globals: Allow global properties to be optional
[qemu/kevin.git] / slirp / tcp_subr.c
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1 /*
2 * Copyright (c) 1982, 1986, 1988, 1990, 1993
3 * The Regents of the University of California. All rights reserved.
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions
7 * are met:
8 * 1. Redistributions of source code must retain the above copyright
9 * notice, this list of conditions and the following disclaimer.
10 * 2. Redistributions in binary form must reproduce the above copyright
11 * notice, this list of conditions and the following disclaimer in the
12 * documentation and/or other materials provided with the distribution.
13 * 3. Neither the name of the University nor the names of its contributors
14 * may be used to endorse or promote products derived from this software
15 * without specific prior written permission.
17 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
18 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
21 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
27 * SUCH DAMAGE.
29 * @(#)tcp_subr.c 8.1 (Berkeley) 6/10/93
30 * tcp_subr.c,v 1.5 1994/10/08 22:39:58 phk Exp
34 * Changes and additions relating to SLiRP
35 * Copyright (c) 1995 Danny Gasparovski.
37 * Please read the file COPYRIGHT for the
38 * terms and conditions of the copyright.
41 #include "qemu/osdep.h"
42 #include "slirp.h"
44 /* patchable/settable parameters for tcp */
45 /* Don't do rfc1323 performance enhancements */
46 #define TCP_DO_RFC1323 0
49 * Tcp initialization
51 void
52 tcp_init(Slirp *slirp)
54 slirp->tcp_iss = 1; /* wrong */
55 slirp->tcb.so_next = slirp->tcb.so_prev = &slirp->tcb;
56 slirp->tcp_last_so = &slirp->tcb;
59 void tcp_cleanup(Slirp *slirp)
61 while (slirp->tcb.so_next != &slirp->tcb) {
62 tcp_close(sototcpcb(slirp->tcb.so_next));
67 * Create template to be used to send tcp packets on a connection.
68 * Call after host entry created, fills
69 * in a skeletal tcp/ip header, minimizing the amount of work
70 * necessary when the connection is used.
72 void
73 tcp_template(struct tcpcb *tp)
75 struct socket *so = tp->t_socket;
76 register struct tcpiphdr *n = &tp->t_template;
78 n->ti_mbuf = NULL;
79 memset(&n->ti, 0, sizeof(n->ti));
80 n->ti_x0 = 0;
81 switch (so->so_ffamily) {
82 case AF_INET:
83 n->ti_pr = IPPROTO_TCP;
84 n->ti_len = htons(sizeof(struct tcphdr));
85 n->ti_src = so->so_faddr;
86 n->ti_dst = so->so_laddr;
87 n->ti_sport = so->so_fport;
88 n->ti_dport = so->so_lport;
89 break;
91 case AF_INET6:
92 n->ti_nh6 = IPPROTO_TCP;
93 n->ti_len = htons(sizeof(struct tcphdr));
94 n->ti_src6 = so->so_faddr6;
95 n->ti_dst6 = so->so_laddr6;
96 n->ti_sport = so->so_fport6;
97 n->ti_dport = so->so_lport6;
98 break;
100 default:
101 g_assert_not_reached();
104 n->ti_seq = 0;
105 n->ti_ack = 0;
106 n->ti_x2 = 0;
107 n->ti_off = 5;
108 n->ti_flags = 0;
109 n->ti_win = 0;
110 n->ti_sum = 0;
111 n->ti_urp = 0;
115 * Send a single message to the TCP at address specified by
116 * the given TCP/IP header. If m == 0, then we make a copy
117 * of the tcpiphdr at ti and send directly to the addressed host.
118 * This is used to force keep alive messages out using the TCP
119 * template for a connection tp->t_template. If flags are given
120 * then we send a message back to the TCP which originated the
121 * segment ti, and discard the mbuf containing it and any other
122 * attached mbufs.
124 * In any case the ack and sequence number of the transmitted
125 * segment are as specified by the parameters.
