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#include "ipv6_address.h"
#include "ipv6_address_p.h"
#ifdef _unix_
#include <netinet/in.h>
#endif
#include <util/network/address.h>
#include <util/network/init.h>
#include <util/string/cast.h>
#include <util/string/split.h>
#include <util/system/byteorder.h>
#include <util/ysaveload.h>
#include <array>
namespace {
// reinterpret_cast from memory, where most significant bit is first
inline ui128 FromMemMSF(const char* memPtr) {
Y_VERIFY(memPtr, " ");
return ui128{
*reinterpret_cast<const ui64*>(memPtr),
*(reinterpret_cast<const ui64*>(memPtr) + 1)
};
}
// zero-terminated copy of address string
template <size_t N>
inline auto AddrBuf(TStringBuf str) noexcept {
std::array<char, N+1> res;
auto len = Min(str.size(), N);
CopyN(str.begin(), len, res.begin());
res[len] = '\0';
return res;
}
}
void TIpv6Address::InitFrom(const in6_addr& addr) {
const ui64* const ui64Ptr = reinterpret_cast<const ui64*>(&addr);
const ui64 raw[2] = {SwapBytes(*ui64Ptr), SwapBytes(*(ui64Ptr + 1))};
Ip = FromMemMSF(reinterpret_cast<const char*>(raw));
Type_ = Ipv6;
}
void TIpv6Address::InitFrom(const in_addr& addr) {
unsigned long swapped = SwapBytes(addr.s_addr);
Ip = ui128{0, swapped};
Type_ = Ipv4;
}
void TIpv6Address::InitFrom(const sockaddr_in6& Addr) {
InitFrom(Addr.sin6_addr);
ScopeId_ = Addr.sin6_scope_id;
}
void TIpv6Address::InitFrom(const sockaddr_in& Addr) {
InitFrom(Addr.sin_addr);
}
TIpv6Address::TIpv6Address(const NAddr::IRemoteAddr& addr) {
if (addr.Addr()->sa_family == AF_INET) { // IPv4
const sockaddr_in* Tmp = reinterpret_cast<const sockaddr_in*>(addr.Addr());
InitFrom(*Tmp);
} else { // IPv6
const sockaddr_in6* Tmp = reinterpret_cast<const sockaddr_in6*>(addr.Addr());
InitFrom(*Tmp);
}
}
TIpv6Address::TIpv6Address(const sockaddr_in6& Addr) {
InitFrom(Addr);
}
TIpv6Address::TIpv6Address(const sockaddr_in& Addr) {
InitFrom(Addr);
}
TIpv6Address::TIpv6Address(const in6_addr& addr, ui32 Scope) {
InitFrom(addr);
ScopeId_ = Scope;
}
TIpv6Address::TIpv6Address(const in_addr& addr) {
InitFrom(addr);
}
TIpv6Address TIpv6Address::FromString(TStringBuf str, bool& ok) noexcept {
const TIpType ipType = FigureOutType(str);
if (ipType == Ipv6) {
ui32 scopeId = 0;
if (size_t pos = str.find('%'); pos != TStringBuf::npos) {
::TryFromString(str.substr(pos + 1), scopeId);
str.Trunc(pos);
}
const auto buf = AddrBuf<INET6_ADDRSTRLEN>(str);
in6_addr addr;
if (inet_pton(AF_INET6, buf.data(), &addr) != 1) {
ok = false;
return TIpv6Address();
}
ok = true;
return TIpv6Address(addr, scopeId);
} else { // if (ipType == Ipv4) {
const auto buf = AddrBuf<INET_ADDRSTRLEN>(str);
in_addr addr;
if (inet_pton(AF_INET, buf.data(), &addr) != 1) {
ok = false;
return TIpv6Address();
}
ok = true;
return TIpv6Address(addr);
}
}
TString TIpv6Address::ToString(bool* ok) const noexcept {
return ToString(true, ok);
}
TString TIpv6Address::ToString(bool PrintScopeId, bool* ok) const noexcept {
TString result;
bool isOk = true;
if (Type_ == TIpv6Address::Ipv4) {
result.resize(INET_ADDRSTRLEN + 2);
in_addr addr;
ToInAddr(addr);
isOk = inet_ntop(AF_INET, &addr, result.begin(), INET_ADDRSTRLEN);
result.resize(result.find('\0'));
} else if (Type_ == TIpv6Address::Ipv6) {
result.resize(INET6_ADDRSTRLEN + 2);
in6_addr addr;
ToIn6Addr(addr);
isOk = inet_ntop(AF_INET6, &addr, result.begin(), INET6_ADDRSTRLEN);
result.resize(result.find('\0'));
if (PrintScopeId)
result += "%" + ::ToString(ScopeId_);
} else {
result = "null";
isOk = true;
}
if (ok) {
*ok = isOk;
}
return result;
}
