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/*
* Copyright (c) 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 <config.h>
#include "ofproto/ofproto-dpif.h"
#include "ofproto/ofproto-provider.h"
#include <errno.h>
#include "bfd.h"
#include "bond.h"
#include "bundle.h"
#include "byte-order.h"
#include "connectivity.h"
#include "connmgr.h"
#include "coverage.h"
#include "cfm.h"
#include "dpif.h"
#include "dynamic-string.h"
#include "fail-open.h"
#include "guarded-list.h"
#include "hmapx.h"
#include "lacp.h"
#include "learn.h"
#include "mac-learning.h"
#include "meta-flow.h"
#include "multipath.h"
#include "netdev-vport.h"
#include "netdev.h"
#include "netlink.h"
#include "nx-match.h"
#include "odp-util.h"
#include "odp-execute.h"
#include "ofp-util.h"
#include "ofpbuf.h"
#include "ofp-actions.h"
#include "ofp-parse.h"
#include "ofp-print.h"
#include "ofproto-dpif-ipfix.h"
#include "ofproto-dpif-mirror.h"
#include "ofproto-dpif-monitor.h"
#include "ofproto-dpif-sflow.h"
#include "ofproto-dpif-upcall.h"
#include "ofproto-dpif-xlate.h"
#include "poll-loop.h"
#include "seq.h"
#include "simap.h"
#include "smap.h"
#include "timer.h"
#include "tunnel.h"
#include "unaligned.h"
#include "unixctl.h"
#include "vlan-bitmap.h"
#include "vlog.h"
VLOG_DEFINE_THIS_MODULE(ofproto_dpif);
COVERAGE_DEFINE(ofproto_dpif_expired);
COVERAGE_DEFINE(packet_in_overflow);
/* Number of implemented OpenFlow tables. */
enum { N_TABLES = 255 };
enum { TBL_INTERNAL = N_TABLES - 1 }; /* Used for internal hidden rules. */
BUILD_ASSERT_DECL(N_TABLES >= 2 && N_TABLES <= 255);
struct flow_miss;
struct rule_dpif {
struct rule up;
/* These statistics:
*
* - Do include packets and bytes from datapath flows which have not
* recently been processed by a revalidator. */
struct ovs_mutex stats_mutex;
uint64_t packet_count OVS_GUARDED; /* Number of packets received. */
uint64_t byte_count OVS_GUARDED; /* Number of bytes received. */
};
static void rule_get_stats(struct rule *, uint64_t *packets, uint64_t *bytes);
static struct rule_dpif *rule_dpif_cast(const struct rule *);
static void rule_expire(struct rule_dpif *);
struct group_dpif {
struct ofgroup up;
/* These statistics:
*
* - Do include packets and bytes from datapath flows which have not
* recently been processed by a revalidator. */
struct ovs_mutex stats_mutex;
uint64_t packet_count OVS_GUARDED; /* Number of packets received. */
uint64_t byte_count OVS_GUARDED; /* Number of bytes received. */
struct bucket_counter *bucket_stats OVS_GUARDED; /* Bucket statistics. */
};
struct ofbundle {
struct hmap_node hmap_node; /* In struct ofproto's "bundles" hmap. */
struct ofproto_dpif *ofproto; /* Owning ofproto. */
void *aux; /* Key supplied by ofproto's client. */
char *name; /* Identifier for log messages. */
/* Configuration. */
struct list ports; /* Contains "struct ofport"s. */
enum port_vlan_mode vlan_mode; /* VLAN mode */
int vlan; /* -1=trunk port, else a 12-bit VLAN ID. */
unsigned long *trunks; /* Bitmap of trunked VLANs, if 'vlan' == -1.
* NULL if all VLANs are trunked. */
struct lacp *lacp; /* LACP if LACP is enabled, otherwise NULL. */
struct bond *bond; /* Nonnull iff more than one port. */
bool use_priority_tags; /* Use 802.1p tag for frames in VLAN 0? */
/* Status. */
bool floodable; /* True if no port has OFPUTIL_PC_NO_FLOOD set. */
};
static void bundle_remove(struct ofport *);
static void bundle_update(struct ofbundle *);
static void bundle_destroy(struct ofbundle *);
static void bundle_del_port(struct ofport_dpif *);
static void bundle_run(struct ofbundle *);
static void bundle_wait(struct ofbundle *);
static void stp_run(struct ofproto_dpif *ofproto);
static void stp_wait(struct ofproto_dpif *ofproto);
static int set_stp_port(struct ofport *,
const struct ofproto_port_stp_settings *);
struct ofport_dpif {
struct hmap_node odp_port_node; /* In dpif_backer's "odp_to_ofport_map". */
struct ofport up;
odp_port_t odp_port;
struct ofbundle *bundle; /* Bundle that contains this port, if any. */
struct list bundle_node; /* In struct ofbundle's "ports" list. */
struct cfm *cfm; /* Connectivity Fault Management, if any. */
struct bfd *bfd; /* BFD, if any. */
bool may_enable; /* May be enabled in bonds. */
bool is_tunnel; /* This port is a tunnel. */
bool is_layer3; /* This is a layer 3 port. */
long long int carrier_seq; /* Carrier status changes. */
struct ofport_dpif *peer; /* Peer if patch port. */
/* Spanning tree. */
struct stp_port *stp_port; /* Spanning Tree Protocol, if any. */
enum stp_state stp_state; /* Always STP_DISABLED if STP not in use. */
long long int stp_state_entered;
/* Queue to DSCP mapping. */
struct ofproto_port_queue *qdscp;
size_t n_qdscp;
/* Linux VLAN device support (e.g. "eth0.10" for VLAN 10.)
*
* This is deprecated. It is only for compatibility with broken device
* drivers in old versions of Linux that do not properly support VLANs when
* VLAN devices are not used. When broken device drivers are no longer in
* widespread use, we will delete these interfaces. */
ofp_port_t realdev_ofp_port;
int vlandev_vid;
};
/* Linux VLAN device support (e.g. "eth0.10" for VLAN 10.)
*
* This is deprecated. It is only for compatibility with broken device drivers
* in old versions of Linux that do not properly support VLANs when VLAN
* devices are not used. When broken device drivers are no longer in
* widespread use, we will delete these interfaces. */
struct vlan_splinter {
struct hmap_node realdev_vid_node;
struct hmap_node vlandev_node;
ofp_port_t realdev_ofp_port;
ofp_port_t vlandev_ofp_port;
int vid;
};
static void vsp_remove(struct ofport_dpif *);
static void vsp_add(struct ofport_dpif *, ofp_port_t realdev_ofp_port, int vid);
static odp_port_t ofp_port_to_odp_port(const struct ofproto_dpif *,
ofp_port_t);
static ofp_port_t odp_port_to_ofp_port(const struct ofproto_dpif *,
odp_port_t);
static struct ofport_dpif *
ofport_dpif_cast(const struct ofport *ofport)
{
return ofport ? CONTAINER_OF(ofport, struct ofport_dpif, up) : NULL;
}
static void port_run(struct ofport_dpif *);
static int set_bfd(struct ofport *, const struct smap *);
static int set_cfm(struct ofport *, const struct cfm_settings *);
static void ofport_update_peer(struct ofport_dpif *);
struct dpif_completion {
struct list list_node;
struct ofoperation *op;
};
/* Reasons that we might need to revalidate every datapath flow, and
* corresponding coverage counters.
*
* A value of 0 means that there is no need to revalidate.
*
* It would be nice to have some cleaner way to integrate with coverage
* counters, but with only a few reasons I guess this is good enough for
* now. */
enum revalidate_reason {
REV_RECONFIGURE = 1, /* Switch configuration changed. */
REV_STP, /* Spanning tree protocol port status change. */
REV_BOND, /* Bonding changed. */
REV_PORT_TOGGLED, /* Port enabled or disabled by CFM, LACP, ...*/
REV_FLOW_TABLE, /* Flow table changed. */
REV_MAC_LEARNING, /* Mac learning changed. */
};
COVERAGE_DEFINE(rev_reconfigure);
COVERAGE_DEFINE(rev_stp);
COVERAGE_DEFINE(rev_bond);
COVERAGE_DEFINE(rev_port_toggled);
COVERAGE_DEFINE(rev_flow_table);
COVERAGE_DEFINE(rev_mac_learning);
/* All datapaths of a given type share a single dpif backer instance. */
struct dpif_backer {
char *type;
int refcount;
struct dpif *dpif;
struct udpif *udpif;
struct ovs_rwlock odp_to_ofport_lock;
struct hmap odp_to_ofport_map OVS_GUARDED; /* Contains "struct ofport"s. */
struct simap tnl_backers; /* Set of dpif ports backing tunnels. */
enum revalidate_reason need_revalidate; /* Revalidate all flows. */
bool recv_set_enable; /* Enables or disables receiving packets. */
/* True if the datapath supports variable-length
* OVS_USERSPACE_ATTR_USERDATA in OVS_ACTION_ATTR_USERSPACE actions.
* False if the datapath supports only 8-byte (or shorter) userdata. */
bool variable_length_userdata;
};
/* All existing ofproto_backer instances, indexed by ofproto->up.type. */
static struct shash all_dpif_backers = SHASH_INITIALIZER(&all_dpif_backers);
struct ofproto_dpif {
struct hmap_node all_ofproto_dpifs_node; /* In 'all_ofproto_dpifs'. */
struct ofproto up;
struct dpif_backer *backer;
uint64_t dump_seq; /* Last read of udpif_dump_seq(). */
/* Special OpenFlow rules. */
struct rule_dpif *miss_rule; /* Sends flow table misses to controller. */
struct rule_dpif *no_packet_in_rule; /* Drops flow table misses. */
struct rule_dpif *drop_frags_rule; /* Used in OFPC_FRAG_DROP mode. */
/* Bridging. */
struct netflow *netflow;
struct dpif_sflow *sflow;
struct dpif_ipfix *ipfix;
struct hmap bundles; /* Contains "struct ofbundle"s. */
struct mac_learning *ml;
bool has_bonded_bundles;
bool lacp_enabled;
struct mbridge *mbridge;
struct ovs_mutex stats_mutex;
struct netdev_stats stats OVS_GUARDED; /* To account packets generated and
* consumed in userspace. */
/* Spanning tree. */
struct stp *stp;
long long int stp_last_tick;
/* VLAN splinters. */
struct ovs_mutex vsp_mutex;
struct hmap realdev_vid_map OVS_GUARDED; /* (realdev,vid) -> vlandev. */
struct hmap vlandev_map OVS_GUARDED; /* vlandev -> (realdev,vid). */
/* Ports. */
struct sset ports; /* Set of standard port names. */
struct sset ghost_ports; /* Ports with no datapath port. */
struct sset port_poll_set; /* Queued names for port_poll() reply. */
int port_poll_errno; /* Last errno for port_poll() reply. */
uint64_t change_seq; /* Connectivity status changes. */
/* Work queues. */
struct guarded_list pins; /* Contains "struct ofputil_packet_in"s. */
};
/* All existing ofproto_dpif instances, indexed by ->up.name. */
static struct hmap all_ofproto_dpifs = HMAP_INITIALIZER(&all_ofproto_dpifs);
static void ofproto_dpif_unixctl_init(void);
static inline struct ofproto_dpif *
ofproto_dpif_cast(const struct ofproto *ofproto)
{
ovs_assert(ofproto->ofproto_class == &ofproto_dpif_class);
return CONTAINER_OF(ofproto, struct ofproto_dpif, up);
}
static struct ofport_dpif *get_ofp_port(const struct ofproto_dpif *ofproto,
ofp_port_t ofp_port);
static void ofproto_trace(struct ofproto_dpif *, const struct flow *,
const struct ofpbuf *packet,
const struct ofpact[], size_t ofpacts_len,
struct ds *);
/* Global variables. */
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
/* Initial mappings of port to bridge mappings. */
static struct shash init_ofp_ports = SHASH_INITIALIZER(&init_ofp_ports);
/* Executes 'fm'. The caller retains ownership of 'fm' and everything in
* it. */
void
ofproto_dpif_flow_mod(struct ofproto_dpif *ofproto,
struct ofputil_flow_mod *fm)
{
ofproto_flow_mod(&ofproto->up, fm);
}
/* Appends 'pin' to the queue of "packet ins" to be sent to the controller.
* Takes ownership of 'pin' and pin->packet. */
void
ofproto_dpif_send_packet_in(struct ofproto_dpif *ofproto,
struct ofproto_packet_in *pin)
{
if (!guarded_list_push_back(&ofproto->pins, &pin->list_node, 1024)) {
COVERAGE_INC(packet_in_overflow);
free(CONST_CAST(void *, pin->up.packet));
free(pin);
}
}
/* Factory functions. */
static void
init(const struct shash *iface_hints)
{
struct shash_node *node;
/* Make a local copy, since we don't own 'iface_hints' elements. */
SHASH_FOR_EACH(node, iface_hints) {
const struct iface_hint *orig_hint = node->data;
struct iface_hint *new_hint = xmalloc(sizeof *new_hint);
new_hint->br_name = xstrdup(orig_hint->br_name);
new_hint->br_type = xstrdup(orig_hint->br_type);
new_hint->ofp_port = orig_hint->ofp_port;
shash_add(&init_ofp_ports, node->name, new_hint);
}
}
static void
enumerate_types(struct sset *types)
{
dp_enumerate_types(types);
}
static int
enumerate_names(const char *type, struct sset *names)
{
struct ofproto_dpif *ofproto;
sset_clear(names);
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
if (strcmp(type, ofproto->up.type)) {
continue;
}
sset_add(names, ofproto->up.name);
}
return 0;
}
static int
del(const char *type, const char *name)
{
struct dpif *dpif;
int error;
error = dpif_open(name, type, &dpif);
if (!error) {
error = dpif_delete(dpif);
dpif_close(dpif);
}
return error;
}
static const char *
port_open_type(const char *datapath_type, const char *port_type)
{
return dpif_port_open_type(datapath_type, port_type);
}
/* Type functions. */
static void process_dpif_port_changes(struct dpif_backer *);
static void process_dpif_all_ports_changed(struct dpif_backer *);
static void process_dpif_port_change(struct dpif_backer *,
const char *devname);
static void process_dpif_port_error(struct dpif_backer *, int error);
static struct ofproto_dpif *
lookup_ofproto_dpif_by_port_name(const char *name)
{
struct ofproto_dpif *ofproto;
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
if (sset_contains(&ofproto->ports, name)) {
return ofproto;
}
}
return NULL;
}
static int
type_run(const char *type)
{
struct dpif_backer *backer;
backer = shash_find_data(&all_dpif_backers, type);
if (!backer) {
/* This is not necessarily a problem, since backers are only
* created on demand. */
return 0;
}
dpif_run(backer->dpif);
/* If vswitchd started with other_config:flow_restore_wait set as "true",
* and the configuration has now changed to "false", enable receiving
* packets from the datapath. */
if (!backer->recv_set_enable && !ofproto_get_flow_restore_wait()) {
int error;
backer->recv_set_enable = true;
error = dpif_recv_set(backer->dpif, backer->recv_set_enable);
if (error) {
VLOG_ERR("Failed to enable receiving packets in dpif.");
return error;
}
dpif_flow_flush(backer->dpif);
backer->need_revalidate = REV_RECONFIGURE;
}
if (backer->recv_set_enable) {
udpif_set_threads(backer->udpif, n_handlers, n_revalidators);
}
if (backer->need_revalidate) {
struct ofproto_dpif *ofproto;
struct simap_node *node;
struct simap tmp_backers;
/* Handle tunnel garbage collection. */
simap_init(&tmp_backers);
simap_swap(&backer->tnl_backers, &tmp_backers);
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
struct ofport_dpif *iter;
if (backer != ofproto->backer) {
continue;
}
HMAP_FOR_EACH (iter, up.hmap_node, &ofproto->up.ports) {
char namebuf[NETDEV_VPORT_NAME_BUFSIZE];
const char *dp_port;
if (!iter->is_tunnel) {
continue;
}
dp_port = netdev_vport_get_dpif_port(iter->up.netdev,
namebuf, sizeof namebuf);
node = simap_find(&tmp_backers, dp_port);
if (node) {
simap_put(&backer->tnl_backers, dp_port, node->data);
simap_delete(&tmp_backers, node);
node = simap_find(&backer->tnl_backers, dp_port);
} else {
node = simap_find(&backer->tnl_backers, dp_port);
if (!node) {
odp_port_t odp_port = ODPP_NONE;
if (!dpif_port_add(backer->dpif, iter->up.netdev,
&odp_port)) {
simap_put(&backer->tnl_backers, dp_port,
odp_to_u32(odp_port));
node = simap_find(&backer->tnl_backers, dp_port);
}
}
}
iter->odp_port = node ? u32_to_odp(node->data) : ODPP_NONE;
if (tnl_port_reconfigure(iter, iter->up.netdev,
iter->odp_port)) {
backer->need_revalidate = REV_RECONFIGURE;
}
}
}
SIMAP_FOR_EACH (node, &tmp_backers) {
dpif_port_del(backer->dpif, u32_to_odp(node->data));
}
simap_destroy(&tmp_backers);
switch (backer->need_revalidate) {
case REV_RECONFIGURE: COVERAGE_INC(rev_reconfigure); break;
case REV_STP: COVERAGE_INC(rev_stp); break;
case REV_BOND: COVERAGE_INC(rev_bond); break;
case REV_PORT_TOGGLED: COVERAGE_INC(rev_port_toggled); break;
case REV_FLOW_TABLE: COVERAGE_INC(rev_flow_table); break;
case REV_MAC_LEARNING: COVERAGE_INC(rev_mac_learning); break;
}
backer->need_revalidate = 0;
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
struct ofport_dpif *ofport;
struct ofbundle *bundle;
if (ofproto->backer != backer) {
continue;
}
ovs_rwlock_wrlock(&xlate_rwlock);
xlate_ofproto_set(ofproto, ofproto->up.name,
ofproto->backer->dpif, ofproto->miss_rule,
ofproto->no_packet_in_rule, ofproto->ml,
ofproto->stp, ofproto->mbridge,
ofproto->sflow, ofproto->ipfix,
ofproto->netflow, ofproto->up.frag_handling,
ofproto->up.forward_bpdu,
connmgr_has_in_band(ofproto->up.connmgr),
ofproto->backer->variable_length_userdata);
HMAP_FOR_EACH (bundle, hmap_node, &ofproto->bundles) {
xlate_bundle_set(ofproto, bundle, bundle->name,
bundle->vlan_mode, bundle->vlan,
bundle->trunks, bundle->use_priority_tags,
bundle->bond, bundle->lacp,
bundle->floodable);
}
HMAP_FOR_EACH (ofport, up.hmap_node, &ofproto->up.ports) {
int stp_port = ofport->stp_port
? stp_port_no(ofport->stp_port)
: -1;
xlate_ofport_set(ofproto, ofport->bundle, ofport,
ofport->up.ofp_port, ofport->odp_port,
ofport->up.netdev, ofport->cfm,
ofport->bfd, ofport->peer, stp_port,
ofport->qdscp, ofport->n_qdscp,
ofport->up.pp.config, ofport->up.pp.state,
ofport->is_tunnel, ofport->may_enable);
}
ovs_rwlock_unlock(&xlate_rwlock);
}
udpif_revalidate(backer->udpif);
}
process_dpif_port_changes(backer);
return 0;
}
/* Check for and handle port changes in 'backer''s dpif. */
static void
process_dpif_port_changes(struct dpif_backer *backer)
{
for (;;) {
char *devname;
int error;
error = dpif_port_poll(backer->dpif, &devname);
switch (error) {
case EAGAIN:
return;
case ENOBUFS:
process_dpif_all_ports_changed(backer);
break;
case 0:
process_dpif_port_change(backer, devname);
free(devname);
break;
default:
process_dpif_port_error(backer, error);
break;
}
}
}
static void
process_dpif_all_ports_changed(struct dpif_backer *backer)
{
struct ofproto_dpif *ofproto;
struct dpif_port dpif_port;
struct dpif_port_dump dump;
struct sset devnames;
const char *devname;
sset_init(&devnames);
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
if (ofproto->backer == backer) {
struct ofport *ofport;
HMAP_FOR_EACH (ofport, hmap_node, &ofproto->up.ports) {
sset_add(&devnames, netdev_get_name(ofport->netdev));
}
}
}
DPIF_PORT_FOR_EACH (&dpif_port, &dump, backer->dpif) {
sset_add(&devnames, dpif_port.name);
}
SSET_FOR_EACH (devname, &devnames) {
process_dpif_port_change(backer, devname);
}
sset_destroy(&devnames);
}
static void
process_dpif_port_change(struct dpif_backer *backer, const char *devname)
{
struct ofproto_dpif *ofproto;
struct dpif_port port;
/* Don't report on the datapath's device. */
if (!strcmp(devname, dpif_base_name(backer->dpif))) {
return;
}
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node,
&all_ofproto_dpifs) {
if (simap_contains(&ofproto->backer->tnl_backers, devname)) {
return;
}
}
ofproto = lookup_ofproto_dpif_by_port_name(devname);
if (dpif_port_query_by_name(backer->dpif, devname, &port)) {
/* The port was removed. If we know the datapath,
* report it through poll_set(). If we don't, it may be
* notifying us of a removal we initiated, so ignore it.