127 void
128 tcp_respond(struct tcpcb *tp, struct tcpiphdr *ti, struct mbuf *m,
129 tcp_seq ack, tcp_seq seq, int flags, unsigned short af)
131 register int tlen;
132 int win = 0;
134 DEBUG_CALL("tcp_respond");
135 DEBUG_ARG("tp = %p", tp);
136 DEBUG_ARG("ti = %p", ti);
137 DEBUG_ARG("m = %p", m);
138 DEBUG_ARG("ack = %u", ack);
139 DEBUG_ARG("seq = %u", seq);
140 DEBUG_ARG("flags = %x", flags);
142 if (tp)
143 win = sbspace(&tp->t_socket->so_rcv);
144 if (m == NULL) {
145 if (!tp || (m = m_get(tp->t_socket->slirp)) == NULL)
146 return;
147 tlen = 0;
148 m->m_data += IF_MAXLINKHDR;
149 *mtod(m, struct tcpiphdr *) = *ti;
150 ti = mtod(m, struct tcpiphdr *);
151 switch (af) {
152 case AF_INET:
153 ti->ti.ti_i4.ih_x1 = 0;
154 break;
155 case AF_INET6:
156 ti->ti.ti_i6.ih_x1 = 0;
157 break;
158 default:
159 g_assert_not_reached();
161 flags = TH_ACK;
162 } else {
164 * ti points into m so the next line is just making
165 * the mbuf point to ti
167 m->m_data = (caddr_t)ti;
169 m->m_len = sizeof (struct tcpiphdr);
170 tlen = 0;
171 #define xchg(a,b,type) { type t; t=a; a=b; b=t; }
172 switch (af) {
173 case AF_INET:
174 xchg(ti->ti_dst.s_addr, ti->ti_src.s_addr, uint32_t);
175 xchg(ti->ti_dport, ti->ti_sport, uint16_t);
176 break;
177 case AF_INET6:
178 xchg(ti->ti_dst6, ti->ti_src6, struct in6_addr);
179 xchg(ti->ti_dport, ti->ti_sport, uint16_t);
180 break;
181 default:
182 g_assert_not_reached();
184 #undef xchg
186 ti->ti_len = htons((u_short)(sizeof (struct tcphdr) + tlen));
187 tlen += sizeof (struct tcpiphdr);
188 m->m_len = tlen;
190 ti->ti_mbuf = NULL;
191 ti->ti_x0 = 0;
192 ti->ti_seq = htonl(seq);
193 ti->ti_ack = htonl(ack);
194 ti->ti_x2 = 0;
195 ti->ti_off = sizeof (struct tcphdr) >> 2;
196 ti->ti_flags = flags;
197 if (tp)
198 ti->ti_win = htons((uint16_t) (win >> tp->rcv_scale));
199 else
200 ti->ti_win = htons((uint16_t)win);
201 ti->ti_urp = 0;
202 ti->ti_sum = 0;
203 ti->ti_sum = cksum(m, tlen);
205 struct tcpiphdr tcpiph_save = *(mtod(m, struct tcpiphdr *));
206 struct ip *ip;
207 struct ip6 *ip6;
209 switch (af) {
210 case AF_INET:
211 m->m_data += sizeof(struct tcpiphdr) - sizeof(struct tcphdr)
212 - sizeof(struct ip);
213 m->m_len -= sizeof(struct tcpiphdr) - sizeof(struct tcphdr)
214 - sizeof(struct ip);
215 ip = mtod(m, struct ip *);
216 ip->ip_len = m->m_len;
217 ip->ip_dst = tcpiph_save.ti_dst;
218 ip->ip_src = tcpiph_save.ti_src;
219 ip->ip_p = tcpiph_save.ti_pr;
221 if (flags & TH_RST) {
222 ip->ip_ttl = MAXTTL;
223 } else {
224 ip->ip_ttl = IPDEFTTL;
227 ip_output(NULL, m);
228 break;
230 case AF_INET6:
231 m->m_data += sizeof(struct tcpiphdr) - sizeof(struct tcphdr)
232 - sizeof(struct ip6);
233 m->m_len -= sizeof(struct tcpiphdr) - sizeof(struct tcphdr)
234 - sizeof(struct ip6);
235 ip6 = mtod(m, struct ip6 *);
236 ip6->ip_pl = tcpiph_save.ti_len;
237 ip6->ip_dst = tcpiph_save.ti_dst6;
238 ip6->ip_src = tcpiph_save.ti_src6;
239 ip6->ip_nh = tcpiph_save.ti_nh6;
241 ip6_output(NULL, m, 0);
242 break;
244 default:
245 g_assert_not_reached();
250 * Create a new TCP control block, making an
251 * empty reassembly queue and hooking it to the argument
252 * protocol control block.
