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|
#include "socket.hpp"
// socket.cpp - Network event system.
//
// Copyright © ????-2004 Athena Dev Teams
// Copyright © 2004-2011 The Mana World Development Team
// Copyright © 2011-2014 Ben Longbons <b.r.longbons@gmail.com>
// Copyright © 2013 MadCamel
//
// This file is part of The Mana World (Athena server)
//
// 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 3 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, see <http://www.gnu.org/licenses/>.
#include <netinet/tcp.h>
#include <sys/socket.h>
#include <fcntl.h>
#include <cstdlib>
#include <array>
#include "../compat/memory.hpp"
#include "../io/cxxstdio.hpp"
#include "../proto2/map-user.hpp"
#include "../wire/packets.hpp"
#include "timer.hpp"
#include "../poison.hpp"
namespace tmwa
{
static
io::FD_Set readfds;
static
int fd_max;
static
const uint32_t RFIFO_SIZE = 65536;
static
const uint32_t WFIFO_SIZE = 65536;
DIAG_PUSH();
DIAG_I(old_style_cast);
static
std::array<std::unique_ptr<Session>, FD_SETSIZE> session;
DIAG_POP();
Session::Session(SessionIO io, SessionParsers p)
: created()
, last_tick()
, connected()
, timed_close()
, rdata(), wdata()
, max_rdata(), max_wdata()
, rdata_size(), wdata_size()
, rdata_pos()
, client_ip()
, func_recv()
, func_send()
, func_parse()
, func_delete()
, for_inferior()
, session_data()
, fd()
{
flag.eof = 0;
flag.server = 0;
set_io(io);
set_parsers(p);
}
void Session::set_io(SessionIO io)
{
func_send = io.func_send;
func_recv = io.func_recv;
}
void Session::set_parsers(SessionParsers p)
{
func_parse = p.func_parse;
func_delete = p.func_delete;
}
void set_session(io::FD fd, std::unique_ptr<Session> sess)
{
int f = fd.uncast_dammit();
assert (0 <= f && f < FD_SETSIZE);
session[f] = std::move(sess);
}
Session *get_session(io::FD fd)
{
int f = fd.uncast_dammit();
if (0 <= f && f < FD_SETSIZE)
return session[f].get();
return nullptr;
}
void reset_session(io::FD fd)
{
int f = fd.uncast_dammit();
assert (0 <= f && f < FD_SETSIZE);
session[f] = nullptr;
}
int get_fd_max() { return fd_max; }
IteratorPair<ValueIterator<io::FD, IncrFD>> iter_fds()
{
return {io::FD::cast_dammit(0), io::FD::cast_dammit(fd_max)};
}
/// clean up by discarding handled bytes
inline
void RFIFOFLUSH(Session *s)
{
really_memmove(&s->rdata[0], &s->rdata[s->rdata_pos], s->rdata_size - s->rdata_pos);
s->rdata_size -= s->rdata_pos;
s->rdata_pos = 0;
}
/// how much room there is to read more data
inline
size_t RFIFOSPACE(Session *s)
{
return s->max_rdata - s->rdata_size;
}
/// Read from socket to the queue
static
void recv_to_fifo(Session *s)
{
ssize_t len = s->fd.read(&s->rdata[s->rdata_size],
RFIFOSPACE(s));
if (len > 0)
{
s->rdata_size += len;
s->connected = 1;
s->last_tick = TimeT::now();
}
else
{
s->set_eof();
}
}
static
void send_from_fifo(Session *s)
{
ssize_t len = s->fd.send(&s->wdata[0], s->wdata_size, MSG_NOSIGNAL);
if (len > 0)
{
s->wdata_size -= len;
if (s->wdata_size)
{
really_memmove(&s->wdata[0], &s->wdata[len],
s->wdata_size);
}
s->connected = 1;
s->last_tick = TimeT::now();
}
else
{
s->set_eof();
}
}
static
void nothing_delete(Session *s)
{
(void)s;
}
static
void connect_client(Session *ls)
{
struct sockaddr_in client_address;
socklen_t len = sizeof(client_address);
io::FD fd = ls->fd.accept(reinterpret_cast<struct sockaddr *>(&client_address), &len);
if (fd == io::FD())
{
perror("accept");
return;
}
if (fd.uncast_dammit() >= SOFT_LIMIT)
{
FPRINTF(stderr, "softlimit reached, disconnecting : %d\n"_fmt, fd.uncast_dammit());
fd.shutdown(SHUT_RDWR);
fd.close();
return;
}
if (fd_max <= fd.uncast_dammit())
{
fd_max = fd.uncast_dammit() + 1;
}
const int yes = 1;
/// Allow to bind() again after the server restarts.
