mirror of
https://github.com/matrix-construct/construct
synced 2024-11-30 02:32:43 +01:00
807 lines
21 KiB
C++
807 lines
21 KiB
C++
/*
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* charybdis: an advanced ircd.
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* client.c: Controls clients.
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*
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* Copyright (C) 1990 Jarkko Oikarinen and University of Oulu, Co Center
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* Copyright (C) 1996-2002 Hybrid Development Team
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* Copyright (C) 2002-2005 ircd-ratbox development team
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* Copyright (C) 2007 William Pitcock
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* Copyright (C) 2016 Charybdis Development Team
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* Copyright (C) 2016 Jason Volk <jason@zemos.net>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
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* USA
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*/
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#include <ircd/asio.h>
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#include <ircd/server.h>
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namespace ircd
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{
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// Default time limit for how long a client connection can be in "async mode"
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// (or idle mode) after which it is disconnected.
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const auto async_timeout
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{
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35s
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};
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// Time limit for how long a connected client can be in "request mode." This
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// should never be hit unless there's an error in the handling code.
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const auto request_timeout
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{
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10s
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};
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// The pool of request contexts. When a client makes a request it does so by acquiring
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// a stack from this pool. The request handling and response logic can then be written
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// in a synchronous manner as if each connection had its own thread.
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ctx::pool request
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{
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"request", 1_MiB
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};
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// Container for all active clients (connections) for iteration purposes.
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client::list client::clients;
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void async_recv_next(std::shared_ptr<client>, const milliseconds &timeout);
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void async_recv_next(std::shared_ptr<client>);
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void close_all();
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template<class... args> std::shared_ptr<client> make_client(args&&...);
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}
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//
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// init
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//
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ircd::client::init::init()
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{
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request.add(128);
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}
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void
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ircd::client::init::interrupt()
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{
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if(request.active() || !client::clients.empty())
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log::warning("Interrupting %zu requests; dropping %zu requests; closing %zu clients...",
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request.active(),
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request.pending(),
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client::clients.size());
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request.interrupt();
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close_all();
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}
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ircd::client::init::~init()
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noexcept
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{
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interrupt();
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if(request.active())
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log::warning("Joining %zu active of %zu remaining request contexts...",
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request.active(),
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request.size());
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else
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log::debug("Waiting for %zu request contexts to join...",
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request.size());
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request.join();
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if(unlikely(!client::clients.empty()))
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{
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log::error("%zu clients are unterminated...", client::clients.size());
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assert(client::clients.empty());
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}
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}
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//
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// util
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//
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ircd::http::response::write_closure
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ircd::write_closure(client &client)
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{
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// returns a function that can be called to send an iovector of data to a client
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return [&client](const ilist<const const_buffer> &iov)
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{
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//std::cout << "<<<< " << size(iov) << std::endl;
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//std::cout << iov << std::endl;
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//std::cout << "---- " << std::endl;
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const auto written
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{
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write(*client.sock, iov)
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};
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};
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}
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ircd::parse::read_closure
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ircd::read_closure(client &client)
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{
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// Returns a function the parser can call when it wants more data
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return [&client](char *&start, char *const &stop)
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{
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try
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{
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char *const got(start);
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read(client, start, stop);
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//std::cout << ">>>> " << std::distance(got, start) << std::endl;
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//std::cout << string_view{got, start} << std::endl;
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//std::cout << "----" << std::endl;
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}
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catch(const boost::system::system_error &e)
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{
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using namespace boost::system::errc;
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switch(e.code().value())
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{
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case operation_canceled:
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throw http::error(http::REQUEST_TIMEOUT);
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default:
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throw;
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}
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}
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};
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}
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char *
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ircd::read(client &client,
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char *&start,
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char *const &stop)
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{
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assert(client.sock);
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auto &sock(*client.sock);
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const mutable_buffer buf
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{
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start, stop
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};
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char *const base(start);
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start += net::read(sock, buf);
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return base;
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}
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const char *
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ircd::write(client &client,
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const char *&start,
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const char *const &stop)
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{
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assert(client.sock);
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auto &sock(*client.sock);
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const const_buffer buf
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{
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start, stop
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};
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const char *const base(start);
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start += net::write(sock, buf);
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return base;
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}
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std::shared_ptr<ircd::client>
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ircd::add_client(std::shared_ptr<socket> s)
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{
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const auto client
