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ovs/lib/learning-switch.c
Ben Pfaff ba186119ca Remove vestigial support for Spanning Tree Protocol. 
Open vSwitch has never properly supported IEEE 802.1D Spanning Tree
Protocol (STP), but it has various bits and pieces that claim to support
it.  This commit deletes them, to reduce the amount of dead code in the
tree.  We can always reintroduce it later if it proves to be a good idea.

Bug #1175.
2010-08-13 09:47:27 -07:00

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/*
* Copyright (c) 2008, 2009, 2010 Nicira Networks.
*
* 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 "learning-switch.h"
#include <errno.h>
#include <inttypes.h>
#include <netinet/in.h>
#include <stdlib.h>
#include <time.h>
#include "flow.h"
#include "mac-learning.h"
#include "ofpbuf.h"
#include "ofp-parse.h"
#include "ofp-print.h"
#include "ofp-util.h"
#include "openflow/openflow.h"
#include "poll-loop.h"
#include "queue.h"
#include "rconn.h"
#include "timeval.h"
#include "vconn.h"
#include "vlog.h"
#include "xtoxll.h"
VLOG_DEFINE_THIS_MODULE(learning_switch)
struct lswitch {
/* If nonnegative, the switch sets up flows that expire after the given
* number of seconds (or never expire, if the value is OFP_FLOW_PERMANENT).
* Otherwise, the switch processes every packet. */
int max_idle;
unsigned long long int datapath_id;
time_t last_features_request;
struct mac_learning *ml; /* NULL to act as hub instead of switch. */
uint32_t wildcards; /* Wildcards to apply to flows. */
bool action_normal; /* Use OFPP_NORMAL? */
uint32_t queue; /* OpenFlow queue to use, or UINT32_MAX. */
/* Number of outgoing queued packets on the rconn. */
struct rconn_packet_counter *queued;
};
/* The log messages here could actually be useful in debugging, so keep the
* rate limit relatively high. */
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(30, 300);
static void queue_tx(struct lswitch *, struct rconn *, struct ofpbuf *);
static void send_features_request(struct lswitch *, struct rconn *);
static void send_default_flows(struct lswitch *sw, struct rconn *rconn,
FILE *default_flows);
typedef void packet_handler_func(struct lswitch *, struct rconn *, void *);
static packet_handler_func process_switch_features;
static packet_handler_func process_packet_in;
static packet_handler_func process_echo_request;
/* Creates and returns a new learning switch.
*
* If 'learn_macs' is true, the new switch will learn the ports on which MAC
* addresses appear. Otherwise, the new switch will flood all packets.
*
* If 'max_idle' is nonnegative, the new switch will set up flows that expire
* after the given number of seconds (or never expire, if 'max_idle' is
* OFP_FLOW_PERMANENT). Otherwise, the new switch will process every packet.
*
* The caller may provide the file stream 'default_flows' that defines
* default flows that should be pushed when a switch connects. Each
* line is a flow entry in the format described for "add-flows" command
* in the Flow Syntax section of the ovs-ofct(8) man page. The caller
* is responsible for closing the stream.
*
* 'rconn' is used to send out an OpenFlow features request. */
struct lswitch *
lswitch_create(struct rconn *rconn, bool learn_macs,
bool exact_flows, int max_idle, bool action_normal,
FILE *default_flows)
{
struct lswitch *sw;
sw = xzalloc(sizeof *sw);
sw->max_idle = max_idle;
sw->datapath_id = 0;
sw->last_features_request = time_now() - 1;
sw->ml = learn_macs ? mac_learning_create() : NULL;
sw->action_normal = action_normal;
if (exact_flows) {
/* Exact match. */
sw->wildcards = 0;
} else {
/* We cannot wildcard all fields.
* We need in_port to detect moves.
* We need both SA and DA to do learning. */
sw->wildcards = (OFPFW_DL_TYPE | OFPFW_NW_SRC_MASK | OFPFW_NW_DST_MASK
| OFPFW_NW_PROTO | OFPFW_TP_SRC | OFPFW_TP_DST);
}
sw->queue = UINT32_MAX;
sw->queued = rconn_packet_counter_create();
send_features_request(sw, rconn);
if (default_flows) {
send_default_flows(sw, rconn, default_flows);
}
return sw;
}
/* Destroys 'sw'. */
void
lswitch_destroy(struct lswitch *sw)
{
if (sw) {
mac_learning_destroy(sw->ml);
rconn_packet_counter_destroy(sw->queued);
free(sw);
}
}
/* Sets 'queue' as the OpenFlow queue used by packets and flows set up by 'sw'.
