/* * SSH port forwarding. */ #include #include #include #include "putty.h" #include "ssh.h" #include "sshchan.h" static void logeventf(Frontend *frontend, const char *fmt, ...) { va_list ap; char *buf; va_start(ap, fmt); buf = dupvprintf(fmt, ap); va_end(ap); logevent(frontend, buf); sfree(buf); } /* * Enumeration of values that live in the 'socks_state' field of * struct PortForwarding. */ typedef enum { SOCKS_NONE, /* direct connection (no SOCKS, or SOCKS already done) */ SOCKS_INITIAL, /* don't know if we're SOCKS 4 or 5 yet */ SOCKS_4, /* expect a SOCKS 4 (or 4A) connection message */ SOCKS_5_INITIAL, /* expect a SOCKS 5 preliminary message */ SOCKS_5_CONNECT /* expect a SOCKS 5 connection message */ } SocksState; typedef struct PortForwarding { SshChannel *c; /* channel structure held by SSH connection layer */ ConnectionLayer *cl; /* the connection layer itself */ /* Note that ssh need not be filled in if c is non-NULL */ Socket s; int input_wanted; int ready; SocksState socks_state; /* * `hostname' and `port' are the real hostname and port, once * we know what we're connecting to. */ char *hostname; int port; /* * `socksbuf' is the buffer we use to accumulate the initial SOCKS * segment of the incoming data, plus anything after that that we * receive before we're ready to send data to the SSH server. */ strbuf *socksbuf; size_t socksbuf_consumed; const Plug_vtable *plugvt; Channel chan; } PortForwarding; struct PortListener { ConnectionLayer *cl; Socket s; int is_dynamic; /* * `hostname' and `port' are the real hostname and port, for * ordinary forwardings. */ char *hostname; int port; const Plug_vtable *plugvt; }; static struct PortForwarding *new_portfwd_state(void) { struct PortForwarding *pf = snew(struct PortForwarding); pf->hostname = NULL; pf->socksbuf = NULL; return pf; } static void free_portfwd_state(struct PortForwarding *pf) { if (!pf) return; sfree(pf->hostname); if (pf->socksbuf) strbuf_free(pf->socksbuf); sfree(pf); } static struct PortListener *new_portlistener_state(void) { struct PortListener *pl = snew(struct PortListener); pl->hostname = NULL; return pl; } static void free_portlistener_state(struct PortListener *pl) { if (!pl) return; sfree(pl->hostname); sfree(pl); } static void pfd_log(Plug plug, int type, SockAddr addr, int port, const char *error_msg, int error_code) { /* we have to dump these since we have no interface to logging.c */ } static void pfl_log(Plug plug, int type, SockAddr addr, int port, const char *error_msg, int error_code) { /* we have to dump these since we have no interface to logging.c */ } static void pfd_close(struct PortForwarding *pf); static void pfd_closing(Plug plug, const char *error_msg, int error_code, int calling_back) { struct PortForwarding *pf = FROMFIELD(plug, struct PortForwarding, plugvt); if (error_msg) { /* * Socket error. Slam the connection instantly shut. */ if (pf->c) { sshfwd_unclean_close(pf->c, error_msg); } else { /* * We might not have an SSH channel, if a socket error * occurred during SOCKS negotiation. If not, we must * clean ourself up without sshfwd_unclean_close's call * back to pfd_close. */ pfd_close(pf); } } else { /* * Ordinary EOF received on socket. Send an EOF on the SSH * channel. */ if (pf->c) sshfwd_write_eof(pf->c); } } static void pfl_terminate(struct PortListener *pl); static void pfl_closing(Plug plug, const char *error_msg, int error_code, int calling_back) { struct PortListener *pl = (struct PortListener *) plug; pfl_terminate(pl); } static SshChannel *wrap_lportfwd_open( ConnectionLayer *cl, const char *hostname, int port, Socket s, Channel *chan) { char *peerinfo, *description; SshChannel *toret; peerinfo = sk_peer_info(s); if (peerinfo) { description = dupprintf("forwarding from %s", peerinfo); sfree(peerinfo); } else { description = dupstr("forwarding"); } toret = ssh_lportfwd_open(cl, hostname, port, description, chan); sfree(description); return toret; } static char *ipv4_to_string(unsigned ipv4) { return dupprintf("%u.%u.%u.%u", (ipv4 >> 24) & 0xFF, (ipv4 >> 16) & 0xFF, (ipv4 >> 8) & 0xFF, (ipv4 ) & 0xFF); } static char *ipv6_to_string(ptrlen ipv6) { const unsigned char *addr = ipv6.ptr; assert(ipv6.len == 16); return dupprintf("%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x", (unsigned)GET_16BIT_MSB_FIRST(addr + 0), (unsigned)GET_16BIT_MSB_FIRST(addr + 2), (unsigned)GET_16BIT_MSB_FIRST(addr + 4), (unsigned)GET_16BIT_MSB_FIRST(addr + 6), (unsigned)GET_16BIT_MSB_FIRST(addr + 8), (unsigned)GET_16BIT_MSB_FIRST(addr + 10), (unsigned)GET_16BIT_MSB_FIRST(addr + 12), (unsigned)GET_16BIT_MSB_FIRST(addr + 14)); } static void pfd_receive(Plug plug, int urgent, char *data, int len) { struct PortForwarding *pf = FROMFIELD(plug, struct PortForwarding, plugvt); if (len == 0) return; if (pf->socks_state != SOCKS_NONE) { BinarySource src[1]; /* * Store all the data we've got in socksbuf. */ put_data(pf->socksbuf, data, len); /* * Check the start of socksbuf to see if it's a valid and * complete message in the SOCKS exchange. */ if (pf->socks_state == SOCKS_INITIAL) { /* Preliminary: check the first byte of the data (which we * _must_ have by now) to find out which SOCKS major * version we're speaking. */ switch (pf->socksbuf->u[0]) { case 4: pf->socks_state = SOCKS_4; break; case 5: pf->socks_state = SOCKS_5_INITIAL; break; default: pfd_close(pf); /* unrecognised version */ return; } } BinarySource_BARE_INIT(src, pf->socksbuf->u, pf->socksbuf->len); get_data(src, pf->socksbuf_consumed); while (pf->socks_state != SOCKS_NONE) { unsigned socks_version, message_type, reserved_byte; unsigned reply_code, port, ipv4, method; ptrlen methods; const char *socks4_hostname; strbuf *output; switch (pf->socks_state) { case SOCKS_INITIAL: case SOCKS_NONE: assert(0 && "These case values cannot appear"); case SOCKS_4: /* SOCKS 4/4A connect message */ socks_version = get_byte(src); message_type = get_byte(src); if (get_err(src) == BSE_OUT_OF_DATA) return; if (socks_version == 4 && message_type == 1) { /* CONNECT message */ int name_based = FALSE; port = get_uint16(src); ipv4 = get_uint32(src); if (ipv4 > 0x00000000 && ipv4 < 0x00000100) { /* * Addresses in this range indicate the SOCKS 4A * extension to specify a hostname, which comes * after the username. */ name_based = TRUE; } get_asciz(src); /* skip username */ socks4_hostname = name_based ? get_asciz(src) : NULL; if (get_err(src) == BSE_OUT_OF_DATA) return; if (get_err(src)) goto socks4_reject; pf->port = port; if (name_based) { pf->hostname = dupstr(socks4_hostname); } else { pf->hostname = ipv4_to_string(ipv4); } output = strbuf_new(); put_byte(output, 0); /* reply version */ put_byte(output, 90); /* SOCKS 4 'request granted' */ put_uint16(output, 0); /* null port field */ put_uint32(output, 