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construct/ircd/net.cc

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2017-09-30 08:04:41 +02:00
/*
* Copyright (C) 2017 Charybdis Development Team
* Copyright (C) 2017 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.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <ircd/asio.h>
///////////////////////////////////////////////////////////////////////////////
//
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// net/net.h
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//
namespace ircd::net
{
ip::tcp::resolver *resolver;
}
/// Network subsystem initialization
///
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ircd::net::init::init()
{
net::resolver = new ip::tcp::resolver{*ircd::ios};
}
/// Network subsystem shutdown
///
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ircd::net::init::~init()
{
assert(net::resolver);
delete net::resolver;
net::resolver = nullptr;
}
//
// host / port utils
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//
std::string
ircd::net::string(const hostport &pair)
{
std::string ret(256, char{});
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ret.resize(string(pair, mutable_buffer{ret}).size());
return ret;
}
ircd::string_view
ircd::net::string(const hostport &pair,
const mutable_buffer &buf)
{
const auto len
{
fmt::sprintf(buf, "%s:%u", pair.first, pair.second)
};
return { data(buf), size_t(len) };
}
//
// socket (public)
//
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size_t
ircd::net::read(socket &socket,
iov<mutable_buffer> &bufs)
{
const size_t read(socket.read_some(bufs));
const size_t consumed(buffer::consume(bufs, read));
assert(read == consumed);
return read;
}
size_t
ircd::net::read(socket &socket,
const iov<mutable_buffer> &bufs)
{
return socket.read(bufs);
}
size_t
ircd::net::read(socket &socket,
const mutable_buffer &buf)
{
const ilist<mutable_buffer> bufs{buf};
return socket.read(bufs);
}
size_t
ircd::net::write(socket &socket,
iov<const_buffer> &bufs)
{
const size_t wrote(socket.write_some(bufs));
const size_t consumed(consume(bufs, wrote));
assert(wrote == consumed);
return consumed;
}
size_t
ircd::net::write(socket &socket,
const iov<const_buffer> &bufs)
{
const size_t wrote(socket.write(bufs));
assert(wrote == size(bufs));
return wrote;
}
size_t
ircd::net::write(socket &socket,
const const_buffer &buf)
{
const ilist<const_buffer> bufs{buf};
const size_t wrote(socket.write(bufs));
assert(wrote == size(bufs));
return wrote;
}
size_t
ircd::net::write(socket &socket,
const ilist<const_buffer> &bufs)
{
const size_t wrote(socket.write(bufs));
assert(wrote == size(bufs));
return wrote;
}
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///////////////////////////////////////////////////////////////////////////////
//
// net/listener.h
//
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//
// ircd::net::listener
//
ircd::net::listener::listener(const std::string &opts)
:listener{json::object{opts}}
{
}
ircd::net::listener::listener(const json::object &opts)
:acceptor{std::make_unique<struct acceptor>(opts)}
{
}
ircd::net::listener::~listener()
noexcept
{
}
//
// ircd::net::listener::acceptor
//
struct ircd::net::listener::acceptor
{
using error_code = boost::system::error_code;
static log::log log;
std::string name;
size_t backlog;
asio::ssl::context ssl;
ip::tcp::endpoint ep;
ip::tcp::acceptor a;
explicit operator std::string() const;
void configure(const json::object &opts);
// Handshake stack
bool handshake_error(const error_code &ec);
void handshake(const error_code &ec, std::shared_ptr<socket>) noexcept;
// Acceptance stack
bool accept_error(const error_code &ec);
void accept(const error_code &ec, std::shared_ptr<socket>) noexcept;
// Accept next
void next();
acceptor(const json::object &opts);
