/[cvs]/eggdrop1.8/src/net.c
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Revision 1.11 - (show annotations) (download) (as text)
Tue Feb 15 23:55:17 2011 UTC (8 years, 1 month ago) by pseudo
Branch: MAIN
CVS Tags: HEAD
Changes since 1.10: +3 -2 lines
File MIME type: text/x-chdr
Fixed a bug with connecting to numeric addresses when compiled with --disable-ipv6

1 /*
2 * net.c -- handles:
3 * all raw network i/o
4 *
5 * $Id: net.c,v 1.10 2011/02/03 15:44:11 pseudo Exp $
6 */
7 /*
8 * This is hereby released into the public domain.
9 * Robey Pointer, robey@netcom.com
10 *
11 * Changes after Feb 23, 1999 Copyright Eggheads Development Team
12 *
13 * Copyright (C) 1999 - 2010 Eggheads Development Team
14 *
15 * This program is free software; you can redistribute it and/or
16 * modify it under the terms of the GNU General Public License
17 * as published by the Free Software Foundation; either version 2
18 * of the License, or (at your option) any later version.
19 *
20 * This program is distributed in the hope that it will be useful,
21 * but WITHOUT ANY WARRANTY; without even the implied warranty of
22 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
23 * GNU General Public License for more details.
24 *
25 * You should have received a copy of the GNU General Public License
26 * along with this program; if not, write to the Free Software
27 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
28 */
29
30 #include <fcntl.h>
31 #include "main.h"
32 #include <limits.h>
33 #include <string.h>
34 #include <netdb.h>
35 #include <sys/socket.h>
36 #if HAVE_SYS_SELECT_H
37 # include <sys/select.h>
38 #endif
39 #include <netinet/in.h>
40 #include <arpa/inet.h>
41 #include <errno.h>
42 #if HAVE_UNISTD_H
43 # include <unistd.h>
44 #endif
45 #include <setjmp.h>
46
47 #ifdef TLS
48 # include <openssl/err.h>
49 #endif
50
51 #ifndef HAVE_GETDTABLESIZE
52 # ifdef FD_SETSIZE
53 # define getdtablesize() FD_SETSIZE
54 # else
55 # define getdtablesize() 200
56 # endif
57 #endif
58
59 extern struct dcc_t *dcc;
60 extern int backgrd, use_stderr, resolve_timeout, dcc_total;
61 extern unsigned long otraffic_irc_today, otraffic_bn_today, otraffic_dcc_today,
62 otraffic_filesys_today, otraffic_trans_today,
63 otraffic_unknown_today;
64
65 char natip[121] = ""; /* Public IPv4 to report for systems behind NAT */
66 char listen_ip[121] = ""; /* IP (or hostname) for listening sockets */
67 char vhost[121] = ""; /* IPv4 vhost for outgoing connections */
68 #ifdef IPV6
69 char vhost6[121] = ""; /* IPv6 vhost for outgoing connections */
70 int pref_af = 0; /* Prefer IPv6 over IPv4? */
71 #endif
72 char firewall[121] = ""; /* Socks server for firewall. */
73 int firewallport = 1080; /* Default port of socks 4/5 firewalls. */
74 char botuser[21] = "eggdrop"; /* Username of the user running the bot. */
75 int dcc_sanitycheck = 0; /* Do some sanity checking on dcc connections. */
76
77 sock_list *socklist = NULL; /* Enough to be safe. */
78 sigjmp_buf alarmret; /* Env buffer for alarm() returns. */
79
80 /* Types of proxies */
81 #define PROXY_SOCKS 1
82 #define PROXY_SUN 2
83
84
85 /* I need an UNSIGNED long for dcc type stuff
86 */
87 IP my_atoul(char *s)
88 {
89 IP ret = 0;
90
91 while ((*s >= '0') && (*s <= '9')) {
92 ret *= 10;
93 ret += ((*s) - '0');
94 s++;
95 }
96 return ret;
97 }
98
99 int expmem_net()
100 {
101 int i, tot = 0;
102 struct threaddata *td = threaddata();
103
104 for (i = 0; i < td->MAXSOCKS; i++) {
105 if (!(td->socklist[i].flags & (SOCK_UNUSED | SOCK_TCL))) {
106 if (td->socklist[i].handler.sock.inbuf != NULL)
107 tot += strlen(td->socklist[i].handler.sock.inbuf) + 1;
108 if (td->socklist[i].handler.sock.outbuf != NULL)
109 tot += td->socklist[i].handler.sock.outbuflen;
110 }
111 }
112 return tot;
113 }
114
115 /* Extract the IP address from a sockaddr struct and convert it
116 * to presentation format.
117 */
118 char *iptostr(struct sockaddr *sa)
119 {
120 #ifdef IPV6
121 static char s[INET6_ADDRSTRLEN] = "";
122 if (sa->sa_family == AF_INET6)
123 inet_ntop(AF_INET6, &((struct sockaddr_in6 *)sa)->sin6_addr,
124 s, sizeof s);
125 else
126 #else
127 static char s[sizeof "255.255.255.255"] = "";
128 #endif
129 inet_ntop(AF_INET, &((struct sockaddr_in *)sa)->sin_addr.s_addr, s,
130 sizeof s);
131 return s;
132 }
133
134 /* Fills in a sockname struct with the given server and port. If the string
135 * pointed by src isn't an IP address and allowres is not null, the function
136 * will assume it's a hostname and will attempt to resolve it. This is
137 * convenient, but you should use the async dns functions where possible, to
138 * avoid blocking the bot while the lookup is performed.