* If there's a pending ENOBUFS, let it stand, since
* everything will be reevaluated. */
if (ofproto && ofproto->port_poll_errno != ENOBUFS) {
sset_add(&ofproto->port_poll_set, devname);
ofproto->port_poll_errno = 0;
}
} else if (!ofproto) {
/* The port was added, but we don't know with which
* ofproto we should associate it. Delete it. */
dpif_port_del(backer->dpif, port.port_no);
} else {
struct ofport_dpif *ofport;
ofport = ofport_dpif_cast(shash_find_data(
&ofproto->up.port_by_name, devname));
if (ofport
&& ofport->odp_port != port.port_no
&& !odp_port_to_ofport(backer, port.port_no))
{
/* 'ofport''s datapath port number has changed from
* 'ofport->odp_port' to 'port.port_no'. Update our internal data
* structures to match. */
ovs_rwlock_wrlock(&backer->odp_to_ofport_lock);
hmap_remove(&backer->odp_to_ofport_map, &ofport->odp_port_node);
ofport->odp_port = port.port_no;
hmap_insert(&backer->odp_to_ofport_map, &ofport->odp_port_node,
hash_odp_port(port.port_no));
ovs_rwlock_unlock(&backer->odp_to_ofport_lock);
backer->need_revalidate = REV_RECONFIGURE;
}
}
dpif_port_destroy(&port);
}
/* Propagate 'error' to all ofprotos based on 'backer'. */
static void
process_dpif_port_error(struct dpif_backer *backer, int error)
{
struct ofproto_dpif *ofproto;
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
if (ofproto->backer == backer) {
sset_clear(&ofproto->port_poll_set);
ofproto->port_poll_errno = error;
}
}
}
static void
type_wait(const char *type)
{
struct dpif_backer *backer;
backer = shash_find_data(&all_dpif_backers, type);
if (!backer) {
/* This is not necessarily a problem, since backers are only
* created on demand. */
return;
}
dpif_wait(backer->dpif);
}
/* Basic life-cycle. */
static int add_internal_flows(struct ofproto_dpif *);
static struct ofproto *
alloc(void)
{
struct ofproto_dpif *ofproto = xmalloc(sizeof *ofproto);
return &ofproto->up;
}
static void
dealloc(struct ofproto *ofproto_)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
free(ofproto);
}
static void
close_dpif_backer(struct dpif_backer *backer)
{
ovs_assert(backer->refcount > 0);
if (--backer->refcount) {
return;
}
udpif_destroy(backer->udpif);
simap_destroy(&backer->tnl_backers);
ovs_rwlock_destroy(&backer->odp_to_ofport_lock);
hmap_destroy(&backer->odp_to_ofport_map);
shash_find_and_delete(&all_dpif_backers, backer->type);
free(backer->type);
dpif_close(backer->dpif);
free(backer);
}
/* Datapath port slated for removal from datapath. */
struct odp_garbage {
struct list list_node;
odp_port_t odp_port;
};
static bool check_variable_length_userdata(struct dpif_backer *backer);
static int
open_dpif_backer(const char *type, struct dpif_backer **backerp)
{
struct dpif_backer *backer;
struct dpif_port_dump port_dump;
struct dpif_port port;
struct shash_node *node;
struct list garbage_list;
struct odp_garbage *garbage, *next;
struct sset names;
char *backer_name;
const char *name;
int error;
backer = shash_find_data(&all_dpif_backers, type);
if (backer) {
backer->refcount++;
*backerp = backer;
return 0;
}
backer_name = xasprintf("ovs-%s", type);
/* Remove any existing datapaths, since we assume we're the only
* userspace controlling the datapath. */
sset_init(&names);
dp_enumerate_names(type, &names);
SSET_FOR_EACH(name, &names) {
struct dpif *old_dpif;
/* Don't remove our backer if it exists. */
if (!strcmp(name, backer_name)) {
continue;
}
if (dpif_open(name, type, &old_dpif)) {
VLOG_WARN("couldn't open old datapath %s to remove it", name);
} else {
dpif_delete(old_dpif);
dpif_close(old_dpif);
}
}
sset_destroy(&names);
backer = xmalloc(sizeof *backer);
error = dpif_create_and_open(backer_name, type, &backer->dpif);
free(backer_name);
if (error) {
VLOG_ERR("failed to open datapath of type %s: %s", type,
ovs_strerror(error));
free(backer);
return error;
}
backer->udpif = udpif_create(backer, backer->dpif);
backer->type = xstrdup(type);
backer->refcount = 1;
hmap_init(&backer->odp_to_ofport_map);
ovs_rwlock_init(&backer->odp_to_ofport_lock);
backer->need_revalidate = 0;
simap_init(&backer->tnl_backers);
backer->recv_set_enable = !ofproto_get_flow_restore_wait();
*backerp = backer;
if (backer->recv_set_enable) {
dpif_flow_flush(backer->dpif);
}
/* Loop through the ports already on the datapath and remove any
* that we don't need anymore. */
list_init(&garbage_list);
dpif_port_dump_start(&port_dump, backer->dpif);
while (dpif_port_dump_next(&port_dump, &port)) {
node = shash_find(&init_ofp_ports, port.name);
if (!node && strcmp(port.name, dpif_base_name(backer->dpif))) {
garbage = xmalloc(sizeof *garbage);
garbage->odp_port = port.port_no;
list_push_front(&garbage_list, &garbage->list_node);
}
}
dpif_port_dump_done(&port_dump);
LIST_FOR_EACH_SAFE (garbage, next, list_node, &garbage_list) {
dpif_port_del(backer->dpif, garbage->odp_port);
list_remove(&garbage->list_node);
free(garbage);
}
shash_add(&all_dpif_backers, type, backer);
error = dpif_recv_set(backer->dpif, backer->recv_set_enable);
if (error) {
VLOG_ERR("failed to listen on datapath of type %s: %s",
type, ovs_strerror(error));
close_dpif_backer(backer);
return error;
}
backer->variable_length_userdata = check_variable_length_userdata(backer);
if (backer->recv_set_enable) {
udpif_set_threads(backer->udpif, n_handlers, n_revalidators);
}
return error;
}
/* Tests whether 'backer''s datapath supports variable-length
* OVS_USERSPACE_ATTR_USERDATA in OVS_ACTION_ATTR_USERSPACE actions. We need
* to disable some features on older datapaths that don't support this
* feature.
*
* Returns false if 'backer' definitely does not support variable-length
* userdata, true if it seems to support them or if at least the error we get
* is ambiguous. */
static bool
check_variable_length_userdata(struct dpif_backer *backer)
{
struct eth_header *eth;
struct ofpbuf actions;
struct dpif_execute execute;
struct ofpbuf packet;
size_t start;
int error;
/* Compose a userspace action that will cause an ERANGE error on older
* datapaths that don't support variable-length userdata.
*
* We really test for using userdata longer than 8 bytes, but older
* datapaths accepted these, silently truncating the userdata to 8 bytes.
* The same older datapaths rejected userdata shorter than 8 bytes, so we
* test for that instead as a proxy for longer userdata support. */
ofpbuf_init(&actions, 64);
start = nl_msg_start_nested(&actions, OVS_ACTION_ATTR_USERSPACE);
nl_msg_put_u32(&actions, OVS_USERSPACE_ATTR_PID,
dpif_port_get_pid(backer->dpif, ODPP_NONE));
nl_msg_put_unspec_zero(&actions, OVS_USERSPACE_ATTR_USERDATA, 4);
nl_msg_end_nested(&actions, start);
/* Compose a dummy ethernet packet. */
ofpbuf_init(&packet, ETH_HEADER_LEN);
eth = ofpbuf_put_zeros(&packet, ETH_HEADER_LEN);
eth->eth_type = htons(0x1234);
/* Execute the actions. On older datapaths this fails with ERANGE, on
* newer datapaths it succeeds. */
execute.actions = actions.data;
execute.actions_len = actions.size;
execute.packet = &packet;
execute.md = PKT_METADATA_INITIALIZER(0);
execute.needs_help = false;
error = dpif_execute(backer->dpif, &execute);
ofpbuf_uninit(&packet);
ofpbuf_uninit(&actions);
switch (error) {
case 0:
/* Variable-length userdata is supported.
