/* $OpenBSD: udp.c,v 1.78 2004/08/03 10:54:09 ho Exp $ */ /* $EOM: udp.c,v 1.57 2001/01/26 10:09:57 niklas Exp $ */ /* * Copyright (c) 1998, 1999, 2001 Niklas Hallqvist. All rights reserved. * Copyright (c) 2000 Angelos D. Keromytis. All rights reserved. * Copyright (c) 2003, 2004 Håkan Olsson. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * This code was written under funding by Ericsson Radio Systems. */ #include #include #include #ifndef linux #include #endif #include #include #include #include #include #include #include #include #include #include #include "sysdep.h" #include "conf.h" #include "if.h" #include "isakmp.h" #include "log.h" #include "message.h" #include "monitor.h" #include "sysdep.h" #include "transport.h" #include "udp.h" #include "util.h" #include "virtual.h" #define UDP_SIZE 65536 /* If a system doesn't have SO_REUSEPORT, SO_REUSEADDR will have to do. */ #ifndef SO_REUSEPORT #define SO_REUSEPORT SO_REUSEADDR #endif /* These are reused by udp_encap.c, thus not 'static' here. */ struct transport *udp_clone(struct transport *, struct sockaddr *); int udp_fd_set(struct transport *, fd_set *, int); int udp_fd_isset(struct transport *, fd_set *); void udp_get_dst(struct transport *, struct sockaddr **); void udp_get_src(struct transport *, struct sockaddr **); char *udp_decode_ids(struct transport *); void udp_remove(struct transport *); static struct transport *udp_create(char *); static void udp_report(struct transport *); static void udp_handle_message(struct transport *); static struct transport *udp_make(struct sockaddr *); static int udp_send_message(struct message *, struct transport *); #if 0 static in_port_t udp_decode_port(char *); #endif static struct transport_vtbl udp_transport_vtbl = { {0}, "udp_physical", udp_create, 0, udp_remove, udp_report, udp_fd_set, udp_fd_isset, udp_handle_message, udp_send_message, udp_get_dst, udp_get_src, udp_decode_ids, udp_clone, 0 }; char *udp_default_port = 0; char *udp_bind_port = 0; int bind_family = 0; void udp_init(void) { transport_method_add(&udp_transport_vtbl); } /* Create a UDP transport structure bound to LADDR just for listening. */ static struct transport * udp_make(struct sockaddr *laddr) { struct udp_transport *t = 0; int s, on, wildcardaddress = 0; char *tstr; t = calloc(1, sizeof *t); if (!t) { log_print("udp_make: calloc (1, %lu) failed", (unsigned long)sizeof *t); free(laddr); return 0; } t->src = laddr; s = socket(laddr->sa_family, SOCK_DGRAM, IPPROTO_UDP); if (s == -1) { log_error("udp_make: socket (%d, %d, %d)", laddr->sa_family, SOCK_DGRAM, IPPROTO_UDP); goto err; } /* Make sure we don't get our traffic encrypted. */ if (sysdep_cleartext(s, laddr->sa_family) == -1) goto err; /* Wildcard address ? */ switch (laddr->sa_family) { case AF_INET: if (((struct sockaddr_in *)laddr)->sin_addr.s_addr == INADDR_ANY) wildcardaddress = 1; break; case AF_INET6: if (IN6_IS_ADDR_UNSPECIFIED(&((struct sockaddr_in6 *)laddr)->sin6_addr)) wildcardaddress = 1; break; } /* * In order to have several bound specific address-port combinations * with the same port SO_REUSEADDR is needed. If this is a wildcard * socket and we are not listening there, but only sending from it * make sure it is entirely reuseable with SO_REUSEPORT. */ on = 1; if (setsockopt(s, SOL_SOCKET, wildcardaddress ? SO_REUSEPORT : SO_REUSEADDR, (void *)&on, sizeof on) == -1) { log_error("udp_make: setsockopt (%d, %d, %d, %p, %lu)", s, SOL_SOCKET, wildcardaddress ? SO_REUSEPORT : SO_REUSEADDR, &on, (unsigned long)sizeof on); goto err; } t->transport.vtbl = &udp_transport_vtbl; if (monitor_bind(s, t->src, sysdep_sa_len(t->src))) { if (sockaddr2text(t->src, &tstr, 0)) log_error("udp_make: bind (%d, %p, %lu)", s, &t->src, (unsigned long)sizeof t->src); else { log_error("udp_make: bind (%d, %s, %lu)", s, tstr, (unsigned long)sizeof t->src); free(tstr); } goto err; } t->s = s; if (sockaddr2text(t->src, &tstr, 0)) LOG_DBG((LOG_MISC, 20, "udp_make: " "transport %p socket %d family %d", t, s, t->src->sa_family == AF_INET ? 