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construct/include/ircd/net/socket.h

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// 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
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#define HAVE_IRCD_NET_SOCKET_H
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// This file is not included with the IRCd standard include stack because
// it requires symbols we can't forward declare without boost headers. It
// is part of the <ircd/asio.h> stack which can be included in your
// definition file if you need low level access to this socket API.
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namespace ircd::net
{
extern conf::item<std::string> ssl_curve_list;
extern conf::item<std::string> ssl_cipher_list;
extern conf::item<std::string> ssl_cipher_blacklist;
extern asio::ssl::context sslv23_client;
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}
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/// Internal socket interface
///
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struct ircd::net::socket
:std::enable_shared_from_this<ircd::net::socket>
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{
struct io;
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struct stat;
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struct xfer;
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using endpoint = ip::tcp::endpoint;
using wait_type = ip::tcp::socket::wait_type;
using message_flags = asio::socket_base::message_flags;
using handshake_type = asio::ssl::stream<ip::tcp::socket>::handshake_type;
using ec_handler = std::function<void (const error_code &)>;
using eptr_handler = std::function<void (std::exception_ptr)>;
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struct stat
{
size_t bytes {0};
size_t calls {0};
};
static uint64_t count; // monotonic
static uint64_t instances; // current socket count
uint64_t id {++count};
ip::tcp::socket sd;
asio::ssl::stream<ip::tcp::socket &> ssl;
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stat in, out;
steady_timer timer;
uint64_t timer_sem[2] {0}; // handler, sender
bool timer_set {false}; // boolean lockout
bool timedout {false};
bool fini {false};
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void call_user(const eptr_handler &, const error_code &) noexcept;
void call_user(const ec_handler &, const error_code &) noexcept;
bool handle_verify(bool, asio::ssl::verify_context &, const open_opts &) noexcept;
void handle_disconnect(std::shared_ptr<socket>, eptr_handler, error_code) noexcept;
void handle_handshake(std::weak_ptr<socket>, eptr_handler, error_code) noexcept;
void handle_connect(std::weak_ptr<socket>, const open_opts &, eptr_handler, error_code) noexcept;
void handle_timeout(std::weak_ptr<socket>, ec_handler, error_code) noexcept;
void handle_ready(std::weak_ptr<socket>, ready, ec_handler, error_code, size_t) noexcept;
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public:
operator const ip::tcp::socket &() const { return sd; }
operator ip::tcp::socket &() { return sd; }
operator const SSL &() const;
operator SSL &();
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endpoint remote() const; // getpeername(); throws if not conn
endpoint local() const; // getsockname(); throws if not conn/bound
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// Timer for this socket
void set_timeout(const milliseconds &, ec_handler);
void set_timeout(const milliseconds &);
milliseconds cancel_timeout() noexcept;
// low level write suite
template<class iov> size_t write_one(iov&&); // non-blocking
template<class iov> size_t write_any(iov&&); // non-blocking
template<class iov> size_t write_few(iov&&); // yielding
template<class iov> size_t write_all(iov&&); // yielding
// low level read suite
template<class iov> size_t read_one(iov&&); // non-blocking
template<class iov> size_t read_any(iov&&); // non-blocking
template<class iov> size_t read_few(iov&&); // yielding
template<class iov> size_t read_all(iov&&); // yielding
// low level check suite
error_code check(std::nothrow_t, const ready &) noexcept;
void check(const ready &);
// low level wait suite
void wait(const wait_opts &);
void wait(const wait_opts &, wait_callback_ec);
void wait(const wait_opts &, wait_callback_eptr);
void cancel() noexcept;
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// Alias to wait()
template<class... args> auto operator()(args&&...);
void disconnect(const close_opts &, eptr_handler);
void handshake(const open_opts &, eptr_handler);
void connect(const endpoint &, const open_opts &, eptr_handler);
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socket(asio::ssl::context & = sslv23_client,
boost::asio::io_service & = ios::get());
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// Socket cannot be copied or moved; must be constructed as shared ptr
socket(socket &&) = delete;
socket(const socket &) = delete;
socket &operator=(socket &&) = delete;
socket &operator=(const socket &) = delete;
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~socket() noexcept;
};
template<class... args>
auto
ircd::net::socket::operator()(args&&... a)
{
return this->wait(std::forward<args>(a)...);
}
/// Yields ircd::ctx until buffers are full.
