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|
/*
* Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015 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 <config.h>
#include "bond.h"
#include <limits.h>
#include <stdint.h>
#include <stdlib.h>
#include <math.h>
#include "ofp-util.h"
#include "ofp-actions.h"
#include "ofpbuf.h"
#include "ofproto/ofproto-provider.h"
#include "ofproto/ofproto-dpif.h"
#include "ofproto/ofproto-dpif-rid.h"
#include "connectivity.h"
#include "coverage.h"
#include "dynamic-string.h"
#include "flow.h"
#include "hmap.h"
#include "lacp.h"
#include "list.h"
#include "netdev.h"
#include "odp-util.h"
#include "ofpbuf.h"
#include "packets.h"
#include "dp-packet.h"
#include "poll-loop.h"
#include "seq.h"
#include "match.h"
#include "shash.h"
#include "timeval.h"
#include "unixctl.h"
#include "openvswitch/vlog.h"
VLOG_DEFINE_THIS_MODULE(bond);
static struct ovs_rwlock rwlock = OVS_RWLOCK_INITIALIZER;
static struct hmap all_bonds__ = HMAP_INITIALIZER(&all_bonds__);
static struct hmap *const all_bonds OVS_GUARDED_BY(rwlock) = &all_bonds__;
/* Bit-mask for hashing a flow down to a bucket. */
#define BOND_MASK 0xff
#define BOND_BUCKETS (BOND_MASK + 1)
/* A hash bucket for mapping a flow to a slave.
* "struct bond" has an array of BOND_BUCKETS of these. */
struct bond_entry {
struct bond_slave *slave; /* Assigned slave, NULL if unassigned. */
uint64_t tx_bytes /* Count of bytes recently transmitted. */
OVS_GUARDED_BY(rwlock);
struct ovs_list list_node; /* In bond_slave's 'entries' list. */
/* Recirculation.
*
* 'pr_rule' is the post-recirculation rule for this entry.
* 'pr_tx_bytes' is the most recently seen statistics for 'pr_rule', which
* is used to determine delta (applied to 'tx_bytes' above.) */
struct rule *pr_rule;
uint64_t pr_tx_bytes OVS_GUARDED_BY(rwlock);
};
/* A bond slave, that is, one of the links comprising a bond. */
struct bond_slave {
struct hmap_node hmap_node; /* In struct bond's slaves hmap. */
struct ovs_list list_node; /* In struct bond's enabled_slaves list. */
struct bond *bond; /* The bond that contains this slave. */
void *aux; /* Client-provided handle for this slave. */
struct netdev *netdev; /* Network device, owned by the client. */
uint64_t change_seq; /* Tracks changes in 'netdev'. */
ofp_port_t ofp_port; /* OpenFlow port number. */
char *name; /* Name (a copy of netdev_get_name(netdev)). */
/* Link status. */
long long delay_expires; /* Time after which 'enabled' may change. */
bool enabled; /* May be chosen for flows? */
bool may_enable; /* Client considers this slave bondable. */
/* Rebalancing info. Used only by bond_rebalance(). */
struct ovs_list bal_node; /* In bond_rebalance()'s 'bals' list. */
struct ovs_list entries; /* 'struct bond_entry's assigned here. */
uint64_t tx_bytes; /* Sum across 'tx_bytes' of entries. */
};
/* A bond, that is, a set of network devices grouped to improve performance or
* robustness. */
struct bond {
struct hmap_node hmap_node; /* In 'all_bonds' hmap. */
char *name; /* Name provided by client. */
struct ofproto_dpif *ofproto; /* The bridge this bond belongs to. */
/* Slaves. */
struct hmap slaves;
/* Enabled slaves.
*
* Any reader or writer of 'enabled_slaves' must hold 'mutex'.
* (To prevent the bond_slave from disappearing they must also hold
* 'rwlock'.) */
struct ovs_mutex mutex OVS_ACQ_AFTER(rwlock);
struct ovs_list enabled_slaves OVS_GUARDED; /* Contains struct bond_slaves. */
/* Bonding info. */
enum bond_mode balance; /* Balancing mode, one of BM_*. */
struct bond_slave *active_slave;
int updelay, downdelay; /* Delay before slave goes up/down, in ms. */
enum lacp_status lacp_status; /* Status of LACP negotiations. */
bool bond_revalidate; /* True if flows need revalidation. */
uint32_t basis; /* Basis for flow hash function. */
/* SLB specific bonding info. */
struct bond_entry *hash; /* An array of BOND_BUCKETS elements. */
int rebalance_interval; /* Interval between rebalances, in ms. */
long long int next_rebalance; /* Next rebalancing time. */
bool send_learning_packets;
uint32_t recirc_id; /* Non zero if recirculation can be used.*/
struct hmap pr_rule_ops; /* Helps to maintain post recirculation rules.*/
/* Store active slave to OVSDB. */
bool active_slave_changed; /* Set to true whenever the bond changes
active slave. It will be reset to false
after it is stored into OVSDB */
/* Interface name may not be persistent across an OS reboot, use
* MAC address for identifing the active slave */
struct eth_addr active_slave_mac;
/* The MAC address of the active interface. */
/* Legacy compatibility. */
bool lacp_fallback_ab; /* Fallback to active-backup on LACP failure. */
struct ovs_refcount ref_cnt;
};
/* What to do with an bond_recirc_rule. */
enum bond_op {
ADD, /* Add the rule to ofproto's flow table. */
DEL, /* Delete the rule from the ofproto's flow table. */
};
/* A rule to add to or delete from ofproto's internal flow table. */
struct bond_pr_rule_op {
struct hmap_node hmap_node;
struct match match;
ofp_port_t out_ofport;
enum bond_op op;
struct rule **pr_rule;
};
static void bond_entry_reset(struct bond *) OVS_REQ_WRLOCK(rwlock);
static struct bond_slave *bond_slave_lookup(struct bond *, const void *slave_)
OVS_REQ_RDLOCK(rwlock);
static void bond_enable_slave(struct bond_slave *, bool enable)
OVS_REQ_WRLOCK(rwlock);
static void bond_link_status_update(struct bond_slave *)
OVS_REQ_WRLOCK(rwlock);
static void bond_choose_active_slave(struct bond *)
OVS_REQ_WRLOCK(rwlock);
static unsigned int bond_hash_src(const struct eth_addr mac,
uint16_t vlan, uint32_t basis);
static unsigned int bond_hash_tcp(const struct flow *, uint16_t vlan,
uint32_t basis);
static struct bond_entry *lookup_bond_entry(const struct bond *,
const struct flow *,
uint16_t vlan)
OVS_REQ_RDLOCK(rwlock);
static struct bond_slave *get_enabled_slave(struct bond *)
OVS_REQ_RDLOCK(rwlock);
static struct bond_slave *choose_output_slave(const struct bond *,
const struct flow *,
struct flow_wildcards *,
uint16_t vlan)
OVS_REQ_RDLOCK(rwlock);
/* Attempts to parse 's' as the name of a bond balancing mode. If successful,
* stores the mode in '*balance' and returns true. Otherwise returns false
* without modifying '*balance'. */
bool
bond_mode_from_string(enum bond_mode *balance, const char *s)
{
if (!strcmp(s, bond_mode_to_string(BM_TCP))) {
*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_AB))) {
*balance = BM_AB;
} else {
return false;
}
return true;
}
/* Returns a string representing 'balance'. */
const char *
bond_mode_to_string(enum bond_mode balance) {
switch (balance) {
case BM_TCP:
return "balance-tcp";
case BM_SLB:
return "balance-slb";
case BM_AB:
return "active-backup";
}
OVS_NOT_REACHED();
}
/* Creates and returns a new bond whose configuration is initially taken from
* 's'.
