bool forwarding_if_rx;
long long int forwarding_if_rx_detect_time;
+ /* When 'bfd->forwarding_if_rx' is set, at least one bfd control packet
+ * is required to be received every 100 * bfd->cfg_min_rx. If bfd
+ * control packet is not received within this interval, even if data
+ * packets are received, the bfd->forwarding will still be false. */
+ long long int demand_rx_bfd_time;
+
/* BFD decay related variables. */
bool in_decay; /* True when bfd is in decay. */
int decay_min_rx; /* min_rx is set to decay_min_rx when */
long long int decay_detect_time; /* Decay detection time. */
uint64_t flap_count; /* Counts bfd forwarding flaps. */
+
+ /* True when the variables returned by bfd_get_status() are changed
+ * since last check. */
+ bool status_changed;
};
static struct ovs_mutex mutex = OVS_MUTEX_INITIALIZER;
static uint64_t bfd_rx_packets(const struct bfd *) OVS_REQUIRES(mutex);
static void bfd_try_decay(struct bfd *) OVS_REQUIRES(mutex);
static void bfd_decay_update(struct bfd *) OVS_REQUIRES(mutex);
+static void bfd_status_changed(struct bfd *) OVS_REQUIRES(mutex);
static void bfd_forwarding_if_rx_update(struct bfd *) OVS_REQUIRES(mutex);
static void bfd_unixctl_show(struct unixctl_conn *, int argc,
}
}
+/* Returns and resets the 'bfd->status_changed'. */
+bool
+bfd_check_status_change(struct bfd *bfd) OVS_EXCLUDED(mutex)
+{
+ bool ret;
+
+ ovs_mutex_lock(&mutex);
+ ret = bfd->status_changed;
+ bfd->status_changed = false;
+ ovs_mutex_unlock(&mutex);
+
+ return ret;
+}
+
/* Returns a 'smap' of key value pairs representing the status of 'bfd'
* intended for the OVS database. */
void
}
if (bfd->rmt_state != rmt_state) {
- seq_change(connectivity_seq_get());
+ bfd_status_changed(bfd);
}
bfd->rmt_disc = ntohl(msg->my_disc);
}
/* XXX: RFC 5880 Section 6.8.6 Demand mode related calculations here. */
+ if (bfd->forwarding_if_rx) {
+ bfd->demand_rx_bfd_time = time_msec() + 100 * bfd->cfg_min_rx;
+ }
+
out:
bfd_forwarding__(bfd);
ovs_mutex_unlock(&mutex);
static bool
bfd_forwarding__(struct bfd *bfd) OVS_REQUIRES(mutex)
{
- long long int time;
+ long long int now = time_msec();
+ bool forwarding_if_rx;
bool last_forwarding = bfd->last_forwarding;
if (bfd->forwarding_override != -1) {
return bfd->forwarding_override == 1;
}
- time = bfd->forwarding_if_rx_detect_time;
- bfd->last_forwarding = (bfd->state == STATE_UP
- || (bfd->forwarding_if_rx && time > time_msec()))
- && bfd->rmt_diag != DIAG_PATH_DOWN
- && bfd->rmt_diag != DIAG_CPATH_DOWN
- && bfd->rmt_diag != DIAG_RCPATH_DOWN;
+ forwarding_if_rx = bfd->forwarding_if_rx
+ && bfd->forwarding_if_rx_detect_time > now
+ && bfd->demand_rx_bfd_time > now;
+
+ bfd->last_forwarding = (bfd->state == STATE_UP || forwarding_if_rx)
+ && bfd->rmt_diag != DIAG_PATH_DOWN
+ && bfd->rmt_diag != DIAG_CPATH_DOWN
+ && bfd->rmt_diag != DIAG_RCPATH_DOWN;
if (bfd->last_forwarding != last_forwarding) {
bfd->flap_count++;
- seq_change(connectivity_seq_get());
+ bfd_status_changed(bfd);
}
return bfd->last_forwarding;
}
bfd_decay_update(bfd);
}
- seq_change(connectivity_seq_get());
+ bfd_status_changed(bfd);
}
}
bfd->decay_detect_time = MAX(bfd->decay_min_rx, 2000) + time_msec();
}
+/* Records the status change and changes the global connectivity seq. */
+static void
+bfd_status_changed(struct bfd *bfd) OVS_REQUIRES(mutex)
+{
+ seq_change(connectivity_seq_get());
+ bfd->status_changed = true;
+}
+
static void
bfd_forwarding_if_rx_update(struct bfd *bfd) OVS_REQUIRES(mutex)
{
goto out;
}
bfd->forwarding_override = forwarding_override;
+ bfd_status_changed(bfd);
} else {
HMAP_FOR_EACH (bfd, node, all_bfds) {
bfd->forwarding_override = forwarding_override;
+ bfd_status_changed(bfd);
}
}