2022-05-17 12:06:58 +00:00
---
sort: 22
---
# Key concepts
## Data model
### What is a metric
Simply put, `metric` - is a measure or observation of something. The measurement can be used to describe the process,
compare it to other processes, perform some calculations with it, or even define events to trigger on reaching
user-defined thresholds.
The most common use-cases for metrics are:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
- check how the system behaves at the particular time period;
- correlate behavior changes to other measurements;
- observe or forecast trends;
- trigger events (alerts) if the metric exceeds a threshold.
Collecting and analyzing metrics provides advantages that are difficult to overestimate.
### Structure of a metric
2022-05-27 14:55:40 +00:00
Let's start with an example. To track how many requests our application serves, we'll define a metric with the
name `requests_total` .
2022-05-17 12:06:58 +00:00
You can be more specific here by saying `requests_success_total` (for only successful requests)
2022-05-27 14:55:40 +00:00
or `request_errors_total` (for requests which failed). Choosing a metric name is very important and supposed to clarify
what is actually measured to every person who reads it, just like variable names in programming.
2022-05-17 12:06:58 +00:00
Every metric can contain additional meta information in the form of label-value pairs:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```
requests_total{path="/", code="200"}
requests_total{path="/", code="403"}
```
The meta-information (set of `labels` in curly braces) gives us a context for which `path` and with what `code`
2022-05-27 14:55:40 +00:00
the `request` was served. Label-value pairs are always of a `string` type. VictoriaMetrics data model is schemaless,
which means there is no need to define metric names or their labels in advance. User is free to add or change ingested
metrics anytime.
2022-05-17 12:06:58 +00:00
Actually, the metric's name is also a label with a special name `__name__` . So the following two series are identical:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```
requests_total{path="/", code="200"}
{__name__="requests_total", path="/", code="200"}
```
2022-05-27 14:55:40 +00:00
#### Time series
A combination of a metric name and its labels defines a `time series` . For
example, `requests_total{path="/", code="200"}` and `requests_total{path="/", code="403"}`
2022-05-17 12:06:58 +00:00
are two different time series.
2022-05-27 14:55:40 +00:00
Number of time series has an impact on database resource usage. See
also [What is an active time series? ](https://docs.victoriametrics.com/FAQ.html#what-is-an-active-time-series )
and [What is high churn rate? ](https://docs.victoriametrics.com/FAQ.html#what-is-high-churn-rate ).
#### Cardinality
The number of all unique label combinations for one metric defines its `cardinality` . For example, if `requests_total`
has 3 unique `path` values and 5 unique `code` values, then its cardinality will be `3*5=15` of unique time series. If
you add one more unique `path` value, cardinality will bump to `20` . See more in
2022-05-17 12:06:58 +00:00
[What is cardinality ](https://docs.victoriametrics.com/FAQ.html#what-is-high-cardinality ).
2022-05-27 14:55:40 +00:00
#### Data points
Every time series consists of `data points` (also called `samples` ). A `data point` is value-timestamp pair associated
with the specific series:
2022-05-17 12:06:58 +00:00
```
requests_total{path="/", code="200"} < float64 value > < unixtimestamp >
```
2022-05-27 14:55:40 +00:00
In VictoriaMetrics data model, data point's value is always of type `float64` . And timestamp is unix time with
milliseconds precision. Each series can contain an infinite number of data points.
2022-05-17 12:06:58 +00:00
### Types of metrics
2022-05-27 14:55:40 +00:00
Internally, VictoriaMetrics does not have a notion of a metric type. All metrics are the same. The concept of a metric
type exists specifically to help users to understand how the metric was measured. There are 4 common metric types.
2022-05-17 12:06:58 +00:00
#### Counter
Counter metric type is a [monotonically increasing counter ](https://en.wikipedia.org/wiki/Monotonic_function )
2022-05-27 14:55:40 +00:00
used for capturing a number of events. It represents a cumulative metric whose value never goes down and always shows
the current number of captured events. In other words, `counter` always shows the number of observed events since the
application has started. In programming, `counter` is a variable that you **increment** each time something happens.
2022-05-17 12:06:58 +00:00
{% include img.html href="keyConcepts_counter.png" %}
2022-05-27 14:55:40 +00:00
`vm_http_requests_total` is a typical example of a counter - a metric which only grows. The interpretation of a graph
above is that time series
2022-05-17 12:06:58 +00:00
`vm_http_requests_total{instance="localhost:8428", job="victoriametrics", path="api/v1/query_range"}`
was rapidly changing from 1:38 pm to 1:39 pm, then there were no changes until 1:41 pm.
2022-05-27 14:55:40 +00:00
Counter is used for measuring a number of events, like a number of requests, errors, logs, messages, etc. The most
common [MetricsQL ](#metricsql ) functions used with counters are:
* [rate ](https://docs.victoriametrics.com/MetricsQL.html#rate ) - calculates the speed of metric's change. For
example, `rate(requests_total)` will show how many requests are served per second;
* [increase ](https://docs.victoriametrics.com/MetricsQL.html#increase ) - calculates the growth of a metric on the given
time period. For example, `increase(requests_total[1h])` will show how many requests were served over `1h` interval.