*
* The caller should register each slave on the new bond by calling
* bond_slave_register(). */
struct bond *
bond_create(const struct bond_settings *s, struct ofproto_dpif *ofproto)
{
struct bond *bond;
bond = xzalloc(sizeof *bond);
bond->ofproto = ofproto;
hmap_init(&bond->slaves);
list_init(&bond->enabled_slaves);
ovs_mutex_init(&bond->mutex);
ovs_refcount_init(&bond->ref_cnt);
bond->recirc_id = 0;
hmap_init(&bond->pr_rule_ops);
bond->active_slave_mac = eth_addr_zero;
bond->active_slave_changed = false;
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_refcount_ref(&bond->ref_cnt);
}
return bond;
}
/* Frees 'bond'. */
void
bond_unref(struct bond *bond)
{
struct bond_slave *slave, *next_slave;
struct bond_pr_rule_op *pr_op, *next_op;
if (!bond || ovs_refcount_unref_relaxed(&bond->ref_cnt) != 1) {
return;
}
ovs_rwlock_wrlock(&rwlock);
hmap_remove(all_bonds, &bond->hmap_node);
ovs_rwlock_unlock(&rwlock);
HMAP_FOR_EACH_SAFE (slave, next_slave, hmap_node, &bond->slaves) {
hmap_remove(&bond->slaves, &slave->hmap_node);
/* Client owns 'slave->netdev'. */
free(slave->name);
free(slave);
}
hmap_destroy(&bond->slaves);
ovs_mutex_destroy(&bond->mutex);
free(bond->hash);
free(bond->name);
HMAP_FOR_EACH_SAFE(pr_op, next_op, hmap_node, &bond->pr_rule_ops) {
hmap_remove(&bond->pr_rule_ops, &pr_op->hmap_node);
free(pr_op);
}
hmap_destroy(&bond->pr_rule_ops);
if (bond->recirc_id) {
recirc_free_id(bond->recirc_id);
}
free(bond);
}
static void
add_pr_rule(struct bond *bond, const struct match *match,
ofp_port_t out_ofport, struct rule **rule)
{
uint32_t hash = match_hash(match, 0);
struct bond_pr_rule_op *pr_op;
HMAP_FOR_EACH_WITH_HASH(pr_op, hmap_node, hash, &bond->pr_rule_ops) {
if (match_equal(&pr_op->match, match)) {
pr_op->op = ADD;
pr_op->out_ofport = out_ofport;
pr_op->pr_rule = rule;
return;
}
}
pr_op = xmalloc(sizeof *pr_op);
pr_op->match = *match;
pr_op->op = ADD;
pr_op->out_ofport = out_ofport;
pr_op->pr_rule = rule;
hmap_insert(&bond->pr_rule_ops, &pr_op->hmap_node, hash);
}
static void
update_recirc_rules(struct bond *bond)
OVS_REQ_WRLOCK(rwlock)
{
struct match match;
struct bond_pr_rule_op *pr_op, *next_op;
uint64_t ofpacts_stub[128 / 8];
struct ofpbuf ofpacts;
int i;
ofpbuf_use_stub(&ofpacts, ofpacts_stub, sizeof ofpacts_stub);
HMAP_FOR_EACH(pr_op, hmap_node, &bond->pr_rule_ops) {
pr_op->op = DEL;
}
if (bond->hash && bond->recirc_id) {
for (i = 0; i < BOND_BUCKETS; i++) {
struct bond_slave *slave = bond->hash[i].slave;
if (slave) {
match_init_catchall(&match);
match_set_recirc_id(&match, bond->recirc_id);
match_set_dp_hash_masked(&match, i, BOND_MASK);
add_pr_rule(bond, &match, slave->ofp_port,
&bond->hash[i].pr_rule);
}
}
}
HMAP_FOR_EACH_SAFE(pr_op, next_op, hmap_node, &bond->pr_rule_ops) {
int error;
switch (pr_op->op) {
case ADD:
ofpbuf_clear(&ofpacts);
ofpact_put_OUTPUT(&ofpacts)->port = pr_op->out_ofport;
error = ofproto_dpif_add_internal_flow(bond->ofproto,
&pr_op->match,
RECIRC_RULE_PRIORITY, 0,
&ofpacts, pr_op->pr_rule);
if (error) {
char *err_s = match_to_string(&pr_op->match,
RECIRC_RULE_PRIORITY);
VLOG_ERR("failed to add post recirculation flow %s", err_s);
free(err_s);
}
break;
case DEL:
error = ofproto_dpif_delete_internal_flow(bond->ofproto,
&pr_op->match,
RECIRC_RULE_PRIORITY);
if (error) {
char *err_s = match_to_string(&pr_op->match,
RECIRC_RULE_PRIORITY);
VLOG_ERR("failed to remove post recirculation flow %s", err_s);
free(err_s);
}
hmap_remove(&bond->pr_rule_ops, &pr_op->hmap_node);
*pr_op->pr_rule = NULL;
free(pr_op);
break;
}
}
ofpbuf_uninit(&ofpacts);
}
/* Updates 'bond''s overall configuration to 's'.
*
* The caller should register each slave on 'bond' by calling
* bond_slave_register(). This is optional if none of the slaves'
* configuration has changed. In any case it can't hurt.
*
* Returns true if the configuration has changed in such a way that requires
* flow revalidation.