0); /* null address field */ sk_write(pf->s, output->u, output->len); strbuf_free(output); pf->socks_state = SOCKS_NONE; pf->socksbuf_consumed = src->pos; break; } socks4_reject: output = strbuf_new(); put_byte(output, 0); /* reply version */ put_byte(output, 91); /* SOCKS 4 'request rejected' */ put_uint16(output, 0); /* null port field */ put_uint32(output, 0); /* null address field */ sk_write(pf->s, output->u, output->len); strbuf_free(output); pfd_close(pf); return; case SOCKS_5_INITIAL: /* SOCKS 5 initial method list */ socks_version = get_byte(src); methods = get_pstring(src); method = 0xFF; /* means 'no usable method found' */ { int i; for (i = 0; i < methods.len; i++) { if (((const unsigned char *)methods.ptr)[i] == 0 ) { method = 0; /* no auth */ break; } } } if (get_err(src) == BSE_OUT_OF_DATA) return; if (get_err(src)) method = 0xFF; output = strbuf_new(); put_byte(output, 5); /* SOCKS version */ put_byte(output, method); /* selected auth method */ sk_write(pf->s, output->u, output->len); strbuf_free(output); if (method == 0xFF) { pfd_close(pf); return; } pf->socks_state = SOCKS_5_CONNECT; pf->socksbuf_consumed = src->pos; break; case SOCKS_5_CONNECT: /* SOCKS 5 connect message */ socks_version = get_byte(src); message_type = get_byte(src); reserved_byte = get_byte(src); if (socks_version == 5 && message_type == 1 && reserved_byte == 0) { reply_code = 0; /* success */ switch (get_byte(src)) { case 1: /* IPv4 */ pf->hostname = ipv4_to_string(get_uint32(src)); break; case 4: /* IPv6 */ pf->hostname = ipv6_to_string(get_data(src, 16)); break; case 3: /* unresolved domain name */ pf->hostname = mkstr(get_pstring(src)); break; default: pf->hostname = NULL; reply_code = 8; /* address type not supported */ break; } pf->port = get_uint16(src); } else { reply_code = 7; /* command not supported */ } if (get_err(src) == BSE_OUT_OF_DATA) return; if (get_err(src)) reply_code = 1; /* general server failure */ output = strbuf_new(); put_byte(output, 5); /* SOCKS version */ put_byte(output, reply_code); put_byte(output, 0); /* reserved */ put_byte(output, 1); /* IPv4 address follows */ put_uint32(output, 0); /* bound IPv4 address (unused) */ put_uint16(output, 0); /* bound port number (unused) */ sk_write(pf->s, output->u, output->len); strbuf_free(output); if (reply_code != 0) { pfd_close(pf); return; } pf->socks_state = SOCKS_NONE; pf->socksbuf_consumed = src->pos; break; } } /* * We come here when we're ready to make an actual * connection. */ /* * Freeze the socket until the SSH server confirms the * connection. */ sk_set_frozen(pf->s, 1); pf->c = wrap_lportfwd_open(pf->cl, pf->hostname, pf->port, pf->s, &pf->chan); } if (pf->ready) sshfwd_write(pf->c, data, len); } static void pfd_sent(Plug plug, int bufsize) { struct PortForwarding *pf = FROMFIELD(plug, struct PortForwarding, plugvt); if (pf->c) sshfwd_unthrottle(pf->c, bufsize); } static const Plug_vtable PortForwarding_plugvt = { pfd_log, pfd_closing, pfd_receive, pfd_sent, NULL }; static void pfd_chan_free(Channel *chan); static void pfd_open_confirmation(Channel *chan); static void pfd_open_failure(Channel *chan, const char *errtext); static int pfd_send(Channel *chan, int is_stderr, const void *data, int len); static void pfd_send_eof(Channel *chan); static void pfd_set_input_wanted(Channel *chan, int wanted); static char *pfd_log_close_msg(Channel *chan); static