1 #include <sys/socket.h>
4 #include <sys/utsname.h>
11 #include "subscribe.h"
13 static void free_entry(flxServer*s, flxEntry *e) {
19 flx_goodbye_entry(s, e, TRUE);
21 /* Remove from linked list */
22 FLX_LLIST_REMOVE(flxEntry, entries, s->entries, e);
24 /* Remove from hash table indexed by name */
25 t = g_hash_table_lookup(s->entries_by_key, e->record->key);
26 FLX_LLIST_REMOVE(flxEntry, by_key, t, e);
28 g_hash_table_replace(s->entries_by_key, t->record->key, t);
30 g_hash_table_remove(s->entries_by_key, e->record->key);
32 /* Remove from associated group */
34 FLX_LLIST_REMOVE(flxEntry, by_group, e->group->entries, e);
36 flx_record_unref(e->record);
40 static void free_group(flxServer *s, flxEntryGroup *g) {
45 free_entry(s, g->entries);
47 FLX_LLIST_REMOVE(flxEntryGroup, groups, s->groups, g);
51 static void cleanup_dead(flxServer *s) {
52 flxEntryGroup *g, *ng;
57 if (s->need_group_cleanup) {
58 for (g = s->groups; g; g = ng) {
65 s->need_group_cleanup = FALSE;
68 if (s->need_entry_cleanup) {
69 for (e = s->entries; e; e = ne) {
76 s->need_entry_cleanup = FALSE;
80 static void handle_query_key(flxServer *s, flxKey *k, flxInterface *i, const flxAddress *a) {
89 g_message("Handling query: %s", txt = flx_key_to_string(k));
92 flx_packet_scheduler_incoming_query(i->scheduler, k);
94 if (k->type == FLX_DNS_TYPE_ANY) {
96 /* Handle ANY query */
98 for (e = s->entries; e; e = e->entries_next)
99 if (!e->dead && flx_key_pattern_match(k, e->record->key) && flx_entry_registered(s, e, i))
100 flx_interface_post_response(i, a, e->record, e->flags & FLX_ENTRY_UNIQUE, FALSE);
103 /* Handle all other queries */
105 for (e = g_hash_table_lookup(s->entries_by_key, k); e; e = e->by_key_next)
106 if (!e->dead && flx_entry_registered(s, e, i))
107 flx_interface_post_response(i, a, e->record, e->flags & FLX_ENTRY_UNIQUE, FALSE);
111 static void withdraw_entry(flxServer *s, flxEntry *e) {
119 for (k = e->group->entries; k; k = k->by_group_next) {
120 flx_goodbye_entry(s, k, FALSE);
124 flx_entry_group_change_state(e->group, FLX_ENTRY_GROUP_COLLISION);
126 flx_goodbye_entry(s, e, FALSE);
130 s->need_entry_cleanup = TRUE;
133 static void incoming_probe(flxServer *s, flxRecord *record, flxInterface *i) {
141 t = flx_record_to_string(record);
143 /* g_message("PROBE: [%s]", t); */
146 for (e = g_hash_table_lookup(s->entries_by_key, record->key); e; e = n) {
149 if (e->dead || flx_record_equal_no_ttl(record, e->record))
152 if (flx_entry_registering(s, e, i)) {
155 if ((cmp = flx_record_lexicographical_compare(record, e->record)) > 0) {
156 withdraw_entry(s, e);
157 g_message("Recieved conflicting probe [%s]. Local host lost. Withdrawing.", t);
159 g_message("Recieved conflicting probe [%s]. Local host won.", t);
167 static void handle_query(flxServer *s, flxDnsPacket *p, flxInterface *i, const flxAddress *a) {
175 /* Handle the questions */
176 for (n = flx_dns_packet_get_field(p, FLX_DNS_FIELD_QDCOUNT); n > 0; n --) {
179 if (!(key = flx_dns_packet_consume_key(p))) {