~acceptor() noexcept;
};
//
// ircd::net::listener::acceptor
//
ircd::log::log
ircd::net::listener::acceptor::log
{
"listener"
};
ircd::net::listener::acceptor::acceptor(const json::object &opts)
try
:name
{
unquote(opts.get("name", "IRCd (ssl)"s))
}
,backlog
{
opts.get<size_t>("backlog", asio::socket_base::max_connections - 2)
}
,ssl
{
asio::ssl::context::method::sslv23_server
}
,ep
{
ip::address::from_string(unquote(opts.get("host", "127.0.0.1"s))),
opts.get<uint16_t>("port", 6667)
}
,a
{
*ircd::ios
}
{
static const ip::tcp::acceptor::reuse_address reuse_address{true};
configure(opts);
log.debug("%s configured listener SSL",
std::string(*this));
a.open(ep.protocol());
a.set_option(reuse_address);
log.debug("%s opened listener socket",
std::string(*this));
a.bind(ep);
log.debug("%s bound listener socket",
std::string(*this));
a.listen(backlog);
log.debug("%s listening (backlog: %lu)",
std::string(*this),
backlog);
next();
}
catch(const boost::system::system_error &e)
{
throw error("listener: %s", e.what());
}
ircd::net::listener::acceptor::~acceptor()
noexcept
{
a.cancel();
}
void
ircd::net::listener::acceptor::next()
try
{
auto sock(std::make_shared<ircd::socket>(ssl));
log.debug("%s: listening with next socket(%p)",
std::string(*this),
sock.get());
// The context blocks here until the next client is connected.
auto accept(std::bind(&acceptor::accept, this, ph::_1, sock));
a.async_accept(sock->sd, accept);
}
catch(const std::exception &e)
{
log.critical("%s: %s",
std::string(*this),
e.what());
if(ircd::debugmode)
throw;
}
void
ircd::net::listener::acceptor::accept(const error_code &ec,
const std::shared_ptr<socket> sock)
noexcept try
{
if(accept_error(ec))
return;
log.debug("%s: accepted %s",
std::string(*this),
string(sock->remote()));
//static const asio::socket_base::keep_alive keep_alive(true);
//sock->sd.set_option(keep_alive);
//static const asio::socket_base::linger linger(true, 30);
//sock->sd.set_option(linger);
//sock->sd.non_blocking(false);
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static const auto handshake_type
{
socket::handshake_type::server
};
auto handshake
{
std::bind(&acceptor::handshake, this, ph::_1, sock)
};
sock->ssl.async_handshake(handshake_type, std::move(handshake));
next();
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}
catch(const std::exception &e)
{
log.error("%s: in accept(): socket(%p): %s",
std::string(*this),
sock.get(),
e.what());
next();
}
bool
ircd::net::listener::acceptor::accept_error(const error_code &ec)
{
switch(ec.value())
{
using namespace boost::system::errc;
case success:
return false;
case operation_canceled:
return true;
default:
throw boost::system::system_error(ec);
}
}
void
ircd::net::listener::acceptor::handshake(const error_code &ec,
const std::shared_ptr<socket> sock)
noexcept try
{
if(handshake_error(ec))
return;
log.debug("%s SSL handshook %s",
std::string(*this),
string(sock->remote()));
add_client(sock);
}
catch(const std::exception &e)
{
log.error("%s: in handshake(): socket(%p)[%s]: %s",
std::string(*this),
sock.get(),
sock->connected()? string(sock->remote()) : "<gone>",
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e.what());
}
bool
ircd::net::listener::acceptor::handshake_error(const error_code &ec)
{
switch(ec.value())
{
using namespace boost::system::errc;
case success:
return false;
case operation_canceled:
return true;
default:
throw boost::system::system_error(ec);
}
}
void
ircd::net::listener::acceptor::configure(const json::object &opts)
{
log.debug("%s preparing listener socket configuration...",
std::string(*this));
ssl.set_options
(
//ssl.default_workarounds
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//| ssl.no_tlsv1
//| ssl.no_tlsv1_1
//| ssl.no_tlsv1_2
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//| ssl.no_sslv2
//| ssl.no_sslv3
ssl.single_dh_use
