verdnatura-chat/ios/Pods/Flipper-Folly/folly/IPAddressV6.h

445 lines
12 KiB
C++

/*
* 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 <cstring>
#include <array>
#include <functional>
#include <iosfwd>
#include <map>
#include <stdexcept>
#include <folly/Expected.h>
#include <folly/FBString.h>
#include <folly/IPAddressException.h>
#include <folly/Optional.h>
#include <folly/Range.h>
#include <folly/detail/IPAddress.h>
#include <folly/hash/Hash.h>
namespace folly {
class IPAddress;
class IPAddressV4;
class IPAddressV6;
class MacAddress;
/**
* Pair of IPAddressV6, netmask
*/
typedef std::pair<IPAddressV6, uint8_t> CIDRNetworkV6;
/**
* Specialization for IPv6 addresses
*/
typedef std::array<uint8_t, 16> ByteArray16;
/**
* IPv6 variation of IPAddress.
*
* Added methods: createIPv4, getIPv4For6To4, is6To4,
* isTeredo, isIPv4Mapped, tryCreateIPv4, type
*
* @see IPAddress
*
* Notes on scope ID parsing:
*
* getaddrinfo() uses if_nametoindex() to convert interface names
* into a numerical index. For instance,
* "fe80::202:c9ff:fec1:ee08%eth0" may return scope ID 2 on some
* hosts, but other numbers on other hosts. It will fail entirely on
* hosts without an eth0 interface.
*
* Serializing / Deserializing IPAddressB6's on different hosts
* that use link-local scoping probably won't work.
*/
class IPAddressV6 {
public:
// V6 Address Type
enum Type {
TEREDO,
T6TO4,
NORMAL,
};
// A constructor parameter to indicate that we should create a link-local
// IPAddressV6.
enum LinkLocalTag {
LINK_LOCAL,
};
// Thrown when a type assertion fails
typedef std::runtime_error TypeError;
// Binary prefix for teredo networks
static const uint32_t PREFIX_TEREDO;
// Binary prefix for 6to4 networks
static const uint32_t PREFIX_6TO4;
// Size of std::string returned by toFullyQualified.
static constexpr size_t kToFullyQualifiedSize =
8 /*words*/ * 4 /*hex chars per word*/ + 7 /*separators*/;
// returns true iff the input string can be parsed as an ipv6-address
static bool validate(StringPiece ip) noexcept;
/**
* Create a new IPAddress instance from the provided binary data.
* @throws IPAddressFormatException if the input length is not 16 bytes.
*/
static IPAddressV6 fromBinary(ByteRange bytes);
/**
* Non-throwing version of fromBinary().
* On failure returns IPAddressFormatError.
*/
static Expected<IPAddressV6, IPAddressFormatError> tryFromBinary(
ByteRange bytes) noexcept;
/**
* Tries to create a new IPAddressV6 instance from provided string and
* returns it on success. Returns IPAddressFormatError on failure.
*/
static Expected<IPAddressV6, IPAddressFormatError> tryFromString(
StringPiece str) noexcept;
/**
* Create a new IPAddress instance from the ip6.arpa representation.
* @throws IPAddressFormatException if the input is not a valid ip6.arpa
* representation
*/
static IPAddressV6 fromInverseArpaName(const std::string& arpaname);
/**
* Returns the address as a Range.
*/
ByteRange toBinary() const {
return ByteRange((const unsigned char*)&addr_.in6Addr_.s6_addr, 16);
}
/**
* Default constructor for IPAddressV6.
*
* The address value will be ::0
*/
IPAddressV6();
// Create an IPAddressV6 from a string
// @throws IPAddressFormatException
//
explicit IPAddressV6(StringPiece addr);
// ByteArray16 constructor
explicit IPAddressV6(const ByteArray16& src) noexcept;
// in6_addr constructor
explicit IPAddressV6(const in6_addr& src) noexcept;
// sockaddr_in6 constructor
explicit IPAddressV6(const sockaddr_in6& src) noexcept;
/**
* Create a link-local IPAddressV6 from the specified ethernet MAC address.