139 */
140 int setsockname(sockname_t *addr, char *src, int port, int allowres)
141 {
142 struct hostent *hp;
143 int af = AF_UNSPEC;
144 #ifdef IPV6
145 int pref;
146
147 /* Clean start */
148 egg_bzero(addr, sizeof(sockname_t));
149 af = pref = pref_af ? AF_INET6 : AF_INET;
150 if (pref == AF_INET) {
151 if (!egg_inet_aton(src, &addr->addr.s4.sin_addr))
152 af = AF_INET6;
153 } else {
154 if (inet_pton(af, src, &addr->addr.s6.sin6_addr) != 1)
155 af = AF_INET;
156 }
157 if (af != pref)
158 if (((af == AF_INET6) &&
159 (inet_pton(af, src, &addr->addr.s6.sin6_addr) != 1)) ||
160 ((af == AF_INET) &&
161 !egg_inet_aton(src, &addr->addr.s4.sin_addr)))
162 af = AF_UNSPEC;
163
164 if (af == AF_UNSPEC && allowres) {
165 /* src is a hostname. Attempt to resolve it.. */
166 if (!sigsetjmp(alarmret, 1)) {
167 alarm(resolve_timeout);
168 hp = gethostbyname2(src, pref_af ? AF_INET6 : AF_INET);
169 if (!hp)
170 hp = gethostbyname2(src, pref_af ? AF_INET : AF_INET6);
171 alarm(0);
172 } else
173 hp = NULL;
174 if (hp) {
175 if (hp->h_addrtype == AF_INET)
176 egg_memcpy(&addr->addr.s4.sin_addr, hp->h_addr, hp->h_length);
177 else
178 egg_memcpy(&addr->addr.s6.sin6_addr, hp->h_addr, hp->h_length);
179 af = hp->h_addrtype;
180 }
181 }
182
183 addr->family = (af == AF_UNSPEC) ? pref : af;
184 addr->addr.sa.sa_family = addr->family;
185 if (addr->family == AF_INET6) {
186 addr->addrlen = sizeof(struct sockaddr_in6);
187 addr->addr.s6.sin6_port = htons(port);
188 addr->addr.s6.sin6_family = AF_INET6;
189 } else {
190 addr->addrlen = sizeof(struct sockaddr_in);
191 addr->addr.s4.sin_port = htons(port);
192 addr->addr.s4.sin_family = AF_INET;
193 }
194 #else
195 egg_bzero(addr, sizeof(sockname_t));
196 if (!egg_inet_aton(src, &addr->addr.s4.sin_addr) && allowres) {
197 /* src is a hostname. Attempt to resolve it.. */
198 if (!sigsetjmp(alarmret, 1)) {
199 alarm(resolve_timeout);
200 hp = gethostbyname(src);
201 alarm(0);
202 } else
203 hp = NULL;
204 if (hp) {
205 egg_memcpy(&addr->addr.s4.sin_addr, hp->h_addr, hp->h_length);
206 af = hp->h_addrtype;
207 }
208 } else
209 af = AF_INET;
210
211 addr->family = addr->addr.s4.sin_family = AF_INET;
212 addr->addr.sa.sa_family = addr->family;
213 addr->addrlen = sizeof(struct sockaddr_in);
214 addr->addr.s4.sin_port = htons(port);
215 #endif
216 return af;
217 }
218
219 /* Get socket address to bind to for outbound connections
220 */
221 void getvhost(sockname_t *addr, int af)
222 {
223 char *h;
224
225 if (af == AF_INET)
226 h = vhost;
227 #ifdef IPV6
228 else
229 h = vhost6;
230 #endif
231 if (setsockname(addr, h, 0, 1) != af)
232 setsockname(addr, (af == AF_INET ? "0" : "::"), 0, 0);
233 /* Remember this 'self-lookup failed' thingie?
234 I have good news - you won't see it again ;) */
235 }
236
237 /* Sets/Unsets options for a specific socket.
238 *
239 * Returns: 0 - on success
240 * -1 - socket not found
241 * -2 - illegal operation
242 */
243 int sockoptions(int sock, int operation, int sock_options)
244 {
245 int i;
246 struct threaddata *td = threaddata();
247
248 for (i = 0; i < td->MAXSOCKS; i++)
249 if ((td->socklist[i].sock == sock) &&
250 !(td->socklist[i].flags & SOCK_UNUSED)) {
251 if (operation == EGG_OPTION_SET)
252 td->socklist[i].flags |= sock_options;
253 else if (operation == EGG_OPTION_UNSET)
254 td->socklist[i].flags &= ~sock_options;
255 else
256 return -2;
257 return 0;
258 }
259 return -1;
260 }
261
262 /* Return a free entry in the socket entry
263 */
264 int allocsock(int sock, int options)
265 {
266 int i;
267 struct threaddata *td = threaddata();
268
269 for (i = 0; i < td->MAXSOCKS; i++) {
270 if (td->socklist[i].flags & SOCK_UNUSED) {
271 /* yay! there is table space */
272 td->socklist[i].handler.sock.inbuf = NULL;
273 td->socklist[i].handler.sock.outbuf = NULL;
274 td->socklist[i].handler.sock.inbuflen = 0;
275 td->socklist[i].handler.sock.outbuflen = 0;
276 td->socklist[i].flags = options;
277 td->socklist[i].sock = sock;
278 #ifdef TLS
279 td->socklist[i].ssl = 0;
280 #endif
281 return i;
282 }
283 }
284 /* Try again if enlarging socketlist works */
285 if (increase_socks_max())
286 return -1;
287 else
288 return allocsock(sock, options);
289 }
290
291 /* Return a free entry in the socket entry for a tcl socket
292 *
293 * alloctclsock() can be called by Tcl threads
294 */
295 int alloctclsock(register int sock, int mask, Tcl_FileProc *proc, ClientData cd)
296 {
297 int f = -1;
298 register int i;
299 struct threaddata *td = threaddata();
300
301 for (i = 0; i < td->MAXSOCKS; i++) {
302 if (td->socklist[i].flags & SOCK_UNUSED) {
303 if (f == -1)
304 f = i;
305 } else if ((td->socklist[i].flags & SOCK_TCL) &&
306 td->socklist[i].sock == sock) {
307 f = i;
308 break;
309 }
310 }
311 if (f != -1) {
312 td->socklist[f].sock = sock;
313 td->socklist[f].flags = SOCK_TCL;
314 td->socklist[f].handler.tclsock.mask = mask;
315 td->socklist[f].handler.tclsock.proc = proc;
316 td->socklist[f].handler.tclsock.cd = cd;
317 return f;
318 }
319 /* Try again if enlarging socketlist works */
320 if (increase_socks_max())
321 return -1;
322 else
323 return alloctclsock(sock, mask, proc, cd);
324 }
325
326 /* Request a normal socket for i/o
327 */
328 void setsock(int sock, int options)
329 {
330 int i = allocsock(sock, options), parm;
331 struct threaddata *td = threaddata();
332
333 if (i == -1) {
334 putlog(LOG_MISC, "*", "Sockettable full.");
335 return;
336 }
337 if (((sock != STDOUT) || backgrd) && !(td->socklist[i].flags & SOCK_NONSOCK)) {
338 parm = 1;
339 setsockopt(sock, SOL_SOCKET, SO_KEEPALIVE, (void *) &parm, sizeof(int));
340
341 parm = 0;
342 setsockopt(sock, SOL_SOCKET, SO_LINGER, (void *) &parm, sizeof(int));
343 }
344 if (options & SOCK_LISTEN) {
345 /* Tris says this lets us grab the same port again next time */
346 parm = 1;
347 setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, (void *) &parm, sizeof(int));
348 }
349 /* Yay async i/o ! */
350 fcntl(sock, F_SETFL, O_NONBLOCK);
351 }
352
353 int getsock(int af, int options)
354 {
355 int sock = socket(af, SOCK_STREAM, 0);
356
357 if (sock >= 0)
358 setsock(sock, options);
359 else
360 putlog(LOG_MISC, "*", "Warning: Can't create new socket: %s!",
361 strerror(errno));
362 return sock;
363 }
364
365 /* Done with a socket
366 */
367 void killsock(register int sock)
368 {
369 register int i;
370 struct threaddata *td = threaddata();
371
372 /* Ignore invalid sockets. */
373 if (sock < 0)
374 return;
375
376 for (i = 0; i < td->MAXSOCKS; i++) {
377 if ((td->socklist[i].sock == sock) && !(td->socklist[i].flags & SOCK_UNUSED)) {