*
* Purge received packets to avoid processing the nonsense packet we
* sent to userspace, then report success. */
dpif_recv_purge(backer->dpif);
return true;
case ERANGE:
/* Variable-length userdata is not supported. */
VLOG_WARN("%s: datapath does not support variable-length userdata "
"feature (needs Linux 3.10+ or kernel module from OVS "
"1..11+). The NXAST_SAMPLE action will be ignored.",
dpif_name(backer->dpif));
return false;
default:
/* Something odd happened. We're not sure whether variable-length
* userdata is supported. Default to "yes". */
VLOG_WARN("%s: variable-length userdata feature probe failed (%s)",
dpif_name(backer->dpif), ovs_strerror(error));
return true;
}
}
static int
construct(struct ofproto *ofproto_)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct shash_node *node, *next;
int error;
error = open_dpif_backer(ofproto->up.type, &ofproto->backer);
if (error) {
return error;
}
ofproto->netflow = NULL;
ofproto->sflow = NULL;
ofproto->ipfix = NULL;
ofproto->stp = NULL;
ofproto->dump_seq = 0;
hmap_init(&ofproto->bundles);
ofproto->ml = mac_learning_create(MAC_ENTRY_DEFAULT_IDLE_TIME);
ofproto->mbridge = mbridge_create();
ofproto->has_bonded_bundles = false;
ofproto->lacp_enabled = false;
ovs_mutex_init(&ofproto->stats_mutex);
ovs_mutex_init(&ofproto->vsp_mutex);
guarded_list_init(&ofproto->pins);
ofproto_dpif_unixctl_init();
hmap_init(&ofproto->vlandev_map);
hmap_init(&ofproto->realdev_vid_map);
sset_init(&ofproto->ports);
sset_init(&ofproto->ghost_ports);
sset_init(&ofproto->port_poll_set);
ofproto->port_poll_errno = 0;
ofproto->change_seq = 0;
SHASH_FOR_EACH_SAFE (node, next, &init_ofp_ports) {
struct iface_hint *iface_hint = node->data;
if (!strcmp(iface_hint->br_name, ofproto->up.name)) {
/* Check if the datapath already has this port. */
if (dpif_port_exists(ofproto->backer->dpif, node->name)) {
sset_add(&ofproto->ports, node->name);
}
free(iface_hint->br_name);
free(iface_hint->br_type);
free(iface_hint);
shash_delete(&init_ofp_ports, node);
}
}
hmap_insert(&all_ofproto_dpifs, &ofproto->all_ofproto_dpifs_node,
hash_string(ofproto->up.name, 0));
memset(&ofproto->stats, 0, sizeof ofproto->stats);
ofproto_init_tables(ofproto_, N_TABLES);
error = add_internal_flows(ofproto);
ofproto->up.tables[TBL_INTERNAL].flags = OFTABLE_HIDDEN | OFTABLE_READONLY;
return error;
}
static int
add_internal_flow(struct ofproto_dpif *ofproto, int id,
const struct ofpbuf *ofpacts, struct rule_dpif **rulep)
{
struct ofputil_flow_mod fm;
int error;
match_init_catchall(&fm.match);
fm.priority = 0;
match_set_reg(&fm.match, 0, id);
fm.new_cookie = htonll(0);
fm.cookie = htonll(0);
fm.cookie_mask = htonll(0);
fm.modify_cookie = false;
fm.table_id = TBL_INTERNAL;
fm.command = OFPFC_ADD;
fm.idle_timeout = 0;
fm.hard_timeout = 0;
fm.buffer_id = 0;
fm.out_port = 0;
fm.flags = 0;
fm.ofpacts = ofpacts->data;
fm.ofpacts_len = ofpacts->size;
error = ofproto_flow_mod(&ofproto->up, &fm);
if (error) {
VLOG_ERR_RL(&rl, "failed to add internal flow %d (%s)",
id, ofperr_to_string(error));
return error;
}
if (rule_dpif_lookup_in_table(ofproto, &fm.match.flow, NULL, TBL_INTERNAL,
rulep)) {
rule_dpif_unref(*rulep);
} else {
OVS_NOT_REACHED();
}
return 0;
}
static int
add_internal_flows(struct ofproto_dpif *ofproto)
{
struct ofpact_controller *controller;
uint64_t ofpacts_stub[128 / 8];
struct ofpbuf ofpacts;
int error;
int id;
ofpbuf_use_stack(&ofpacts, ofpacts_stub, sizeof ofpacts_stub);
id = 1;
controller = ofpact_put_CONTROLLER(&ofpacts);
controller->max_len = UINT16_MAX;
controller->controller_id = 0;
controller->reason = OFPR_NO_MATCH;
ofpact_pad(&ofpacts);
error = add_internal_flow(ofproto, id++, &ofpacts, &ofproto->miss_rule);
if (error) {
return error;
}
ofpbuf_clear(&ofpacts);
error = add_internal_flow(ofproto, id++, &ofpacts,
&ofproto->no_packet_in_rule);
if (error) {
return error;
}
error = add_internal_flow(ofproto, id++, &ofpacts,
&ofproto->drop_frags_rule);
return error;
}
static void
destruct(struct ofproto *ofproto_)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct rule_dpif *rule, *next_rule;
struct ofproto_packet_in *pin, *next_pin;
struct oftable *table;
struct list pins;
ofproto->backer->need_revalidate = REV_RECONFIGURE;
ovs_rwlock_wrlock(&xlate_rwlock);
xlate_remove_ofproto(ofproto);
ovs_rwlock_unlock(&xlate_rwlock);
/* Discard any flow_miss_batches queued up for 'ofproto', avoiding a
* use-after-free error. */
udpif_revalidate(ofproto->backer->udpif);
hmap_remove(&all_ofproto_dpifs, &ofproto->all_ofproto_dpifs_node);
OFPROTO_FOR_EACH_TABLE (table, &ofproto->up) {
struct cls_cursor cursor;
ovs_rwlock_rdlock(&table->cls.rwlock);
cls_cursor_init(&cursor, &table->cls, NULL);
ovs_rwlock_unlock(&table->cls.rwlock);
CLS_CURSOR_FOR_EACH_SAFE (rule, next_rule, up.cr, &cursor) {
ofproto_rule_delete(&ofproto->up, &rule->up);
}
}
guarded_list_pop_all(&ofproto->pins, &pins);
LIST_FOR_EACH_SAFE (pin, next_pin, list_node, &pins) {
list_remove(&pin->list_node);
free(CONST_CAST(void *, pin->up.packet));
free(pin);
}
guarded_list_destroy(&ofproto->pins);
mbridge_unref(ofproto->mbridge);
netflow_unref(ofproto->netflow);
dpif_sflow_unref(ofproto->sflow);
hmap_destroy(&ofproto->bundles);
mac_learning_unref(ofproto->ml);
hmap_destroy(&ofproto->vlandev_map);
hmap_destroy(&ofproto->realdev_vid_map);
sset_destroy(&ofproto->ports);
sset_destroy(&ofproto->ghost_ports);
sset_destroy(&ofproto->port_poll_set);
ovs_mutex_destroy(&ofproto->stats_mutex);
ovs_mutex_destroy(&ofproto->vsp_mutex);
close_dpif_backer(ofproto->backer);
}
static int
run(struct ofproto *ofproto_)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
uint64_t new_seq, new_dump_seq;
if (mbridge_need_revalidate(ofproto->mbridge)) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
ovs_rwlock_wrlock(&ofproto->ml->rwlock);
mac_learning_flush(ofproto->ml);
ovs_rwlock_unlock(&ofproto->ml->rwlock);
}
/* Do not perform any periodic activity required by 'ofproto' while
* waiting for flow restore to complete. */
if (!ofproto_get_flow_restore_wait()) {
struct ofproto_packet_in *pin, *next_pin;
struct list pins;
guarded_list_pop_all(&ofproto->pins, &pins);
LIST_FOR_EACH_SAFE (pin, next_pin, list_node, &pins) {
connmgr_send_packet_in(ofproto->up.connmgr, pin);
list_remove(&pin->list_node);
free(CONST_CAST(void *, pin->up.packet));
free(pin);
}
}
if (ofproto->netflow) {
netflow_run(ofproto->netflow);
}
if (ofproto->sflow) {
dpif_sflow_run(ofproto->sflow);
}
if (ofproto->ipfix) {
dpif_ipfix_run(ofproto->ipfix);
}
new_seq = seq_read(connectivity_seq_get());
if (ofproto->change_seq != new_seq) {
struct ofport_dpif *ofport;
HMAP_FOR_EACH (ofport, up.hmap_node, &ofproto->up.ports) {
port_run(ofport);
}
ofproto->change_seq = new_seq;
}
if (ofproto->lacp_enabled || ofproto->has_bonded_bundles) {
struct ofbundle *bundle;
HMAP_FOR_EACH (bundle, hmap_node, &ofproto->bundles) {
bundle_run(bundle);
}
}
stp_run(ofproto);
ovs_rwlock_wrlock(&ofproto->ml->rwlock);
if (mac_learning_run(ofproto->ml)) {
ofproto->backer->need_revalidate = REV_MAC_LEARNING;
}
ovs_rwlock_unlock(&ofproto->ml->rwlock);
new_dump_seq = seq_read(udpif_dump_seq(ofproto->backer->udpif));
if (ofproto->dump_seq != new_dump_seq) {
struct rule *rule, *next_rule;
/* We know stats are relatively fresh, so now is a good time to do some
* periodic work. */
ofproto->dump_seq = new_dump_seq;
/* Expire OpenFlow flows whose idle_timeout or hard_timeout
* has passed. */
ovs_mutex_lock(&ofproto_mutex);
LIST_FOR_EACH_SAFE (rule, next_rule, expirable,
&ofproto->up.expirable) {
rule_expire(rule_dpif_cast(rule));
}
ovs_mutex_unlock(&ofproto_mutex);
/* All outstanding data in existing flows has been accounted, so it's a
* good time to do bond rebalancing. */
if (ofproto->has_bonded_bundles) {
struct ofbundle *bundle;
HMAP_FOR_EACH (bundle, hmap_node, &ofproto->bundles) {
if (bundle->bond) {
bond_rebalance(bundle->bond);
}
}
}
}
return 0;
}
static void
wait(struct ofproto *ofproto_)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
if (ofproto_get_flow_restore_wait()) {
return;
}
if (ofproto->sflow) {
dpif_sflow_wait(ofproto->sflow);
}
if (ofproto->ipfix) {
dpif_ipfix_wait(ofproto->ipfix);
}
if (ofproto->lacp_enabled || ofproto->has_bonded_bundles) {
struct ofbundle *bundle;
HMAP_FOR_EACH (bundle, hmap_node, &ofproto->bundles) {
bundle_wait(bundle);
}
}
if (ofproto->netflow) {
netflow_wait(ofproto->netflow);
}
ovs_rwlock_rdlock(&ofproto->ml->rwlock);
mac_learning_wait(ofproto->ml);
ovs_rwlock_unlock(&ofproto->ml->rwlock);
stp_wait(ofproto);
if (ofproto->backer->need_revalidate) {
/* Shouldn't happen, but if it does just go around again. */
VLOG_DBG_RL(&rl, "need revalidate in ofproto_wait_cb()");
poll_immediate_wake();
}
seq_wait(udpif_dump_seq(ofproto->backer->udpif), ofproto->dump_seq);
}
static void
type_get_memory_usage(const char *type, struct simap *usage)
{
struct dpif_backer *backer;
backer = shash_find_data(&all_dpif_backers, type);
if (backer) {
udpif_get_memory_usage(backer->udpif, usage);
}
}
static void
flush(struct ofproto *ofproto OVS_UNUSED)
{
udpif_flush();
}
static void
get_features(struct ofproto *ofproto_ OVS_UNUSED,
bool *arp_match_ip, enum ofputil_action_bitmap *actions)
{
*arp_match_ip = true;
*actions = (OFPUTIL_A_OUTPUT |
OFPUTIL_A_SET_VLAN_VID |
OFPUTIL_A_SET_VLAN_PCP |
OFPUTIL_A_STRIP_VLAN |
OFPUTIL_A_SET_DL_SRC |
OFPUTIL_A_SET_DL_DST |
OFPUTIL_A_SET_NW_SRC |
OFPUTIL_A_SET_NW_DST |
OFPUTIL_A_SET_NW_TOS |
OFPUTIL_A_SET_TP_SRC |
OFPUTIL_A_SET_TP_DST |
OFPUTIL_A_ENQUEUE);
}
static void
get_tables(struct ofproto *ofproto_, struct ofp12_table_stats *ots)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct dpif_dp_stats s;
uint64_t n_miss, n_no_pkt_in, n_bytes, n_dropped_frags;
uint64_t n_lookup;
strcpy(ots->name, "classifier");
dpif_get_dp_stats(ofproto->backer->dpif, &s);
rule_get_stats(&ofproto->miss_rule->up, &n_miss, &n_bytes);
rule_get_stats(&ofproto->no_packet_in_rule->up, &n_no_pkt_in, &n_bytes);
rule_get_stats(&ofproto->drop_frags_rule->up, &n_dropped_frags, &n_bytes);
n_lookup = s.n_hit + s.n_missed - n_dropped_frags;
ots->lookup_count = htonll(n_lookup);
ots->matched_count = htonll(n_lookup - n_miss - n_no_pkt_in);
}
static struct ofport *
port_alloc(void)
{
struct ofport_dpif *port = xmalloc(sizeof *port);
return &port->up;
}
static void
port_dealloc(struct ofport *port_)
{
struct ofport_dpif *port = ofport_dpif_cast(port_);
free(port);
}
static int
port_construct(struct ofport *port_)
{
struct ofport_dpif *port = ofport_dpif_cast(port_);
struct ofproto_dpif *ofproto = ofproto_dpif_cast(port->up.ofproto);
const struct netdev *netdev = port->up.netdev;
char namebuf[NETDEV_VPORT_NAME_BUFSIZE];
struct dpif_port dpif_port;
int error;
ofproto->backer->need_revalidate = REV_RECONFIGURE;
port->bundle = NULL;
port->cfm = NULL;
port->bfd = NULL;
port->may_enable = true;
port->stp_port = NULL;
port->stp_state = STP_DISABLED;
port->is_tunnel = false;
port->peer = NULL;
port->qdscp = NULL;
port->n_qdscp = 0;
port->realdev_ofp_port = 0;
port->vlandev_vid = 0;
port->carrier_seq = netdev_get_carrier_resets(netdev);
port->is_layer3 = netdev_vport_is_layer3(netdev);
if (netdev_vport_is_patch(netdev)) {
/* By bailing out here, we don't submit the port to the sFlow module
* to be considered for counter polling export. This is correct
* because the patch port represents an interface that sFlow considers
* to be "internal" to the switch as a whole, and therefore not an
* candidate for counter polling. */
port->odp_port = ODPP_NONE;
ofport_update_peer(port);
return 0;
}
error = dpif_port_query_by_name(ofproto->backer->dpif,
netdev_vport_get_dpif_port(netdev, namebuf,
sizeof namebuf),
&dpif_port);
if (error) {
return error;
}
port->odp_port = dpif_port.port_no;
if (netdev_get_tunnel_config(netdev)) {
tnl_port_add(port, port->up.netdev, port->odp_port);
port->is_tunnel = true;
} else {
/* Sanity-check that a mapping doesn't already exist. This
* shouldn't happen for non-tunnel ports. */
if (odp_port_to_ofp_port(ofproto, port->odp_port) != OFPP_NONE) {
VLOG_ERR("port %s already has an OpenFlow port number",
dpif_port.name);
dpif_port_destroy(&dpif_port);
return EBUSY;
}
ovs_rwlock_wrlock(&ofproto->backer->odp_to_ofport_lock);
hmap_insert(&ofproto->backer->odp_to_ofport_map, &port->odp_port_node,
hash_odp_port(port->odp_port));
ovs_rwlock_unlock(&ofproto->backer->odp_to_ofport_lock);
}
dpif_port_destroy(&dpif_port);
if (ofproto->sflow) {
dpif_sflow_add_port(ofproto->sflow, port_, port->odp_port);
}
return 0;
}
static void
port_destruct(struct ofport *port_)
{
struct ofport_dpif *port = ofport_dpif_cast(port_);
struct ofproto_dpif *ofproto = ofproto_dpif_cast(port->up.ofproto);
const char *devname = netdev_get_name(port->up.netdev);
char namebuf[NETDEV_VPORT_NAME_BUFSIZE];
const char *dp_port_name;
ofproto->backer->need_revalidate = REV_RECONFIGURE;
ovs_rwlock_wrlock(&xlate_rwlock);
xlate_ofport_remove(port);
ovs_rwlock_unlock(&xlate_rwlock);
dp_port_name = netdev_vport_get_dpif_port(port->up.netdev, namebuf,
sizeof namebuf);
if (dpif_port_exists(ofproto->backer->dpif, dp_port_name)) {
/* The underlying device is still there, so delete it. This
* happens when the ofproto is being destroyed, since the caller
* assumes that removal of attached ports will happen as part of
* destruction. */
if (!port->is_tunnel) {
dpif_port_del(ofproto->backer->dpif, port->odp_port);
}
}
if (port->peer) {
port->peer->peer = NULL;
port->peer = NULL;
}
if (port->odp_port != ODPP_NONE && !port->is_tunnel) {
ovs_rwlock_wrlock(&ofproto->backer->odp_to_ofport_lock);
hmap_remove(&ofproto->backer->odp_to_ofport_map, &port->odp_port_node);
ovs_rwlock_unlock(&ofproto->backer->odp_to_ofport_lock);
}
tnl_port_del(port);
sset_find_and_delete(&ofproto->ports, devname);
sset_find_and_delete(&ofproto->ghost_ports, devname);
bundle_remove(port_);
set_cfm(port_, NULL);
set_bfd(port_, NULL);
if (ofproto->sflow) {
dpif_sflow_del_port(ofproto->sflow, port->odp_port);
}
free(port->qdscp);
}
static void
port_modified(struct ofport *port_)
{
struct ofport_dpif *port = ofport_dpif_cast(port_);
if (port->bundle && port->bundle->bond) {
bond_slave_set_netdev(port->bundle->bond, port, port->up.netdev);
}
if (port->cfm) {
cfm_set_netdev(port->cfm, port->up.netdev);
}
if (port->bfd) {
bfd_set_netdev(port->bfd, port->up.netdev);
}
ofproto_dpif_monitor_port_update(port, port->bfd, port->cfm,
port->up.pp.hw_addr);
if (port->is_tunnel && tnl_port_reconfigure(port, port->up.netdev,
port->odp_port)) {
ofproto_dpif_cast(port->up.ofproto)->backer->need_revalidate =
REV_RECONFIGURE;
}
ofport_update_peer(port);
}
static void
port_reconfigured(struct ofport *port_, enum ofputil_port_config old_config)
{
struct ofport_dpif *port = ofport_dpif_cast(port_);
struct ofproto_dpif *ofproto = ofproto_dpif_cast(port->up.ofproto);
enum ofputil_port_config changed = old_config ^ port->up.pp.config;
if (changed & (OFPUTIL_PC_NO_RECV | OFPUTIL_PC_NO_RECV_STP |
OFPUTIL_PC_NO_FWD | OFPUTIL_PC_NO_FLOOD |
OFPUTIL_PC_NO_PACKET_IN)) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
if (changed & OFPUTIL_PC_NO_FLOOD && port->bundle) {
bundle_update(port->bundle);
}
}
}
static int
set_sflow(struct ofproto *ofproto_,
const struct ofproto_sflow_options *sflow_options)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct dpif_sflow *ds = ofproto->sflow;
if (sflow_options) {
if (!ds) {
struct ofport_dpif *ofport;
ds = ofproto->sflow = dpif_sflow_create();
HMAP_FOR_EACH (ofport, up.hmap_node, &ofproto->up.ports) {