2022-05-17 12:06:58 +00:00
#### Gauge
Gauge is used for measuring a value that can go up and down:
{% include img.html href="keyConcepts_gauge.png" %}
2022-05-27 14:55:40 +00:00
The metric `process_resident_memory_anon_bytes` on the graph shows the number of bytes of memory used by the application
during the runtime. It is changing frequently, going up and down showing how the process allocates and frees the memory.
2022-05-17 12:06:58 +00:00
In programming, `gauge` is a variable to which you **set** a specific value as it changes.
2022-05-27 14:55:40 +00:00
Gauge is used in the following scenarios:
* measuring temperature, memory usage, disk usage etc;
* storing the state of some process. For example, gauge `config_reloaded_successful` can be set to `1` if everything is
good, and to `0` if configuration failed to reload;
* storing the timestamp when event happened. For example, `config_last_reload_success_timestamp_seconds`
can store the timestamp of the last successful configuration relaod.
The most common [MetricsQL ](#metricsql )
2022-05-17 12:06:58 +00:00
functions used with gauges are [aggregation and grouping functions ](#aggregation-and-grouping-functions ).
#### Histogram
Histogram is a set of [counter ](#counter ) metrics with different labels for tracking the dispersion
2022-05-27 14:55:40 +00:00
and [quantiles ](https://prometheus.io/docs/practices/histograms/#quantiles ) of the observed value. For example, in
VictoriaMetrics we track how many rows is processed per query using the histogram with the
2022-06-28 17:18:08 +00:00
name `vm_rows_read_per_query` . The exposition format for this histogram has the following form:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```
2022-06-28 17:18:08 +00:00
vm_rows_read_per_query_bucket{vmrange="4.084e+02...4.642e+02"} 2
vm_rows_read_per_query_bucket{vmrange="5.275e+02...5.995e+02"} 1
vm_rows_read_per_query_bucket{vmrange="8.799e+02...1.000e+03"} 1
vm_rows_read_per_query_bucket{vmrange="1.468e+03...1.668e+03"} 3
vm_rows_read_per_query_bucket{vmrange="1.896e+03...2.154e+03"} 4
vm_rows_read_per_query_sum 15582
vm_rows_read_per_query_count 11
2022-05-17 12:06:58 +00:00
```
2022-06-28 17:18:08 +00:00
In practice, histogram `vm_rows_read_per_query` may be used in the following way:
2022-05-27 14:55:40 +00:00
2022-06-13 06:48:26 +00:00
```go
2022-05-17 12:06:58 +00:00
// define the histogram
2022-06-28 17:18:08 +00:00
rowsReadPerQuery := metrics.NewHistogram(`vm_rows_read_per_query`)
2022-05-17 12:06:58 +00:00
// use the histogram during processing
for _, query := range queries {
2022-06-28 17:18:08 +00:00
rowsReadPerQuery.Update(float64(len(query.Rows)))
2022-05-17 12:06:58 +00:00
}
```
2022-06-28 17:18:08 +00:00
Now let's see what happens each time when `rowsReadPerQuery.Update` is called:
2022-05-27 14:55:40 +00:00
2022-06-28 17:18:08 +00:00
* counter `vm_rows_read_per_query_sum` increments by value of `len(query.Rows)` expression and accounts for
2022-05-27 14:55:40 +00:00
total sum of all observed values;
2022-06-28 17:18:08 +00:00
* counter `vm_rows_read_per_query_count` increments by 1 and accounts for total number of observations;
* counter `vm_rows_read_per_query_bucket` gets incremented only if observed value is within the
2022-05-27 14:55:40 +00:00
range (`bucket`) defined in `vmrange` .
Such a combination of `counter` metrics allows
plotting [Heatmaps in Grafana ](https://grafana.com/docs/grafana/latest/visualizations/heatmap/ )
2022-05-17 12:06:58 +00:00
and calculating [quantiles ](https://prometheus.io/docs/practices/histograms/#quantiles ):
{% include img.html href="keyConcepts_histogram.png" %}
2022-05-27 14:55:40 +00:00
Histograms are usually used for measuring latency, sizes of elements (batch size, for example) etc. There are two
implementations of a histogram supported by VictoriaMetrics:
2022-05-17 12:06:58 +00:00
1. [Prometheus histogram ](https://prometheus.io/docs/practices/histograms/ ). The canonical histogram implementation
2022-05-27 14:55:40 +00:00
supported by most of
the [client libraries for metrics instrumentation ](https://prometheus.io/docs/instrumenting/clientlibs/ ). Prometheus
histogram requires a user to define ranges (`buckets`) statically.