* Specify UINT32_MAX to avoid specifying a particular queue, which is also the
* default if this function is never called for 'sw'. */
void
lswitch_set_queue(struct lswitch *sw, uint32_t queue)
{
sw->queue = queue;
}
/* Takes care of necessary 'sw' activity, except for receiving packets (which
* the caller must do). */
void
lswitch_run(struct lswitch *sw)
{
if (sw->ml) {
mac_learning_run(sw->ml, NULL);
}
}
void
lswitch_wait(struct lswitch *sw)
{
if (sw->ml) {
mac_learning_wait(sw->ml);
}
}
/* Processes 'msg', which should be an OpenFlow received on 'rconn', according
* to the learning switch state in 'sw'. The most likely result of processing
* is that flow-setup and packet-out OpenFlow messages will be sent out on
* 'rconn'. */
void
lswitch_process_packet(struct lswitch *sw, struct rconn *rconn,
const struct ofpbuf *msg)
{
struct processor {
uint8_t type;
size_t min_size;
packet_handler_func *handler;
};
static const struct processor processors[] = {
{
OFPT_ECHO_REQUEST,
sizeof(struct ofp_header),
process_echo_request
},
{
OFPT_FEATURES_REPLY,
sizeof(struct ofp_switch_features),
process_switch_features
},
{
OFPT_PACKET_IN,
offsetof(struct ofp_packet_in, data),
process_packet_in
},
{
OFPT_FLOW_REMOVED,
sizeof(struct ofp_flow_removed),
NULL
},
};
const size_t n_processors = ARRAY_SIZE(processors);
const struct processor *p;
struct ofp_header *oh;
oh = msg->data;
if (sw->datapath_id == 0
&& oh->type != OFPT_ECHO_REQUEST
&& oh->type != OFPT_FEATURES_REPLY) {
send_features_request(sw, rconn);
return;
}
for (p = processors; p < &processors[n_processors]; p++) {
if (oh->type == p->type) {
if (msg->size < p->min_size) {
VLOG_WARN_RL(&rl, "%016llx: %s: too short (%zu bytes) for "
"type %"PRIu8" (min %zu)", sw->datapath_id,
rconn_get_name(rconn), msg->size, oh->type,
p->min_size);
return;
}
if (p->handler) {
(p->handler)(sw, rconn, msg->data);
}
return;
}
}
if (VLOG_IS_DBG_ENABLED()) {
char *p = ofp_to_string(msg->data, msg->size, 2);
VLOG_DBG_RL(&rl, "%016llx: OpenFlow packet ignored: %s",
sw->datapath_id, p);
free(p);
}
}
static void
send_features_request(struct lswitch *sw, struct rconn *rconn)
{
time_t now = time_now();
if (now >= sw->last_features_request + 1) {
struct ofpbuf *b;
struct ofp_switch_config *osc;
/* Send OFPT_FEATURES_REQUEST. */
make_openflow(sizeof(struct ofp_header), OFPT_FEATURES_REQUEST, &b);
queue_tx(sw, rconn, b);
/* Send OFPT_SET_CONFIG. */
osc = make_openflow(sizeof *osc, OFPT_SET_CONFIG, &b);
osc->miss_send_len = htons(OFP_DEFAULT_MISS_SEND_LEN);
queue_tx(sw, rconn, b);
sw->last_features_request = now;
}
}
static void
send_default_flows(struct lswitch *sw, struct rconn *rconn,
FILE *default_flows)
{
char line[1024];
while (fgets(line, sizeof line, default_flows)) {
struct ofpbuf *b;
struct ofp_flow_mod *ofm;
uint16_t priority, idle_timeout, hard_timeout;
uint64_t cookie;
struct ofp_match match;
char *comment;
/* Delete comments. */
comment = strchr(line, '#');
if (comment) {
*comment = '\0';
}
/* Drop empty lines. */
if (line[strspn(line, " \t\n")] == '\0') {
continue;
}
/* Parse and send. str_to_flow() will expand and reallocate the data
* in 'buffer', so we can't keep pointers to across the str_to_flow()
* call. */
make_openflow(sizeof *ofm, OFPT_FLOW_MOD, &b);
parse_ofp_str(line, &match, b,
NULL, NULL, &priority, &idle_timeout, &hard_timeout,
&cookie);
ofm = b->data;
ofm->match = match;
ofm->command = htons(OFPFC_ADD);
ofm->cookie = htonll(cookie);
ofm->idle_timeout = htons(idle_timeout);
ofm->hard_timeout = htons(hard_timeout);
ofm->buffer_id = htonl(UINT32_MAX);
ofm->priority = htons(priority);
update_openflow_length(b);
queue_tx(sw, rconn, b);
}
}
static void
queue_tx(struct lswitch *sw, struct rconn *rconn, struct ofpbuf *b)
{
int retval = rconn_send_with_limit(rconn, b, sw->queued, 10);