// Since the socket is still in the TIME_WAIT, there's a possibility
// that formerly lost packets might be delivered and confuse the server.
fd.setsockopt(SOL_SOCKET, SO_REUSEADDR, &yes, sizeof yes);
/// Send packets as soon as possible
/// even if the kernel thinks there is too little for it to be worth it!
/// Testing shows this is indeed a good idea.
fd.setsockopt(IPPROTO_TCP, TCP_NODELAY, &yes, sizeof yes);
// Linux-ism: Set socket options to optimize for thin streams
// See http://lwn.net/Articles/308919/ and
// Documentation/networking/tcp-thin.txt .. Kernel 3.2+
#ifdef TCP_THIN_LINEAR_TIMEOUTS
fd.setsockopt(IPPROTO_TCP, TCP_THIN_LINEAR_TIMEOUTS, &yes, sizeof yes);
#endif
#ifdef TCP_THIN_DUPACK
fd.setsockopt(IPPROTO_TCP, TCP_THIN_DUPACK, &yes, sizeof yes);
#endif
readfds.set(fd);
fd.fcntl(F_SETFL, O_NONBLOCK);
set_session(fd, make_unique<Session>(
SessionIO{.func_recv= recv_to_fifo, .func_send= send_from_fifo},
ls->for_inferior));
Session *s = get_session(fd);
s->fd = fd;
s->rdata.new_(RFIFO_SIZE);
s->wdata.new_(WFIFO_SIZE);
s->max_rdata = RFIFO_SIZE;
s->max_wdata = WFIFO_SIZE;
s->client_ip = IP4Address(client_address.sin_addr);
s->created = TimeT::now();
s->connected = 0;
}
Session *make_listen_port(uint16_t port, SessionParsers inferior)
{
struct sockaddr_in server_address;
io::FD fd = io::FD::socket(AF_INET, SOCK_STREAM, 0);
if (fd == io::FD())
{
perror("socket");
return nullptr;
}
if (fd_max <= fd.uncast_dammit())
fd_max = fd.uncast_dammit() + 1;
fd.fcntl(F_SETFL, O_NONBLOCK);
const int yes = 1;
/// Allow to bind() again after the server restarts.
// Since the socket is still in the TIME_WAIT, there's a possibility
// that formerly lost packets might be delivered and confuse the server.
fd.setsockopt(SOL_SOCKET, SO_REUSEADDR, &yes, sizeof yes);
/// Send packets as soon as possible
/// even if the kernel thinks there is too little for it to be worth it!
// I'm not convinced this is a good idea; although in minimizes the
// latency for an individual write, it increases traffic in general.
fd.setsockopt(IPPROTO_TCP, TCP_NODELAY, &yes, sizeof yes);
server_address.sin_family = AF_INET;
DIAG_PUSH();
DIAG_I(old_style_cast);
DIAG_I(useless_cast);
server_address.sin_addr.s_addr = htonl(INADDR_ANY);
server_address.sin_port = htons(port);
DIAG_POP();
if (fd.bind(reinterpret_cast<struct sockaddr *>(&server_address),
sizeof(server_address)) == -1)
{
perror("bind");
exit(1);
}
if (fd.listen(5) == -1)
{ /* error */
perror("listen");
exit(1);
}
readfds.set(fd);
set_session(fd, make_unique<Session>(
SessionIO{.func_recv= connect_client, .func_send= nullptr},
SessionParsers{.func_parse= nullptr, .func_delete= nothing_delete}));
Session *s = get_session(fd);
s->for_inferior = inferior;
s->fd = fd;
s->created = TimeT::now();
s->connected = 1;
s->set_server();
return s;
}
Session *make_connection(IP4Address ip, uint16_t port, SessionParsers parsers)
{
struct sockaddr_in server_address;
io::FD fd = io::FD::socket(AF_INET, SOCK_STREAM, 0);
if (fd == io::FD())
{
perror("socket");
return nullptr;
}
if (fd_max <= fd.uncast_dammit())
fd_max = fd.uncast_dammit() + 1;
const int yes = 1;
/// Allow to bind() again after the server restarts.
// Since the socket is still in the TIME_WAIT, there's a possibility
// that formerly lost packets might be delivered and confuse the server.
fd.setsockopt(SOL_SOCKET, SO_REUSEADDR, &yes, sizeof yes);
/// Send packets as soon as possible
/// even if the kernel thinks there is too little for it to be worth it!
