/*** This file is part of avahi. avahi is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. avahi is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with avahi; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. ***/ #ifdef HAVE_CONFIG_H #include #endif #include #include #include "avahi-common/avahi-malloc.h" #include "announce.h" #include "log.h" #include "rr-util.h" #define AVAHI_ANNOUNCEMENT_JITTER_MSEC 250 #define AVAHI_PROBE_JITTER_MSEC 250 #define AVAHI_PROBE_INTERVAL_MSEC 250 static void remove_announcer(AvahiServer *s, AvahiAnnouncer *a) { assert(s); assert(a); if (a->time_event) avahi_time_event_free(a->time_event); AVAHI_LLIST_REMOVE(AvahiAnnouncer, by_interface, a->interface->announcers, a); AVAHI_LLIST_REMOVE(AvahiAnnouncer, by_entry, a->entry->announcers, a); avahi_free(a); } static void elapse_announce(AvahiTimeEvent *e, void *userdata); static void set_timeout(AvahiAnnouncer *a, const struct timeval *tv) { assert(a); if (!tv) { if (a->time_event) { avahi_time_event_free(a->time_event); a->time_event = NULL; } } else { if (a->time_event) avahi_time_event_update(a->time_event, tv); else a->time_event = avahi_time_event_new(a->server->time_event_queue, tv, elapse_announce, a); } } static void next_state(AvahiAnnouncer *a); void avahi_s_entry_group_check_probed(AvahiSEntryGroup *g, int immediately) { AvahiEntry *e; assert(g); assert(!g->dead); /* Check whether all group members have been probed */ if (g->state != AVAHI_ENTRY_GROUP_REGISTERING || g->n_probing > 0) return; avahi_s_entry_group_change_state(g, AVAHI_ENTRY_GROUP_ESTABLISHED); if (g->dead) return; for (e = g->entries; e; e = e->by_group_next) { AvahiAnnouncer *a; for (a = e->announcers; a; a = a->by_entry_next) { if (a->state != AVAHI_WAITING) continue; a->state = AVAHI_ANNOUNCING; if (immediately) { /* Shortcut */ a->n_iteration = 1; next_state(a); } else { struct timeval tv; a->n_iteration = 0; avahi_elapse_time(&tv, 0, AVAHI_ANNOUNCEMENT_JITTER_MSEC); set_timeout(a, &tv); } } } } static void next_state(AvahiAnnouncer *a) { assert(a); if (a->state == AVAHI_WAITING) { assert(a->entry->group); avahi_s_entry_group_check_probed(a->entry->group, 1); } else if (a->state == AVAHI_PROBING) { if (a->n_iteration >= 4) { /* Probing done */ if (a->entry->group) { assert(a->entry->group->n_probing); a->entry->group->n_probing--; } if (a->entry->group && a->entry->group->state == AVAHI_ENTRY_GROUP_REGISTERING) a->state = AVAHI_WAITING; else { a->state = AVAHI_ANNOUNCING; a->n_iteration = 1; } set_timeout(a, NULL); next_state(a); } else { struct timeval tv; avahi_interface_post_probe(a->interface, a->entry->record, 0); avahi_elapse_time(&tv, AVAHI_PROBE_INTERVAL_MSEC, 0); set_timeout(a, &tv); a->n_iteration++; } } else if (a->state == AVAHI_ANNOUNCING) { if (a->entry->flags & AVAHI_PUBLISH_UNIQUE) /* Send the whole rrset at once */ avahi_server_prepare_matching_responses(a->server, a->interface, a->entry->record->key, 0); else avahi_server_prepare_response(a->server, a->interface, a->entry, 0, 0); avahi_server_generate_response(a->server, a->interface, NULL, NULL, 0, 0, 0); if (++a->n_iteration >= 4) { /* Announcing done */ a->state = AVAHI_ESTABLISHED; set_timeout(a, NULL); } else { struct timeval tv; avahi_elapse_time(&tv, a->sec_delay*1000, AVAHI_ANNOUNCEMENT_JITTER_MSEC); if (a->n_iteration < 10) a->sec_delay *= 2; set_timeout(a, &tv); } } } static void elapse_announce(AvahiTimeEvent *e, void *userdata) { assert(e); next_state(userdata); } static AvahiAnnouncer *get_announcer(AvahiServer *s, AvahiEntry *e, AvahiInterface *i) { AvahiAnnouncer *a; assert(s); assert(e); assert(i); for (a = e->announcers; a; a = a->by_entry_next) if (a->interface == i) return a; return NULL; } static void go_to_initial_state(AvahiAnnouncer *a) { AvahiEntry *e; struct timeval tv; assert(a); e = a->entry; if ((e->flags & AVAHI_PUBLISH_UNIQUE) && !