254 struct tcpcb *
255 tcp_newtcpcb(struct socket *so)
257 register struct tcpcb *tp;
259 tp = (struct tcpcb *)malloc(sizeof(*tp));
260 if (tp == NULL)
261 return ((struct tcpcb *)0);
263 memset((char *) tp, 0, sizeof(struct tcpcb));
264 tp->seg_next = tp->seg_prev = (struct tcpiphdr*)tp;
265 tp->t_maxseg = (so->so_ffamily == AF_INET) ? TCP_MSS : TCP6_MSS;
267 tp->t_flags = TCP_DO_RFC1323 ? (TF_REQ_SCALE|TF_REQ_TSTMP) : 0;
268 tp->t_socket = so;
271 * Init srtt to TCPTV_SRTTBASE (0), so we can tell that we have no
272 * rtt estimate. Set rttvar so that srtt + 2 * rttvar gives
273 * reasonable initial retransmit time.
275 tp->t_srtt = TCPTV_SRTTBASE;
276 tp->t_rttvar = TCPTV_SRTTDFLT << 2;
277 tp->t_rttmin = TCPTV_MIN;
279 TCPT_RANGESET(tp->t_rxtcur,
280 ((TCPTV_SRTTBASE >> 2) + (TCPTV_SRTTDFLT << 2)) >> 1,
281 TCPTV_MIN, TCPTV_REXMTMAX);
283 tp->snd_cwnd = TCP_MAXWIN << TCP_MAX_WINSHIFT;
284 tp->snd_ssthresh = TCP_MAXWIN << TCP_MAX_WINSHIFT;
285 tp->t_state = TCPS_CLOSED;
287 so->so_tcpcb = tp;
289 return (tp);
293 * Drop a TCP connection, reporting
294 * the specified error. If connection is synchronized,
295 * then send a RST to peer.
297 struct tcpcb *tcp_drop(struct tcpcb *tp, int err)
299 DEBUG_CALL("tcp_drop");
300 DEBUG_ARG("tp = %p", tp);
301 DEBUG_ARG("errno = %d", errno);
303 if (TCPS_HAVERCVDSYN(tp->t_state)) {
304 tp->t_state = TCPS_CLOSED;
305 (void) tcp_output(tp);
307 return (tcp_close(tp));
311 * Close a TCP control block:
312 * discard all space held by the tcp
313 * discard internet protocol block
314 * wake up any sleepers
316 struct tcpcb *
317 tcp_close(struct tcpcb *tp)
319 register struct tcpiphdr *t;
320 struct socket *so = tp->t_socket;
321 Slirp *slirp = so->slirp;
322 register struct mbuf *m;
324 DEBUG_CALL("tcp_close");
325 DEBUG_ARG("tp = %p", tp);
327 /* free the reassembly queue, if any */
328 t = tcpfrag_list_first(tp);
329 while (!tcpfrag_list_end(t, tp)) {
330 t = tcpiphdr_next(t);
331 m = tcpiphdr_prev(t)->ti_mbuf;
332 remque(tcpiphdr2qlink(tcpiphdr_prev(t)));
333 m_free(m);
335 free(tp);
336 so->so_tcpcb = NULL;
337 /* clobber input socket cache if we're closing the cached connection */
338 if (so == slirp->tcp_last_so)
339 slirp->tcp_last_so = &slirp->tcb;
340 closesocket(so->s);
341 sbfree(&so->so_rcv);
342 sbfree(&so->so_snd);
343 sofree(so);
344 return ((struct tcpcb *)0);
348 * TCP protocol interface to socket abstraction.
352 * User issued close, and wish to trail through shutdown states:
353 * if never received SYN, just forget it. If got a SYN from peer,
354 * but haven't sent FIN, then go to FIN_WAIT_1 state to send peer a FIN.
355 * If already got a FIN from peer, then almost done; go to LAST_ACK
356 * state. In all other cases, have already sent FIN to peer (e.g.
357 * after PRU_SHUTDOWN), and just have to play tedious game waiting
358 * for peer to send FIN or not respond to keep-alives, etc.
359 * We can let the user exit from the close as soon as the FIN is acked.