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);
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//TODO: XXX
ssl.set_password_callback([this]
(const auto &size, const auto &purpose)
{
log.debug("%s asking for password with purpose '%s' (size: %zu)",
std::string(*this),
purpose,
size);
//XXX: TODO
return "foobar";
});
if(opts.has("ssl_certificate_chain_file"))
{
const std::string filename
{
unquote(opts["ssl_certificate_chain_file"])
};
ssl.use_certificate_chain_file(filename);
log.info("%s using certificate chain file '%s'",
std::string(*this),
filename);
}
if(opts.has("ssl_certificate_file_pem"))
{
const std::string filename
{
unquote(opts["ssl_certificate_file_pem"])
};
ssl.use_certificate_file(filename, asio::ssl::context::pem);
log.info("%s using certificate file '%s'",
std::string(*this),
filename);
}
if(opts.has("ssl_private_key_file_pem"))
{
const std::string filename
{
unquote(opts["ssl_private_key_file_pem"])
};
ssl.use_private_key_file(filename, asio::ssl::context::pem);
log.info("%s using private key file '%s'",
std::string(*this),
filename);
}
if(opts.has("ssl_tmp_dh_file"))
{
const std::string filename
{
unquote(opts["ssl_tmp_dh_file"])
};
ssl.use_tmp_dh_file(filename);
log.info("%s using tmp dh file '%s'",
std::string(*this),
filename);
}
}
ircd::net::listener::acceptor::operator std::string()
const
{
std::string ret(256, char{});
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const auto length
{
fmt::sprintf(mutable_buffer{ret}, "'%s' @ [%s]:%u",
name,
string(ep.address()),
ep.port())
};
ret.resize(length);
return ret;
}
///////////////////////////////////////////////////////////////////////////////
//
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// net/socket.h
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//
boost::asio::ssl::context
ircd::net::sslv23_client
{
boost::asio::ssl::context::method::sslv23_client
};
size_t
ircd::net::available(const socket &s)
noexcept
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{
boost::system::error_code ec;
return s.sd.available(ec);
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}
ircd::net::hostport
ircd::net::local_hostport(const socket &socket)
{
const auto &ep(socket.local());
return { hostaddr(ep), port(ep) };
}
ircd::net::hostport
ircd::net::remote_hostport(const socket &socket)
{
const auto &ep(socket.remote());
return { hostaddr(ep), port(ep) };
}
bool
ircd::net::connected(const socket &s)
noexcept
{
return s.connected();
}
uint16_t
ircd::net::port(const ip::tcp::endpoint &ep)
{
return ep.port();
}
std::string
ircd::net::hostaddr(const ip::tcp::endpoint &ep)
{
return string(address(ep));
}
std::string
ircd::net::string(const ip::address &addr)
{
return addr.to_string();
}
std::string
ircd::net::string(const ip::tcp::endpoint &ep)
{
std::string ret(256, char{});
const auto addr{string(address(ep))};
const auto data{const_cast<char *>(ret.data())};
ret.resize(snprintf(data, ret.size(), "%s:%u", addr.c_str(), port(ep)));
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return ret;
}
boost::asio::ip::address
ircd::net::address(const ip::tcp::endpoint &ep)
{
return ep.address();
}
//
// socket::io
//
ircd::net::socket::io::io(struct socket &sock,
struct stat &stat,
const std::function<size_t ()> &closure)
:io
{
sock, stat, closure()
}
{}
ircd::net::socket::io::io(struct socket &sock,
struct stat &stat,
const size_t &bytes)
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:sock{sock}
,stat{stat}
,bytes{bytes}
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{
stat.bytes += bytes;
stat.calls++;
}
ircd::net::socket::io::operator size_t()
const
{
return bytes;
}
//
// socket::scope_timeout
//
ircd::net::socket::scope_timeout::scope_timeout(socket &socket,
const milliseconds &timeout)
:s{&socket}
{
socket.set_timeout(timeout, [&socket]
