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openvswitch/lib/mcast-snooping.c
Ben Pfaff 12d0ee08a2 packets: Introduce in6_addr_mapped_ipv4() and use where appropriate. 
This allows code to be written more naturally in some cases.

Signed-off-by: Ben Pfaff <blp@ovn.org>
Acked-by: Thadeu Lima de Souza Cascardo <cascardo@redhat.com>
2015-12-04 08:18:37 -08:00

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/*
* Copyright (c) 2014 Red Hat, Inc.
*
* Based on mac-learning implementation.
*
* 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 "mcast-snooping.h"
#include <inttypes.h>
#include <stdlib.h>
#include "bitmap.h"
#include "byte-order.h"
#include "coverage.h"
#include "hash.h"
#include "list.h"
#include "poll-loop.h"
#include "timeval.h"
#include "entropy.h"
#include "unaligned.h"
#include "util.h"
#include "vlan-bitmap.h"
#include "openvswitch/vlog.h"
COVERAGE_DEFINE(mcast_snooping_learned);
COVERAGE_DEFINE(mcast_snooping_expired);
static struct mcast_port_bundle *
mcast_snooping_port_lookup(struct ovs_list *list, void *port);
static struct mcast_mrouter_bundle *
mcast_snooping_mrouter_lookup(struct mcast_snooping *ms, uint16_t vlan,
void *port)
OVS_REQ_RDLOCK(ms->rwlock);
bool
mcast_snooping_enabled(const struct mcast_snooping *ms)
{
return !!ms;
}
bool
mcast_snooping_flood_unreg(const struct mcast_snooping *ms)
{
return ms->flood_unreg;
}
bool
mcast_snooping_is_query(ovs_be16 igmp_type)
{
return igmp_type == htons(IGMP_HOST_MEMBERSHIP_QUERY);
}
bool
mcast_snooping_is_membership(ovs_be16 igmp_type)
{
switch (ntohs(igmp_type)) {
case IGMP_HOST_MEMBERSHIP_REPORT:
case IGMPV2_HOST_MEMBERSHIP_REPORT:
case IGMPV3_HOST_MEMBERSHIP_REPORT:
case IGMP_HOST_LEAVE_MESSAGE:
return true;
}
return false;
}
/* Returns the number of seconds since multicast group 'b' was learned in a
* port on 'ms'. */
int
mcast_bundle_age(const struct mcast_snooping *ms,
const struct mcast_group_bundle *b)
{
time_t remaining = b->expires - time_now();
return ms->idle_time - remaining;
}
static uint32_t
mcast_table_hash(const struct mcast_snooping *ms,
const struct in6_addr *grp_addr, uint16_t vlan)
{
return hash_bytes(grp_addr->s6_addr, 16,
hash_2words(ms->secret, vlan));
}
static struct mcast_group_bundle *
mcast_group_bundle_from_lru_node(struct ovs_list *list)
{
return CONTAINER_OF(list, struct mcast_group_bundle, bundle_node);
}
static struct mcast_group *
mcast_group_from_lru_node(struct ovs_list *list)
{
return CONTAINER_OF(list, struct mcast_group, group_node);
}
/* Searches 'ms' for and returns an mcast group for destination address
* 'dip' in 'vlan'. */
struct mcast_group *
mcast_snooping_lookup(const struct mcast_snooping *ms,
const struct in6_addr *dip, uint16_t vlan)
OVS_REQ_RDLOCK(ms->rwlock)
{
struct mcast_group *grp;
uint32_t hash;
hash = mcast_table_hash(ms, dip, vlan);
HMAP_FOR_EACH_WITH_HASH (grp, hmap_node, hash, &ms->table) {
if (grp->vlan == vlan && ipv6_addr_equals(&grp->addr, dip)) {
return grp;
}
}
return NULL;
}
struct mcast_group *
mcast_snooping_lookup4(const struct mcast_snooping *ms, ovs_be32 ip4,
uint16_t vlan)
OVS_REQ_RDLOCK(ms->rwlock)
{
struct in6_addr addr = in6_addr_mapped_ipv4(ip4);
return mcast_snooping_lookup(ms, &addr, vlan);
}
/* 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
group_get_lru(const struct mcast_snooping *ms, struct mcast_group **grp)
OVS_REQ_RDLOCK(ms->rwlock)
{
if (!list_is_empty(&ms->group_lru)) {
*grp = mcast_group_from_lru_node(ms->group_lru.next);