* */
bool
bond_reconfigure(struct bond *bond, const struct bond_settings *s)
{
bool revalidate = false;
ovs_rwlock_wrlock(&rwlock);
if (!bond->name || strcmp(bond->name, s->name)) {
if (bond->name) {
hmap_remove(all_bonds, &bond->hmap_node);
free(bond->name);
}
bond->name = xstrdup(s->name);
hmap_insert(all_bonds, &bond->hmap_node, hash_string(bond->name, 0));
}
bond->updelay = s->up_delay;
bond->downdelay = s->down_delay;
if (bond->lacp_fallback_ab != s->lacp_fallback_ab_cfg) {
bond->lacp_fallback_ab = s->lacp_fallback_ab_cfg;
revalidate = true;
}
if (bond->rebalance_interval != s->rebalance_interval) {
bond->rebalance_interval = s->rebalance_interval;
revalidate = true;
}
if (bond->balance != s->balance) {
bond->balance = s->balance;
revalidate = true;
}
if (bond->basis != s->basis) {
bond->basis = s->basis;
revalidate = true;
}
if (bond->bond_revalidate) {
revalidate = true;
bond->bond_revalidate = false;
}
if (bond->balance != BM_AB) {
if (!bond->recirc_id) {
bond->recirc_id = recirc_alloc_id(bond->ofproto);
}
} else if (bond->recirc_id) {
recirc_free_id(bond->recirc_id);
bond->recirc_id = 0;
}
if (bond->balance == BM_AB || !bond->hash || revalidate) {
bond_entry_reset(bond);
}
ovs_rwlock_unlock(&rwlock);
return revalidate;
}
static struct bond_slave *
bond_find_slave_by_mac(const struct bond *bond, const struct eth_addr mac)
{
struct bond_slave *slave;
/* Find the last active slave */
HMAP_FOR_EACH(slave, hmap_node, &bond->slaves) {
struct eth_addr slave_mac;
if (netdev_get_etheraddr(slave->netdev, &slave_mac)) {
continue;
}
if (eth_addr_equals(slave_mac, mac)) {
return slave;
}
}
return NULL;
}
static void
bond_active_slave_changed(struct bond *bond)
{
struct eth_addr mac;
netdev_get_etheraddr(bond->active_slave->netdev, &mac);
bond->active_slave_mac = mac;
bond->active_slave_changed = true;
seq_change(connectivity_seq_get());
}
static void
bond_slave_set_netdev__(struct bond_slave *slave, struct netdev *netdev)
OVS_REQ_WRLOCK(rwlock)
{
if (slave->netdev != netdev) {
slave->netdev = netdev;
slave->change_seq = 0;
}
}
/* Registers 'slave_' as a slave of 'bond'. The 'slave_' pointer is an
* arbitrary client-provided pointer that uniquely identifies a slave within a
* bond. If 'slave_' already exists within 'bond' then this function
* reconfigures the existing slave.
*
* '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_,
ofp_port_t ofport, struct netdev *netdev)
{
struct bond_slave *slave;
ovs_rwlock_wrlock(&rwlock);
slave = bond_slave_lookup(bond, slave_);
if (!slave) {
slave = xzalloc(sizeof *slave);
hmap_insert(&bond->slaves, &slave->hmap_node, hash_pointer(slave_, 0));
slave->bond = bond;
slave->aux = slave_;
slave->ofp_port = ofport;
slave->delay_expires = LLONG_MAX;
slave->name = xstrdup(netdev_get_name(netdev));
bond->bond_revalidate = true;
slave->enabled = false;
bond_enable_slave(slave, netdev_get_carrier(netdev));
}
bond_slave_set_netdev__(slave, netdev);
free(slave->name);
slave->name = xstrdup(netdev_get_name(netdev));
ovs_rwlock_unlock(&rwlock);
}
/* Updates the network device to be used with 'slave_' to 'netdev'.
*
* This is useful if the caller closes and re-opens the network device
* registered with bond_slave_register() but doesn't need to change anything
* else. */
void
bond_slave_set_netdev(struct bond *bond, void *slave_, struct netdev *netdev)
{
struct bond_slave *slave;
ovs_rwlock_wrlock(&rwlock);
slave = bond_slave_lookup(bond, slave_);
if (slave) {
bond_slave_set_netdev__(slave, netdev);
}
ovs_rwlock_unlock(&rwlock);
}
/* Unregisters 'slave_' from 'bond'. If 'bond' does not contain such a slave
* then this function has no effect.
*
* Unregistering a slave invalidates all flows. */
void
bond_slave_unregister(struct bond *bond, const void *slave_)
{
struct bond_slave *slave;
bool del_active;
ovs_rwlock_wrlock(&rwlock);
slave = bond_slave_lookup(bond, slave_);
if (!slave) {
goto out;
}
bond->bond_revalidate = true;
bond_enable_slave(slave, false);
del_active = bond->active_slave == slave;
if (bond->hash) {
struct bond_entry *e;
for (e = bond->hash; e <= &bond->hash[BOND_MASK]; e++) {
if (e->slave == slave) {
e->slave = NULL;
}
}
}
free(slave->name);
hmap_remove(&bond->slaves, &slave->hmap_node);
/* Client owns 'slave->netdev'. */
free(slave);
if (del_active) {
bond_choose_active_slave(bond);
bond->send_learning_packets = true;
}
out:
ovs_rwlock_unlock(&rwlock);
}
/* Should be called on each slave in 'bond' before bond_run() to indicate
* whether or not 'slave_' may be enabled. This function is intended to allow
* other protocols to have some impact on bonding decisions. For example LACP
* or high level link monitoring protocols may decide that a given slave should
* not be able to send traffic. */
void
bond_slave_set_may_enable(struct bond *bond, void *slave_, bool may_enable)
{
ovs_rwlock_wrlock(&rwlock);
bond_slave_lookup(bond, slave_)->may_enable = may_enable;
ovs_rwlock_unlock(&rwlock);
}
/* Performs periodic maintenance on 'bond'.
*
* Returns true if the caller should revalidate its flows.
*
* The caller should check bond_should_send_learning_packets() afterward. */
bool
bond_run(struct bond *bond, enum lacp_status lacp_status)
{
struct bond_slave *slave;
bool revalidate;
ovs_rwlock_wrlock(&rwlock);
if (bond->lacp_status != lacp_status) {
bond->lacp_status = lacp_status;
bond->bond_revalidate = true;
}
/* Enable slaves based on link status and LACP feedback. */
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
bond_link_status_update(slave);
slave->change_seq = seq_read(connectivity_seq_get());
}
if (!bond->active_slave || !bond->active_slave->enabled) {
bond_choose_active_slave(bond);
}
revalidate = bond->bond_revalidate;
bond->bond_revalidate = false;
ovs_rwlock_unlock(&rwlock);
return revalidate;
}
/* Causes poll_block() to wake up when 'bond' needs something to be done. */
void
bond_wait(struct bond *bond)
{
struct bond_slave *slave;
ovs_rwlock_rdlock(&rwlock);
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
if (slave->delay_expires != LLONG_MAX) {
poll_timer_wait_until(slave->delay_expires);
}
seq_wait(connectivity_seq_get(), slave->change_seq);
}
if (bond->bond_revalidate) {
poll_immediate_wake();
}
ovs_rwlock_unlock(&rwlock);
/* We don't wait for bond->next_rebalance because rebalancing can only run
* at a flow account checkpoint. ofproto does checkpointing on its own
* schedule and bond_rebalance() gets called afterward, so we'd just be
* waking up for no purpose. */
}
/* MAC learning table interaction. */
static bool
may_send_learning_packets(const struct bond *bond)
{
return ((bond->lacp_status == LACP_DISABLED
&& (bond->balance == BM_SLB || bond->balance == BM_AB))
|| (bond->lacp_fallback_ab && bond->lacp_status == LACP_CONFIGURED))
&& bond->active_slave;
}
/* Returns true if 'bond' needs the client to send out packets to assist with
* MAC learning on 'bond'. If this function returns true, then the client
* should iterate through its MAC learning table for the bridge on which 'bond'
* is located. For each MAC that has been learned on a port other than 'bond',
* it should call bond_compose_learning_packet().
*
* This function will only return true if 'bond' is in SLB or active-backup
* mode and LACP is not negotiated. Otherwise sending learning packets isn't
* necessary.
