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#include "netaddr.h"

#include <util/network/address.h>

#include <cstdlib>

namespace NBus {
    const char* ToCString(EIpVersion ipVersion) { 
        switch (ipVersion) { 
            case EIP_VERSION_ANY: 
                return "EIP_VERSION_ANY"; 
            case EIP_VERSION_4: 
                return "EIP_VERSION_4"; 
            case EIP_VERSION_6: 
                return "EIP_VERSION_6"; 
        } 
        Y_FAIL(); 
    }

    int ToAddrFamily(EIpVersion ipVersion) { 
        switch (ipVersion) { 
            case EIP_VERSION_ANY: 
                return AF_UNSPEC; 
            case EIP_VERSION_4: 
                return AF_INET; 
            case EIP_VERSION_6: 
                return AF_INET6; 
        } 
        Y_FAIL(); 
    }

    class TNetworkAddressRef: private TNetworkAddress, public TAddrInfo { 
    public: 
        TNetworkAddressRef(const TNetworkAddress& na, const TAddrInfo& ai) 
            : TNetworkAddress(na) 
            , TAddrInfo(ai) 
        { 
        } 
    }; 

    static bool Compare(const IRemoteAddr& l, const IRemoteAddr& r) noexcept { 
        if (l.Addr()->sa_family != r.Addr()->sa_family) { 
            return false; 
        } 

        switch (l.Addr()->sa_family) { 
            case AF_INET: { 
                return memcmp(&(((const sockaddr_in*)l.Addr())->sin_addr), &(((const sockaddr_in*)r.Addr())->sin_addr), sizeof(in_addr)) == 0 && 
                       ((const sockaddr_in*)l.Addr())->sin_port == ((const sockaddr_in*)r.Addr())->sin_port; 
            } 
 
            case AF_INET6: { 
                return memcmp(&(((const sockaddr_in6*)l.Addr())->sin6_addr), &(((const sockaddr_in6*)r.Addr())->sin6_addr), sizeof(in6_addr)) == 0 && 
                       ((const sockaddr_in6*)l.Addr())->sin6_port == ((const sockaddr_in6*)r.Addr())->sin6_port; 
            } 
        }

        return memcmp(l.Addr(), r.Addr(), Min<size_t>(l.Len(), r.Len())) == 0; 
    }

    TNetAddr::TNetAddr() 
        : Ptr(new TOpaqueAddr) 
    { 
    } 

    TNetAddr::TNetAddr(TAutoPtr<IRemoteAddr> addr) 
        : Ptr(addr) 
    { 
        Y_VERIFY(!!Ptr); 
    } 

    namespace { 
        using namespace NAddr; 

        const char* Describe(EIpVersion version) { 
            switch (version) { 
                case EIP_VERSION_4: 
                    return "ipv4 address"; 
                case EIP_VERSION_6: 
                    return "ipv6 address"; 
                case EIP_VERSION_ANY: 
                    return "any address"; 
                default: 
                    Y_FAIL("unreachable"); 
            } 
        }

        TAutoPtr<IRemoteAddr> MakeAddress(const TNetworkAddress& na, EIpVersion requireVersion, EIpVersion preferVersion) { 
            TAutoPtr<IRemoteAddr> addr; 
            for (TNetworkAddress::TIterator it = na.Begin(); it != na.End(); ++it) { 
                if (IsFamilyAllowed(it->ai_family, requireVersion)) { 
                    if (IsFamilyAllowed(it->ai_family, preferVersion)) { 
                        return new TNetworkAddressRef(na, &*it); 
                    } else if (!addr) { 
                        addr.Reset(new TNetworkAddressRef(na, &*it)); 
                    } 
                }
            }
            return addr; 
        }
        TAutoPtr<IRemoteAddr> MakeAddress(TStringBuf host, int port, EIpVersion requireVersion, EIpVersion preferVersion) { 
            TString hostString(host); 
            TNetworkAddress na(hostString, port); 
            return MakeAddress(na, requireVersion, preferVersion); 
        } 
        TAutoPtr<IRemoteAddr> MakeAddress(const char* hostPort, EIpVersion requireVersion, EIpVersion preferVersion) { 
            const char* portStr = strchr(hostPort, ':'); 
            if (!portStr) { 
                ythrow TNetAddr::TError() << "port not specified in " << hostPort; 
            } 
            int port = atoi(portStr + 1); 
            TNetworkAddress na(TString(hostPort, portStr), port); 
            return MakeAddress(na, requireVersion, preferVersion); 
        } 
    }
 
    TNetAddr::TNetAddr(const char* hostPort, EIpVersion requireVersion /*= EIP_VERSION_ANY*/, EIpVersion preferVersion /*= EIP_VERSION_ANY*/) 
        : Ptr(MakeAddress(hostPort, requireVersion, preferVersion)) 
    { 
        if (!Ptr) { 
            ythrow TNetAddr::TError() << "cannot resolve " << hostPort << " into " << Describe(requireVersion); 
        } 
    }
 
    TNetAddr::TNetAddr(TStringBuf host, int port, EIpVersion requireVersion /*= EIP_VERSION_ANY*/, EIpVersion preferVersion /*= EIP_VERSION_ANY*/) 
        : Ptr(MakeAddress(host, port, requireVersion, preferVersion)) 
    { 
        if (!Ptr) { 
            ythrow TNetAddr::TError() << "cannot resolve " << host << ":" << port << " into " << Describe(requireVersion); 
        }
    }

    TNetAddr::TNetAddr(const TNetworkAddress& na, EIpVersion requireVersion /*= EIP_VERSION_ANY*/, EIpVersion preferVersion /*= EIP_VERSION_ANY*/) 
        : Ptr(MakeAddress(na, requireVersion, preferVersion)) 
    { 
        if (!Ptr) { 
            ythrow TNetAddr::TError() << "cannot resolve into " << Describe(requireVersion); 
        } 
    }

    TNetAddr::TNetAddr(const TNetworkAddress& na, const TAddrInfo& ai) 
        : Ptr(new TNetworkAddressRef(na, ai)) 
    { 
    }

    const sockaddr* TNetAddr::Addr() const { 
        return Ptr->Addr(); 
    }

    socklen_t TNetAddr::Len() const { 
        return Ptr->Len(); 
    } 

    int TNetAddr::GetPort() const { 
        switch (Ptr->Addr()->sa_family) { 
            case AF_INET: 
                return InetToHost(((sockaddr_in*)Ptr->Addr())->sin_port); 
            case AF_INET6: 
                return InetToHost(((sockaddr_in6*)Ptr->Addr())->sin6_port); 
            default: 
                Y_FAIL("unknown AF: %d", (int)Ptr->Addr()->sa_family); 
                throw 1; 
        } 
    } 

    bool TNetAddr::IsIpv4() const { 
        return Ptr->Addr()->sa_family == AF_INET; 
    } 

    bool TNetAddr::IsIpv6() const { 
        return Ptr->Addr()->sa_family == AF_INET6; 
    }

    bool TNetAddr::operator==(const TNetAddr& rhs) const { 
        return Ptr == rhs.Ptr || Compare(*Ptr, *rhs.Ptr); 
    } 

}

template <>
void Out<NBus::TNetAddr>(IOutputStream& out, const NBus::TNetAddr& addr) {
    Out<NAddr::IRemoteAddr>(out, addr);
}