1 /************************************************************************
2 * IRC - Internet Relay Chat, src/listener.c
3 * Copyright (C) 1999 Thomas Helvey <tomh@inxpress.net>
5 * This program is free software; you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation; either version 1, or (at your option)
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this program; if not, write to the Free Software
17 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
20 * @brief Implementation for handling listening sockets.
21 * @version $Id: listener.c 1809 2007-05-20 14:10:30Z entrope $
28 #include "ircd_alloc.h"
29 #include "ircd_events.h"
30 #include "ircd_features.h"
32 #include "ircd_osdep.h"
33 #include "ircd_reply.h"
34 #include "ircd_snprintf.h"
35 #include "ircd_string.h"
43 #include "sys.h" /* MAXCLIENTS */
45 /* #include <assert.h> -- Now using assert in ircd_log.h */
52 #include <sys/socket.h>
54 /** List of listening sockets. */
55 struct Listener* ListenerPollList = 0;
57 static void accept_connection(struct Event* ev);
59 /** Allocate and initialize a new Listener structure for a particular
61 * @param[in] port Port number to listen on.
62 * @param[in] addr Local address to listen on.
63 * @return Newly allocated and initialized Listener.
65 static struct Listener* make_listener(int port, const struct irc_in_addr *addr)
67 struct Listener* listener =
68 (struct Listener*) MyMalloc(sizeof(struct Listener));
69 assert(0 != listener);
71 memset(listener, 0, sizeof(struct Listener));
75 listener->addr.port = port;
76 memcpy(&listener->addr.addr, addr, sizeof(listener->addr.addr));
78 #ifdef NULL_POINTER_NOT_ZERO
79 listener->next = NULL;
80 listener->conf = NULL;
85 /** Deallocate a Listener structure.
86 * @param[in] listener Listener to be freed.
88 static void free_listener(struct Listener* listener)
90 assert(0 != listener);
94 /** Maximum length for a port number. */
95 #define PORTNAMELEN 10 /* ":31337" */
97 /** Return displayable listener name and port.
98 * @param[in] listener %Listener to format as a text string.
99 * @return Pointer to a static buffer that contains "server.name:6667".
101 const char* get_listener_name(const struct Listener* listener)
103 static char buf[HOSTLEN + PORTNAMELEN + 4];
104 assert(0 != listener);
105 ircd_snprintf(0, buf, sizeof(buf), "%s:%u", cli_name(&me), listener->addr.port);
109 /** Count allocated listeners and the memory they use.
110 * @param[out] count_out Receives number of allocated listeners.
111 * @param[out] size_out Receives bytes used by listeners.
113 void count_listener_memory(int* count_out, size_t* size_out)
117 assert(0 != count_out);
118 assert(0 != size_out);
119 for (l = ListenerPollList; l; l = l->next)
122 *size_out = count * sizeof(struct Listener);
125 /** Report listening ports to a client.
126 * @param[in] sptr Client requesting statistics.
127 * @param[in] sd Stats descriptor for request (ignored).
128 * @param[in] param Extra parameter from user (port number to search for).
130 void show_ports(struct Client* sptr, const struct StatDesc* sd,
133 struct Listener *listener = 0;
135 int show_hidden = IsOper(sptr);
136 int count = (IsOper(sptr) || MyUser(sptr)) ? 100 : 8;
145 for (listener = ListenerPollList; listener; listener = listener->next) {
146 if (port && port != listener->addr.port)
149 flags[len++] = listener_server(listener) ? (listener_secure(listener) ? 'T' : 'S') : (listener_secure(listener) ? 'E' : 'C');
150 if (FlagHas(&listener->flags, LISTEN_HIDDEN))
156 if (FlagHas(&listener->flags, LISTEN_IPV4))
159 if (listener->fd_v4 < 0)
162 if (FlagHas(&listener->flags, LISTEN_IPV6))
165 if (listener->fd_v6 < 0)
170 send_reply(sptr, RPL_STATSPLINE, listener->addr.port, listener->ref_count,
171 flags, listener_active(listener) ? "active" : "disabled");
178 * inetport - create a listener socket in the AF_INET domain,
179 * bind it to the port given in 'port' and listen to it
180 * returns true (1) if successful false (0) on error.
182 * If the operating system has a define for SOMAXCONN, use it, otherwise
183 * use HYBRID_SOMAXCONN -Dianora
184 * NOTE: Do this in os_xxxx.c files
187 #define HYBRID_SOMAXCONN SOMAXCONN
189 /** Maximum length of socket connection backlog. */
190 #define HYBRID_SOMAXCONN 64
193 /** Set or update socket options for \a listener.
194 * @param[in] listener Listener to determine socket option values.
195 * @param[in] fd File descriptor being updated.
196 * @return Non-zero on success, zero on failure.