*
* Calling this function resets the state that it checks. */
bool
bond_should_send_learning_packets(struct bond *bond)
{
bool send;
ovs_rwlock_wrlock(&rwlock);
send = bond->send_learning_packets && may_send_learning_packets(bond);
bond->send_learning_packets = false;
ovs_rwlock_unlock(&rwlock);
return send;
}
/* Sends a gratuitous learning packet on 'bond' from 'eth_src' on 'vlan'.
*
* See bond_should_send_learning_packets() for description of usage. The
* caller should send the composed packet on the port associated with
* port_aux and takes ownership of the returned ofpbuf. */
struct dp_packet *
bond_compose_learning_packet(struct bond *bond, const struct eth_addr eth_src,
uint16_t vlan, void **port_aux)
{
struct bond_slave *slave;
struct dp_packet *packet;
struct flow flow;
ovs_rwlock_rdlock(&rwlock);
ovs_assert(may_send_learning_packets(bond));
memset(&flow, 0, sizeof flow);
flow.dl_src = eth_src;
slave = choose_output_slave(bond, &flow, NULL, vlan);
packet = dp_packet_new(0);
compose_rarp(packet, eth_src);
if (vlan) {
eth_push_vlan(packet, htons(ETH_TYPE_VLAN), htons(vlan));
}
*port_aux = slave->aux;
ovs_rwlock_unlock(&rwlock);
return packet;
}
/* Checks whether a packet that arrived on 'slave_' within 'bond', with an
* Ethernet destination address of 'eth_dst', should be admitted.
*
* The return value is one of the following:
*
* - BV_ACCEPT: Admit the packet.
*
* - BV_DROP: Drop the packet.
*
* - BV_DROP_IF_MOVED: Consult the MAC learning table for the packet's
* Ethernet source address and VLAN. If there is none, or if the packet
* is on the learned port, then admit the packet. If a different port has
* been learned, however, drop the packet (and do not use it for MAC
* learning).
*/
enum bond_verdict
bond_check_admissibility(struct bond *bond, const void *slave_,
const struct eth_addr eth_dst)
{
enum bond_verdict verdict = BV_DROP;
struct bond_slave *slave;
ovs_rwlock_rdlock(&rwlock);
slave = bond_slave_lookup(bond, slave_);
if (!slave) {
goto out;
}
/* 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
* because no correctly implemented partner switch should be sending
* packets to them.
*
* If LACP is configured, but LACP negotiations have been unsuccessful, we
* drop all incoming traffic except if lacp_fallback_ab is enabled. */
switch (bond->lacp_status) {
case LACP_NEGOTIATED:
verdict = slave->enabled ? BV_ACCEPT : BV_DROP;
goto out;
case LACP_CONFIGURED:
if (!bond->lacp_fallback_ab) {
goto out;
}
case LACP_DISABLED:
break;
}
/* Drop all multicast packets on inactive slaves. */
if (eth_addr_is_multicast(eth_dst)) {
if (bond->active_slave != slave) {
goto out;
}
}
switch (bond->balance) {
case BM_TCP:
/* TCP balanced bonds require successful LACP negotiations. Based on the
* above check, LACP is off or lacp_fallback_ab is true on this bond.
* If lacp_fallback_ab is true fall through to BM_AB case else, we
* drop all incoming traffic. */
if (!bond->lacp_fallback_ab) {
goto out;
}
case BM_AB:
/* Drop all packets which arrive on backup slaves. This is similar to
* how Linux bonding handles active-backup bonds. */
if (bond->active_slave != slave) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_DBG_RL(&rl, "active-backup bond received packet on backup"
" slave (%s) destined for " ETH_ADDR_FMT,
slave->name, ETH_ADDR_ARGS(eth_dst));
goto out;
}
verdict = BV_ACCEPT;
goto out;
case BM_SLB:
/* Drop all packets for which we have learned a different input port,
* because we probably sent the packet on one slave and got it back on
* the other. Gratuitous ARP packets are an exception to this rule:
* the host has moved to another switch. The exception to the
* exception is if we locked the learning table to avoid reflections on
* bond slaves. */
verdict = BV_DROP_IF_MOVED;
goto out;
}
OVS_NOT_REACHED();
out:
ovs_rwlock_unlock(&rwlock);
return verdict;
}
/* Returns the slave (registered on 'bond' by bond_slave_register()) to which
* a packet with the given 'flow' and 'vlan' should be forwarded. Returns
* NULL if the packet should be dropped because no slaves are enabled.
*
* 'vlan' is not necessarily the same as 'flow->vlan_tci'. First, 'vlan'
* should be a VID only (i.e. excluding the PCP bits). Second,
* 'flow->vlan_tci' is the VLAN TCI that appeared on the packet (so it will be
* nonzero only for trunk ports), whereas 'vlan' is the logical VLAN that the
* packet belongs to (so for an access port it will be the access port's VLAN).
*
* 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,
struct flow_wildcards *wc, uint16_t vlan)
{
struct bond_slave *slave;
void *aux;
ovs_rwlock_rdlock(&rwlock);
slave = choose_output_slave(bond, flow, wc, vlan);
aux = slave ? slave->aux : NULL;
ovs_rwlock_unlock(&rwlock);
return aux;
}
/* Recirculation. */
static void
bond_entry_account(struct bond_entry *entry, uint64_t rule_tx_bytes)
OVS_REQ_WRLOCK(rwlock)
{
if (entry->slave) {
uint64_t delta;
delta = rule_tx_bytes - entry->pr_tx_bytes;
entry->tx_bytes += delta;
entry->pr_tx_bytes = rule_tx_bytes;
}
}
/* Maintain bond stats using post recirculation rule byte counters.*/
static void
bond_recirculation_account(struct bond *bond)
OVS_REQ_WRLOCK(rwlock)
{
int i;
for (i=0; i<=BOND_MASK; i++) {
struct bond_entry *entry = &bond->hash[i];
struct rule *rule = entry->pr_rule;
if (rule) {
uint64_t n_packets OVS_UNUSED;
long long int used OVS_UNUSED;
uint64_t n_bytes;
rule->ofproto->ofproto_class->rule_get_stats(
rule, &n_packets, &n_bytes, &used);
bond_entry_account(entry, n_bytes);
}
}
}
bool
bond_may_recirc(const struct bond *bond, uint32_t *recirc_id,
uint32_t *hash_bias)
{
if (bond->balance == BM_TCP && bond->recirc_id) {
if (recirc_id) {
*recirc_id = bond->recirc_id;
}
if (hash_bias) {
*hash_bias = bond->basis;
}
return true;
} else {
return false;
}
}
static void
bond_update_post_recirc_rules__(struct bond* bond, const bool force)