378 if (!(td->socklist[i].flags & SOCK_TCL)) { /* nothing to free for tclsocks */
379 #ifdef TLS
380 if (td->socklist[i].ssl) {
381 SSL_shutdown(td->socklist[i].ssl);
382 nfree(SSL_get_app_data(td->socklist[i].ssl));
383 SSL_free(td->socklist[i].ssl);
384 td->socklist[i].ssl = NULL;
385 }
386 #endif
387 close(td->socklist[i].sock);
388 if (td->socklist[i].handler.sock.inbuf != NULL) {
389 nfree(td->socklist[i].handler.sock.inbuf);
390 td->socklist[i].handler.sock.inbuf = NULL;
391 }
392 if (td->socklist[i].handler.sock.outbuf != NULL) {
393 nfree(td->socklist[i].handler.sock.outbuf);
394 td->socklist[i].handler.sock.outbuf = NULL;
395 td->socklist[i].handler.sock.outbuflen = 0;
396 }
397 }
398 td->socklist[i].flags = SOCK_UNUSED;
399 return;
400 }
401 }
402 putlog(LOG_MISC, "*", "Warning: Attempt to kill un-allocated socket %d!", sock);
403 }
404
405 /* Done with a tcl socket
406 *
407 * killtclsock() can be called by Tcl threads
408 */
409 void killtclsock(register int sock)
410 {
411 register int i;
412 struct threaddata *td = threaddata();
413
414 if (sock < 0)
415 return;
416
417 for (i = 0; i < td->MAXSOCKS; i++) {
418 if ((td->socklist[i].flags & SOCK_TCL) && td->socklist[i].sock == sock) {
419 td->socklist[i].flags = SOCK_UNUSED;
420 return;
421 }
422 }
423 }
424
425 /* Send connection request to proxy
426 */
427 static int proxy_connect(int sock, sockname_t *addr)
428 {
429 sockname_t name;
430 char host[121], s[256];
431 int i, port, proxy;
432
433 if (!firewall[0])
434 return -2;
435 #ifdef IPV6
436 if (addr->family == AF_INET6) {
437 putlog(LOG_MISC, "*", "Eggdrop doesn't support IPv6 connections "
438 "through proxies yet.");
439 return -1;
440 }
441 #endif
442 if (firewall[0] == '!') {
443 proxy = PROXY_SUN;
444 strcpy(host, &firewall[1]);
445 } else {
446 proxy = PROXY_SOCKS;
447 strcpy(host, firewall);
448 }
449 port = addr->addr.s4.sin_port;
450 setsockname(&name, host, firewallport, 1);
451 if (connect(sock, &name.addr.sa, name.addrlen) < 0 && errno != EINPROGRESS)
452 return -1;
453 if (proxy == PROXY_SOCKS) {
454 for (i = 0; i < threaddata()->MAXSOCKS; i++)
455 if (!(socklist[i].flags & SOCK_UNUSED) && socklist[i].sock == sock)
456 socklist[i].flags |= SOCK_PROXYWAIT; /* drummer */
457 egg_memcpy(host, &addr->addr.s4.sin_addr.s_addr, 4);
458 egg_snprintf(s, sizeof s, "\004\001%c%c%c%c%c%c%s", port % 256,
459 (port >> 8) % 256, host[0], host[1], host[2], host[3], botuser);
460 tputs(sock, s, strlen(botuser) + 9); /* drummer */
461 } else if (proxy == PROXY_SUN) {
462 inet_ntop(AF_INET, &addr->addr.s4.sin_addr, host, sizeof host);
463 egg_snprintf(s, sizeof s, "%s %d\n", host, port);
464 tputs(sock, s, strlen(s)); /* drummer */
465 }
466 return sock;
467 }
468
469 /* Starts a connection attempt through a socket
470 *
471 * The server address should be filled in addr by setsockname() or by the
472 * non-blocking dns functions and setsnport().
473 *
474 * returns < 0 if connection refused:
475 * -1 strerror() type error
476 */
477 int open_telnet_raw(int sock, sockname_t *addr)
478 {
479 sockname_t name;
480 int i, rc;
481
482 getvhost(&name, addr->family);
483 if (bind(sock, &name.addr.sa, name.addrlen) < 0) {
484 return -1;
485 }
486 for (i = 0; i < threaddata()->MAXSOCKS; i++) {
487 if (!(socklist[i].flags & SOCK_UNUSED) && (socklist[i].sock == sock))
488 socklist[i].flags = (socklist[i].flags & ~SOCK_VIRTUAL) | SOCK_CONNECT;
489 }
490 if (addr->family == AF_INET && firewall[0])
491 return proxy_connect(sock, addr);
492 rc = connect(sock, &addr->addr.sa, addr->addrlen);
493 if (rc < 0) {
494 if (errno == EINPROGRESS)
495 return sock; /* async success! */
496 else
497 return -1;
498 }
499 return sock;
500 }
501
502 /* Ordinary non-binary connection attempt
503 * Return values:
504 * >=0: connect successful, returned is the socket number
505 * -1: look at errno or use strerror()
506 * -2: lookup failed or server is not a valid IP string
507 * -3: could not allocate socket
508 */
509 int open_telnet(int idx, char *server, int port)
510 {
511 int ret;
512
513 ret = setsockname(&dcc[idx].sockname, server, port, 1);
514 if (ret == AF_UNSPEC)
515 return -2;
516 dcc[idx].port = port;
517 dcc[idx].sock = getsock(ret, 0);
518 if (dcc[idx].sock < 0)
519 return -3;
520 ret = open_telnet_raw(dcc[idx].sock, &dcc[idx].sockname);
521 if (ret < 0)
522 killsock(dcc[idx].sock);
523 return ret;
524 }
525
526 /* Returns a socket number for a listening socket that will accept any
527 * connection on the given address. The address can be filled in by
528 * setsockname().
529 */
530 int open_address_listen(sockname_t *addr)
531 {
532 int sock = 0;
533
534 sock = getsock(addr->family, SOCK_LISTEN);
535 if (sock < 0)
536 return -1;
537 #if defined IPV6 && IPV6_V6ONLY
538 if (addr->family == AF_INET6) {
539 int on = 0;
540 setsockopt(sock, IPPROTO_IPV6, IPV6_V6ONLY, (char *) &on, sizeof(on));
541 }
542 #endif
543 if (bind(sock, &addr->addr.sa, addr->addrlen) < 0) {
544 killsock(sock);
545 return -2;
546 }
547
548 if (getsockname(sock, &addr->addr.sa, &addr->addrlen) < 0) {
549 killsock(sock);
550 return -1;
551 }
552 if (listen(sock, 1) < 0) {
553 killsock(sock);
554 return -1;
555 }
556
557 return sock;
558 }
559
560 /* Returns a socket number for a listening socket that will accept any
561 * connection -- port # is returned in port
562 */
563 inline int open_listen(int *port)
564 {
565 int sock;
566 sockname_t name;
567
568 (void) setsockname(&name, listen_ip, *port, 1);
569 sock = open_address_listen(&name);
570 if (name.addr.sa.sa_family == AF_INET)
571 *port = ntohs(name.addr.s4.sin_port);
572 #ifdef IPV6
573 else
574 *port = ntohs(name.addr.s6.sin6_port);
575 #endif
576 return sock;
577 }
578
579 /* Short routine to answer a connect received on a listening socket.
580 * Returned is the new socket.
581 * If port is not NULL, it points to an integer to hold the port number
582 * of the caller.
583 */
584 int answer(int sock, sockname_t *caller, unsigned short *port, int binary)
585 {
586 int new_sock;
587 caller->addrlen = sizeof(caller->addr);
588 new_sock = accept(sock, &caller->addr.sa, &caller->addrlen);
589
590 if (new_sock < 0)
591 return -1;
592
593 caller->family = caller->addr.sa.sa_family;
594 if (port) {
595 if (caller->family == AF_INET)
596 *port = ntohs(caller->addr.s4.sin_port);
597 #ifdef IPV6
598 else
599 *port = ntohs(caller->addr.s6.sin6_port);
600 #endif
601 }
602 setsock(new_sock, (binary ? SOCK_BINARY : 0));
603 return new_sock;
604 }
605
606 /* Get DCC compatible address for a client to connect (e.g. 1660944385)
607 * If addr is not NULL, it should point to the listening socket's address.