198 static int set_listener_options(struct Listener *listener, int fd)
202 is_server = listener_server(listener);
204 * Set the buffer sizes for the listener. Accepted connections
205 * inherit the accepting sockets settings for SO_RCVBUF S_SNDBUF
206 * The window size is set during the SYN ACK so setting it anywhere
207 * else has no effect whatsoever on the connection.
208 * NOTE: this must be set before listen is called
210 if (!os_set_sockbufs(fd,
211 is_server ? feature_int(FEAT_SOCKSENDBUF) : CLIENT_TCP_WINDOW,
212 is_server ? feature_int(FEAT_SOCKRECVBUF) : CLIENT_TCP_WINDOW)) {
213 report_error(SETBUFS_ERROR_MSG, get_listener_name(listener), errno);
219 * Set the TOS bits - this is nonfatal if it doesn't stick.
221 if (!os_set_tos(fd,feature_int(is_server ? FEAT_TOS_SERVER : FEAT_TOS_CLIENT))) {
222 report_error(TOS_ERROR_MSG, get_listener_name(listener), errno);
228 /** Open listening socket for \a listener.
229 * @param[in,out] listener Listener to make a socket for.
230 * @param[in] family Socket address family to use.
231 * @return Negative on failure, file descriptor on success.
233 static int inetport(struct Listener* listener, int family)
239 * At first, open a new socket
241 fd = os_socket(&listener->addr, SOCK_STREAM, get_listener_name(listener), family);
244 if (!os_set_listen(fd, HYBRID_SOMAXCONN)) {
245 report_error(LISTEN_ERROR_MSG, get_listener_name(listener), errno);
249 if (!set_listener_options(listener, fd))
251 sock = (family == AF_INET) ? &listener->socket_v4 : &listener->socket_v6;
252 if (!socket_add(sock, accept_connection, (void*) listener,
253 SS_LISTENING, 0, fd)) {
254 /* Error should already have been reported to the logs */
262 /** Find the listener (if any) for a particular port and address.
263 * @param[in] port Port number to search for.
264 * @param[in] addr Local address to search for.
265 * @return Listener that matches (or NULL if none match).
267 static struct Listener* find_listener(int port, const struct irc_in_addr *addr)
269 struct Listener* listener;
270 for (listener = ListenerPollList; listener; listener = listener->next) {
271 if (port == listener->addr.port && !memcmp(addr, &listener->addr.addr, sizeof(*addr)))
277 /** Make sure we have a listener for \a port on \a vhost_ip.
278 * If one does not exist, create it. Then mark it as active and set
279 * the peer mask, server, and hidden flags according to the other
281 * @param[in] port Port number to listen on.
282 * @param[in] vhost_ip Local address to listen on.
283 * @param[in] mask Address mask to accept connections from.
284 * @param[in] flags Flags describing listener options.
286 void add_listener(int port, const char* vhost_ip, const char* mask,
287 const struct ListenerFlags *flags)
289 struct Listener* listener;
290 struct irc_in_addr vaddr;
292 int new_listener = 0;
296 * if no port in conf line, don't bother
301 memset(&vaddr, 0, sizeof(vaddr));
303 if (!EmptyString(vhost_ip)
304 && strcmp(vhost_ip, "*")
305 && !ircd_aton(&vaddr, vhost_ip))
308 listener = find_listener(port, &vaddr);
312 listener = make_listener(port, &vaddr);
314 memcpy(&listener->flags, flags, sizeof(listener->flags));
315 FlagSet(&listener->flags, LISTEN_ACTIVE);
317 ipmask_parse(mask, &listener->mask, &listener->mask_bits);
319 listener->mask_bits = 0;
322 if (FlagHas(&listener->flags, LISTEN_IPV6)
323 && (irc_in_addr_unspec(&vaddr) || !irc_in_addr_is_ipv4(&vaddr))) {
324 if (listener->fd_v6 >= 0) {
325 set_listener_options(listener, listener->fd_v6);
327 } else if ((fd = inetport(listener, AF_INET6)) >= 0) {
328 listener->fd_v6 = fd;
331 } else if (-1 < listener->fd_v6) {
332 close(listener->fd_v6);
333 socket_del(&listener->socket_v6);
334 listener->fd_v6 = -1;
338 if (FlagHas(&listener->flags, LISTEN_IPV4)
339 && (irc_in_addr_unspec(&vaddr) || irc_in_addr_is_ipv4(&vaddr))) {
340 if (listener->fd_v4 >= 0) {
341 set_listener_options(listener, listener->fd_v4);
343 } else if ((fd = inetport(listener, AF_INET)) >= 0) {
344 listener->fd_v4 = fd;
347 } else if (-1 < listener->fd_v4) {
348 close(listener->fd_v4);
349 socket_del(&listener->socket_v4);
350 listener->fd_v4 = -1;
354 free_listener(listener);
355 else if (new_listener) {
356 listener->next = ListenerPollList;
357 ListenerPollList = listener;
361 /** Mark all listeners as closing (inactive).
