mirror of
https://github.com/ecency/ecency-mobile.git
synced 2024-12-22 12:51:42 +03:00
464 lines
14 KiB
C++
464 lines
14 KiB
C++
/*
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* Copyright 2016 Facebook, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#pragma once
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#include <functional>
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#include <iosfwd>
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#include <memory>
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#include <string>
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#include <utility> // std::pair
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#include <folly/Range.h>
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#include <folly/IPAddressException.h>
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#include <folly/IPAddressV4.h>
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#include <folly/IPAddressV6.h>
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#include <folly/detail/IPAddress.h>
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namespace folly {
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class IPAddress;
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/**
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* Pair of IPAddress, netmask
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*/
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typedef std::pair<IPAddress, uint8_t> CIDRNetwork;
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/**
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* Provides a unified interface for IP addresses.
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*
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* @note If you compare 2 IPAddress instances, v4-to-v6-mapped addresses are
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* compared as V4 addresses.
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*
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* @note toLong/fromLong deal in network byte order, use toLongHBO/fromLongHBO
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* if working in host byte order.
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*
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* Example usage:
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* @code
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* IPAddress v4addr("192.0.2.129");
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* IPAddress v6map("::ffff:192.0.2.129");
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* CHECK(v4addr.inSubnet("192.0.2.0/24") ==
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* v4addr.inSubnet(IPAddress("192.0.2.0"), 24));
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* CHECK(v4addr.inSubnet("192.0.2.128/30"));
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* CHECK(!v4addr.inSubnet("192.0.2.128/32"));
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* CHECK(v4addr.asV4().toLong() == 2164392128);
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* CHECK(v4addr.asV4().toLongHBO() == 3221226113);
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* CHECK(v4addr.isV4());
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* CHECK(v6addr.isV6());
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* CHECK(v4addr == v6map);
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* CHECK(v6map.isIPv4Mapped());
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* CHECK(v4addr.asV4() == IPAddress::createIPv4(v6map));
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* CHECK(IPAddress::createIPv6(v4addr) == v6map.asV6());
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* @encode
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*/
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class IPAddress {
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public:
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// returns true iff the input string can be parsed as an ip-address
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static bool validate(StringPiece ip);
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// return the V4 representation of the address, converting it from V6 to V4 if
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// needed. Note that this will throw an IPAddressFormatException if the V6
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// address is not IPv4Mapped.
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static IPAddressV4 createIPv4(const IPAddress& addr);
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// return the V6 representation of the address, converting it from V4 to V6 if
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// needed.
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static IPAddressV6 createIPv6(const IPAddress& addr);
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/**
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* Create a network and mask from a CIDR formatted address string.
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* @param [in] ipSlashCidr IP/CIDR formatted string to split
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* @param [in] defaultCidr default value if no /N specified (if defaultCidr
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* is -1, will use /32 for IPv4 and /128 for IPv6)
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* @param [in] mask apply mask on the address or not,
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* e.g. 192.168.13.46/24 => 192.168.13.0/24
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* @throws IPAddressFormatException if invalid address
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* @return pair with IPAddress network and uint8_t mask
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*/
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static CIDRNetwork createNetwork(
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StringPiece ipSlashCidr, int defaultCidr = -1, bool mask = true);
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/**
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* Return a string representation of a CIDR block created with createNetwork.
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* @param [in] network, pair of address and cidr
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*
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* @return string representing the netblock
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*/
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static std::string networkToString(const CIDRNetwork& network);
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/**
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* Create a new IPAddress instance from the provided binary data
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* in network byte order.
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* @throws IPAddressFormatException if len is not 4 or 16
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*/
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static IPAddress fromBinary(ByteRange bytes);
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/**
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* Create an IPAddress from a 32bit long (network byte order).