return true;
} else {
*grp = 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 mcast table with an initial mcast aging
* timeout of MCAST_ENTRY_DEFAULT_IDLE_TIME seconds and an initial maximum of
* MCAST_DEFAULT_MAX entries. */
struct mcast_snooping *
mcast_snooping_create(void)
{
struct mcast_snooping *ms;
ms = xmalloc(sizeof *ms);
hmap_init(&ms->table);
list_init(&ms->group_lru);
list_init(&ms->mrouter_lru);
list_init(&ms->fport_list);
list_init(&ms->rport_list);
ms->secret = random_uint32();
ms->idle_time = MCAST_ENTRY_DEFAULT_IDLE_TIME;
ms->max_entries = MCAST_DEFAULT_MAX_ENTRIES;
ms->need_revalidate = false;
ms->flood_unreg = true;
ovs_refcount_init(&ms->ref_cnt);
ovs_rwlock_init(&ms->rwlock);
return ms;
}
struct mcast_snooping *
mcast_snooping_ref(const struct mcast_snooping *ms_)
{
struct mcast_snooping *ms = CONST_CAST(struct mcast_snooping *, ms_);
if (ms) {
ovs_refcount_ref(&ms->ref_cnt);
}
return ms;
}
/* Unreferences (and possibly destroys) mcast snooping table 'ms'. */
void
mcast_snooping_unref(struct mcast_snooping *ms)
{
if (!mcast_snooping_enabled(ms)) {
return;
}
if (ovs_refcount_unref_relaxed(&ms->ref_cnt) == 1) {
mcast_snooping_flush(ms);
hmap_destroy(&ms->table);
ovs_rwlock_destroy(&ms->rwlock);
free(ms);
}
}
/* Changes the mcast aging timeout of 'ms' to 'idle_time' seconds. */
void
mcast_snooping_set_idle_time(struct mcast_snooping *ms, unsigned int idle_time)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_group *grp;
struct mcast_group_bundle *b;
int delta;
idle_time = normalize_idle_time(idle_time);
if (idle_time != ms->idle_time) {
delta = (int) idle_time - (int) ms->idle_time;
LIST_FOR_EACH (grp, group_node, &ms->group_lru) {
LIST_FOR_EACH (b, bundle_node, &grp->bundle_lru) {
b->expires += delta;
}
}
ms->idle_time = idle_time;
}
}
/* Sets the maximum number of entries in 'ms' to 'max_entries', adjusting it
* to be within a reasonable range. */
void
mcast_snooping_set_max_entries(struct mcast_snooping *ms,
size_t max_entries)
OVS_REQ_WRLOCK(ms->rwlock)
{
ms->max_entries = (max_entries < 10 ? 10
: max_entries > 1000 * 1000 ? 1000 * 1000
: max_entries);
}
/* Sets if unregistered multicast packets should be flooded to
* all ports or only to ports connected to multicast routers
*
* Returns true if previous state differs from current state,
* false otherwise. */
bool
mcast_snooping_set_flood_unreg(struct mcast_snooping *ms, bool enable)
OVS_REQ_WRLOCK(ms->rwlock)
{
bool prev = ms->flood_unreg;
ms->flood_unreg = enable;
return prev != enable;
}
static struct mcast_group_bundle *
mcast_group_bundle_lookup(struct mcast_snooping *ms OVS_UNUSED,
struct mcast_group *grp, void *port)
OVS_REQ_RDLOCK(ms->rwlock)
{
struct mcast_group_bundle *b;
LIST_FOR_EACH (b, bundle_node, &grp->bundle_lru) {
if (b->port == port) {
return b;
}
}
return NULL;
}
/* Insert a new bundle to the mcast group or update its
* position and expiration if it is already there. */
static struct mcast_group_bundle *
mcast_group_insert_bundle(struct mcast_snooping *ms OVS_UNUSED,
struct mcast_group *grp, void *port, int idle_time)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_group_bundle *b;
b = mcast_group_bundle_lookup(ms, grp, port);
if (b) {
list_remove(&b->bundle_node);
} else {
b = xmalloc(sizeof *b);
list_init(&b->bundle_node);
b->port = port;
}
b->expires = time_now() + idle_time;
list_push_back(&grp->bundle_lru, &b->bundle_node);
return b;
}
/* Return true if multicast still has bundles associated.