(const error_code &ec)
{
if(!ec)
socket.sd.cancel();
});
}
ircd::net::socket::scope_timeout::scope_timeout(socket &socket,
const milliseconds &timeout,
socket::handler handler)
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:s{&socket}
{
socket.set_timeout(timeout, std::move(handler));
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}
ircd::net::socket::scope_timeout::scope_timeout(scope_timeout &&other)
noexcept
:s{std::move(other.s)}
{
other.s = nullptr;
}
ircd::net::socket::scope_timeout &
ircd::net::socket::scope_timeout::operator=(scope_timeout &&other)
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noexcept
{
this->~scope_timeout();
s = std::move(other.s);
return *this;
}
ircd::net::socket::scope_timeout::~scope_timeout()
noexcept try
{
if(s)
s->timer.cancel();
}
catch(const std::exception &e)
{
log::error("socket(%p) ~scope_timeout: %s",
(const void *)s,
e.what());
return;
}
bool
ircd::net::socket::scope_timeout::cancel()
noexcept try
{
if(!this->s)
return false;
auto *const s{this->s};
this->s = nullptr;
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s->timer.cancel();
return true;
}
catch(const std::exception &e)
{
log::error("socket(%p) scope_timeout::cancel: %s",
(const void *)s,
e.what());
return false;
}
bool
ircd::net::socket::scope_timeout::release()
{
const auto s{this->s};
this->s = nullptr;
return s != nullptr;
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}
//
// socket
//
ircd::net::socket::socket(const std::string &host,
const uint16_t &port,
const milliseconds &timeout,
asio::ssl::context &ssl,
boost::asio::io_service *const &ios)
:socket
{
[&host, &port]() -> ip::tcp::endpoint
{
assert(resolver);
const ip::tcp::resolver::query query(host, string(lex_cast(port)));
auto epit(resolver->async_resolve(query, yield_context{to_asio{}}));
static const ip::tcp::resolver::iterator end;
if(epit == end)
throw nxdomain("host '%s' not found", host.data());
log::debug("resolved remote %s:%u => %s",
host,
port,
string(*epit));
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return *epit;
}(),
timeout,
ssl,
ios
}
{
}
ircd::net::socket::socket(const ip::tcp::endpoint &remote,
const milliseconds &timeout,
asio::ssl::context &ssl,
boost::asio::io_service *const &ios)
try
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:socket{ssl, ios}
{
log::debug("socket(%p) attempting connect to remote: %s for the next %ld$ms",
this,
string(remote),
timeout.count());
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connect(remote, timeout);
log::debug("socket(%p) connected to remote: %s from local: %s",
this,
string(remote),
string(local()));
}
catch(const std::exception &e)
{
log::debug("socket(%p) failed to connect to remote %s: %s",
this,
string(remote),
e.what());
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}
ircd::net::socket::socket(asio::ssl::context &ssl,
boost::asio::io_service *const &ios)
:ssl
{
*ios, ssl
}
,sd
{
this->ssl.next_layer()
}
,timer
{
*ios
}
,timedout
{
false
}
{
}
ircd::net::socket::~socket()
noexcept try
{
disconnect(dc::RST);
}
catch(const boost::system::system_error &e)
{
log::debug("socket(%p): close: %s", this, e.what());
return;
}
catch(const std::exception &e)
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{
log::error("socket(%p): close: %s", this, e.what());
return;
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}
/// Attempt to connect and ssl handshake remote; yields ircd::ctx; throws timeout
///
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void
ircd::net::socket::connect(const ip::tcp::endpoint &ep,
const milliseconds &timeout)
{
const scope_timeout ts(*this, timeout);
sd.async_connect(ep, yield_context{to_asio{}});
ssl.async_handshake(socket::handshake_type::client, yield_context{to_asio{}});
}
/// Attempt to connect and ssl handshake; asynchronous, callback when done.
