User's Manual
Link Layer Discovery Protocol (LLDP)
67
Horizon Compact Plus Release 1.0.1 Wireless Ethernet Product User Manual – Volume 4
ECFM CLI Command
Description
ecfm frame delay
Start or Stop the ecfm delay measurement calculations.
Sequence:
ecfm frame delay [start | stop] type {one-way | two-way } level
<level-id(0-7)> [vlan <vlan-id(0-7)>] [port <port-num>] [direction
{inward | outward}]{mepid <mpid(1-8191)> | mac
<aa:aa:aa:aa:aa:aa>} [count<num_of_observations(1-8192)>]
[interval <milliseconds(10-10000)>] [deadline <seconds(1-
172800)>] [switchname <context_name>]] press Enter
Where
start | stop is to start ot stop frame delay message
type { two-way } identifies the two-way performance measurement
level <level-id(0-7)> identifies the domain’s level
vlan <vlan-id(0-7)> identifies the service’s vlan id
port <port-num> identifies the port number
direction {inward | outward} specifies the direction of the local
MEP. The default is “outward”.
mepid <mpid(1-8191)> identifies the identifier of the local MEP
mac <aa:aa:aa:aa:aa:aa> identifies the target’s Mac address
count <num_of_observations(1-8192)> specifies the total number
of frame delay messages.
interval <milliseconds(10-10000)> specifies the interval of frame
delay message
deadline <seconds(1-172800)> identifies the expired time of the
frame delay message.
Note:
Mac Address of the MEP with specified target “mpid” must be
learned prior to the execution of the command.
Run the command ‘get ecfm frame delay buffer’ to see the result of
frame delay measurement,
Example:
->ecfm frame delay start type two-way level 7 vlan 1007 mepid 71
count 5 interval 2000
->get ecfm frame delay buffer
Interface : gigabitethernet 0/1
MEP-ID : 222
Level : 2
VLAN-ID : 1002
peer mac-address frame-delay IFDV FDV
00:07:58:00:a3:c7 240.0ms 0.000ms 0.00ms
00:07:58:00:a3:c7 160.0ms 0.000ms 0.00ms
--- 00:07:58:00:a3:37 frame delay statistics ---
measurement timestamp = 10 Jul 2078 10:50:1, packets sent = 2,
packets received = 2,
frame delay average = 200.0ms, IFDV average = 0.000ms, FDV
average = 0.000ms