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Enhancements
Release M.10.09 Enhancements
Figure 20. UDLD Example
Similarly, UDLD is effective for monitoring fiber optic links that use two uni-direction fibers to
transmit and receive packets. Without UDLD, if a fiber breaks in one direction, a fiber port may
assume the link is still good (because the other direction is operating normally) and continue to send
traffic on the connected ports. UDLD-enabled ports, however, prevent traffic from being sent across
a bad link by blocking the ports in the event that either the individual transmitter or receiver for that
connection fails.
Ports enabled for UDLD exchange health-check packets once every five seconds (the link-keepalive
interval). If a port does not receive a health-check packet from the port at the other end of the link
within the keepalive interval, the port waits for four more intervals. If the port still does not receive
a health-check packet after waiting for five intervals, the port concludes that the link has failed and
blocks the UDLD-enabled port.
When a port is blocked by UDLD, the event is recorded in the switch log or via an SNMP trap (if
configured); and other port blocking protocols, like spanning tree or meshing, will not use the bad
link to load balance packets. The port remains blocked until the link is unplugged, disabled, or fixed.
The port can also be unblocked by disabling UDLD on the port.
Trunk
ProCurve
Switch
Link Failure
Third Party
Switch
Scenario 1 (No UDLD): Without UDLD, the switch ports
remain enabled despite the link failure. Traffic continues to
be load-balanced to the ports connected to the failed link.
Scenario 2 (UDLD-enabled): When UDLD is enabled, the
feature blocks the ports connected to the failed link.
ProCurve
Switch