ml->flood_vlans = NULL;
ml->idle_time = normalize_idle_time(idle_time);
ml->max_entries = MAC_DEFAULT_MAX;
+ tag_set_init(&ml->tags);
+ ml->ref_cnt = 1;
return ml;
}
-/* Destroys MAC learning table 'ml'. */
-void
-mac_learning_destroy(struct mac_learning *ml)
+struct mac_learning *
+mac_learning_ref(const struct mac_learning *ml_)
{
+ struct mac_learning *ml = CONST_CAST(struct mac_learning *, ml_);
if (ml) {
+ ovs_assert(ml->ref_cnt > 0);
+ ml->ref_cnt++;
+ }
+ return ml;
+}
+
+/* Unreferences (and possibly destroys) MAC learning table 'ml'. */
+void
+mac_learning_unref(struct mac_learning *ml)
+{
+ if (!ml) {
+ return;
+ }
+
+ ovs_assert(ml->ref_cnt > 0);
+ if (!--ml->ref_cnt) {
struct mac_entry *e, *next;
HMAP_FOR_EACH_SAFE (e, next, hmap_node, &ml->table) {
return e;
}
-/* Changes 'e''s tag to a new, randomly selected one, and returns the tag that
- * would have been previously used for this entry's MAC and VLAN (either before
- * 'e' was inserted, if it is new, or otherwise before its port was updated.)
+/* Changes 'e''s tag to a new, randomly selected one. Causes
+ * mac_learning_run() to flag for revalidation the tag that would have been
+ * previously used for this entry's MAC and VLAN (either before 'e' was
+ * inserted, if it is new, or otherwise before its port was updated.)
*
* The client should call this function after obtaining a MAC learning entry
* from mac_learning_insert(), if the entry is either new or if its learned
* port has changed. */
-tag_type
+void
mac_learning_changed(struct mac_learning *ml, struct mac_entry *e)
{
- tag_type old_tag = e->tag;
+ tag_type tag = e->tag ? e->tag : make_unknown_mac_tag(ml, e->mac, e->vlan);
COVERAGE_INC(mac_learning_learned);
e->tag = tag_create_random();
- return old_tag ? old_tag : make_unknown_mac_tag(ml, e->mac, e->vlan);
+ tag_set_add(&ml->tags, tag);
}
/* Looks up MAC 'dst' for VLAN 'vlan' in 'ml' and returns the associated MAC
mac_learning_run(struct mac_learning *ml, struct tag_set *set)
{
struct mac_entry *e;
+
+ if (set) {
+ tag_set_union(set, &ml->tags);
+ }
+ tag_set_init(&ml->tags);
+
while (get_lru(ml, &e)
&& (hmap_count(&ml->table) > ml->max_entries
|| time_now() >= e->expires)) {
void
mac_learning_wait(struct mac_learning *ml)
{
- if (hmap_count(&ml->table) > ml->max_entries) {
+ if (hmap_count(&ml->table) > ml->max_entries
+ || !tag_set_is_empty(&ml->tags)) {
poll_immediate_wake();
} else if (!list_is_empty(&ml->lrus)) {
struct mac_entry *e = mac_entry_from_lru_node(ml->lrus.next);