361 void
362 tcp_sockclosed(struct tcpcb *tp)
365 DEBUG_CALL("tcp_sockclosed");
366 DEBUG_ARG("tp = %p", tp);
368 if (!tp) {
369 return;
372 switch (tp->t_state) {
374 case TCPS_CLOSED:
375 case TCPS_LISTEN:
376 case TCPS_SYN_SENT:
377 tp->t_state = TCPS_CLOSED;
378 tp = tcp_close(tp);
379 break;
381 case TCPS_SYN_RECEIVED:
382 case TCPS_ESTABLISHED:
383 tp->t_state = TCPS_FIN_WAIT_1;
384 break;
386 case TCPS_CLOSE_WAIT:
387 tp->t_state = TCPS_LAST_ACK;
388 break;
390 tcp_output(tp);
394 * Connect to a host on the Internet
395 * Called by tcp_input
396 * Only do a connect, the tcp fields will be set in tcp_input
397 * return 0 if there's a result of the connect,
398 * else return -1 means we're still connecting
399 * The return value is almost always -1 since the socket is
400 * nonblocking. Connect returns after the SYN is sent, and does
401 * not wait for ACK+SYN.
403 int tcp_fconnect(struct socket *so, unsigned short af)
405 int ret=0;
407 DEBUG_CALL("tcp_fconnect");
408 DEBUG_ARG("so = %p", so);
410 ret = so->s = qemu_socket(af, SOCK_STREAM, 0);
411 if (ret >= 0) {
412 int opt, s=so->s;
413 struct sockaddr_storage addr;
415 qemu_set_nonblock(s);
416 socket_set_fast_reuse(s);
417 opt = 1;
418 qemu_setsockopt(s, SOL_SOCKET, SO_OOBINLINE, &opt, sizeof(opt));
419 opt = 1;
420 qemu_setsockopt(s, IPPROTO_TCP, TCP_NODELAY, &opt, sizeof(opt));
422 addr = so->fhost.ss;
423 DEBUG_CALL(" connect()ing")
424 sotranslate_out(so, &addr);
426 /* We don't care what port we get */
427 ret = connect(s, (struct sockaddr *)&addr, sockaddr_size(&addr));
430 * If it's not in progress, it failed, so we just return 0,
431 * without clearing SS_NOFDREF
433 soisfconnecting(so);
436 return(ret);
440 * Accept the socket and connect to the local-host
442 * We have a problem. The correct thing to do would be
443 * to first connect to the local-host, and only if the
444 * connection is accepted, then do an accept() here.
445 * But, a) we need to know who's trying to connect
446 * to the socket to be able to SYN the local-host, and
447 * b) we are already connected to the foreign host by
448 * the time it gets to accept(), so... We simply accept
449 * here and SYN the local-host.
451 void tcp_connect(struct socket *inso)
453 Slirp *slirp = inso->slirp;
454 struct socket *so;
455 struct sockaddr_storage addr;
456 socklen_t addrlen = sizeof(struct sockaddr_storage);
457 struct tcpcb *tp;
458 int s, opt;
460 DEBUG_CALL("tcp_connect");
461 DEBUG_ARG("inso = %p", inso);
464 * If it's an SS_ACCEPTONCE socket, no need to socreate()
465 * another socket, just use the accept() socket.
467 if (inso->so_state & SS_FACCEPTONCE) {
468 /* FACCEPTONCE already have a tcpcb */
469 so = inso;
470 } else {
471 so = socreate(slirp);
472 if (tcp_attach(so) < 0) {
473 g_free(so); /* NOT sofree */
474 return;
476 so->lhost = inso->lhost;
477 so->so_ffamily = inso->so_ffamily;
480 tcp_mss(sototcpcb(so), 0);
482 s = accept(inso->s, (struct sockaddr *)&addr, &addrlen);
483 if (s < 0) {
484 tcp_close(sototcpcb(so)); /* This will sofree() as well */
485 return;
487 qemu_set_nonblock(s);
488 socket_set_fast_reuse(s);
489 opt = 1;
490 qemu_setsockopt(s, SOL_SOCKET, SO_OOBINLINE, &opt, sizeof(int));
491 socket_set_nodelay(s);
493 so->fhost.ss = addr;
494 sotranslate_accept(so);
496 /* Close the accept() socket, set right state */
497 if (inso->so_state & SS_FACCEPTONCE) {
498 /* If we only accept once, close the accept() socket */
499 closesocket(so->s);
501 /* Don't select it yet, even though we have an FD */
502 /* if it's not FACCEPTONCE, it's already NOFDREF */
503 so->so_state = SS_NOFDREF;
505 so->s = s;
506 so->so_state |= SS_INCOMING;
508 so->so_iptos = tcp_tos(so);
509 tp = sototcpcb(so);
511 tcp_template(tp);
513 tp->t_state = TCPS_SYN_SENT;
514 tp->t_timer[TCPT_KEEP] = TCPTV_KEEP_INIT;
515 tp->iss = slirp->tcp_iss;
516 slirp->tcp_iss += TCP_ISSINCR/2;
517 tcp_sendseqinit(tp);
518 tcp_output(tp);
522 * Attach a TCPCB to a socket.