*/
IPAddressV6(LinkLocalTag tag, MacAddress mac);
// return the mapped V4 address
// @throws IPAddressFormatException if !isIPv4Mapped
IPAddressV4 createIPv4() const;
/**
* Return a V4 address if this is a 6To4 address.
* @throws TypeError if not a 6To4 address
*/
IPAddressV4 getIPv4For6To4() const;
// Return true if a 6TO4 address
bool is6To4() const {
return type() == IPAddressV6::Type::T6TO4;
}
// Return true if a TEREDO address
bool isTeredo() const {
return type() == IPAddressV6::Type::TEREDO;
}
// return true if this is v4-to-v6-mapped
bool isIPv4Mapped() const;
// Return the V6 address type
Type type() const;
/**
* @see IPAddress#bitCount
* @returns 128
*/
static constexpr size_t bitCount() {
return 128;
}
/**
* @see IPAddress#toJson
*/
std::string toJson() const;
size_t hash() const;
// @see IPAddress#inSubnet
// @throws IPAddressFormatException if string doesn't contain a V6 address
bool inSubnet(StringPiece cidrNetwork) const;
// return true if address is in subnet
bool inSubnet(const IPAddressV6& subnet, uint8_t cidr) const {
return inSubnetWithMask(subnet, fetchMask(cidr));
}
bool inSubnetWithMask(const IPAddressV6& subnet, const ByteArray16& mask)
const;
// @see IPAddress#isLoopback
bool isLoopback() const;
// @see IPAddress#isNonroutable
bool isNonroutable() const {
return !isRoutable();
}
/**
* Return true if this address is routable.
*/
bool isRoutable() const;
// @see IPAddress#isPrivate
bool isPrivate() const;
/**
* Return true if this is a link-local IPv6 address.
*
* Note that this only returns true for addresses in the fe80::/10 range.
* It returns false for the loopback address (::1), even though this address
* is also effectively has link-local scope. It also returns false for
* link-scope and interface-scope multicast addresses.
*/
bool isLinkLocal() const;
/**
* Return the mac address if this is a link-local IPv6 address.
*
* @return an Optional<MacAddress> union representing the mac address.
*
* If the address is not a link-local one it will return an empty Optional.
* You can use Optional::value() to check whether the mac address is not null.
*/
Optional<MacAddress> getMacAddressFromLinkLocal() const;
/**
* Return the mac address if this is an auto-configured IPv6 address based on
* EUI-64
*
* @return an Optional<MacAddress> union representing the mac address.
* If the address is not based on EUI-64 it will return an empty Optional.
* You can use Optional::value() to check whether the mac address is not null.
*/
Optional<MacAddress> getMacAddressFromEUI64() const;
/**
* Return true if this is a multicast address.
*/
bool isMulticast() const;
/**
* Return the flags for a multicast address.
* This method may only be called on multicast addresses.
*/
uint8_t getMulticastFlags() const;
/**
* Return the scope for a multicast address.
* This method may only be called on multicast addresses.
