2 * Copyright 2017 Facebook, Inc.
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
17 #include <folly/IPAddressV6.h>
22 #include <folly/Format.h>
23 #include <folly/IPAddress.h>
24 #include <folly/IPAddressV4.h>
25 #include <folly/MacAddress.h>
26 #include <folly/detail/IPAddressSource.h>
31 // Because of the massive pain that is libnl, this can't go into the socket
32 // portability header as you can't include <linux/if.h> and <net/if.h> in
33 // the same translation unit without getting errors -_-...
34 #include <iphlpapi.h> // @manual
35 #include <ntddndis.h> // @manual
37 // Alias the max size of an interface name to what posix expects.
38 #define IFNAMSIZ IF_NAMESIZE
46 // public static const
47 const uint32_t IPAddressV6::PREFIX_TEREDO = 0x20010000;
48 const uint32_t IPAddressV6::PREFIX_6TO4 = 0x2002;
51 size_t hash_value(const IPAddressV6& addr) {
54 ostream& operator<<(ostream& os, const IPAddressV6& addr) {
58 void toAppend(IPAddressV6 addr, string* result) {
59 result->append(addr.str());
61 void toAppend(IPAddressV6 addr, fbstring* result) {
62 result->append(addr.str());
65 bool IPAddressV6::validate(StringPiece ip) {
66 if (ip.size() > 0 && ip.front() == '[' && ip.back() == ']') {
67 ip = ip.subpiece(1, ip.size() - 2);
70 constexpr size_t kStrMaxLen = INET6_ADDRSTRLEN;
71 std::array<char, kStrMaxLen + 1> ip_cstr;
72 const size_t len = std::min(ip.size(), kStrMaxLen);
73 std::memcpy(ip_cstr.data(), ip.data(), len);
76 return 1 == inet_pton(AF_INET6, ip_cstr.data(), &addr);
79 // public default constructor
80 IPAddressV6::IPAddressV6() {}
82 // public string constructor
83 IPAddressV6::IPAddressV6(StringPiece addr) {
86 // Allow addresses surrounded in brackets
88 throw IPAddressFormatException(
89 sformat("Invalid IPv6 address '{}': address too short", ip));
91 if (ip.front() == '[' && ip.back() == ']') {
92 ip = ip.substr(1, ip.size() - 2);
95 struct addrinfo* result;
96 struct addrinfo hints;
97 memset(&hints, 0, sizeof(hints));
98 hints.ai_family = AF_INET6;
99 hints.ai_socktype = SOCK_STREAM;
100 hints.ai_flags = AI_NUMERICHOST;
101 if (!getaddrinfo(ip.c_str(), nullptr, &hints, &result)) {
102 struct sockaddr_in6* ipAddr = (struct sockaddr_in6*)result->ai_addr;
103 addr_.in6Addr_ = ipAddr->sin6_addr;
104 scope_ = uint16_t(ipAddr->sin6_scope_id);
105 freeaddrinfo(result);
107 throw IPAddressFormatException(sformat("Invalid IPv6 address '{}'", ip));
111 // in6_addr constructor
112 IPAddressV6::IPAddressV6(const in6_addr& src) : addr_(src) {}
114 // sockaddr_in6 constructor
115 IPAddressV6::IPAddressV6(const sockaddr_in6& src)
116 : addr_(src.sin6_addr), scope_(uint16_t(src.sin6_scope_id)) {}
118 // ByteArray16 constructor
119 IPAddressV6::IPAddressV6(const ByteArray16& src) : addr_(src) {}
121 // link-local constructor
122 IPAddressV6::IPAddressV6(LinkLocalTag, MacAddress mac) : addr_(mac) {}
124 IPAddressV6::AddressStorage::AddressStorage(MacAddress mac) {
125 // The link-local address uses modified EUI-64 format,
126 // See RFC 4291 sections 2.5.1, 2.5.6, and Appendix A
127 const auto* macBytes = mac.bytes();
128 memcpy(&bytes_.front(), "\xfe\x80\x00\x00\x00\x00\x00\x00", 8);
129 bytes_[8] = uint8_t(macBytes[0] ^ 0x02);
130 bytes_[9] = macBytes[1];
131 bytes_[10] = macBytes[2];
134 bytes_[13] = macBytes[3];
135 bytes_[14] = macBytes[4];
136 bytes_[15] = macBytes[5];
139 Optional<MacAddress> IPAddressV6::getMacAddressFromLinkLocal() const {
140 // Returned MacAddress must be constructed from a link-local IPv6 address.
