/*
- * Copyright (c) 2008, 2009, 2010 Nicira Networks.
+ * Copyright (c) 2008, 2009, 2010, 2011, 2012 Nicira, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
time_t backoff_deadline;
time_t last_received;
time_t last_connected;
+ time_t last_disconnected;
unsigned int packets_sent;
unsigned int seqno;
int last_error;
time_t creation_time;
unsigned long int total_time_connected;
- /* If we can't connect to the peer, it could be for any number of reasons.
- * Usually, one would assume it is because the peer is not running or
- * because the network is partitioned. But it could also be because the
- * network topology has changed, in which case the upper layer will need to
- * reassess it (in particular, obtain a new IP address via DHCP and find
- * the new location of the controller). We set this flag when we suspect
- * that this could be the case. */
- bool questionable_connectivity;
- time_t last_questioned;
-
/* Throughout this file, "probe" is shorthand for "inactivity probe".
* When nothing has been received from the peer for a while, we send out
* an echo request as an inactivity probe packet. We should receive back
*
* We don't cache the local port, because that changes from one connection
* attempt to the next. */
- uint32_t local_ip, remote_ip;
- uint16_t remote_port;
+ ovs_be32 local_ip, remote_ip;
+ ovs_be16 remote_port;
+ uint8_t dscp;
/* Messages sent or received are copied to the monitor connections. */
#define MAX_MONITORS 8
static void report_error(struct rconn *, int error);
static void disconnect(struct rconn *, int error);
static void flush_queue(struct rconn *);
-static void question_connectivity(struct rconn *);
static void copy_to_monitor(struct rconn *, const struct ofpbuf *);
static bool is_connected_state(enum state);
static bool is_admitted_msg(const struct ofpbuf *);
* The new rconn is initially unconnected. Use rconn_connect() or
* rconn_connect_unreliably() to connect it. */
struct rconn *
-rconn_create(int probe_interval, int max_backoff)
+rconn_create(int probe_interval, int max_backoff, uint8_t dscp)
{
struct rconn *rc = xzalloc(sizeof *rc);
rc->max_backoff = max_backoff ? max_backoff : 8;
rc->backoff_deadline = TIME_MIN;
rc->last_received = time_now();
- rc->last_connected = time_now();
+ rc->last_connected = TIME_MIN;
+ rc->last_disconnected = TIME_MIN;
rc->seqno = 0;
rc->packets_sent = 0;
rc->creation_time = time_now();
rc->total_time_connected = 0;
- rc->questionable_connectivity = false;
- rc->last_questioned = time_now();
-
rconn_set_probe_interval(rc, probe_interval);
+ rconn_set_dscp(rc, dscp);
rc->n_monitors = 0;
return rc->max_backoff;
}
+void
+rconn_set_dscp(struct rconn *rc, uint8_t dscp)
+{
+ rc->dscp = dscp;
+}
+
+uint8_t
+rconn_get_dscp(const struct rconn *rc)
+{
+ return rc->dscp;
+}
+
void
rconn_set_probe_interval(struct rconn *rc, int probe_interval)
{
VLOG_INFO("%s: connecting...", rc->name);
}
rc->n_attempted_connections++;
- retval = vconn_open(rc->target, OFP_VERSION, &rc->vconn);
+ retval = vconn_open(rc->target, OFP10_VERSION, &rc->vconn, rc->dscp);
if (!retval) {
rc->remote_ip = vconn_get_remote_ip(rc->vconn);
rc->local_ip = vconn_get_local_ip(rc->vconn);
run_IDLE(struct rconn *rc)
{
if (timed_out(rc)) {
- question_connectivity(rc);
VLOG_ERR("%s: no response to inactivity probe after %u "
"seconds, disconnecting",
rc->name, elapsed_in_this_state(rc));
if (rc->vconn) {
vconn_run_wait(rc->vconn);
+ if ((rc->state & (S_ACTIVE | S_IDLE)) && !list_is_empty(&rc->txq)) {
+ vconn_wait(rc->vconn, WAIT_SEND);
+ }
}
for (i = 0; i < rc->n_monitors; i++) {
vconn_run_wait(rc->monitors[i]);
long long int expires = sat_add(rc->state_entered, timeo);
poll_timer_wait_until(expires * 1000);
}
-
- if ((rc->state & (S_ACTIVE | S_IDLE)) && !list_is_empty(&rc->txq)) {
- vconn_wait(rc->vconn, WAIT_SEND);
- }
}
/* Attempts to receive a packet from 'rc'. If successful, returns the packet;
}
}
-/* Sends 'b' on 'rc'. Returns 0 if successful (in which case 'b' is
- * destroyed), or ENOTCONN if 'rc' is not currently connected (in which case
- * the caller retains ownership of 'b').