608 * Otherwise, this function will try to figure out the public address of the
609 * machine, using listen_ip and natip.
610 * The result is a string useable for DCC requests
611 */
612 int getdccaddr(sockname_t *addr, char *s, size_t l)
613 {
614 char h[121];
615 sockname_t name, *r = &name;
616
617 if (addr)
618 r = addr;
619 else
620 setsockname(r, listen_ip, 0, 1);
621 if (
622 #ifdef IPV6
623 ((r->family == AF_INET6) &&
624 IN6_IS_ADDR_UNSPECIFIED(&r->addr.s6.sin6_addr)) ||
625 #endif
626 (r->family == AF_INET && !r->addr.s4.sin_addr.s_addr)) {
627 /* We can't send :: or 0.0.0.0 for dcc, so try
628 to figure out some real address */
629 r = &name;
630 gethostname(h, sizeof h);
631 setsockname(r, h, 0, 1);
632 }
633
634 if (
635 #ifdef IPV6
636 ((r->family == AF_INET6) &&
637 IN6_IS_ADDR_UNSPECIFIED(&r->addr.s6.sin6_addr)) ||
638 #endif
639 (!natip[0] && (r->family == AF_INET) && !r->addr.s4.sin_addr.s_addr))
640 return 0;
641
642 #ifdef IPV6
643 if (r->family == AF_INET6) {
644 if (IN6_IS_ADDR_V4MAPPED(&r->addr.s6.sin6_addr) ||
645 IN6_IS_ADDR_UNSPECIFIED(&r->addr.s6.sin6_addr))
646 snprintf(s, l, "%lu", natip[0] ? iptolong(inet_addr(natip)) :
647 ntohl(*(IP *) &r->addr.s6.sin6_addr.s6_addr[12]));
648 else
649 inet_ntop(AF_INET6, &r->addr.s6.sin6_addr, s, l);
650 } else
651 #endif
652 snprintf(s, l, "%lu", natip[0] ? iptolong(inet_addr(natip)) :
653 ntohl(r->addr.s4.sin_addr.s_addr));
654 return 1;
655 }
656
657 /* Builds the fd_sets for select(). Eggdrop only cares about readable
658 * sockets, but tcl also cares for writable/exceptions.
659 * preparefdset() can be called by Tcl Threads
660 */
661 int preparefdset(fd_set *fd, sock_list *slist, int slistmax, int tclonly, int tclmask)
662 {
663 int fdtmp, i, foundsocks = 0;
664
665 FD_ZERO(fd);
666 for (i = 0; i < slistmax; i++) {
667 if (!(slist[i].flags & (SOCK_UNUSED | SOCK_VIRTUAL))) {
668 if ((slist[i].sock == STDOUT) && !backgrd)
669 fdtmp = STDIN;
670 else
671 fdtmp = slist[i].sock;
672 /*
673 * Looks like that having more than a call, in the same
674 * program, to the FD_SET macro, triggers a bug in gcc.
675 * SIGBUS crashing binaries used to be produced on a number
676 * (prolly all?) of 64 bits architectures.
677 * Make your best to avoid to make it happen again.
678 *
679 * ITE
680 */
681 if (slist[i].flags & SOCK_TCL) {
682 if (!(slist[i].handler.tclsock.mask & tclmask))
683 continue;
684 } else if (tclonly)
685 continue;
686 foundsocks = 1;
687 FD_SET(fdtmp, fd);
688 }
689 }
690 return foundsocks;
691 }
692
693 /* Attempts to read from all sockets in slist (upper array boundary slistmax-1)
694 * fills s with up to 511 bytes if available, and returns the array index
695 * Also calls all handler procs for Tcl sockets
696 * sockread() can be called by Tcl threads
697 *
698 * on EOF: returns -1, with socket in len
699 * on socket error: returns -2
700 * if nothing is ready: returns -3
701 * tcl sockets busy: returns -5
702 */
703 int sockread(char *s, int *len, sock_list *slist, int slistmax, int tclonly)
704 {
705 struct timeval t;
706 fd_set fdr, fdw, fde;
707 int fds, i, x, have_r, have_w, have_e;
708 int grab = 511, tclsock = -1, events = 0;
709 struct threaddata *td = threaddata();
710
711 fds = getdtablesize();
712 #ifdef FD_SETSIZE
713 if (fds > FD_SETSIZE)
714 fds = FD_SETSIZE; /* Fixes YET ANOTHER freebsd bug!!! */
715 #endif
716
717 have_r = preparefdset(&fdr, slist, slistmax, tclonly, TCL_READABLE);
718 have_w = preparefdset(&fdw, slist, slistmax, 1, TCL_WRITABLE);
719 have_e = preparefdset(&fde, slist, slistmax, 1, TCL_EXCEPTION);
720
721 /* select() may modify the timeval argument - copy it */
722 t.tv_sec = td->blocktime.tv_sec;
723 t.tv_usec = td->blocktime.tv_usec;
724
725 x = select((SELECT_TYPE_ARG1) fds,
726 SELECT_TYPE_ARG234 (have_r ? &fdr : NULL),
727 SELECT_TYPE_ARG234 (have_w ? &fdw : NULL),
728 SELECT_TYPE_ARG234 (have_e ? &fde : NULL),
729 SELECT_TYPE_ARG5 &t);
730 if (x == -1)
731 return -2; /* socket error */
732
733 for (i = 0; i < slistmax; i++) {
734 if (!tclonly && ((!(slist[i].flags & (SOCK_UNUSED | SOCK_TCL))) &&
735 ((FD_ISSET(slist[i].sock, &fdr)) ||
736 #ifdef TLS
737 (slist[i].ssl && (SSL_pending(slist[i].ssl) ||
738 !SSL_is_init_finished(slist[i].ssl))) ||
739 #endif
740 ((slist[i].sock == STDOUT) && (!backgrd) &&
741 (FD_ISSET(STDIN, &fdr)))))) {
742 if (slist[i].flags & (SOCK_LISTEN | SOCK_CONNECT)) {
743 /* Listening socket -- don't read, just return activity */
744 /* Same for connection attempt */
745 /* (for strong connections, require a read to succeed first) */
746 if (slist[i].flags & SOCK_PROXYWAIT) /* drummer */
747 /* Hang around to get the return code from proxy */
748 grab = 10;
749 #ifdef TLS
750 else if (!(slist[i].flags & SOCK_STRONGCONN) &&
751 (!(slist[i].ssl) || SSL_is_init_finished(slist[i].ssl))) {
752 #else
753 else if (!(slist[i].flags & SOCK_STRONGCONN)) {
754 #endif
755 debug1("net: connect! sock %d", slist[i].sock);
756 s[0] = 0;
757 *len = 0;
758 return i;
759 }
760 } else if (slist[i].flags & SOCK_PASS) {
761 s[0] = 0;
762 *len = 0;
763 return i;
764 }
765 errno = 0;
766 if ((slist[i].sock == STDOUT) && !backgrd)
767 x = read(STDIN, s, grab);
768 else
769 #ifdef TLS
770 {
771 if (slist[i].ssl) {
772 x = SSL_read(slist[i].ssl, s, grab);
773 if (x < 0) {
774 int err = SSL_get_error(slist[i].ssl, x);
775 if (err == SSL_ERROR_WANT_READ || err == SSL_ERROR_WANT_WRITE)
776 errno = EAGAIN;
777 else
778 debug1("sockread(): SSL error = %s",
779 ERR_error_string(ERR_get_error(), 0));
780 x = -1;
781 }
782 } else
783 x = read(slist[i].sock, s, grab);
784 }
785 #else
786 x = read(slist[i].sock, s, grab);
787 #endif
788 if (x <= 0) { /* eof */
789 if (errno != EAGAIN) { /* EAGAIN happens when the operation would
790 * block on a non-blocking socket, if the
791 * socket is going to die, it will die later,
792 * otherwise it will connect. */
793 *len = slist[i].sock;
794 slist[i].flags &= ~SOCK_CONNECT;
795 debug1("net: eof!(read) socket %d", slist[i].sock);
796 return -1;
797 } else {
798 debug3("sockread EAGAIN: %d %d (%s)", slist[i].sock, errno,
799 strerror(errno));
800 continue; /* EAGAIN */
801 }
802 }
803 s[x] = 0;
804 *len = x;
805 if (slist[i].flags & SOCK_PROXYWAIT) {
806 debug2("net: socket: %d proxy errno: %d", slist[i].sock, s[1]);
807 slist[i].flags &= ~(SOCK_CONNECT | SOCK_PROXYWAIT);
808 switch (s[1]) {
809 case 90: /* Success */
810 s[0] = 0;
811 *len = 0;
812 return i;
813 case 91: /* Failed */
814 errno = ECONNREFUSED;
815 break;
816 case 92: /* No identd */
817 case 93: /* Identd said wrong username */
818 /* A better error message would be "socks misconfigured"
819 * or "identd not working" but this is simplest.