OVS_REQ_WRLOCK(rwlock)
{
struct bond_entry *e;
bool update_rules = force; /* Always update rules if caller forces it. */
/* Make sure all bond entries are populated */
for (e = bond->hash; e <= &bond->hash[BOND_MASK]; e++) {
if (!e->slave || !e->slave->enabled) {
update_rules = true;
e->slave = CONTAINER_OF(hmap_random_node(&bond->slaves),
struct bond_slave, hmap_node);
if (!e->slave->enabled) {
e->slave = bond->active_slave;
}
}
}
if (update_rules) {
update_recirc_rules(bond);
}
}
void
bond_update_post_recirc_rules(struct bond* bond, const bool force)
{
ovs_rwlock_wrlock(&rwlock);
bond_update_post_recirc_rules__(bond, force);
ovs_rwlock_unlock(&rwlock);
}
/* Rebalancing. */
static bool
bond_is_balanced(const struct bond *bond) OVS_REQ_RDLOCK(rwlock)
{
return bond->rebalance_interval
&& (bond->balance == BM_SLB || bond->balance == BM_TCP);
}
/* Notifies 'bond' that 'n_bytes' bytes were sent in 'flow' within 'vlan'. */
void
bond_account(struct bond *bond, const struct flow *flow, uint16_t vlan,
uint64_t n_bytes)
{
ovs_rwlock_wrlock(&rwlock);
if (bond_is_balanced(bond)) {
lookup_bond_entry(bond, flow, vlan)->tx_bytes += n_bytes;
}
ovs_rwlock_unlock(&rwlock);
}
static struct bond_slave *
bond_slave_from_bal_node(struct ovs_list *bal) OVS_REQ_RDLOCK(rwlock)
{
return CONTAINER_OF(bal, struct bond_slave, bal_node);
}
static void
log_bals(struct bond *bond, const struct ovs_list *bals)
OVS_REQ_RDLOCK(rwlock)
{
if (VLOG_IS_DBG_ENABLED()) {
struct ds ds = DS_EMPTY_INITIALIZER;
const struct bond_slave *slave;
LIST_FOR_EACH (slave, bal_node, bals) {
if (ds.length) {
ds_put_char(&ds, ',');
}
ds_put_format(&ds, " %s %"PRIu64"kB",
slave->name, slave->tx_bytes / 1024);
if (!slave->enabled) {
ds_put_cstr(&ds, " (disabled)");
}
if (!list_is_empty(&slave->entries)) {
struct bond_entry *e;
ds_put_cstr(&ds, " (");
LIST_FOR_EACH (e, list_node, &slave->entries) {
if (&e->list_node != list_front(&slave->entries)) {
ds_put_cstr(&ds, " + ");
}
ds_put_format(&ds, "h%"PRIdPTR": %"PRIu64"kB",
e - bond->hash, e->tx_bytes / 1024);
}
ds_put_cstr(&ds, ")");
}
}
VLOG_DBG("bond %s:%s", bond->name, ds_cstr(&ds));
ds_destroy(&ds);
}
}
/* Shifts 'hash' from its current slave to 'to'. */
static void
bond_shift_load(struct bond_entry *hash, struct bond_slave *to)
OVS_REQ_WRLOCK(rwlock)
{
struct bond_slave *from = hash->slave;
struct bond *bond = from->bond;
uint64_t delta = hash->tx_bytes;
VLOG_INFO("bond %s: shift %"PRIu64"kB of load (with hash %"PRIdPTR") "
"from %s to %s (now carrying %"PRIu64"kB and "
"%"PRIu64"kB load, respectively)",
bond->name, delta / 1024, hash - bond->hash,
from->name, to->name,
(from->tx_bytes - delta) / 1024,
(to->tx_bytes + delta) / 1024);
/* Shift load away from 'from' to 'to'. */
from->tx_bytes -= delta;
to->tx_bytes += delta;
/* Arrange for flows to be revalidated. */
hash->slave = to;
bond->bond_revalidate = true;
}
/* Picks and returns a bond_entry to migrate from 'from' (the most heavily
* loaded bond slave) to a bond slave that has 'to_tx_bytes' bytes of load,
* given that doing so must decrease the ratio of the load on the two slaves by
* at least 0.1. Returns NULL if there is no appropriate entry.
*
* The list of entries isn't sorted. I don't know of a reason to prefer to
* shift away small hashes or large hashes. */
static struct bond_entry *
choose_entry_to_migrate(const struct bond_slave *from, uint64_t to_tx_bytes)
OVS_REQ_WRLOCK(rwlock)
{
struct bond_entry *e;
if (list_is_short(&from->entries)) {
/* 'from' carries no more than one MAC hash, so shifting load away from
* it would be pointless. */
return NULL;
}
LIST_FOR_EACH (e, list_node, &from->entries) {
uint64_t delta = e->tx_bytes; /* The amount to rebalance. */
uint64_t ideal_tx_bytes = (from->tx_bytes + to_tx_bytes)/2;
/* Note, the ideal traffic is the mid point
* between 'from' and 'to'. This value does
* not change by rebalancing. */
uint64_t new_low; /* The lower bandwidth between 'to' and 'from'
after rebalancing. */
new_low = MIN(from->tx_bytes - delta, to_tx_bytes + delta);
if ((new_low > to_tx_bytes) &&
(new_low - to_tx_bytes >= (ideal_tx_bytes - to_tx_bytes) / 10)) {
/* Only rebalance if the new 'low' is closer to to the mid point,
* and the improvement exceeds 10% of current traffic
* deviation from the ideal split.
*
* The improvement on the 'high' side is always the same as the
* 'low' side. Thus consider 'low' side is sufficient. */
return e;
}
}
return NULL;
}
/* Inserts 'slave' into 'bals' so that descending order of 'tx_bytes' is
* maintained. */
static void
insert_bal(struct ovs_list *bals, struct bond_slave *slave)
{
struct bond_slave *pos;
LIST_FOR_EACH (pos, bal_node, bals) {
if (slave->tx_bytes > pos->tx_bytes) {
break;
}
}
list_insert(&pos->bal_node, &slave->bal_node);
}
/* Removes 'slave' from its current list and then inserts it into 'bals' so
* that descending order of 'tx_bytes' is maintained. */
static void
reinsert_bal(struct ovs_list *bals, struct bond_slave *slave)
{
list_remove(&slave->bal_node);
insert_bal(bals, slave);
}
/* If 'bond' needs rebalancing, does so.
*
* The caller should have called bond_account() for each active flow, or in case
* of recirculation is used, have called bond_recirculation_account(bond),
* to ensure that flow data is consistently accounted at this point.
*/
void
bond_rebalance(struct bond *bond)
{
struct bond_slave *slave;
struct bond_entry *e;
struct ovs_list bals;
bool rebalanced = false;
bool use_recirc;
ovs_rwlock_wrlock(&rwlock);
if (!bond_is_balanced(bond) || time_msec() < bond->next_rebalance) {
goto done;
}
bond->next_rebalance = time_msec() + bond->rebalance_interval;
use_recirc = ofproto_dpif_get_support(bond->ofproto)->odp.recirc &&
bond_may_recirc(bond, NULL, NULL);
if (use_recirc) {
bond_recirculation_account(bond);
}
/* Add each bond_entry to its slave's 'entries' list.
