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Signed-off-by: Arthur Silva Sens <arthur.sens@coralogix.com>
207 lines
10 KiB
Markdown
207 lines
10 KiB
Markdown
---
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title: Feature flags
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sort_rank: 12
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---
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# Feature flags
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Here is a list of features that are disabled by default since they are breaking changes or are considered experimental.
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Their behaviour can change in future releases which will be communicated via the [release changelog](https://github.com/prometheus/prometheus/blob/main/CHANGELOG.md).
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You can enable them using the `--enable-feature` flag with a comma separated list of features.
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They may be enabled by default in future versions.
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## Expand environment variables in external labels
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`--enable-feature=expand-external-labels`
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Replace `${var}` or `$var` in the [`external_labels`](configuration/configuration.md#configuration-file)
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values according to the values of the current environment variables. References
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to undefined variables are replaced by the empty string.
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The `$` character can be escaped by using `$$`.
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## Remote Write Receiver
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`--enable-feature=remote-write-receiver`
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The remote write receiver allows Prometheus to accept remote write requests from other Prometheus servers. More details can be found [here](storage.md#overview).
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Activating the remote write receiver via a feature flag is deprecated. Use `--web.enable-remote-write-receiver` instead. This feature flag will be ignored in future versions of Prometheus.
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## Exemplars storage
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`--enable-feature=exemplar-storage`
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[OpenMetrics](https://github.com/OpenObservability/OpenMetrics/blob/main/specification/OpenMetrics.md#exemplars) introduces the ability for scrape targets to add exemplars to certain metrics. Exemplars are references to data outside of the MetricSet. A common use case are IDs of program traces.
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Exemplar storage is implemented as a fixed size circular buffer that stores exemplars in memory for all series. Enabling this feature will enable the storage of exemplars scraped by Prometheus. The config file block [storage](configuration/configuration.md#configuration-file)/[exemplars](configuration/configuration.md#exemplars) can be used to control the size of circular buffer by # of exemplars. An exemplar with just a `traceID=<jaeger-trace-id>` uses roughly 100 bytes of memory via the in-memory exemplar storage. If the exemplar storage is enabled, we will also append the exemplars to WAL for local persistence (for WAL duration).
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## Memory snapshot on shutdown
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`--enable-feature=memory-snapshot-on-shutdown`
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This takes the snapshot of the chunks that are in memory along with the series information when shutting down and stores
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it on disk. This will reduce the startup time since the memory state can be restored with this snapshot and m-mapped
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chunks without the need of WAL replay.
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## Extra scrape metrics
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`--enable-feature=extra-scrape-metrics`
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When enabled, for each instance scrape, Prometheus stores a sample in the following additional time series:
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- `scrape_timeout_seconds`. The configured `scrape_timeout` for a target. This allows you to measure each target to find out how close they are to timing out with `scrape_duration_seconds / scrape_timeout_seconds`.
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- `scrape_sample_limit`. The configured `sample_limit` for a target. This allows you to measure each target
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to find out how close they are to reaching the limit with `scrape_samples_post_metric_relabeling / scrape_sample_limit`. Note that `scrape_sample_limit` can be zero if there is no limit configured, which means that the query above can return `+Inf` for targets with no limit (as we divide by zero). If you want to query only for targets that do have a sample limit use this query: `scrape_samples_post_metric_relabeling / (scrape_sample_limit > 0)`.
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- `scrape_body_size_bytes`. The uncompressed size of the most recent scrape response, if successful. Scrapes failing because `body_size_limit` is exceeded report `-1`, other scrape failures report `0`.
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## New service discovery manager
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`--enable-feature=new-service-discovery-manager`
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When enabled, Prometheus uses a new service discovery manager that does not
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restart unchanged discoveries upon reloading. This makes reloads faster and reduces
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pressure on service discoveries' sources.
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Users are encouraged to test the new service discovery manager and report any
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issues upstream.
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In future releases, this new service discovery manager will become the default and
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this feature flag will be ignored.
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## Prometheus agent
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`--enable-feature=agent`
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When enabled, Prometheus runs in agent mode. The agent mode is limited to
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discovery, scrape and remote write.
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This is useful when you do not need to query the Prometheus data locally, but
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only from a central [remote endpoint](https://prometheus.io/docs/operating/integrations/#remote-endpoints-and-storage).
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## Per-step stats
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`--enable-feature=promql-per-step-stats`
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When enabled, passing `stats=all` in a query request returns per-step
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statistics. Currently this is limited to totalQueryableSamples.
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When disabled in either the engine or the query, per-step statistics are not
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computed at all.
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## Auto GOMAXPROCS
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`--enable-feature=auto-gomaxprocs`
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When enabled, GOMAXPROCS variable is automatically set to match Linux container CPU quota.
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## No default scrape port
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`--enable-feature=no-default-scrape-port`
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When enabled, the default ports for HTTP (`:80`) or HTTPS (`:443`) will _not_ be added to
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the address used to scrape a target (the value of the `__address_` label), contrary to the default behavior.