(e->flags & AVAHI_PUBLISH_NO_PROBE)) a->state = AVAHI_PROBING; else if (!(e->flags & AVAHI_PUBLISH_NO_ANNOUNCE)) { if (!e->group || e->group->state == AVAHI_ENTRY_GROUP_ESTABLISHED) a->state = AVAHI_ANNOUNCING; else a->state = AVAHI_WAITING; } else a->state = AVAHI_ESTABLISHED; a->n_iteration = 1; a->sec_delay = 1; if (a->state == AVAHI_PROBING && e->group) e->group->n_probing++; if (a->state == AVAHI_PROBING) set_timeout(a, avahi_elapse_time(&tv, 0, AVAHI_PROBE_JITTER_MSEC)); else if (a->state == AVAHI_ANNOUNCING) set_timeout(a, avahi_elapse_time(&tv, 0, AVAHI_ANNOUNCEMENT_JITTER_MSEC)); else set_timeout(a, NULL); } static void new_announcer(AvahiServer *s, AvahiInterface *i, AvahiEntry *e) { AvahiAnnouncer *a; assert(s); assert(i); assert(e); assert(!e->dead); if (!avahi_interface_match(i, e->interface, e->protocol) || !i->announcing || !avahi_entry_is_commited(e)) return; /* We don't want duplicate announcers */ if (get_announcer(s, e, i)) return; if ((!(a = avahi_new(AvahiAnnouncer, 1)))) { avahi_log_error(__FILE__": Out of memory."); return; } a->server = s; a->interface = i; a->entry = e; a->time_event = NULL; AVAHI_LLIST_PREPEND(AvahiAnnouncer, by_interface, i->announcers, a); AVAHI_LLIST_PREPEND(AvahiAnnouncer, by_entry, e->announcers, a); go_to_initial_state(a); } void avahi_announce_interface(AvahiServer *s, AvahiInterface *i) { AvahiEntry *e; assert(s); assert(i); if (!i->announcing) return; for (e = s->entries; e; e = e->entries_next) if (!e->dead) new_announcer(s, i, e); } static void announce_walk_callback(AvahiInterfaceMonitor *m, AvahiInterface *i, void* userdata) { AvahiEntry *e = userdata; assert(m); assert(i); assert(e); assert(!e->dead); new_announcer(m->server, i, e); } void avahi_announce_entry(AvahiServer *s, AvahiEntry *e) { assert(s); assert(e); assert(!e->dead); avahi_interface_monitor_walk(s->monitor, e->interface, e->protocol, announce_walk_callback, e); } void avahi_announce_group(AvahiServer *s, AvahiSEntryGroup *g) { AvahiEntry *e; assert(s); assert(g); for (e = g->entries; e; e = e->by_group_next) if (!e->dead) avahi_announce_entry(s, e); } int avahi_entry_is_registered(AvahiServer *s, AvahiEntry *e, AvahiInterface *i) { AvahiAnnouncer *a; assert(s); assert(e); assert(i); assert(!e->dead); if (!(a = get_announcer(s, e, i))) return 0; return a->state == AVAHI_ANNOUNCING || a->state == AVAHI_ESTABLISHED || (a->state == AVAHI_WAITING && !(e->flags & AVAHI_PUBLISH_UNIQUE)); } int avahi_entry_is_probing(AvahiServer *s, AvahiEntry *e, AvahiInterface *i) { AvahiAnnouncer *a; assert(s); assert(e); assert(i); assert(!e->dead); if (!(a = get_announcer(s, e, i))) return 0; return a->state == AVAHI_PROBING || (a->state == AVAHI_WAITING && (e->flags & AVAHI_PUBLISH_UNIQUE)); } void avahi_entry_return_to_initial_state(AvahiServer *s, AvahiEntry *e, AvahiInterface *i) { AvahiAnnouncer *a; assert(s); assert(e); assert(i); if (!(a = get_announcer(s, e, i))) return; if (a->state == AVAHI_PROBING && a->entry->group) a->entry->group->n_probing--; go_to_initial_state(a); } static AvahiRecord *make_goodbye_record(AvahiRecord *r) { AvahiRecord *g; assert(r); if (!