4 : 6)); else { LOG_DBG((LOG_MISC, 20, "udp_make: " "transport %p socket %d ip %s port %d", t, s, tstr, ntohs(sockaddr_port(t->src)))); free (tstr); } transport_setup(&t->transport, 0); t->transport.flags |= TRANSPORT_LISTEN; return &t->transport; err: if (s >= 0) close(s); if (t) { /* Already closed. */ t->s = -1; udp_remove(&t->transport); } return 0; } /* Clone a listen transport U, record a destination RADDR for outbound use. */ struct transport * udp_clone(struct transport *ut, struct sockaddr *raddr) { struct udp_transport *u = (struct udp_transport *)ut; struct udp_transport *u2; struct transport *t; t = malloc(sizeof *u); if (!t) { log_error("udp_clone: malloc (%lu) failed", (unsigned long)sizeof *u); return 0; } u2 = (struct udp_transport *)t; memcpy(u2, u, sizeof *u); u2->src = malloc(sysdep_sa_len(u->src)); if (!u2->src) { log_error("udp_clone: malloc (%d) failed", sysdep_sa_len(u->src)); free(t); return 0; } memcpy(u2->src, u->src, sysdep_sa_len(u->src)); u2->dst = malloc(sysdep_sa_len(raddr)); if (!u2->dst) { log_error("udp_clone: malloc (%d) failed", sysdep_sa_len(raddr)); free(u2->src); free(t); return 0; } memcpy(u2->dst, raddr, sysdep_sa_len(raddr)); t->flags &= ~TRANSPORT_LISTEN; transport_setup(t, 0); return t; } /* * Initialize an object of the UDP transport class. Fill in the local * IP address and port information and create a server socket bound to * that specific port. Add the polymorphic transport structure to the * system-wide pools of known ISAKMP transports. */ struct transport * udp_bind(const struct sockaddr *addr) { struct sockaddr *src; src = malloc(sysdep_sa_len((struct sockaddr *)addr)); if (!src) return 0; memcpy(src, addr, sysdep_sa_len((struct sockaddr *)addr)); return udp_make(src); } /* * NAME is a section name found in the config database. Setup and return * a transport useable to talk to the peer specified by that name. */ static struct transport * udp_create(char *name) { struct virtual_transport *v; struct udp_transport *u; struct transport *rv, *t; struct sockaddr *dst, *addr; char *addr_str, *port_str; struct conf_list *addr_list = 0; struct conf_list_node *addr_node; port_str = conf_get_str(name, "Port"); if (!port_str) port_str = udp_default_port; if (!port_str) port_str = UDP_DEFAULT_PORT_STR; addr_str = conf_get_str(name, "Address"); if (!addr_str) { log_print("udp_create: no address configured for \"%s\"", name); return 0; } if (text2sockaddr(addr_str, port_str, &dst)) { log_print("udp_create: address \"%s\" not understood", addr_str); return 0; } addr_str = conf_get_str(name, "Local-address"); if (!addr_str) addr_list = conf_get_list("General", "Listen-on"); if (!addr_str && !addr_list) { v = virtual_get_default(dst->sa_family); u = (struct udp_transport *)v->main; if (!u) { log_print("udp_create: no default transport"); rv = 0; goto ret; } else { rv = udp_clone((struct transport *)u, dst); if (rv) rv->vtbl = &udp_transport_vtbl; goto ret; } } if (addr_list) { for (addr_node = TAILQ_FIRST(&addr_list->fields); addr_node; addr_node = TAILQ_NEXT(addr_node, link)) if (text2sockaddr(addr_node->field, port_str, &addr) == 0) { v = virtual_listen_lookup(addr); free(addr); if (v) { addr_str = addr_node->field; break; } } if (!addr_str) { log_print("udp_create: no matching listener found"); rv = 0; goto ret; } } if (text2sockaddr(addr_str, port_str, &addr)) { log_print("udp_create: address \"%s\" not understood", addr_str); rv = 0; goto ret; } v = virtual_listen_lookup(addr); free(addr); if (!v) { log_print("udp_create: %s:%s must exist as a listener too", addr_str, port_str); rv = 0; goto ret; } t = (struct transport *)v; rv = udp_clone(v->main, dst); if (rv) rv->vtbl = &udp_transport_vtbl; ret: if (addr_list) conf_free_list(addr_list); free(dst); return rv; } void udp_remove(struct transport *t) { struct udp_transport *u = (struct udp_transport *)t; if (u->src) free(u->src); if (u->dst) free(u->dst); if ((t->flags & TRANSPORT_LISTEN) && u->s >= 0) close(u->s); if (t->link.le_prev) LIST_REMOVE(t, link); LOG_DBG((LOG_TRANSPORT, 90, "udp_remove: removed transport %p", t)); free(t); } /* Report transport-method specifics of the T transport. */ void udp_report(struct transport *t) { struct udp_transport *u = (struct udp_transport *)t; char *src = NULL, *dst = NULL; in_port_t sport, dport; if (sockaddr2text(u->src, &src, 0)) goto ret; sport = sockaddr_port(u->src); if (!u->dst || sockaddr2text(u->dst, &dst, 0)) dst = 0; dport = dst ? sockaddr_port(u->dst) : 0; LOG_DBG((LOG_REPORT, 0, "udp_report: fd %d src %s:%u dst %s:%u", u->s, src, ntohs(sport), dst ? dst : "", ntohs(dport))); ret: if (dst) free(dst); if (src) free(src); } /* * A message has arrived on transport T's socket. If T is single-ended, * clone it into a double-ended transport which we will use from now on. * Package the message as we want it and continue processing in the message * module. */ static void udp_handle_message(struct transport *t) { struct udp_transport *u = (struct udp_transport *)t; u_int8_t buf[UDP_SIZE]; struct sockaddr_storage from; u_int32_t len = sizeof from; ssize_t n; struct message *msg; n = recvfrom(u->s, buf, UDP_SIZE, 0, (struct sockaddr *)&from, &len); if (n == -1) { log_error("recvfrom (%d, %p, %d, %d, %p, %p)", u->s, buf, UDP_SIZE, 0, &from, &len); return; } /* * Make a specialized UDP transport structure out of the incoming * transport and the address information we got from recvfrom(2). */ t = t->virtual->vtbl->clone(t->virtual, (struct sockaddr *)&from); if (!t) return; msg = message_alloc(t, buf, n); if (!msg) { log_error("failed to allocate message structure, dropping " "packet received on transport %p", u); t->vtbl->remove(t); return; } message_recv(msg); } /* Physically send the message MSG over its associated transport. */ static int udp_send_message(struct message *msg, struct transport *t) { struct udp_transport *u = (struct udp_transport *)t; ssize_t n; struct msghdr m; /* * Sending on connected sockets requires that no destination address is * given, or else EISCONN will occur. */ m.msg_name = (caddr_t) u->dst; m.msg_namelen = sysdep_sa_len(u->dst); m.msg_iov = msg->iov; m.msg_iovlen = msg->iovlen; m.msg_control = 0; m.msg_controllen = 0; m.msg_flags = 0; n = sendmsg(u->s, &m, 0); if (n == -1) { /* XXX We should check whether the address has gone away */ log_error("sendmsg (%d, %p, %d)", u->s, &m, 0); return -1; } return 0; } int udp_fd_set(struct transport *t, fd_set *fds, int bit) { struct udp_transport *u = (struct udp_transport *)t; if (bit) FD_SET(u->s, fds); else FD_CLR(u->s, fds); return u->s + 1; } int udp_fd_isset(struct transport *t, fd_set *fds) { struct udp_transport *u = (struct udp_transport *)t; return FD_ISSET(u->s, fds); } /* * Get transport T's peer address and stuff it into the sockaddr pointed * to by DST. */ void udp_get_dst(struct transport *t, struct sockaddr **dst) { *dst = ((struct udp_transport *)t)->dst; } /* * Get transport T's local address and stuff it into the sockaddr pointed * to by SRC. Put its length into SRC_LEN. */ void udp_get_src(struct transport *t, struct sockaddr **src) { *src = ((struct udp_transport *)t)->src; } char * udp_decode_ids(struct transport *t) { struct sockaddr *src, *dst; static char result[1024]; char idsrc[256], iddst[256]; t->vtbl->get_src(t, &src); t->vtbl->get_dst(t, &dst); if (getnameinfo(src, sysdep_sa_len(src), idsrc, sizeof idsrc, NULL, 0, NI_NUMERICHOST) != 0) { log_print("udp_decode_ids: getnameinfo () failed for 'src'"); strlcpy(idsrc, "", 256); } if (getnameinfo(dst, sysdep_sa_len(dst), iddst, sizeof iddst, NULL, 0, NI_NUMERICHOST) != 0) { log_print("udp_decode_ids: getnameinfo () failed for 'dst'"); strlcpy(iddst, "", 256); } snprintf(result, sizeof result, "src: %s dst: %s", idsrc, iddst); return result; } #if 0 /* * Take a string containing an ext representation of port and return a * binary port number in host byte order. Return zero if anything goes wrong. * XXX Currently unused. */ static in_port_t udp_decode_port(char *port_str) { char *port_str_end; long port_long; struct servent *service; port_long = ntohl(strtol(port_str, &port_str_end, 0)); if (port_str == port_str_end) { service = getservbyname(port_str, "udp"); if (!service) { log_print("udp_decode_port: service \"%s\" unknown", port_str); return 0; } return ntohs(service->s_port); } else if (port_long < 1 || port_long > 65535) { log_print("udp_decode_port: port %ld out of range", port_long); return 0; } return port_long; } #endif