820 */
821 errno = ENETUNREACH;
822 break;
823 }
824 *len = slist[i].sock;
825 return -1;
826 }
827 return i;
828 } else if (tclsock == -1 && (slist[i].flags & SOCK_TCL)) {
829 events = FD_ISSET(slist[i].sock, &fdr) ? TCL_READABLE : 0;
830 events |= FD_ISSET(slist[i].sock, &fdw) ? TCL_WRITABLE : 0;
831 events |= FD_ISSET(slist[i].sock, &fde) ? TCL_EXCEPTION : 0;
832 events &= slist[i].handler.tclsock.mask;
833 if (events)
834 tclsock = i;
835 }
836 }
837 if (!tclonly) {
838 s[0] = 0;
839 *len = 0;
840 }
841 if (tclsock != -1) {
842 (*slist[tclsock].handler.tclsock.proc)(slist[tclsock].handler.tclsock.cd,
843 events);
844 return -5;
845 }
846 return -3;
847 }
848
849 /* sockgets: buffer and read from sockets
850 *
851 * Attempts to read from all registered sockets for up to one second. if
852 * after one second, no complete data has been received from any of the
853 * sockets, 's' will be empty, 'len' will be 0, and sockgets will return -3.
854 * if there is returnable data received from a socket, the data will be
855 * in 's' (null-terminated if non-binary), the length will be returned
856 * in len, and the socket number will be returned.
857 * normal sockets have their input buffered, and each call to sockgets
858 * will return one line terminated with a '\n'. binary sockets are not
859 * buffered and return whatever coems in as soon as it arrives.
860 * listening sockets will return an empty string when a connection comes in.
861 * connecting sockets will return an empty string on a successful connect,
862 * or EOF on a failed connect.
863 * if an EOF is detected from any of the sockets, that socket number will be
864 * put in len, and -1 will be returned.
865 * the maximum length of the string returned is 512 (including null)
866 *
867 * Returns -4 if we handled something that shouldn't be handled by the
868 * dcc functions. Simply ignore it.
869 * Returns -5 if tcl sockets are busy but not eggdrop sockets.
870 */
871
872 int sockgets(char *s, int *len)
873 {
874 char xx[514], *p, *px;
875 int ret, i, data = 0;
876
877 for (i = 0; i < threaddata()->MAXSOCKS; i++) {
878 /* Check for stored-up data waiting to be processed */
879 if (!(socklist[i].flags & (SOCK_UNUSED | SOCK_TCL | SOCK_BUFFER)) &&
880 (socklist[i].handler.sock.inbuf != NULL)) {
881 if (!(socklist[i].flags & SOCK_BINARY)) {
882 /* look for \r too cos windows can't follow RFCs */
883 p = strchr(socklist[i].handler.sock.inbuf, '\n');
884 if (p == NULL)
885 p = strchr(socklist[i].handler.sock.inbuf, '\r');
886 if (p != NULL) {
887 *p = 0;
888 if (strlen(socklist[i].handler.sock.inbuf) > 510)
889 socklist[i].handler.sock.inbuf[510] = 0;
890 strcpy(s, socklist[i].handler.sock.inbuf);
891 px = nmalloc(strlen(p + 1) + 1);
892 strcpy(px, p + 1);
893 nfree(socklist[i].handler.sock.inbuf);
894 if (px[0])
895 socklist[i].handler.sock.inbuf = px;
896 else {
897 nfree(px);
898 socklist[i].handler.sock.inbuf = NULL;
899 }
900 /* Strip CR if this was CR/LF combo */
901 if (s[strlen(s) - 1] == '\r')
902 s[strlen(s) - 1] = 0;
903 *len = strlen(s);
904 return socklist[i].sock;
905 }
906 } else {
907 /* Handling buffered binary data (must have been SOCK_BUFFER before). */
908 if (socklist[i].handler.sock.inbuflen <= 510) {
909 *len = socklist[i].handler.sock.inbuflen;
910 egg_memcpy(s, socklist[i].handler.sock.inbuf, socklist[i].handler.sock.inbuflen);
911 nfree(socklist[i].handler.sock.inbuf);
912 socklist[i].handler.sock.inbuf = NULL;
913 socklist[i].handler.sock.inbuflen = 0;
914 } else {
915 /* Split up into chunks of 510 bytes. */
916 *len = 510;
917 egg_memcpy(s, socklist[i].handler.sock.inbuf, *len);
918 egg_memcpy(socklist[i].handler.sock.inbuf, socklist[i].handler.sock.inbuf + *len, *len);
919 socklist[i].handler.sock.inbuflen -= *len;
920 socklist[i].handler.sock.inbuf = nrealloc(socklist[i].handler.sock.inbuf, socklist[i].handler.sock.inbuflen);
921 }
922 return socklist[i].sock;
923 }
924 }
925 /* Also check any sockets that might have EOF'd during write */
926 if (!(socklist[i].flags & SOCK_UNUSED) && (socklist[i].flags & SOCK_EOFD)) {
927 s[0] = 0;
928 *len = socklist[i].sock;
929 return -1;
930 }
931 }
932 /* No pent-up data of any worth -- down to business */
933 *len = 0;
934 ret = sockread(xx, len, socklist, threaddata()->MAXSOCKS, 0);
935 if (ret < 0) {
936 s[0] = 0;
937 return ret;
938 }
939 /* Binary, listening and passed on sockets don't get buffered. */
940 if (socklist[ret].flags & SOCK_CONNECT) {
941 if (socklist[ret].flags & SOCK_STRONGCONN) {
942 socklist[ret].flags &= ~SOCK_STRONGCONN;
943 /* Buffer any data that came in, for future read. */
944 socklist[ret].handler.sock.inbuflen = *len;
945 socklist[ret].handler.sock.inbuf = nmalloc(*len + 1);
946 /* It might be binary data. You never know. */
947 egg_memcpy(socklist[ret].handler.sock.inbuf, xx, *len);
948 socklist[ret].handler.sock.inbuf[*len] = 0;
949 }
950 socklist[ret].flags &= ~SOCK_CONNECT;
951 s[0] = 0;
952 return socklist[ret].sock;
953 }
954 if (socklist[ret].flags & SOCK_BINARY) {
955 egg_memcpy(s, xx, *len);
956 return socklist[ret].sock;
957 }
958 if (socklist[ret].flags & (SOCK_LISTEN | SOCK_PASS | SOCK_TCL)) {
959 s[0] = 0; /* for the dcc traffic counters in the mainloop */
960 return socklist[ret].sock;
961 }
962 if (socklist[ret].flags & SOCK_BUFFER) {
963 socklist[ret].handler.sock.inbuf = (char *) nrealloc(socklist[ret].handler.sock.inbuf,
964 socklist[ret].handler.sock.inbuflen + *len + 1);
965 egg_memcpy(socklist[ret].handler.sock.inbuf + socklist[ret].handler.sock.inbuflen, xx, *len);
966 socklist[ret].handler.sock.inbuflen += *len;