const struct ChannelVtable PortForwarding_channelvt = { pfd_chan_free, pfd_open_confirmation, pfd_open_failure, pfd_send, pfd_send_eof, pfd_set_input_wanted, pfd_log_close_msg, chan_no_eager_close, }; /* called when someone connects to the local port */ static int pfl_accepting(Plug p, accept_fn_t constructor, accept_ctx_t ctx) { struct PortForwarding *pf; struct PortListener *pl; Socket s; const char *err; pl = FROMFIELD(p, struct PortListener, plugvt); pf = new_portfwd_state(); pf->plugvt = &PortForwarding_plugvt; pf->chan.initial_fixed_window_size = 0; pf->chan.vt = &PortForwarding_channelvt; pf->input_wanted = TRUE; pf->c = NULL; pf->cl = pl->cl; pf->s = s = constructor(ctx, &pf->plugvt); if ((err = sk_socket_error(s)) != NULL) { free_portfwd_state(pf); return err != NULL; } pf->input_wanted = TRUE; pf->ready = 0; if (pl->is_dynamic) { pf->socks_state = SOCKS_INITIAL; pf->socksbuf = strbuf_new(); pf->socksbuf_consumed = 0; pf->port = 0; /* "hostname" buffer is so far empty */ sk_set_frozen(s, 0); /* we want to receive SOCKS _now_! */ } else { pf->socks_state = SOCKS_NONE; pf->hostname = dupstr(pl->hostname); pf->port = pl->port; pf->c = wrap_lportfwd_open(pl->cl, pf->hostname, pf->port, s, &pf->chan); } return 0; } static const Plug_vtable PortListener_plugvt = { pfl_log, pfl_closing, NULL, /* recv */ NULL, /* send */ pfl_accepting }; /* * Add a new port-forwarding listener from srcaddr:port -> desthost:destport. * * desthost == NULL indicates dynamic SOCKS port forwarding. * * On success, returns NULL and fills in *pl_ret. On error, returns a * dynamically allocated error message string. */ static char *pfl_listen(char *desthost, int destport, char *srcaddr, int port, ConnectionLayer *cl, Conf *conf, struct PortListener **pl_ret, int address_family) { const char *err; struct PortListener *pl; /* * Open socket. */ pl = *pl_ret = new_portlistener_state(); pl->plugvt = &PortListener_plugvt; if (desthost) { pl->hostname = dupstr(desthost); pl->port = destport; pl->is_dynamic = FALSE; } else pl->is_dynamic = TRUE; pl->cl = cl; pl->s = new_listener(srcaddr, port, &pl->plugvt, !conf_get_int(conf, CONF_lport_acceptall), conf, address_family); if ((err = sk_socket_error(pl->s)) != NULL) { char *err_ret = dupstr(err); sk_close(pl->s); free_portlistener_state(pl); *pl_ret = NULL; return err_ret; } return NULL; } static char *pfd_log_close_msg(Channel *chan) { return dupstr("Forwarded port closed"); } static void pfd_close(struct PortForwarding *pf) { if (!pf) return; sk_close(pf->s); free_portfwd_state(pf); } /* * Terminate a listener. */ static void pfl_terminate(struct PortListener *pl) { if (!pl) return; sk_close(pl->s); free_portlistener_state(pl); } static void pfd_set_input_wanted(Channel *chan, int wanted) { assert(chan->vt == &PortForwarding_channelvt); PortForwarding *pf = FROMFIELD(chan, PortForwarding, chan); pf->input_wanted = wanted; sk_set_frozen(pf->s, !pf->input_wanted); } static void pfd_chan_free(Channel *chan) { assert(chan->vt == &PortForwarding_channelvt); PortForwarding *pf = FROMFIELD(chan, PortForwarding, chan); pfd_close(pf); } /* * Called to send data down the raw connection. */ static int pfd_send(Channel *chan, int is_stderr, const void *data, int len) { assert(chan->vt == &PortForwarding_channelvt); PortForwarding *pf = FROMFIELD(chan, PortForwarding, chan); return sk_write(pf->s, data, len); } static