/* * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014 Nicira, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "mac-learning.h" #include #include #include "bitmap.h" #include "coverage.h" #include "hash.h" #include "list.h" #include "poll-loop.h" #include "timeval.h" #include "unaligned.h" #include "util.h" #include "vlan-bitmap.h" COVERAGE_DEFINE(mac_learning_learned); COVERAGE_DEFINE(mac_learning_expired); /* Returns the number of seconds since 'e' (within 'ml') was last learned. */ int mac_entry_age(const struct mac_learning *ml, const struct mac_entry *e) { time_t remaining = e->expires - time_now(); return ml->idle_time - remaining; } static uint32_t mac_table_hash(const struct mac_learning *ml, const uint8_t mac[ETH_ADDR_LEN], uint16_t vlan) { return hash_mac(mac, vlan, ml->secret); } static struct mac_entry * mac_entry_from_lru_node(struct list *list) { return CONTAINER_OF(list, struct mac_entry, lru_node); } static struct mac_entry * mac_entry_lookup(const struct mac_learning *ml, const uint8_t mac[ETH_ADDR_LEN], uint16_t vlan) { struct mac_entry *e; HMAP_FOR_EACH_WITH_HASH (e, hmap_node, mac_table_hash(ml, mac, vlan), &ml->table) { if (e->vlan == vlan && eth_addr_equals(e->mac, mac)) { return e; } } return NULL; } /* If the LRU list is not empty, stores the least-recently-used entry in '*e' * and returns true. Otherwise, if the LRU list is empty, stores NULL in '*e' * and return false. */ static bool get_lru(struct mac_learning *ml, struct mac_entry **e) OVS_REQ_RDLOCK(ml->rwlock) { if (!list_is_empty(&ml->lrus)) { *e = mac_entry_from_lru_node(ml->lrus.next); return true; } else { *e = NULL; return false; } } static unsigned int normalize_idle_time(unsigned int idle_time) { return (idle_time < 15 ? 15 : idle_time > 3600 ? 3600 : idle_time); } /* Creates and returns a new MAC learning table with an initial MAC aging * timeout of 'idle_time' seconds and an initial maximum of MAC_DEFAULT_MAX * entries. */ struct mac_learning * mac_learning_create(unsigned int idle_time) { struct mac_learning *ml; ml = xmalloc(sizeof *ml); list_init(&ml->lrus); hmap_init(&ml->table); ml->secret = random_uint32(); ml->flood_vlans = NULL; ml->idle_time = normalize_idle_time(idle_time); ml->max_entries = MAC_DEFAULT_MAX; ml->need_revalidate = false; ovs_refcount_init(&ml->ref_cnt); ovs_rwlock_init(&ml->rwlock); return 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_refcount_ref(&ml->ref_cnt); } return ml; } /* Unreferences (and possibly destroys) MAC learning table 'ml'. */ void mac_learning_unref(struct mac_learning *ml) { if (ml && ovs_refcount_unref(&ml->ref_cnt) == 1) { struct mac_entry *e, *next; HMAP_FOR_EACH_SAFE (e, next, hmap_node, &ml->table) { hmap_remove(&ml->table, &e->hmap_node); free(e); } hmap_destroy(&ml->table); bitmap_free(ml->flood_vlans); ovs_rwlock_destroy(&ml->rwlock); free(ml); } } /* Provides a bitmap of VLANs which have learning disabled, that is, VLANs on * which all packets are flooded. Returns true if the set has changed from the * previous value. */ bool mac_learning_set_flood_vlans(struct mac_learning *ml, const unsigned long *bitmap) { if (vlan_bitmap_equal(ml->flood_vlans, bitmap)) { return false; } else { bitmap_free(ml->flood_vlans); ml->flood_vlans = vlan_bitmap_clone(bitmap); return true; } } /* Changes the MAC aging timeout of 'ml' to 'idle_time' seconds. */ void mac_learning_set_idle_time(struct mac_learning *ml, unsigned int idle_time) { idle_time = normalize_idle_time(idle_time); if (idle_time != ml->idle_time) { struct mac_entry *e; int delta; delta = (int) idle_time - (int) ml->idle_time; LIST_FOR_EACH (e, lru_node, &ml->lrus) { e->expires += delta; } ml->idle_time = idle_time; } } /* Sets the maximum number of entries in 'ml' to 'max_entries', adjusting it * to be within a reasonable range. */ void mac_learning_set_max_entries(struct mac_learning *ml, size_t max_entries) { ml->max_entries = (max_entries < 10 ? 10 : max_entries > 1000 * 1000 ? 