+/* Sends 'b' on 'rc'. Returns 0 if successful, or ENOTCONN if 'rc' is not
+ * currently connected. Takes ownership of 'b'.
*
* If 'counter' is non-null, then 'counter' will be incremented while the
* packet is in flight, then decremented when it has been sent (or discarded
}
return 0;
} else {
+ ofpbuf_delete(b);
return ENOTCONN;
}
}
retval = counter->n >= queue_limit ? EAGAIN : rconn_send(rc, b, counter);
if (retval) {
COVERAGE_INC(rconn_overflow);
- ofpbuf_delete(b);
}
return retval;
}
/* Returns the IP address of the peer, or 0 if the peer's IP address is not
* known. */
-uint32_t
+ovs_be32
rconn_get_remote_ip(const struct rconn *rconn)
{
return rconn->remote_ip;
/* Returns the transport port of the peer, or 0 if the peer's port is not
* known. */
-uint16_t
+ovs_be16
rconn_get_remote_port(const struct rconn *rconn)
{
return rconn->remote_port;
/* Returns the IP address used to connect to the peer, or 0 if the
* connection is not an IP-based protocol or if its IP address is not
* known. */
-uint32_t
+ovs_be32
rconn_get_local_ip(const struct rconn *rconn)
{
return rconn->local_ip;
/* Returns the transport port used to connect to the peer, or 0 if the
* connection does not contain a port or if the port is not known. */
-uint16_t
+ovs_be16
rconn_get_local_port(const struct rconn *rconn)
{
return rconn->vconn ? vconn_get_local_port(rconn->vconn) : 0;
}
-/* If 'rconn' can't connect to the peer, it could be for any number of reasons.
- * Usually, one would assume it is because the peer is not running or because
- * the network is partitioned. But it could also be because the network
- * topology has changed, in which case the upper layer will need to reassess it
- * (in particular, obtain a new IP address via DHCP and find the new location
- * of the controller). When this appears that this might be the case, this
- * function returns true. It also clears the questionability flag and prevents
- * it from being set again for some time. */
-bool
-rconn_is_connectivity_questionable(struct rconn *rconn)
+/* Returns the OpenFlow version negotiated with the peer, or -1 if there is
+ * currently no connection or if version negotiation is not yet complete. */
+int
+rconn_get_version(const struct rconn *rconn)
{
- bool questionable = rconn->questionable_connectivity;
- rconn->questionable_connectivity = false;
- return questionable;
+ return rconn->vconn ? vconn_get_version(rconn->vconn) : -1;
}
/* Returns the total number of packets successfully received by the underlying
}
/* Returns the time at which the last successful connection was made by
- * 'rc'. */
+ * 'rc'. Returns TIME_MIN if never connected. */
time_t
rconn_get_last_connection(const struct rconn *rc)
{
return rc->last_connected;
}
+/* Returns the time at which 'rc' was last disconnected. Returns TIME_MIN
+ * if never disconnected. */
+time_t
+rconn_get_last_disconnect(const struct rconn *rc)
+{
+ return rc->last_disconnected;
+}
+
/* Returns the time at which the last OpenFlow message was received by 'rc'.
* If no packets have been received on 'rc', returns the time at which 'rc'
* was created. */
{
return rc->last_error;
}
+
+/* Returns the number of messages queued for transmission on 'rc'. */
+unsigned int
+rconn_count_txqlen(const struct rconn *rc)
+{
+ return list_size(&rc->txq);
+}
\f
struct rconn_packet_counter *
rconn_packet_counter_create(void)
time_t now = time_now();
if (rc->state & (S_CONNECTING | S_ACTIVE | S_IDLE)) {
+ rc->last_disconnected = now;
vconn_close(rc->vconn);
rc->vconn = NULL;
flush_queue(rc);
}
rc->backoff_deadline = now + rc->backoff;
state_transition(rc, S_BACKOFF);
- if (now - rc->last_connected > 60) {
- question_connectivity(rc);
- }
} else {
+ rc->last_disconnected = time_now();
rconn_disconnect(rc);
}
}
rc->state_entered = time_now();
}
-static void
-question_connectivity(struct rconn *rc)
-{
- time_t now = time_now();
- if (now - rc->last_questioned > 60) {
- rc->questionable_connectivity = true;
- rc->last_questioned = now;
- }
-}
-
static void
copy_to_monitor(struct rconn *rc, const struct ofpbuf *b)
{