180 g_warning("Packet too short (1)");
184 handle_query_key(s, key, i, a);
188 /* Known Answer Suppresion */
189 for (n = flx_dns_packet_get_field(p, FLX_DNS_FIELD_ANCOUNT); n > 0; n --) {
191 gboolean unique = FALSE;
193 if (!(record = flx_dns_packet_consume_record(p, &unique))) {
194 g_warning("Packet too short (2)");
198 flx_packet_scheduler_incoming_known_answer(i->scheduler, record, a);
199 flx_record_unref(record);
203 for (n = flx_dns_packet_get_field(p, FLX_DNS_FIELD_NSCOUNT); n > 0; n --) {
205 gboolean unique = FALSE;
207 if (!(record = flx_dns_packet_consume_record(p, &unique))) {
208 g_warning("Packet too short (3)");
212 if (record->key->type != FLX_DNS_TYPE_ANY)
213 incoming_probe(s, record, i);
215 flx_record_unref(record);
219 static gboolean handle_conflict(flxServer *s, flxInterface *i, flxRecord *record, gboolean unique, const flxAddress *a) {
220 gboolean valid = TRUE;
228 t = flx_record_to_string(record);
230 /* g_message("CHECKING FOR CONFLICT: [%s]", t); */
232 for (e = g_hash_table_lookup(s->entries_by_key, record->key); e; e = n) {
238 if (flx_entry_registered(s, e, i)) {
240 gboolean equal = flx_record_equal_no_ttl(record, e->record);
242 /* Check whether there is a unique record conflict */
243 if (!equal && ((e->flags & FLX_ENTRY_UNIQUE) || unique)) {
246 /* The lexicographically later data wins. */
247 if ((cmp = flx_record_lexicographical_compare(record, e->record)) > 0) {
248 g_message("Recieved conflicting record [%s]. Local host lost. Withdrawing.", t);
249 withdraw_entry(s, e);
250 } else if (cmp < 0) {
251 /* Tell the other host that our entry is lexicographically later */
253 g_message("Recieved conflicting record [%s]. Local host won. Refreshing.", t);
256 flx_interface_post_response(i, a, e->record, e->flags & FLX_ENTRY_UNIQUE, TRUE);
259 /* Check wheter there is a TTL conflict */
260 } else if (equal && record->ttl <= e->record->ttl/2) {
261 /* Correct the TTL */
263 flx_interface_post_response(i, a, e->record, e->flags & FLX_ENTRY_UNIQUE, TRUE);
264 g_message("Recieved record with bad TTL [%s]. Refreshing.", t);
267 } else if (flx_entry_registering(s, e, i)) {
269 if (!flx_record_equal_no_ttl(record, e->record) && ((e->flags & FLX_ENTRY_UNIQUE) || unique)) {
271 /* We are currently registering a matching record, but
272 * someone else already claimed it, so let's
275 g_message("Recieved conflicting record [%s] with local record to be. Withdrawing.", t);
276 withdraw_entry(s, e);
286 static void handle_response(flxServer *s, flxDnsPacket *p, flxInterface *i, const flxAddress *a) {
294 for (n = flx_dns_packet_get_field(p, FLX_DNS_FIELD_ANCOUNT) +
295 flx_dns_packet_get_field(p, FLX_DNS_FIELD_ARCOUNT); n > 0; n--) {
297 gboolean cache_flush = FALSE;
300 if (!(record = flx_dns_packet_consume_record(p, &cache_flush))) {
301 g_warning("Packet too short (4)");
305 if (record->key->type != FLX_DNS_TYPE_ANY) {
307 g_message("Handling response: %s", txt = flx_record_to_string(record));