* Compute each slave's tx_bytes as the sum of its entries' tx_bytes. */
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
slave->tx_bytes = 0;
list_init(&slave->entries);
}
for (e = &bond->hash[0]; e <= &bond->hash[BOND_MASK]; e++) {
if (e->slave && e->tx_bytes) {
e->slave->tx_bytes += e->tx_bytes;
list_push_back(&e->slave->entries, &e->list_node);
}
}
/* Add enabled slaves to 'bals' in descending order of tx_bytes.
*
* XXX This is O(n**2) in the number of slaves but it could be O(n lg n)
* with a proper list sort algorithm. */
list_init(&bals);
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
if (slave->enabled) {
insert_bal(&bals, slave);
}
}
log_bals(bond, &bals);
/* Shift load from the most-loaded slaves to the least-loaded slaves. */
while (!list_is_short(&bals)) {
struct bond_slave *from = bond_slave_from_bal_node(list_front(&bals));
struct bond_slave *to = bond_slave_from_bal_node(list_back(&bals));
uint64_t overload;
overload = from->tx_bytes - to->tx_bytes;
if (overload < to->tx_bytes >> 5 || overload < 100000) {
/* The extra load on 'from' (and all less-loaded slaves), compared
* to that of 'to' (the least-loaded slave), is less than ~3%, or
* it is less than ~1Mbps. No point in rebalancing. */
break;
}
/* 'from' is carrying significantly more load than 'to'. Pick a hash
* to move from 'from' to 'to'. */
e = choose_entry_to_migrate(from, to->tx_bytes);
if (e) {
bond_shift_load(e, to);
/* Delete element from from->entries.
*
* We don't add the element to to->hashes. That would only allow
* 'e' to be migrated to another slave in this rebalancing run, and
* there is no point in doing that. */
list_remove(&e->list_node);
/* Re-sort 'bals'. */
reinsert_bal(&bals, from);
reinsert_bal(&bals, to);
rebalanced = true;
} else {
/* Can't usefully migrate anything away from 'from'.
* Don't reconsider it. */
list_remove(&from->bal_node);
}
}
/* Implement exponentially weighted moving average. A weight of 1/2 causes
* historical data to decay to <1% in 7 rebalancing runs. 1,000,000 bytes
* take 20 rebalancing runs to decay to 0 and get deleted entirely. */
for (e = &bond->hash[0]; e <= &bond->hash[BOND_MASK]; e++) {
e->tx_bytes /= 2;
}
if (use_recirc && rebalanced) {
bond_update_post_recirc_rules__(bond,true);
}
done:
ovs_rwlock_unlock(&rwlock);
}
/* Bonding unixctl user interface functions. */
static struct bond *
bond_find(const char *name) OVS_REQ_RDLOCK(rwlock)
{
struct bond *bond;
HMAP_FOR_EACH_WITH_HASH (bond, hmap_node, hash_string(name, 0),
all_bonds) {
if (!strcmp(bond->name, name)) {
return bond;
}
}
return NULL;
}
static struct bond_slave *
bond_lookup_slave(struct bond *bond, const char *slave_name)
{
struct bond_slave *slave;
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
if (!strcmp(slave->name, slave_name)) {
return slave;
}
}
return NULL;
}
static void
bond_unixctl_list(struct unixctl_conn *conn,
int argc OVS_UNUSED, const char *argv[] OVS_UNUSED,
void *aux OVS_UNUSED)
{
struct ds ds = DS_EMPTY_INITIALIZER;
const struct bond *bond;
ds_put_cstr(&ds, "bond\ttype\trecircID\tslaves\n");
ovs_rwlock_rdlock(&rwlock);
HMAP_FOR_EACH (bond, hmap_node, all_bonds) {
const struct bond_slave *slave;
size_t i;
ds_put_format(&ds, "%s\t%s\t%d\t", bond->name,
bond_mode_to_string(bond->balance), bond->recirc_id);
i = 0;
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
if (i++ > 0) {
ds_put_cstr(&ds, ", ");
}
ds_put_cstr(&ds, slave->name);
}
ds_put_char(&ds, '\n');
}
ovs_rwlock_unlock(&rwlock);
unixctl_command_reply(conn, ds_cstr(&ds));
ds_destroy(&ds);
}
static void
bond_print_details(struct ds *ds, const struct bond *bond)
OVS_REQ_RDLOCK(rwlock)
{
struct shash slave_shash = SHASH_INITIALIZER(&slave_shash);
const struct shash_node **sorted_slaves = NULL;
const struct bond_slave *slave;
bool may_recirc;
uint32_t recirc_id;
int i;
ds_put_format(ds, "---- %s ----\n", bond->name);
ds_put_format(ds, "bond_mode: %s\n",
bond_mode_to_string(bond->balance));
may_recirc = bond_may_recirc(bond, &recirc_id, NULL);
ds_put_format(ds, "bond may use recirculation: %s, Recirc-ID : %d\n",
may_recirc ? "yes" : "no", may_recirc ? recirc_id: -1);
ds_put_format(ds, "bond-hash-basis: %"PRIu32"\n", bond->basis);
ds_put_format(ds, "updelay: %d ms\n", bond->updelay);
ds_put_format(ds, "downdelay: %d ms\n", bond->downdelay);
if (bond_is_balanced(bond)) {
ds_put_format(ds, "next rebalance: %lld ms\n",
bond->next_rebalance - time_msec());
}
ds_put_cstr(ds, "lacp_status: ");
switch (bond->lacp_status) {
case LACP_NEGOTIATED:
ds_put_cstr(ds, "negotiated\n");
break;
case LACP_CONFIGURED:
ds_put_cstr(ds, "configured\n");
break;
case LACP_DISABLED:
ds_put_cstr(ds, "off\n");
break;
default:
ds_put_cstr(ds, "<unknown>\n");
break;
}
ds_put_cstr(ds, "active slave mac: ");
ds_put_format(ds, ETH_ADDR_FMT, ETH_ADDR_ARGS(bond->active_slave_mac));
slave = bond_find_slave_by_mac(bond, bond->active_slave_mac);
ds_put_format(ds,"(%s)\n", slave ? slave->name : "none");
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
shash_add(&slave_shash, slave->name, slave);
}
sorted_slaves = shash_sort(&slave_shash);
for (i = 0; i < shash_count(&slave_shash); i++) {
struct bond_entry *be;
slave = sorted_slaves[i]->data;
/* Basic info. */
ds_put_format(ds, "\nslave %s: %s\n",
slave->name, slave->enabled ? "enabled" : "disabled");
if (slave == bond->active_slave) {
ds_put_cstr(ds, "\tactive slave\n");
}
if (slave->delay_expires != LLONG_MAX) {
ds_put_format(ds, "\t%s expires in %lld ms\n",
slave->enabled ? "downdelay" : "updelay",
slave->delay_expires - time_msec());
}
ds_put_format(ds, "\tmay_enable: %s\n",
slave->may_enable ? "true" : "false");
if (!bond_is_balanced(bond)) {
continue;
}
/* Hashes. */
for (be = bond->hash; be <= &bond->hash[BOND_MASK]; be++) {
int hash = be - bond->hash;
uint64_t be_tx_k;
if (be->slave != slave) {
continue;
}
be_tx_k = be->tx_bytes / 1024;
