I'm trying to define the E2E access availability of a service from a user PoV as the result of applying the bit-wise AND operation between two boolean instant vectors representing individual service availability.

I'm fetching the probe_success results of pinging these two services (e.g. S1 and S2) from a "user node" with the blackbox_exporter preinstalled:

            +-------+     +---------------------+     +-------+
            |S1     |     |                     |     |     S2|
            |       |     |   User node with    |     |       |
            |       +<----+  blackbox_exporter  +---->+       |
            |       | icmp|                     |icmp6|       |
            +-------+     +---------------------+     +-------+

Since the targets are probed using different modules (icmp and icmp6) I'm using two jobs and therefore getting two instant vectors:

probe_success{job="S1", user="foo"}
probe_success{job="S2", user="foo"}

As I read on Prometheus (querying) logical operators docs, that logical and is not exactly what I'm looking for. ¿Is there an easy way to perform these kind of "bit-wise" operations in PromQL?

3 Answers 3


Because the cardinals between probe_success{job="S1", user="foo"} and probe_success{job="S2", user="foo"} are not the same, the logical and operator will not result in a vector/scalar with your desired effect.

There is no less complex way of achieving it. I would use something like this:

(scalar(probe_success{job="S1", user="foo"}) + scalar(probe_success{job="S2", user="foo"})) == bool(2)

scalar converts the single element input vector into a scalar. probe_success handily is a single element input vector, if absolute cardinals are used. For example, the same expression will not work if used with probe_success{user="foo"} as it will result in multiple element vectors.

+ operator obviously adds the two scalars

bool() is used because Prometheus expects that the bool modifier must be provided between 2 scalars to be compared, in this case with a == operator. Refer here about this.

  • Awesome; this is basically what I was trying to do. However since this will result in a scalar itself; not an instant vector - I cannot apply aggregation operators like avg() to get the average SLA of the joint service. Tthe graph view shows the time series I'm trying to average i.imgur.com/0ZwTo4D.png - any way to put all these results back into an instant vector?
    – Alfageme
    Dec 3, 2019 at 14:45
  • 1
    One approach would be to use Recording rules. With this, you can add any labels as part of the rules, which will result in a vector. Not sure if that is what you're trying to achieve though.
    – droidbot
    Dec 3, 2019 at 15:07
  • It is indeed what I'm trying to achieve - but since scalar() drops all the original labels form probe_success. I'd need to define one recording rule per user. Isn't that right?
    – Alfageme
    Dec 3, 2019 at 16:26
  • Yes, that's right.. but I'm sure there are better ways around depending on your particular case
    – droidbot
    Dec 3, 2019 at 18:31

A subtle variation to preserve the labels:

sum(probe_success{job~"S[12]", user="foo"})by(user)== bool(2) 

The and operator can be used for this task in the following way:

(probe_success{job="S1", user="foo"} == 1)
  and ignoring(job)
(probe_success{job="S2", user="foo"} == 1)

It uses ignoring() modifier for ignoring the job label when searching for pairs of time series with the same set of labels on the left and the right side of and - see these docs for details.

It has the following advantages comparing to other methods:

  • It preserves all the labels for probe_success metric.
  • A single query can be used for returning success probes across multiple users:
(probe_success{job="S1", user=~"foo|bar"} == 1)
  and ignoring(job)
(probe_success{job="S2", user=~"foo|bar"} == 1)

or across all the users:

(probe_success{job="S1"} == 1)
  and ignoring(job)
(probe_success{job="S2"} == 1)

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