#ifndef LLARP_SERVICE_ADDRESS_HPP #define LLARP_SERVICE_ADDRESS_HPP #include #include #include #include #include #include #include #include namespace llarp { namespace service { /// Snapp Address struct Address : public AlignedBuffer<32> { /// if parsed using FromString this contains the subdomain /// this member is not used when comparing it's extra data for dns std::string subdomain; /// list of whitelisted gtld to permit static const std::set AllowedTLDs; /// return true if we permit using this tld /// otherwise return false static bool PermitTLD(const char* tld); std::string ToString(const char* tld = ".loki") const; bool FromString(std::string_view str, const char* tld = ".loki"); Address() : AlignedBuffer<32>() {} explicit Address(const std::string& str) : AlignedBuffer<32>() { if (not FromString(str)) throw std::runtime_error("invalid address"); } explicit Address(const Data& buf) : AlignedBuffer<32>(buf) {} Address(const Address& other) : AlignedBuffer<32>(other.as_array()), subdomain(other.subdomain) {} explicit Address(const AlignedBuffer<32>& other) : AlignedBuffer<32>(other) {} bool operator<(const Address& other) const { return as_array() < other.as_array(); } friend std::ostream& operator<<(std::ostream& out, const Address& self) { return out << self.ToString(); } bool operator==(const Address& other) const { return as_array() == other.as_array(); } bool operator!=(const Address& other) const { return as_array() != other.as_array(); } Address& operator=(const Address& other) = default; dht::Key_t ToKey() const; RouterID ToRouter() const { return RouterID(as_array()); } struct Hash { size_t operator()(const Address& buf) const { return std::accumulate(buf.begin(), buf.end(), 0, std::bit_xor()); } }; }; } // namespace service } // namespace llarp namespace std { template <> struct hash { size_t operator()(const llarp::service::Address& addr) const { return llarp::service::Address::Hash{}(addr); } }; } // namespace std #endif