#ifndef LLARP_NET_INT_HPP #define LLARP_NET_INT_HPP // for addrinfo #ifndef _WIN32 #include #include #include #else #include #include #define inet_aton(x, y) inet_pton(AF_INET, x, y) #endif #include #include // for itoa #include namespace llarp { // clang-format off struct huint32_t { uint32_t h; constexpr huint32_t operator &(huint32_t x) const { return huint32_t{uint32_t(h & x.h)}; } constexpr huint32_t operator |(huint32_t x) const { return huint32_t{uint32_t(h | x.h)}; } constexpr huint32_t operator ^(huint32_t x) const { return huint32_t{uint32_t(h ^ x.h)}; } constexpr huint32_t operator ~() const { return huint32_t{uint32_t(~h)}; } inline huint32_t operator ++() { ++h; return *this; } inline huint32_t operator --() { --h; return *this; } constexpr bool operator <(huint32_t x) const { return h < x.h; } constexpr bool operator ==(huint32_t x) const { return h == x.h; } friend std::ostream& operator<<(std::ostream& out, const huint32_t& a) { uint32_t n = htonl(a.h); char tmp[INET_ADDRSTRLEN] = {0}; if(inet_ntop(AF_INET, (void*)&n, tmp, sizeof(tmp))) { out << tmp; } return out; } struct Hash { inline size_t operator ()(huint32_t x) const { return std::hash< uint32_t >{}(x.h); } }; }; struct nuint32_t { uint32_t n; constexpr nuint32_t operator &(nuint32_t x) const { return nuint32_t{uint32_t(n & x.n)}; } constexpr nuint32_t operator |(nuint32_t x) const { return nuint32_t{uint32_t(n | x.n)}; } constexpr nuint32_t operator ^(nuint32_t x) const { return nuint32_t{uint32_t(n ^ x.n)}; } constexpr nuint32_t operator ~() const { return nuint32_t{uint32_t(~n)}; } inline nuint32_t operator ++() { ++n; return *this; } inline nuint32_t operator --() { --n; return *this; } constexpr bool operator <(nuint32_t x) const { return n < x.n; } constexpr bool operator ==(nuint32_t x) const { return n == x.n; } friend std::ostream& operator<<(std::ostream& out, const nuint32_t& a) { char tmp[INET_ADDRSTRLEN] = {0}; if(inet_ntop(AF_INET, (void*)&a.n, tmp, sizeof(tmp))) { out << tmp; } return out; } struct Hash { inline size_t operator ()(nuint32_t x) const { return std::hash< uint32_t >{}(x.n); } }; }; struct huint16_t { uint16_t h; constexpr huint16_t operator &(huint16_t x) const { return huint16_t{uint16_t(h & x.h)}; } constexpr huint16_t operator |(huint16_t x) const { return huint16_t{uint16_t(h | x.h)}; } constexpr huint16_t operator ~() const { return huint16_t{uint16_t(~h)}; } inline huint16_t operator ++() { ++h; return *this; } inline huint16_t operator --() { --h; return *this; } constexpr bool operator <(huint16_t x) const { return h < x.h; } constexpr bool operator ==(huint16_t x) const { return h == x.h; } friend std::ostream& operator<<(std::ostream& out, const huint16_t& a) { return out << a.h; } struct Hash { inline size_t operator ()(huint16_t x) const { return std::hash< uint16_t >{}(x.h); } }; }; struct nuint16_t { uint16_t n; constexpr nuint16_t operator &(nuint16_t x) const { return nuint16_t{uint16_t(n & x.n)}; } constexpr nuint16_t operator |(nuint16_t x) const { return nuint16_t{uint16_t(n | x.n)}; } constexpr nuint16_t operator ~() const { return nuint16_t{uint16_t(~n)}; } inline nuint16_t operator ++() { ++n; return *this; } inline nuint16_t operator --() { --n; return *this; } constexpr bool operator <(nuint16_t x) const { return n < x.n; } constexpr bool operator ==(nuint16_t x) const { return n == x.n; } friend std::ostream& operator<<(std::ostream& out, const nuint16_t& a) { return out << ntohs(a.n); } struct Hash { inline size_t operator ()(nuint16_t x) const { return std::hash< uint16_t >{}(x.n); } }; }; // clang-format on static inline nuint32_t xhtonl(huint32_t x) { return nuint32_t{htonl(x.h)}; } static inline huint32_t xntohl(nuint32_t x) { return huint32_t{ntohl(x.n)}; } static inline nuint16_t xhtons(huint16_t x) { return nuint16_t{htons(x.h)}; } static inline huint16_t xntohs(nuint16_t x) { return huint16_t{ntohs(x.n)}; } } // namespace llarp #endif