If I may add one thing I forgot, this post reminded me. In the question I think it was probably a 100G CWDM4 short distance link. When monitoring a 100G coherent (QPSK, 16QAM, whatever) longer distance link, be absolutely sure to poll all of the SNMP OIDs for it the same as if it was a point to point microwave link. Depending on exactly what line card and optic it is, it may behave somewhat similarly to a faded or misaligned radio link under conditions related to degradation of the fiber or the lasers. In particular I'm thinking of coherent 100G linecards that can switch on the fly between 'low FEC' and 'high FEC' payload vs FEC percentage (much as an ACM-capable 18 or 23 GHz band radio would), which should absolutely trigger an alarm. And also the data for FEC decode stress percentage level, etc. On Thu, Apr 29, 2021 at 2:37 PM Lady Benjamin Cannon of Glencoe, ASCE < lb@6by7.net> wrote:
We monitor light levels and FEC values on all links and have thresholds for early-warning and PRe-failure analysis.
Short answer is yes we see links lose packets before completely failing and for dozens of reasons that’s still a good thing, but you need to monitor every part of a resilient network.
Ms. Lady Benjamin PD Cannon of Glencoe, ASCE 6x7 Networks & 6x7 Telecom, LLC CEO lb@6by7.net "The only fully end-to-end encrypted global telecommunications company in the world.”
FCC License KJ6FJJ
Sent from my iPhone via RFC1149.
On Apr 29, 2021, at 2:32 PM, Eric Kuhnke <eric.kuhnke@gmail.com> wrote:
The Junipers on both sides should have discrete SNMP OIDs that respond with a FEC stress value, or FEC error value. See blue highlighted part here about FEC. Depending on what version of JunOS you're running the MIB for it may or may not exist.
https://kb.juniper.net/InfoCenter/index?page=content&id=KB36074&cat=MX2008&actp=LIST
In other equipment sometimes it's found in a sub-tree of SNMP adjacent to optical DOM values. Once you can acquire and poll that value, set it up as a custom thing to graph and alert upon certain threshold values in your choice of NMS.
Additionally signs of a failing optic may show up in some of the optical DOM MIB items you can poll: https://mibs.observium.org/mib/JUNIPER-DOM-MIB/
It helps if you have some non-misbehaving similar linecards and optics which can be polled during custom graph/OID configuration, to establish a baseline 'no problem' value, which if exceeded will trigger whatever threshold value you set in your monitoring system.
On Thu, Apr 29, 2021 at 1:40 PM Baldur Norddahl <baldur.norddahl@gmail.com> wrote:
Hello
We had a 100G link that started to misbehave and caused the customers to notice bad packet loss. The optical values are just fine but we had packet loss and latency. Interface shows FEC errors on one end and carrier transitions on the other end. But otherwise the link would stay up and our monitor system completely failed to warn about the failure. Had to find the bad link by traceroute (mtr) and observe where packet loss started.
The link was between a Juniper MX204 and Juniper ACX5448. Link length 2 meters using 2 km single mode SFP modules.
What is the best practice to monitor links to avoid this scenarium? What options do we have to do link monitoring? I am investigating BFD but I am unsure if that would have helped the situation.
Thanks,
Baldur