Prometheus instrumentation library for Go applications
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Matt T. Proud 148fde894b Include summary sample sums and counts if present.
This commit finally unlocks the ability for the Prometheus client
users of the Summary metric type to automatically get total counts
and sums partitioned by labels.  It exposes them through two
synthetic variables, if the underlying data is present.

The following is the base case:

    foo_samples{quantile=0.5}  = <?>
    foo_samples{quantile=0.99} = <?>

The following results with this change:

    foo_samples{quantile=0.5}  = <?>
    foo_samples{quantile=0.99} = <?>
    foo_samples_sum            = <?>
    foo_samples_count          = <?>

Change-Id: I75b5ea0d8c851da8c0c82ed9c8ac0890e4238f87
2013-08-25 13:52:37 +02:00
documentation Migrate documentation to markdown. 2013-04-28 19:21:30 +02:00
examples Enclose artifact generation process into Makefile. 2013-07-21 17:45:53 +02:00
extraction Include summary sample sums and counts if present. 2013-08-25 13:52:37 +02:00
model Add method to merge a LabelSet into a Metric with collision avoidance. 2013-08-12 15:46:42 +02:00
prometheus Introduce histogram purging support. 2013-07-21 17:45:57 +02:00
test Include relevant server model artifacts. 2013-06-11 11:45:21 +02:00
vendor/goautoneg Protocol Buffer negotiation support in handler. 2013-07-01 17:14:58 +02:00
.gitignore Enclose artifact generation process into Makefile. 2013-07-21 17:45:53 +02:00
.travis.yml Enclose artifact generation process into Makefile. 2013-07-21 17:45:53 +02:00
LICENSE Rearrange file and package per convention. 2013-04-04 15:27:09 +02:00
Makefile Replace Process consumer channel with Ingester. 2013-08-12 11:29:41 +02:00
README.md Include link to generated API documentation. 2013-03-28 10:46:16 +01:00
TODO Rearrange file and package per convention. 2013-04-04 15:27:09 +02:00

README.md

Overview

These Go packages are an extraction of pieces of instrumentation code I whipped-up for a personal project that a friend of mine and I are working on. We were in need for some rudimentary statistics to observe behaviors of the server's various components, so this was written.

The code here is not a verbatim copy thereof but rather a thoughtful re-implementation should other folks need to consume and analyze such telemetry.

N.B. --- I have spent a bit of time working through the model in my head and probably haven't elucidated my ideas as clearly as I need to. If you examine examples/{simple,uniform_random}/main.go and registry.go, you'll find several examples of what types of potential instrumentation use cases this package addresses. There are probably numerous Go language idiomatic changes that need to be made, but this task has been deferred for now.

Continuous Integration

Build Status

Documentation

Please read the generated documentation for the project's documentation from source code.

Basic Overview

Metrics

A metric is a measurement mechanism.

Gauge

A Gauge is a metric that exposes merely an instantaneous value or some snapshot thereof.

Counter

A Counter is a metric that exposes merely a sum or tally of things.

Histogram

A Histogram is a metric that captures events or samples into Buckets. It exposes its values via percentile estimations.

Buckets

A Bucket is a generic container that collects samples and their values. It prescribes no behavior on its own aside from merely accepting a value, leaving it up to the concrete implementation to what to do with the injected values.

Accumulating Bucket

An Accumulating Bucket is a Bucket that appends the new sample to a queue such that the eldest values are evicted according to a given policy.

Eviction Policies

Once an Accumulating Bucket reaches capacity, its eviction policy is invoked. This reaps the oldest N objects subject to certain behavior.

####### Remove Oldest This merely removes the oldest N items without performing some aggregation replacement operation on them.

####### Aggregate Oldest This removes the oldest N items while performing some summary aggregation operation thereupon, which is then appended to the list in the former values' place.

Tallying Bucket

A Tallying Bucket differs from an Accumulating Bucket in that it never stores any of the values emitted into it but rather exposes a simplied summary representation thereof. For instance, if a values therein is requested, it may situationally emit a minimum, maximum, an average, or any other reduction mechanism requested.

Getting Started

Testing

This package employs gocheck for testing. Please ensure that all tests pass by running the following from the project root:

$ go test ./...

The use of gocheck is summarily being phased out; however, old tests that use it still exist.