construct/ircd/client.cc

/*
 *  charybdis: an advanced ircd.
 *  client.c: Controls clients.
 *
 *  Copyright (C) 1990 Jarkko Oikarinen and University of Oulu, Co Center
 *  Copyright (C) 1996-2002 Hybrid Development Team
 *  Copyright (C) 2002-2005 ircd-ratbox development team
 *  Copyright (C) 2007 William Pitcock
 *  Copyright (C) 2016 Charybdis Development Team
 *  Copyright (C) 2016 Jason Volk <jason@zemos.net>
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307
 *  USA
 */

#include <ircd/asio.h>

namespace ircd {

// Default time limit for how long a client connection can be in "async mode"
// (or idle mode) after which it is disconnected.
const auto async_timeout
{
	300s
};

// Time limit for how long a connected client can be in "request mode." This
// should never be hit unless there's an error in the handling code.
const auto request_timeout
{
	60s
};

// The pool of request contexts. When a client makes a request it does so by acquiring
// a stack from this pool. The request handling and response logic can then be written
// in a synchronous manner as if each connection had its own thread.
ctx::pool request
{
	"request", 1_MiB
};

// Container for all active clients (connections) for iteration purposes.
client::list client::clients;

bool handle_ec_timeout(client &);
bool handle_ec_eof(client &);
bool handle_ec_success(client &);
bool handle_ec(client &, const net::error_code &);

void async_recv_next(std::shared_ptr<client>, const milliseconds &timeout);
void async_recv_next(std::shared_ptr<client>);

void disconnect(client &, const socket::dc & = socket::dc::RST);
void disconnect_all();

template<class... args> std::shared_ptr<client> make_client(args&&...);

} // namespace ircd

ircd::client::init::init()
{
	request.add(2);
}

ircd::client::init::~init()
noexcept
{
	log::debug("Interrupting %zu requests; dropping %zu requests; disconnecting %zu clients.",
	           request.active(),
	           request.pending(),
	           client::clients.size());

	request.interrupt();
	disconnect_all();
	request.join();
}

ircd::string_view
ircd::readline(client &client,
               char *&start,
               char *const &stop)
{
	auto &sock(*client.sock);

	size_t pos;
	string_view ret;
	char *const base(start); do
	{
		const std::array<mutable_buffer, 1> bufs
		{{
			{ start, stop }
		}};

		start += sock.read_some(bufs);
		ret = {base, start};
		pos = ret.find("\r\n");
	}
	while(pos != std::string_view::npos);

	return { begin(ret), std::next(begin(ret), pos + 2) };
}

char *
ircd::read(client &client,
           char *&start,
           char *const &stop)
{
	auto &sock(*client.sock);
	const std::array<mutable_buffer, 1> bufs
	{{
		{ start, stop }
	}};

	char *const base(start);
	start += sock.read_some(bufs);
	return base;
}

const char *
ircd::write(client &client,
            const char *&start,
            const char *const &stop)
{
	auto &sock(*client.sock);
	const std::array<const_buffer, 1> bufs
	{{
		{ start, stop }
	}};

	const char *const base(start);
	start += sock.write(bufs);
	return base;
}

ircd::hostport
ircd::local(const client &client)
{
	if(!client.sock)
		return { "0.0.0.0"s, 0 };

	return net::local_hostport(*client.sock);
}

ircd::hostport
ircd::remote(const client &client)
{
	if(!client.sock)
		return { "0.0.0.0"s, 0 };

	return net::remote_hostport(*client.sock);
}

ircd::http::response::write_closure
ircd::write_closure(client &client)
{
	// returns a function that can be called to send an iovector of data to a client
	return [&client](const ilist<const_buffer> &iov)
	{
		//std::cout << "<<<<" << std::endl;
		//std::cout << iov << std::endl;
		//std::cout << "----" << std::endl;
		const auto written
		{
			write(*client.sock, iov)
		};
	};
}

ircd::parse::read_closure
ircd::read_closure(client &client)
{
	static const auto handle_error([]
	(const boost::system::system_error &e)
	{
		using namespace boost::system::errc;

		switch(e.code().value())
		{
			case operation_canceled:     throw http::error(http::REQUEST_TIMEOUT);
			default:                     throw boost::system::system_error(e);
		}
	});