(g = avahi_record_copy(r))) return NULL; /* OOM */ assert(g->ref == 1); g->ttl = 0; return g; } static int is_duplicate_entry(AvahiServer *s, AvahiEntry *e) { AvahiEntry *i; assert(s); assert(e); for (i = avahi_hashmap_lookup(s->entries_by_key, e->record->key); i; i = i->by_key_next) { if ((i == e) || (i->dead)) continue; if (!avahi_record_equal_no_ttl(i->record, e->record)) continue; return 1; } return 0; } static void send_goodbye_callback(AvahiInterfaceMonitor *m, AvahiInterface *i, void* userdata) { AvahiEntry *e = userdata; AvahiRecord *g; assert(m); assert(i); assert(e); assert(!e->dead); if (!avahi_interface_match(i, e->interface, e->protocol)) return; if (e->flags & AVAHI_PUBLISH_NO_ANNOUNCE) return; if (!avahi_entry_is_registered(m->server, e, i)) return; if (is_duplicate_entry(m->server, e)) return; if (!(g = make_goodbye_record(e->record))) return; /* OOM */ avahi_interface_post_response(i, g, e->flags & AVAHI_PUBLISH_UNIQUE, NULL, 1); avahi_record_unref(g); } static void reannounce(AvahiAnnouncer *a) { AvahiEntry *e; struct timeval tv; assert(a); e = a->entry; /* If the group this entry belongs to is not even commited, there's nothing to reannounce */ if (e->group && (e->group->state == AVAHI_ENTRY_GROUP_UNCOMMITED || e->group->state == AVAHI_ENTRY_GROUP_COLLISION)) return; /* Because we might change state we decrease the probing counter first */ if (a->state == AVAHI_PROBING && a->entry->group) a->entry->group->n_probing--; if (a->state == AVAHI_PROBING || (a->state == AVAHI_WAITING && (e->flags & AVAHI_PUBLISH_UNIQUE) && !(e->flags & AVAHI_PUBLISH_NO_PROBE))) /* We were probing or waiting after probe, so we restart probing from the beginning here */ a->state = AVAHI_PROBING; else if (a->state == AVAHI_WAITING) /* We were waiting, but were not probing before, so we continue waiting */ a->state = AVAHI_WAITING; else if (e->flags & AVAHI_PUBLISH_NO_ANNOUNCE) /* No announcer needed */ a->state = AVAHI_ESTABLISHED; else { /* Ok, let's restart announcing */ a->state = AVAHI_ANNOUNCING; } /* Now let's increase the probing counter again */ if (a->state == AVAHI_PROBING && e->group) e->group->n_probing++; a->n_iteration = 1; a->sec_delay = 1; if (a->state == AVAHI_PROBING) set_timeout(a, avahi_elapse_time(&tv, 0, AVAHI_PROBE_JITTER_MSEC)); else if (a->state == AVAHI_ANNOUNCING) set_timeout(a, avahi_elapse_time(&tv, 0, AVAHI_ANNOUNCEMENT_JITTER_MSEC)); else set_timeout(a, NULL); } static void reannounce_walk_callback(AvahiInterfaceMonitor *m, AvahiInterface *i, void* userdata) { AvahiEntry *e = userdata; AvahiAnnouncer *a; assert(m); assert(i); assert(e); assert(!e->dead); if (!(a = get_announcer(m->server, e, i))) return; reannounce(a); } void avahi_reannounce_entry(AvahiServer *s, AvahiEntry *e) { assert(s); assert(e); assert(!e->dead); avahi_interface_monitor_walk(s->monitor, e->interface, e->protocol, reannounce_walk_callback, e); } void avahi_goodbye_interface(AvahiServer *s, AvahiInterface *i, int send_goodbye, int remove) { assert(s); assert(i); if (send_goodbye) if (i->announcing) { AvahiEntry *e; for (e = s->entries; e; e = e->entries_next) if (!e->dead) send_goodbye_callback(s->monitor, i, e); } if (remove) while (i->announcers) remove_announcer(s, i->announcers); } void avahi_goodbye_entry(AvahiServer *s, AvahiEntry *e, int send_goodbye, int remove) { assert(s); assert(e); if (send_goodbye) if (!e->dead) avahi_interface_monitor_walk(s->monitor, AVAHI_IF_UNSPEC, AVAHI_PROTO_UNSPEC, send_goodbye_callback, e); if (remove) while (e->announcers) remove_announcer(s, e->announcers); }