* Return false if there is no bundles. */
static bool
mcast_group_has_bundles(struct mcast_group *grp)
{
return !list_is_empty(&grp->bundle_lru);
}
/* Delete 'grp' from the 'ms' hash table.
* Caller is responsible to clean bundle lru first. */
static void
mcast_snooping_flush_group__(struct mcast_snooping *ms,
struct mcast_group *grp)
{
ovs_assert(list_is_empty(&grp->bundle_lru));
hmap_remove(&ms->table, &grp->hmap_node);
list_remove(&grp->group_node);
free(grp);
}
/* Flush out mcast group and its bundles */
static void
mcast_snooping_flush_group(struct mcast_snooping *ms, struct mcast_group *grp)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_group_bundle *b;
LIST_FOR_EACH_POP (b, bundle_node, &grp->bundle_lru) {
free(b);
}
mcast_snooping_flush_group__(ms, grp);
ms->need_revalidate = true;
}
/* Delete bundle returning true if it succeeds,
* false if it didn't find the group. */
static bool
mcast_group_delete_bundle(struct mcast_snooping *ms OVS_UNUSED,
struct mcast_group *grp, void *port)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_group_bundle *b;
LIST_FOR_EACH (b, bundle_node, &grp->bundle_lru) {
if (b->port == port) {
list_remove(&b->bundle_node);
free(b);
return true;
}
}
return false;
}
/* If any bundle has expired, delete it. Returns the number of deleted
* bundles. */
static int
mcast_snooping_prune_expired(struct mcast_snooping *ms,
struct mcast_group *grp)
OVS_REQ_WRLOCK(ms->rwlock)
{
int expired;
struct mcast_group_bundle *b, *next_b;
time_t timenow = time_now();
expired = 0;
LIST_FOR_EACH_SAFE (b, next_b, bundle_node, &grp->bundle_lru) {
/* This list is sorted on expiration time. */
if (b->expires > timenow) {
break;
}
list_remove(&b->bundle_node);
free(b);
expired++;
}
if (!mcast_group_has_bundles(grp)) {
mcast_snooping_flush_group__(ms, grp);
expired++;
}
if (expired) {
ms->need_revalidate = true;
COVERAGE_ADD(mcast_snooping_expired, expired);
}
return expired;
}
/* Add a multicast group to the mdb. If it exists, then
* move to the last position in the LRU list.
