search:
summary | log | graphiclog1 | graphiclog2 | commit | commitdiff | tree | refs | edit | fork
blame | history | raw | HEAD
Merge "Special:Upload should not crash on failing previews"
[mediawiki.git] / includes / libs / IP.php
blob21203a47ce7a0c210884b244464451fd8f220817
1 <?php
2 /**
3 * Functions and constants to play with IP addresses and ranges
4 *
5 * This program is free software; you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation; either version 2 of the License, or
8 * (at your option) any later version.
9 *
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
14 *
15 * You should have received a copy of the GNU General Public License along
16 * with this program; if not, write to the Free Software Foundation, Inc.,
17 * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
18 * http://www.gnu.org/copyleft/gpl.html
19 *
20 * @file
21 * @author Antoine Musso "<hashar at free dot fr>", Aaron Schulz
22 */
23
24 use IPSet\IPSet;
25
26 // Some regex definition to "play" with IP address and IP address blocks
27
28 // An IPv4 address is made of 4 bytes from x00 to xFF which is d0 to d255
29 define( 'RE_IP_BYTE', '(25[0-5]|2[0-4][0-9]|1[0-9][0-9]|0?[0-9]?[0-9])' );
30 define( 'RE_IP_ADD', RE_IP_BYTE . '\.' . RE_IP_BYTE . '\.' . RE_IP_BYTE . '\.' . RE_IP_BYTE );
31 // An IPv4 block is an IP address and a prefix (d1 to d32)
32 define( 'RE_IP_PREFIX', '(3[0-2]|[12]?\d)' );
33 define( 'RE_IP_BLOCK', RE_IP_ADD . '\/' . RE_IP_PREFIX );
34
35 // An IPv6 address is made up of 8 words (each x0000 to xFFFF).
36 // However, the "::" abbreviation can be used on consecutive x0000 words.
37 define( 'RE_IPV6_WORD', '([0-9A-Fa-f]{1,4})' );
38 define( 'RE_IPV6_PREFIX', '(12[0-8]|1[01][0-9]|[1-9]?\d)' );
39 define( 'RE_IPV6_ADD',
40 '(?:' . // starts with "::" (including "::")
41 ':(?::|(?::' . RE_IPV6_WORD . '){1,7})' .
42 '|' . // ends with "::" (except "::")
43 RE_IPV6_WORD . '(?::' . RE_IPV6_WORD . '){0,6}::' .
44 '|' . // contains one "::" in the middle (the ^ makes the test fail if none found)
45 RE_IPV6_WORD . '(?::((?(-1)|:))?' . RE_IPV6_WORD . '){1,6}(?(-2)|^)' .
46 '|' . // contains no "::"
47 RE_IPV6_WORD . '(?::' . RE_IPV6_WORD . '){7}' .
48 ')'
49 );
50 // An IPv6 block is an IP address and a prefix (d1 to d128)
51 define( 'RE_IPV6_BLOCK', RE_IPV6_ADD . '\/' . RE_IPV6_PREFIX );
52 // For IPv6 canonicalization (NOT for strict validation; these are quite lax!)
53 define( 'RE_IPV6_GAP', ':(?:0+:)*(?::(?:0+:)*)?' );
54 define( 'RE_IPV6_V4_PREFIX', '0*' . RE_IPV6_GAP . '(?:ffff:)?' );
55
56 // This might be useful for regexps used elsewhere, matches any IPv4 or IPv6 address or network
57 define( 'IP_ADDRESS_STRING',
58 '(?:' .
59 RE_IP_ADD . '(?:\/' . RE_IP_PREFIX . ')?' . // IPv4
60 '|' .
61 RE_IPV6_ADD . '(?:\/' . RE_IPV6_PREFIX . ')?' . // IPv6
62 ')'
63 );
64
65 /**
66 * A collection of public static functions to play with IP address
67 * and IP blocks.
68 */
69 class IP {
70 /** @var IPSet */
71 private static $proxyIpSet = null;
72
73 /**
74 * Determine if a string is as valid IP address or network (CIDR prefix).
75 * SIIT IPv4-translated addresses are rejected.
76 * @note canonicalize() tries to convert translated addresses to IPv4.
