/* * Copyright (c) Facebook, Inc. and its affiliates. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #pragma once #include #include #include #include #include #include #include #include #include #include namespace folly { class IPAddress; class IPAddressV4; class IPAddressV6; /** * Pair of IPAddressV4, netmask */ typedef std::pair CIDRNetworkV4; /** * Specialization for IPv4 addresses */ typedef std::array ByteArray4; /** * IPv4 variation of IPAddress. * * Added methods: toLong, toLongHBO and createIPv6 * * @note toLong/fromLong deal in network byte order, use toLongHBO/fromLongHBO * if working in host byte order. * * @see IPAddress */ class IPAddressV4 { public: // Max size of std::string returned by toFullyQualified. static constexpr size_t kMaxToFullyQualifiedSize = 4 /*words*/ * 3 /*max chars per word*/ + 3 /*separators*/; // returns true iff the input string can be parsed as an ipv4-address static bool validate(StringPiece ip) noexcept; // create an IPAddressV4 instance from a uint32_t (network byte order) static IPAddressV4 fromLong(uint32_t src); // same as above but host byte order static IPAddressV4 fromLongHBO(uint32_t src); /** * Create a new IPAddress instance from the provided binary data. * @throws IPAddressFormatException if the input length is not 4 bytes. */ static IPAddressV4 fromBinary(ByteRange bytes); /** * Non-throwing version of fromBinary(). * On failure returns IPAddressFormatError. */ static Expected tryFromBinary( ByteRange bytes) noexcept; /** * Tries to create a new IPAddressV4 instance from provided string and * returns it on success. Returns IPAddressFormatError on failure. */ static Expected tryFromString( StringPiece str) noexcept; /** * Returns the address as a Range. */ ByteRange toBinary() const { return ByteRange((const unsigned char*)&addr_.inAddr_.s_addr, 4); } /** * Create a new IPAddress instance from the in-addr.arpa representation. * @throws IPAddressFormatException if the input is not a valid in-addr.arpa * representation */ static IPAddressV4 fromInverseArpaName(const std::string& arpaname); /** * Convert a IPv4 address string to a long in network byte order. * @param [in] ip the address to convert * @return the long representation of the address */ static uint32_t toLong(StringPiece ip); // Same as above, but in host byte order. // This is slightly slower than toLong. static uint32_t toLongHBO(StringPiece ip); /** * Default constructor for IPAddressV4. * * The address value will be 0.0.0.0 */ IPAddressV4(); // Create an IPAddressV4 from a string // @throws IPAddressFormatException explicit IPAddressV4(StringPiece addr); // ByteArray4 constructor explicit IPAddressV4(const ByteArray4& src) noexcept; // in_addr constructor explicit IPAddressV4(const in_addr src) noexcept; // Return the V6 mapped representation of the address. IPAddressV6 createIPv6() const; /** * Return a V6 address in the format of an 6To4 address. */ IPAddressV6 getIPv6For6To4() const; // Return the long (network byte order) representation of the address. uint32_t toLong() const { return toAddr().s_addr; } // Return the long (host byte order) representation of the address. // This is slightly slower than toLong. uint32_t toLongHBO() const { return ntohl(toLong()); } /** * @see IPAddress#bitCount * @returns 32 */ static constexpr size_t bitCount() { return 32; } /** * @See IPAddress#toJson */ std::string toJson() const; size_t hash() const { static const uint32_t seed = AF_INET; uint32_t hashed = hash::fnv32_buf(&addr_, 4); return hash::hash_combine(seed, hashed); } // @see IPAddress#inSubnet // @throws IPAddressFormatException if string doesn't contain a V4 address bool inSubnet(StringPiece cidrNetwork) const; // return true if address is in subnet bool inSubnet(const IPAddressV4& subnet, uint8_t cidr) const { return inSubnetWithMask(subnet, fetchMask(cidr)); } bool inSubnetWithMask(const IPAddressV4& subnet, const ByteArray4 mask) const; // @see IPAddress#isLoopback bool isLoopback() const; // @see IPAddress#isLinkLocal bool isLinkLocal() const; // @see IPAddress#isNonroutable bool isNonroutable() const; // @see