*/
bool
mcast_snooping_add_group(struct mcast_snooping *ms,
const struct in6_addr *addr,
uint16_t vlan, void *port)
OVS_REQ_WRLOCK(ms->rwlock)
{
bool learned;
struct mcast_group *grp;
/* Avoid duplicate packets. */
if (mcast_snooping_mrouter_lookup(ms, vlan, port)
|| mcast_snooping_port_lookup(&ms->fport_list, port)) {
return false;
}
learned = false;
grp = mcast_snooping_lookup(ms, addr, vlan);
if (!grp) {
uint32_t hash = mcast_table_hash(ms, addr, vlan);
if (hmap_count(&ms->table) >= ms->max_entries) {
group_get_lru(ms, &grp);
mcast_snooping_flush_group(ms, grp);
}
grp = xmalloc(sizeof *grp);
hmap_insert(&ms->table, &grp->hmap_node, hash);
grp->addr = *addr;
grp->vlan = vlan;
list_init(&grp->bundle_lru);
learned = true;
ms->need_revalidate = true;
COVERAGE_INC(mcast_snooping_learned);
} else {
list_remove(&grp->group_node);
}
mcast_group_insert_bundle(ms, grp, port, ms->idle_time);
/* Mark 'grp' as recently used. */
list_push_back(&ms->group_lru, &grp->group_node);
return learned;
}
bool
mcast_snooping_add_group4(struct mcast_snooping *ms, ovs_be32 ip4,
uint16_t vlan, void *port)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct in6_addr addr = in6_addr_mapped_ipv4(ip4);
return mcast_snooping_add_group(ms, &addr, vlan, port);
}
int
mcast_snooping_add_report(struct mcast_snooping *ms,
const struct dp_packet *p,
uint16_t vlan, void *port)
{
ovs_be32 ip4;
size_t offset;
const struct igmpv3_header *igmpv3;
const struct igmpv3_record *record;
int count = 0;
int ngrp;
offset = (char *) dp_packet_l4(p) - (char *) dp_packet_data(p);
igmpv3 = dp_packet_at(p, offset, IGMPV3_HEADER_LEN);
if (!igmpv3) {
return 0;
}
ngrp = ntohs(igmpv3->ngrp);
offset += IGMPV3_HEADER_LEN;
while (ngrp--) {
bool ret;
record = dp_packet_at(p, offset, sizeof(struct igmpv3_record));
if (!record) {
break;
}
/* Only consider known record types. */
if (record->type < IGMPV3_MODE_IS_INCLUDE
|| record->type > IGMPV3_BLOCK_OLD_SOURCES) {
continue;
}
ip4 = get_16aligned_be32(&record->maddr);
/*
* If record is INCLUDE MODE and there are no sources, it's equivalent
* to a LEAVE.
*/
if (ntohs(record->nsrcs) == 0
&& (record->type == IGMPV3_MODE_IS_INCLUDE
|| record->type == IGMPV3_CHANGE_TO_INCLUDE_MODE)) {
ret = mcast_snooping_leave_group4(ms, ip4, vlan, port);
} else {
ret = mcast_snooping_add_group4(ms, ip4, vlan, port);
}
if (ret) {
count++;
}
offset += sizeof(*record)
+ ntohs(record->nsrcs) * sizeof(ovs_be32) + record->aux_len;
}
return count;
}
int
mcast_snooping_add_mld(struct mcast_snooping *ms,
const struct dp_packet *p,
uint16_t vlan, void *port)
{
const struct in6_addr *addr;
size_t offset;
const struct mld_header *mld;
const struct mld2_record *record;
int count = 0;
int ngrp;
bool ret;
offset = (char *) dp_packet_l4(p) - (char *) dp_packet_data(p);
mld = dp_packet_at(p, offset, MLD_HEADER_LEN);
if (!mld) {
return 0;
}
ngrp = ntohs(mld->ngrp);
offset += MLD_HEADER_LEN;
addr = dp_packet_at(p, offset, sizeof(struct in6_addr));
switch (mld->type) {
case MLD_REPORT:
ret = mcast_snooping_add_group(ms, addr, vlan, port);
if (ret) {
count++;
}
break;
case MLD_DONE:
ret = mcast_snooping_leave_group(ms, addr, vlan, port);
if (ret) {
count++;
}
break;
case MLD2_REPORT:
while (ngrp--) {
record = dp_packet_at(p, offset, sizeof(struct mld2_record));
if (!record) {
break;
}
/* Only consider known record types. */
if (record->type >= IGMPV3_MODE_IS_INCLUDE
&& record->type <= IGMPV3_BLOCK_OLD_SOURCES) {
struct in6_addr maddr;
memcpy(maddr.s6_addr, record->maddr.be16, 16);
addr = &maddr;
/*
* If record is INCLUDE MODE and there are no sources, it's
* equivalent to a LEAVE.