if (be_tx_k) {
ds_put_format(ds, "\thash %d: %"PRIu64" kB load\n",
hash, be_tx_k);
}
/* XXX How can we list the MACs assigned to hashes of SLB bonds? */
}
}
shash_destroy(&slave_shash);
free(sorted_slaves);
ds_put_cstr(ds, "\n");
}
static void
bond_unixctl_show(struct unixctl_conn *conn,
int argc, const char *argv[],
void *aux OVS_UNUSED)
{
struct ds ds = DS_EMPTY_INITIALIZER;
ovs_rwlock_rdlock(&rwlock);
if (argc > 1) {
const struct bond *bond = bond_find(argv[1]);
if (!bond) {
unixctl_command_reply_error(conn, "no such bond");
goto out;
}
bond_print_details(&ds, bond);
} else {
const struct bond *bond;
HMAP_FOR_EACH (bond, hmap_node, all_bonds) {
bond_print_details(&ds, bond);
}
}
unixctl_command_reply(conn, ds_cstr(&ds));
ds_destroy(&ds);
out:
ovs_rwlock_unlock(&rwlock);
}
static void
bond_unixctl_migrate(struct unixctl_conn *conn,
int argc OVS_UNUSED, const char *argv[],
void *aux OVS_UNUSED)
{
const char *bond_s = argv[1];
const char *hash_s = argv[2];
const char *slave_s = argv[3];
struct bond *bond;
struct bond_slave *slave;
struct bond_entry *entry;
int hash;
ovs_rwlock_wrlock(&rwlock);
bond = bond_find(bond_s);
if (!bond) {
unixctl_command_reply_error(conn, "no such bond");
goto out;
}
if (bond->balance != BM_SLB) {
unixctl_command_reply_error(conn, "not an SLB bond");
goto out;
}
if (strspn(hash_s, "0123456789") == strlen(hash_s)) {
hash = atoi(hash_s) & BOND_MASK;
} else {
unixctl_command_reply_error(conn, "bad hash");
goto out;
}
slave = bond_lookup_slave(bond, slave_s);
if (!slave) {
unixctl_command_reply_error(conn, "no such slave");
goto out;
}
if (!slave->enabled) {
unixctl_command_reply_error(conn, "cannot migrate to disabled slave");
goto out;
}
entry = &bond->hash[hash];
bond->bond_revalidate = true;
entry->slave = slave;
unixctl_command_reply(conn, "migrated");
out:
ovs_rwlock_unlock(&rwlock);
}
static void
bond_unixctl_set_active_slave(struct unixctl_conn *conn,
int argc OVS_UNUSED, const char *argv[],
void *aux OVS_UNUSED)
{
const char *bond_s = argv[1];
const char *slave_s = argv[2];
struct bond *bond;
struct bond_slave *slave;
ovs_rwlock_wrlock(&rwlock);
bond = bond_find(bond_s);
if (!bond) {
unixctl_command_reply_error(conn, "no such bond");
goto out;
}
slave = bond_lookup_slave(bond, slave_s);
if (!slave) {
unixctl_command_reply_error(conn, "no such slave");
goto out;
}
if (!slave->enabled) {
unixctl_command_reply_error(conn, "cannot make disabled slave active");
goto out;
}
if (bond->active_slave != slave) {
bond->bond_revalidate = true;
bond->active_slave = slave;
VLOG_INFO("bond %s: active interface is now %s",
bond->name, slave->name);
bond->send_learning_packets = true;
unixctl_command_reply(conn, "done");
bond_active_slave_changed(bond);
} else {
unixctl_command_reply(conn, "no change");
}
out:
ovs_rwlock_unlock(&rwlock);
}
static void
enable_slave(struct unixctl_conn *conn, const char *argv[], bool enable)
{
const char *bond_s = argv[1];
const char *slave_s = argv[2];
struct bond *bond;
struct bond_slave *slave;
ovs_rwlock_wrlock(&rwlock);
bond = bond_find(bond_s);
if (!bond) {
unixctl_command_reply_error(conn, "no such bond");
goto out;
}
slave = bond_lookup_slave(bond, slave_s);
if (!slave) {
unixctl_command_reply_error(conn, "no such slave");
goto out;
}
bond_enable_slave(slave, enable);
unixctl_command_reply(conn, enable ? "enabled" : "disabled");
out:
ovs_rwlock_unlock(&rwlock);
}
static void
bond_unixctl_enable_slave(struct unixctl_conn *conn,
int argc OVS_UNUSED, const char *argv[],
void *aux OVS_UNUSED)
{
enable_slave(conn, argv, true);
}
static void
bond_unixctl_disable_slave(struct unixctl_conn *conn,
int argc OVS_UNUSED, const char *argv[],
void *aux OVS_UNUSED)
{
enable_slave(conn, argv, false);
}
static void
bond_unixctl_hash(struct unixctl_conn *conn, int argc, const char *argv[],
void *aux OVS_UNUSED)
{
const char *mac_s = argv[1];
const char *vlan_s = argc > 2 ? argv[2] : NULL;
const char *basis_s = argc > 3 ? argv[3] : NULL;
struct eth_addr mac;
uint8_t hash;
char *hash_cstr;
unsigned int vlan;
uint32_t basis;
if (vlan_s) {
if (!ovs_scan(vlan_s, "%u", &vlan)) {
unixctl_command_reply_error(conn, "invalid vlan");
return;
}
} else {
vlan = 0;
}
if (basis_s) {
if (!ovs_scan(basis_s, "%"SCNu32, &basis)) {
unixctl_command_reply_error(conn, "invalid basis");
return;
}
} else {
basis = 0;
}
if (ovs_scan(mac_s, ETH_ADDR_SCAN_FMT, ETH_ADDR_SCAN_ARGS(mac))) {
hash = bond_hash_src(mac, vlan, basis) & BOND_MASK;
hash_cstr = xasprintf("%u", hash);
unixctl_command_reply(conn, hash_cstr);
free(hash_cstr);
} else {
unixctl_command_reply_error(conn, "invalid mac");
}
}
void
bond_init(void)
{
unixctl_command_register("bond/list", "", 0, 0, bond_unixctl_list, NULL);
unixctl_command_register("bond/show", "[port]", 0, 1, bond_unixctl_show,
NULL);
unixctl_command_register("bond/migrate", "port hash slave", 3, 3,
bond_unixctl_migrate, NULL);
unixctl_command_register("bond/set-active-slave", "port slave", 2, 2,
bond_unixctl_set_active_slave, NULL);
unixctl_command_register("bond/enable-slave", "port slave", 2, 2,
bond_unixctl_enable_slave, NULL);
unixctl_command_register("bond/disable-slave", "port slave", 2, 2,
bond_unixctl_disable_slave, NULL);
unixctl_command_register("bond/hash", "mac [vlan] [basis]", 1, 3,
bond_unixctl_hash, NULL);
}
static void
bond_entry_reset(struct bond *bond)
{
if (bond->balance != BM_AB) {
size_t hash_len = BOND_BUCKETS * sizeof *bond->hash;
if (!bond->hash) {
bond->hash = xmalloc(hash_len);
}
memset(bond->hash, 0, hash_len);
bond->next_rebalance = time_msec() + bond->rebalance_interval;
} else {
free(bond->hash);
bond->hash = NULL;
}
}
static struct bond_slave *
bond_slave_lookup(struct bond *bond, const void *slave_)
{
struct bond_slave *slave;
HMAP_FOR_EACH_IN_BUCKET (slave, hmap_node, hash_pointer(slave_, 0),
&bond->slaves) {
if (slave->aux == slave_) {
return slave;
}
}