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* @throws IPAddressFormatException
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*/
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static IPAddress fromLong(uint32_t src);
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// Same as above, but host byte order
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static IPAddress fromLongHBO(uint32_t src);
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// Given 2 IPAddress,mask pairs extract the longest common IPAddress,
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// mask pair
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static CIDRNetwork longestCommonPrefix(const CIDRNetwork& one,
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const CIDRNetwork& two);
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/**
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* Constructs an uninitialized IPAddress.
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*/
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IPAddress();
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/**
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* Parse an IPAddress from a string representation.
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*
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* Formats accepted are exactly the same as the ones accepted by inet_pton(),
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* using AF_INET6 if the string contains colons, and AF_INET otherwise;
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* with the exception that the whole address can optionally be enclosed
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* in square brackets.
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*
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* @throws IPAddressFormatException
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*/
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explicit IPAddress(StringPiece ip);
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/**
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* Create an IPAddress from a sockaddr.
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* @throws IPAddressFormatException if nullptr or not AF_INET or AF_INET6
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*/
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explicit IPAddress(const sockaddr* addr);
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// Create an IPAddress from a V4 address
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/* implicit */ IPAddress(const IPAddressV4 ipV4Addr);
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/* implicit */ IPAddress(const in_addr addr);
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// Create an IPAddress from a V6 address
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/* implicit */ IPAddress(const IPAddressV6& ipV6Addr);
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/* implicit */ IPAddress(const in6_addr& addr);
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// Assign from V4 address
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IPAddress& operator=(const IPAddressV4& ipV4Addr);
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// Assign from V6 address
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IPAddress& operator=(const IPAddressV6& ipV6Addr);
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/**
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* Converts an IPAddress to an IPAddressV4 instance.
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* @note This is not some handy convenience wrapper to convert an IPv4 address
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* to a mapped IPv6 address. If you want that use
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* IPAddress::createIPv6(addr)
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* @throws IPAddressFormatException is not a V4 instance
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*/
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const IPAddressV4& asV4() const {
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if (UNLIKELY(!isV4())) {
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asV4Throw();
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}
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return addr_.ipV4Addr;
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}
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/**
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* Converts an IPAddress to an IPAddressV6 instance.
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* @throws InvalidAddressFamilyException is not a V6 instance
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*/
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const IPAddressV6& asV6() const {
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if (UNLIKELY(!isV6())) {
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asV6Throw();
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}
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return addr_.ipV6Addr;
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}
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// Return sa_family_t of IPAddress
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sa_family_t family() const { return family_; }
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// Populate sockaddr_storage with an appropriate value
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int toSockaddrStorage(sockaddr_storage *dest, uint16_t port = 0) const {
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if (dest == nullptr) {
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throw IPAddressFormatException("dest must not be null");
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}
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memset(dest, 0, sizeof(sockaddr_storage));
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dest->ss_family = family();
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if (isV4()) {
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sockaddr_in *sin = reinterpret_cast<sockaddr_in*>(dest);
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sin->sin_addr = asV4().toAddr();
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sin->sin_port = port;
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#if defined(__APPLE__)
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sin->sin_len = sizeof(*sin);
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#endif
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return sizeof(*sin);
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} else if (isV6()) {
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sockaddr_in6 *sin = reinterpret_cast<sockaddr_in6*>(dest);
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sin->sin6_addr = asV6().toAddr();
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sin->sin6_port = port;
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sin->sin6_scope_id = asV6().getScopeId();
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#if defined(__APPLE__)
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sin->sin6_len = sizeof(*sin);
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#endif
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return sizeof(*sin);
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} else {
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throw InvalidAddressFamilyException(family());
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}
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}
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/**
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* Check if the address is found in the specified CIDR netblock.
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*
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* This will return false if the specified cidrNet is V4, but the address is
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* V6. It will also return false if the specified cidrNet is V6 but the
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* address is V4. This method will do the right thing in the case of a v6
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* mapped v4 address.
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*
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* @note This is slower than the below counterparts. If perf is important use
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* one of the two argument variations below.