1000 * 1000 : max_entries); } static bool is_learning_vlan(const struct mac_learning *ml, uint16_t vlan) { return !ml->flood_vlans || !bitmap_is_set(ml->flood_vlans, vlan); } /* Returns true if 'src_mac' may be learned on 'vlan' for 'ml'. * Returns false if 'ml' is NULL, if src_mac is not valid for learning, or if * 'vlan' is configured on 'ml' to flood all packets. */ bool mac_learning_may_learn(const struct mac_learning *ml, const uint8_t src_mac[ETH_ADDR_LEN], uint16_t vlan) { return ml && is_learning_vlan(ml, vlan) && !eth_addr_is_multicast(src_mac); } /* Searches 'ml' for and returns a MAC learning entry for 'src_mac' in 'vlan', * inserting a new entry if necessary. The caller must have already verified, * by calling mac_learning_may_learn(), that 'src_mac' and 'vlan' are * learnable. * * If the returned MAC entry is new (as may be determined by calling * mac_entry_is_new()), then the caller must pass the new entry to * mac_learning_changed(). The caller must also initialize the new entry's * 'port' member. Otherwise calling those functions is at the caller's * discretion. */ struct mac_entry * mac_learning_insert(struct mac_learning *ml, const uint8_t src_mac[ETH_ADDR_LEN], uint16_t vlan) { struct mac_entry *e; e = mac_entry_lookup(ml, src_mac, vlan); if (!e) { uint32_t hash = mac_table_hash(ml, src_mac, vlan); if (hmap_count(&ml->table) >= ml->max_entries) { get_lru(ml, &e); mac_learning_expire(ml, e); } e = xmalloc(sizeof *e); hmap_insert(&ml->table, &e->hmap_node, hash); memcpy(e->mac, src_mac, ETH_ADDR_LEN); e->vlan = vlan; e->grat_arp_lock = TIME_MIN; e->port.p = NULL; } else { list_remove(&e->lru_node); } /* Mark 'e' as recently used. */ list_push_back(&ml->lrus, &e->lru_node); e->expires = time_now() + ml->idle_time; return e; } /* 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. */ void mac_learning_changed(struct mac_learning *ml) { COVERAGE_INC(mac_learning_learned); ml->need_revalidate = true; } /* Looks up MAC 'dst' for VLAN 'vlan' in 'ml' and returns the associated MAC * learning entry, if any. If 'tag' is nonnull, then the tag that associates * 'dst' and 'vlan' with its currently learned port will be OR'd into * '*tag'. */ struct mac_entry * mac_learning_lookup(const struct mac_learning *ml, const uint8_t dst[ETH_ADDR_LEN], uint16_t vlan) { if (eth_addr_is_multicast(dst)) { /* No tag because the treatment of multicast destinations never * changes. */ return NULL; } else if (!is_learning_vlan(ml, vlan)) { /* We don't tag this property. The set of learning VLANs changes so * rarely that we revalidate every flow when it changes. */ return NULL; } else { struct mac_entry *e = mac_entry_lookup(ml, dst, vlan); ovs_assert(e == NULL || e->port.p != NULL); return e; } } /* Expires 'e' from the 'ml' hash table. */ void mac_learning_expire(struct mac_learning *ml, struct mac_entry *e) { hmap_remove(&ml->table, &e->hmap_node); list_remove(&e->lru_node); free(e); } /* Expires all the mac-learning entries in 'ml'. If not NULL, the tags in 'ml' * are added to 'tags'. Otherwise the tags in 'ml' are discarded. The client * is responsible for revalidating any flows that depend on 'ml', if * necessary. */ void mac_learning_flush(struct mac_learning *ml) { struct mac_entry *e; while (get_lru(ml, &e)){ ml->need_revalidate = true; mac_learning_expire(ml, e); } hmap_shrink(&ml->table); } /* Does periodic work required by 'ml'. Returns true if something changed that * may require flow revalidation. */ bool mac_learning_run(struct mac_learning *ml) { bool need_revalidate; struct mac_entry *e; while (get_lru(ml, &e) && (hmap_count(&ml->table) > ml->max_entries || time_now() >= e->expires)) { COVERAGE_INC(mac_learning_expired); ml->need_revalidate = true; mac_learning_expire(ml, e); } need_revalidate = ml->need_revalidate; ml->need_revalidate = false; return need_revalidate; } void mac_learning_wait(struct mac_learning *ml) { if (hmap_count(&ml->table) > ml->max_entries || ml->need_revalidate) { poll_immediate_wake(); } else if (!list_is_empty(&ml->lrus)) { struct mac_entry *e = mac_entry_from_lru_node(ml->lrus.next); poll_timer_wait_until(e->expires * 1000LL); } }