dpif_sflow_add_port(ds, &ofport->up, ofport->odp_port);
}
ofproto->backer->need_revalidate = REV_RECONFIGURE;
}
dpif_sflow_set_options(ds, sflow_options);
} else {
if (ds) {
dpif_sflow_unref(ds);
ofproto->backer->need_revalidate = REV_RECONFIGURE;
ofproto->sflow = NULL;
}
}
return 0;
}
static int
set_ipfix(
struct ofproto *ofproto_,
const struct ofproto_ipfix_bridge_exporter_options *bridge_exporter_options,
const struct ofproto_ipfix_flow_exporter_options *flow_exporters_options,
size_t n_flow_exporters_options)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct dpif_ipfix *di = ofproto->ipfix;
bool has_options = bridge_exporter_options || flow_exporters_options;
if (has_options && !di) {
di = ofproto->ipfix = dpif_ipfix_create();
}
if (di) {
/* Call set_options in any case to cleanly flush the flow
* caches in the last exporters that are to be destroyed. */
dpif_ipfix_set_options(
di, bridge_exporter_options, flow_exporters_options,
n_flow_exporters_options);
if (!has_options) {
dpif_ipfix_unref(di);
ofproto->ipfix = NULL;
}
}
return 0;
}
static int
set_cfm(struct ofport *ofport_, const struct cfm_settings *s)
{
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
int error = 0;
if (s) {
if (!ofport->cfm) {
struct ofproto_dpif *ofproto;
ofproto = ofproto_dpif_cast(ofport->up.ofproto);
ofproto->backer->need_revalidate = REV_RECONFIGURE;
ofport->cfm = cfm_create(ofport->up.netdev);
}
if (cfm_configure(ofport->cfm, s)) {
error = 0;
goto out;
}
error = EINVAL;
}
cfm_unref(ofport->cfm);
ofport->cfm = NULL;
out:
ofproto_dpif_monitor_port_update(ofport, ofport->bfd, ofport->cfm,
ofport->up.pp.hw_addr);
return error;
}
static bool
get_cfm_status(const struct ofport *ofport_,
struct ofproto_cfm_status *status)
{
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
if (ofport->cfm) {
status->faults = cfm_get_fault(ofport->cfm);
status->flap_count = cfm_get_flap_count(ofport->cfm);
status->remote_opstate = cfm_get_opup(ofport->cfm);
status->health = cfm_get_health(ofport->cfm);
cfm_get_remote_mpids(ofport->cfm, &status->rmps, &status->n_rmps);
return true;
} else {
return false;
}
}
static int
set_bfd(struct ofport *ofport_, const struct smap *cfg)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport_->ofproto);
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
struct bfd *old;
old = ofport->bfd;
ofport->bfd = bfd_configure(old, netdev_get_name(ofport->up.netdev),
cfg, ofport->up.netdev);
if (ofport->bfd != old) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
}
ofproto_dpif_monitor_port_update(ofport, ofport->bfd, ofport->cfm,
ofport->up.pp.hw_addr);
return 0;
}
static int
get_bfd_status(struct ofport *ofport_, struct smap *smap)
{
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
if (ofport->bfd) {
bfd_get_status(ofport->bfd, smap);
return 0;
} else {
return ENOENT;
}
}
/* Spanning Tree. */
static void
send_bpdu_cb(struct ofpbuf *pkt, int port_num, void *ofproto_)
{
struct ofproto_dpif *ofproto = ofproto_;
struct stp_port *sp = stp_get_port(ofproto->stp, port_num);
struct ofport_dpif *ofport;
ofport = stp_port_get_aux(sp);
if (!ofport) {
VLOG_WARN_RL(&rl, "%s: cannot send BPDU on unknown port %d",
ofproto->up.name, port_num);
} else {
struct eth_header *eth = pkt->l2;
netdev_get_etheraddr(ofport->up.netdev, eth->eth_src);
if (eth_addr_is_zero(eth->eth_src)) {
VLOG_WARN_RL(&rl, "%s: cannot send BPDU on port %d "
"with unknown MAC", ofproto->up.name, port_num);
} else {
ofproto_dpif_send_packet(ofport, pkt);
}
}
ofpbuf_delete(pkt);
}
/* Configures STP on 'ofproto_' using the settings defined in 's'. */
static int
set_stp(struct ofproto *ofproto_, const struct ofproto_stp_settings *s)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
/* Only revalidate flows if the configuration changed. */
if (!s != !ofproto->stp) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
}
if (s) {
if (!ofproto->stp) {
ofproto->stp = stp_create(ofproto_->name, s->system_id,
send_bpdu_cb, ofproto);
ofproto->stp_last_tick = time_msec();
}
stp_set_bridge_id(ofproto->stp, s->system_id);
stp_set_bridge_priority(ofproto->stp, s->priority);
stp_set_hello_time(ofproto->stp, s->hello_time);
stp_set_max_age(ofproto->stp, s->max_age);
stp_set_forward_delay(ofproto->stp, s->fwd_delay);
} else {
struct ofport *ofport;
HMAP_FOR_EACH (ofport, hmap_node, &ofproto->up.ports) {
set_stp_port(ofport, NULL);
}
stp_unref(ofproto->stp);
ofproto->stp = NULL;
}
return 0;
}
static int
get_stp_status(struct ofproto *ofproto_, struct ofproto_stp_status *s)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
if (ofproto->stp) {
s->enabled = true;
s->bridge_id = stp_get_bridge_id(ofproto->stp);
s->designated_root = stp_get_designated_root(ofproto->stp);
s->root_path_cost = stp_get_root_path_cost(ofproto->stp);
} else {
s->enabled = false;
}
return 0;
}
static void
update_stp_port_state(struct ofport_dpif *ofport)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport->up.ofproto);
enum stp_state state;
/* Figure out new state. */
state = ofport->stp_port ? stp_port_get_state(ofport->stp_port)
: STP_DISABLED;
/* Update state. */
if (ofport->stp_state != state) {
enum ofputil_port_state of_state;
bool fwd_change;
VLOG_DBG_RL(&rl, "port %s: STP state changed from %s to %s",
netdev_get_name(ofport->up.netdev),
stp_state_name(ofport->stp_state),
stp_state_name(state));
if (stp_learn_in_state(ofport->stp_state)
!= stp_learn_in_state(state)) {
/* xxx Learning action flows should also be flushed. */
ovs_rwlock_wrlock(&ofproto->ml->rwlock);
mac_learning_flush(ofproto->ml);
ovs_rwlock_unlock(&ofproto->ml->rwlock);
}
fwd_change = stp_forward_in_state(ofport->stp_state)
!= stp_forward_in_state(state);
ofproto->backer->need_revalidate = REV_STP;
ofport->stp_state = state;
ofport->stp_state_entered = time_msec();
if (fwd_change && ofport->bundle) {
bundle_update(ofport->bundle);
}
/* Update the STP state bits in the OpenFlow port description. */
of_state = ofport->up.pp.state & ~OFPUTIL_PS_STP_MASK;
of_state |= (state == STP_LISTENING ? OFPUTIL_PS_STP_LISTEN
: state == STP_LEARNING ? OFPUTIL_PS_STP_LEARN
: state == STP_FORWARDING ? OFPUTIL_PS_STP_FORWARD
: state == STP_BLOCKING ? OFPUTIL_PS_STP_BLOCK
: 0);
ofproto_port_set_state(&ofport->up, of_state);
}
}
/* Configures STP on 'ofport_' using the settings defined in 's'. The
* caller is responsible for assigning STP port numbers and ensuring
* there are no duplicates. */
static int
set_stp_port(struct ofport *ofport_,
const struct ofproto_port_stp_settings *s)
{
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport->up.ofproto);
struct stp_port *sp = ofport->stp_port;
if (!s || !s->enable) {
if (sp) {
ofport->stp_port = NULL;
stp_port_disable(sp);
update_stp_port_state(ofport);
}
return 0;
} else if (sp && stp_port_no(sp) != s->port_num
&& ofport == stp_port_get_aux(sp)) {
/* The port-id changed, so disable the old one if it's not
* already in use by another port. */
stp_port_disable(sp);
}
sp = ofport->stp_port = stp_get_port(ofproto->stp, s->port_num);
stp_port_enable(sp);
stp_port_set_aux(sp, ofport);
stp_port_set_priority(sp, s->priority);
stp_port_set_path_cost(sp, s->path_cost);
update_stp_port_state(ofport);
return 0;
}
static int
get_stp_port_status(struct ofport *ofport_,
struct ofproto_port_stp_status *s)
{
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport->up.ofproto);
struct stp_port *sp = ofport->stp_port;
if (!ofproto->stp || !sp) {
s->enabled = false;
return 0;
}
s->enabled = true;
s->port_id = stp_port_get_id(sp);
s->state = stp_port_get_state(sp);
s->sec_in_state = (time_msec() - ofport->stp_state_entered) / 1000;
s->role = stp_port_get_role(sp);
return 0;
}
static int
get_stp_port_stats(struct ofport *ofport_,
struct ofproto_port_stp_stats *s)
{
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport->up.ofproto);
struct stp_port *sp = ofport->stp_port;
if (!ofproto->stp || !sp) {
s->enabled = false;
return 0;
}
s->enabled = true;
stp_port_get_counts(sp, &s->tx_count, &s->rx_count, &s->error_count);
return 0;
}
static void
stp_run(struct ofproto_dpif *ofproto)
{
if (ofproto->stp) {
long long int now = time_msec();
long long int elapsed = now - ofproto->stp_last_tick;
struct stp_port *sp;
if (elapsed > 0) {
stp_tick(ofproto->stp, MIN(INT_MAX, elapsed));
ofproto->stp_last_tick = now;
}
while (stp_get_changed_port(ofproto->stp, &sp)) {
struct ofport_dpif *ofport = stp_port_get_aux(sp);
if (ofport) {
update_stp_port_state(ofport);
}
}
if (stp_check_and_reset_fdb_flush(ofproto->stp)) {
ovs_rwlock_wrlock(&ofproto->ml->rwlock);
mac_learning_flush(ofproto->ml);
ovs_rwlock_unlock(&ofproto->ml->rwlock);
}
}
}
static void
stp_wait(struct ofproto_dpif *ofproto)
{
if (ofproto->stp) {
poll_timer_wait(1000);
}
}
static int
set_queues(struct ofport *ofport_, const struct ofproto_port_queue *qdscp,
size_t n_qdscp)
{
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport->up.ofproto);
if (ofport->n_qdscp != n_qdscp
|| (n_qdscp && memcmp(ofport->qdscp, qdscp,
n_qdscp * sizeof *qdscp))) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
free(ofport->qdscp);
ofport->qdscp = n_qdscp
? xmemdup(qdscp, n_qdscp * sizeof *qdscp)
: NULL;
ofport->n_qdscp = n_qdscp;
}
return 0;
}
/* Bundles. */
/* Expires all MAC learning entries associated with 'bundle' and forces its
* ofproto to revalidate every flow.
*
* Normally MAC learning entries are removed only from the ofproto associated
* with 'bundle', but if 'all_ofprotos' is true, then the MAC learning entries
* are removed from every ofproto. When patch ports and SLB bonds are in use
* and a VM migration happens and the gratuitous ARPs are somehow lost, this
* avoids a MAC_ENTRY_IDLE_TIME delay before the migrated VM can communicate
* with the host from which it migrated. */
static void
bundle_flush_macs(struct ofbundle *bundle, bool all_ofprotos)
{
struct ofproto_dpif *ofproto = bundle->ofproto;
struct mac_learning *ml = ofproto->ml;
struct mac_entry *mac, *next_mac;
ofproto->backer->need_revalidate = REV_RECONFIGURE;
ovs_rwlock_wrlock(&ml->rwlock);
LIST_FOR_EACH_SAFE (mac, next_mac, lru_node, &ml->lrus) {
if (mac->port.p == bundle) {
if (all_ofprotos) {
struct ofproto_dpif *o;
HMAP_FOR_EACH (o, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
if (o != ofproto) {
struct mac_entry *e;
ovs_rwlock_wrlock(&o->ml->rwlock);
e = mac_learning_lookup(o->ml, mac->mac, mac->vlan);
if (e) {
mac_learning_expire(o->ml, e);
}
ovs_rwlock_unlock(&o->ml->rwlock);
}
}
}
mac_learning_expire(ml, mac);
}
}
ovs_rwlock_unlock(&ml->rwlock);
}
static struct ofbundle *
bundle_lookup(const struct ofproto_dpif *ofproto, void *aux)
{
struct ofbundle *bundle;
HMAP_FOR_EACH_IN_BUCKET (bundle, hmap_node, hash_pointer(aux, 0),
&ofproto->bundles) {
if (bundle->aux == aux) {
return bundle;
}
}
return NULL;
}
static void
bundle_update(struct ofbundle *bundle)
{
struct ofport_dpif *port;
bundle->floodable = true;
LIST_FOR_EACH (port, bundle_node, &bundle->ports) {
if (port->up.pp.config & OFPUTIL_PC_NO_FLOOD
|| port->is_layer3
|| !stp_forward_in_state(port->stp_state)) {
bundle->floodable = false;
break;
}
}
}
static void
bundle_del_port(struct ofport_dpif *port)
{
struct ofbundle *bundle = port->bundle;
bundle->ofproto->backer->need_revalidate = REV_RECONFIGURE;
list_remove(&port->bundle_node);
port->bundle = NULL;
if (bundle->lacp) {
lacp_slave_unregister(bundle->lacp, port);
}
if (bundle->bond) {
bond_slave_unregister(bundle->bond, port);
}
bundle_update(bundle);
}
static bool
bundle_add_port(struct ofbundle *bundle, ofp_port_t ofp_port,
struct lacp_slave_settings *lacp)
{
struct ofport_dpif *port;
port = get_ofp_port(bundle->ofproto, ofp_port);
if (!port) {
return false;
}
if (port->bundle != bundle) {
bundle->ofproto->backer->need_revalidate = REV_RECONFIGURE;
if (port->bundle) {
bundle_remove(&port->up);
}
port->bundle = bundle;
list_push_back(&bundle->ports, &port->bundle_node);
if (port->up.pp.config & OFPUTIL_PC_NO_FLOOD
|| port->is_layer3
|| !stp_forward_in_state(port->stp_state)) {
bundle->floodable = false;
}
}
if (lacp) {
bundle->ofproto->backer->need_revalidate = REV_RECONFIGURE;
lacp_slave_register(bundle->lacp, port, lacp);
}
return true;
}
static void
bundle_destroy(struct ofbundle *bundle)
{
struct ofproto_dpif *ofproto;
struct ofport_dpif *port, *next_port;
if (!bundle) {
return;
}
ofproto = bundle->ofproto;
mbridge_unregister_bundle(ofproto->mbridge, bundle->aux);
ovs_rwlock_wrlock(&xlate_rwlock);
xlate_bundle_remove(bundle);
ovs_rwlock_unlock(&xlate_rwlock);
LIST_FOR_EACH_SAFE (port, next_port, bundle_node, &bundle->ports) {
bundle_del_port(port);
}
bundle_flush_macs(bundle, true);
hmap_remove(&ofproto->bundles, &bundle->hmap_node);
free(bundle->name);
free(bundle->trunks);
lacp_unref(bundle->lacp);
bond_unref(bundle->bond);
free(bundle);
}
static int
bundle_set(struct ofproto *ofproto_, void *aux,
const struct ofproto_bundle_settings *s)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
bool need_flush = false;
struct ofport_dpif *port;
struct ofbundle *bundle;
unsigned long *trunks;
int vlan;
size_t i;
bool ok;
if (!s) {
bundle_destroy(bundle_lookup(ofproto, aux));
return 0;
}
ovs_assert(s->n_slaves == 1 || s->bond != NULL);
ovs_assert((s->lacp != NULL) == (s->lacp_slaves != NULL));
bundle = bundle_lookup(ofproto, aux);
if (!bundle) {
bundle = xmalloc(sizeof *bundle);
bundle->ofproto = ofproto;
hmap_insert(&ofproto->bundles, &bundle->hmap_node,
hash_pointer(aux, 0));
bundle->aux = aux;
bundle->name = NULL;
list_init(&bundle->ports);
bundle->vlan_mode = PORT_VLAN_TRUNK;
bundle->vlan = -1;
bundle->trunks = NULL;
bundle->use_priority_tags = s->use_priority_tags;
bundle->lacp = NULL;
bundle->bond = NULL;
bundle->floodable = true;
mbridge_register_bundle(ofproto->mbridge, bundle);
}
if (!bundle->name || strcmp(s->name, bundle->name)) {
free(bundle->name);
bundle->name = xstrdup(s->name);
}
/* LACP. */
if (s->lacp) {
ofproto->lacp_enabled = true;
if (!bundle->lacp) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
bundle->lacp = lacp_create();
}
lacp_configure(bundle->lacp, s->lacp);
} else {
lacp_unref(bundle->lacp);
bundle->lacp = NULL;
}
/* Update set of ports. */
ok = true;
for (i = 0; i < s->n_slaves; i++) {
if (!bundle_add_port(bundle, s->slaves[i],
s->lacp ? &s->lacp_slaves[i] : NULL)) {
ok = false;
}
}
if (!ok || list_size(&bundle->ports) != s->n_slaves) {
struct ofport_dpif *next_port;
LIST_FOR_EACH_SAFE (port, next_port, bundle_node, &bundle->ports) {
for (i = 0; i < s->n_slaves; i++) {
if (s->slaves[i] == port->up.ofp_port) {
goto found;
}
}
bundle_del_port(port);
found: ;
}
}
ovs_assert(list_size(&bundle->ports) <= s->n_slaves);
if (list_is_empty(&bundle->ports)) {
bundle_destroy(bundle);
return EINVAL;
}
/* Set VLAN tagging mode */
if (s->vlan_mode != bundle->vlan_mode
|| s->use_priority_tags != bundle->use_priority_tags) {
bundle->vlan_mode = s->vlan_mode;
bundle->use_priority_tags = s->use_priority_tags;
need_flush = true;
}
/* Set VLAN tag. */
vlan = (s->vlan_mode == PORT_VLAN_TRUNK ? -1
: s->vlan >= 0 && s->vlan <= 4095 ? s->vlan
: 0);
if (vlan != bundle->vlan) {
bundle->vlan = vlan;
need_flush = true;
}
/* Get trunked VLANs. */
switch (s->vlan_mode) {
case PORT_VLAN_ACCESS:
trunks = NULL;
break;
case PORT_VLAN_TRUNK:
trunks = CONST_CAST(unsigned long *, s->trunks);
break;
case PORT_VLAN_NATIVE_UNTAGGED:
case PORT_VLAN_NATIVE_TAGGED:
if (vlan != 0 && (!s->trunks
|| !bitmap_is_set(s->trunks, vlan)