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* @param [in] ipSlashCidr address in "192.168.1.0/24" format
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* @throws IPAddressFormatException if no /mask
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* @return true if address is part of specified subnet with cidr
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*/
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bool inSubnet(StringPiece ipSlashCidr) const;
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/**
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* Check if an IPAddress belongs to a subnet.
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* @param [in] subnet Subnet to check against (e.g. 192.168.1.0)
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* @param [in] cidr CIDR for subnet (e.g. 24 for /24)
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* @return true if address is part of specified subnet with cidr
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*/
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bool inSubnet(const IPAddress& subnet, uint8_t cidr) const;
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/**
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* Check if an IPAddress belongs to the subnet with the given mask.
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* This is the same as inSubnet but the mask is provided instead of looked up
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* from the cidr.
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* @param [in] subnet Subnet to check against
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* @param [in] mask The netmask for the subnet
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* @return true if address is part of the specified subnet with mask
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*/
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bool inSubnetWithMask(const IPAddress& subnet, ByteRange mask) const;
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// @return true if address is a v4 mapped address
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bool isIPv4Mapped() const {
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return isV6() && asV6().isIPv4Mapped();
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}
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// @return true if address is uninitialized
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bool empty() const { return (family_ == AF_UNSPEC); }
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// @return true if address is initialized
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explicit operator bool() const { return !empty(); }
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// @return true if this is an IPAddressV4 instance
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bool isV4() const { return (family_ == AF_INET); }
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// @return true if this is an IPAddressV6 instance
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bool isV6() const { return (family_ == AF_INET6); }
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// @return true if this address is all zeros
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bool isZero() const {
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return isV4() ? asV4().isZero()
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: asV6().isZero();
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}
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// Number of bits in the address representation.
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size_t bitCount() const {
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return isV4() ? IPAddressV4::bitCount()
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: IPAddressV6::bitCount();
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}
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// Number of bytes in the address representation.
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size_t byteCount() const {
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return bitCount() / 8;
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}
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//get nth most significant bit - 0 indexed
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bool getNthMSBit(size_t bitIndex) const {
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return detail::getNthMSBitImpl(*this, bitIndex, family());
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}
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//get nth most significant byte - 0 indexed
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uint8_t getNthMSByte(size_t byteIndex) const;
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//get nth bit - 0 indexed
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bool getNthLSBit(size_t bitIndex) const {
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return getNthMSBit(bitCount() - bitIndex - 1);
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}
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//get nth byte - 0 indexed
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uint8_t getNthLSByte(size_t byteIndex) const {
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return getNthMSByte(byteCount() - byteIndex - 1);
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}
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/**
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* Get human-readable string representation of the address.
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*
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* This prints a string representation of the address, for human consumption
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* or logging. The string will take the form of a JSON object that looks like:
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* {family:'AF_INET|AF_INET6', addr:'address', hash:long}.
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*/
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std::string toJson() const {
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return isV4() ? asV4().toJson()
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: asV6().toJson();
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}
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// Hash of address
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std::size_t hash() const {
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return isV4() ? asV4().hash()
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: asV6().hash();
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}
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// Return true if the address qualifies as localhost.
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bool isLoopback() const {
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return isV4() ? asV4().isLoopback()
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: asV6().isLoopback();
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}
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// Return true if the address qualifies as link local
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bool isLinkLocal() const {
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return isV4() ? asV4().isLinkLocal()
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: asV6().isLinkLocal();
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}
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// Return true if the address qualifies as broadcast.
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bool isLinkLocalBroadcast() const {
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return isV4() ? asV4().isLinkLocalBroadcast()
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: asV6().isLinkLocalBroadcast();
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}
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/**
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* Return true if the address is a special purpose address, as per rfc6890
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* (i.e. 0.0.0.0).
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* For V6, true if the address is not in one of global scope blocks:
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* 2000::/3, ffxe::/16.