*/
if (record->nsrcs == htons(0)
&& (record->type == IGMPV3_MODE_IS_INCLUDE
|| record->type == IGMPV3_CHANGE_TO_INCLUDE_MODE)) {
ret = mcast_snooping_leave_group(ms, addr, vlan, port);
} else {
ret = mcast_snooping_add_group(ms, addr, vlan, port);
}
if (ret) {
count++;
}
}
offset += sizeof(*record)
+ ntohs(record->nsrcs) * sizeof(struct in6_addr)
+ record->aux_len;
}
}
return count;
}
bool
mcast_snooping_leave_group(struct mcast_snooping *ms,
const struct in6_addr *addr,
uint16_t vlan, void *port)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_group *grp;
/* Ports flagged to forward Reports usually have more
* than one host behind it, so don't leave the group
* on the first message and just let it expire */
if (mcast_snooping_port_lookup(&ms->rport_list, port)) {
return false;
}
grp = mcast_snooping_lookup(ms, addr, vlan);
if (grp && mcast_group_delete_bundle(ms, grp, port)) {
ms->need_revalidate = true;
return true;
}
return false;
}
bool
mcast_snooping_leave_group4(struct mcast_snooping *ms, ovs_be32 ip4,
uint16_t vlan, void *port)
{
struct in6_addr addr = in6_addr_mapped_ipv4(ip4);
return mcast_snooping_leave_group(ms, &addr, vlan, port);
}
/* Router ports. */
/* Returns the number of seconds since the multicast router
* was learned in a port. */
int
mcast_mrouter_age(const struct mcast_snooping *ms OVS_UNUSED,
const struct mcast_mrouter_bundle *mrouter)
{
time_t remaining = mrouter->expires - time_now();
return MCAST_MROUTER_PORT_IDLE_TIME - remaining;
}
static struct mcast_mrouter_bundle *
mcast_mrouter_from_lru_node(struct ovs_list *list)
{
return CONTAINER_OF(list, struct mcast_mrouter_bundle, mrouter_node);
}
/* If the LRU list is not empty, stores the least-recently-used mrouter
* in '*m' and returns true. Otherwise, if the LRU list is empty,
* stores NULL in '*m' and return false. */
static bool
mrouter_get_lru(const struct mcast_snooping *ms,
struct mcast_mrouter_bundle **m)
OVS_REQ_RDLOCK(ms->rwlock)
{
if (!list_is_empty(&ms->mrouter_lru)) {
*m = mcast_mrouter_from_lru_node(ms->mrouter_lru.next);
return true;
} else {
*m = NULL;
return false;
}
}
static struct mcast_mrouter_bundle *
mcast_snooping_mrouter_lookup(struct mcast_snooping *ms, uint16_t vlan,
void *port)
OVS_REQ_RDLOCK(ms->rwlock)
{
struct mcast_mrouter_bundle *mrouter;
LIST_FOR_EACH (mrouter, mrouter_node, &ms->mrouter_lru) {
if (mrouter->vlan == vlan && mrouter->port == port) {
return mrouter;
}
}
return NULL;
}
bool
mcast_snooping_add_mrouter(struct mcast_snooping *ms, uint16_t vlan,
void *port)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_mrouter_bundle *mrouter;
/* Avoid duplicate packets. */
if (mcast_snooping_port_lookup(&ms->fport_list, port)) {
return false;
}
mrouter = mcast_snooping_mrouter_lookup(ms, vlan, port);
if (mrouter) {
list_remove(&mrouter->mrouter_node);
} else {
mrouter = xmalloc(sizeof *mrouter);
mrouter->vlan = vlan;
mrouter->port = port;
COVERAGE_INC(mcast_snooping_learned);
ms->need_revalidate = true;
}
mrouter->expires = time_now() + MCAST_MROUTER_PORT_IDLE_TIME;
list_push_back(&ms->mrouter_lru, &mrouter->mrouter_node);
return ms->need_revalidate;
}
static void
mcast_snooping_flush_mrouter(struct mcast_mrouter_bundle *mrouter)
{
list_remove(&mrouter->mrouter_node);
free(mrouter);
}
/* Ports */
static struct mcast_port_bundle *
mcast_port_from_list_node(struct ovs_list *list)
{
return CONTAINER_OF(list, struct mcast_port_bundle, node);
}
/* If the list is not empty, stores the fport in '*f' and returns true.