void TIpv6Address::ToSockaddrAndSocklen(sockaddr_in& sockAddrIPv4,
sockaddr_in6& sockAddrIPv6, // in
const sockaddr*& sockAddrPtr,
socklen_t& sockAddrSize,
ui16 Port) const { // out
if (Type_ == Ipv4) {
memset(&sockAddrIPv4, 0, sizeof(sockAddrIPv4));
sockAddrIPv4.sin_family = AF_INET;
sockAddrIPv4.sin_port = htons(Port);
ToInAddr(sockAddrIPv4.sin_addr);
sockAddrSize = sizeof(sockAddrIPv4);
sockAddrPtr = reinterpret_cast<sockaddr*>(&sockAddrIPv4);
} else if (Type_ == Ipv6) {
memset(&sockAddrIPv6, 0, sizeof(sockAddrIPv6));
sockAddrIPv6.sin6_family = AF_INET6;
sockAddrIPv6.sin6_port = htons(Port);
ToIn6Addr(sockAddrIPv6.sin6_addr);
sockAddrIPv6.sin6_scope_id = ScopeId_;
sockAddrIPv6.sin6_flowinfo = 0;
sockAddrSize = sizeof(sockAddrIPv6);
sockAddrPtr = reinterpret_cast<sockaddr*>(&sockAddrIPv6);
} else
Y_VERIFY(false);
}
void TIpv6Address::ToInAddr(in_addr& Addr4) const {
Y_VERIFY(Type_ == TIpv6Address::Ipv4);
Zero(Addr4);
ui32 Value = GetLow(Ip);
Y_VERIFY(Value == GetLow(Ip), " ");
Y_VERIFY(GetHigh(Ip) == 0, " ");
Addr4.s_addr = SwapBytes(Value);
}
void TIpv6Address::ToIn6Addr(in6_addr& Addr6) const {
Y_VERIFY(Type_ == TIpv6Address::Ipv6);
Zero(Addr6);
ui64 Raw[2] = {GetHigh(Ip), GetLow(Ip)};
*Raw = SwapBytes(*Raw);
Raw[1] = SwapBytes(1 [Raw]);
memcpy(&Addr6, Raw, sizeof(Raw));
}
void TIpv6Address::Save(IOutputStream* out) const {
::Save(out, Ip);
::Save(out, static_cast<ui8>(Type_));
::Save(out, ScopeId_);
}
void TIpv6Address::Load(IInputStream* in) {
::Load(in, Ip);
ui8 num;
::Load(in, num);
Type_ = static_cast<TIpType>(num);
::Load(in, ScopeId_);
}
bool TIpv6Address::Isv4MappedTov6() const noexcept {
/// http://en.wikipedia.org/wiki/IPv6
/// Hybrid dual-stack IPv6/IPv4 implementations recognize a special class of addresses,
/// the IPv4-mapped IPv6 addresses. In these addresses, the first 80 bits are zero, the next 16 bits are one,
/// and the remaining 32 bits are the IPv4 address.
if (Type_ != Ipv6)
return false;
if (GetHigh(Ip) != 0)
return false; // First 64 bit are not zero -> it is not ipv4-mapped-ipv6 address
const ui64 Low = GetLow(Ip) >> 32;
if (Low != 0x0000ffff)
return false;
return true;
}
TIpv6Address TIpv6Address::TryToExtractIpv4From6() const noexcept {
if (Isv4MappedTov6() == false)
return TIpv6Address();
const ui64 NewLow = GetLow(Ip) & 0x00000000ffffffff;
TIpv6Address Result(ui128(0, NewLow), Ipv4);
return Result;
}
TIpv6Address TIpv6Address::Normalized() const noexcept {
if (Isv4MappedTov6() == false)
return *this;
TIpv6Address Result = TryToExtractIpv4From6();
Y_VERIFY(Result.IsNull() == false);
return Result;
}
IOutputStream& operator<<(IOutputStream& Out, const TIpv6Address::TIpType Type) noexcept {
switch (Type) {
case TIpv6Address::Ipv4:
Out << "Ipv4";
return Out;
case TIpv6Address::Ipv6:
Out << "Ipv6";
return Out;
default:
Out << "UnknownType";
return Out;
}
}
IOutputStream& operator<<(IOutputStream& out, const TIpv6Address& ipv6Address) noexcept {
bool ok;
const TString& strIp = ipv6Address.ToString(&ok);
if (!ok) {
return out << "Can not convert ip to string";
} else {
return out << strIp;
}
}
TString THostAddressAndPort::ToString() const noexcept {
TStringStream Str;
Str << *this;
return Str.Str();
}
IOutputStream& operator<<(IOutputStream& Out, const THostAddressAndPort& HostAddressAndPort) noexcept {
Out << HostAddressAndPort.Ip << ":" << HostAddressAndPort.Port;
return Out;
}
namespace {
class TRemoteAddr: public NAddr::IRemoteAddr {
public:
TRemoteAddr(const TIpv6Address& Address, TIpPort Port);
const sockaddr* Addr() const override;