310 if (handle_conflict(s, i, record, cache_flush, a)) {
311 flx_cache_update(i->cache, record, cache_flush, a);
312 flx_packet_scheduler_incoming_response(i->scheduler, record);
316 flx_record_unref(record);
320 static void dispatch_packet(flxServer *s, flxDnsPacket *p, struct sockaddr *sa, gint iface, gint ttl) {
329 g_message("new packet recieved.");
331 if (!(i = flx_interface_monitor_get_interface(s->monitor, iface, sa->sa_family))) {
332 g_warning("Recieved packet from invalid interface.");
337 g_warning("Recieved packet with invalid TTL on interface '%s.%i'.", i->hardware->name, i->protocol);
338 if (!s->ignore_bad_ttl)
342 if (sa->sa_family == AF_INET6) {
343 static const unsigned char ipv4_in_ipv6[] = {
344 0x00, 0x00, 0x00, 0x00,
345 0x00, 0x00, 0x00, 0x00,
346 0xFF, 0xFF, 0xFF, 0xFF };
348 if (memcmp(((struct sockaddr_in6*) sa)->sin6_addr.s6_addr, ipv4_in_ipv6, sizeof(ipv4_in_ipv6)) == 0) {
350 /* This is an IPv4 address encapsulated in IPv6, so let's ignore it. */
355 if (flx_dns_packet_check_valid(p) < 0) {
356 g_warning("Recieved invalid packet.");
360 flx_address_from_sockaddr(sa, &a);
362 if (flx_dns_packet_is_query(p)) {
364 if (flx_dns_packet_get_field(p, FLX_DNS_FIELD_QDCOUNT) == 0 ||
365 flx_dns_packet_get_field(p, FLX_DNS_FIELD_ARCOUNT) != 0) {
366 g_warning("Invalid query packet.");
370 handle_query(s, p, i, &a);
371 g_message("Handled query");
373 if (flx_dns_packet_get_field(p, FLX_DNS_FIELD_QDCOUNT) != 0 ||
374 flx_dns_packet_get_field(p, FLX_DNS_FIELD_ANCOUNT) == 0 ||
375 flx_dns_packet_get_field(p, FLX_DNS_FIELD_NSCOUNT) != 0) {
376 g_warning("Invalid response packet.");
380 handle_response(s, p, i, &a);
381 g_message("Handled response");
385 static void work(flxServer *s) {
386 struct sockaddr_in6 sa6;
387 struct sockaddr_in sa;
394 if (s->pollfd_ipv4.revents & G_IO_IN) {
395 if ((p = flx_recv_dns_packet_ipv4(s->fd_ipv4, &sa, &iface, &ttl))) {
396 dispatch_packet(s, p, (struct sockaddr*) &sa, iface, ttl);
397 flx_dns_packet_free(p);
401 if (s->pollfd_ipv6.revents & G_IO_IN) {
402 if ((p = flx_recv_dns_packet_ipv6(s->fd_ipv6, &sa6, &iface, &ttl))) {
403 dispatch_packet(s, p, (struct sockaddr*) &sa6, iface, ttl);
404 flx_dns_packet_free(p);
409 static gboolean prepare_func(GSource *source, gint *timeout) {
417 static gboolean check_func(GSource *source) {
421 s = *((flxServer**) (((guint8*) source) + sizeof(GSource)));
424 return (s->pollfd_ipv4.revents | s->pollfd_ipv6.revents) & (G_IO_IN | G_IO_HUP | G_IO_ERR);
427 static gboolean dispatch_func(GSource *source, GSourceFunc callback, gpointer user_data) {
431 s = *((flxServer**) (((guint8*) source) + sizeof(GSource)));
440 static void add_default_entries(flxServer *s) {
442 struct utsname utsname;
449 /* Fill in HINFO rr */
450 r = flx_record_new_full(s->hostname, FLX_DNS_CLASS_IN, FLX_DNS_TYPE_HINFO);
452 r->data.hinfo.cpu = g_strdup(g_strup(utsname.machine));
453 r->data.hinfo.os = g_strdup(g_strup(utsname.sysname));
454 flx_server_add(s, NULL, 0, AF_UNSPEC, FLX_ENTRY_UNIQUE, r);