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*/
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bool isNonroutable() const {
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return isV4() ? asV4().isNonroutable()
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: asV6().isNonroutable();
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}
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/**
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* Return true if the address is private, as per rfc1918 and rfc4193
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* (for example, 192.168.xxx.xxx or fc00::/7 addresses)
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*/
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bool isPrivate() const {
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return isV4() ? asV4().isPrivate()
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: asV6().isPrivate();
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}
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// Return true if the address is a multicast address.
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bool isMulticast() const {
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return isV4() ? asV4().isMulticast()
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: asV6().isMulticast();
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}
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/**
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* Creates IPAddress instance with all but most significant numBits set to 0.
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* @param [in] numBits number of bits to mask
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* @throws abort if numBits > bitCount()
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* @return IPAddress instance with bits set to 0
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*/
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IPAddress mask(uint8_t numBits) const {
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return isV4() ? IPAddress(asV4().mask(numBits))
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: IPAddress(asV6().mask(numBits));
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}
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/**
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* Provides a string representation of address.
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* @note The string representation is calculated on demand.
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* @throws IPAddressFormatException on inet_ntop error
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*/
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std::string str() const {
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return isV4() ? asV4().str()
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: asV6().str();
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}
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/**
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* Return the fully qualified string representation of the address.
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* For V4 addresses this is the same as calling str(). For V6 addresses
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* this is the hex representation with : characters inserted every 4 digits.
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*/
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std::string toFullyQualified() const {
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return isV4() ? asV4().toFullyQualified()
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: asV6().toFullyQualified();
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}
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// Address version (4 or 6)
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uint8_t version() const {
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return isV4() ? asV4().version()
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: asV6().version();
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}
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/**
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* Access to address bytes, in network byte order.
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*/
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const unsigned char* bytes() const {
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return isV4() ? asV4().bytes() : asV6().bytes();
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}
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private:
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[[noreturn]] void asV4Throw() const;
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[[noreturn]] void asV6Throw() const;
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typedef union IPAddressV46 {
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IPAddressV4 ipV4Addr;
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IPAddressV6 ipV6Addr;
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// default constructor
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IPAddressV46() {
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std::memset(this, 0, sizeof(IPAddressV46));
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}
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explicit IPAddressV46(const IPAddressV4& addr): ipV4Addr(addr) {}
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explicit IPAddressV46(const IPAddressV6& addr): ipV6Addr(addr) {}
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} IPAddressV46;
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IPAddressV46 addr_;
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sa_family_t family_;
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};
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// boost::hash uses hash_value() so this allows boost::hash to work
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// automatically for IPAddress
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std::size_t hash_value(const IPAddress& addr);
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std::ostream& operator<<(std::ostream& os, const IPAddress& addr);
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// Define toAppend() to allow IPAddress to be used with folly::to<string>
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void toAppend(IPAddress addr, std::string* result);
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void toAppend(IPAddress addr, fbstring* result);
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/**
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* Return true if two addresses are equal.
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*
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* @note This takes into consideration V4 mapped addresses as well. If one
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* address is v4 mapped we compare the v4 addresses.
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*
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* @return true if the two addresses are equal.
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*/
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bool operator==(const IPAddress& addr1, const IPAddress& addr2);
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// Return true if addr1 < addr2
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bool operator<(const IPAddress& addr1, const IPAddress& addr2);
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// Derived operators
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inline bool operator!=(const IPAddress& a, const IPAddress& b) {
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return !(a == b);
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}
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inline bool operator>(const IPAddress& a, const IPAddress& b) {
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return b < a;
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}
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inline bool operator<=(const IPAddress& a, const IPAddress& b) {
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return !(a > b);
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}
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inline bool operator>=(const IPAddress& a, const IPAddress& b) {
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return !(a < b);
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}
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} // folly
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namespace std {
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template<>
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struct hash<folly::IPAddress> {
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size_t operator()(const folly::IPAddress& addr) const {
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return addr.hash();
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}
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};
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} // std
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