void pfd_send_eof(Channel *chan) { assert(chan->vt == &PortForwarding_channelvt); PortForwarding *pf = FROMFIELD(chan, PortForwarding, chan); sk_write_eof(pf->s); } static void pfd_open_confirmation(Channel *chan) { assert(chan->vt == &PortForwarding_channelvt); PortForwarding *pf = FROMFIELD(chan, PortForwarding, chan); pf->ready = 1; sk_set_frozen(pf->s, 0); sk_write(pf->s, NULL, 0); if (pf->socksbuf) { sshfwd_write(pf->c, pf->socksbuf->u + pf->socksbuf_consumed, pf->socksbuf->len - pf->socksbuf_consumed); strbuf_free(pf->socksbuf); pf->socksbuf = NULL; } } static void pfd_open_failure(Channel *chan, const char *errtext) { assert(chan->vt == &PortForwarding_channelvt); PortForwarding *pf = FROMFIELD(chan, PortForwarding, chan); logeventf(pf->cl->frontend, "Forwarded connection refused by server%s%s", errtext ? ": " : "", errtext ? errtext : ""); } /* ---------------------------------------------------------------------- * Code to manage the complete set of currently active port * forwardings, and update it from Conf. */ struct PortFwdRecord { enum { DESTROY, KEEP, CREATE } status; int type; unsigned sport, dport; char *saddr, *daddr; char *sserv, *dserv; struct ssh_rportfwd *remote; int addressfamily; struct PortListener *local; }; static int pfr_cmp(void *av, void *bv) { PortFwdRecord *a = (PortFwdRecord *) av; PortFwdRecord *b = (PortFwdRecord *) bv; int i; if (a->type > b->type) return +1; if (a->type < b->type) return -1; if (a->addressfamily > b->addressfamily) return +1; if (a->addressfamily < b->addressfamily) return -1; if ( (i = nullstrcmp(a->saddr, b->saddr)) != 0) return i < 0 ? -1 : +1; if (a->sport > b->sport) return +1; if (a->sport < b->sport) return -1; if (a->type != 'D') { if ( (i = nullstrcmp(a->daddr, b->daddr)) != 0) return i < 0 ? -1 : +1; if (a->dport > b->dport) return +1; if (a->dport < b->dport) return -1; } return 0; } void pfr_free(PortFwdRecord *pfr) { /* Dispose of any listening socket. */ if (pfr->local) pfl_terminate(pfr->local); sfree(pfr->saddr); sfree(pfr->daddr); sfree(pfr->sserv); sfree(pfr->dserv); sfree(pfr); } struct PortFwdManager { ConnectionLayer *cl; Conf *conf; tree234 *forwardings; }; PortFwdManager *portfwdmgr_new(ConnectionLayer *cl) { PortFwdManager *mgr = snew(PortFwdManager); mgr->cl = cl; mgr->conf = NULL; mgr->forwardings = newtree234(pfr_cmp); return mgr; } void portfwdmgr_close(PortFwdManager *mgr, PortFwdRecord *pfr) { PortFwdRecord *realpfr = del234(mgr->forwardings, pfr); if (realpfr == pfr) pfr_free(pfr); } void portfwdmgr_close_all(PortFwdManager *mgr) { PortFwdRecord *pfr; while ((pfr = delpos234(mgr->forwardings, 0)) != NULL) pfr_free(pfr); } void portfwdmgr_free(PortFwdManager *mgr) { portfwdmgr_close_all(mgr); freetree234(mgr->forwardings); if (mgr->conf) conf_free(mgr->conf); sfree(mgr); } void portfwdmgr_config(PortFwdManager *mgr, Conf *conf) { PortFwdRecord *pfr; int i; char *key, *val; if (mgr->conf) conf_free(mgr->conf); mgr->conf = conf_copy(conf); /* * Go through the existing port forwardings and tag them * with status==DESTROY. Any that we want to keep will be * re-enabled (status==KEEP) as we go through the * configuration and find out which bits are the same as * they were before. */ for (i = 0; (pfr = index234(mgr->forwardings, i)) != NULL; i++) pfr->status = DESTROY; for (val = conf_get_str_strs(conf, CONF_portfwd, NULL, &key); val != NULL; val = conf_get_str_strs(conf, CONF_portfwd, key, &key)) { char *kp, *kp2, *vp, *vp2; char address_family, type; int sport, dport, sserv, dserv; char *sports, *dports, *saddr, *host; kp = key; address_family = 'A'; type = 'L'; if (*kp == 'A' || *kp == '4' || *kp == '6') address_family = *kp++; if (*kp == 'L' || *kp == 'R') type = *kp++; if ((kp2 = host_strchr(kp, ':')) != NULL) { /* * There's a colon in the middle of the source port * string, which means that the part before it is * actually a source address. */ char *saddr_tmp = dupprintf("%.*s", (int)(kp2 - kp), kp); saddr = host_strduptrim(saddr_tmp); sfree(saddr_tmp); sports = kp2+1; } else { saddr = NULL; sports = kp; } sport = atoi(sports); sserv = 0; if (sport == 0) { sserv = 1; sport = net_service_lookup(sports); if (!sport) { logeventf(mgr->cl->frontend, "Service lookup failed for source" " port \"%s\"", sports); } } if (type == 'L' && !strcmp(val, "D")) { /* dynamic forwarding */ host = NULL; dports = NULL; dport = -1; dserv = 0; type = 'D'; } else { /* ordinary forwarding */ vp = val; vp2 = vp + host_strcspn(vp, ":"); host = dupprintf("%.*s", (int)(vp2 - vp), vp); if (*vp2) vp2++; dports = vp2; dport = atoi(dports); dserv = 0; if (dport == 0) { dserv = 1; dport = net_service_lookup(dports); if (!dport) { logeventf(mgr->cl->frontend, "Service lookup failed for destination" " port \"%s\"", dports); } } } if (sport && dport) { /* Set up a description of the source port. */ pfr = snew(PortFwdRecord); pfr->type = type; pfr->saddr = saddr; pfr->sserv = sserv ? dupstr(sports) : NULL; pfr->sport = sport; pfr->daddr = host; pfr->dserv = dserv ? dupstr(dports) : NULL; pfr->dport = dport; pfr->local = NULL; pfr->remote = NULL; pfr->addressfamily = (address_family == '4' ? ADDRTYPE_IPV4 : address_family == '6' ? ADDRTYPE_IPV6 : ADDRTYPE_UNSPEC); PortFwdRecord *existing = add234(mgr->forwardings, pfr); if (existing != pfr) { if (existing->status == DESTROY) { /* * We already have a port forwarding up and running * with precisely these parameters. Hence, no need * to do anything; simply re-tag the existing one * as KEEP. */ existing->status = KEEP; } /* * Anything else indicates that there was a duplicate * in our input, which we'll silently ignore. */ pfr_free(pfr); } else { pfr->status = CREATE; } } else { sfree(saddr); sfree(host); } } /* * Now go through and destroy any port forwardings which were * not re-enabled. */ for (i = 0; (pfr = index234(mgr->forwardings, i)) != NULL; i++) { if (pfr->status == DESTROY) { char *message; message = dupprintf("%s port forwarding from %s%s%d", pfr->type == 'L' ? "local" : pfr->type == 'R' ? "remote" : "dynamic", pfr->saddr ? pfr->saddr : "", pfr->saddr ? ":" : "", pfr->sport); if (pfr->type != 'D') { char *msg2 = dupprintf("%s to %s:%d", message, pfr->daddr, pfr->dport); sfree(message); message = msg2; } logeventf(mgr->cl->frontend, "Cancelling %s", message); sfree(message); /* pfr->remote or pfr->local may be NULL if setting up a * forwarding failed. */ if (pfr->remote) { /* * Cancel the port forwarding at the server * end. * * Actually closing the listening port on the server * side may fail - because in SSH-1 there's no message * in the protocol to request it! * * Instead, we simply remove the record of the * forwarding from our local end, so that any * connections the server tries to make on it are * rejected. */ ssh_rportfwd_remove(mgr->cl, pfr->remote); } else if (pfr->local) { pfl_terminate(pfr->local); } delpos234(mgr->forwardings, i); pfr_free(pfr); i--; /* so we don't skip one in the list */ } } /* * And finally, set up any new port forwardings (status==CREATE). */ for (i = 0; (pfr = index234(mgr->forwardings, i)) != NULL; i++) { if (pfr->status == CREATE) { char *sportdesc, *dportdesc; sportdesc = dupprintf("%s%s%s%s%d%s", pfr->saddr ? pfr->saddr : "", pfr->saddr ? ":" : "", pfr->sserv ? pfr->sserv : "", pfr->sserv ? "(" : "", pfr->sport, pfr->sserv ? ")" : ""); if (pfr->type == 'D') { dportdesc = NULL; } else { dportdesc = dupprintf("%s:%s%s%d%s", pfr->daddr, pfr->dserv ? pfr->dserv : "", pfr->dserv ? "(" : "", pfr->dport, pfr->dserv ? ")" : ""); } if (pfr->type == 'L') { char *err = pfl_listen(pfr->daddr, pfr->dport, pfr->saddr, pfr->sport, mgr->cl, conf, &pfr->local, pfr->addressfamily); logeventf(mgr->cl->frontend, "Local %sport %s forwarding to %s%s%s", pfr->addressfamily == ADDRTYPE_IPV4 ? "IPv4 " : pfr->addressfamily == ADDRTYPE_IPV6 ? "IPv6 " : "", sportdesc, dportdesc, err ? " failed: " : "", err ? err : ""); if (err) sfree(err); } else if (pfr->type == 'D') { char *err = pfl_listen(NULL, -1, pfr->saddr, pfr->sport, mgr->cl, conf, &pfr->local, pfr->addressfamily); logeventf(mgr->cl->frontend, "Local %sport %s SOCKS dynamic forwarding%s%s", pfr->addressfamily == ADDRTYPE_IPV4 ? "IPv4 " : pfr->addressfamily == ADDRTYPE_IPV6 ? "IPv6 " : "", sportdesc, err ? " failed: " : "", err ? err : ""); if (err) sfree(err); } else { const char *shost; if (pfr->saddr) { shost = pfr->saddr; } else if (conf_get_int(conf, CONF_rport_acceptall)) { shost = ""; } else { shost = "localhost"; } pfr->remote = ssh_rportfwd_alloc( mgr->cl, shost, pfr->sport, pfr->daddr, pfr->dport, pfr->addressfamily, sportdesc, pfr, NULL); if (!pfr->remote) { logeventf(mgr->cl->frontend, "Duplicate remote port forwarding to %s:%d", pfr->daddr, pfr->dport); pfr_free(pfr); } else { logeventf(mgr->cl->frontend, "Requesting remote port %s" " forward to %s", sportdesc, dportdesc); } } sfree(sportdesc); sfree(dportdesc); } } } /* * Called when receiving a PORT OPEN from the server to make a * connection to a destination host. * * On success, returns NULL and fills in *pf_ret. On error, returns a * dynamically allocated error message string. */ char *portfwdmgr_connect(PortFwdManager *mgr, Channel **chan_ret, char *hostname, int port, SshChannel *c, int addressfamily) { SockAddr addr; const char *err; char *dummy_realhost = NULL; struct PortForwarding *pf; /* * Try to find host. */ addr = name_lookup(hostname, port, &dummy_realhost, mgr->conf, addressfamily, NULL, NULL); if ((err = sk_addr_error(addr)) != NULL) { char *err_ret = dupstr(err); sk_addr_free(addr); sfree(dummy_realhost); return err_ret; } /* * Open socket. */ pf = new_portfwd_state(); *chan_ret = &pf->chan; pf->plugvt = &PortForwarding_plugvt; pf->chan.initial_fixed_window_size = 0; pf->chan.vt = &PortForwarding_channelvt; pf->input_wanted = TRUE; pf->ready = 1; pf->c = c; pf->cl = mgr->cl; pf->socks_state = SOCKS_NONE; pf->s = new_connection(addr, dummy_realhost, port, 0, 1, 0, 0, &pf->plugvt, mgr->conf); sfree(dummy_realhost); if ((err = sk_socket_error(pf->s)) != NULL) { char *err_ret = dupstr(err); sk_close(pf->s); free_portfwd_state(pf); *chan_ret = NULL; return err_ret; } return NULL; }