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{
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make_client(std::move(s))
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};
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async_recv_next(client, async_timeout);
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return client;
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}
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template<class... args>
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std::shared_ptr<ircd::client>
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ircd::make_client(args&&... a)
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{
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return std::make_shared<client>(std::forward<args>(a)...);
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}
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void
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ircd::close_all()
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{
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auto it(begin(client::clients));
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while(it != end(client::clients))
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{
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auto *const client(*it);
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++it; try
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{
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close(*client, net::dc::RST, net::close_ignore);
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}
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catch(const std::exception &e)
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{
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log::warning("Error disconnecting client @%p: %s", client, e.what());
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}
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}
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}
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ircd::ctx::future<void>
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ircd::close(client &client,
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const net::close_opts &opts)
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{
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if(likely(client.sock))
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return close(*client.sock, opts);
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else
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return {};
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}
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void
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ircd::close(client &client,
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const net::close_opts &opts,
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net::close_callback callback)
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{
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close(*client.sock, opts, std::move(callback));
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}
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ircd::ipport
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ircd::local(const client &client)
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{
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if(!client.sock)
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return {};
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return net::local_ipport(*client.sock);
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}
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ircd::ipport
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ircd::remote(const client &client)
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{
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if(!client.sock)
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return {};
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return net::remote_ipport(*client.sock);
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}
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//
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// async loop
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//
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namespace ircd
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{
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static bool handle_ec_default(client &, const error_code &);
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static bool handle_ec_timeout(client &);
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static bool handle_ec_short_read(client &);
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static bool handle_ec_eof(client &);
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static bool handle_ec(client &, const error_code &);
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static void handle_client_request(std::shared_ptr<client>, milliseconds);
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static void handle_client_ready(std::shared_ptr<client>, milliseconds, const error_code &ec);
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}
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void
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ircd::async_recv_next(std::shared_ptr<client> client)
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{
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async_recv_next(std::move(client), milliseconds(-1));
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}
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/// This function is the basis for the client's request loop. We still use
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/// an asynchronous pattern until there is activity on the socket (a request)
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/// in which case the switch to synchronous mode is made by jumping into an
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/// ircd::context drawn from the request pool. When the request is finished,
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/// the client exits back into asynchronous mode until the next request is
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/// received and rinse and repeat.
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//
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/// This sequence exists to avoid any possible c10k-style limitation imposed by
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/// dedicating a context and its stack space to the lifetime of a connection.
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/// This is similar to the thread-per-request pattern before async was in vogue.
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///
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/// This call returns immediately so we no longer block the current context and
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/// its stack while waiting for activity on idle connections between requests.
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void
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ircd::async_recv_next(std::shared_ptr<client> client,
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const milliseconds &timeout)
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{
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assert(bool(client));
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assert(bool(client->sock));
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auto &sock(*client->sock);
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const net::wait_opts opts
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{
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net::ready::READ, timeout
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};
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auto handler
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{
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std::bind(ircd::handle_client_ready, std::move(client), timeout, ph::_1)
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};
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sock(opts, std::move(handler));
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}
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/// The client's socket is ready for reading. This intermediate handler
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/// intercepts any errors otherwise dispatches the client to the request
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/// pool to be married with a stack. Right here this handler is executing on
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/// the main stack (not in any ircd::context).
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///
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/// The context the closure ends up getting is the next available from the
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/// request pool, which may not be available immediately so this handler might
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/// be queued for some time after this call returns.
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void
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ircd::handle_client_ready(std::shared_ptr<client> client,
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const milliseconds timeout,
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const error_code &ec)
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{
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if(!handle_ec(*client, ec))
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return;
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auto handler
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{
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std::bind(ircd::handle_client_request, std::move(client), timeout)
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};
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request(std::move(handler));
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}
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/// A request context has been dispatched and is now handling this client.
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/// This function is executing on that ircd::ctx stack. client::main() will
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/// now be called and synchronous programming is possible. Afterward, the
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/// client will release this ctx and its stack and fall back to async mode
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/// or die.
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void
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ircd::handle_client_request(std::shared_ptr<client> client,
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const milliseconds timeout)
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{
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if(!client->main())
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{
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close(*client, net::dc::SSL_NOTIFY).wait();
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return;
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}
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async_recv_next(std::move(client), timeout);
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}
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/// This error handling switch is one of two places client errors
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/// are handled. This handles the errors when the client is in async
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/// mode rather than during a request. This executes on the main/callback
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/// stack, not in any ircd::ctx, and must be asynchronous.