|| bitmap_is_set(s->trunks, 0))) {
/* Force trunking the native VLAN and prohibit trunking VLAN 0. */
if (s->trunks) {
trunks = bitmap_clone(s->trunks, 4096);
} else {
trunks = bitmap_allocate1(4096);
}
bitmap_set1(trunks, vlan);
bitmap_set0(trunks, 0);
} else {
trunks = CONST_CAST(unsigned long *, s->trunks);
}
break;
default:
OVS_NOT_REACHED();
}
if (!vlan_bitmap_equal(trunks, bundle->trunks)) {
free(bundle->trunks);
if (trunks == s->trunks) {
bundle->trunks = vlan_bitmap_clone(trunks);
} else {
bundle->trunks = trunks;
trunks = NULL;
}
need_flush = true;
}
if (trunks != s->trunks) {
free(trunks);
}
/* Bonding. */
if (!list_is_short(&bundle->ports)) {
bundle->ofproto->has_bonded_bundles = true;
if (bundle->bond) {
if (bond_reconfigure(bundle->bond, s->bond)) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
}
} else {
bundle->bond = bond_create(s->bond);
ofproto->backer->need_revalidate = REV_RECONFIGURE;
}
LIST_FOR_EACH (port, bundle_node, &bundle->ports) {
bond_slave_register(bundle->bond, port, port->up.netdev);
}
} else {
bond_unref(bundle->bond);
bundle->bond = NULL;
}
/* If we changed something that would affect MAC learning, un-learn
* everything on this port and force flow revalidation. */
if (need_flush) {
bundle_flush_macs(bundle, false);
}
return 0;
}
static void
bundle_remove(struct ofport *port_)
{
struct ofport_dpif *port = ofport_dpif_cast(port_);
struct ofbundle *bundle = port->bundle;
if (bundle) {
bundle_del_port(port);
if (list_is_empty(&bundle->ports)) {
bundle_destroy(bundle);
} else if (list_is_short(&bundle->ports)) {
bond_unref(bundle->bond);
bundle->bond = NULL;
}
}
}
static void
send_pdu_cb(void *port_, const void *pdu, size_t pdu_size)
{
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 10);
struct ofport_dpif *port = port_;
uint8_t ea[ETH_ADDR_LEN];
int error;
error = netdev_get_etheraddr(port->up.netdev, ea);
if (!error) {
struct ofpbuf packet;
void *packet_pdu;
ofpbuf_init(&packet, 0);
packet_pdu = eth_compose(&packet, eth_addr_lacp, ea, ETH_TYPE_LACP,
pdu_size);
memcpy(packet_pdu, pdu, pdu_size);
ofproto_dpif_send_packet(port, &packet);
ofpbuf_uninit(&packet);
} else {
VLOG_ERR_RL(&rl, "port %s: cannot obtain Ethernet address of iface "
"%s (%s)", port->bundle->name,
netdev_get_name(port->up.netdev), ovs_strerror(error));
}
}
static void
bundle_send_learning_packets(struct ofbundle *bundle)
{
struct ofproto_dpif *ofproto = bundle->ofproto;
struct ofpbuf *learning_packet;
int error, n_packets, n_errors;
struct mac_entry *e;
struct list packets;
list_init(&packets);
ovs_rwlock_rdlock(&ofproto->ml->rwlock);
LIST_FOR_EACH (e, lru_node, &ofproto->ml->lrus) {
if (e->port.p != bundle) {
void *port_void;
learning_packet = bond_compose_learning_packet(bundle->bond,
e->mac, e->vlan,
&port_void);
learning_packet->private_p = port_void;
list_push_back(&packets, &learning_packet->list_node);
}
}
ovs_rwlock_unlock(&ofproto->ml->rwlock);
error = n_packets = n_errors = 0;
LIST_FOR_EACH (learning_packet, list_node, &packets) {
int ret;
ret = ofproto_dpif_send_packet(learning_packet->private_p, learning_packet);
if (ret) {
error = ret;
n_errors++;
}
n_packets++;
}
ofpbuf_list_delete(&packets);
if (n_errors) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "bond %s: %d errors sending %d gratuitous learning "
"packets, last error was: %s",
bundle->name, n_errors, n_packets, ovs_strerror(error));
} else {
VLOG_DBG("bond %s: sent %d gratuitous learning packets",
bundle->name, n_packets);
}
}
static void
bundle_run(struct ofbundle *bundle)
{
if (bundle->lacp) {
lacp_run(bundle->lacp, send_pdu_cb);
}
if (bundle->bond) {
struct ofport_dpif *port;
LIST_FOR_EACH (port, bundle_node, &bundle->ports) {
bond_slave_set_may_enable(bundle->bond, port, port->may_enable);
}
if (bond_run(bundle->bond, lacp_status(bundle->lacp))) {
bundle->ofproto->backer->need_revalidate = REV_BOND;
}
if (bond_should_send_learning_packets(bundle->bond)) {
bundle_send_learning_packets(bundle);
}
}
}
static void
bundle_wait(struct ofbundle *bundle)
{
if (bundle->lacp) {
lacp_wait(bundle->lacp);
}
if (bundle->bond) {
bond_wait(bundle->bond);
}
}
/* Mirrors. */
static int
mirror_set__(struct ofproto *ofproto_, void *aux,
const struct ofproto_mirror_settings *s)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct ofbundle **srcs, **dsts;
int error;
size_t i;
if (!s) {
mirror_destroy(ofproto->mbridge, aux);
return 0;
}
srcs = xmalloc(s->n_srcs * sizeof *srcs);
dsts = xmalloc(s->n_dsts * sizeof *dsts);
for (i = 0; i < s->n_srcs; i++) {
srcs[i] = bundle_lookup(ofproto, s->srcs[i]);
}
for (i = 0; i < s->n_dsts; i++) {
dsts[i] = bundle_lookup(ofproto, s->dsts[i]);
}
error = mirror_set(ofproto->mbridge, aux, s->name, srcs, s->n_srcs, dsts,
s->n_dsts, s->src_vlans,
bundle_lookup(ofproto, s->out_bundle), s->out_vlan);
free(srcs);
free(dsts);
return error;
}
static int
mirror_get_stats__(struct ofproto *ofproto, void *aux,
uint64_t *packets, uint64_t *bytes)
{
return mirror_get_stats(ofproto_dpif_cast(ofproto)->mbridge, aux, packets,
bytes);
}
static int
set_flood_vlans(struct ofproto *ofproto_, unsigned long *flood_vlans)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
ovs_rwlock_wrlock(&ofproto->ml->rwlock);
if (mac_learning_set_flood_vlans(ofproto->ml, flood_vlans)) {
mac_learning_flush(ofproto->ml);
}
ovs_rwlock_unlock(&ofproto->ml->rwlock);
return 0;
}
static bool
is_mirror_output_bundle(const struct ofproto *ofproto_, void *aux)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct ofbundle *bundle = bundle_lookup(ofproto, aux);
return bundle && mirror_bundle_out(ofproto->mbridge, bundle) != 0;
}
static void
forward_bpdu_changed(struct ofproto *ofproto_)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
ofproto->backer->need_revalidate = REV_RECONFIGURE;
}
static void
set_mac_table_config(struct ofproto *ofproto_, unsigned int idle_time,
size_t max_entries)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
ovs_rwlock_wrlock(&ofproto->ml->rwlock);
mac_learning_set_idle_time(ofproto->ml, idle_time);
mac_learning_set_max_entries(ofproto->ml, max_entries);
ovs_rwlock_unlock(&ofproto->ml->rwlock);
}
/* Ports. */
static struct ofport_dpif *
get_ofp_port(const struct ofproto_dpif *ofproto, ofp_port_t ofp_port)
{
struct ofport *ofport = ofproto_get_port(&ofproto->up, ofp_port);
return ofport ? ofport_dpif_cast(ofport) : NULL;
}
static void
ofproto_port_from_dpif_port(struct ofproto_dpif *ofproto,
struct ofproto_port *ofproto_port,
struct dpif_port *dpif_port)
{
ofproto_port->name = dpif_port->name;
ofproto_port->type = dpif_port->type;
ofproto_port->ofp_port = odp_port_to_ofp_port(ofproto, dpif_port->port_no);
}
static void
ofport_update_peer(struct ofport_dpif *ofport)
{
const struct ofproto_dpif *ofproto;
struct dpif_backer *backer;
char *peer_name;
if (!netdev_vport_is_patch(ofport->up.netdev)) {
return;
}
backer = ofproto_dpif_cast(ofport->up.ofproto)->backer;
backer->need_revalidate = REV_RECONFIGURE;
if (ofport->peer) {
ofport->peer->peer = NULL;
ofport->peer = NULL;
}
peer_name = netdev_vport_patch_peer(ofport->up.netdev);
if (!peer_name) {
return;
}
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
struct ofport *peer_ofport;
struct ofport_dpif *peer;
char *peer_peer;
if (ofproto->backer != backer) {
continue;
}
peer_ofport = shash_find_data(&ofproto->up.port_by_name, peer_name);
if (!peer_ofport) {
continue;
}
peer = ofport_dpif_cast(peer_ofport);
peer_peer = netdev_vport_patch_peer(peer->up.netdev);
if (peer_peer && !strcmp(netdev_get_name(ofport->up.netdev),
peer_peer)) {
ofport->peer = peer;
ofport->peer->peer = ofport;
}
free(peer_peer);
break;
}
free(peer_name);
}
static void
port_run(struct ofport_dpif *ofport)
{
long long int carrier_seq = netdev_get_carrier_resets(ofport->up.netdev);
bool carrier_changed = carrier_seq != ofport->carrier_seq;
bool enable = netdev_get_carrier(ofport->up.netdev);
bool cfm_enable = false;
bool bfd_enable = false;
ofport->carrier_seq = carrier_seq;
if (ofport->cfm) {
int cfm_opup = cfm_get_opup(ofport->cfm);
cfm_enable = !cfm_get_fault(ofport->cfm);
if (cfm_opup >= 0) {
cfm_enable = cfm_enable && cfm_opup;
}
}
if (ofport->bfd) {
bfd_enable = bfd_forwarding(ofport->bfd);
}
if (ofport->bfd || ofport->cfm) {
enable = enable && (cfm_enable || bfd_enable);
}
if (ofport->bundle) {
enable = enable && lacp_slave_may_enable(ofport->bundle->lacp, ofport);
if (carrier_changed) {
lacp_slave_carrier_changed(ofport->bundle->lacp, ofport);
}
}
if (ofport->may_enable != enable) {
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport->up.ofproto);
ofproto->backer->need_revalidate = REV_PORT_TOGGLED;
}
ofport->may_enable = enable;
}
static int
port_query_by_name(const struct ofproto *ofproto_, const char *devname,
struct ofproto_port *ofproto_port)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct dpif_port dpif_port;
int error;
if (sset_contains(&ofproto->ghost_ports, devname)) {
const char *type = netdev_get_type_from_name(devname);
/* We may be called before ofproto->up.port_by_name is populated with
* the appropriate ofport. For this reason, we must get the name and
* type from the netdev layer directly. */
if (type) {
const struct ofport *ofport;
ofport = shash_find_data(&ofproto->up.port_by_name, devname);
ofproto_port->ofp_port = ofport ? ofport->ofp_port : OFPP_NONE;
ofproto_port->name = xstrdup(devname);
ofproto_port->type = xstrdup(type);
return 0;
}
return ENODEV;
}
if (!sset_contains(&ofproto->ports, devname)) {
return ENODEV;
}
error = dpif_port_query_by_name(ofproto->backer->dpif,
devname, &dpif_port);
if (!error) {
ofproto_port_from_dpif_port(ofproto, ofproto_port, &dpif_port);
}
return error;
}
static int
port_add(struct ofproto *ofproto_, struct netdev *netdev)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
const char *devname = netdev_get_name(netdev);
char namebuf[NETDEV_VPORT_NAME_BUFSIZE];
const char *dp_port_name;
if (netdev_vport_is_patch(netdev)) {
sset_add(&ofproto->ghost_ports, netdev_get_name(netdev));
return 0;
}
dp_port_name = netdev_vport_get_dpif_port(netdev, namebuf, sizeof namebuf);
if (!dpif_port_exists(ofproto->backer->dpif, dp_port_name)) {
odp_port_t port_no = ODPP_NONE;
int error;
error = dpif_port_add(ofproto->backer->dpif, netdev, &port_no);
if (error) {
return error;
}
if (netdev_get_tunnel_config(netdev)) {
simap_put(&ofproto->backer->tnl_backers,
dp_port_name, odp_to_u32(port_no));
}
}
if (netdev_get_tunnel_config(netdev)) {
sset_add(&ofproto->ghost_ports, devname);
} else {
sset_add(&ofproto->ports, devname);
}
return 0;
}
static int
port_del(struct ofproto *ofproto_, ofp_port_t ofp_port)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct ofport_dpif *ofport = get_ofp_port(ofproto, ofp_port);
int error = 0;
if (!ofport) {
return 0;
}
sset_find_and_delete(&ofproto->ghost_ports,
netdev_get_name(ofport->up.netdev));
ofproto->backer->need_revalidate = REV_RECONFIGURE;
if (!ofport->is_tunnel && !netdev_vport_is_patch(ofport->up.netdev)) {
error = dpif_port_del(ofproto->backer->dpif, ofport->odp_port);
if (!error) {
/* The caller is going to close ofport->up.netdev. If this is a
* bonded port, then the bond is using that netdev, so remove it
* from the bond. The client will need to reconfigure everything
* after deleting ports, so then the slave will get re-added. */
bundle_remove(&ofport->up);
}
}
return error;
}
static int
port_get_stats(const struct ofport *ofport_, struct netdev_stats *stats)
{
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
int error;
error = netdev_get_stats(ofport->up.netdev, stats);
if (!error && ofport_->ofp_port == OFPP_LOCAL) {
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport->up.ofproto);
ovs_mutex_lock(&ofproto->stats_mutex);
/* ofproto->stats.tx_packets represents packets that we created
* internally and sent to some port (e.g. packets sent with
* ofproto_dpif_send_packet()). Account for them as if they had
* come from OFPP_LOCAL and got forwarded. */
if (stats->rx_packets != UINT64_MAX) {
stats->rx_packets += ofproto->stats.tx_packets;
}
if (stats->rx_bytes != UINT64_MAX) {
stats->rx_bytes += ofproto->stats.tx_bytes;
}
/* ofproto->stats.rx_packets represents packets that were received on
* some port and we processed internally and dropped (e.g. STP).
* Account for them as if they had been forwarded to OFPP_LOCAL. */
if (stats->tx_packets != UINT64_MAX) {
stats->tx_packets += ofproto->stats.rx_packets;
}
if (stats->tx_bytes != UINT64_MAX) {
stats->tx_bytes += ofproto->stats.rx_bytes;
}
ovs_mutex_unlock(&ofproto->stats_mutex);
}
return error;
}
struct port_dump_state {
uint32_t bucket;
uint32_t offset;
bool ghost;
struct ofproto_port port;
bool has_port;
};
static int
port_dump_start(const struct ofproto *ofproto_ OVS_UNUSED, void **statep)
{
*statep = xzalloc(sizeof(struct port_dump_state));
return 0;
}
static int
port_dump_next(const struct ofproto *ofproto_, void *state_,
struct ofproto_port *port)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
struct port_dump_state *state = state_;
const struct sset *sset;
struct sset_node *node;
if (state->has_port) {
ofproto_port_destroy(&state->port);
state->has_port = false;
}
sset = state->ghost ? &ofproto->ghost_ports : &ofproto->ports;
while ((node = sset_at_position(sset, &state->bucket, &state->offset))) {
int error;
error = port_query_by_name(ofproto_, node->name, &state->port);
if (!error) {
*port = state->port;
state->has_port = true;
return 0;
} else if (error != ENODEV) {
return error;
}
}
if (!state->ghost) {
state->ghost = true;
state->bucket = 0;
state->offset = 0;
return port_dump_next(ofproto_, state_, port);
}
return EOF;
}
static int
port_dump_done(const struct ofproto *ofproto_ OVS_UNUSED, void *state_)
{
struct port_dump_state *state = state_;
if (state->has_port) {
ofproto_port_destroy(&state->port);
}
free(state);
return 0;
}
static int
port_poll(const struct ofproto *ofproto_, char **devnamep)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
if (ofproto->port_poll_errno) {
int error = ofproto->port_poll_errno;
ofproto->port_poll_errno = 0;
return error;
}
if (sset_is_empty(&ofproto->port_poll_set)) {
return EAGAIN;
}
*devnamep = sset_pop(&ofproto->port_poll_set);
return 0;
}
static void
port_poll_wait(const struct ofproto *ofproto_)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
dpif_port_poll_wait(ofproto->backer->dpif);
}
static int
port_is_lacp_current(const struct ofport *ofport_)
{
const struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
return (ofport->bundle && ofport->bundle->lacp
? lacp_slave_is_current(ofport->bundle->lacp, ofport)
: -1);
}
/* If 'rule' is an OpenFlow rule, that has expired according to OpenFlow rules,
* then delete it entirely. */
static void
rule_expire(struct rule_dpif *rule)
OVS_REQUIRES(ofproto_mutex)
{
uint16_t idle_timeout, hard_timeout;
long long int now = time_msec();
int reason;
ovs_assert(!rule->up.pending);
/* Has 'rule' expired? */
ovs_mutex_lock(&rule->up.mutex);
hard_timeout = rule->up.hard_timeout;
idle_timeout = rule->up.idle_timeout;
if (hard_timeout && now > rule->up.modified + hard_timeout * 1000) {
reason = OFPRR_HARD_TIMEOUT;
} else if (idle_timeout && now > rule->up.used + idle_timeout * 1000) {
reason = OFPRR_IDLE_TIMEOUT;
} else {
reason = -1;
}
ovs_mutex_unlock(&rule->up.mutex);
if (reason >= 0) {
COVERAGE_INC(ofproto_dpif_expired);
ofproto_rule_expire(&rule->up, reason);
}
}
/* Executes, within 'ofproto', the actions in 'rule' or 'ofpacts' on 'packet'.