77 *
78 * @param string $ip Possible IP address
79 * @return bool
80 */
81 public static function isIPAddress( $ip ) {
82 return (bool)preg_match( '/^' . IP_ADDRESS_STRING . '$/', $ip );
83 }
84
85 /**
86 * Given a string, determine if it as valid IP in IPv6 only.
87 * @note Unlike isValid(), this looks for networks too.
88 *
89 * @param string $ip Possible IP address
90 * @return bool
91 */
92 public static function isIPv6( $ip ) {
93 return (bool)preg_match( '/^' . RE_IPV6_ADD . '(?:\/' . RE_IPV6_PREFIX . ')?$/', $ip );
94 }
95
96 /**
97 * Given a string, determine if it as valid IP in IPv4 only.
98 * @note Unlike isValid(), this looks for networks too.
99 *
100 * @param string $ip Possible IP address
101 * @return bool
102 */
103 public static function isIPv4( $ip ) {
104 return (bool)preg_match( '/^' . RE_IP_ADD . '(?:\/' . RE_IP_PREFIX . ')?$/', $ip );
105 }
106
107 /**
108 * Validate an IP address. Ranges are NOT considered valid.
109 * SIIT IPv4-translated addresses are rejected.
110 * @note canonicalize() tries to convert translated addresses to IPv4.
111 *
112 * @param string $ip
113 * @return bool True if it is valid
114 */
115 public static function isValid( $ip ) {
116 return ( preg_match( '/^' . RE_IP_ADD . '$/', $ip )
117 || preg_match( '/^' . RE_IPV6_ADD . '$/', $ip ) );
118 }
119
120 /**
121 * Validate an IP Block (valid address WITH a valid prefix).
122 * SIIT IPv4-translated addresses are rejected.
123 * @note canonicalize() tries to convert translated addresses to IPv4.
124 *
125 * @param string $ipblock
126 * @return bool True if it is valid
127 */
128 public static function isValidBlock( $ipblock ) {
129 return ( preg_match( '/^' . RE_IPV6_BLOCK . '$/', $ipblock )
130 || preg_match( '/^' . RE_IP_BLOCK . '$/', $ipblock ) );
131 }
132
133 /**
134 * Convert an IP into a verbose, uppercase, normalized form.
135 * Both IPv4 and IPv6 addresses are trimmed. Additionally,
136 * IPv6 addresses in octet notation are expanded to 8 words;
137 * IPv4 addresses have leading zeros, in each octet, removed.
138 *
139 * @param string $ip IP address in quad or octet form (CIDR or not).
140 * @return string
141 */
142 public static function sanitizeIP( $ip ) {
143 $ip = trim( $ip );
144 if ( $ip === '' ) {
145 return null;
146 }
147 /* If not an IP, just return trimmed value, since sanitizeIP() is called
148 * in a number of contexts where usernames are supplied as input.
149 */
150 if ( !self::isIPAddress( $ip ) ) {
151 return $ip;
152 }
153 if ( self::isIPv4( $ip ) ) {
154 // Remove leading 0's from octet representation of IPv4 address
155 $ip = preg_replace( '/(?:^|(?<=\.))0+(?=[1-9]|0\.|0$)/', '', $ip );
156 return $ip;
157 }
158 // Remove any whitespaces, convert to upper case
159 $ip = strtoupper( $ip );
160 // Expand zero abbreviations
161 $abbrevPos = strpos( $ip, '::' );
162 if ( $abbrevPos !== false ) {
163 // We know this is valid IPv6. Find the last index of the
164 // address before any CIDR number (e.g. "a:b:c::/24").
165 $CIDRStart = strpos( $ip, "/" );
166 $addressEnd = ( $CIDRStart !== false )
167 ? $CIDRStart - 1
168 : strlen( $ip ) - 1;
169 // If the '::' is at the beginning...
170 if ( $abbrevPos == 0 ) {
171 $repeat = '0:';
172 $extra = ( $ip == '::' ) ? '0' : ''; // for the address '::'
173 $pad = 9; // 7+2 (due to '::')
174 // If the '::' is at the end...
175 } elseif ( $abbrevPos == ( $addressEnd - 1 ) ) {
176 $repeat = ':0';
177 $extra = '';
178 $pad = 9; // 7+2 (due to '::')
179 // If the '::' is in the middle...