457 /* Add localhost entries */
458 flx_address_parse("127.0.0.1", AF_INET, &a);
459 flx_server_add_address(s, NULL, 0, AF_UNSPEC, FLX_ENTRY_UNIQUE|FLX_ENTRY_NOPROBE|FLX_ENTRY_NOANNOUNCE, "localhost", &a);
461 flx_address_parse("::1", AF_INET6, &a);
462 flx_server_add_address(s, NULL, 0, AF_UNSPEC, FLX_ENTRY_UNIQUE|FLX_ENTRY_NOPROBE|FLX_ENTRY_NOANNOUNCE, "ip6-localhost", &a);
465 flxServer *flx_server_new(GMainContext *c) {
469 static GSourceFuncs source_funcs = {
478 s = g_new(flxServer, 1);
480 s->ignore_bad_ttl = FALSE;
481 s->need_entry_cleanup = s->need_group_cleanup = FALSE;
483 s->fd_ipv4 = flx_open_socket_ipv4();
484 s->fd_ipv6 = flx_open_socket_ipv6();
486 if (s->fd_ipv6 < 0 && s->fd_ipv4 < 0) {
487 g_critical("Failed to create IP sockets.\n");
493 g_message("Failed to create IPv4 socket, proceeding in IPv6 only mode");
494 else if (s->fd_ipv6 < 0)
495 g_message("Failed to create IPv6 socket, proceeding in IPv4 only mode");
498 g_main_context_ref(s->context = c);
500 s->context = g_main_context_default();
502 FLX_LLIST_HEAD_INIT(flxEntry, s->entries);
503 s->entries_by_key = g_hash_table_new((GHashFunc) flx_key_hash, (GEqualFunc) flx_key_equal);
504 FLX_LLIST_HEAD_INIT(flxGroup, s->groups);
506 FLX_LLIST_HEAD_INIT(flxSubscription, s->subscriptions);
507 s->subscription_hashtable = g_hash_table_new((GHashFunc) flx_key_hash, (GEqualFunc) flx_key_equal);
510 hn = flx_get_host_name();
511 hn[strcspn(hn, ".")] = 0;
513 s->hostname = g_strdup_printf("%s.local.", hn);
516 s->time_event_queue = flx_time_event_queue_new(s->context, G_PRIORITY_DEFAULT+10); /* Slightly less priority than the FDs */
517 s->monitor = flx_interface_monitor_new(s);
518 flx_interface_monitor_sync(s->monitor);
519 add_default_entries(s);
521 /* Prepare IO source registration */
522 s->source = g_source_new(&source_funcs, sizeof(GSource) + sizeof(flxServer*));
523 *((flxServer**) (((guint8*) s->source) + sizeof(GSource))) = s;
525 memset(&s->pollfd_ipv4, 0, sizeof(s->pollfd_ipv4));
526 s->pollfd_ipv4.fd = s->fd_ipv4;
527 s->pollfd_ipv4.events = G_IO_IN|G_IO_ERR|G_IO_HUP;
528 g_source_add_poll(s->source, &s->pollfd_ipv4);
530 memset(&s->pollfd_ipv6, 0, sizeof(s->pollfd_ipv6));
531 s->pollfd_ipv6.fd = s->fd_ipv6;
532 s->pollfd_ipv6.events = G_IO_IN|G_IO_ERR|G_IO_HUP;
533 g_source_add_poll(s->source, &s->pollfd_ipv6);
535 g_source_attach(s->source, s->context);
540 void flx_server_free(flxServer* s) {
544 free_entry(s, s->entries);
546 flx_interface_monitor_free(s->monitor);
549 free_group(s, s->groups);
551 while (s->subscriptions)
552 flx_subscription_free(s->subscriptions);
553 g_hash_table_destroy(s->subscription_hashtable);
555 g_hash_table_destroy(s->entries_by_key);
557 flx_time_event_queue_free(s->time_event_queue);
566 g_source_destroy(s->source);
567 g_source_unref(s->source);
568 g_main_context_unref(s->context);
585 g_assert(r->key->type != FLX_DNS_TYPE_ANY);
587 e = g_new(flxEntry, 1);
589 e->record = flx_record_ref(r);
591 e->interface = interface;
592 e->protocol = protocol;