///
void
ircd::net::socket::connect(const ip::tcp::endpoint &ep,
const milliseconds &timeout,
handler callback)
{
auto handshake_handler{[this, callback(std::move(callback))]
(const error_code &ec)
noexcept
{
if(!timedout)
cancel_timeout();
else
assert(ec == boost::system::errc::operation_canceled);
callback(ec);
}};
auto connect_handler{[this, handshake_handler(std::move(handshake_handler))]
(const error_code &ec)
noexcept
{
if(ec)
{
handshake_handler(ec);
return;
}
static const auto handshake{socket::handshake_type::client};
ssl.async_handshake(handshake, std::move(handshake_handler));
}};
set_timeout(timeout);
sd.async_connect(ep, std::move(connect_handler));
}
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void
ircd::net::socket::disconnect(const dc &type)
{
if(timer.expires_from_now() > 0ms)
timer.cancel();
if(sd.is_open())
log::debug("socket(%p): disconnect: %s type: %d",
(const void *)this,
string(remote()),
uint(type));
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if(sd.is_open()) switch(type)
{
default:
case dc::RST:
sd.close();
break;
case dc::FIN:
sd.shutdown(ip::tcp::socket::shutdown_both);
break;
case dc::FIN_SEND:
sd.shutdown(ip::tcp::socket::shutdown_send);
break;
case dc::FIN_RECV:
sd.shutdown(ip::tcp::socket::shutdown_receive);
break;
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case dc::SSL_NOTIFY:
{
ssl.async_shutdown([s(shared_from_this())]
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(boost::system::error_code ec)
{
if(!ec)
s->sd.close(ec);
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if(ec)
log::warning("socket(%p): disconnect(): %s",
s.get(),
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ec.message());
});
break;
}
case dc::SSL_NOTIFY_YIELD:
{
ssl.async_shutdown(yield_context{to_asio{}});
sd.close();
break;
}
}
}
bool
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ircd::net::socket::cancel()
noexcept
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{
boost::system::error_code ec[2];
timer.cancel(ec[0]);
sd.cancel(ec[1]);
return std::all_of(begin(ec), end(ec), [](const auto &ec)
{
return ec == boost::system::errc::success;
});
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}
/// Asynchronous callback when the socket is ready
///
/// Overload for operator() without a timeout. see: operator()
///
void
ircd::net::socket::operator()(handler h)
{
operator()(milliseconds(-1), std::move(h));
}
/// Asynchronous callback when the socket is ready
///
/// This function calls back the handler when the socket has received
/// something and is ready to be read from.
///
/// The purpose here is to allow waiting for data from the socket without
/// blocking any context and using any stack space whatsoever, i.e full
/// asynchronous mode.
///
/// boost::asio has no direct way to accomplish this because the buffer size
/// must be positive so we use a little trick to read a single byte with
/// MSG_PEEK as our indication. This is done directly on the socket and
/// not through the SSL cipher, but we don't want this byte anyway. This
/// isn't such a great trick.
///
void
ircd::net::socket::operator()(const milliseconds &timeout,
handler callback)
{
static const auto flags
{
ip::tcp::socket::message_peek
};
static char buffer[1];
static const asio::mutable_buffers_1 buffers
{
buffer, sizeof(buffer)
};
auto handler
{
std::bind(&socket::handle, this, weak_from(*this), std::move(callback), ph::_1, ph::_2)
};
set_timeout(timeout);
sd.async_receive(buffers, flags, std::move(handler));
}
void
ircd::net::socket::handle(const std::weak_ptr<socket> wp,
const handler callback,
const error_code &ec,
const size_t &bytes)
noexcept try
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{
const life_guard<socket> s{wp};
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// This handler and the timeout handler are responsible for canceling each other
// when one or the other is entered. If the timeout handler has already fired for
// a timeout on the socket, `timedout` will be `true` and this handler will be
// entered with an `operation_canceled` error.
if(!timedout)
timer.cancel();
else
assert(ec == boost::system::errc::operation_canceled);
// We can handle a few errors at this level which don't ever need to invoke the
// user's callback. Otherwise they are passed up.
if(!handle_error(ec))
{
log::debug("socket(%p): %s", this, ec.message());
return;
}
call_user(callback, ec);
}
catch(const std::bad_weak_ptr &e)
{
// This handler may still be registered with asio after the socket destructs, so
// the weak_ptr will indicate that fact. However, this is never intended and is
// a debug assertion which should be corrected.