525 tcp_attach(struct socket *so)
527 if ((so->so_tcpcb = tcp_newtcpcb(so)) == NULL)
528 return -1;
530 insque(so, &so->slirp->tcb);
532 return 0;
536 * Set the socket's type of service field
538 static const struct tos_t tcptos[] = {
539 {0, 20, IPTOS_THROUGHPUT, 0}, /* ftp data */
540 {21, 21, IPTOS_LOWDELAY, EMU_FTP}, /* ftp control */
541 {0, 23, IPTOS_LOWDELAY, 0}, /* telnet */
542 {0, 80, IPTOS_THROUGHPUT, 0}, /* WWW */
543 {0, 513, IPTOS_LOWDELAY, EMU_RLOGIN|EMU_NOCONNECT}, /* rlogin */
544 {0, 514, IPTOS_LOWDELAY, EMU_RSH|EMU_NOCONNECT}, /* shell */
545 {0, 544, IPTOS_LOWDELAY, EMU_KSH}, /* kshell */
546 {0, 543, IPTOS_LOWDELAY, 0}, /* klogin */
547 {0, 6667, IPTOS_THROUGHPUT, EMU_IRC}, /* IRC */
548 {0, 6668, IPTOS_THROUGHPUT, EMU_IRC}, /* IRC undernet */
549 {0, 7070, IPTOS_LOWDELAY, EMU_REALAUDIO }, /* RealAudio control */
550 {0, 113, IPTOS_LOWDELAY, EMU_IDENT }, /* identd protocol */
551 {0, 0, 0, 0}
554 static struct emu_t *tcpemu = NULL;
557 * Return TOS according to the above table
559 uint8_t
560 tcp_tos(struct socket *so)
562 int i = 0;
563 struct emu_t *emup;
565 while(tcptos[i].tos) {
566 if ((tcptos[i].fport && (ntohs(so->so_fport) == tcptos[i].fport)) ||
567 (tcptos[i].lport && (ntohs(so->so_lport) == tcptos[i].lport))) {
568 so->so_emu = tcptos[i].emu;
569 return tcptos[i].tos;
571 i++;
574 /* Nope, lets see if there's a user-added one */
575 for (emup = tcpemu; emup; emup = emup->next) {
576 if ((emup->fport && (ntohs(so->so_fport) == emup->fport)) ||
577 (emup->lport && (ntohs(so->so_lport) == emup->lport))) {
578 so->so_emu = emup->emu;
579 return emup->tos;
583 return 0;
587 * Emulate programs that try and connect to us
588 * This includes ftp (the data connection is
589 * initiated by the server) and IRC (DCC CHAT and
590 * DCC SEND) for now
592 * NOTE: It's possible to crash SLiRP by sending it
593 * unstandard strings to emulate... if this is a problem,
594 * more checks are needed here
596 * XXX Assumes the whole command came in one packet
598 * XXX Some ftp clients will have their TOS set to
599 * LOWDELAY and so Nagel will kick in. Because of this,
600 * we'll get the first letter, followed by the rest, so
601 * we simply scan for ORT instead of PORT...
602 * DCC doesn't have this problem because there's other stuff
603 * in the packet before the DCC command.
605 * Return 1 if the mbuf m is still valid and should be
606 * sbappend()ed
608 * NOTE: if you return 0 you MUST m_free() the mbuf!