* 'flow' must reflect the data in 'packet'. */
int
ofproto_dpif_execute_actions(struct ofproto_dpif *ofproto,
const struct flow *flow,
struct rule_dpif *rule,
const struct ofpact *ofpacts, size_t ofpacts_len,
struct ofpbuf *packet)
{
struct dpif_flow_stats stats;
struct xlate_out xout;
struct xlate_in xin;
ofp_port_t in_port;
struct dpif_execute execute;
int error;
ovs_assert((rule != NULL) != (ofpacts != NULL));
dpif_flow_stats_extract(flow, packet, time_msec(), &stats);
if (rule) {
rule_dpif_credit_stats(rule, &stats);
}
xlate_in_init(&xin, ofproto, flow, rule, stats.tcp_flags, packet);
xin.ofpacts = ofpacts;
xin.ofpacts_len = ofpacts_len;
xin.resubmit_stats = &stats;
xlate_actions(&xin, &xout);
in_port = flow->in_port.ofp_port;
if (in_port == OFPP_NONE) {
in_port = OFPP_LOCAL;
}
execute.actions = xout.odp_actions.data;
execute.actions_len = xout.odp_actions.size;
execute.packet = packet;
execute.md.tunnel = flow->tunnel;
execute.md.skb_priority = flow->skb_priority;
execute.md.pkt_mark = flow->pkt_mark;
execute.md.in_port = ofp_port_to_odp_port(ofproto, in_port);
execute.needs_help = (xout.slow & SLOW_ACTION) != 0;
error = dpif_execute(ofproto->backer->dpif, &execute);
xlate_out_uninit(&xout);
return error;
}
void
rule_dpif_credit_stats(struct rule_dpif *rule,
const struct dpif_flow_stats *stats)
{
ovs_mutex_lock(&rule->stats_mutex);
rule->packet_count += stats->n_packets;
rule->byte_count += stats->n_bytes;
rule->up.used = MAX(rule->up.used, stats->used);
ovs_mutex_unlock(&rule->stats_mutex);
}
bool
rule_dpif_is_fail_open(const struct rule_dpif *rule)
{
return is_fail_open_rule(&rule->up);
}
bool
rule_dpif_is_table_miss(const struct rule_dpif *rule)
{
return rule_is_table_miss(&rule->up);
}
ovs_be64
rule_dpif_get_flow_cookie(const struct rule_dpif *rule)
OVS_REQUIRES(rule->up.mutex)
{
return rule->up.flow_cookie;
}
void
rule_dpif_reduce_timeouts(struct rule_dpif *rule, uint16_t idle_timeout,
uint16_t hard_timeout)
{
ofproto_rule_reduce_timeouts(&rule->up, idle_timeout, hard_timeout);
}
/* Returns 'rule''s actions. The caller owns a reference on the returned
* actions and must eventually release it (with rule_actions_unref()) to avoid
* a memory leak. */
struct rule_actions *
rule_dpif_get_actions(const struct rule_dpif *rule)
{
return rule_get_actions(&rule->up);
}
/* Lookup 'flow' in 'ofproto''s classifier. If 'wc' is non-null, sets
* the fields that were relevant as part of the lookup. */
void
rule_dpif_lookup(struct ofproto_dpif *ofproto, const struct flow *flow,
struct flow_wildcards *wc, struct rule_dpif **rule)
{
struct ofport_dpif *port;
if (rule_dpif_lookup_in_table(ofproto, flow, wc, 0, rule)) {
return;
}
port = get_ofp_port(ofproto, flow->in_port.ofp_port);
if (!port) {
VLOG_WARN_RL(&rl, "packet-in on unknown OpenFlow port %"PRIu16,
flow->in_port.ofp_port);
}
choose_miss_rule(port ? port->up.pp.config : 0, ofproto->miss_rule,
ofproto->no_packet_in_rule, rule);
}
bool
rule_dpif_lookup_in_table(struct ofproto_dpif *ofproto,
const struct flow *flow, struct flow_wildcards *wc,
uint8_t table_id, struct rule_dpif **rule)
{
const struct cls_rule *cls_rule;
struct classifier *cls;
bool frag;
*rule = NULL;
if (table_id >= N_TABLES) {
return false;
}
if (wc) {
memset(&wc->masks.dl_type, 0xff, sizeof wc->masks.dl_type);
if (is_ip_any(flow)) {
wc->masks.nw_frag |= FLOW_NW_FRAG_MASK;
}
}
cls = &ofproto->up.tables[table_id].cls;
ovs_rwlock_rdlock(&cls->rwlock);
frag = (flow->nw_frag & FLOW_NW_FRAG_ANY) != 0;
if (frag && ofproto->up.frag_handling == OFPC_FRAG_NORMAL) {
/* We must pretend that transport ports are unavailable. */
struct flow ofpc_normal_flow = *flow;
ofpc_normal_flow.tp_src = htons(0);
ofpc_normal_flow.tp_dst = htons(0);
cls_rule = classifier_lookup(cls, &ofpc_normal_flow, wc);
} else if (frag && ofproto->up.frag_handling == OFPC_FRAG_DROP) {
cls_rule = &ofproto->drop_frags_rule->up.cr;
/* Frag mask in wc already set above. */
} else {
cls_rule = classifier_lookup(cls, flow, wc);
}
*rule = rule_dpif_cast(rule_from_cls_rule(cls_rule));
rule_dpif_ref(*rule);
ovs_rwlock_unlock(&cls->rwlock);
return *rule != NULL;
}
/* Given a port configuration (specified as zero if there's no port), chooses
* which of 'miss_rule' and 'no_packet_in_rule' should be used in case of a
* flow table miss. */
void
choose_miss_rule(enum ofputil_port_config config, struct rule_dpif *miss_rule,
struct rule_dpif *no_packet_in_rule, struct rule_dpif **rule)
{
*rule = config & OFPUTIL_PC_NO_PACKET_IN ? no_packet_in_rule : miss_rule;
rule_dpif_ref(*rule);
}
void
rule_dpif_ref(struct rule_dpif *rule)
{
if (rule) {
ofproto_rule_ref(&rule->up);
}
}
void
rule_dpif_unref(struct rule_dpif *rule)
{
if (rule) {
ofproto_rule_unref(&rule->up);
}
}
static void
complete_operation(struct rule_dpif *rule)
OVS_REQUIRES(ofproto_mutex)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(rule->up.ofproto);
ofproto->backer->need_revalidate = REV_FLOW_TABLE;
ofoperation_complete(rule->up.pending, 0);
}
static struct rule_dpif *rule_dpif_cast(const struct rule *rule)
{
return rule ? CONTAINER_OF(rule, struct rule_dpif, up) : NULL;
}
static struct rule *
rule_alloc(void)
{
struct rule_dpif *rule = xmalloc(sizeof *rule);
return &rule->up;
}
static void
rule_dealloc(struct rule *rule_)
{
struct rule_dpif *rule = rule_dpif_cast(rule_);
free(rule);
}
static enum ofperr
rule_construct(struct rule *rule_)
{
struct rule_dpif *rule = rule_dpif_cast(rule_);
ovs_mutex_init(&rule->stats_mutex);
ovs_mutex_lock(&rule->stats_mutex);
rule->packet_count = 0;
rule->byte_count = 0;
ovs_mutex_unlock(&rule->stats_mutex);
return 0;
}
static void
rule_insert(struct rule *rule_)
OVS_REQUIRES(ofproto_mutex)
{
struct rule_dpif *rule = rule_dpif_cast(rule_);
complete_operation(rule);
}
static void
rule_delete(struct rule *rule_)
OVS_REQUIRES(ofproto_mutex)
{
struct rule_dpif *rule = rule_dpif_cast(rule_);
complete_operation(rule);
}
static void
rule_destruct(struct rule *rule_)
{
struct rule_dpif *rule = rule_dpif_cast(rule_);
ovs_mutex_destroy(&rule->stats_mutex);
}
static void
rule_get_stats(struct rule *rule_, uint64_t *packets, uint64_t *bytes)
{
struct rule_dpif *rule = rule_dpif_cast(rule_);
ovs_mutex_lock(&rule->stats_mutex);
*packets = rule->packet_count;
*bytes = rule->byte_count;
ovs_mutex_unlock(&rule->stats_mutex);
}
static void
rule_dpif_execute(struct rule_dpif *rule, const struct flow *flow,
struct ofpbuf *packet)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(rule->up.ofproto);
ofproto_dpif_execute_actions(ofproto, flow, rule, NULL, 0, packet);
}
static enum ofperr
rule_execute(struct rule *rule, const struct flow *flow,
struct ofpbuf *packet)
{
rule_dpif_execute(rule_dpif_cast(rule), flow, packet);
ofpbuf_delete(packet);
return 0;
}
static void
rule_modify_actions(struct rule *rule_, bool reset_counters)
OVS_REQUIRES(ofproto_mutex)
{
struct rule_dpif *rule = rule_dpif_cast(rule_);
if (reset_counters) {
ovs_mutex_lock(&rule->stats_mutex);
rule->packet_count = 0;
rule->byte_count = 0;
ovs_mutex_unlock(&rule->stats_mutex);
}
complete_operation(rule);
}
static struct group_dpif *group_dpif_cast(const struct ofgroup *group)
{
return group ? CONTAINER_OF(group, struct group_dpif, up) : NULL;
}
static struct ofgroup *
group_alloc(void)
{
struct group_dpif *group = xzalloc(sizeof *group);
return &group->up;
}
static void
group_dealloc(struct ofgroup *group_)
{
struct group_dpif *group = group_dpif_cast(group_);
free(group);
}
static void
group_construct_stats(struct group_dpif *group)
OVS_REQUIRES(group->stats_mutex)
{
group->packet_count = 0;
group->byte_count = 0;
if (!group->bucket_stats) {
group->bucket_stats = xcalloc(group->up.n_buckets,
sizeof *group->bucket_stats);
} else {
memset(group->bucket_stats, 0, group->up.n_buckets *
sizeof *group->bucket_stats);
}
}
static enum ofperr
group_construct(struct ofgroup *group_)
{
struct group_dpif *group = group_dpif_cast(group_);
ovs_mutex_init(&group->stats_mutex);
ovs_mutex_lock(&group->stats_mutex);
group_construct_stats(group);
ovs_mutex_unlock(&group->stats_mutex);
return 0;
}
static void
group_destruct__(struct group_dpif *group)
OVS_REQUIRES(group->stats_mutex)
{
free(group->bucket_stats);
group->bucket_stats = NULL;
}
static void
group_destruct(struct ofgroup *group_)
{
struct group_dpif *group = group_dpif_cast(group_);
ovs_mutex_lock(&group->stats_mutex);
group_destruct__(group);
ovs_mutex_unlock(&group->stats_mutex);
ovs_mutex_destroy(&group->stats_mutex);
}
static enum ofperr
group_modify(struct ofgroup *group_, struct ofgroup *victim_)
{
struct group_dpif *group = group_dpif_cast(group_);
struct group_dpif *victim = group_dpif_cast(victim_);
ovs_mutex_lock(&group->stats_mutex);
if (victim->up.n_buckets < group->up.n_buckets) {
group_destruct__(group);
}
group_construct_stats(group);
ovs_mutex_unlock(&group->stats_mutex);
return 0;
}
static enum ofperr
group_get_stats(const struct ofgroup *group_, struct ofputil_group_stats *ogs)
{
struct group_dpif *group = group_dpif_cast(group_);
ovs_mutex_lock(&group->stats_mutex);
ogs->packet_count = group->packet_count;
ogs->byte_count = group->byte_count;
memcpy(ogs->bucket_stats, group->bucket_stats,
group->up.n_buckets * sizeof *group->bucket_stats);
ovs_mutex_unlock(&group->stats_mutex);
return 0;
}
bool
group_dpif_lookup(struct ofproto_dpif *ofproto, uint32_t group_id,
struct group_dpif **group)
OVS_TRY_RDLOCK(true, (*group)->up.rwlock)
{
struct ofgroup *ofgroup;
bool found;
*group = NULL;
found = ofproto_group_lookup(&ofproto->up, group_id, &ofgroup);
*group = found ? group_dpif_cast(ofgroup) : NULL;
return found;
}
void
group_dpif_release(struct group_dpif *group)
OVS_RELEASES(group->up.rwlock)
{
ofproto_group_release(&group->up);
}
void
group_dpif_get_buckets(const struct group_dpif *group,
const struct list **buckets)
{
*buckets = &group->up.buckets;
}
enum ofp11_group_type
group_dpif_get_type(const struct group_dpif *group)
{
return group->up.type;
}
/* Sends 'packet' out 'ofport'.
* May modify 'packet'.
