$c,empty($d)?'0':$d); $range_dec = ip2long($range); $ip_dec = ip2long($ip); # Strategy 1 - Create the netmask with 'netmask' 1s and then fill it to 32 with 0s #$netmask_dec = bindec(str_pad('', $netmask, '1') . str_pad('', 32-$netmask, '0')); # Strategy 2 - Use math to create it $wildcard_dec = pow(2, (32-$netmask)) - 1; $netmask_dec = ~ $wildcard_dec; return (($ip_dec & $netmask_dec) == ($range_dec & $netmask_dec)); } } else { // range might be 255.255.*.* or 1.2.3.0-1.2.3.255 if (strpos($range, '*') !==false) { // a.b.*.* format // Just convert to A-B format by setting * to 0 for A and 255 for B $lower = str_replace('*', '0', $range); $upper = str_replace('*', '255', $range); $range = "$lower-$upper"; } if (strpos($range, '-')!==false) { // A-B format list($lower, $upper) = explode('-', $range, 2); $lower_dec = (float)sprintf("%u",ip2long($lower)); $upper_dec = (float)sprintf("%u",ip2long($upper)); $ip_dec = (float)sprintf("%u",ip2long($ip)); return ( ($ip_dec>=$lower_dec) && ($ip_dec<=$upper_dec) ); } return false; } } function rocket_ip2long6($ip) { if (substr_count($ip, '::')) { $ip = str_replace('::', str_repeat(':0000', 8 - substr_count($ip, ':')) . ':', $ip); } $ip = explode(':', $ip); $r_ip = ''; foreach ($ip as $v) { $r_ip .= str_pad( base_convert( preg_replace("/[^0-9a-fA-F]/", "", $v ), 16, 2 ), 16, 0, STR_PAD_LEFT ); } return base_convert($r_ip, 2, 10); } // Get the ipv6 full format and return it as a decimal value. function get_rocket_ipv6_full($ip) { $pieces = explode ("/", $ip, 2); $left_piece = $pieces[0]; $right_piece = null; if (count($pieces) > 1) $right_piece = $pieces[1]; // Extract out the main IP pieces $ip_pieces = explode("::", $left_piece, 2); $main_ip_piece = $ip_pieces[0]; $last_ip_piece = ""; if (count($ip_pieces) > 1) $last_ip_piece = $ip_pieces[1]; // Pad out the shorthand entries. $main_ip_pieces = explode(":", $main_ip_piece); foreach($main_ip_pieces as $key=>$val) { $main_ip_pieces[$key] = str_pad($main_ip_pieces[$key], 4, "0", STR_PAD_LEFT); } // Check to see if the last IP block (part after ::) is set $last_piece = ""; $size = count($main_ip_pieces); if (trim($last_ip_piece) != "") { $last_piece = str_pad($last_ip_piece, 4, "0", STR_PAD_LEFT); // Build the full form of the IPV6 address considering the last IP block set for ($i = $size; $i < 7; $i++) { $main_ip_pieces[$i] = "0000"; } $main_ip_pieces[7] = $last_piece; } else { // Build the full form of the IPV6 address for ($i = $size; $i < 8; $i++) { $main_ip_pieces[$i] = "0000"; } } // Rebuild the final long form IPV6 address $final_ip = implode(":", $main_ip_pieces); return rocket_ip2long6($final_ip); } // Determine whether the IPV6 address is within range. // $ip is the IPV6 address in decimal format to check if its within the IP range created by the cloudflare IPV6 address, $range_ip. // $ip and $range_ip are converted to full IPV6 format. // Returns true if the IPV6 address, $ip, is within the range from $range_ip. False otherwise. function rocket_ipv6_in_range($ip, $range_ip) { $pieces = explode ("/", $range_ip, 2); $left_piece = $pieces[0]; $right_piece = $pieces[1]; // Extract out the main IP pieces $ip_pieces = explode("::", $left_piece, 2); $main_ip_piece = $ip_pieces[0]; $last_ip_piece = $ip_pieces[1]; // Pad out the shorthand entries. $main_ip_pieces = explode(":", $main_ip_piece); foreach($main_ip_pieces as $key=>$val) { $main_ip_pieces[$key] = str_pad($main_ip_pieces[$key], 4, "0", STR_PAD_LEFT); } // Create the first and last pieces that will denote the IPV6 range. $first = $main_ip_pieces; $last = $main_ip_pieces; // Check to see if the last IP block (part after ::) is set $last_piece = ""; $size = count($main_ip_pieces); if (trim($last_ip_piece) != "") { $last_piece = str_pad($last_ip_piece, 4, "0", STR_PAD_LEFT); // Build the full form of the IPV6 address considering the last IP block set for ($i = $size; $i < 7; $i++) { $first[$i] = "0000"; $last[$i] = "ffff"; } $main_ip_pieces[7] = $last_piece; } else { // Build the full form of the IPV6 address for ($i = $size; $i < 8; $i++) { $first[$i] = "0000"; $last[$i] = "ffff"; } } // Rebuild the final long form IPV6 address $first = rocket_ip2long6(implode(":", $first)); $last = rocket_ip2long6(implode(":", $last)); $in_range = ($ip >= $first && $ip <= $last); return $in_range; }