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///
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bool
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ircd::handle_ec(client &client,
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const error_code &ec)
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{
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using namespace boost::system::errc;
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using boost::system::system_category;
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using boost::asio::error::get_ssl_category;
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using boost::asio::error::get_misc_category;
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if(ec.category() == system_category()) switch(ec.value())
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{
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case success: return true;
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case operation_canceled: return handle_ec_timeout(client);
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default: return handle_ec_default(client, ec);
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}
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else if(ec.category() == get_misc_category()) switch(ec.value())
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{
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case asio::error::eof: return handle_ec_eof(client);
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default: return handle_ec_default(client, ec);
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}
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else if(ec.category() == get_ssl_category()) switch(uint8_t(ec.value()))
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{
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case SSL_R_SHORT_READ: return handle_ec_short_read(client);
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default: return handle_ec_default(client, ec);
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}
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else return handle_ec_default(client, ec);
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}
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/// The client indicated they will not be sending the data we have been
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/// waiting for. The proper behavior now is to initiate a clean shutdown.
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bool
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ircd::handle_ec_eof(client &client)
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try
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{
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log::debug("socket(%p) local[%s] remote[%s] end of file",
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client.sock.get(),
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string(local(client)),
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string(remote(client)));
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close(client, net::dc::SSL_NOTIFY, net::close_ignore);
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return false;
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}
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catch(const std::exception &e)
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{
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log::error("socket(%p) EOF: %s",
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client.sock.get(),
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e.what());
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return false;
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}
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/// The client terminated the connection, likely improperly, and SSL
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/// is informing us with an opportunity to prevent truncation attacks.
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/// Best behavior here is to just close the sd.
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bool
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ircd::handle_ec_short_read(client &client)
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try
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{
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log::warning("socket(%p) local[%s] remote[%s] short_read",
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client.sock.get(),
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string(local(client)),
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string(remote(client)));
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close(client, net::dc::RST, net::close_ignore);
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return false;
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}
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catch(const std::exception &e)
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{
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log::error("socket(%p) short_read: %s",
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client.sock.get(),
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e.what());
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return false;
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}
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/// The net:: system determined the client timed out because we set a timer
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/// on the socket waiting for data which never arrived. The client may very
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/// well still be there, so the best thing to do is to attempt a clean
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/// disconnect.
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bool
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ircd::handle_ec_timeout(client &client)
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try
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{
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assert(bool(client.sock));
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log::warning("socket(%p) local[%s] remote[%s] disconnecting after inactivity timeout",
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client.sock.get(),
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string(local(client)),
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string(remote(client)));
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close(client, net::dc::SSL_NOTIFY, net::close_ignore);
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return false;
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}
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catch(const std::exception &e)
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{
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log::error("socket(%p) timeout: %s",
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client.sock.get(),
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e.what());
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return false;
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}
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/// Unknown/untreated error. Probably not worth attempting a clean shutdown
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/// so a hard / immediate disconnect given instead.
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bool
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ircd::handle_ec_default(client &client,
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const error_code &ec)
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{
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log::warning("socket(%p) local[%s] remote[%s] %s",
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client.sock.get(),
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string(local(client)),
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string(remote(client)),
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string(ec));
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close(client, net::dc::RST, net::close_ignore);
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return false;
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}
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//
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// client
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//
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ircd::client::client()
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:client{std::shared_ptr<socket>{}}
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{
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}
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ircd::client::client(const hostport &hostport,
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const seconds &timeout)
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:client
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{
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net::open(hostport)
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}
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{
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}
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ircd::client::client(std::shared_ptr<socket> sock)
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:clit{clients, clients.emplace(end(clients), this)}
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,sock{std::move(sock)}
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,request_timer{ircd::timer::nostart}
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{
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}
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ircd::client::~client()
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noexcept try
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{
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//assert(!sock || !connected(*sock));
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}
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catch(const std::exception &e)
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{
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log::critical("socket(%p) ~client(%p): %s",
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sock.get(),
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this,
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e.what());
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return;
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}
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namespace ircd
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{
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bool handle_request(client &client, parse::capstan &pc, const http::request::head &head, size_t &content_consumed);
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bool handle_request(client &client, parse::capstan &pc);
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}
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/// Client main.
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///
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/// Before main(), the client had been sitting in async mode waiting for
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/// socket activity. Once activity with data was detected indicating a request,
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/// the client was dispatched to the request pool where it is paired to an
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/// ircd::ctx with a stack. main() is then invoked on that ircd::ctx stack.
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/// Nothing from the socket has been read into userspace before main().
