struct bond_entry {
struct bond_slave *slave; /* Assigned slave, NULL if unassigned. */
uint64_t tx_bytes; /* Count of bytes recently transmitted. */
- tag_type tag; /* Tag for entry<->slave association. */
+ tag_type tag; /* Tag for entry<->facet association. */
struct list list_node; /* In bond_slave's 'entries' list. */
};
struct list bal_node; /* In bond_rebalance()'s 'bals' list. */
struct list entries; /* 'struct bond_entry's assigned here. */
uint64_t tx_bytes; /* Sum across 'tx_bytes' of entries. */
-
- /* BM_STABLE specific bonding info. */
- uint32_t stb_id; /* ID used for 'stb_slaves' ordering. */
};
/* A bond, that is, a set of network devices grouped to improve performance or
long long int next_rebalance; /* Next rebalancing time. */
bool send_learning_packets;
- /* BM_STABLE specific bonding info. */
- tag_type stb_tag; /* Tag associated with this bond. */
-
/* Legacy compatibility. */
long long int next_fake_iface_update; /* LLONG_MAX if disabled. */
* where we can't otherwise provide revalidation feedback to the client.
* That's only unixctl commands now; I hope no other cases will arise. */
struct tag_set unixctl_tags;
+
+ int ref_cnt;
};
static struct hmap all_bonds = HMAP_INITIALIZER(&all_bonds);
static tag_type bond_get_active_slave_tag(const struct bond *);
static struct bond_slave *choose_output_slave(const struct bond *,
const struct flow *,
+ struct flow_wildcards *,
uint16_t vlan, tag_type *tags);
static void bond_update_fake_slave_stats(struct bond *);
*balance = BM_TCP;
} else if (!strcmp(s, bond_mode_to_string(BM_SLB))) {
*balance = BM_SLB;
- } else if (!strcmp(s, bond_mode_to_string(BM_STABLE))) {
- *balance = BM_STABLE;
} else if (!strcmp(s, bond_mode_to_string(BM_AB))) {
*balance = BM_AB;
} else {
return "balance-tcp";
case BM_SLB:
return "balance-slb";
- case BM_STABLE:
- return "stable";
case BM_AB:
return "active-backup";
}
bond = xzalloc(sizeof *bond);
hmap_init(&bond->slaves);
bond->no_slaves_tag = tag_create_random();
- bond->stb_tag = tag_create_random();
bond->next_fake_iface_update = LLONG_MAX;
+ bond->ref_cnt = 1;
bond_reconfigure(bond, s);
return bond;
}
+struct bond *
+bond_ref(const struct bond *bond_)
+{
+ struct bond *bond = CONST_CAST(struct bond *, bond_);
+
+ if (bond) {
+ ovs_assert(bond->ref_cnt > 0);
+ bond->ref_cnt++;
+ }
+ return bond;
+}
+
/* Frees 'bond'. */
void
-bond_destroy(struct bond *bond)
+bond_unref(struct bond *bond)
{
struct bond_slave *slave, *next_slave;
return;
}
+ ovs_assert(bond->ref_cnt > 0);
+ if (--bond->ref_cnt) {
+ return;
+ }
+
hmap_remove(&all_bonds, &bond->hmap_node);
HMAP_FOR_EACH_SAFE (slave, next_slave, hmap_node, &bond->slaves) {
if (bond->balance != s->balance) {
bond->balance = s->balance;
revalidate = true;
-
- if (bond->balance == BM_STABLE) {
- VLOG_WARN_ONCE("Stable bond mode is deprecated and may be removed"
- " in February 2013. Please email"
- " dev@openvswitch.org with concerns.");
- }
}
if (bond->basis != s->basis) {
* bond. If 'slave_' already exists within 'bond' then this function
* reconfigures the existing slave.
*
- * 'stb_id' is used in BM_STABLE bonds to guarantee consistent slave choices
- * across restarts and distributed vswitch instances. It should be unique per
- * slave, and preferably consistent across restarts and reconfigurations.
- *
* 'netdev' must be the network device that 'slave_' represents. It is owned
* by the client, so the client must not close it before either unregistering
* 'slave_' or destroying 'bond'.
*/
void
-bond_slave_register(struct bond *bond, void *slave_, uint32_t stb_id,
- struct netdev *netdev)
+bond_slave_register(struct bond *bond, void *slave_, struct netdev *netdev)
{
struct bond_slave *slave = bond_slave_lookup(bond, slave_);
bond_enable_slave(slave, netdev_get_carrier(netdev), NULL);
}
- if (slave->stb_id != stb_id) {
- slave->stb_id = stb_id;
- bond->bond_revalidate = true;
- }
-
bond_slave_set_netdev__(slave, netdev);
free(slave->name);
}
if (bond->bond_revalidate) {
- bond->bond_revalidate = false;
+ struct bond_slave *slave;
+ bond->bond_revalidate = false;
bond_entry_reset(bond);
- if (bond->balance != BM_STABLE) {
- struct bond_slave *slave;
-
- HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
- tag_set_add(tags, slave->tag);
- }
- } else {
- tag_set_add(tags, bond->stb_tag);
+ HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
+ tag_set_add(tags, slave->tag);
}
tag_set_add(tags, bond->no_slaves_tag);
}
tag_type tags = 0;
struct flow flow;
- assert(may_send_learning_packets(bond));
+ ovs_assert(may_send_learning_packets(bond));
memset(&flow, 0, sizeof flow);
memcpy(flow.dl_src, eth_src, ETH_ADDR_LEN);
- slave = choose_output_slave(bond, &flow, vlan, &tags);
+ slave = choose_output_slave(bond, &flow, NULL, vlan, &tags);
packet = ofpbuf_new(0);
compose_rarp(packet, eth_src);
{
struct bond_slave *slave = bond_slave_lookup(bond, slave_);
+ if (!slave) {
+ return BV_DROP;
+ }
+
/* LACP bonds have very loose admissibility restrictions because we can
* assume the remote switch is aware of the bond and will "do the right
* thing". However, as a precaution we drop packets on disabled slaves
/* Drop all multicast packets on inactive slaves. */
if (eth_addr_is_multicast(eth_dst)) {
*tags |= bond_get_active_slave_tag(bond);
- if (bond->active_slave != bond_slave_lookup(bond, slave_)) {
+ if (bond->active_slave != slave) {
return BV_DROP;
}
}
* exception is if we locked the learning table to avoid reflections on
* bond slaves. */
return BV_DROP_IF_MOVED;
-
- case BM_STABLE:
- return BV_ACCEPT;
}
NOT_REACHED();
* packet belongs to (so for an access port it will be the access port's VLAN).