611 tcp_emu(struct socket *so, struct mbuf *m)
613 Slirp *slirp = so->slirp;
614 u_int n1, n2, n3, n4, n5, n6;
615 char buff[257];
616 uint32_t laddr;
617 u_int lport;
618 char *bptr;
620 DEBUG_CALL("tcp_emu");
621 DEBUG_ARG("so = %p", so);
622 DEBUG_ARG("m = %p", m);
624 switch(so->so_emu) {
625 int x, i;
627 case EMU_IDENT:
629 * Identification protocol as per rfc-1413
633 struct socket *tmpso;
634 struct sockaddr_in addr;
635 socklen_t addrlen = sizeof(struct sockaddr_in);
636 struct sbuf *so_rcv = &so->so_rcv;
638 memcpy(so_rcv->sb_wptr, m->m_data, m->m_len);
639 so_rcv->sb_wptr += m->m_len;
640 so_rcv->sb_rptr += m->m_len;
641 m->m_data[m->m_len] = 0; /* NULL terminate */
642 if (strchr(m->m_data, '\r') || strchr(m->m_data, '\n')) {
643 if (sscanf(so_rcv->sb_data, "%u%*[ ,]%u", &n1, &n2) == 2) {
644 HTONS(n1);
645 HTONS(n2);
646 /* n2 is the one on our host */
647 for (tmpso = slirp->tcb.so_next;
648 tmpso != &slirp->tcb;
649 tmpso = tmpso->so_next) {
650 if (tmpso->so_laddr.s_addr == so->so_laddr.s_addr &&
651 tmpso->so_lport == n2 &&
652 tmpso->so_faddr.s_addr == so->so_faddr.s_addr &&
653 tmpso->so_fport == n1) {
654 if (getsockname(tmpso->s,
655 (struct sockaddr *)&addr, &addrlen) == 0)
656 n2 = ntohs(addr.sin_port);
657 break;
661 so_rcv->sb_cc = snprintf(so_rcv->sb_data,
662 so_rcv->sb_datalen,
663 "%d,%d\r\n", n1, n2);
664 so_rcv->sb_rptr = so_rcv->sb_data;
665 so_rcv->sb_wptr = so_rcv->sb_data + so_rcv->sb_cc;
667 m_free(m);
668 return 0;
671 case EMU_FTP: /* ftp */
672 *(m->m_data+m->m_len) = 0; /* NUL terminate for strstr */
673 if ((bptr = (char *)strstr(m->m_data, "ORT")) != NULL) {
675 * Need to emulate the PORT command
677 x = sscanf(bptr, "ORT %u,%u,%u,%u,%u,%u\r\n%256[^\177]",
678 &n1, &n2, &n3, &n4, &n5, &n6, buff);
679 if (x < 6)
680 return 1;
682 laddr = htonl((n1 << 24) | (n2 << 16) | (n3 << 8) | (n4));
683 lport = htons((n5 << 8) | (n6));
685 if ((so = tcp_listen(slirp, INADDR_ANY, 0, laddr,
686 lport, SS_FACCEPTONCE)) == NULL) {
687 return 1;
689 n6 = ntohs(so->so_fport);
691 n5 = (n6 >> 8) & 0xff;
692 n6 &= 0xff;
694 laddr = ntohl(so->so_faddr.s_addr);
696 n1 = ((laddr >> 24) & 0xff);
697 n2 = ((laddr >> 16) & 0xff);
698 n3 = ((laddr >> 8) & 0xff);
699 n4 = (laddr & 0xff);
701 m->m_len = bptr - m->m_data; /* Adjust length */
702 m->m_len += snprintf(bptr, m->m_size - m->m_len,
703 "ORT %d,%d,%d,%d,%d,%d\r\n%s",
704 n1, n2, n3, n4, n5, n6, x==7?buff:"");
705 return 1;
706 } else if ((bptr = (char *)strstr(m->m_data, "27 Entering")) != NULL) {
708 * Need to emulate the PASV response
710 x = sscanf(bptr, "27 Entering Passive Mode (%u,%u,%u,%u,%u,%u)\r\n%256[^\177]",
711 &n1, &n2, &n3, &n4, &n5, &n6, buff);
712 if (x < 6)
713 return 1;
715 laddr = htonl((n1 << 24) | (n2 << 16) | (n3 << 8) | (n4));
716 lport = htons((n5 << 8) | (n6));
718 if ((so = tcp_listen(slirp, INADDR_ANY, 0, laddr,
719 lport, SS_FACCEPTONCE)) == NULL) {
720 return 1;
722 n6 = ntohs(so->so_fport);
724 n5 = (n6 >> 8) & 0xff;
725 n6 &= 0xff;
727 laddr = ntohl(so->so_faddr.s_addr);
729 n1 = ((laddr >> 24) & 0xff);
730 n2 = ((laddr >> 16) & 0xff);
731 n3 = ((laddr >> 8) & 0xff);
732 n4 = (laddr & 0xff);
734 m->m_len = bptr - m->m_data; /* Adjust length */
735 m->m_len += snprintf(bptr, m->m_size - m->m_len,
736 "27 Entering Passive Mode (%d,%d,%d,%d,%d,%d)\r\n%s",
737 n1, n2, n3, n4, n5, n6, x==7?buff:"");
739 return 1;
742 return 1;
744 case EMU_KSH:
746 * The kshell (Kerberos rsh) and shell services both pass
747 * a local port port number to carry signals to the server
748 * and stderr to the client. It is passed at the beginning
749 * of the connection as a NUL-terminated decimal ASCII string.