	// Returns a function the parser can call when it wants more data
	return [&client](char *&start, char *const &stop)
	{
		try
		{
			const char *const got(start);
			read(client, start, stop);
			//std::cout << ">>>>" << std::endl;
			//std::cout << string_view{got, start} << std::endl;
			//std::cout << "----" << std::endl;
		}
		catch(const boost::system::system_error &e)
		{
			handle_error(e);
		}
    };
}

ircd::client::client()
:client{std::shared_ptr<socket>{}}
{
}

ircd::client::client(const hostport &host_port,
                     const seconds &timeout)
:client
{
	std::make_shared<socket>(host_port.first, host_port.second, timeout)
}
{
}

ircd::client::client(std::shared_ptr<socket> sock)
:clit{clients, clients.emplace(end(clients), this)}
,sock{std::move(sock)}
,request_timer{ircd::timer::nostart}
{
}

ircd::client::~client()
noexcept
{
}

namespace ircd
{
	void handle_request(client &client, parse::capstan &pc, const http::request::head &head);
	bool handle_request(client &client, parse::capstan &pc);
}

bool
ircd::client::main()
noexcept try
{
	char buffer[8192];
	parse::buffer pb{buffer, buffer + sizeof(buffer)};
	parse::capstan pc{pb, read_closure(*this)}; do
	{
		if(!handle_request(*this, pc))
			return false;

		pb.remove();
	}
	while(pc.unparsed());

	return true;
}
catch(const boost::system::system_error &e)
{
	using boost::asio::error::eof;
	using boost::asio::error::broken_pipe;
	using boost::asio::error::connection_reset;
	using namespace boost::system::errc;

	switch(e.code().value())
	{
		case success:
			assert(0);
			return true;

		case eof:
		case broken_pipe:
		case connection_reset:
		case not_connected:
		case operation_canceled:
			return false;

		default:
			break;
	}

	log::critical("(unexpected) system_error: %s", e.what());
	if(ircd::debugmode)
		std::terminate();

	return false;
}
catch(const std::exception &e)
{
	log::error("client[%s] [500 Internal Error]: %s",
	           string(remote(*this)),
	           e.what());

	if(ircd::debugmode)
		std::terminate();

	return false;
}

bool
ircd::handle_request(client &client,
                     parse::capstan &pc)
try
{
	client.request_timer = ircd::timer{};
	client.sock->set_timeout(request_timeout, [&client]
	(const net::error_code &ec)
	{
		if(!ec)
			client.sock->cancel();
	});

	http::request
	{
		pc, nullptr, write_closure(client), [&client, &pc]
		(const auto &head)
		{
			client.sock->timer.cancel();
			handle_request(client, pc, head);
		}
	};

	return true;
}
catch(const http::error &e)
{
	log::debug("client[%s] HTTP %s in %ld$us %s",
	           string(remote(client)),
	           e.what(),
	           client.request_timer.at<microseconds>().count(),
	           e.content);

	switch(e.code)
	{
		case http::BAD_REQUEST:               return false;
		case http::INTERNAL_SERVER_ERROR:     return false;
		case http::REQUEST_TIMEOUT:           return false;
		default:                              return true;
	}
}

void
ircd::handle_request(client &client,
                     parse::capstan &pc,
                     const http::request::head &head)
{
	log::debug("client[%s] HTTP %s `%s' (content-length: %zu)",
	           string(remote(client)),
	           head.method,
	           head.path,
	           head.content_length);

	auto &resource
	{
		ircd::resource::find(head.path)
	};

	resource(client, pc, head);
}

std::shared_ptr<ircd::client>
ircd::add_client(std::shared_ptr<socket> s)
{
	const auto client
	{
		make_client(std::move(s))
	};