141 if (!isLinkLocal()) {
144 return getMacAddressFromEUI64();
147 Optional<MacAddress> IPAddressV6::getMacAddressFromEUI64() const {
148 if (!(addr_.bytes_[11] == 0xff && addr_.bytes_[12] == 0xfe)) {
151 // The auto configured address uses modified EUI-64 format,
152 // See RFC 4291 sections 2.5.1, 2.5.6, and Appendix A
153 std::array<uint8_t, MacAddress::SIZE> bytes;
154 // Step 1: first 8 bytes are network prefix, and can be stripped
155 // Step 2: invert the universal/local (U/L) flag (bit 7)
156 bytes[0] = addr_.bytes_[8] ^ 0x02;
157 // Step 3: copy these bytes as they are
158 bytes[1] = addr_.bytes_[9];
159 bytes[2] = addr_.bytes_[10];
160 // Step 4: strip bytes (0xfffe), which are bytes_[11] and bytes_[12]
161 // Step 5: copy the rest.
162 bytes[3] = addr_.bytes_[13];
163 bytes[4] = addr_.bytes_[14];
164 bytes[5] = addr_.bytes_[15];
165 return Optional<MacAddress>(MacAddress::fromBinary(range(bytes)));
168 void IPAddressV6::setFromBinary(ByteRange bytes) {
169 if (bytes.size() != 16) {
170 throw IPAddressFormatException(sformat(
171 "Invalid IPv6 binary data: length must be 16 bytes, got {}",
174 memcpy(&addr_.in6Addr_.s6_addr, bytes.data(), sizeof(in6_addr));
179 IPAddressV6 IPAddressV6::fromInverseArpaName(const std::string& arpaname) {
180 auto piece = StringPiece(arpaname);
181 if (!piece.removeSuffix(".ip6.arpa")) {
182 throw IPAddressFormatException(sformat(
183 "Invalid input. Should end with 'ip6.arpa'. Got '{}'", arpaname));
185 std::vector<StringPiece> pieces;
186 split(".", piece, pieces);
187 if (pieces.size() != 32) {
188 throw IPAddressFormatException(sformat("Invalid input. Got '{}'", piece));
190 std::array<char, IPAddressV6::kToFullyQualifiedSize> ip;
193 for (size_t i = 1; i <= pieces.size(); i++) {
194 ip[pos] = pieces[pieces.size() - i][0];
197 // add ':' every 4 chars
198 if (count == 4 && pos < ip.size()) {
203 return IPAddressV6(folly::range(ip));
207 IPAddressV4 IPAddressV6::createIPv4() const {
208 if (!isIPv4Mapped()) {
209 throw IPAddressFormatException("addr is not v4-to-v6-mapped");
211 const unsigned char* by = bytes();
212 return IPAddressV4(detail::Bytes::mkAddress4(&by[12]));
215 // convert two uint8_t bytes into a uint16_t as hibyte.lobyte
216 static inline uint16_t unpack(uint8_t lobyte, uint8_t hibyte) {
217 return uint16_t((uint16_t(hibyte) << 8) | lobyte);
220 // given a src string, unpack count*2 bytes into dest
221 // dest must have as much storage as count
223 unpackInto(const unsigned char* src, uint16_t* dest, size_t count) {
224 for (size_t i = 0, hi = 1, lo = 0; i < count; i++) {
225 dest[i] = unpack(src[hi], src[lo]);
232 IPAddressV4 IPAddressV6::getIPv4For6To4() const {
234 throw IPAddressV6::TypeError(
235 sformat("Invalid IP '{}': not a 6to4 address", str()));
237 // convert 16x8 bytes into first 4x16 bytes
238 uint16_t ints[4] = {0, 0, 0, 0};
239 unpackInto(bytes(), ints, 4);
242 unsigned char bytes[4];
245 ipv4.bytes[0] = (uint8_t)((ints[1] & 0xFF00) >> 8);
246 ipv4.bytes[1] = (uint8_t)(ints[1] & 0x00FF);
247 ipv4.bytes[2] = (uint8_t)((ints[2] & 0xFF00) >> 8);
248 ipv4.bytes[3] = (uint8_t)(ints[2] & 0x00FF);