* Otherwise, if the list is empty, stores NULL in '*f' and return false. */
static bool
mcast_snooping_port_get(const struct ovs_list *list,
struct mcast_port_bundle **f)
{
if (!list_is_empty(list)) {
*f = mcast_port_from_list_node(list->next);
return true;
} else {
*f = NULL;
return false;
}
}
static struct mcast_port_bundle *
mcast_snooping_port_lookup(struct ovs_list *list, void *port)
{
struct mcast_port_bundle *pbundle;
LIST_FOR_EACH (pbundle, node, list) {
if (pbundle->port == port) {
return pbundle;
}
}
return NULL;
}
static void
mcast_snooping_add_port(struct ovs_list *list, void *port)
{
struct mcast_port_bundle *pbundle;
pbundle = xmalloc(sizeof *pbundle);
pbundle->port = port;
list_insert(list, &pbundle->node);
}
static void
mcast_snooping_flush_port(struct mcast_port_bundle *pbundle)
{
list_remove(&pbundle->node);
free(pbundle);
}
/* Flood ports. */
void
mcast_snooping_set_port_flood(struct mcast_snooping *ms, void *port,
bool flood)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_port_bundle *fbundle;
fbundle = mcast_snooping_port_lookup(&ms->fport_list, port);
if (flood && !fbundle) {
mcast_snooping_add_port(&ms->fport_list, port);
ms->need_revalidate = true;
} else if (!flood && fbundle) {
mcast_snooping_flush_port(fbundle);
ms->need_revalidate = true;
}
}
/* Flood Reports ports. */
void
mcast_snooping_set_port_flood_reports(struct mcast_snooping *ms, void *port,
bool flood)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_port_bundle *pbundle;
pbundle = mcast_snooping_port_lookup(&ms->rport_list, port);
if (flood && !pbundle) {
mcast_snooping_add_port(&ms->rport_list, port);
ms->need_revalidate = true;
} else if (!flood && pbundle) {
mcast_snooping_flush_port(pbundle);
ms->need_revalidate = true;
}
}
/* Run and flush. */
static void
mcast_snooping_mdb_flush__(struct mcast_snooping *ms)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_group *grp;
struct mcast_mrouter_bundle *mrouter;
while (group_get_lru(ms, &grp)) {
mcast_snooping_flush_group(ms, grp);
}
hmap_shrink(&ms->table);
while (mrouter_get_lru(ms, &mrouter)) {
mcast_snooping_flush_mrouter(mrouter);
}
}
void
mcast_snooping_mdb_flush(struct mcast_snooping *ms)
{
if (!mcast_snooping_enabled(ms)) {
return;
}
ovs_rwlock_wrlock(&ms->rwlock);
mcast_snooping_mdb_flush__(ms);
ovs_rwlock_unlock(&ms->rwlock);
}
/* Flushes mdb and flood ports. */
static void
mcast_snooping_flush__(struct mcast_snooping *ms)
OVS_REQ_WRLOCK(ms->rwlock)
{
struct mcast_group *grp;
struct mcast_mrouter_bundle *mrouter;
struct mcast_port_bundle *pbundle;
while (group_get_lru(ms, &grp)) {
mcast_snooping_flush_group(ms, grp);
}
hmap_shrink(&ms->table);
/* flush multicast routers */