967 /* We don't know whether it's binary data. Make sure normal strings
968 * will be handled properly later on too. */
969 socklist[ret].handler.sock.inbuf[socklist[ret].handler.sock.inbuflen] = 0;
970 return -4; /* Ignore this one. */
971 }
972 /* Might be necessary to prepend stored-up data! */
973 if (socklist[ret].handler.sock.inbuf != NULL) {
974 p = socklist[ret].handler.sock.inbuf;
975 socklist[ret].handler.sock.inbuf = nmalloc(strlen(p) + strlen(xx) + 1);
976 strcpy(socklist[ret].handler.sock.inbuf, p);
977 strcat(socklist[ret].handler.sock.inbuf, xx);
978 nfree(p);
979 if (strlen(socklist[ret].handler.sock.inbuf) < 512) {
980 strcpy(xx, socklist[ret].handler.sock.inbuf);
981 nfree(socklist[ret].handler.sock.inbuf);
982 socklist[ret].handler.sock.inbuf = NULL;
983 socklist[ret].handler.sock.inbuflen = 0;
984 } else {
985 p = socklist[ret].handler.sock.inbuf;
986 socklist[ret].handler.sock.inbuflen = strlen(p) - 510;
987 socklist[ret].handler.sock.inbuf = nmalloc(socklist[ret].handler.sock.inbuflen + 1);
988 strcpy(socklist[ret].handler.sock.inbuf, p + 510);
989 *(p + 510) = 0;
990 strcpy(xx, p);
991 nfree(p);
992 /* (leave the rest to be post-pended later) */
993 }
994 }
995 /* Look for EOL marker; if it's there, i have something to show */
996 p = strchr(xx, '\n');
997 if (p == NULL)
998 p = strchr(xx, '\r');
999 if (p != NULL) {
1000 *p = 0;
1001 strcpy(s, xx);
1002 memmove(xx, p + 1, strlen(p + 1) + 1);
1003 if (s[strlen(s) - 1] == '\r')
1004 s[strlen(s) - 1] = 0;
1005 data = 1; /* DCC_CHAT may now need to process a blank line */
1006 /* NO! */
1007 /* if (!s[0]) strcpy(s," "); */
1008 } else {
1009 s[0] = 0;
1010 if (strlen(xx) >= 510) {
1011 /* String is too long, so just insert fake \n */
1012 strcpy(s, xx);
1013 xx[0] = 0;
1014 data = 1;
1015 }
1016 }
1017 *len = strlen(s);
1018 /* Anything left that needs to be saved? */
1019 if (!xx[0]) {
1020 if (data)
1021 return socklist[ret].sock;
1022 else
1023 return -3;
1024 }
1025 /* Prepend old data back */
1026 if (socklist[ret].handler.sock.inbuf != NULL) {
1027 p = socklist[ret].handler.sock.inbuf;
1028 socklist[ret].handler.sock.inbuflen = strlen(p) + strlen(xx);
1029 socklist[ret].handler.sock.inbuf = nmalloc(socklist[ret].handler.sock.inbuflen + 1);
1030 strcpy(socklist[ret].handler.sock.inbuf, xx);
1031 strcat(socklist[ret].handler.sock.inbuf, p);
1032 nfree(p);
1033 } else {
1034 socklist[ret].handler.sock.inbuflen = strlen(xx);
1035 socklist[ret].handler.sock.inbuf = nmalloc(socklist[ret].handler.sock.inbuflen + 1);
1036 strcpy(socklist[ret].handler.sock.inbuf, xx);
1037 }
1038 if (data)
1039 return socklist[ret].sock;
1040 else
1041 return -3;
1042 }
1043
1044 /* Dump something to a socket
1045 *
1046 * NOTE: Do NOT put Contexts in here if you want DEBUG to be meaningful!!
1047 */
1048 void tputs(register int z, char *s, unsigned int len)
1049 {
1050 register int i, x, idx;
1051 char *p;
1052 static int inhere = 0;
1053
1054 if (z < 0) /* um... HELLO?! sanity check please! */
1055 return;
1056
1057 if (((z == STDOUT) || (z == STDERR)) && (!backgrd || use_stderr)) {
1058 write(z, s, len);
1059 return;
1060 }
1061
1062 for (i = 0; i < threaddata()->MAXSOCKS; i++) {
1063 if (!(socklist[i].flags & SOCK_UNUSED) && (socklist[i].sock == z)) {
1064 for (idx = 0; idx < dcc_total; idx++) {
1065 if ((dcc[idx].sock == z) && dcc[idx].type && dcc[idx].type->name) {
1066 if (!strncmp(dcc[idx].type->name, "BOT", 3))
1067 otraffic_bn_today += len;
1068 else if (!strcmp(dcc[idx].type->name, "SERVER"))
1069 otraffic_irc_today += len;
1070 else if (!strncmp(dcc[idx].type->name, "CHAT", 4))
1071 otraffic_dcc_today += len;
1072 else if (!strncmp(dcc[idx].type->name, "FILES", 5))
1073 otraffic_filesys_today += len;
1074 else if (!strcmp(dcc[idx].type->name, "SEND"))
1075 otraffic_trans_today += len;
1076 else if (!strncmp(dcc[idx].type->name, "GET", 3))
1077 otraffic_trans_today += len;
1078 else
1079 otraffic_unknown_today += len;
1080 break;
1081 }
1082 }
1083
1084 if (socklist[i].handler.sock.outbuf != NULL) {
1085 /* Already queueing: just add it */
1086 p = (char *) nrealloc(socklist[i].handler.sock.outbuf, socklist[i].handler.sock.outbuflen + len);
1087 egg_memcpy(p + socklist[i].handler.sock.outbuflen, s, len);
1088 socklist[i].handler.sock.outbuf = p;
1089 socklist[i].handler.sock.outbuflen += len;
1090 return;
1091 }
1092 #ifdef TLS
1093 if (socklist[i].ssl) {
1094 x = SSL_write(socklist[i].ssl, s, len);
1095 if (x < 0) {
1096 int err = SSL_get_error(socklist[i].ssl, x);
1097 if (err == SSL_ERROR_WANT_WRITE || err == SSL_ERROR_WANT_READ)
1098 errno = EAGAIN;
1099 else if (!inhere) { /* Out there, somewhere */
1100 inhere = 1;
1101 debug1("tputs(): SSL error = %s",
1102 ERR_error_string(ERR_get_error(), 0));
1103 inhere = 0;
1104 }
1105 x = -1;
1106 }
1107 } else /* not ssl, use regular write() */
1108 #endif
1109 /* Try. */
1110 x = write(z, s, len);
1111 if (x == -1)
1112 x = 0;
1113 if (x < len) {
1114 /* Socket is full, queue it */
1115 socklist[i].handler.sock.outbuf = nmalloc(len - x);
1116 egg_memcpy(socklist[i].handler.sock.outbuf, &s[x], len - x);
1117 socklist[i].handler.sock.outbuflen = len - x;
1118 }
1119 return;
1120 }
1121 }
1122 /* Make sure we don't cause a crash by looping here */
1123 if (!inhere) {
1124 inhere = 1;
1125
1126 putlog(LOG_MISC, "*", "!!! writing to nonexistent socket: %d", z);
1127 s[strlen(s) - 1] = 0;
1128 putlog(LOG_MISC, "*", "!-> '%s'", s);
1129
1130 inhere = 0;
1131 }
1132 }
1133
1134 /* tputs might queue data for sockets, let's dump as much of it as
1135 * possible.