	log::debug("client[%s] CONNECTED local[%s]",
	           string(remote(*client)),
	           string(local(*client)));

	async_recv_next(client, async_timeout);
	return client;
}

template<class... args>
std::shared_ptr<ircd::client>
ircd::make_client(args&&... a)
{
	return std::make_shared<client>(std::forward<args>(a)...);
}

void
ircd::disconnect_all()
{
	for(auto &client : client::clients) try
	{
		disconnect(*client, socket::dc::RST);
	}
	catch(const std::exception &e)
	{
		log::warning("Error disconnecting client @%p: %s", &client, e.what());
	}
}

void
ircd::disconnect(client &client,
                 const socket::dc &type)
{
	auto &sock(*client.sock);
	sock.disconnect(type);
}

void
ircd::async_recv_next(std::shared_ptr<client> client)
{
	async_recv_next(std::move(client), milliseconds(-1));
}

///
/// This function is the basis for the client's request loop. We still use
/// an asynchronous pattern until there is activity on the socket (a request)
/// in which case the switch to synchronous mode is made by jumping into an
/// ircd::context drawn from the request pool. When the request is finished,
/// the client exits back into asynchronous mode until the next request is
/// received and rinse and repeat.
//
/// This sequence exists to avoid any possible c10k-style limitation imposed by
/// dedicating a context and its stack space to the lifetime of a connection.
/// This is similar to the thread-per-request pattern before async was in vogue.
//
/// Developers: Pay close attention to the comments to know exactly where you
/// are and what you can do at any given point in this sequence.
///
void
ircd::async_recv_next(std::shared_ptr<client> client,
                      const milliseconds &timeout)
{
	auto &sock(*client->sock);

	// This call returns immediately so we no longer block the current context and
	// its stack while waiting for activity on idle connections between requests.
	sock(timeout, [client(std::move(client)), timeout](const net::error_code &ec)
	noexcept
	{
		// Right here this handler is executing on the main stack (not in any
		// ircd::context). We handle any socket errors now, and if this function
		// returns here the client's shared_ptr may expire and that will be the
		// end of this client, socket, and connection...
		if(!handle_ec(*client, ec))
			return;

		// This call returns immediately because we can never block the main stack outside
		// of the ircd::context system. The context the closure ends up getting is the next
		// available from the request pool, which may not be available immediately so this
		// handler might be queued for some time after this call returns.
		request([client(std::move(client)), timeout]
		{
			// Right here this handler is executing on an ircd::context with its own
			// stack dedicated to the lifetime of this request. If client::main()
			// returns true, we bring the client back into async mode to wait for
			// the next request.
			if(client->main())
				async_recv_next(client, timeout);
		});
	});
}

bool
ircd::handle_ec(client &client,
                const net::error_code &ec)
{
	using namespace boost::system::errc;
	using boost::asio::error::eof;

	switch(ec.value())
	{
		case success:                return handle_ec_success(client);
		case eof:                    return handle_ec_eof(client);
		case operation_canceled:     return handle_ec_timeout(client);
		default:
		{
			log::debug("client(%p): %s", &client, ec.message());
			return false;
		}
	}
}

bool
ircd::handle_ec_success(client &client)
{
	return true;
}

bool
ircd::handle_ec_eof(client &client)
try
{
	log::debug("client[%s]: EOF",
	           string(remote(client)));

	client.sock->disconnect(socket::FIN_RECV);
	return false;
}
catch(const std::exception &e)
{
	log::warning("client(%p): EOF: %s",
	             &client,
	             e.what());

	return false;
}

bool
ircd::handle_ec_timeout(client &client)
try
{
	auto &sock(*client.sock);
	log::debug("client[%s]: disconnecting after inactivity timeout",
	           string(remote(client)));

	sock.disconnect();
	return false;
}
catch(const std::exception &e)
{
	log::warning("client(%p): timeout: %s",
	             &client,
	             e.what());

	return false;
}