socklen_t Len() const override;
private:
sockaddr_in SockAddrIPv4;
sockaddr_in6 SockAddrIPv6;
const sockaddr* SockAddrPtr = nullptr;
socklen_t SockAddrSize = 0;
};
TRemoteAddr::TRemoteAddr(const TIpv6Address& Address, TIpPort Port) {
Address.ToSockaddrAndSocklen(SockAddrIPv4, SockAddrIPv6, SockAddrPtr, SockAddrSize, Port);
}
const sockaddr* TRemoteAddr::Addr() const {
return SockAddrPtr;
}
socklen_t TRemoteAddr::Len() const {
return SockAddrSize;
}
}
NAddr::IRemoteAddr* ToIRemoteAddr(const TIpv6Address& Address, TIpPort Port) {
return new TRemoteAddr(Address, Port);
}
std::tuple<THostAddressAndPort, TString, TIpPort> ParseHostAndMayBePortFromString(const TString& RawStr,
TIpPort DefaultPort,
bool& Ok) noexcept {
// Cout << "ParseHostAndMayBePortFromString: " << RawStr << ", Port: " << DefaultPort << Endl;
using TRes = std::tuple<THostAddressAndPort, TString, TIpPort>;
// ---------------------------------------------------------------------
const size_t BracketColPos = RawStr.find("]:");
if (BracketColPos != TString::npos) {
// [ipv6]:port
if (!RawStr.StartsWith('[')) {
Ok = false;
return {};
}
const TStringBuf StrIpv6(RawStr.begin() + 1, RawStr.begin() + BracketColPos);
const TStringBuf StrPort(RawStr.begin() + BracketColPos + 2, RawStr.end());
bool IpConverted;
const TIpv6Address Ip = TIpv6Address::FromString(StrIpv6, IpConverted);
if (!IpConverted) {
Ok = false;
return {};
}
if (Ip.Type() != TIpv6Address::Ipv6) {
Ok = false;
return {};
}
TIpPort Port {};
if (!::TryFromString(StrPort, Port)) {
Ok = false;
return {};
}
Ok = true;
TRes Res{{Ip, Port}, {}, {}};
return Res;
}
// ---------------------------------------------------------------------
if (RawStr.StartsWith('[')) {
// [ipv6]
if (!RawStr.EndsWith(']')) {
Ok = false;
return {};
}
const TStringBuf StrIpv6(RawStr.begin() + 1, RawStr.end() - 1);
bool IpConverted;
const TIpv6Address Ip = TIpv6Address::FromString(StrIpv6, IpConverted);
if (!IpConverted || Ip.Type() != TIpv6Address::Ipv6) {
Ok = false;
return {};
}
Ok = true;
TRes Res{{Ip, DefaultPort}, {}, {}};
return Res;
}
// ---------------------------------------------------------------------
const size_t ColPos = RawStr.find(':');
if (ColPos != TString::npos) {
// host:port
// ipv4:port
// ipv6
{
bool IpConverted;
const TIpv6Address Ipv6 = TIpv6Address::FromString(RawStr, IpConverted);
if (IpConverted && Ipv6.Type() == TIpv6Address::Ipv6) {
// ipv6
Ok = true;
TRes Res{{Ipv6, DefaultPort}, {}, {}};
return Res;
}
}
const TStringBuf StrPort(RawStr.begin() + ColPos + 1, RawStr.end());
TIpPort Port {};
if (!::TryFromString(StrPort, Port)) {
Ok = false;
return {};
}
const TStringBuf StrIpv4OrHost(RawStr.begin(), RawStr.begin() + ColPos);
{
bool IpConverted;
const TIpv6Address Ipv4 = TIpv6Address::FromString(StrIpv4OrHost, IpConverted);
if (IpConverted && Ipv4.Type() == TIpv6Address::Ipv4) {
// ipv4:port
Ok = true;
TRes Res{{Ipv4, Port}, {}, {}};
return Res;
}
}
{
// host:port
Ok = true;
TRes Res{THostAddressAndPort{}, TString(StrIpv4OrHost), Port};
return Res;
}
}
// ---------------------------------------------------------------------
{
// ipv4
bool IpConverted;
const TIpv6Address Ipv4 = TIpv6Address::FromString(RawStr, IpConverted);
if (IpConverted && Ipv4.Type() == TIpv6Address::Ipv4) {
Ok = true;
TRes Res{{Ipv4, DefaultPort}, {}, {}};
return Res;
}
}
// ---------------------------------------------------------------------
{
// host
Ok = true;
TRes Res{THostAddressAndPort{}, TString(RawStr), DefaultPort};
return Res;
}
}
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