if (retval && retval != ENOTCONN) {
if (retval == EAGAIN) {
VLOG_INFO_RL(&rl, "%016llx: %s: tx queue overflow",
sw->datapath_id, rconn_get_name(rconn));
} else {
VLOG_WARN_RL(&rl, "%016llx: %s: send: %s",
sw->datapath_id, rconn_get_name(rconn),
strerror(retval));
}
}
}
static void
process_switch_features(struct lswitch *sw, struct rconn *rconn OVS_UNUSED,
void *osf_)
{
struct ofp_switch_features *osf = osf_;
sw->datapath_id = ntohll(osf->datapath_id);
}
static uint16_t
lswitch_choose_destination(struct lswitch *sw, const flow_t *flow)
{
uint16_t out_port;
/* Learn the source MAC. */
if (sw->ml) {
if (mac_learning_learn(sw->ml, flow->dl_src, 0, flow->in_port,
GRAT_ARP_LOCK_NONE)) {
VLOG_DBG_RL(&rl, "%016llx: learned that "ETH_ADDR_FMT" is on "
"port %"PRIu16, sw->datapath_id,
ETH_ADDR_ARGS(flow->dl_src), flow->in_port);
}
}
/* Drop frames for reserved multicast addresses. */
if (eth_addr_is_reserved(flow->dl_dst)) {
return OFPP_NONE;
}
out_port = OFPP_FLOOD;
if (sw->ml) {
int learned_port = mac_learning_lookup(sw->ml, flow->dl_dst, 0, NULL);
if (learned_port >= 0) {
out_port = learned_port;
if (out_port == flow->in_port) {
/* Don't send a packet back out its input port. */
return OFPP_NONE;
}
}
}
/* Check if we need to use "NORMAL" action. */
if (sw->action_normal && out_port != OFPP_FLOOD) {
return OFPP_NORMAL;
}
return out_port;
}
static void
process_packet_in(struct lswitch *sw, struct rconn *rconn, void *opi_)
{
struct ofp_packet_in *opi = opi_;
uint16_t in_port = ntohs(opi->in_port);
uint16_t out_port;
struct ofp_action_header actions[2];
size_t actions_len;
size_t pkt_ofs, pkt_len;
struct ofpbuf pkt;
flow_t flow;
/* Extract flow data from 'opi' into 'flow'. */
pkt_ofs = offsetof(struct ofp_packet_in, data);
pkt_len = ntohs(opi->header.length) - pkt_ofs;
pkt.data = opi->data;
pkt.size = pkt_len;
flow_extract(&pkt, 0, in_port, &flow);
/* Choose output port. */
out_port = lswitch_choose_destination(sw, &flow);
/* Make actions. */
if (out_port == OFPP_NONE) {
actions_len = 0;
} else if (sw->queue == UINT32_MAX || out_port >= OFPP_MAX) {
struct ofp_action_output oao;
memset(&oao, 0, sizeof oao);
oao.type = htons(OFPAT_OUTPUT);
oao.len = htons(sizeof oao);
oao.port = htons(out_port);
memcpy(actions, &oao, sizeof oao);
actions_len = sizeof oao;
} else {
struct ofp_action_enqueue oae;
memset(&oae, 0, sizeof oae);
oae.type = htons(OFPAT_ENQUEUE);
oae.len = htons(sizeof oae);
oae.port = htons(out_port);
oae.queue_id = htonl(sw->queue);
memcpy(actions, &oae, sizeof oae);
actions_len = sizeof oae;
}
assert(actions_len <= sizeof actions);
/* Send the packet, and possibly the whole flow, to the output port. */
if (sw->max_idle >= 0 && (!sw->ml || out_port != OFPP_FLOOD)) {
struct ofpbuf *buffer;
struct ofp_flow_mod *ofm;
/* The output port is known, or we always flood everything, so add a
* new flow. */
buffer = make_add_flow(&flow, ntohl(opi->buffer_id),
sw->max_idle, actions_len);
ofpbuf_put(buffer, actions, actions_len);
ofm = buffer->data;
ofm->match.wildcards = htonl(sw->wildcards);
queue_tx(sw, rconn, buffer);
/* If the switch didn't buffer the packet, we need to send a copy. */
if (ntohl(opi->buffer_id) == UINT32_MAX && actions_len > 0) {
queue_tx(sw, rconn,
make_packet_out(&pkt, UINT32_MAX, in_port,
actions, actions_len / sizeof *actions));
}
} else {
/* We don't know that MAC, or we don't set up flows. Send along the
* packet without setting up a flow. */
if (ntohl(opi->buffer_id) != UINT32_MAX || actions_len > 0) {
queue_tx(sw, rconn,
make_packet_out(&pkt, ntohl(opi->buffer_id), in_port,
actions, actions_len / sizeof *actions));
}
}
}
static void
process_echo_request(struct lswitch *sw, struct rconn *rconn, void *rq_)
{
struct ofp_header *rq = rq_;
queue_tx(sw, rconn, make_echo_reply(rq));
}
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