*
* Adds a tag to '*tags' that associates the flow with the returned slave.
+ *
+ * If 'wc' is non-NULL, bitwise-OR's 'wc' with the set of bits that were
+ * significant in the selection. At some point earlier, 'wc' should
+ * have been initialized (e.g., by flow_wildcards_init_catchall()).
*/
void *
bond_choose_output_slave(struct bond *bond, const struct flow *flow,
- uint16_t vlan, tag_type *tags)
+ struct flow_wildcards *wc, uint16_t vlan,
+ tag_type *tags)
{
- struct bond_slave *slave = choose_output_slave(bond, flow, vlan, tags);
+ struct bond_slave *slave = choose_output_slave(bond, flow, wc, vlan, tags);
if (slave) {
- *tags |= bond->balance == BM_STABLE ? bond->stb_tag : slave->tag;
+ *tags |= slave->tag;
return slave->aux;
} else {
*tags |= bond->no_slaves_tag;
static void
bond_enable_slave(struct bond_slave *slave, bool enable, struct tag_set *tags)
{
- struct bond *bond = slave->bond;
slave->delay_expires = LLONG_MAX;
if (enable != slave->enabled) {
slave->enabled = enable;
if (!slave->enabled) {
- VLOG_WARN("interface %s: disabled", slave->name);
+ VLOG_INFO("interface %s: disabled", slave->name);
if (tags) {
tag_set_add(tags, slave->tag);
}
} else {
- VLOG_WARN("interface %s: enabled", slave->name);
+ VLOG_INFO("interface %s: enabled", slave->name);
slave->tag = tag_create_random();
}
-
- if (bond->balance == BM_STABLE) {
- bond->bond_revalidate = true;
- }
}
}
static unsigned int
bond_hash(const struct bond *bond, const struct flow *flow, uint16_t vlan)
{
- assert(bond->balance == BM_TCP || bond->balance == BM_SLB);
+ ovs_assert(bond->balance == BM_TCP || bond->balance == BM_SLB);
return (bond->balance == BM_TCP
? bond_hash_tcp(flow, vlan, bond->basis)
return &bond->hash[bond_hash(bond, flow, vlan) & BOND_MASK];
}
-/* This function uses Highest Random Weight hashing to choose an output slave.
- * This approach only reassigns a minimal number of flows when slaves are
- * enabled or disabled. Unfortunately, it has O(n) performance against the
- * number of slaves. There exist algorithms which are O(1), but have slightly
- * more complex implementations and require the use of memory. This may need
- * to be reimplemented if it becomes a performance bottleneck. */
-static struct bond_slave *
-choose_stb_slave(const struct bond *bond, uint32_t flow_hash)
-{
- struct bond_slave *best, *slave;
- uint32_t best_hash;
-
- best = NULL;
- best_hash = 0;
- HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
- if (slave->enabled) {
- uint32_t hash;
-
- hash = hash_2words(flow_hash, slave->stb_id);
- if (!best || hash > best_hash) {
- best = slave;
- best_hash = hash;
- }
- }
- }
-
- return best;
-}
-
static struct bond_slave *
choose_output_slave(const struct bond *bond, const struct flow *flow,
- uint16_t vlan, tag_type *tags)
+ struct flow_wildcards *wc, uint16_t vlan, tag_type *tags)
{
struct bond_entry *e;
case BM_AB:
return bond->active_slave;
- case BM_STABLE:
- return choose_stb_slave(bond, bond_hash_tcp(flow, vlan, bond->basis));
-
case BM_TCP:
if (bond->lacp_status != LACP_NEGOTIATED) {
/* Must have LACP negotiations for TCP balanced bonds. */
return NULL;
}
+ if (wc) {
+ flow_mask_hash_fields(flow, wc, NX_HASH_FIELDS_SYMMETRIC_L4);
+ }
/* Fall Through. */
case BM_SLB:
- if (!bond_is_balanced(bond)) {
- return choose_stb_slave(bond, bond_hash(bond, flow, vlan));
+ if (wc) {
+ flow_mask_hash_fields(flow, wc, NX_HASH_FIELDS_ETH_SRC);
}
e = lookup_bond_entry(bond, flow, vlan);
if (!e->slave || !e->slave->enabled) {
bond->send_learning_packets = true;
} else if (old_active_slave) {
- VLOG_WARN_RL(&rl, "bond %s: all interfaces disabled", bond->name);
+ VLOG_INFO_RL(&rl, "bond %s: all interfaces disabled", bond->name);
}
}