1136 */
1137 void dequeue_sockets()
1138 {
1139 int i, x;
1140
1141 int z = 0, fds;
1142 fd_set wfds;
1143 struct timeval tv;
1144
1145 /* ^-- start poptix test code, this should avoid writes to sockets not ready to be written to. */
1146 fds = getdtablesize();
1147
1148 #ifdef FD_SETSIZE
1149 if (fds > FD_SETSIZE)
1150 fds = FD_SETSIZE; /* Fixes YET ANOTHER freebsd bug!!! */
1151 #endif
1152 FD_ZERO(&wfds);
1153 tv.tv_sec = 0;
1154 tv.tv_usec = 0; /* we only want to see if it's ready for writing, no need to actually wait.. */
1155 for (i = 0; i < threaddata()->MAXSOCKS; i++)
1156 if (!(socklist[i].flags & (SOCK_UNUSED | SOCK_TCL)) &&
1157 (socklist[i].handler.sock.outbuf != NULL)) {
1158 FD_SET(socklist[i].sock, &wfds);
1159 z = 1;
1160 }
1161 if (!z)
1162 return; /* nothing to write */
1163
1164 select((SELECT_TYPE_ARG1) fds, SELECT_TYPE_ARG234 NULL,
1165 SELECT_TYPE_ARG234 &wfds, SELECT_TYPE_ARG234 NULL,
1166 SELECT_TYPE_ARG5 &tv);
1167
1168 /* end poptix */
1169
1170 for (i = 0; i < threaddata()->MAXSOCKS; i++) {
1171 if (!(socklist[i].flags & (SOCK_UNUSED | SOCK_TCL)) &&
1172 (socklist[i].handler.sock.outbuf != NULL) && (FD_ISSET(socklist[i].sock, &wfds))) {
1173 /* Trick tputs into doing the work */
1174 errno = 0;
1175 #ifdef TLS
1176 if (socklist[i].ssl) {
1177 x = SSL_write(socklist[i].ssl, socklist[i].handler.sock.outbuf,
1178 socklist[i].handler.sock.outbuflen);
1179 if (x < 0) {
1180 int err = SSL_get_error(socklist[i].ssl, x);
1181 if (err == SSL_ERROR_WANT_WRITE || err == SSL_ERROR_WANT_READ)
1182 errno = EAGAIN;
1183 else
1184 debug1("dequeue_sockets(): SSL error = %s",
1185 ERR_error_string(ERR_get_error(), 0));
1186 x = -1;
1187 }
1188 } else
1189 #endif
1190 x = write(socklist[i].sock, socklist[i].handler.sock.outbuf,
1191 socklist[i].handler.sock.outbuflen);
1192 if ((x < 0) && (errno != EAGAIN)
1193 #ifdef EBADSLT
1194 && (errno != EBADSLT)
1195 #endif
1196 #ifdef ENOTCONN
1197 && (errno != ENOTCONN)
1198 #endif
1199 ) {
1200 /* This detects an EOF during writing */
1201 debug3("net: eof!(write) socket %d (%s,%d)", socklist[i].sock,
1202 strerror(errno), errno);
1203 socklist[i].flags |= SOCK_EOFD;
1204 } else if (x == socklist[i].handler.sock.outbuflen) {
1205 /* If the whole buffer was sent, nuke it */
1206 nfree(socklist[i].handler.sock.outbuf);
1207 socklist[i].handler.sock.outbuf = NULL;
1208 socklist[i].handler.sock.outbuflen = 0;
1209 } else if (x > 0) {
1210 char *p = socklist[i].handler.sock.outbuf;
1211
1212 /* This removes any sent bytes from the beginning of the buffer */
1213 socklist[i].handler.sock.outbuf =
1214 nmalloc(socklist[i].handler.sock.outbuflen - x);
1215 egg_memcpy(socklist[i].handler.sock.outbuf, p + x,
1216 socklist[i].handler.sock.outbuflen - x);
1217 socklist[i].handler.sock.outbuflen -= x;
1218 nfree(p);
1219 } else {
1220 debug3("dequeue_sockets(): errno = %d (%s) on %d", errno,
1221 strerror(errno), socklist[i].sock);
1222 }
1223 /* All queued data was sent. Call handler if one exists and the
1224 * dcc entry wants it.
1225 */
1226 if (!socklist[i].handler.sock.outbuf) {
1227 int idx = findanyidx(socklist[i].sock);
1228
1229 if (idx > 0 && dcc[idx].type && dcc[idx].type->outdone)
1230 dcc[idx].type->outdone(idx);
1231 }
1232 }
1233 }
1234 }
1235
1236
1237 /*
1238 * Debugging stuff
1239 */
1240
1241 void tell_netdebug(int idx)
1242 {
1243 int i;
1244 char s[80];
1245
1246 dprintf(idx, "Open sockets:");
1247 for (i = 0; i < threaddata()->MAXSOCKS; i++) {
1248 if (!(socklist[i].flags & SOCK_UNUSED)) {
1249 sprintf(s, " %d", socklist[i].sock);
1250 if (socklist[i].flags & SOCK_BINARY)
1251 strcat(s, " (binary)");
1252 if (socklist[i].flags & SOCK_LISTEN)
1253 strcat(s, " (listen)");
1254 if (socklist[i].flags & SOCK_PASS)
1255 strcat(s, " (passed on)");
1256 if (socklist[i].flags & SOCK_CONNECT)
1257 strcat(s, " (connecting)");
1258 if (socklist[i].flags & SOCK_STRONGCONN)
1259 strcat(s, " (strong)");
1260 if (socklist[i].flags & SOCK_NONSOCK)
1261 strcat(s, " (file)");
1262 #ifdef TLS
1263 if (socklist[i].ssl)
1264 strcat(s, " (TLS)");
1265 #endif
1266 if (socklist[i].flags & SOCK_TCL)
1267 strcat(s, " (tcl)");
1268 if (!(socklist[i].flags & SOCK_TCL)) {
1269 if (socklist[i].handler.sock.inbuf != NULL)
1270 sprintf(&s[strlen(s)], " (inbuf: %04X)",
1271 (unsigned int) strlen(socklist[i].handler.sock.inbuf));
1272 if (socklist[i].handler.sock.outbuf != NULL)
1273 sprintf(&s[strlen(s)], " (outbuf: %06lX)", socklist[i].handler.sock.outbuflen);
1274 }
1275 strcat(s, ",");
1276 dprintf(idx, "%s", s);
1277 }
1278 }
1279 dprintf(idx, " done.\n");
1280 }
1281
1282 /* Security-flavoured sanity checking on DCC connections of all sorts can be
1283 * done with this routine. Feed it the proper information from your DCC
1284 * before you attempt the connection, and this will make an attempt at
1285 * figuring out if the connection is really that person, or someone screwing
1286 * around. It's not foolproof, but anything that fails this check probably
1287 * isn't going to work anyway due to masquerading firewalls, NAT routers,
1288 * or bugs in mIRC.
