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construct/include/ircd/net/ipport.h

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2018-02-04 03:22:01 +01:00
// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
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#pragma once
#define HAVE_IRCD_NET_IPPORT_H
namespace ircd::net
{
struct ipport;
const uint128_t &host6(const ipport &);
const uint32_t &host4(const ipport &);
uint128_t &host6(ipport &);
uint32_t &host4(ipport &);
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const uint16_t &port(const ipport &);
uint16_t &port(ipport &);
bool is_loop(const ipport &);
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bool is_v6(const ipport &);
bool is_v4(const ipport &);
string_view string(const mutable_buffer &out, const ipport &);
std::ostream &operator<<(std::ostream &, const ipport &);
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}
namespace ircd
{
using net::ipport;
using net::host;
using net::port;
}
/// This lightweight structure holds an IP address and port in native byte
/// form. It is usually returned from the result of a resolution but may also
/// serve as input to a reverse resolution. Either way, this allocation-free
/// structure is useful for storing raw IP/port data, even in large sets.
///
struct ircd::net::ipport
:std::pair<ipaddr, uint16_t>
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{
enum { IP, PORT };
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struct cmp;
struct cmp_ip;
struct cmp_port;
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explicit operator bool() const;
bool operator!() const { return !static_cast<bool>(*this); }
template<class iparg> ipport(iparg&&, const uint16_t &port);
template<class iparg> ipport(iparg&&, const string_view &port);
ipport(const string_view &amalgam);
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ipport();
};
struct ircd::net::ipport::cmp_port
{
bool operator()(const ipport &a, const ipport &b) const;
};
struct ircd::net::ipport::cmp_ip
{
bool operator()(const ipport &a, const ipport &b) const;
};
struct ircd::net::ipport::cmp
:std::less<ipport>
{
using std::less<ipport>::less;
};
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inline
ircd::net::ipport::ipport()
:std::pair<ipaddr, uint16_t>
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{
{}, 0
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}
{}
inline
ircd::net::ipport::ipport(const string_view &amalgam)
:std::pair<ipaddr, uint16_t>
{
rfc3986::host(amalgam), rfc3986::port(amalgam)
}
{}
template<class iparg>
ircd::net::ipport::ipport(iparg&& arg,
const string_view &port)
:ipport
{
std::forward<iparg>(arg), lex_cast<uint16_t>(port)
}
{}
template<class iparg>
ircd::net::ipport::ipport(iparg&& arg,
const uint16_t &port)
:std::pair<ipaddr, uint16_t>
{
std::forward<iparg>(arg), port
}
{}
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inline ircd::net::ipport::operator
bool()
const
{
return host6(*this) != uint128_t(0);
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}
inline ircd::uint128_t &
ircd::net::host6(ipport &ipp)
{
return host6(std::get<ipp.IP>(ipp));
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}
inline const ircd::uint128_t &
ircd::net::host6(const ipport &ipp)
{
return host6(std::get<ipp.IP>(ipp));
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}
inline bool
ircd::net::is_v6(const ipport &ipp)
{
return is_v6(std::get<ipp.IP>(ipp));
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}
inline uint32_t &
ircd::net::host4(ipport &ipp)
{
return host4(std::get<ipp.IP>(ipp));
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}
inline const uint32_t &
ircd::net::host4(const ipport &ipp)
{
return host4(std::get<ipp.IP>(ipp));
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}
inline bool
ircd::net::is_v4(const ipport &ipp)
{
return is_v4(std::get<ipp.IP>(ipp));
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}
inline uint16_t &
ircd::net::port(ipport &ipp)
{
return std::get<ipp.PORT>(ipp);
}
inline const uint16_t &
ircd::net::port(const ipport &ipp)
{
return std::get<ipp.PORT>(ipp);
}
inline bool
ircd::net::is_loop(const ipport &ipp)
{
return is_loop(std::get<ipp.IP>(ipp));
}