IPAddress#isPrivate bool isPrivate() const; // @see IPAddress#isMulticast bool isMulticast() const; // @see IPAddress#isZero bool isZero() const { constexpr auto zero = ByteArray4{{}}; return 0 == std::memcmp(bytes(), zero.data(), zero.size()); } bool isLinkLocalBroadcast() const { return (INADDR_BROADCAST == toLongHBO()); } // @see IPAddress#mask IPAddressV4 mask(size_t numBits) const; // @see IPAddress#str std::string str() const; std::string toInverseArpaName() const; // return underlying in_addr structure in_addr toAddr() const { return addr_.inAddr_; } sockaddr_in toSockAddr() const { sockaddr_in addr; memset(&addr, 0, sizeof(sockaddr_in)); addr.sin_family = AF_INET; memcpy(&addr.sin_addr, &addr_.inAddr_, sizeof(in_addr)); return addr; } ByteArray4 toByteArray() const { ByteArray4 ba{{0}}; std::memcpy(ba.data(), bytes(), 4); return ba; } // @see IPAddress#toFullyQualified std::string toFullyQualified() const { return str(); } // @see IPAddress#toFullyQualifiedAppend void toFullyQualifiedAppend(std::string& out) const; // @see IPAddress#version uint8_t version() const { return 4; } /** * Return the mask associated with the given number of bits. * If for instance numBits was 24 (e.g. /24) then the V4 mask returned should * be {0xff, 0xff, 0xff, 0x00}. * @param [in] numBits bitmask to retrieve * @throws abort if numBits == 0 or numBits > bitCount() * @return mask associated with numBits */ static ByteArray4 fetchMask(size_t numBits); // Given 2 IPAddressV4, mask pairs extract the longest common IPAddress, // mask pair static CIDRNetworkV4 longestCommonPrefix( const CIDRNetworkV4& one, const CIDRNetworkV4& two); // Number of bytes in the address representation. static size_t byteCount() { return 4; } // get nth most significant bit - 0 indexed bool getNthMSBit(size_t bitIndex) const { return detail::getNthMSBitImpl(*this, bitIndex, AF_INET); } // get nth most significant byte - 0 indexed uint8_t getNthMSByte(size_t byteIndex) const; // get nth bit - 0 indexed bool getNthLSBit(size_t bitIndex) const { return getNthMSBit(bitCount() - bitIndex - 1); } // get nth byte - 0 indexed uint8_t getNthLSByte(size_t byteIndex) const { return getNthMSByte(byteCount() - byteIndex - 1); } const unsigned char* bytes() const { return addr_.bytes_.data(); } private: union AddressStorage { static_assert( sizeof(in_addr) == sizeof(ByteArray4), "size of in_addr and ByteArray4 are different"); in_addr inAddr_; ByteArray4 bytes_; AddressStorage() { std::memset(this, 0, sizeof(AddressStorage)); } explicit AddressStorage(const ByteArray4 bytes) : bytes_(bytes) {} explicit AddressStorage(const in_addr addr) : inAddr_(addr) {} } addr_; /** * Set the current IPAddressV4 object to have the address specified by bytes. * Returns IPAddressFormatError if bytes.size() is not 4. */ Expected trySetFromBinary( ByteRange bytes) noexcept; }; // boost::hash uses hash_value() so this allows boost::hash to work // automatically for IPAddressV4 size_t hash_value(const IPAddressV4& addr); std::ostream& operator<<(std::ostream& os, const IPAddressV4& addr); // Define toAppend() to allow IPAddressV4 to be used with to void toAppend(IPAddressV4 addr, std::string* result); void toAppend(IPAddressV4 addr, fbstring* result); /** * Return true if two addresses are equal. */ inline bool operator==(const IPAddressV4& addr1, const IPAddressV4& addr2) { return (addr1.toLong() == addr2.toLong()); } // Return true if addr1 < addr2 inline bool operator<(const IPAddressV4& addr1, const IPAddressV4& addr2) { return (addr1.toLongHBO() < addr2.toLongHBO()); } // Derived operators inline bool operator!=(const IPAddressV4& a, const IPAddressV4& b) { return !(a == b); } inline bool operator>(const IPAddressV4& a, const IPAddressV4& b) { return b < a; } inline bool operator<=(const IPAddressV4& a, const IPAddressV4& b) { return !(a > b); } inline bool operator>=(const IPAddressV4& a, const IPAddressV4& b) { return !(a < b); } } // namespace folly namespace std { template <> struct hash { size_t operator()(const folly::IPAddressV4 addr) const { return addr.hash(); } }; } // namespace std