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In addition, if a default HTTP or HTTPS port has already been added either in a static configuration or
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by a service discovery mechanism and the respective scheme is specified (`http` or `https`), that port will be removed.
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## Native Histograms
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`--enable-feature=native-histograms`
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When enabled, Prometheus will ingest native histograms (formerly also known as
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sparse histograms or high-res histograms). Native histograms are still highly
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experimental. Expect breaking changes to happen (including those rendering the
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TSDB unreadable).
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Native histograms are currently only supported in the traditional Prometheus
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protobuf exposition format. This feature flag therefore also enables a new (and
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also experimental) protobuf parser, through which _all_ metrics are ingested
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(i.e. not only native histograms). Prometheus will try to negotiate the
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protobuf format first. The instrumented target needs to support the protobuf
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format, too, _and_ it needs to expose native histograms. The protobuf format
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allows to expose classic and native histograms side by side. With this feature
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flag disabled, Prometheus will continue to parse the classic histogram (albeit
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via the text format). With this flag enabled, Prometheus will still ingest
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those classic histograms that do not come with a corresponding native
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histogram. However, if a native histogram is present, Prometheus will ignore
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the corresponding classic histogram, with the notable exception of exemplars,
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which are always ingested. To keep the classic histograms as well, enable
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`scrape_classic_histograms` in the scrape job.
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_Note about the format of `le` and `quantile` label values:_
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In certain situations, the protobuf parsing changes the number formatting of
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the `le` labels of classic histograms and the `quantile` labels of
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summaries. Typically, this happens if the scraped target is instrumented with
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[client_golang](https://github.com/prometheus/client_golang) provided that
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[promhttp.HandlerOpts.EnableOpenMetrics](https://pkg.go.dev/github.com/prometheus/client_golang/prometheus/promhttp#HandlerOpts)
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is set to `false`. In such a case, integer label values are represented in the
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text format as such, e.g. `quantile="1"` or `le="2"`. However, the protobuf parsing
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changes the representation to float-like (following the OpenMetrics
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specification), so the examples above become `quantile="1.0"` and `le="2.0"` after
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ingestion into Prometheus, which changes the identity of the metric compared to
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what was ingested before via the text format.
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The effect of this change is that alerts, recording rules and dashboards that
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directly reference label values as whole numbers such as `le="1"` will stop
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working.
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Aggregation by the `le` and `quantile` labels for vectors that contain the old and
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new formatting will lead to unexpected results, and range vectors that span the
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transition between the different formatting will contain additional series.
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The most common use case for both is the quantile calculation via
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`histogram_quantile`, e.g.
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`histogram_quantile(0.95, sum by (le) (rate(histogram_bucket[10m])))`.
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The `histogram_quantile` function already tries to mitigate the effects to some
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extent, but there will be inaccuracies, in particular for shorter ranges that
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cover only a few samples.
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Ways to deal with this change either globally or on a per metric basis:
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- Fix references to integer `le`, `quantile` label values, but otherwise do
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nothing and accept that some queries that span the transition time will produce
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inaccurate or unexpected results.
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_This is the recommended solution, to get consistently normalized label values._
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Also Prometheus 3.0 is expected to enforce normalization of these label values.
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- Use `metric_relabel_config` to retain the old labels when scraping targets.
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This should **only** be applied to metrics that currently produce such labels.
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<!-- The following config snippet is unit tested in scrape/scrape_test.go. -->
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```yaml
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metric_relabel_configs:
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- source_labels:
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- quantile
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target_label: quantile
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regex: (\d+)\.0+
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- source_labels:
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- le
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- __name__
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target_label: le
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regex: (\d+)\.0+;.*_bucket
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```
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## OTLP Receiver
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`--enable-feature=otlp-write-receiver`
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The OTLP receiver allows Prometheus to accept [OpenTelemetry](https://opentelemetry.io/) metrics writes.
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Prometheus is best used as a Pull based system, and staleness, `up` metric, and other Pull enabled features
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won't work when you push OTLP metrics.
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## Experimental PromQL functions
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`--enable-feature=promql-experimental-functions`
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Enables PromQL functions that are considered experimental and whose name or
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semantics could change.
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## Created Timestamps Zero Injection
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`--enable-feature=created-timestamp-zero-ingestion`
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Enables ingestion of created timestamp. Created timestamps are injected as 0 valued samples when appropriate. See [PromCon talk](https://youtu.be/nWf0BfQ5EEA) for details.
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Currently Prometheus supports created timestamps only on the traditional Prometheus Protobuf protocol (WIP for other protocols). As a result, when enabling this feature, the Prometheus protobuf scrape protocol will be prioritized (See `scrape_config.scrape_protocols` settings for more details).
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Besides enabling this feature in Prometheus, created timestamps need to be exposed by the application being scraped.
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