1289 */
1290 int sanitycheck_dcc(char *nick, char *from, char *ipaddy, char *port)
1291 {
1292 /* According to the latest RFC, the clients SHOULD be able to handle
1293 * DNS names that are up to 255 characters long. This is not broken.
1294 */
1295
1296 #ifdef IPV6
1297 char badaddress[INET6_ADDRSTRLEN];
1298 sockname_t name;
1299 IP ip = 0;
1300 #else
1301 char badaddress[sizeof "255.255.255.255"];
1302 IP ip = my_atoul(ipaddy);
1303 #endif
1304 int prt = atoi(port);
1305
1306 /* It is disabled HERE so we only have to check in *one* spot! */
1307 if (!dcc_sanitycheck)
1308 return 1;
1309
1310 if (prt < 1) {
1311 putlog(LOG_MISC, "*", "ALERT: (%s!%s) specified an impossible port of %u!",
1312 nick, from, prt);
1313 return 0;
1314 }
1315 #ifdef IPV6
1316 if (strchr(ipaddy, ':')) {
1317 if (inet_pton(AF_INET6, ipaddy, &name.addr.s6.sin6_addr) != 1) {
1318 putlog(LOG_MISC, "*", "ALERT: (%s!%s) specified an invalid IPv6 "
1319 "address of %s!", nick, from, ipaddy);
1320 return 0;
1321 }
1322 if (IN6_IS_ADDR_V4MAPPED(&name.addr.s6.sin6_addr))
1323 ip = ntohl(*(IP *) &name.addr.s6.sin6_addr.s6_addr[12]);
1324 }
1325 #endif
1326 if (ip && inet_ntop(AF_INET, &ip, badaddress, sizeof badaddress) &&
1327 (ip < (1 << 24))) {
1328 putlog(LOG_MISC, "*", "ALERT: (%s!%s) specified an impossible IP of %s!",
1329 nick, from, badaddress);
1330 return 0;
1331 }
1332 return 1;
1333 }
1334
1335 int hostsanitycheck_dcc(char *nick, char *from, sockname_t *ip, char *dnsname,
1336 char *prt)
1337 {
1338 char badaddress[INET6_ADDRSTRLEN];
1339
1340 /* According to the latest RFC, the clients SHOULD be able to handle
1341 * DNS names that are up to 255 characters long. This is not broken.
1342 */
1343 char hostn[256];
1344
1345 /* It is disabled HERE so we only have to check in *one* spot! */
1346 if (!dcc_sanitycheck)
1347 return 1;
1348 strcpy(badaddress, iptostr(&ip->addr.sa));
1349 /* These should pad like crazy with zeros, since 120 bytes or so is
1350 * where the routines providing our data currently lose interest. I'm
1351 * using the n-variant in case someone changes that...
1352 */
1353 strncpyz(hostn, extracthostname(from), sizeof hostn);
1354 if (!egg_strcasecmp(hostn, dnsname)) {
1355 putlog(LOG_DEBUG, "*", "DNS information for submitted IP checks out.");
1356 return 1;
1357 }
1358 if (!strcmp(badaddress, dnsname))
1359 putlog(LOG_MISC, "*", "ALERT: (%s!%s) sent a DCC request with bogus IP "
1360 "information of %s port %s. %s does not resolve to %s!", nick, from,
1361 badaddress, prt, from, badaddress);
1362 else
1363 return 1; /* <- usually happens when we have
1364 * a user with an unresolved hostmask! */
1365 return 0;
1366 }
1367
1368 /* Checks wether the referenced socket has data queued.
1369 *
1370 * Returns true if the incoming/outgoing (depending on 'type') queues
1371 * contain data, otherwise false.
1372 */
1373 int sock_has_data(int type, int sock)
1374 {
1375 int ret = 0, i;
1376
1377 for (i = 0; i < threaddata()->MAXSOCKS; i++)
1378 if (!(socklist[i].flags & SOCK_UNUSED) && socklist[i].sock == sock)
1379 break;
1380 if (i < threaddata()->MAXSOCKS) {
1381 switch (type) {
1382 case SOCK_DATA_OUTGOING:
1383 ret = (socklist[i].handler.sock.outbuf != NULL);
1384 break;
1385 case SOCK_DATA_INCOMING:
1386 ret = (socklist[i].handler.sock.inbuf != NULL);
1387 break;
1388 }
1389 } else
1390 debug1("sock_has_data: could not find socket #%d, returning false.", sock);
1391 return ret;
1392 }
1393
1394 /* flush_inbuf():
1395 * checks if there's data in the incoming buffer of an connection
1396 * and flushs the buffer if possible
1397 *
1398 * returns: -1 if the dcc entry wasn't found
1399 * -2 if dcc[idx].type->activity doesn't exist and the data couldn't
1400 * be handled
1401 * 0 if buffer was empty
1402 * otherwise length of flushed buffer
1403 */
1404 int flush_inbuf(int idx)
1405 {
1406 int i, len;
1407 char *inbuf;
1408
1409 Assert((idx >= 0) && (idx < dcc_total));
1410 for (i = 0; i < threaddata()->MAXSOCKS; i++) {
1411 if ((dcc[idx].sock == socklist[i].sock) &&
1412 !(socklist[i].flags & SOCK_UNUSED)) {
1413 len = socklist[i].handler.sock.inbuflen;
1414 if ((len > 0) && socklist[i].handler.sock.inbuf) {
1415 if (dcc[idx].type && dcc[idx].type->activity) {
1416 inbuf = socklist[i].handler.sock.inbuf;
1417 socklist[i].handler.sock.inbuf = NULL;
1418 dcc[idx].type->activity(idx, inbuf, len);
1419 nfree(inbuf);
1420 return len;
1421 } else
1422 return -2;
1423 } else
1424 return 0;
1425 }
1426 }
1427 return -1;
1428 }
1429
1430 /* Find sock in socklist.
1431 *
1432 * Returns index in socklist or -1 if not found.
1433 */
1434 int findsock(int sock)
1435 {
1436 int i;
1437 struct threaddata *td = threaddata();
1438
1439 for (i = 0; i < td->MAXSOCKS; i++)
1440 if (td->socklist[i].sock == sock)
1441 break;
1442 if (i == td->MAXSOCKS)
1443 return -1;
1444 return i;
1445 }

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