751 so->so_emu = 0;
752 for (lport = 0, i = 0; i < m->m_len-1; ++i) {
753 if (m->m_data[i] < '0' || m->m_data[i] > '9')
754 return 1; /* invalid number */
755 lport *= 10;
756 lport += m->m_data[i] - '0';
758 if (m->m_data[m->m_len-1] == '\0' && lport != 0 &&
759 (so = tcp_listen(slirp, INADDR_ANY, 0, so->so_laddr.s_addr,
760 htons(lport), SS_FACCEPTONCE)) != NULL)
761 m->m_len = snprintf(m->m_data, m->m_size, "%d",
762 ntohs(so->so_fport)) + 1;
763 return 1;
765 case EMU_IRC:
767 * Need to emulate DCC CHAT, DCC SEND and DCC MOVE
769 *(m->m_data+m->m_len) = 0; /* NULL terminate the string for strstr */
770 if ((bptr = (char *)strstr(m->m_data, "DCC")) == NULL)
771 return 1;
773 /* The %256s is for the broken mIRC */
774 if (sscanf(bptr, "DCC CHAT %256s %u %u", buff, &laddr, &lport) == 3) {
775 if ((so = tcp_listen(slirp, INADDR_ANY, 0,
776 htonl(laddr), htons(lport),
777 SS_FACCEPTONCE)) == NULL) {
778 return 1;
780 m->m_len = bptr - m->m_data; /* Adjust length */
781 m->m_len += snprintf(bptr, m->m_size,
782 "DCC CHAT chat %lu %u%c\n",
783 (unsigned long)ntohl(so->so_faddr.s_addr),
784 ntohs(so->so_fport), 1);
785 } else if (sscanf(bptr, "DCC SEND %256s %u %u %u", buff, &laddr, &lport, &n1) == 4) {
786 if ((so = tcp_listen(slirp, INADDR_ANY, 0,
787 htonl(laddr), htons(lport),
788 SS_FACCEPTONCE)) == NULL) {
789 return 1;
791 m->m_len = bptr - m->m_data; /* Adjust length */
792 m->m_len += snprintf(bptr, m->m_size,
793 "DCC SEND %s %lu %u %u%c\n", buff,
794 (unsigned long)ntohl(so->so_faddr.s_addr),
795 ntohs(so->so_fport), n1, 1);
796 } else if (sscanf(bptr, "DCC MOVE %256s %u %u %u", buff, &laddr, &lport, &n1) == 4) {
797 if ((so = tcp_listen(slirp, INADDR_ANY, 0,
798 htonl(laddr), htons(lport),
799 SS_FACCEPTONCE)) == NULL) {
800 return 1;
802 m->m_len = bptr - m->m_data; /* Adjust length */
803 m->m_len += snprintf(bptr, m->m_size,
804 "DCC MOVE %s %lu %u %u%c\n", buff,
805 (unsigned long)ntohl(so->so_faddr.s_addr),
806 ntohs(so->so_fport), n1, 1);
808 return 1;
810 case EMU_REALAUDIO:
812 * RealAudio emulation - JP. We must try to parse the incoming
813 * data and try to find the two characters that contain the
814 * port number. Then we redirect an udp port and replace the
815 * number with the real port we got.
817 * The 1.0 beta versions of the player are not supported
818 * any more.
820 * A typical packet for player version 1.0 (release version):
822 * 0000:50 4E 41 00 05
823 * 0000:00 01 00 02 1B D7 00 00 67 E6 6C DC 63 00 12 50 ........g.l.c..P
824 * 0010:4E 43 4C 49 45 4E 54 20 31 30 31 20 41 4C 50 48 NCLIENT 101 ALPH
825 * 0020:41 6C 00 00 52 00 17 72 61 66 69 6C 65 73 2F 76 Al..R..rafiles/v
826 * 0030:6F 61 2F 65 6E 67 6C 69 73 68 5F 2E 72 61 79 42 oa/english_.rayB
828 * Now the port number 0x1BD7 is found at offset 0x04 of the
829 * Now the port number 0x1BD7 is found at offset 0x04 of the
830 * second packet. This time we received five bytes first and
831 * then the rest. You never know how many bytes you get.
833 * A typical packet for player version 2.0 (beta):
835 * 0000:50 4E 41 00 06 00 02 00 00 00 01 00 02 1B C1 00 PNA.............