180 } else {
181 $repeat = ':0';
182 $extra = ':';
183 $pad = 8; // 6+2 (due to '::')
184 }
185 $ip = str_replace( '::',
186 str_repeat( $repeat, $pad - substr_count( $ip, ':' ) ) . $extra,
187 $ip
188 );
189 }
190 // Remove leading zeros from each bloc as needed
191 $ip = preg_replace( '/(^|:)0+(' . RE_IPV6_WORD . ')/', '$1$2', $ip );
192
193 return $ip;
194 }
195
196 /**
197 * Prettify an IP for display to end users.
198 * This will make it more compact and lower-case.
199 *
200 * @param string $ip
201 * @return string
202 */
203 public static function prettifyIP( $ip ) {
204 $ip = self::sanitizeIP( $ip ); // normalize (removes '::')
205 if ( self::isIPv6( $ip ) ) {
206 // Split IP into an address and a CIDR
207 if ( strpos( $ip, '/' ) !== false ) {
208 list( $ip, $cidr ) = explode( '/', $ip, 2 );
209 } else {
210 list( $ip, $cidr ) = [ $ip, '' ];
211 }
212 // Get the largest slice of words with multiple zeros
213 $offset = 0;
214 $longest = $longestPos = false;
215 while ( preg_match(
216 '!(?:^|:)0(?::0)+(?:$|:)!', $ip, $m, PREG_OFFSET_CAPTURE, $offset
217 ) ) {
218 list( $match, $pos ) = $m[0]; // full match
219 if ( strlen( $match ) > strlen( $longest ) ) {
220 $longest = $match;
221 $longestPos = $pos;
222 }
223 $offset = ( $pos + strlen( $match ) ); // advance
224 }
225 if ( $longest !== false ) {
226 // Replace this portion of the string with the '::' abbreviation
227 $ip = substr_replace( $ip, '::', $longestPos, strlen( $longest ) );
228 }
229 // Add any CIDR back on
230 if ( $cidr !== '' ) {
231 $ip = "{$ip}/{$cidr}";
232 }
233 // Convert to lower case to make it more readable
234 $ip = strtolower( $ip );
235 }
236
237 return $ip;
238 }
239
240 /**
241 * Given a host/port string, like one might find in the host part of a URL
242 * per RFC 2732, split the hostname part and the port part and return an
243 * array with an element for each. If there is no port part, the array will
244 * have false in place of the port. If the string was invalid in some way,
245 * false is returned.
246 *
247 * This was easy with IPv4 and was generally done in an ad-hoc way, but
248 * with IPv6 it's somewhat more complicated due to the need to parse the
249 * square brackets and colons.
250 *
251 * A bare IPv6 address is accepted despite the lack of square brackets.
252 *
253 * @param string $both The string with the host and port
254 * @return array|false Array normally, false on certain failures
255 */
256 public static function splitHostAndPort( $both ) {
257 if ( substr( $both, 0, 1 ) === '[' ) {
258 if ( preg_match( '/^\[(' . RE_IPV6_ADD . ')\](?::(?P<port>\d+))?$/', $both, $m ) ) {
259 if ( isset( $m['port'] ) ) {
260 return [ $m[1], intval( $m['port'] ) ];
261 } else {
262 return [ $m[1], false ];
263 }
264 } else {
265 // Square bracket found but no IPv6
266 return false;
267 }
268 }
269 $numColons = substr_count( $both, ':' );
270 if ( $numColons >= 2 ) {
271 // Is it a bare IPv6 address?
272 if ( preg_match( '/^' . RE_IPV6_ADD . '$/', $both ) ) {
273 return [ $both, false ];
274 } else {
275 // Not valid IPv6, but too many colons for anything else
276 return false;
277 }
278 }
279 if ( $numColons >= 1 ) {
280 // Host:port?