// I'm not convinced this is a good idea; although in minimizes the
// latency for an individual write, it increases traffic in general.
fd.setsockopt(IPPROTO_TCP, TCP_NODELAY, &yes, sizeof yes);
server_address.sin_family = AF_INET;
server_address.sin_addr = in_addr(ip);
DIAG_PUSH();
DIAG_I(old_style_cast);
DIAG_I(useless_cast);
server_address.sin_port = htons(port);
DIAG_POP();
fd.fcntl(F_SETFL, O_NONBLOCK);
/// Errors not caught - we must not block
/// Let the main select() loop detect when we know the state
fd.connect(reinterpret_cast<struct sockaddr *>(&server_address),
sizeof(struct sockaddr_in));
readfds.set(fd);
set_session(fd, make_unique<Session>(
SessionIO{.func_recv= recv_to_fifo, .func_send= send_from_fifo},
parsers));
Session *s = get_session(fd);
s->fd = fd;
s->rdata.new_(RFIFO_SIZE);
s->wdata.new_(WFIFO_SIZE);
s->max_rdata = RFIFO_SIZE;
s->max_wdata = WFIFO_SIZE;
s->created = TimeT::now();
s->connected = 1;
s->set_server();
return s;
}
void delete_session(Session *s)
{
if (!s)
return;
// this needs to be before the fd_max--
s->func_delete(s);
io::FD fd = s->fd;
// If this was the highest fd, decrease it
// We could add a loop to decrement fd_max further for every null session,
// but this is cheap and good enough for the typical case
if (fd.uncast_dammit() == fd_max - 1)
fd_max--;
readfds.clr(fd);
{
s->rdata.delete_();
s->wdata.delete_();
s->session_data.reset();
reset_session(fd);
}
// just close() would try to keep sending buffers
fd.shutdown(SHUT_RDWR);
fd.close();
}
void realloc_fifo(Session *s, size_t rfifo_size, size_t wfifo_size)
{
if (s->max_rdata != rfifo_size && s->rdata_size < rfifo_size)
{
s->rdata.resize(rfifo_size);
s->max_rdata = rfifo_size;
}
if (s->max_wdata != wfifo_size && s->wdata_size < wfifo_size)
{
s->wdata.resize(wfifo_size);
s->max_wdata = wfifo_size;
}
}
bool do_sendrecv(interval_t next_ms)
{
bool any = false;
io::FD_Set rfd = readfds, wfd;
for (io::FD i : iter_fds())
{
Session *s = get_session(i);
if (s)
{
any = true;
if (s->wdata_size)
wfd.set(i);
}
}
if (!any)
{
if (!has_timers())
{
PRINTF("Shutting down - nothing to do\n"_fmt);
// TODO hoist this
return false;
}
return true;
}
struct timeval timeout;
{
std::chrono::seconds next_s = std::chrono::duration_cast<std::chrono::seconds>(next_ms);
std::chrono::microseconds next_us = next_ms - next_s;
timeout.tv_sec = next_s.count();
timeout.tv_usec = next_us.count();
}
if (io::FD_Set::select(fd_max, &rfd, &wfd, nullptr, &timeout) <= 0)
return true;
for (io::FD i : iter_fds())
{
Session *s = get_session(i);
if (!s)
continue;
if (wfd.isset(i) && s->flag.eof != 1)
{
if (s->func_send)
//send_from_fifo(i);
s->func_send(s);
}
if (rfd.isset(i) && s->flag.eof != 1)
{
if (s->func_recv)
//recv_to_fifo(i);
//or connect_client(i);
s->func_recv(s);
}
}
return true;
}
bool do_parsepacket(void)
{
for (io::FD i : iter_fds())
{
Session *s = get_session(i);
if (!s)
continue;
if (s->connected && s->flag.server != 1
&& static_cast<time_t>(TimeT::now()) - static_cast<time_t>(s->last_tick) > STALL_TIMEOUT / 2)
{
// send a keepalive packet
Packet_Fixed<0x007f> fixed_7f;
fixed_7f.tick = gettick();
send_fpacket<0x007f, 6>(s, fixed_7f);
// if this fails it will auto-eof
}
if ((!s->connected
&& static_cast<time_t>(TimeT::now()) - static_cast<time_t>(s->created) > CONNECT_TIMEOUT) ||
(s->connected && s->flag.server != 1
&& static_cast<time_t>(TimeT::now()) - static_cast<time_t>(s->last_tick) > STALL_TIMEOUT))
{
PRINTF("Session #%d timed out\n"_fmt, s);
s->set_eof();
}
if (s->rdata_size && s->flag.eof != 1 && s->func_parse)
{
s->func_parse(s);
/// some func_parse may call delete_session
// (that's kind of evil)
s = get_session(i);
if (!s)
continue;
}
if (s->flag.eof == 1)
{
delete_session(s);
continue;
}
/// Reclaim buffer space for what was read
RFIFOFLUSH(s);
}
return true;
}
} // namespace tmwa
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