return NULL;
}
static void
bond_enable_slave(struct bond_slave *slave, bool enable)
{
slave->delay_expires = LLONG_MAX;
if (enable != slave->enabled) {
slave->bond->bond_revalidate = true;
slave->enabled = enable;
ovs_mutex_lock(&slave->bond->mutex);
if (enable) {
list_insert(&slave->bond->enabled_slaves, &slave->list_node);
} else {
list_remove(&slave->list_node);
}
ovs_mutex_unlock(&slave->bond->mutex);
VLOG_INFO("interface %s: %s", slave->name,
slave->enabled ? "enabled" : "disabled");
}
}
static void
bond_link_status_update(struct bond_slave *slave)
{
struct bond *bond = slave->bond;
bool up;
up = netdev_get_carrier(slave->netdev) && slave->may_enable;
if ((up == slave->enabled) != (slave->delay_expires == LLONG_MAX)) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(5, 20);
VLOG_INFO_RL(&rl, "interface %s: link state %s",
slave->name, up ? "up" : "down");
if (up == slave->enabled) {
slave->delay_expires = LLONG_MAX;
VLOG_INFO_RL(&rl, "interface %s: will not be %s",
slave->name, up ? "disabled" : "enabled");
} else {
int delay = (bond->lacp_status != LACP_DISABLED ? 0
: up ? bond->updelay : bond->downdelay);
slave->delay_expires = time_msec() + delay;
if (delay) {
VLOG_INFO_RL(&rl, "interface %s: will be %s if it stays %s "
"for %d ms",
slave->name,
up ? "enabled" : "disabled",
up ? "up" : "down",
delay);
}
}
}
if (time_msec() >= slave->delay_expires) {
bond_enable_slave(slave, up);
}
}
static unsigned int
bond_hash_src(const struct eth_addr mac, uint16_t vlan, uint32_t basis)
{
return hash_mac(mac, vlan, basis);
}
static unsigned int
bond_hash_tcp(const struct flow *flow, uint16_t vlan, uint32_t basis)
{
struct flow hash_flow = *flow;
hash_flow.vlan_tci = htons(vlan);
/* The symmetric quality of this hash function is not required, but
* flow_hash_symmetric_l4 already exists, and is sufficient for our
* purposes, so we use it out of convenience. */
return flow_hash_symmetric_l4(&hash_flow, basis);
}
static unsigned int
bond_hash(const struct bond *bond, const struct flow *flow, uint16_t vlan)
{
ovs_assert(bond->balance == BM_TCP || bond->balance == BM_SLB);
return (bond->balance == BM_TCP
? bond_hash_tcp(flow, vlan, bond->basis)
: bond_hash_src(flow->dl_src, vlan, bond->basis));
}
static struct bond_entry *
lookup_bond_entry(const struct bond *bond, const struct flow *flow,
uint16_t vlan)
{
return &bond->hash[bond_hash(bond, flow, vlan) & BOND_MASK];
}
/* Selects and returns an enabled slave from the 'enabled_slaves' list
* in a round-robin fashion. If the 'enabled_slaves' list is empty,
* returns NULL. */
static struct bond_slave *
get_enabled_slave(struct bond *bond)
{
struct ovs_list *node;
ovs_mutex_lock(&bond->mutex);
if (list_is_empty(&bond->enabled_slaves)) {
ovs_mutex_unlock(&bond->mutex);
return NULL;
}
node = list_pop_front(&bond->enabled_slaves);
list_push_back(&bond->enabled_slaves, node);
ovs_mutex_unlock(&bond->mutex);
return CONTAINER_OF(node, struct bond_slave, list_node);
}
static struct bond_slave *
choose_output_slave(const struct bond *bond, const struct flow *flow,
struct flow_wildcards *wc, uint16_t vlan)
{
struct bond_entry *e;
int balance;
balance = bond->balance;
if (bond->lacp_status == LACP_CONFIGURED) {
/* LACP has been configured on this bond but negotiations were
* unsuccussful. If lacp_fallback_ab is enabled use active-
* backup mode else drop all traffic. */
if (!bond->lacp_fallback_ab) {
return NULL;
}
balance = BM_AB;
}
switch (balance) {
case BM_AB:
return bond->active_slave;
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 (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) {
e->slave = get_enabled_slave(CONST_CAST(struct bond*, bond));
}
return e->slave;
default:
OVS_NOT_REACHED();
}
}
static struct bond_slave *
bond_choose_slave(const struct bond *bond)
{
struct bond_slave *slave, *best;
/* Find the last active slave. */
slave = bond_find_slave_by_mac(bond, bond->active_slave_mac);
if (slave && slave->enabled) {
return slave;
}
/* Find an enabled slave. */
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
if (slave->enabled) {
return slave;
}
}
/* All interfaces are disabled. Find an interface that will be enabled
* after its updelay expires. */
best = NULL;
HMAP_FOR_EACH (slave, hmap_node, &bond->slaves) {
if (slave->delay_expires != LLONG_MAX
&& slave->may_enable
&& (!best || slave->delay_expires < best->delay_expires)) {
best = slave;
}
}
return best;
}
static void
bond_choose_active_slave(struct bond *bond)
{
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(5, 20);
struct bond_slave *old_active_slave = bond->active_slave;
bond->active_slave = bond_choose_slave(bond);
if (bond->active_slave) {
if (bond->active_slave->enabled) {
VLOG_INFO_RL(&rl, "bond %s: active interface is now %s",
bond->name, bond->active_slave->name);
} else {
VLOG_INFO_RL(&rl, "bond %s: active interface is now %s, skipping "
"remaining %lld ms updelay (since no interface was "
"enabled)", bond->name, bond->active_slave->name,
bond->active_slave->delay_expires - time_msec());
bond_enable_slave(bond->active_slave, true);
}
bond->send_learning_packets = true;
if (bond->active_slave != old_active_slave) {
bond_active_slave_changed(bond);
}
} else if (old_active_slave) {
VLOG_INFO_RL(&rl, "bond %s: all interfaces disabled", bond->name);
}
}
/*
* Return true if bond has unstored active slave change.
* If return true, 'mac' will store the bond's current active slave's
* MAC address. */
bool
bond_get_changed_active_slave(const char *name, struct eth_addr *mac,
bool force)
{
struct bond *bond;
ovs_rwlock_wrlock(&rwlock);
bond = bond_find(name);
if (bond) {
if (bond->active_slave_changed || force) {
*mac = bond->active_slave_mac;
bond->active_slave_changed = false;
ovs_rwlock_unlock(&rwlock);
return true;
}
}
ovs_rwlock_unlock(&rwlock);
return false;
}
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