281 $bits = explode( ':', $both );
282 if ( preg_match( '/^\d+/', $bits[1] ) ) {
283 return [ $bits[0], intval( $bits[1] ) ];
284 } else {
285 // Not a valid port
286 return false;
287 }
288 }
289
290 // Plain hostname
291 return [ $both, false ];
292 }
293
294 /**
295 * Given a host name and a port, combine them into host/port string like
296 * you might find in a URL. If the host contains a colon, wrap it in square
297 * brackets like in RFC 2732. If the port matches the default port, omit
298 * the port specification
299 *
300 * @param string $host
301 * @param int $port
302 * @param bool|int $defaultPort
303 * @return string
304 */
305 public static function combineHostAndPort( $host, $port, $defaultPort = false ) {
306 if ( strpos( $host, ':' ) !== false ) {
307 $host = "[$host]";
308 }
309 if ( $defaultPort !== false && $port == $defaultPort ) {
310 return $host;
311 } else {
312 return "$host:$port";
313 }
314 }
315
316 /**
317 * Convert an IPv4 or IPv6 hexadecimal representation back to readable format
318 *
319 * @param string $hex Number, with "v6-" prefix if it is IPv6
320 * @return string Quad-dotted (IPv4) or octet notation (IPv6)
321 */
322 public static function formatHex( $hex ) {
323 if ( substr( $hex, 0, 3 ) == 'v6-' ) { // IPv6
324 return self::hexToOctet( substr( $hex, 3 ) );
325 } else { // IPv4
326 return self::hexToQuad( $hex );
327 }
328 }
329
330 /**
331 * Converts a hexadecimal number to an IPv6 address in octet notation
332 *
333 * @param string $ip_hex Pure hex (no v6- prefix)
334 * @return string (of format a:b:c:d:e:f:g:h)
335 */
336 public static function hexToOctet( $ip_hex ) {
337 // Pad hex to 32 chars (128 bits)
338 $ip_hex = str_pad( strtoupper( $ip_hex ), 32, '0', STR_PAD_LEFT );
339 // Separate into 8 words
340 $ip_oct = substr( $ip_hex, 0, 4 );
341 for ( $n = 1; $n < 8; $n++ ) {
342 $ip_oct .= ':' . substr( $ip_hex, 4 * $n, 4 );
343 }
344 // NO leading zeroes
345 $ip_oct = preg_replace( '/(^|:)0+(' . RE_IPV6_WORD . ')/', '$1$2', $ip_oct );
346
347 return $ip_oct;
348 }
349
350 /**
351 * Converts a hexadecimal number to an IPv4 address in quad-dotted notation
352 *
353 * @param string $ip_hex Pure hex
354 * @return string (of format a.b.c.d)
355 */
356 public static function hexToQuad( $ip_hex ) {
357 // Pad hex to 8 chars (32 bits)
358 $ip_hex = str_pad( strtoupper( $ip_hex ), 8, '0', STR_PAD_LEFT );
359 // Separate into four quads
360 $s = '';
361 for ( $i = 0; $i < 4; $i++ ) {
362 if ( $s !== '' ) {
363 $s .= '.';
364 }
365 $s .= base_convert( substr( $ip_hex, $i * 2, 2 ), 16, 10 );
366 }
367
368 return $s;
369 }
370
371 /**
372 * Determine if an IP address really is an IP address, and if it is public,
373 * i.e. not RFC 1918 or similar
374 *
375 * @param string $ip
376 * @return bool
377 */
378 public static function isPublic( $ip ) {
379 static $privateSet = null;
380 if ( !$privateSet ) {
381 $privateSet = new IPSet( [
382 '10.0.0.0/8', # RFC 1918 (private)
383 '172.16.0.0/12', # RFC 1918 (private)
384 '192.168.0.0/16', # RFC 1918 (private)
385 '0.0.0.0/8', # this network
386 '127.0.0.0/8', # loopback
387 'fc00::/7', # RFC 4193 (local)
388 '0:0:0:0:0:0:0:1', # loopback
389 '169.254.0.0/16', # link-local
390 'fe80::/10', # link-local
391 ] );
392 }
393 return !$privateSet->match( $ip );
394 }
395
396 /**
397 * Return a zero-padded upper case hexadecimal representation of an IP address.
398 *
399 * Hexadecimal addresses are used because they can easily be extended to
400 * IPv6 support. To separate the ranges, the return value from this
401 * function for an IPv6 address will be prefixed with "v6-", a non-
402 * hexadecimal string which sorts after the IPv4 addresses.