2022-05-17 12:06:58 +00:00
2. [VictoriaMetrics histogram ](https://valyala.medium.com/improving-histogram-usability-for-prometheus-and-grafana-bc7e5df0e350 )
2022-05-27 14:55:40 +00:00
supported by [VictoriaMetrics/metrics ](https://github.com/VictoriaMetrics/metrics ) instrumentation library.
Victoriametrics histogram automatically adjusts buckets, so users don't need to think about them.
2022-05-17 12:06:58 +00:00
Histograms aren't trivial to learn and use. We recommend reading the following articles before you start:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
1. [Prometheus histogram ](https://prometheus.io/docs/concepts/metric_types/#histogram )
2. [Histograms and summaries ](https://prometheus.io/docs/practices/histograms/ )
3. [How does a Prometheus Histogram work? ](https://www.robustperception.io/how-does-a-prometheus-histogram-work )
4. [Improving histogram usability for Prometheus and Grafana ](https://valyala.medium.com/improving-histogram-usability-for-prometheus-and-grafana-bc7e5df0e350 )
#### Summary
Summary is quite similar to [histogram ](#histogram ) and is used for
2022-05-27 14:55:40 +00:00
[quantiles ](https://prometheus.io/docs/practices/histograms/#quantiles ) calculations. The main difference to histograms
is that calculations are made on the client-side, so metrics exposition format already contains pre-calculated
quantiles:
2022-05-17 12:06:58 +00:00
```
go_gc_duration_seconds{quantile="0"} 0
go_gc_duration_seconds{quantile="0.25"} 0
go_gc_duration_seconds{quantile="0.5"} 0
go_gc_duration_seconds{quantile="0.75"} 8.0696e-05
go_gc_duration_seconds{quantile="1"} 0.001222168
go_gc_duration_seconds_sum 0.015077078
go_gc_duration_seconds_count 83
```
The visualisation of summaries is pretty straightforward:
{% include img.html href="keyConcepts_summary.png" %}
Such an approach makes summaries easier to use but also puts significant limitations - summaries can't be aggregated.
2022-05-27 14:55:40 +00:00
The [histogram ](#histogram ) exposes the raw values via counters. It means a user can aggregate these counters for
different metrics (for example, for metrics with different `instance` label) and **then calculate quantiles** . For
summary, quantiles are already calculated, so
they [can't be aggregated ](https://latencytipoftheday.blogspot.de/2014/06/latencytipoftheday-you-cant-average.html )
2022-05-17 12:06:58 +00:00
with other metrics.
2022-05-27 14:55:40 +00:00
Summaries are usually used for measuring latency, sizes of elements (batch size, for example) etc. But taking into
account the limitation mentioned above.
2022-05-17 12:06:58 +00:00
2022-05-27 14:55:40 +00:00
### Instrumenting application with metrics
2022-05-17 12:06:58 +00:00
2022-05-27 14:55:40 +00:00
As was said at the beginning of the section [Types of metrics ](#types-of-metrics ), metric type defines how it was
measured. VictoriaMetrics TSDB doesn't know about metric types, all it sees are labels, values, and timestamps. And what
are these metrics, what do they measure, and how - all this depends on the application which emits them.
2022-05-17 12:06:58 +00:00
To instrument your application with metrics compatible with VictoriaMetrics TSDB we recommend
2022-05-27 14:55:40 +00:00
using [VictoriaMetrics/metrics ](https://github.com/VictoriaMetrics/metrics ) instrumentation library. See more about how
to use it on example of
2022-05-17 12:06:58 +00:00
[How to monitor Go applications with VictoriaMetrics ](https://victoriametrics.medium.com/how-to-monitor-go-applications-with-victoriametrics-c04703110870 )
article.
VictoriaMetrics is also compatible with
Prometheus [client libraries for metrics instrumentation ](https://prometheus.io/docs/instrumenting/clientlibs/ ).
2022-05-27 14:55:40 +00:00
#### Naming
We recommend following [naming convention introduced by Prometheus ](https://prometheus.io/docs/practices/naming/ ). There
are no strict (except allowed chars) restrictions and any metric name would be accepted by VictoriaMetrics. But
convention will help to keep names meaningful, descriptive and clear to other people. Following convention is a good
practice.
#### Labels
Every metric can contain an arbitrary number of label names. The good practice is to keep this number limited.
Otherwise, it would be difficult to use or plot on the graphs. By default, VictoriaMetrics limits the number of labels
per series to `30` and drops all excessive labels. This limit can be changed via `-maxLabelsPerTimeseries` flag.
Every label value can contain arbitrary string value. The good practice is to use short and meaningful label values to
describe the attribute of the metric, not to tell the story about it. For example, label-value pair
`environment=prod` is ok, but `log_message=long log message with a lot of details...` is not ok. By default,
VcitoriaMetrics limits label's value size with 16kB. This limit can be changed via `-maxLabelValueLen` flag.