while (mrouter_get_lru(ms, &mrouter)) {
mcast_snooping_flush_mrouter(mrouter);
}
/* flush flood ports */
while (mcast_snooping_port_get(&ms->fport_list, &pbundle)) {
mcast_snooping_flush_port(pbundle);
}
/* flush flood report ports */
while (mcast_snooping_port_get(&ms->rport_list, &pbundle)) {
mcast_snooping_flush_port(pbundle);
}
}
void
mcast_snooping_flush(struct mcast_snooping *ms)
{
if (!mcast_snooping_enabled(ms)) {
return;
}
ovs_rwlock_wrlock(&ms->rwlock);
mcast_snooping_flush__(ms);
ovs_rwlock_unlock(&ms->rwlock);
}
static bool
mcast_snooping_run__(struct mcast_snooping *ms)
OVS_REQ_WRLOCK(ms->rwlock)
{
bool need_revalidate;
struct mcast_group *grp;
struct mcast_mrouter_bundle *mrouter;
int mrouter_expired;
while (group_get_lru(ms, &grp)) {
if (hmap_count(&ms->table) > ms->max_entries) {
mcast_snooping_flush_group(ms, grp);
} else {
if (!mcast_snooping_prune_expired(ms, grp)) {
break;
}
}
}
hmap_shrink(&ms->table);
mrouter_expired = 0;
while (mrouter_get_lru(ms, &mrouter)
&& time_now() >= mrouter->expires) {
mcast_snooping_flush_mrouter(mrouter);
mrouter_expired++;
}
if (mrouter_expired) {
ms->need_revalidate = true;
COVERAGE_ADD(mcast_snooping_expired, mrouter_expired);
}
need_revalidate = ms->need_revalidate;
ms->need_revalidate = false;
return need_revalidate;
}
/* Does periodic work required by 'ms'. Returns true if something changed
* that may require flow revalidation. */
bool
mcast_snooping_run(struct mcast_snooping *ms)
{
bool need_revalidate;
if (!mcast_snooping_enabled(ms)) {
return false;
}
ovs_rwlock_wrlock(&ms->rwlock);
need_revalidate = mcast_snooping_run__(ms);
ovs_rwlock_unlock(&ms->rwlock);
return need_revalidate;
}
static void
mcast_snooping_wait__(struct mcast_snooping *ms)
OVS_REQ_RDLOCK(ms->rwlock)
{
if (hmap_count(&ms->table) > ms->max_entries
|| ms->need_revalidate) {
poll_immediate_wake();
} else {
struct mcast_group *grp;
struct mcast_group_bundle *bundle;
struct mcast_mrouter_bundle *mrouter;
long long int mrouter_msec;
long long int msec = 0;
if (!list_is_empty(&ms->group_lru)) {
grp = mcast_group_from_lru_node(ms->group_lru.next);
bundle = mcast_group_bundle_from_lru_node(grp->bundle_lru.next);
msec = bundle->expires * 1000LL;
}
if (!list_is_empty(&ms->mrouter_lru)) {
mrouter = mcast_mrouter_from_lru_node(ms->mrouter_lru.next);
mrouter_msec = mrouter->expires * 1000LL;
msec = msec ? MIN(msec, mrouter_msec) : mrouter_msec;
}
if (msec) {
poll_timer_wait_until(msec);
}
}
}
void
mcast_snooping_wait(struct mcast_snooping *ms)
{
if (!mcast_snooping_enabled(ms)) {
return;
}
ovs_rwlock_rdlock(&ms->rwlock);
mcast_snooping_wait__(ms);
ovs_rwlock_unlock(&ms->rwlock);
}
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