403 *
404 * @param string $ip Quad dotted/octet IP address.
405 * @return string|bool False on failure
406 */
407 public static function toHex( $ip ) {
408 if ( self::isIPv6( $ip ) ) {
409 $n = 'v6-' . self::IPv6ToRawHex( $ip );
410 } elseif ( self::isIPv4( $ip ) ) {
411 // T62035/T97897: An IP with leading 0's fails in ip2long sometimes (e.g. *.08),
412 // also double/triple 0 needs to be changed to just a single 0 for ip2long.
413 $ip = self::sanitizeIP( $ip );
414 $n = ip2long( $ip );
415 if ( $n < 0 ) {
416 $n += pow( 2, 32 );
417 # On 32-bit platforms (and on Windows), 2^32 does not fit into an int,
418 # so $n becomes a float. We convert it to string instead.
419 if ( is_float( $n ) ) {
420 $n = (string)$n;
421 }
422 }
423 if ( $n !== false ) {
424 # Floating points can handle the conversion; faster than Wikimedia\base_convert()
425 $n = strtoupper( str_pad( base_convert( $n, 10, 16 ), 8, '0', STR_PAD_LEFT ) );
426 }
427 } else {
428 $n = false;
429 }
430
431 return $n;
432 }
433
434 /**
435 * Given an IPv6 address in octet notation, returns a pure hex string.
436 *
437 * @param string $ip Octet ipv6 IP address.
438 * @return string|bool Pure hex (uppercase); false on failure
439 */
440 private static function IPv6ToRawHex( $ip ) {
441 $ip = self::sanitizeIP( $ip );
442 if ( !$ip ) {
443 return false;
444 }
445 $r_ip = '';
446 foreach ( explode( ':', $ip ) as $v ) {
447 $r_ip .= str_pad( $v, 4, 0, STR_PAD_LEFT );
448 }
449
450 return $r_ip;
451 }
452
453 /**
454 * Convert a network specification in CIDR notation
455 * to an integer network and a number of bits
456 *
457 * @param string $range IP with CIDR prefix
458 * @return array(int or string, int)
459 */
460 public static function parseCIDR( $range ) {
461 if ( self::isIPv6( $range ) ) {
462 return self::parseCIDR6( $range );
463 }
464 $parts = explode( '/', $range, 2 );
465 if ( count( $parts ) != 2 ) {
466 return [ false, false ];
467 }
468 list( $network, $bits ) = $parts;
469 $network = ip2long( $network );
470 if ( $network !== false && is_numeric( $bits ) && $bits >= 0 && $bits <= 32 ) {
471 if ( $bits == 0 ) {
472 $network = 0;
473 } else {
474 $network &= ~( ( 1 << ( 32 - $bits ) ) - 1 );
475 }
476 # Convert to unsigned
477 if ( $network < 0 ) {
478 $network += pow( 2, 32 );
479 }
480 } else {
481 $network = false;
482 $bits = false;
483 }
484
485 return [ $network, $bits ];
486 }
487
488 /**
489 * Given a string range in a number of formats,
490 * return the start and end of the range in hexadecimal.