596 FLX_LLIST_HEAD_INIT(flxAnnouncement, e->announcements);
598 FLX_LLIST_PREPEND(flxEntry, entries, s->entries, e);
600 /* Insert into hash table indexed by name */
601 t = g_hash_table_lookup(s->entries_by_key, e->record->key);
602 FLX_LLIST_PREPEND(flxEntry, by_key, t, e);
603 g_hash_table_replace(s->entries_by_key, e->record->key, t);
605 /* Insert into group list */
607 FLX_LLIST_PREPEND(flxEntry, by_group, g->entries, e);
609 flx_announce_entry(s, e);
611 const flxRecord *flx_server_iterate(flxServer *s, flxEntryGroup *g, void **state) {
612 flxEntry **e = (flxEntry**) state;
617 *e = g ? g->entries : s->entries;
619 while (*e && (*e)->dead)
620 *e = g ? (*e)->by_group_next : (*e)->entries_next;
625 return flx_record_ref((*e)->record);
628 void flx_server_dump(flxServer *s, FILE *f) {
633 fprintf(f, "\n;;; ZONE DUMP FOLLOWS ;;;\n");
635 for (e = s->entries; e; e = e->entries_next) {
641 t = flx_record_to_string(e->record);
642 fprintf(f, "%s ; iface=%i proto=%i\n", t, e->interface, e->protocol);
646 flx_dump_caches(s->monitor, f);
649 void flx_server_add_ptr(
662 r = flx_record_new_full(name ? name : s->hostname, FLX_DNS_CLASS_IN, FLX_DNS_TYPE_PTR);
663 r->data.ptr.name = flx_normalize_name(dest);
664 flx_server_add(s, g, interface, protocol, flags, r);
668 void flx_server_add_address(
681 name = name ? (n = flx_normalize_name(name)) : s->hostname;
683 if (a->family == AF_INET) {
687 r = flx_record_new_full(name, FLX_DNS_CLASS_IN, FLX_DNS_TYPE_A);
688 r->data.a.address = a->data.ipv4;
689 flx_server_add(s, g, interface, protocol, flags, r);
692 reverse = flx_reverse_lookup_name_ipv4(&a->data.ipv4);
694 flx_server_add_ptr(s, g, interface, protocol, flags, reverse, name);
701 r = flx_record_new_full(name, FLX_DNS_CLASS_IN, FLX_DNS_TYPE_AAAA);
702 r->data.aaaa.address = a->data.ipv6;
703 flx_server_add(s, g, interface, protocol, flags, r);
706 reverse = flx_reverse_lookup_name_ipv6_arpa(&a->data.ipv6);
708 flx_server_add_ptr(s, g, interface, protocol, flags, reverse, name);
711 reverse = flx_reverse_lookup_name_ipv6_int(&a->data.ipv6);
713 flx_server_add_ptr(s, g, interface, protocol, flags, reverse, name);
720 void flx_server_add_text_strlst(
727 flxStringList *strlst) {
733 r = flx_record_new_full(name ? name : s->hostname, FLX_DNS_CLASS_IN, FLX_DNS_TYPE_TXT);
734 r->data.txt.string_list = strlst;
735 flx_server_add(s, g, interface, protocol, flags, r);
739 void flx_server_add_text_va(
750 flx_server_add_text_strlst(s, g, interface, protocol, flags, name, flx_string_list_new_va(va));
753 void flx_server_add_text(
767 flx_server_add_text_va(s, g, interface, protocol, flags, name, va);
771 static void escape_service_name(gchar *d, guint size, const gchar *s) {
776 while (*s && size >= 2) {
777 if (*s == '.' || *s == '\\') {
793 void flx_server_add_service_strlst(
803 flxStringList *strlst) {
805 gchar ptr_name[256], svc_name[256], ename[64], enum_ptr[256];
812 escape_service_name(ename, sizeof(ename), name);
815 while (domain[0] == '.')
