#include #include namespace llarp { IpAddress::IpAddress(std::string_view str) { setAddress(str); } IpAddress::IpAddress(const IpAddress& other) : m_empty(other.m_empty), m_ipAddress(other.m_ipAddress), m_port(other.m_port) {} IpAddress::IpAddress(std::string_view str, std::optional port) { setAddress(str, port); } IpAddress::IpAddress(const SockAddr& addr) { m_ipAddress = addr.toString(); uint16_t port = addr.getPort(); if (port > 0) m_port = port; m_empty = addr.isEmpty(); } IpAddress& IpAddress::operator=(IpAddress&& other) { m_ipAddress = std::move(other.m_ipAddress); m_port = std::move(other.m_port); m_empty = other.m_empty; other.m_empty = false; return *this; } IpAddress& IpAddress::operator=(const sockaddr& other) { SockAddr addr(other); m_ipAddress = addr.toString(); uint16_t port = addr.getPort(); if (port > 0) m_port = port; m_empty = addr.isEmpty(); return *this; } IpAddress& IpAddress::operator=(const IpAddress& other) { m_empty = other.m_empty; m_ipAddress = other.m_ipAddress; m_port = other.m_port; return *this; } std::optional IpAddress::getPort() const { return m_port; } void IpAddress::setPort(std::optional port) { m_port = port; } void IpAddress::setAddress(std::string_view str) { SockAddr addr; addr.fromString(str); m_ipAddress = std::string(str); uint16_t port = addr.getPort(); if (port > 0) m_port = port; m_empty = addr.isEmpty(); } void IpAddress::setAddress(std::string_view str, std::optional port) { SockAddr addr; addr.fromString(str); m_ipAddress = std::string(str); m_port = port; m_empty = addr.isEmpty(); } bool IpAddress::isIPv4() { throw std::runtime_error("FIXME - IpAddress::isIPv4()"); } bool IpAddress::isEmpty() const { return m_empty; } SockAddr IpAddress::createSockAddr() const { SockAddr addr(m_ipAddress); if (m_port) addr.setPort(*m_port); return addr; } bool IpAddress::isBogon() const { SockAddr addr(m_ipAddress); const sockaddr_in6* addr6 = addr; const uint8_t* raw = addr6->sin6_addr.s6_addr; return IsIPv4Bogon(ipaddr_ipv4_bits(raw[12], raw[13], raw[14], raw[15])); } std::string IpAddress::toString() const { return m_ipAddress; // TODO: port } bool IpAddress::hasPort() const { return m_port.has_value(); } std::string IpAddress::toHost() const { const auto pos = m_ipAddress.find(":"); if (pos != std::string::npos) { return m_ipAddress.substr(0, pos); } return m_ipAddress; } huint32_t IpAddress::toIP() const { huint32_t ip; ip.FromString(toHost()); return ip; } huint128_t IpAddress::toIP6() const { huint128_t ip; ip.FromString(m_ipAddress); return ip; } bool IpAddress::operator<(const IpAddress& other) const { return createSockAddr() < other.createSockAddr(); } bool IpAddress::operator==(const IpAddress& other) const { return createSockAddr() == other.createSockAddr(); } std::ostream& operator<<(std::ostream& out, const IpAddress& address) { out << address.toString(); return out; } } // namespace llarp