362 * This is done so unused listeners are closed after a rehash.
364 void mark_listeners_closing(void)
366 struct Listener* listener;
367 for (listener = ListenerPollList; listener; listener = listener->next)
368 FlagClr(&listener->flags, LISTEN_ACTIVE);
371 /** Close a single listener.
372 * @param[in] listener Listener to close.
374 void close_listener(struct Listener* listener)
376 assert(0 != listener);
378 * remove from listener list
380 if (listener == ListenerPollList)
381 ListenerPollList = listener->next;
383 struct Listener* prev = ListenerPollList;
384 for ( ; prev; prev = prev->next) {
385 if (listener == prev->next) {
386 prev->next = listener->next;
391 if (-1 < listener->fd_v4) {
392 close(listener->fd_v4);
393 socket_del(&listener->socket_v4);
394 listener->fd_v4 = -1;
396 if (-1 < listener->fd_v6) {
397 close(listener->fd_v6);
398 socket_del(&listener->socket_v6);
399 listener->fd_v6 = -1;
401 free_listener(listener);
404 /** Close all inactive listeners. */
405 void close_listeners(void)
407 struct Listener* listener;
408 struct Listener* listener_next = 0;
410 * close all 'extra' listening ports we have
412 for (listener = ListenerPollList; listener; listener = listener_next) {
413 listener_next = listener->next;
414 if (!listener_active(listener) && 0 == listener->ref_count)
415 close_listener(listener);
419 /** Dereference the listener previously associated with a client.
420 * @param[in] listener Listener to dereference.
422 void release_listener(struct Listener* listener)
424 assert(0 != listener);
425 assert(0 < listener->ref_count);
426 if (0 == --listener->ref_count && !listener_active(listener))
427 close_listener(listener);
430 /** Accept a connection on a listener.
431 * @param[in] ev Socket callback structure.
433 static void accept_connection(struct Event* ev)
435 struct Listener* listener;
436 struct irc_sockaddr addr;
439 assert(0 != ev_socket(ev));
440 assert(0 != s_data(ev_socket(ev)));
442 listener = (struct Listener*) s_data(ev_socket(ev));
444 if (ev_type(ev) == ET_DESTROY) /* being destroyed */
447 assert(ev_type(ev) == ET_ACCEPT || ev_type(ev) == ET_ERROR);
449 listener->last_accept = CurrentTime;
451 * There may be many reasons for error return, but
452 * in otherwise correctly working environment the
453 * probable cause is running out of file descriptors
454 * (EMFILE, ENFILE or others?). The man pages for
455 * accept don't seem to list these as possible,
456 * although it's obvious that it may happen here.
457 * Thus no specific errors are tested at this
458 * point, just assume that connections cannot
459 * be accepted until some old is closed first.
461 * This piece of code implements multi-accept, based
462 * on the idea that poll/select can only be efficient,
463 * if we succeed in handling all available events,
464 * i.e. accept all pending connections.
466 * http://www.hpl.hp.com/techreports/2000/HPL-2000-174.html
470 if ((fd = os_accept(s_fd(ev_socket(ev)), &addr)) == -1)
472 if (errno == EAGAIN ||
474 errno == EWOULDBLOCK)
477 /* Lotsa admins seem to have problems with not giving enough file
478 * descriptors to their server so we'll add a generic warning mechanism
479 * here. If it turns out too many messages are generated for
480 * meaningless reasons we can filter them back.
482 sendto_opmask_butone(0, SNO_TCPCOMMON,
483 "Unable to accept connection: %m");
487 * check for connection limit. If this fd exceeds the limit,
488 * all further accept()ed connections will also exceed it.
489 * Enable the server to clear out other connections before
490 * continuing to accept() new connections.
492 if (fd > MAXCLIENTS - 1)
494 ++ServerStats->is_ref;
495 send(fd, "ERROR :All connections in use\r\n", 32, 0);
500 * check to see if listener is shutting down. Continue
501 * to accept(), because it makes sense to clear our the
502 * socket's queue as fast as possible.
504 if (!listener_active(listener))
506 ++ServerStats->is_ref;
507 send(fd, "ERROR :Use another port\r\n", 25, 0);
512 * check to see if connection is allowed for this address mask
514 if (!ipmask_check(&addr.addr, &listener->mask, listener->mask_bits))
516 ++ServerStats->is_ref;
517 send(fd, "ERROR :Use another port\r\n", 25, 0);
521 ++ServerStats->is_ac;
522 /* nextping = CurrentTime; */
523 if(listener_secure(listener)) {
524 ssl_accept(listener, fd);
527 add_connection(listener, fd, NULL);