It is very important to control the max number of unique label values since it defines the number
of [time series ](#time-series ). Try to avoid using volatile values such as session ID or query ID in label values to
avoid excessive resource usage and database slowdown.
2022-05-17 12:06:58 +00:00
## Write data
2022-05-27 14:55:40 +00:00
There are two main models in monitoring for data collection: [push ](#push-model ) and [pull ](#pull-model ). Both are used
in modern monitoring and both are supported by VictoriaMetrics.
2022-05-17 12:06:58 +00:00
### Push model
Push model is a traditional model of the client sending data to the server:
{% include img.html href="keyConcepts_push_model.png" %}
2022-05-27 14:55:40 +00:00
The client (application) decides when and where to send/ingest its metrics. VictoriaMetrics supports following protocols
for ingesting:
2022-05-17 12:06:58 +00:00
* [Prometheus remote write API ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#prometheus-setup ).
2022-05-27 14:55:40 +00:00
* [Prometheus exposition format ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#how-to-import-data-in-prometheus-exposition-format )
.
* [InfluxDB line protocol ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#how-to-send-data-from-influxdb-compatible-agents-such-as-telegraf )
over HTTP, TCP and UDP.
* [Graphite plaintext protocol ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#how-to-send-data-from-graphite-compatible-agents-such-as-statsd )
with [tags ](https://graphite.readthedocs.io/en/latest/tags.html#carbon ).
* [OpenTSDB put message ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#sending-data-via-telnet-put-protocol )
.
* [HTTP OpenTSDB /api/put requests ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#sending-opentsdb-data-via-http-apiput-requests )
.
* [JSON line format ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#how-to-import-data-in-json-line-format )
.
2022-05-17 12:06:58 +00:00
* [Arbitrary CSV data ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#how-to-import-csv-data ).
2022-05-27 14:55:40 +00:00
* [Native binary format ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#how-to-import-data-in-native-format )
.
2022-05-17 12:06:58 +00:00
All the protocols are fully compatible with VictoriaMetrics [data model ](#data-model ) and can be used in production.
2022-05-27 14:55:40 +00:00
There are no officially supported clients by VictoriaMetrics team for data ingestion. We recommend choosing from already
existing clients compatible with the listed above protocols
(like [Telegraf ](https://github.com/influxdata/telegraf )
for [InfluxDB line protocol ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#how-to-send-data-from-influxdb-compatible-agents-such-as-telegraf ))
.
2022-05-17 12:06:58 +00:00
Creating custom clients or instrumenting the application for metrics writing is as easy as sending a POST request:
2022-05-27 14:55:40 +00:00
2022-06-19 19:57:53 +00:00
```console
2022-05-17 12:06:58 +00:00
curl -d '{"metric":{"__name__":"foo","job":"node_exporter"},"values":[0,1,2],"timestamps":[1549891472010,1549891487724,1549891503438]}' -X POST 'http://localhost:8428/api/v1/import'
```
2022-05-27 14:55:40 +00:00
It is allowed to push/write metrics
to [Single-server-VictoriaMetrics ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html ),
2022-05-17 12:06:58 +00:00
[cluster component vminsert ](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#architecture-overview )
and [vmagent ](https://docs.victoriametrics.com/vmagent.html ).
The pros of push model:
* application decides how and when to send data;
* with a batch size of which size, at which rate;
* with which retry logic;
* simpler security management, the only access needed for the application is the access to the TSDB.
See [Foiled by the Firewall: A Tale of Transition From Prometheus to VictoriaMetrics ](https://www.percona.com/blog/2020/12/01/foiled-by-the-firewall-a-tale-of-transition-from-prometheus-to-victoriametrics/ )
elaborating more on why Percona switched from pull to push model.
The cons of push protocol:
2022-05-27 14:55:40 +00:00
* it requires applications to be more complex, since they need to be responsible for metrics delivery;
2022-05-17 12:06:58 +00:00
* applications need to be aware of monitoring systems;
2022-05-27 14:55:40 +00:00
* using a monitoring system it is hard to tell whether the application went down or just stopped sending metrics for a
different reason;
* applications can overload the monitoring system by pushing too many metrics.
2022-05-17 12:06:58 +00:00
### Pull model
2022-05-27 14:55:40 +00:00
Pull model is an approach popularized by [Prometheus ](https://prometheus.io/ ), where the monitoring system decides when
and where to pull metrics from:
2022-05-17 12:06:58 +00:00
{% include img.html href="keyConcepts_pull_model.png" %}
2022-05-27 14:55:40 +00:00
In pull model, the monitoring system needs to be aware of all the applications it needs to monitor. The metrics are
scraped (pulled) with fixed intervals via HTTP protocol.