249 return IPAddressV4(ipv4.addr);
253 bool IPAddressV6::isIPv4Mapped() const {
254 // v4 mapped addresses have their first 10 bytes set to 0, the next 2 bytes
255 // set to 255 (0xff);
256 const unsigned char* by = bytes();
258 // check if first 10 bytes are 0
259 for (int i = 0; i < 10; i++) {
264 // check if bytes 11 and 12 are 255
265 if (by[10] == 0xff && by[11] == 0xff) {
272 IPAddressV6::Type IPAddressV6::type() const {
273 // convert 16x8 bytes into first 2x16 bytes
274 uint16_t ints[2] = {0, 0};
275 unpackInto(bytes(), ints, 2);
277 if ((((uint32_t)ints[0] << 16) | ints[1]) == IPAddressV6::PREFIX_TEREDO) {
281 if ((uint32_t)ints[0] == IPAddressV6::PREFIX_6TO4) {
289 string IPAddressV6::toJson() const {
290 return sformat("{{family:'AF_INET6', addr:'{}', hash:{}}}", str(), hash());
294 size_t IPAddressV6::hash() const {
295 if (isIPv4Mapped()) {
296 /* An IPAddress containing this object would be equal (i.e. operator==)
297 to an IPAddress containing the corresponding IPv4.
298 So we must make sure that the hash values are the same as well */
299 return IPAddress::createIPv4(*this).hash();
302 static const uint64_t seed = AF_INET6;
303 uint64_t hash1 = 0, hash2 = 0;
304 hash::SpookyHashV2::Hash128(&addr_, 16, &hash1, &hash2);
305 return hash::hash_combine(seed, hash1, hash2);
309 bool IPAddressV6::inSubnet(StringPiece cidrNetwork) const {
310 auto subnetInfo = IPAddress::createNetwork(cidrNetwork);
311 auto addr = subnetInfo.first;
313 throw IPAddressFormatException(
314 sformat("Address '{}' is not a V6 address", addr.toJson()));
316 return inSubnetWithMask(addr.asV6(), fetchMask(subnetInfo.second));
320 bool IPAddressV6::inSubnetWithMask(
321 const IPAddressV6& subnet,
322 const ByteArray16& cidrMask) const {
323 const auto mask = detail::Bytes::mask(toByteArray(), cidrMask);
324 const auto subMask = detail::Bytes::mask(subnet.toByteArray(), cidrMask);
325 return (mask == subMask);
329 bool IPAddressV6::isLoopback() const {
330 // Check if v4 mapped is loopback
331 if (isIPv4Mapped() && createIPv4().isLoopback()) {
334 auto socka = toSockAddr();
335 return IN6_IS_ADDR_LOOPBACK(&socka.sin6_addr);
338 bool IPAddressV6::isRoutable() const {
340 // 2000::/3 is the only assigned global unicast block
341 inBinarySubnet({{0x20, 0x00}}, 3) ||
342 // ffxe::/16 are global scope multicast addresses,
343 // which are eligible to be routed over the internet
344 (isMulticast() && getMulticastScope() == 0xe);
347 bool IPAddressV6::isLinkLocalBroadcast() const {
348 static const IPAddressV6 kLinkLocalBroadcast("ff02::1");
349 return *this == kLinkLocalBroadcast;
353 bool IPAddressV6::isPrivate() const {
354 // Check if mapped is private
355 if (isIPv4Mapped() && createIPv4().isPrivate()) {
358 return isLoopback() || inBinarySubnet({{0xfc, 0x00}}, 7);
362 bool IPAddressV6::isLinkLocal() const {
363 return inBinarySubnet({{0xfe, 0x80}}, 10);
366 bool IPAddressV6::isMulticast() const {
367 return addr_.bytes_[0] == 0xff;
370 uint8_t IPAddressV6::getMulticastFlags() const {
371 DCHECK(isMulticast());
372 return uint8_t((addr_.bytes_[1] >> 4) & 0xf);
375 uint8_t IPAddressV6::getMulticastScope() const {
