#include <stdlib.h>
#include <time.h>
+#include "byte-order.h"
+#include "classifier.h"
#include "flow.h"
+#include "hmap.h"
#include "mac-learning.h"
#include "ofpbuf.h"
#include "ofp-parse.h"
#include "poll-loop.h"
#include "queue.h"
#include "rconn.h"
+#include "shash.h"
#include "timeval.h"
#include "vconn.h"
#include "vlog.h"
-#include "xtoxll.h"
-VLOG_DEFINE_THIS_MODULE(learning_switch)
+VLOG_DEFINE_THIS_MODULE(learning_switch);
+
+struct lswitch_port {
+ struct hmap_node hmap_node; /* Hash node for port number. */
+ uint16_t port_no; /* OpenFlow port number, in host byte order. */
+ uint32_t queue_id; /* OpenFlow queue number. */
+};
struct lswitch {
/* If nonnegative, the switch sets up flows that expire after the given
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. */
+ struct flow_wildcards wc; /* Wildcards to apply to flows. */
bool action_normal; /* Use OFPP_NORMAL? */
- uint32_t queue; /* OpenFlow queue to use, or UINT32_MAX. */
+
+ /* Queue distribution. */
+ uint32_t default_queue; /* Default OpenFlow queue, or UINT32_MAX. */
+ struct hmap queue_numbers; /* Map from port number to lswitch_port. */
+ struct shash queue_names; /* Map from port name to lswitch_port. */
/* Number of outgoing queued packets on the rconn. */
struct rconn_packet_counter *queued;
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.
+/* Creates and returns a new learning switch whose configuration is given by
+ * 'cfg'.
*
* '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)
+lswitch_create(struct rconn *rconn, const struct lswitch_config *cfg)
{
+ const struct ofpbuf *b;
struct lswitch *sw;
sw = xzalloc(sizeof *sw);
- sw->max_idle = max_idle;
+ sw->max_idle = cfg->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 {
+ sw->ml = cfg->mode == LSW_LEARN ? mac_learning_create() : NULL;
+ sw->action_normal = cfg->mode == LSW_NORMAL;
+
+ flow_wildcards_init_exact(&sw->wc);
+ if (!cfg->exact_flows) {
/* 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->wc.wildcards = (FWW_DL_TYPE | FWW_NW_PROTO
+ | FWW_TP_SRC | FWW_TP_DST);
+ sw->wc.nw_src_mask = htonl(0);
+ sw->wc.nw_dst_mask = htonl(0);
+ }
+
+ sw->default_queue = cfg->default_queue;
+ hmap_init(&sw->queue_numbers);
+ shash_init(&sw->queue_names);
+ if (cfg->port_queues) {
+ struct shash_node *node;
+
+ SHASH_FOR_EACH (node, cfg->port_queues) {
+ struct lswitch_port *port = xmalloc(sizeof *port);
+ hmap_node_nullify(&port->hmap_node);
+ port->queue_id = (uintptr_t) node->data;
+ shash_add(&sw->queue_names, node->name, port);
+ }
}
- 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);
+
+ for (b = cfg->default_flows; b; b = b->next) {
+ queue_tx(sw, rconn, ofpbuf_clone(b));
}
+
return sw;
}
lswitch_destroy(struct lswitch *sw)
{
if (sw) {
+ struct lswitch_port *node, *next;
+
+ HMAP_FOR_EACH_SAFE (node, next, hmap_node, &sw->queue_numbers) {
+ hmap_remove(&sw->queue_numbers, &node->hmap_node);
+ free(node);
+ }
+ shash_destroy(&sw->queue_names);
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
}
}
-static void
-send_default_flows(struct lswitch *sw, struct rconn *rconn,
- FILE *default_flows)
-{
- struct ofpbuf *b;
-
- while ((b = parse_ofp_add_flow_file(default_flows)) != NULL) {
- queue_tx(sw, rconn, b);
- }
-}
-
static void
queue_tx(struct lswitch *sw, struct rconn *rconn, struct ofpbuf *b)
{
void *osf_)
{
struct ofp_switch_features *osf = osf_;
+ size_t n_ports;
+ size_t i;
+
+ if (check_ofp_message_array(&osf->header, OFPT_FEATURES_REPLY,
+ sizeof *osf, sizeof *osf->ports, &n_ports)) {
+ return;
+ }
sw->datapath_id = ntohll(osf->datapath_id);
+
+ for (i = 0; i < n_ports; i++) {
+ struct ofp_phy_port *opp = &osf->ports[i];
+ struct lswitch_port *lp;
+
+ opp->name[OFP_MAX_PORT_NAME_LEN - 1] = '\0';
+ lp = shash_find_data(&sw->queue_names, (char *) opp->name);
+ if (lp && hmap_node_is_null(&lp->hmap_node)) {
+ lp->port_no = ntohs(opp->port_no);
+ hmap_insert(&sw->queue_numbers, &lp->hmap_node,
+ hash_int(lp->port_no, 0));
+ }
+ }
}
static uint16_t
-lswitch_choose_destination(struct lswitch *sw, const flow_t *flow)
+lswitch_choose_destination(struct lswitch *sw, const struct flow *flow)
{
uint16_t out_port;
return out_port;
}
+static uint32_t
+get_queue_id(const struct lswitch *sw, uint16_t in_port)
+{
+ const struct lswitch_port *port;
+
+ HMAP_FOR_EACH_WITH_HASH (port, hmap_node, hash_int(in_port, 0),
+ &sw->queue_numbers) {
+ if (port->port_no == in_port) {
+ return port->queue_id;
+ }
+ }
+
+ return sw->default_queue;
+}
+
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);
+ uint32_t queue_id;
uint16_t out_port;
struct ofp_action_header actions[2];
size_t pkt_ofs, pkt_len;
struct ofpbuf pkt;
- flow_t flow;
+ struct flow flow;
/* Ignore packets sent via output to OFPP_CONTROLLER. This library never
* uses such an action. You never know what experiments might be going on,
out_port = lswitch_choose_destination(sw, &flow);
/* Make actions. */
+ queue_id = get_queue_id(sw, in_port);
if (out_port == OFPP_NONE) {
actions_len = 0;
- } else if (sw->queue == UINT32_MAX || out_port >= OFPP_MAX) {
+ } else if (queue_id == UINT32_MAX || out_port >= OFPP_MAX) {
struct ofp_action_output oao;
memset(&oao, 0, sizeof oao);
oae.type = htons(OFPAT_ENQUEUE);
oae.len = htons(sizeof oae);
oae.port = htons(out_port);
- oae.queue_id = htonl(sw->queue);
+ oae.queue_id = htonl(queue_id);
memcpy(actions, &oae, sizeof oae);
actions_len = sizeof oae;
if (sw->max_idle >= 0 && (!sw->ml || out_port != OFPP_FLOOD)) {
struct ofpbuf *buffer;
struct ofp_flow_mod *ofm;
+ struct cls_rule rule;
/* The output port is known, or we always flood everything, so add a
* new flow. */
- buffer = make_add_flow(&flow, ntohl(opi->buffer_id),
+ cls_rule_init(&flow, &sw->wc, 0, &rule);
+ buffer = make_add_flow(&rule, 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. */