We're using Grafana to monitor certain events and fire alarms. The data is stored in Prometheus (but we're not using the Prometheus Alert Manager).

Last night we had an issue with one of our metrics that we currently do not have an alarm on. I would like to add one, but I'm struggling to determine the best way to do so.

Image of Grafana dashboard with sine wave pattern - except for sharp drop

In this case, the Y axis for this metric is pretty low, and overnight (02:00-07:00 on the left of the graph) you can see the metric drops near to zero.

We'd like to detect the sharp drop on the right hand side at 8pm. We detected the drop to completely zero at ~9pm (the flatline), but I'd like to identify the sudden drop.

Our prometheus query is:

sum(rate({__name__=~"metric_name_.+"}[1m])) by (grouping)

I've tried looking at a few things like:

sum(increase({__name__=~"metric_name_.+"}[1m])) by (grouping)

But they broadly all end up with a similar looking graph to the one below, but with a variance on the Y-axis scale and make it tricky to differentiate between "near zero & quiet" and "near zero because the metrics have dropped off a cliff".

What combination of Grafana and Prometheus settings can we use to identify this change effectively?

1 Answer 1


You have got the wrong function: for gauge, you should use the delta() function. It will expose the drop over a minute:

sum(delta(rate({__name__=~"metric_name_.+"}[1m])[1m:])) by (grouping)

The next step is to define a percentage of drop that will trigger the error - with a 80% drop (note: omitting the sum by(grouping) for clarity):

(-100 * delta(rate({__name__=~"metric_name_.+"}[1m])[1m:]) / rate({__name__=~"metric_name_.+"}[1m] offset 1m)) > 80

Then, you may want to have a duration of alert once a drop has been detected. In this case, you have to use subqueries or a recording rule (named here drop_rate_percent):

- record: metric_name_rate
  expr: sum(rate({__name__=~"metric_name_.+"}[1m])) by(grouping)

- record: drop_rate_percent
  expr: -100 * delta(metric_name_rate[1m]) / (metric_name_rate offset 1m)

- alert: SteepDrop
  expr: max_over_time(drop_rate_percent[15m]) > 80
  • Thanks @michael-doubez. I'm not sure I'm getting this right, my apologies. If I filter down to to a single host to avoid the sum problem, I end up with a graph like this: i.stack.imgur.com/CYhqV.png. It's the same shape as the rate function, but with a vastly smaller axis. Swapping to a gauge just shows a value with 0.00031. Could you elaborate on your query a little more - e.g. why 100? And why dividing the delta by the total? Also, > 80% causes an error too ("parse error at char 189: no valid expression found", I'm on prometheus 1.6.3 if that's relevant). Thanks for your help!
    – edhgoose
    Apr 3, 2020 at 18:23
  • Here's my full query to provide a bit of additional context from the image: 100 * (delta({__name__=~"[[env]]_pubsub_mm_events_live_ref.+",host="ip-172-20-4-73"}[1m]) / {__name__=~"[[env]]_pubsub_mm_events_live_ref.+",host="ip-172-20-4-73"} offset 1m)
    – edhgoose
    Apr 3, 2020 at 18:30
  • Yes, sorry. It should be 80 not 80% - I got carried away in the logic. Apr 4, 2020 at 20:40
  • The logic is to compute the percentage of drop over one minute (or longer). delta(foo[1m]) give you the difference of value in range and foo offset 1m gives you the value at the beginning of the delta. The ratio of those values multiplied by -100 gives you the information of drop scale. Apr 4, 2020 at 20:47
  • 1
    Yes. If the "steep drop" I took to be the actual metric is another expression (like a rate) then you should apply the elements of my answer to you expression. Note that it then requires subqueries which may be expensive. A recording rule may save you cycles and typing. Apr 5, 2020 at 0:23

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