376 DCHECK(isMulticast());
377 return uint8_t(addr_.bytes_[1] & 0xf);
380 IPAddressV6 IPAddressV6::getSolicitedNodeAddress() const {
381 // Solicted node addresses must be constructed from unicast (or anycast)
383 DCHECK(!isMulticast());
385 uint8_t bytes[16] = {
403 return IPAddressV6::fromBinary(ByteRange(bytes, 16));
407 IPAddressV6 IPAddressV6::mask(size_t numBits) const {
408 static const auto bits = bitCount();
409 if (numBits > bits) {
410 throw IPAddressFormatException(
411 sformat("numBits({}) > bitCount({})", numBits, bits));
413 ByteArray16 ba = detail::Bytes::mask(fetchMask(numBits), addr_.bytes_);
414 return IPAddressV6(ba);
418 string IPAddressV6::str() const {
419 char buffer[INET6_ADDRSTRLEN + IFNAMSIZ + 1];
421 if (!inet_ntop(AF_INET6, toAddr().s6_addr, buffer, INET6_ADDRSTRLEN)) {
422 throw IPAddressFormatException(sformat(
423 "Invalid address with hex '{}' with error {}",
424 detail::Bytes::toHex(bytes(), 16),
428 auto scopeId = getScopeId();
430 auto len = strlen(buffer);
434 if (!if_indextoname(scopeId, buffer + len + 1)) {
435 // if we can't map the if because eg. it no longer exists,
436 // append the if index instead
437 snprintf(buffer + len + 1, IFNAMSIZ, "%u", scopeId);
442 return string(buffer);
446 string IPAddressV6::toFullyQualified() const {
447 return detail::fastIpv6ToString(addr_.in6Addr_);
451 void IPAddressV6::toFullyQualifiedAppend(std::string& out) const {
452 detail::fastIpv6AppendToString(addr_.in6Addr_, out);
456 string IPAddressV6::toInverseArpaName() const {
457 constexpr folly::StringPiece lut = "0123456789abcdef";
458 std::array<char, 32> a;
460 for (int i = 15; i >= 0; i--) {
461 a[j] = (lut[bytes()[i] & 0xf]);
462 a[j + 1] = (lut[bytes()[i] >> 4]);
465 return sformat("{}.ip6.arpa", join(".", a));
469 uint8_t IPAddressV6::getNthMSByte(size_t byteIndex) const {
470 const auto highestIndex = byteCount() - 1;
471 if (byteIndex > highestIndex) {
472 throw std::invalid_argument(sformat(
473 "Byte index must be <= {} for addresses of type: {}",
475 detail::familyNameStr(AF_INET6)));
477 return bytes()[byteIndex];
481 const ByteArray16 IPAddressV6::fetchMask(size_t numBits) {
482 static const size_t bits = bitCount();
483 if (numBits > bits) {
484 throw IPAddressFormatException("IPv6 addresses are 128 bits.");
489 constexpr auto _0s = uint64_t(0);
490 constexpr auto _1s = ~_0s;
491 auto const fragment = Endian::big(_1s << ((128 - numBits) % 64));
492 auto const hi = numBits <= 64 ? fragment : _1s;
493 auto const lo = numBits <= 64 ? _0s : fragment;
494 uint64_t const parts[] = {hi, lo};
496 std::memcpy(arr.data(), parts, sizeof(parts));
501 CIDRNetworkV6 IPAddressV6::longestCommonPrefix(
502 const CIDRNetworkV6& one,
503 const CIDRNetworkV6& two) {
504 auto prefix = detail::Bytes::longestCommonPrefix(
505 one.first.addr_.bytes_, one.second, two.first.addr_.bytes_, two.second);
506 return {IPAddressV6(prefix.first), prefix.second};
510 bool IPAddressV6::inBinarySubnet(
511 const std::array<uint8_t, 2> addr,
512 size_t numBits) const {
513 auto masked = mask(numBits);
514 return (std::memcmp(addr.data(), masked.bytes(), 2) == 0);