2022-05-17 12:06:58 +00:00
2022-05-27 14:55:40 +00:00
For metrics scraping VictoriaMetrics
supports [Prometheus exposition format ](https://docs.victoriametrics.com/#how-to-scrape-prometheus-exporters-such-as-node-exporter )
and needs to be configured with `-promscrape.config` flag pointing to the file with scrape configuration. This
configuration may include list of static `targets` (applications or services)
2022-05-17 12:06:58 +00:00
or `targets` discovered via various service discoveries.
2022-05-27 14:55:40 +00:00
Metrics scraping is supported
by [Single-server-VictoriaMetrics ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html )
2022-05-17 12:06:58 +00:00
and [vmagent ](https://docs.victoriametrics.com/vmagent.html ).
The pros of the pull model:
2022-05-27 14:55:40 +00:00
* monitoring system decides how and when to scrape data, so it can't be overloaded;
* applications aren't aware of the monitoring system and don't need to implement the logic for delivering metrics;
* the list of all monitored targets belongs to the monitoring system and can be quickly checked;
2022-05-17 12:06:58 +00:00
* easy to detect faulty or crashed services when they don't respond.
The cons of the pull model:
* monitoring system needs access to applications it monitors;
* the frequency at which metrics are collected depends on the monitoring system.
### Common approaches for data collection
VictoriaMetrics supports both [Push ](#push-model ) and [Pull ](#pull-model )
2022-05-27 14:55:40 +00:00
models for data collection. Many installations are using exclusively one or second model, or both at once.
2022-05-17 12:06:58 +00:00
The most common approach for data collection is using both models:
{% include img.html href="keyConcepts_data_collection.png" %}
2022-05-27 14:55:40 +00:00
In this approach the additional component is used - [vmagent ](https://docs.victoriametrics.com/vmagent.html ). Vmagent is
a lightweight agent whose main purpose is to collect and deliver metrics. It supports all the same mentioned protocols
and approaches mentioned for both data collection models.
The basic setup for using VictoriaMetrics and vmagent for monitoring is described in example
of [docker-compose manifest ](https://github.com/VictoriaMetrics/VictoriaMetrics/tree/master/deployment/docker ). In this
example,
vmagent [scrapes a list of targets ](https://github.com/VictoriaMetrics/VictoriaMetrics/blob/master/deployment/docker/prometheus.yml )
and [forwards collected data to VictoriaMetrics ](https://github.com/VictoriaMetrics/VictoriaMetrics/blob/9d7da130b5a873be334b38c8d8dec702c9e8fac5/deployment/docker/docker-compose.yml#L15 )
. VictoriaMetrics is then used as
a [datasource for Grafana ](https://github.com/VictoriaMetrics/VictoriaMetrics/blob/master/deployment/docker/provisioning/datasources/datasource.yml )
2022-05-17 12:06:58 +00:00
installation for querying collected data.
2022-05-27 14:55:40 +00:00
VictoriaMetrics components allow building more advanced topologies. For example, vmagents pushing metrics from separate
datacenters to the central VictoriaMetrics:
2022-05-17 12:06:58 +00:00
{% include img.html href="keyConcepts_two_dcs.png" %}
2022-05-27 14:55:40 +00:00
VictoriaMetrics in example may
be [Single-server-VictoriaMetrics ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html )
or [VictoriaMetrics Cluster ](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html ). Vmagent also allows to
fan-out the same data to multiple destinations.
2022-05-17 12:06:58 +00:00
## Query data
2022-05-27 14:55:40 +00:00
VictoriaMetrics provides
an [HTTP API ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#prometheus-querying-api-usage )
2022-05-17 12:06:58 +00:00
for serving read queries. The API is used in various integrations such as
2022-05-27 14:55:40 +00:00
[Grafana ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#grafana-setup ). The same API is also used
by
[VMUI ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#vmui ) - graphical User Interface for querying
and visualizing metrics.
2022-05-17 12:06:58 +00:00
The API consists of two main handlers: [instant ](#instant-query ) and [range queries ](#range-query ).