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template<class iov>
size_t
ircd::net::socket::read_all(iov&& bufs)
try
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{
static const auto completion
{
asio::transfer_all()
};
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const auto interruption{[this]
(ctx::ctx *const &)
{
this->cancel();
}};
size_t ret; continuation
{
continuation::asio_predicate, interruption, [this, &ret, &bufs]
(auto &yield)
{
ret = asio::async_read(ssl, std::forward<iov>(bufs), completion, yield);
}
};
if(!ret)
throw std::system_error
{
boost::asio::error::eof, boost::asio::error::get_misc_category()
};
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in.bytes += ret;
++in.calls;
return ret;
}
catch(const boost::system::system_error &e)
{
throw_system_error(e);
}
/// Yields ircd::ctx until remote has sent at least some data.
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template<class iov>
size_t
ircd::net::socket::read_few(iov&& bufs)
try
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{
const auto interruption{[this]
(ctx::ctx *const &)
{
this->cancel();
}};
size_t ret; continuation
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{
continuation::asio_predicate, interruption, [this, &ret, &bufs]
(auto &yield)
{
ret = ssl.async_read_some(std::forward<iov>(bufs), yield);
}
};
if(!ret)
throw std::system_error
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{
asio::error::eof, asio::error::get_misc_category()
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};
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in.bytes += ret;
++in.calls;
return ret;
}
catch(const boost::system::system_error &e)
{
throw_system_error(e);
}
/// Non-blocking; as much as possible without blocking
template<class iov>
size_t
ircd::net::socket::read_any(iov&& bufs)
{
assert(!blocking(*this));
static const auto completion
{
asio::transfer_all()
};
boost::system::error_code ec;
const size_t ret
{
asio::read(ssl, std::forward<iov>(bufs), completion, ec)
};
in.bytes += ret;
++in.calls;
if(likely(!ec))
return ret;
if(ec == boost::system::errc::resource_unavailable_try_again)
return ret;
throw_system_error(ec);
__builtin_unreachable();
}
/// Non-blocking; One system call only; never throws eof;
template<class iov>
size_t
ircd::net::socket::read_one(iov&& bufs)
{
assert(!blocking(*this));
boost::system::error_code ec;
const size_t ret
{
ssl.read_some(std::forward<iov>(bufs), ec)
};
in.bytes += ret;
++in.calls;
if(likely(!ec))
return ret;
if(ec == boost::system::errc::resource_unavailable_try_again)
return ret;
throw_system_error(ec);
__builtin_unreachable();
}
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/// Yields ircd::ctx until all buffers are sent.
template<class iov>
size_t
ircd::net::socket::write_all(iov&& bufs)
try
{
static const auto completion
{
asio::transfer_all()
};
const auto interruption{[this]
(ctx::ctx *const &)
{
this->cancel();
}};
size_t ret; continuation
{
continuation::asio_predicate, interruption, [this, &ret, &bufs]
(auto &yield)
{
ret = asio::async_write(ssl, std::forward<iov>(bufs), completion, yield);
}
};
out.bytes += ret;
++out.calls;
return ret;
}
catch(const boost::system::system_error &e)
{
throw_system_error(e);
}
/// Yields ircd::ctx until one or more bytes are sent.
template<class iov>
size_t
ircd::net::socket::write_few(iov&& bufs)
try
{
const auto interruption{[this]
(ctx::ctx *const &)
{
this->cancel();
}};
size_t ret; continuation
{
continuation::asio_predicate, interruption, [this, &ret, &bufs]
(auto &yield)
{
ret = ssl.async_write_some(std::forward<iov>(bufs), yield);
}
};
out.bytes += ret;
++out.calls;
return ret;
}
catch(const boost::system::system_error &e)
{
throw_system_error(e);
}
/// Non-blocking; writes as much as possible without blocking
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template<class iov>
size_t
ircd::net::socket::write_any(iov&& bufs)
try
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{
static const auto completion
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{
asio::transfer_all()
};
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assert(!blocking(*this));
const size_t ret
{
asio::write(ssl, std::forward<iov>(bufs), completion)
};
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out.bytes += ret;
++out.calls;
return ret;
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}
catch(const boost::system::system_error &e)
{
throw_system_error(e);
}
/// Non-blocking; Writes one "unit" of data or less; never more.
template<class iov>
size_t
ircd::net::socket::write_one(iov&& bufs)
try
{
assert(!blocking(*this));
const size_t ret
{
ssl.write_some(std::forward<iov>(bufs))
};
out.bytes += ret;
++out.calls;
return ret;
}
catch(const boost::system::system_error &e)
{
throw_system_error(e);
}