491 *
492 * Formats are:
493 * 1.2.3.4/24 CIDR
494 * 1.2.3.4 - 1.2.3.5 Explicit range
495 * 1.2.3.4 Single IP
496 *
497 * 2001:0db8:85a3::7344/96 CIDR
498 * 2001:0db8:85a3::7344 - 2001:0db8:85a3::7344 Explicit range
499 * 2001:0db8:85a3::7344 Single IP
500 * @param string $range IP range
501 * @return array(string, string)
502 */
503 public static function parseRange( $range ) {
504 // CIDR notation
505 if ( strpos( $range, '/' ) !== false ) {
506 if ( self::isIPv6( $range ) ) {
507 return self::parseRange6( $range );
508 }
509 list( $network, $bits ) = self::parseCIDR( $range );
510 if ( $network === false ) {
511 $start = $end = false;
512 } else {
513 $start = sprintf( '%08X', $network );
514 $end = sprintf( '%08X', $network + pow( 2, ( 32 - $bits ) ) - 1 );
515 }
516 // Explicit range
517 } elseif ( strpos( $range, '-' ) !== false ) {
518 list( $start, $end ) = array_map( 'trim', explode( '-', $range, 2 ) );
519 if ( self::isIPv6( $start ) && self::isIPv6( $end ) ) {
520 return self::parseRange6( $range );
521 }
522 if ( self::isIPv4( $start ) && self::isIPv4( $end ) ) {
523 $start = self::toHex( $start );
524 $end = self::toHex( $end );
525 if ( $start > $end ) {
526 $start = $end = false;
527 }
528 } else {
529 $start = $end = false;
530 }
531 } else {
532 # Single IP
533 $start = $end = self::toHex( $range );
534 }
535 if ( $start === false || $end === false ) {
536 return [ false, false ];
537 } else {
538 return [ $start, $end ];
539 }
540 }
541
542 /**
543 * Convert a network specification in IPv6 CIDR notation to an
544 * integer network and a number of bits
545 *
546 * @param string $range
547 *
548 * @return array(string, int)
549 */
550 private static function parseCIDR6( $range ) {
551 # Explode into <expanded IP,range>
552 $parts = explode( '/', IP::sanitizeIP( $range ), 2 );
553 if ( count( $parts ) != 2 ) {
554 return [ false, false ];
555 }
556 list( $network, $bits ) = $parts;
557 $network = self::IPv6ToRawHex( $network );
558 if ( $network !== false && is_numeric( $bits ) && $bits >= 0 && $bits <= 128 ) {
559 if ( $bits == 0 ) {
560 $network = "0";
561 } else {
562 # Native 32 bit functions WONT work here!!!
563 # Convert to a padded binary number
564 $network = Wikimedia\base_convert( $network, 16, 2, 128 );
565 # Truncate the last (128-$bits) bits and replace them with zeros
566 $network = str_pad( substr( $network, 0, $bits ), 128, 0, STR_PAD_RIGHT );
567 # Convert back to an integer
568 $network = Wikimedia\base_convert( $network, 2, 10 );
569 }
570 } else {
571 $network = false;
572 $bits = false;
573 }
574
575 return [ $network, (int)$bits ];
576 }
577
578 /**
579 * Given a string range in a number of formats, return the
580 * start and end of the range in hexadecimal. For IPv6.
581 *
582 * Formats are:
583 * 2001:0db8:85a3::7344/96 CIDR
584 * 2001:0db8:85a3::7344 - 2001:0db8:85a3::7344 Explicit range
585 * 2001:0db8:85a3::7344/96 Single IP
586 *
587 * @param string $range
588 *
589 * @return array(string, string)
590 */
591 private static function parseRange6( $range ) {
592 # Expand any IPv6 IP
593 $range = IP::sanitizeIP( $range );
594 // CIDR notation...
595 if ( strpos( $range, '/' ) !== false ) {
596 list( $network, $bits ) = self::parseCIDR6( $range );
597 if ( $network === false ) {
598 $start = $end = false;
599 } else {
600 $start = Wikimedia\base_convert( $network, 10, 16, 32, false );
601 # Turn network to binary (again)
602 $end = Wikimedia\base_convert( $network, 10, 2, 128 );
603 # Truncate the last (128-$bits) bits and replace them with ones
604 $end = str_pad( substr( $end, 0, $bits ), 128, 1, STR_PAD_RIGHT );
605 # Convert to hex
606 $end = Wikimedia\base_convert( $end, 2, 16, 32, false );
607 # see toHex() comment
608 $start = "v6-$start";
609 $end = "v6-$end";
610 }
611 // Explicit range notation...
612 } elseif ( strpos( $range, '-' ) !== false ) {
613 list( $start, $end ) = array_map( 'trim', explode( '-', $range, 2 ) );
614 $start = self::toHex( $start );
615 $end = self::toHex( $end );
616 if ( $start > $end ) {
617 $start = $end = false;
618 }
619 } else {
620 # Single IP
621 $start = $end = self::toHex( $range );
622 }
623 if ( $start === false || $end === false ) {
624 return [ false, false ];
625 } else {
626 return [ $start, $end ];
627 }
628 }
629
630 /**
631 * Determine if a given IPv4/IPv6 address is in a given CIDR network
632 *
633 * @param string $addr The address to check against the given range.