### Instant query
Instant query executes the query expression at the given moment of time:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```
GET | POST /api/v1/query
Params:
query - MetricsQL expression, required
time - when (rfc3339 | unix_timestamp) to evaluate the query. If omitted, the current timestamp is used
step - max lookback window if no datapoints found at the given time. If omitted, is set to 5m
```
To understand how instant queries work, let's begin with a data sample:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```
foo_bar 1.00 1652169600000 # 2022-05-10 10:00:00
foo_bar 2.00 1652169660000 # 2022-05-10 10:01:00
foo_bar 3.00 1652169720000 # 2022-05-10 10:02:00
foo_bar 5.00 1652169840000 # 2022-05-10 10:04:00, one point missed
foo_bar 5.50 1652169960000 # 2022-05-10 10:06:00, one point missed
foo_bar 5.50 1652170020000 # 2022-05-10 10:07:00
foo_bar 4.00 1652170080000 # 2022-05-10 10:08:00
foo_bar 3.50 1652170260000 # 2022-05-10 10:11:00, two points missed
foo_bar 3.25 1652170320000 # 2022-05-10 10:12:00
foo_bar 3.00 1652170380000 # 2022-05-10 10:13:00
foo_bar 2.00 1652170440000 # 2022-05-10 10:14:00
foo_bar 1.00 1652170500000 # 2022-05-10 10:15:00
foo_bar 4.00 1652170560000 # 2022-05-10 10:16:00
```
2022-05-27 14:55:40 +00:00
The data sample contains a list of samples for one time series with time intervals between samples from 1m to 3m. If we
plot this data sample on the system of coordinates, it will have the following form:
2022-05-17 12:06:58 +00:00
< p style = "text-align: center" >
< a href = "keyConcepts_data_samples.png" target = "_blank" >
< img src = "keyConcepts_data_samples.png" width = "500" >
< / a >
< / p >
2022-05-27 14:55:40 +00:00
To get the value of `foo_bar` metric at some specific moment of time, for example `2022-05-10 10:03:00` , in
VictoriaMetrics we need to issue an **instant query** :
2022-06-19 19:57:53 +00:00
```console
2022-05-17 12:06:58 +00:00
curl "http://< victoria-metrics-addr > /api/v1/query?query=foo_bar& time=2022-05-10T10:03:00.000Z"
```
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```json
2022-05-27 14:55:40 +00:00
{
"status": "success",
"data": {
"resultType": "vector",
"result": [
{
"metric": {
"__name__": "foo_bar"
},
"value": [
1652169780,
"3"
]
}
]
}
}
2022-05-17 12:06:58 +00:00
```
In response, VictoriaMetrics returns a single sample-timestamp pair with a value of `3` for the series
`foo_bar` at the given moment of time `2022-05-10 10:03` . But, if we take a look at the original data sample again,
we'll see that there is no data point at `2022-05-10 10:03` . What happens here is if there is no data point at the
requested timestamp, VictoriaMetrics will try to locate the closest sample on the left to the requested timestamp:
< p style = "text-align: center" >
< a href = "keyConcepts_instant_query.png" target = "_blank" >
< img src = "keyConcepts_instant_query.png" width = "500" >
< / a >
< / p >
The time range at which VictoriaMetrics will try to locate a missing data sample is equal to `5m`
by default and can be overridden via `step` parameter.
2022-05-27 14:55:40 +00:00
Instant query can return multiple time series, but always only one data sample per series. Instant queries are used in
the following scenarios:
2022-05-17 12:06:58 +00:00
* Getting the last recorded value;
* For alerts and recording rules evaluation;
* Plotting Stat or Table panels in Grafana.
### Range query
Range query executes the query expression at the given time range with the given step:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```
GET | POST /api/v1/query_range
Params:
query - MetricsQL expression, required
start - beginning (rfc3339 | unix_timestamp) of the time rage, required
end - end (rfc3339 | unix_timestamp) of the time range. If omitted, current timestamp is used
step - step in seconds for evaluating query expression on the time range. If omitted, is set to 5m
```
2022-05-27 14:55:40 +00:00
To get the values of `foo_bar` on time range from `2022-05-10 09:59:00` to `2022-05-10 10:17:00` , in VictoriaMetrics we
need to issue a range query:
2022-06-19 19:57:53 +00:00
```console
2022-05-17 12:06:58 +00:00
curl "http://< victoria-metrics-addr > /api/v1/query_range?query=foo_bar& step=1m& start=2022-05-10T09:59:00.000Z& end=2022-05-10T10:17:00.000Z"
```
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```json
2022-05-27 14:55:40 +00:00
{
"status": "success",
"data": {
"resultType": "matrix",
"result": [
{
"metric": {
"__name__": "foo_bar"
},
"values": [
[
1652169600,
"1"
],
[
1652169660,
"2"
],
[
1652169720,
"3"
],
[
1652169780,
"3"
],
[
1652169840,
"7"
],
[
1652169900,
"7"
],
[
1652169960,
"7.5"
],
[
1652170020,
"7.5"
],
[
1652170080,
"6"
],
[
1652170140,
"6"
],
[
1652170260,
"5.5"
],
[
1652170320,
"5.25"
],
[
1652170380,
"5"
],
[
1652170440,
"3"
],
[
1652170500,
"1"
],
[
1652170560,
"4"
],
[
1652170620,
"4"
]
]
}
]
}
}
2022-05-17 12:06:58 +00:00
```
In response, VictoriaMetrics returns `17` sample-timestamp pairs for the series `foo_bar` at the given time range
2022-05-27 14:55:40 +00:00
from `2022-05-10 09:59:00` to `2022-05-10 10:17:00` . But, if we take a look at the original data sample again, we'll
see that it contains only 13 data points. What happens here is that the range query is actually
an [instant query ](#instant-query ) executed `(start-end)/step` times on the time range from `start` to `end` . If we plot
this request in VictoriaMetrics the graph will be shown as the following:
2022-05-17 12:06:58 +00:00
< p style = "text-align: center" >
< a href = "keyConcepts_range_query.png" target = "_blank" >
< img src = "keyConcepts_range_query.png" width = "500" >
< / a >
< / p >
2022-05-27 14:55:40 +00:00
The blue dotted lines on the pic are the moments when instant query was executed. Since instant query retains the
ability to locate the missing point, the graph contains two types of points: `real` and `ephemeral` data
points. `ephemeral` data point always repeats the left closest
2022-05-17 12:06:58 +00:00
`real` data point (see red arrow on the pic above).