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///
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bool
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ircd::client::main()
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noexcept try
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{
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const auto header_max{4_KiB};
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char header_buffer[header_max];
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parse::buffer pb{header_buffer};
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return handle(pb);
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}
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catch(const std::exception &e)
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{
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log::error("client[%s] [500 Internal Error]: %s",
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string(remote(*this)),
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e.what());
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#ifdef RB_DEBUG
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throw;
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#else
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return false;
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#endif
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}
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/// Main request loop.
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///
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/// This function parses requests off the socket in a loop until there are no
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/// more requests or there is a fatal error. The ctx will "block" to wait for
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/// more data off the socket during the middle of a request until the request
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/// timeout is reached. main() will not "block" to wait for more data after a
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/// request; it will simply `return true` which puts this client back into
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/// async mode and relinquishes this stack. returning false will disconnect
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/// the client rather than putting it back into async mode.
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///
|
|
/// Exceptions do not pass below main() therefor anything unhandled is an
|
|
/// internal server error and the client is disconnected. The exception handler
|
|
/// here though is executing on a request ctx stack, and we can choose to take
|
|
/// advantage of that; in contrast to the handle_ec() switch which handles
|
|
/// errors on the main/callback stack and must be asynchronous.
|
|
///
|
|
bool
|
|
ircd::client::handle(parse::buffer &pb)
|
|
try
|
|
{
|
|
parse::capstan pc{pb, read_closure(*this)}; do
|
|
{
|
|
request_timer = ircd::timer{};
|
|
const socket::scope_timeout timeout
|
|
{
|
|
*sock, request_timeout
|
|
};
|
|
|
|
if(!handle_request(*this, pc))
|
|
return false;
|
|
|
|
// Should have nothing left in the userspace parse buffer after
|
|
// request otherwise too much was read and the pb.remove() will
|
|
// have to memmove() it; should never happen with good grammar.
|
|
assert(pb.unparsed() == 0);
|
|
pb.remove();
|
|
}
|
|
while(pc.unparsed());
|
|
|
|
return true;
|
|
}
|
|
catch(const boost::system::system_error &e)
|
|
{
|
|
using namespace boost::system::errc;
|
|
using boost::system::system_category;
|
|
using boost::asio::error::get_ssl_category;
|
|
using boost::asio::error::get_misc_category;
|
|
|
|
log::debug("socket(%p) local[%s] remote[%s] error during request: %s",
|
|
sock.get(),
|
|
string(local(*this)),
|
|
string(remote(*this)),
|
|
string(e.code()));
|
|
|
|
const error_code &ec{e.code()};
|
|
const int &value{ec.value()};
|
|
if(ec.category() == system_category()) switch(value)
|
|
{
|
|
case success:
|
|
assert(0);
|
|
return true;
|
|
|
|
case broken_pipe:
|
|
case connection_reset:
|
|
case not_connected:
|
|
close(*this, net::dc::RST, net::close_ignore);
|
|
return false;
|
|
|
|
case operation_canceled:
|
|
close(*this, net::dc::SSL_NOTIFY).wait();
|
|
return false;
|
|
|
|
case bad_file_descriptor:
|
|
return false;
|
|
|
|
default:
|
|
break;
|
|
}
|
|
else if(ec.category() == get_ssl_category()) switch(uint8_t(value))
|
|
{
|
|
case SSL_R_SHORT_READ:
|
|
close(*this, net::dc::RST, net::close_ignore);
|
|
return false;
|
|
|
|
case SSL_R_PROTOCOL_IS_SHUTDOWN:
|
|
close(*this, net::dc::RST, net::close_ignore);
|
|
return false;
|
|
|
|
default:
|
|
break;
|
|
}
|
|
else if(ec.category() == get_misc_category()) switch(value)
|
|
{
|
|
case boost::asio::error::eof:
|
|
close(*this, net::dc::SSL_NOTIFY).wait();
|
|
return false;
|
|
|
|
default:
|
|
break;
|
|
}
|
|
|
|
log::error("socket(%p) (unexpected) %s: (%d) %s",
|
|
sock.get(),
|
|
ec.category().name(),
|
|
value,
|
|
ec.message());
|
|
|
|
close(*this, net::dc::RST, net::close_ignore);
|
|
return false;
|
|
}
|
|
|
|
/// Handle a single request within the client main() loop.
|
|
///
|
|
/// This function returns false if the main() loop should exit
|
|
/// and thus disconnect the client. It should return true in most
|
|
/// cases even for lightly erroneous requests that won't affect
|
|
/// the next requests on the tape.
|
|
///
|
|
/// This function is timed. The timeout will prevent a client from
|
|
/// sending a partial request and leave us waiting for the rest.