634 * @param string $range The range to check the given address against.
635 * @return bool Whether or not the given address is in the given range.
636 *
637 * @note This can return unexpected results for invalid arguments!
638 * Make sure you pass a valid IP address and IP range.
639 */
640 public static function isInRange( $addr, $range ) {
641 $hexIP = self::toHex( $addr );
642 list( $start, $end ) = self::parseRange( $range );
643
644 return ( strcmp( $hexIP, $start ) >= 0 &&
645 strcmp( $hexIP, $end ) <= 0 );
646 }
647
648 /**
649 * Determines if an IP address is a list of CIDR a.b.c.d/n ranges.
650 *
651 * @since 1.25
652 *
653 * @param string $ip the IP to check
654 * @param array $ranges the IP ranges, each element a range
655 *
656 * @return bool true if the specified adress belongs to the specified range; otherwise, false.
657 */
658 public static function isInRanges( $ip, $ranges ) {
659 foreach ( $ranges as $range ) {
660 if ( self::isInRange( $ip, $range ) ) {
661 return true;
662 }
663 }
664 return false;
665 }
666
667 /**
668 * Convert some unusual representations of IPv4 addresses to their
669 * canonical dotted quad representation.
670 *
671 * This currently only checks a few IPV4-to-IPv6 related cases. More
672 * unusual representations may be added later.
673 *
674 * @param string $addr Something that might be an IP address
675 * @return string|null Valid dotted quad IPv4 address or null
676 */
677 public static function canonicalize( $addr ) {
678 // remove zone info (bug 35738)
679 $addr = preg_replace( '/\%.*/', '', $addr );
680
681 if ( self::isValid( $addr ) ) {
682 return $addr;
683 }
684 // Turn mapped addresses from ::ce:ffff:1.2.3.4 to 1.2.3.4
685 if ( strpos( $addr, ':' ) !== false && strpos( $addr, '.' ) !== false ) {
686 $addr = substr( $addr, strrpos( $addr, ':' ) + 1 );
687 if ( self::isIPv4( $addr ) ) {
688 return $addr;
689 }
690 }
691 // IPv6 loopback address
692 $m = [];
693 if ( preg_match( '/^0*' . RE_IPV6_GAP . '1$/', $addr, $m ) ) {
694 return '127.0.0.1';
695 }
696 // IPv4-mapped and IPv4-compatible IPv6 addresses
697 if ( preg_match( '/^' . RE_IPV6_V4_PREFIX . '(' . RE_IP_ADD . ')$/i', $addr, $m ) ) {
698 return $m[1];
699 }
700 if ( preg_match( '/^' . RE_IPV6_V4_PREFIX . RE_IPV6_WORD .
701 ':' . RE_IPV6_WORD . '$/i', $addr, $m )
702 ) {
703 return long2ip( ( hexdec( $m[1] ) << 16 ) + hexdec( $m[2] ) );
704 }
705
706 return null; // give up
707 }
708
709 /**
710 * Gets rid of unneeded numbers in quad-dotted/octet IP strings
711 * For example, 127.111.113.151/24 -> 127.111.113.0/24
712 * @param string $range IP address to normalize
713 * @return string
714 */
715 public static function sanitizeRange( $range ) {
716 list( /*...*/, $bits ) = self::parseCIDR( $range );
717 list( $start, /*...*/ ) = self::parseRange( $range );
718 $start = self::formatHex( $start );
719 if ( $bits === false ) {
720 return $start; // wasn't actually a range
721 }
722
723 return "$start/$bits";
724 }
725
726 /**
727 * Returns the subnet of a given IP
728 *
729 * @param string $ip
730 * @return string|false
731 */
732 public static function getSubnet( $ip ) {
733 $matches = [];
734 $subnet = false;
735 if ( IP::isIPv6( $ip ) ) {
736 $parts = IP::parseRange( "$ip/64" );
737 $subnet = $parts[0];
738 } elseif ( preg_match( '/^(\d+\.\d+\.\d+)\.\d+$/', $ip, $matches ) ) {
739 // IPv4
740 $subnet = $matches[1];
741 }
742 return $subnet;
743 }
744 }
MediaWiki Core