log::warning("socket(%p): belated callback to handler... (%s)",
this,
e.what());
assert(0);
}
catch(const std::exception &e)
{
log::error("socket(%p): handle: %s",
this,
e.what());
assert(0);
}
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void
ircd::net::socket::call_user(const handler &callback,
const error_code &ec)
noexcept try
{
callback(ec);
}
catch(const std::exception &e)
{
log::error("socket(%p): async handler: unhandled exception: %s",
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this,
e.what());
}
bool
ircd::net::socket::handle_error(const error_code &ec)
{
using namespace boost::system::errc;
switch(ec.value())
{
// A success is not an error; can call the user handler
case success:
return true;
// A cancel is triggered either by the timeout handler or by
// a request to shutdown/close the socket. We only call the user's
// handler for a timeout, otherwise this is hidden from the user.
case operation_canceled:
return timedout;
// This indicates the remote closed the socket, we still
// pass this up to the user so they can handle it.
case boost::asio::error::eof:
return true;
// This is a condition which we hide from the user.
case bad_file_descriptor:
return false;
// Everything else is passed up to the user.
default:
return true;
}
}
void
ircd::net::socket::handle_timeout(const std::weak_ptr<socket> wp,
const error_code &ec)
noexcept try
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{
using namespace boost::system::errc;
if(!wp.expired()) switch(ec.value())
{
// A 'success' for this handler means there was a timeout on the socket
case success:
timedout = true;
sd.cancel();
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break;
// A cancelation means there was no timeout.
case operation_canceled:
timedout = false;
break;
// All other errors are unexpected, logged and ignored here.
default:
throw boost::system::system_error(ec);
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}
}
catch(const boost::system::system_error &e)
{
log::error("socket(%p): handle_timeout: unexpected: %s\n",
(const void *)this,
e.what());
}
catch(const std::exception &e)
{
log::error("socket(%p): handle timeout: %s",
(const void *)this,
e.what());
}
size_t
ircd::net::socket::available()
const
{
return sd.available();
}
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bool
ircd::net::socket::connected()
const noexcept try
{
return sd.is_open();
}
catch(const boost::system::system_error &e)
{
return false;
}
ircd::net::error_code
ircd::net::socket::cancel_timeout()
noexcept
{
boost::system::error_code ec;
timer.cancel(ec);
return ec;
}
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void
ircd::net::socket::set_timeout(const milliseconds &t)
{
if(t < milliseconds(0))
return;
timer.expires_from_now(t);
timer.async_wait(std::bind(&socket::handle_timeout, this, weak_from(*this), ph::_1));
}
void
ircd::net::socket::set_timeout(const milliseconds &t,
handler h)
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{
if(t < milliseconds(0))
return;
timer.expires_from_now(t);
timer.async_wait(std::move(h));
}
///////////////////////////////////////////////////////////////////////////////
//
// buffer.h - provide definition for the null buffers and asio conversion
//
const ircd::buffer::mutable_buffer
ircd::buffer::null_buffer
{
nullptr, nullptr
};
const ircd::ilist<ircd::buffer::mutable_buffer>
ircd::buffer::null_buffers
{{
null_buffer
}};
ircd::buffer::mutable_buffer::operator
boost::asio::mutable_buffer()
const
{
return boost::asio::mutable_buffer
{
data(*this), size(*this)
};
}
ircd::buffer::const_buffer::operator
boost::asio::const_buffer()
const
{
return boost::asio::const_buffer
{
data(*this), size(*this)
};
}
ircd::buffer::mutable_raw_buffer::operator
boost::asio::mutable_buffer()
const
{
return boost::asio::mutable_buffer
{
data(*this), size(*this)
};
}
ircd::buffer::const_raw_buffer::operator
boost::asio::const_buffer()
const
{
return boost::asio::const_buffer
{
data(*this), size(*this)
};
}