* Returns 0 if successful, otherwise a positive errno value. */
int
ofproto_dpif_send_packet(const struct ofport_dpif *ofport, struct ofpbuf *packet)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport->up.ofproto);
int error;
error = xlate_send_packet(ofport, packet);
ovs_mutex_lock(&ofproto->stats_mutex);
ofproto->stats.tx_packets++;
ofproto->stats.tx_bytes += packet->size;
ovs_mutex_unlock(&ofproto->stats_mutex);
return error;
}
static bool
set_frag_handling(struct ofproto *ofproto_,
enum ofp_config_flags frag_handling)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
if (frag_handling != OFPC_FRAG_REASM) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
return true;
} else {
return false;
}
}
static enum ofperr
packet_out(struct ofproto *ofproto_, struct ofpbuf *packet,
const struct flow *flow,
const struct ofpact *ofpacts, size_t ofpacts_len)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
ofproto_dpif_execute_actions(ofproto, flow, NULL, ofpacts,
ofpacts_len, packet);
return 0;
}
/* NetFlow. */
static int
set_netflow(struct ofproto *ofproto_,
const struct netflow_options *netflow_options)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
if (netflow_options) {
if (!ofproto->netflow) {
ofproto->netflow = netflow_create();
ofproto->backer->need_revalidate = REV_RECONFIGURE;
}
return netflow_set_options(ofproto->netflow, netflow_options);
} else if (ofproto->netflow) {
ofproto->backer->need_revalidate = REV_RECONFIGURE;
netflow_unref(ofproto->netflow);
ofproto->netflow = NULL;
}
return 0;
}
static void
get_netflow_ids(const struct ofproto *ofproto_,
uint8_t *engine_type, uint8_t *engine_id)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofproto_);
dpif_get_netflow_ids(ofproto->backer->dpif, engine_type, engine_id);
}
static struct ofproto_dpif *
ofproto_dpif_lookup(const char *name)
{
struct ofproto_dpif *ofproto;
HMAP_FOR_EACH_WITH_HASH (ofproto, all_ofproto_dpifs_node,
hash_string(name, 0), &all_ofproto_dpifs) {
if (!strcmp(ofproto->up.name, name)) {
return ofproto;
}
}
return NULL;
}
static void
ofproto_unixctl_fdb_flush(struct unixctl_conn *conn, int argc,
const char *argv[], void *aux OVS_UNUSED)
{
struct ofproto_dpif *ofproto;
if (argc > 1) {
ofproto = ofproto_dpif_lookup(argv[1]);
if (!ofproto) {
unixctl_command_reply_error(conn, "no such bridge");
return;
}
ovs_rwlock_wrlock(&ofproto->ml->rwlock);
mac_learning_flush(ofproto->ml);
ovs_rwlock_unlock(&ofproto->ml->rwlock);
} else {
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
ovs_rwlock_wrlock(&ofproto->ml->rwlock);
mac_learning_flush(ofproto->ml);
ovs_rwlock_unlock(&ofproto->ml->rwlock);
}
}
unixctl_command_reply(conn, "table successfully flushed");
}
static struct ofport_dpif *
ofbundle_get_a_port(const struct ofbundle *bundle)
{
return CONTAINER_OF(list_front(&bundle->ports), struct ofport_dpif,
bundle_node);
}
static void
ofproto_unixctl_fdb_show(struct unixctl_conn *conn, int argc OVS_UNUSED,
const char *argv[], void *aux OVS_UNUSED)
{
struct ds ds = DS_EMPTY_INITIALIZER;
const struct ofproto_dpif *ofproto;
const struct mac_entry *e;
ofproto = ofproto_dpif_lookup(argv[1]);
if (!ofproto) {
unixctl_command_reply_error(conn, "no such bridge");
return;
}
ds_put_cstr(&ds, " port VLAN MAC Age\n");
ovs_rwlock_rdlock(&ofproto->ml->rwlock);
LIST_FOR_EACH (e, lru_node, &ofproto->ml->lrus) {
struct ofbundle *bundle = e->port.p;
char name[OFP_MAX_PORT_NAME_LEN];
ofputil_port_to_string(ofbundle_get_a_port(bundle)->up.ofp_port,
name, sizeof name);
ds_put_format(&ds, "%5s %4d "ETH_ADDR_FMT" %3d\n",
name, e->vlan, ETH_ADDR_ARGS(e->mac),
mac_entry_age(ofproto->ml, e));
}
ovs_rwlock_unlock(&ofproto->ml->rwlock);
unixctl_command_reply(conn, ds_cstr(&ds));
ds_destroy(&ds);
}
struct trace_ctx {
struct xlate_out xout;
struct xlate_in xin;
struct flow flow;
struct flow_wildcards wc;
struct ds *result;
};
static void
trace_format_rule(struct ds *result, int level, const struct rule_dpif *rule)
{
struct rule_actions *actions;
ovs_be64 cookie;
ds_put_char_multiple(result, '\t', level);
if (!rule) {
ds_put_cstr(result, "No match\n");
return;
}
ovs_mutex_lock(&rule->up.mutex);
cookie = rule->up.flow_cookie;
ovs_mutex_unlock(&rule->up.mutex);
ds_put_format(result, "Rule: table=%"PRIu8" cookie=%#"PRIx64" ",
rule ? rule->up.table_id : 0, ntohll(cookie));
cls_rule_format(&rule->up.cr, result);
ds_put_char(result, '\n');
actions = rule_dpif_get_actions(rule);
ds_put_char_multiple(result, '\t', level);
ds_put_cstr(result, "OpenFlow actions=");
ofpacts_format(actions->ofpacts, actions->ofpacts_len, result);
ds_put_char(result, '\n');
rule_actions_unref(actions);
}
static void
trace_format_flow(struct ds *result, int level, const char *title,
struct trace_ctx *trace)
{
ds_put_char_multiple(result, '\t', level);
ds_put_format(result, "%s: ", title);
if (flow_equal(&trace->xin.flow, &trace->flow)) {
ds_put_cstr(result, "unchanged");
} else {
flow_format(result, &trace->xin.flow);
trace->flow = trace->xin.flow;
}
ds_put_char(result, '\n');
}
static void
trace_format_regs(struct ds *result, int level, const char *title,
struct trace_ctx *trace)
{
size_t i;
ds_put_char_multiple(result, '\t', level);
ds_put_format(result, "%s:", title);
for (i = 0; i < FLOW_N_REGS; i++) {
ds_put_format(result, " reg%"PRIuSIZE"=0x%"PRIx32, i, trace->flow.regs[i]);
}
ds_put_char(result, '\n');
}
static void
trace_format_odp(struct ds *result, int level, const char *title,
struct trace_ctx *trace)
{
struct ofpbuf *odp_actions = &trace->xout.odp_actions;
ds_put_char_multiple(result, '\t', level);
ds_put_format(result, "%s: ", title);
format_odp_actions(result, odp_actions->data, odp_actions->size);
ds_put_char(result, '\n');
}
static void
trace_format_megaflow(struct ds *result, int level, const char *title,
struct trace_ctx *trace)
{
struct match match;
ds_put_char_multiple(result, '\t', level);
ds_put_format(result, "%s: ", title);
flow_wildcards_or(&trace->wc, &trace->xout.wc, &trace->wc);
match_init(&match, &trace->flow, &trace->wc);
match_format(&match, result, OFP_DEFAULT_PRIORITY);
ds_put_char(result, '\n');
}
static void
trace_resubmit(struct xlate_in *xin, struct rule_dpif *rule, int recurse)
{
struct trace_ctx *trace = CONTAINER_OF(xin, struct trace_ctx, xin);
struct ds *result = trace->result;
ds_put_char(result, '\n');
trace_format_flow(result, recurse + 1, "Resubmitted flow", trace);
trace_format_regs(result, recurse + 1, "Resubmitted regs", trace);
trace_format_odp(result, recurse + 1, "Resubmitted odp", trace);
trace_format_megaflow(result, recurse + 1, "Resubmitted megaflow", trace);
trace_format_rule(result, recurse + 1, rule);
}
static void
trace_report(struct xlate_in *xin, const char *s, int recurse)
{
struct trace_ctx *trace = CONTAINER_OF(xin, struct trace_ctx, xin);
struct ds *result = trace->result;
ds_put_char_multiple(result, '\t', recurse);
ds_put_cstr(result, s);
ds_put_char(result, '\n');
}
/* Parses the 'argc' elements of 'argv', ignoring argv[0]. The following
* forms are supported:
*
* - [dpname] odp_flow [-generate | packet]
* - bridge br_flow [-generate | packet]
*
* On success, initializes '*ofprotop' and 'flow' and returns NULL. On failure
* returns a nonnull malloced error message. */
static char * WARN_UNUSED_RESULT
parse_flow_and_packet(int argc, const char *argv[],
struct ofproto_dpif **ofprotop, struct flow *flow,
struct ofpbuf **packetp)
{
const struct dpif_backer *backer = NULL;
const char *error = NULL;
char *m_err = NULL;
struct simap port_names = SIMAP_INITIALIZER(&port_names);
struct ofpbuf *packet;
struct ofpbuf odp_key;
struct ofpbuf odp_mask;
ofpbuf_init(&odp_key, 0);
ofpbuf_init(&odp_mask, 0);
/* Handle "-generate" or a hex string as the last argument. */
if (!strcmp(argv[argc - 1], "-generate")) {
packet = ofpbuf_new(0);
argc--;
} else {
error = eth_from_hex(argv[argc - 1], &packet);
if (!error) {
argc--;
} else if (argc == 4) {
/* The 3-argument form must end in "-generate' or a hex string. */
goto exit;
}
error = NULL;
}
/* odp_flow can have its in_port specified as a name instead of port no.
* We do not yet know whether a given flow is a odp_flow or a br_flow.
* But, to know whether a flow is odp_flow through odp_flow_from_string(),
* we need to create a simap of name to port no. */
if (argc == 3) {
const char *dp_type;
if (!strncmp(argv[1], "ovs-", 4)) {
dp_type = argv[1] + 4;
} else {
dp_type = argv[1];
}
backer = shash_find_data(&all_dpif_backers, dp_type);
} else if (argc == 2) {
struct shash_node *node;
if (shash_count(&all_dpif_backers) == 1) {
node = shash_first(&all_dpif_backers);
backer = node->data;
}
} else {
error = "Syntax error";
goto exit;
}
if (backer && backer->dpif) {
struct dpif_port dpif_port;
struct dpif_port_dump port_dump;
DPIF_PORT_FOR_EACH (&dpif_port, &port_dump, backer->dpif) {
simap_put(&port_names, dpif_port.name,
odp_to_u32(dpif_port.port_no));
}
}
/* Parse the flow and determine whether a datapath or
* bridge is specified. If function odp_flow_key_from_string()
* returns 0, the flow is a odp_flow. If function
* parse_ofp_exact_flow() returns NULL, the flow is a br_flow. */
if (!odp_flow_from_string(argv[argc - 1], &port_names,
&odp_key, &odp_mask)) {
if (!backer) {
error = "Cannot find the datapath";
goto exit;
}
if (xlate_receive(backer, NULL, odp_key.data, odp_key.size, flow,
NULL, ofprotop, NULL, NULL, NULL, NULL)) {
error = "Invalid datapath flow";
goto exit;
}
} else {
char *err = parse_ofp_exact_flow(flow, NULL, argv[argc - 1], NULL);
if (err) {
m_err = xasprintf("Bad flow syntax: %s", err);
free(err);
goto exit;
} else {
if (argc != 3) {
error = "Must specify bridge name";
goto exit;
}
*ofprotop = ofproto_dpif_lookup(argv[1]);
if (!*ofprotop) {
error = "Unknown bridge name";
goto exit;
}
}
}
/* Generate a packet, if requested. */
if (packet) {
if (!packet->size) {
flow_compose(packet, flow);
} else {
union flow_in_port in_port = flow->in_port;
/* Use the metadata from the flow and the packet argument
* to reconstruct the flow. */
flow_extract(packet, flow->skb_priority, flow->pkt_mark, NULL,
&in_port, flow);
}
}
exit:
if (error && !m_err) {
m_err = xstrdup(error);
}
if (m_err) {
ofpbuf_delete(packet);
packet = NULL;
}
*packetp = packet;
ofpbuf_uninit(&odp_key);
ofpbuf_uninit(&odp_mask);
simap_destroy(&port_names);
return m_err;
}
static void
ofproto_unixctl_trace(struct unixctl_conn *conn, int argc, const char *argv[],
void *aux OVS_UNUSED)
{
struct ofproto_dpif *ofproto;
struct ofpbuf *packet;
char *error;
struct flow flow;
error = parse_flow_and_packet(argc, argv, &ofproto, &flow, &packet);
if (!error) {
struct ds result;
ds_init(&result);
ofproto_trace(ofproto, &flow, packet, NULL, 0, &result);
unixctl_command_reply(conn, ds_cstr(&result));
ds_destroy(&result);
ofpbuf_delete(packet);
} else {
unixctl_command_reply_error(conn, error);
free(error);
}
}
static void
ofproto_unixctl_trace_actions(struct unixctl_conn *conn, int argc,
const char *argv[], void *aux OVS_UNUSED)
{
enum ofputil_protocol usable_protocols;
struct ofproto_dpif *ofproto;
bool enforce_consistency;
struct ofpbuf ofpacts;
struct ofpbuf *packet;
struct ds result;
struct flow flow;
uint16_t in_port;
/* Three kinds of error return values! */
enum ofperr retval;
char *error;
packet = NULL;
ds_init(&result);
ofpbuf_init(&ofpacts, 0);
/* Parse actions. */
error = parse_ofpacts(argv[--argc], &ofpacts, &usable_protocols);
if (error) {
unixctl_command_reply_error(conn, error);
free(error);
goto exit;
}
/* OpenFlow 1.1 and later suggest that the switch enforces certain forms of
* consistency between the flow and the actions. With -consistent, we
* enforce consistency even for a flow supported in OpenFlow 1.0. */
if (!strcmp(argv[1], "-consistent")) {
enforce_consistency = true;
argv++;
argc--;
} else {
enforce_consistency = false;
}
error = parse_flow_and_packet(argc, argv, &ofproto, &flow, &packet);
if (error) {
unixctl_command_reply_error(conn, error);
free(error);
goto exit;
}
/* Do the same checks as handle_packet_out() in ofproto.c.
*
* We pass a 'table_id' of 0 to ofproto_check_ofpacts(), which isn't
* strictly correct because these actions aren't in any table, but it's OK
* because it 'table_id' is used only to check goto_table instructions, but
* packet-outs take a list of actions and therefore it can't include
* instructions.
*
* We skip the "meter" check here because meter is an instruction, not an
* action, and thus cannot appear in ofpacts. */
in_port = ofp_to_u16(flow.in_port.ofp_port);
if (in_port >= ofproto->up.max_ports && in_port < ofp_to_u16(OFPP_MAX)) {
unixctl_command_reply_error(conn, "invalid in_port");
goto exit;
}
if (enforce_consistency) {
retval = ofpacts_check_consistency(ofpacts.data, ofpacts.size, &flow,
u16_to_ofp(ofproto->up.max_ports),
0, 0, usable_protocols);
} else {
retval = ofpacts_check(ofpacts.data, ofpacts.size, &flow,
u16_to_ofp(ofproto->up.max_ports), 0, 0,
&usable_protocols);
}
if (retval) {
ds_clear(&result);
ds_put_format(&result, "Bad actions: %s", ofperr_to_string(retval));
unixctl_command_reply_error(conn, ds_cstr(&result));
goto exit;
}
ofproto_trace(ofproto, &flow, packet, ofpacts.data, ofpacts.size, &result);
unixctl_command_reply(conn, ds_cstr(&result));
exit:
ds_destroy(&result);
ofpbuf_delete(packet);
ofpbuf_uninit(&ofpacts);
}
/* Implements a "trace" through 'ofproto''s flow table, appending a textual
* description of the results to 'ds'.
*
* The trace follows a packet with the specified 'flow' through the flow
* table. 'packet' may be nonnull to trace an actual packet, with consequent
* side effects (if it is nonnull then its flow must be 'flow').