*/
uint8_t getMulticastScope() const;
// @see IPAddress#isZero
bool isZero() const {
constexpr auto zero = ByteArray16{{}};
return 0 == std::memcmp(bytes(), zero.data(), zero.size());
}
bool isLinkLocalBroadcast() const;
// @see IPAddress#mask
IPAddressV6 mask(size_t numBits) const;
// return underlying in6_addr structure
in6_addr toAddr() const {
return addr_.in6Addr_;
}
uint16_t getScopeId() const {
return scope_;
}
void setScopeId(uint16_t scope) {
scope_ = scope;
}
sockaddr_in6 toSockAddr() const {
sockaddr_in6 addr;
memset(&addr, 0, sizeof(sockaddr_in6));
addr.sin6_family = AF_INET6;
addr.sin6_scope_id = scope_;
memcpy(&addr.sin6_addr, &addr_.in6Addr_, sizeof(in6_addr));
return addr;
}
ByteArray16 toByteArray() const {
ByteArray16 ba{{0}};
std::memcpy(ba.data(), bytes(), 16);
return ba;
}
// @see IPAddress#toFullyQualified
std::string toFullyQualified() const;
// @see IPAddress#toFullyQualifiedAppend
void toFullyQualifiedAppend(std::string& out) const;
std::string toInverseArpaName() const;
// @see IPAddress#str
std::string str() const;
// @see IPAddress#version
uint8_t version() const {
return 6;
}
/**
* Return the solicited-node multicast address for this address.
*/
IPAddressV6 getSolicitedNodeAddress() const;
/**
* 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 ByteArray16 fetchMask(size_t numBits);
// Given 2 IPAddressV6,mask pairs extract the longest common IPAddress,
// mask pair
static CIDRNetworkV6 longestCommonPrefix(
const CIDRNetworkV6& one,
const CIDRNetworkV6& two);
// Number of bytes in the address representation.
static constexpr size_t byteCount() {
return 16;
}
// get nth most significant bit - 0 indexed
bool getNthMSBit(size_t bitIndex) const {
return detail::getNthMSBitImpl(*this, bitIndex, AF_INET6);
}
// 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_.in6Addr_.s6_addr;
}
protected:
/**
* Helper that returns true if the address is in the binary subnet specified
* by addr.
*/
bool inBinarySubnet(const std::array<uint8_t, 2> addr, size_t numBits) const;
private:
auto tie() const {
return std::tie(addr_.bytes_, scope_);
}
public:
friend inline bool operator==(const IPAddressV6& a, const IPAddressV6& b) {
return a.tie() == b.tie();
}
friend inline bool operator!=(const IPAddressV6& a, const IPAddressV6& b) {
return a.tie() != b.tie();
}
friend inline bool operator<(const IPAddressV6& a, const IPAddressV6& b) {
return a.tie() < b.tie();
}
friend inline bool operator>(const IPAddressV6& a, const IPAddressV6& b) {
return a.tie() > b.tie();
}
friend inline bool operator<=(const IPAddressV6& a, const IPAddressV6& b) {
return a.tie() <= b.tie();
}
friend inline bool operator>=(const IPAddressV6& a, const IPAddressV6& b) {
return a.tie() >= b.tie();
}
private:
union AddressStorage {
in6_addr in6Addr_;
ByteArray16 bytes_;
AddressStorage() {
std::memset(this, 0, sizeof(AddressStorage));
}
explicit AddressStorage(const ByteArray16& bytes) : bytes_(bytes) {}
explicit AddressStorage(const in6_addr& addr) : in6Addr_(addr) {}
explicit AddressStorage(MacAddress mac);
} addr_;
// Link-local scope id. This should always be 0 for IPAddresses that
// are *not* link-local.
uint16_t scope_{0};
/**
* Set the current IPAddressV6 object to have the address specified by bytes.
* Returns IPAddressFormatError if bytes.size() is not 16.
*/
Expected<Unit, IPAddressFormatError> trySetFromBinary(
ByteRange bytes) noexcept;
};
// boost::hash uses hash_value() so this allows boost::hash to work
// automatically for IPAddressV6
std::size_t hash_value(const IPAddressV6& addr);
std::ostream& operator<<(std::ostream& os, const IPAddressV6& addr);
// Define toAppend() to allow IPAddressV6 to be used with to<string>
void toAppend(IPAddressV6 addr, std::string* result);
void toAppend(IPAddressV6 addr, fbstring* result);
} // namespace folly
namespace std {
template <>
struct hash<folly::IPAddressV6> {
size_t operator()(const folly::IPAddressV6& addr) const {
return addr.hash();
}
};
} // namespace std