836 * 0010:00 67 75 78 F5 63 00 0A 57 69 6E 32 2E 30 2E 30 .gux.c..Win2.0.0
837 * 0020:2E 35 6C 00 00 52 00 1C 72 61 66 69 6C 65 73 2F .5l..R..rafiles/
838 * 0030:77 65 62 73 69 74 65 2F 32 30 72 65 6C 65 61 73 website/20releas
839 * 0040:65 2E 72 61 79 53 00 00 06 36 42 e.rayS...6B
841 * Port number 0x1BC1 is found at offset 0x0d.
843 * This is just a horrible switch statement. Variable ra tells
844 * us where we're going.
847 bptr = m->m_data;
848 while (bptr < m->m_data + m->m_len) {
849 u_short p;
850 static int ra = 0;
851 char ra_tbl[4];
853 ra_tbl[0] = 0x50;
854 ra_tbl[1] = 0x4e;
855 ra_tbl[2] = 0x41;
856 ra_tbl[3] = 0;
858 switch (ra) {
859 case 0:
860 case 2:
861 case 3:
862 if (*bptr++ != ra_tbl[ra]) {
863 ra = 0;
864 continue;
866 break;
868 case 1:
870 * We may get 0x50 several times, ignore them
872 if (*bptr == 0x50) {
873 ra = 1;
874 bptr++;
875 continue;
876 } else if (*bptr++ != ra_tbl[ra]) {
877 ra = 0;
878 continue;
880 break;
882 case 4:
884 * skip version number
886 bptr++;
887 break;
889 case 5:
891 * The difference between versions 1.0 and
892 * 2.0 is here. For future versions of
893 * the player this may need to be modified.
895 if (*(bptr + 1) == 0x02)
896 bptr += 8;
897 else
898 bptr += 4;
899 break;
901 case 6:
902 /* This is the field containing the port
903 * number that RA-player is listening to.
905 lport = (((u_char*)bptr)[0] << 8)
906 + ((u_char *)bptr)[1];
907 if (lport < 6970)
908 lport += 256; /* don't know why */
909 if (lport < 6970 || lport > 7170)
910 return 1; /* failed */
912 /* try to get udp port between 6970 - 7170 */
913 for (p = 6970; p < 7071; p++) {
914 if (udp_listen(slirp, INADDR_ANY,
915 htons(p),
916 so->so_laddr.s_addr,
917 htons(lport),
918 SS_FACCEPTONCE)) {
919 break;
922 if (p == 7071)
923 p = 0;
924 *(u_char *)bptr++ = (p >> 8) & 0xff;
925 *(u_char *)bptr = p & 0xff;
926 ra = 0;
927 return 1; /* port redirected, we're done */
928 break;
930 default:
931 ra = 0;
933 ra++;
935 return 1;
937 default:
938 /* Ooops, not emulated, won't call tcp_emu again */
939 so->so_emu = 0;
940 return 1;
945 * Do misc. config of SLiRP while its running.
946 * Return 0 if this connections is to be closed, 1 otherwise,
947 * return 2 if this is a command-line connection
949 int tcp_ctl(struct socket *so)
951 Slirp *slirp = so->slirp;
952 struct sbuf *sb = &so->so_snd;
953 struct ex_list *ex_ptr;
954 int do_pty;
956 DEBUG_CALL("tcp_ctl");
957 DEBUG_ARG("so = %p", so);
959 if (so->so_faddr.s_addr != slirp->vhost_addr.s_addr) {
960 /* Check if it's pty_exec */
961 for (ex_ptr = slirp->exec_list; ex_ptr; ex_ptr = ex_ptr->ex_next) {
962 if (ex_ptr->ex_fport == so->so_fport &&
963 so->so_faddr.s_addr == ex_ptr->ex_addr.s_addr) {
964 if (ex_ptr->ex_pty == 3) {
965 so->s = -1;
966 so->extra = (void *)ex_ptr->ex_exec;
967 return 1;
969 do_pty = ex_ptr->ex_pty;
970 DEBUG_MISC((dfd, " executing %s\n", ex_ptr->ex_exec));
971 return fork_exec(so, ex_ptr->ex_exec, do_pty);
975 sb->sb_cc =
976 snprintf(sb->sb_wptr, sb->sb_datalen - (sb->sb_wptr - sb->sb_data),
977 "Error: No application configured.\r\n");
978 sb->sb_wptr += sb->sb_cc;
979 return 0;