|
|
/// As of right now this timeout extends to our handling of the
|
|
/// request too.
|
|
bool
|
|
ircd::handle_request(client &client,
|
|
parse::capstan &pc)
|
|
try
|
|
{
|
|
// This is the first read off the wire. The headers are entirely read and
|
|
// the tape is advanced.
|
|
const http::request::head head{pc};
|
|
|
|
// The size of HTTP headers are never initially known, which means
|
|
// the above head parse could have read too much off the socket bleeding
|
|
// into the content or even the next request entirely. That's ok because
|
|
// the state of `pc` will reflect that back to the main() loop for the
|
|
// next request, but for this request we have to figure out how much of
|
|
// the content was accidentally read so far.
|
|
size_t content_consumed
|
|
{
|
|
std::min(pc.unparsed(), head.content_length)
|
|
};
|
|
|
|
bool ret
|
|
{
|
|
handle_request(client, pc, head, content_consumed)
|
|
};
|
|
|
|
if(ret && iequals(head.connection, "close"_sv))
|
|
ret = false;
|
|
|
|
return ret;
|
|
}
|
|
catch(const ircd::error &e)
|
|
{
|
|
log::error("socket(%p) local[%s] remote[%s] in %ld$us: %s",
|
|
client.sock.get(),
|
|
string(local(client)),
|
|
string(remote(client)),
|
|
client.request_timer.at<microseconds>().count(),
|
|
e.what());
|
|
|
|
resource::response
|
|
{
|
|
client, e.what(), {}, http::INTERNAL_SERVER_ERROR
|
|
};
|
|
|
|
throw;
|
|
}
|
|
|
|
bool
|
|
ircd::handle_request(client &client,
|
|
parse::capstan &pc,
|
|
const http::request::head &head,
|
|
size_t &content_consumed)
|
|
try
|
|
{
|
|
// The resource is responsible for reading content at its discretion, if
|
|
// at all. If we accidentally read some content it has to be presented.
|
|
const string_view content_partial
|
|
{
|
|
pc.parsed, pc.unparsed()
|
|
};
|
|
|
|
// Advance the tape up to the end of the partial content read. We no
|
|
// longer use the capstan after this point because the resource reads
|
|
// directly off the socket. The `pc` will be positioned properly for the
|
|
// next request so long as any remaining content is read off the socket.
|
|
pc.parsed += content_consumed;
|
|
assert(pc.parsed <= pc.read);
|
|
assert(content_partial.size() == content_consumed);
|
|
log::debug("socket(%p) local[%s] remote[%s] HTTP %s `%s' content-length:%zu part:%zu",
|
|
client.sock.get(),
|
|
string(local(client)),
|
|
string(remote(client)),
|
|
head.method,
|
|
head.path,
|
|
head.content_length,
|
|
content_consumed);
|
|
|
|
auto &resource
|
|
{
|
|
ircd::resource::find(head.path)
|
|
};
|
|
|
|
resource(client, head, content_partial, content_consumed);
|
|
return true;
|
|
}
|
|
catch(const http::error &e)
|
|
{
|
|
resource::response
|
|
{
|
|
client, e.content, "text/html; charset=utf8", e.code, e.headers
|
|
};
|
|
|
|
switch(e.code)
|
|
{
|
|
// These codes are "recoverable" and allow the next HTTP request in
|
|
// a pipeline to take place. In order for that to happen, any content
|
|
// which wasn't read because of the exception has to be read now.
|
|
default:
|
|
{
|
|
assert(client.sock);
|
|
const size_t unconsumed{head.content_length - content_consumed};
|
|
log::debug("socket(%p) local[%s] remote[%s] discarding %zu of %zu unconsumed content...",
|
|
client.sock.get(),
|
|
string(local(client)),
|
|
string(remote(client)),
|
|
unconsumed,
|
|
head.content_length);
|
|
|
|
net::discard_all(*client.sock, unconsumed);
|
|
return true;
|
|
}
|
|
|
|
// These codes are "unrecoverable" errors and no more HTTP can be
|
|
// conducted with this tape. The client must be disconnected.
|
|
case http::BAD_REQUEST:
|
|
case http::PAYLOAD_TOO_LARGE:
|
|
case http::REQUEST_TIMEOUT:
|
|
close(client).wait();
|
|
return false;
|
|
|
|
// The client must also be disconnected at some point down the stack.
|
|
case http::INTERNAL_SERVER_ERROR:
|
|
throw;
|
|
}
|
|
}
|