This behavior of adding ephemeral data points comes from the specifics of the [Pull model ](#pull-model ):
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
* Metrics are scraped at fixed intervals;
* Scrape may be skipped if the monitoring system is overloaded;
* Scrape may fail due to network issues.
2022-05-27 14:55:40 +00:00
According to these specifics, the range query assumes that if there is a missing data point then it is likely a missed
scrape, so it fills it with the previous data point. The same will work for cases when `step` is lower than the actual
interval between samples. In fact, if we set `step=1s` for the same request, we'll get about 1 thousand data points in
response, where most of them are `ephemeral` .
Sometimes, the lookbehind window for locating the datapoint isn't big enough and the graph will contain a gap. For range
queries, lookbehind window isn't equal to the `step` parameter. It is calculated as the median of the intervals between
the first 20 data points in the requested time range. In this way, VictoriaMetrics automatically adjusts the lookbehind
window to fill gaps and detect stale series at the same time.
2022-05-17 12:06:58 +00:00
2022-05-27 14:55:40 +00:00
Range queries are mostly used for plotting time series data over specified time ranges. These queries are extremely
useful in the following scenarios:
2022-05-17 12:06:58 +00:00
* Track the state of a metric on the time interval;
* Correlate changes between multiple metrics on the time interval;
* Observe trends and dynamics of the metric change.
### MetricsQL
2022-05-27 14:55:40 +00:00
VictoriaMetrics provide a special query language for executing read queries
- [MetricsQL ](https://docs.victoriametrics.com/MetricsQL.html ). MetricsQL is
a [PromQL ](https://prometheus.io/docs/prometheus/latest/querying/basics ) -like query language with a powerful set of
functions and features for working specifically with time series data. MetricsQL is backwards-compatible with PromQL,
so it shares most of the query concepts. For example, the basics concepts of PromQL are
described [here ](https://valyala.medium.com/promql-tutorial-for-beginners-9ab455142085 )
are applicable to MetricsQL as well.
2022-05-17 12:06:58 +00:00
#### Filtering
2022-05-27 14:55:40 +00:00
In sections [instant query ](#instant-query ) and [range query ](#range-query ) we've already used MetricsQL to get data for
metric `foo_bar` . It is as simple as just writing a metric name in the query:
2022-05-17 12:06:58 +00:00
```MetricsQL
foo_bar
```
A single metric name may correspond to multiple time series with distinct label sets. For example:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```MetricsQL
requests_total{path="/", code="200"}
requests_total{path="/", code="403"}
```
To select only time series with specific label value specify the matching condition in curly braces:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```MetricsQL
requests_total{code="200"}
```
2022-05-27 14:55:40 +00:00
The query above will return all time series with the name `requests_total` and `code="200"` . We use the operator `=` to
match a label value. For negative match use `!=` operator. Filters also support regex matching `=~` for positive
and `!~` for negative matching:
2022-05-17 12:06:58 +00:00
```MetricsQL
requests_total{code=~"2.*"}
```
Filters can also be combined:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```MetricsQL
requests_total{code=~"200|204", path="/home"}
```
2022-05-27 14:55:40 +00:00
The query above will return all time series with a name `requests_total` , status `code` `200` or `204` and `path="/home"`
.
2022-05-17 12:06:58 +00:00
#### Filtering by name
2022-05-27 14:55:40 +00:00
Sometimes it is required to return all the time series for multiple metric names. As was mentioned in
the [data model section ](#data-model ), the metric name is just an ordinary label with a special name — `__name__` . So
filtering by multiple metric names may be performed by applying regexps on metric names:
2022-05-17 12:06:58 +00:00
```MetricsQL
{__name__=~"requests_(error|success)_total"}
```
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
The query above is supposed to return series for two metrics: `requests_error_total` and `requests_success_total` .
#### Arithmetic operations
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
MetricsQL supports all the basic arithmetic operations:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
* addition (+)
* subtraction (-)
* multiplication (*)
* division (/)
* modulo (%)
* power (^)
2022-05-27 14:55:40 +00:00
This allows performing various calculations. For example, the following query will calculate the percentage of error
requests:
2022-05-17 12:06:58 +00:00
```MetricsQL
(requests_error_total / (requests_error_total + requests_success_total)) * 100
```
#### Combining multiple series
2022-05-27 14:55:40 +00:00
Combining multiple time series with arithmetic operations requires an understanding of matching rules. Otherwise, the
query may break or may lead to incorrect results. The basics of the matching rules are simple:
* MetricsQL engine strips metric names from all the time series on the left and right side of the arithmetic operation
without touching labels.