823 snprintf(ptr_name, sizeof(ptr_name), "%s.%s", type, domain);
824 snprintf(svc_name, sizeof(svc_name), "%s.%s.%s", ename, type, domain);
826 flx_server_add_ptr(s, g, interface, protocol, FLX_ENTRY_NULL, ptr_name, svc_name);
828 r = flx_record_new_full(svc_name, FLX_DNS_CLASS_IN, FLX_DNS_TYPE_SRV);
829 r->data.srv.priority = 0;
830 r->data.srv.weight = 0;
831 r->data.srv.port = port;
832 r->data.srv.name = flx_normalize_name(host);
833 flx_server_add(s, g, interface, protocol, FLX_ENTRY_UNIQUE, r);
836 flx_server_add_text_strlst(s, g, interface, protocol, FLX_ENTRY_UNIQUE, svc_name, strlst);
838 snprintf(enum_ptr, sizeof(enum_ptr), "_services._dns-sd._udp.%s", domain);
839 flx_server_add_ptr(s, g, interface, protocol, FLX_ENTRY_NULL, enum_ptr, ptr_name);
842 void flx_server_add_service_va(
858 flx_server_add_service(s, g, interface, protocol, type, name, domain, host, port, flx_string_list_new_va(va));
861 void flx_server_add_service(
880 flx_server_add_service_va(s, g, interface, protocol, type, name, domain, host, port, va);
884 static void post_query_callback(flxInterfaceMonitor *m, flxInterface *i, gpointer userdata) {
885 flxKey *k = userdata;
891 flx_interface_post_query(i, k, FALSE);
894 void flx_server_post_query(flxServer *s, gint interface, guchar protocol, flxKey *key) {
898 flx_interface_monitor_walk(s->monitor, interface, protocol, post_query_callback, key);
903 gboolean flush_cache;
906 static void post_response_callback(flxInterfaceMonitor *m, flxInterface *i, gpointer userdata) {
907 struct tmpdata *tmpdata = userdata;
913 flx_interface_post_response(i, NULL, tmpdata->record, tmpdata->flush_cache, FALSE);
916 void flx_server_post_response(flxServer *s, gint interface, guchar protocol, flxRecord *record, gboolean flush_cache) {
917 struct tmpdata tmpdata;
922 tmpdata.record = record;
923 tmpdata.flush_cache = flush_cache;
925 flx_interface_monitor_walk(s->monitor, interface, protocol, post_response_callback, &tmpdata);
928 void flx_entry_group_change_state(flxEntryGroup *g, flxEntryGroupState state) {
934 g->callback(g->server, g, state, g->userdata);
939 flxEntryGroup *flx_entry_group_new(flxServer *s, flxEntryGroupCallback callback, gpointer userdata) {
944 g = g_new(flxEntryGroup, 1);
946 g->callback = callback;
947 g->userdata = userdata;
949 g->state = FLX_ENTRY_GROUP_UNCOMMITED;
951 FLX_LLIST_HEAD_INIT(flxEntry, g->entries);
953 FLX_LLIST_PREPEND(flxEntryGroup, groups, s->groups, g);
957 void flx_entry_group_free(flxEntryGroup *g) {
962 g->server->need_group_cleanup = TRUE;
965 void flx_entry_group_commit(flxEntryGroup *g) {
971 if (g->state != FLX_ENTRY_GROUP_UNCOMMITED)
974 flx_entry_group_change_state(g, FLX_ENTRY_GROUP_REGISTERING);
975 flx_announce_group(g->server, g);
976 flx_entry_group_check_probed(g, FALSE);
979 gboolean flx_entry_commited(flxEntry *e) {
984 e->group->state == FLX_ENTRY_GROUP_REGISTERING ||
985 e->group->state == FLX_ENTRY_GROUP_ESTABLISHED;
988 flxEntryGroupState flx_entry_group_get_state(flxEntryGroup *g) {