*
* If 'ofpacts' is nonnull then its 'ofpacts_len' bytes specify the actions to
* trace, otherwise the actions are determined by a flow table lookup. */
static void
ofproto_trace(struct ofproto_dpif *ofproto, const struct flow *flow,
const struct ofpbuf *packet,
const struct ofpact ofpacts[], size_t ofpacts_len,
struct ds *ds)
{
struct rule_dpif *rule;
struct trace_ctx trace;
ds_put_format(ds, "Bridge: %s\n", ofproto->up.name);
ds_put_cstr(ds, "Flow: ");
flow_format(ds, flow);
ds_put_char(ds, '\n');
flow_wildcards_init_catchall(&trace.wc);
if (ofpacts) {
rule = NULL;
} else {
rule_dpif_lookup(ofproto, flow, &trace.wc, &rule);
trace_format_rule(ds, 0, rule);
if (rule == ofproto->miss_rule) {
ds_put_cstr(ds, "\nNo match, flow generates \"packet in\"s.\n");
} else if (rule == ofproto->no_packet_in_rule) {
ds_put_cstr(ds, "\nNo match, packets dropped because "
"OFPPC_NO_PACKET_IN is set on in_port.\n");
} else if (rule == ofproto->drop_frags_rule) {
ds_put_cstr(ds, "\nPackets dropped because they are IP fragments "
"and the fragment handling mode is \"drop\".\n");
}
}
if (rule || ofpacts) {
uint16_t tcp_flags;
tcp_flags = packet ? packet_get_tcp_flags(packet, flow) : 0;
trace.result = ds;
trace.flow = *flow;
xlate_in_init(&trace.xin, ofproto, flow, rule, tcp_flags, packet);
if (ofpacts) {
trace.xin.ofpacts = ofpacts;
trace.xin.ofpacts_len = ofpacts_len;
}
trace.xin.resubmit_hook = trace_resubmit;
trace.xin.report_hook = trace_report;
xlate_actions(&trace.xin, &trace.xout);
ds_put_char(ds, '\n');
trace_format_flow(ds, 0, "Final flow", &trace);
trace_format_megaflow(ds, 0, "Megaflow", &trace);
ds_put_cstr(ds, "Datapath actions: ");
format_odp_actions(ds, trace.xout.odp_actions.data,
trace.xout.odp_actions.size);
if (trace.xout.slow) {
enum slow_path_reason slow;
ds_put_cstr(ds, "\nThis flow is handled by the userspace "
"slow path because it:");
slow = trace.xout.slow;
while (slow) {
enum slow_path_reason bit = rightmost_1bit(slow);
ds_put_format(ds, "\n\t- %s.",
slow_path_reason_to_explanation(bit));
slow &= ~bit;
}
}
xlate_out_uninit(&trace.xout);
}
rule_dpif_unref(rule);
}
/* Store the current ofprotos in 'ofproto_shash'. Returns a sorted list
* of the 'ofproto_shash' nodes. It is the responsibility of the caller
* to destroy 'ofproto_shash' and free the returned value. */
static const struct shash_node **
get_ofprotos(struct shash *ofproto_shash)
{
const struct ofproto_dpif *ofproto;
HMAP_FOR_EACH (ofproto, all_ofproto_dpifs_node, &all_ofproto_dpifs) {
char *name = xasprintf("%s@%s", ofproto->up.type, ofproto->up.name);
shash_add_nocopy(ofproto_shash, name, ofproto);
}
return shash_sort(ofproto_shash);
}
static void
ofproto_unixctl_dpif_dump_dps(struct unixctl_conn *conn, int argc OVS_UNUSED,
const char *argv[] OVS_UNUSED,
void *aux OVS_UNUSED)
{
struct ds ds = DS_EMPTY_INITIALIZER;
struct shash ofproto_shash;
const struct shash_node **sorted_ofprotos;
int i;
shash_init(&ofproto_shash);
sorted_ofprotos = get_ofprotos(&ofproto_shash);
for (i = 0; i < shash_count(&ofproto_shash); i++) {
const struct shash_node *node = sorted_ofprotos[i];
ds_put_format(&ds, "%s\n", node->name);
}
shash_destroy(&ofproto_shash);
free(sorted_ofprotos);
unixctl_command_reply(conn, ds_cstr(&ds));
ds_destroy(&ds);
}
static void
dpif_show_backer(const struct dpif_backer *backer, struct ds *ds)
{
const struct shash_node **ofprotos;
struct dpif_dp_stats dp_stats;
struct shash ofproto_shash;
size_t i;
dpif_get_dp_stats(backer->dpif, &dp_stats);
ds_put_format(ds, "%s: hit:%"PRIu64" missed:%"PRIu64"\n",
dpif_name(backer->dpif), dp_stats.n_hit, dp_stats.n_missed);
shash_init(&ofproto_shash);
ofprotos = get_ofprotos(&ofproto_shash);
for (i = 0; i < shash_count(&ofproto_shash); i++) {
struct ofproto_dpif *ofproto = ofprotos[i]->data;
const struct shash_node **ports;
size_t j;
if (ofproto->backer != backer) {
continue;
}
ds_put_format(ds, "\t%s:\n", ofproto->up.name);
ports = shash_sort(&ofproto->up.port_by_name);
for (j = 0; j < shash_count(&ofproto->up.port_by_name); j++) {
const struct shash_node *node = ports[j];
struct ofport *ofport = node->data;
struct smap config;
odp_port_t odp_port;
ds_put_format(ds, "\t\t%s %u/", netdev_get_name(ofport->netdev),
ofport->ofp_port);
odp_port = ofp_port_to_odp_port(ofproto, ofport->ofp_port);
if (odp_port != ODPP_NONE) {
ds_put_format(ds, "%"PRIu32":", odp_port);
} else {
ds_put_cstr(ds, "none:");
}
ds_put_format(ds, " (%s", netdev_get_type(ofport->netdev));
smap_init(&config);
if (!netdev_get_config(ofport->netdev, &config)) {
const struct smap_node **nodes;
size_t i;
nodes = smap_sort(&config);
for (i = 0; i < smap_count(&config); i++) {
const struct smap_node *node = nodes[i];
ds_put_format(ds, "%c %s=%s", i ? ',' : ':',
node->key, node->value);
}
free(nodes);
}
smap_destroy(&config);
ds_put_char(ds, ')');
ds_put_char(ds, '\n');
}
free(ports);
}
shash_destroy(&ofproto_shash);
free(ofprotos);
}
static void
ofproto_unixctl_dpif_show(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 shash_node **backers;
int i;
backers = shash_sort(&all_dpif_backers);
for (i = 0; i < shash_count(&all_dpif_backers); i++) {
dpif_show_backer(backers[i]->data, &ds);
}
free(backers);
unixctl_command_reply(conn, ds_cstr(&ds));
ds_destroy(&ds);
}
static bool
ofproto_dpif_contains_flow(const struct ofproto_dpif *ofproto,
const struct nlattr *key, size_t key_len)
{
enum odp_key_fitness fitness;
struct ofproto_dpif *ofp;
struct flow flow;
xlate_receive(ofproto->backer, NULL, key, key_len, &flow, &fitness, &ofp,
NULL, NULL, NULL, NULL);
return ofp == ofproto;
}
static void
ofproto_unixctl_dpif_dump_flows(struct unixctl_conn *conn,
int argc OVS_UNUSED, const char *argv[],
void *aux OVS_UNUSED)
{
struct ds ds = DS_EMPTY_INITIALIZER;
const struct dpif_flow_stats *stats;
const struct ofproto_dpif *ofproto;
struct dpif_flow_dump flow_dump;
const struct nlattr *actions;
const struct nlattr *mask;
const struct nlattr *key;
size_t actions_len;
size_t mask_len;
size_t key_len;
bool verbosity = false;
struct dpif_port dpif_port;
struct dpif_port_dump port_dump;
struct hmap portno_names;
ofproto = ofproto_dpif_lookup(argv[argc - 1]);
if (!ofproto) {
unixctl_command_reply_error(conn, "no such bridge");
return;
}
if (argc > 2 && !strcmp(argv[1], "-m")) {
verbosity = true;
}
hmap_init(&portno_names);
DPIF_PORT_FOR_EACH (&dpif_port, &port_dump, ofproto->backer->dpif) {
odp_portno_names_set(&portno_names, dpif_port.port_no, dpif_port.name);
}
ds_init(&ds);
dpif_flow_dump_start(&flow_dump, ofproto->backer->dpif);
while (dpif_flow_dump_next(&flow_dump, &key, &key_len, &mask, &mask_len,
&actions, &actions_len, &stats)) {
if (!ofproto_dpif_contains_flow(ofproto, key, key_len)) {
continue;
}
odp_flow_format(key, key_len, mask, mask_len, &portno_names, &ds,
verbosity);
ds_put_cstr(&ds, ", ");
dpif_flow_stats_format(stats, &ds);
ds_put_cstr(&ds, ", actions:");
format_odp_actions(&ds, actions, actions_len);
ds_put_char(&ds, '\n');
}
if (dpif_flow_dump_done(&flow_dump)) {
ds_clear(&ds);
ds_put_format(&ds, "dpif/dump_flows failed: %s", ovs_strerror(errno));
unixctl_command_reply_error(conn, ds_cstr(&ds));
} else {
unixctl_command_reply(conn, ds_cstr(&ds));
}
odp_portno_names_destroy(&portno_names);
hmap_destroy(&portno_names);
ds_destroy(&ds);
}
static void
ofproto_dpif_unixctl_init(void)
{
static bool registered;
if (registered) {
return;
}
registered = true;
unixctl_command_register(
"ofproto/trace",
"{[dp_name] odp_flow | bridge br_flow} [-generate|packet]",
1, 3, ofproto_unixctl_trace, NULL);
unixctl_command_register(
"ofproto/trace-packet-out",
"[-consistent] {[dp_name] odp_flow | bridge br_flow} [-generate|packet] actions",
2, 6, ofproto_unixctl_trace_actions, NULL);
unixctl_command_register("fdb/flush", "[bridge]", 0, 1,
ofproto_unixctl_fdb_flush, NULL);
unixctl_command_register("fdb/show", "bridge", 1, 1,
ofproto_unixctl_fdb_show, NULL);
unixctl_command_register("dpif/dump-dps", "", 0, 0,
ofproto_unixctl_dpif_dump_dps, NULL);
unixctl_command_register("dpif/show", "", 0, 0, ofproto_unixctl_dpif_show,
NULL);
unixctl_command_register("dpif/dump-flows", "[-m] bridge", 1, 2,
ofproto_unixctl_dpif_dump_flows, NULL);
}
/* Linux VLAN device support (e.g. "eth0.10" for VLAN 10.)
*
* This is deprecated. It is only for compatibility with broken device drivers
* in old versions of Linux that do not properly support VLANs when VLAN
* devices are not used. When broken device drivers are no longer in
* widespread use, we will delete these interfaces. */
static int
set_realdev(struct ofport *ofport_, ofp_port_t realdev_ofp_port, int vid)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(ofport_->ofproto);
struct ofport_dpif *ofport = ofport_dpif_cast(ofport_);
if (realdev_ofp_port == ofport->realdev_ofp_port
&& vid == ofport->vlandev_vid) {
return 0;
}
ofproto->backer->need_revalidate = REV_RECONFIGURE;
if (ofport->realdev_ofp_port) {
vsp_remove(ofport);
}
if (realdev_ofp_port && ofport->bundle) {
/* vlandevs are enslaved to their realdevs, so they are not allowed to
* themselves be part of a bundle. */
bundle_set(ofport->up.ofproto, ofport->bundle, NULL);
}
ofport->realdev_ofp_port = realdev_ofp_port;
ofport->vlandev_vid = vid;
if (realdev_ofp_port) {
vsp_add(ofport, realdev_ofp_port, vid);
}
return 0;
}
static uint32_t
hash_realdev_vid(ofp_port_t realdev_ofp_port, int vid)
{
return hash_2words(ofp_to_u16(realdev_ofp_port), vid);
}
bool
ofproto_has_vlan_splinters(const struct ofproto_dpif *ofproto)
OVS_EXCLUDED(ofproto->vsp_mutex)
{
bool ret;
ovs_mutex_lock(&ofproto->vsp_mutex);
ret = !hmap_is_empty(&ofproto->realdev_vid_map);
ovs_mutex_unlock(&ofproto->vsp_mutex);
return ret;
}
static ofp_port_t
vsp_realdev_to_vlandev__(const struct ofproto_dpif *ofproto,
ofp_port_t realdev_ofp_port, ovs_be16 vlan_tci)
OVS_REQUIRES(ofproto->vsp_mutex)
{
if (!hmap_is_empty(&ofproto->realdev_vid_map)) {
int vid = vlan_tci_to_vid(vlan_tci);
const struct vlan_splinter *vsp;
HMAP_FOR_EACH_WITH_HASH (vsp, realdev_vid_node,
hash_realdev_vid(realdev_ofp_port, vid),
&ofproto->realdev_vid_map) {
if (vsp->realdev_ofp_port == realdev_ofp_port
&& vsp->vid == vid) {
return vsp->vlandev_ofp_port;
}
}
}
return realdev_ofp_port;
}
/* Returns the OFP port number of the Linux VLAN device that corresponds to
* 'vlan_tci' on the network device with port number 'realdev_ofp_port' in
* 'struct ofport_dpif'. For example, given 'realdev_ofp_port' of eth0 and
* 'vlan_tci' 9, it would return the port number of eth0.9.
*
* Unless VLAN splinters are enabled for port 'realdev_ofp_port', this
* function just returns its 'realdev_ofp_port' argument. */
ofp_port_t
vsp_realdev_to_vlandev(const struct ofproto_dpif *ofproto,
ofp_port_t realdev_ofp_port, ovs_be16 vlan_tci)
OVS_EXCLUDED(ofproto->vsp_mutex)
{
ofp_port_t ret;
ovs_mutex_lock(&ofproto->vsp_mutex);
ret = vsp_realdev_to_vlandev__(ofproto, realdev_ofp_port, vlan_tci);
ovs_mutex_unlock(&ofproto->vsp_mutex);
return ret;
}
static struct vlan_splinter *
vlandev_find(const struct ofproto_dpif *ofproto, ofp_port_t vlandev_ofp_port)
{
struct vlan_splinter *vsp;
HMAP_FOR_EACH_WITH_HASH (vsp, vlandev_node,
hash_ofp_port(vlandev_ofp_port),
&ofproto->vlandev_map) {
if (vsp->vlandev_ofp_port == vlandev_ofp_port) {
return vsp;
}
}
return NULL;
}
/* Returns the OpenFlow port number of the "real" device underlying the Linux
* VLAN device with OpenFlow port number 'vlandev_ofp_port' and stores the
* VLAN VID of the Linux VLAN device in '*vid'. For example, given
* 'vlandev_ofp_port' of eth0.9, it would return the OpenFlow port number of
* eth0 and store 9 in '*vid'.
*
* Returns 0 and does not modify '*vid' if 'vlandev_ofp_port' is not a Linux
* VLAN device. Unless VLAN splinters are enabled, this is what this function
* always does.*/
static ofp_port_t
vsp_vlandev_to_realdev(const struct ofproto_dpif *ofproto,
ofp_port_t vlandev_ofp_port, int *vid)
OVS_REQUIRES(ofproto->vsp_mutex)
{
if (!hmap_is_empty(&ofproto->vlandev_map)) {
const struct vlan_splinter *vsp;
vsp = vlandev_find(ofproto, vlandev_ofp_port);
if (vsp) {
if (vid) {
*vid = vsp->vid;
}
return vsp->realdev_ofp_port;
}
}
return 0;
}
/* Given 'flow', a flow representing a packet received on 'ofproto', checks
* whether 'flow->in_port' represents a Linux VLAN device. If so, changes
* 'flow->in_port' to the "real" device backing the VLAN device, sets
* 'flow->vlan_tci' to the VLAN VID, and returns true. Otherwise (which is
* always the case unless VLAN splinters are enabled), returns false without
* making any changes. */
bool
vsp_adjust_flow(const struct ofproto_dpif *ofproto, struct flow *flow)
OVS_EXCLUDED(ofproto->vsp_mutex)
{
ofp_port_t realdev;
int vid;
ovs_mutex_lock(&ofproto->vsp_mutex);
realdev = vsp_vlandev_to_realdev(ofproto, flow->in_port.ofp_port, &vid);
ovs_mutex_unlock(&ofproto->vsp_mutex);
if (!realdev) {
return false;
}
/* Cause the flow to be processed as if it came in on the real device with
* the VLAN device's VLAN ID. */
flow->in_port.ofp_port = realdev;
flow->vlan_tci = htons((vid & VLAN_VID_MASK) | VLAN_CFI);
return true;
}
static void
vsp_remove(struct ofport_dpif *port)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(port->up.ofproto);
struct vlan_splinter *vsp;
ovs_mutex_lock(&ofproto->vsp_mutex);
vsp = vlandev_find(ofproto, port->up.ofp_port);
if (vsp) {
hmap_remove(&ofproto->vlandev_map, &vsp->vlandev_node);
hmap_remove(&ofproto->realdev_vid_map, &vsp->realdev_vid_node);
free(vsp);
port->realdev_ofp_port = 0;
} else {
VLOG_ERR("missing vlan device record");
}
ovs_mutex_unlock(&ofproto->vsp_mutex);
}
static void
vsp_add(struct ofport_dpif *port, ofp_port_t realdev_ofp_port, int vid)
{
struct ofproto_dpif *ofproto = ofproto_dpif_cast(port->up.ofproto);
ovs_mutex_lock(&ofproto->vsp_mutex);
if (!vsp_vlandev_to_realdev(ofproto, port->up.ofp_port, NULL)
&& (vsp_realdev_to_vlandev__(ofproto, realdev_ofp_port, htons(vid))
== realdev_ofp_port)) {
struct vlan_splinter *vsp;
vsp = xmalloc(sizeof *vsp);
vsp->realdev_ofp_port = realdev_ofp_port;
vsp->vlandev_ofp_port = port->up.ofp_port;
vsp->vid = vid;
port->realdev_ofp_port = realdev_ofp_port;
hmap_insert(&ofproto->vlandev_map, &vsp->vlandev_node,
hash_ofp_port(port->up.ofp_port));
hmap_insert(&ofproto->realdev_vid_map, &vsp->realdev_vid_node,
hash_realdev_vid(realdev_ofp_port, vid));
} else {
VLOG_ERR("duplicate vlan device record");
}
ovs_mutex_unlock(&ofproto->vsp_mutex);
}
static odp_port_t
ofp_port_to_odp_port(const struct ofproto_dpif *ofproto, ofp_port_t ofp_port)
{
const struct ofport_dpif *ofport = get_ofp_port(ofproto, ofp_port);
return ofport ? ofport->odp_port : ODPP_NONE;
}
struct ofport_dpif *
odp_port_to_ofport(const struct dpif_backer *backer, odp_port_t odp_port)
{
struct ofport_dpif *port;
ovs_rwlock_rdlock(&backer->odp_to_ofport_lock);
HMAP_FOR_EACH_IN_BUCKET (port, odp_port_node, hash_odp_port(odp_port),
&backer->odp_to_ofport_map) {
if (port->odp_port == odp_port) {
ovs_rwlock_unlock(&backer->odp_to_ofport_lock);
return port;
}
}
ovs_rwlock_unlock(&backer->odp_to_ofport_lock);
return NULL;
}
static ofp_port_t
odp_port_to_ofp_port(const struct ofproto_dpif *ofproto, odp_port_t odp_port)
{
struct ofport_dpif *port;
port = odp_port_to_ofport(ofproto->backer, odp_port);
if (port && &ofproto->up == port->up.ofproto) {
return port->up.ofp_port;
} else {
return OFPP_NONE;
}
}
const struct ofproto_class ofproto_dpif_class = {
init,
enumerate_types,
enumerate_names,
del,
port_open_type,
type_run,
type_wait,
alloc,
construct,
destruct,
dealloc,
run,
wait,
NULL, /* get_memory_usage. */
type_get_memory_usage,
flush,
get_features,
get_tables,
port_alloc,
port_construct,
port_destruct,
port_dealloc,
port_modified,
port_reconfigured,
port_query_by_name,
port_add,
port_del,
port_get_stats,
port_dump_start,
port_dump_next,
port_dump_done,
port_poll,
port_poll_wait,
port_is_lacp_current,
NULL, /* rule_choose_table */
rule_alloc,
rule_construct,
rule_insert,
rule_delete,
rule_destruct,
rule_dealloc,
rule_get_stats,
rule_execute,
rule_modify_actions,
set_frag_handling,
packet_out,
set_netflow,
get_netflow_ids,
set_sflow,
set_ipfix,
set_cfm,
get_cfm_status,
set_bfd,
get_bfd_status,
set_stp,
get_stp_status,
set_stp_port,
get_stp_port_status,
get_stp_port_stats,
set_queues,
bundle_set,
bundle_remove,
mirror_set__,
mirror_get_stats__,
set_flood_vlans,
is_mirror_output_bundle,
forward_bpdu_changed,
set_mac_table_config,
set_realdev,
NULL, /* meter_get_features */
NULL, /* meter_set */
NULL, /* meter_get */
NULL, /* meter_del */
group_alloc, /* group_alloc */
group_construct, /* group_construct */
group_destruct, /* group_destruct */
group_dealloc, /* group_dealloc */
group_modify, /* group_modify */
group_get_stats, /* group_get_stats */
};
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