* For each time series on the left side MetricsQL engine searches for the corresponding time series on the right side
with the same set of labels, applies the operation for each data point and returns the resulting time series with the
same set of labels. If there are no matches, then the time series is dropped from the result.
2022-05-17 12:06:58 +00:00
* The matching rules may be augmented with ignoring, on, group_left and group_right modifiers.
This could be complex, but in the majority of cases isn’ t needed.
#### Comparison operations
MetricsQL supports the following comparison operators:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
* equal (==)
* not equal (!=)
* greater (>)
* greater-or-equal (>=)
* less (< )
* less-or-equal (< =)
2022-05-27 14:55:40 +00:00
These operators may be applied to arbitrary MetricsQL expressions as with arithmetic operators. The result of the
comparison operation is time series with only matching data points. For instance, the following query would return
series only for processes where memory usage is > 100MB:
2022-05-17 12:06:58 +00:00
```MetricsQL
process_resident_memory_bytes > 100*1024*1024
```
#### Aggregation and grouping functions
2022-05-27 14:55:40 +00:00
MetricsQL allows aggregating and grouping time series. Time series are grouped by the given set of labels and then the
given aggregation function is applied for each group. For instance, the following query would return memory used by
various processes grouped by instances (for the case when multiple processes run on the same instance):
2022-05-17 12:06:58 +00:00
```MetricsQL
sum(process_resident_memory_bytes) by (instance)
```
#### Calculating rates
2022-05-27 14:55:40 +00:00
One of the most widely used functions for [counters ](#counter )
is [rate ](https://docs.victoriametrics.com/MetricsQL.html#rate ). It calculates per-second rate for all the matching time
series. For example, the following query will show how many bytes are received by the network per second:
2022-05-17 12:06:58 +00:00
```MetricsQL
rate(node_network_receive_bytes_total)
```
2022-05-27 14:55:40 +00:00
To calculate the rate, the query engine will need at least two data points to compare. Simplified rate calculation for
each point looks like `(Vcurr-Vprev)/(Tcurr-Tprev)` , where `Vcurr` is the value at the current point — `Tcurr` , `Vprev`
is the value at the point `Tprev=Tcurr-step` . The range between `Tcurr-Tprev` is usually equal to `step` parameter.
If `step` value is lower than the real interval between data points, then it is ignored and a minimum real interval is
used.
2022-05-17 12:06:58 +00:00
The interval on which `rate` needs to be calculated can be specified explicitly as `duration` in square brackets:
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
```MetricsQL
rate(node_network_receive_bytes_total[5m])
```
2022-05-27 14:55:40 +00:00
For this query the time duration to look back when calculating per-second rate for each point on the graph will be equal
to `5m` .
`rate` strips metric name while leaving all the labels for the inner time series. Do not apply `rate` to time series
which may go up and down, such as [gauges ](#gauge ).
`rate` must be applied only to [counters ](#counter ), which always go up. Even if counter gets reset (for instance, on
service restart), `rate` knows how to deal with it.
2022-05-17 12:06:58 +00:00
### Visualizing time series
2022-05-27 14:55:40 +00:00
2022-05-17 12:06:58 +00:00
VictoriaMetrics has a built-in graphical User Interface for querying and visualizing metrics
[VMUI ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#vmui ).
Open `http://victoriametrics:8428/vmui` page, type the query and see the results:
{% include img.html href="keyConcepts_vmui.png" %}
VictoriaMetrics supports [Prometheus HTTP API ](https://prometheus.io/docs/prometheus/latest/querying/api/ )
2022-05-27 14:55:40 +00:00
which makes it possible
to [use with Grafana ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#grafana-setup ). Play more with
Grafana integration in VictoriaMetrics
sandbox [https://play-grafana.victoriametrics.com ](https://play-grafana.victoriametrics.com ).
## Modify data
VictoriaMetrics stores time series data in [MergeTree ](https://en.wikipedia.org/wiki/Log-structured_merge-tree )-like
data structures. While this approach if very efficient for write-heavy databases, it applies some limitations on data
updates. In short, modifying already written [time series ](#time-series ) requires re-writing the whole data block where
it is stored. Due to this limitation, VictoriaMetrics does not support direct data modification.
### Deletion
See [How to delete time series ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#how-to-delete-time-series )
.
### Relabeling
Relabeling is a powerful mechanism for modifying time series before they have been written to the database. Relabeling
may be applied for both [push ](#push-model ) and [pull ](#pull-model ) models. See more
details [here ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#relabeling ).
### Deduplication
VictoriaMetrics supports data points deduplication after data was written to the storage. See more
2022-06-28 17:18:08 +00:00
details [here ](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#deduplication ).