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docs: mention cluster URL for exporting series Signed-off-by: hagen1778 <roman@victoriametrics.com>
323 lines
22 KiB
Markdown
323 lines
22 KiB
Markdown
---
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sort: 23
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---
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# Troubleshooting
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This document contains troubleshooting guides for most common issues when working with VictoriaMetrics:
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- [Unexpected query results](#unexpected-query-results)
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- [Slow data ingestion](#slow-data-ingestion)
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- [Slow queries](#slow-queries)
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- [Out of memory errors](#out-of-memory-errors)
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- [Cluster instability](#cluster-instability)
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- [Monitoring](#monitoring)
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## Unexpected query results
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If you see unexpected or unreliable query results from VictoriaMetrics, then try the following steps:
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1. Check whether simplified queries return unexpected results. For example, if the query looks like
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`sum(rate(http_requests_total[5m])) by (job)`, then check whether the following queries return
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expected results:
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- Remove the outer `sum` and execute `rate(http_requests_total[5m])`,
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since aggregations could hide some missing series, gaps in data or anomalies in existing series.
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If this query returns too many time series, then try adding more specific label filters to it.
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For example, if you see that the original query returns unexpected results for the `job="foo"`,
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then use `rate(http_requests_total{job="foo"}[5m])` query.
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If this isn't enough, then continue adding more specific label filters, so the resulting query returns
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manageable number of time series.
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- Remove the outer `rate` and execute `http_requests_total`. Additional label filters may be added here in order
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to reduce the number of returned series.
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Sometimes the query may be improperly constructed, so it returns unexpected results.
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It is recommended reading and understanding [MetricsQL docs](https://docs.victoriametrics.com/MetricsQL.html),
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especially [subqueries](https://docs.victoriametrics.com/MetricsQL.html#subqueries)
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and [rollup functions](https://docs.victoriametrics.com/MetricsQL.html#rollup-functions) sections.
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2. If the simplest query continues returning unexpected / unreliable results, then try verifying correctness
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of raw unprocessed samples for this query via [/api/v1/export](https://docs.victoriametrics.com/#how-to-export-data-in-json-line-format)
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on the given `[start..end]` time range and check whether they are expected:
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```console
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single-node: curl http://victoriametrics:8428/api/v1/export -d 'match[]=http_requests_total' -d 'start=...' -d 'end=...'
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cluster: curl http://<vmselect>:8481/select/<tenantID>/prometheus/api/v1/export -d 'match[]=http_requests_total' -d 'start=...' -d 'end=...'
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```
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Note that responses returned from [/api/v1/query](https://docs.victoriametrics.com/keyConcepts.html#instant-query)
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and from [/api/v1/query_range](https://docs.victoriametrics.com/keyConcepts.html#range-query) contain **evaluated** data
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instead of raw samples stored in VictoriaMetrics. See [these docs](https://prometheus.io/docs/prometheus/latest/querying/basics/#staleness)
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for details.
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If you migrate from InfluxDB, then pass `-search.setLookbackToStep` command-line flag to single-node VictoriaMetrics
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or to `vmselect` in VictoriaMetrics cluster. See also [how to migrate from InfluxDB to VictoriaMetrics](https://docs.victoriametrics.com/guides/migrate-from-influx.html).
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3. Sometimes response caching may lead to unexpected results when samples with older timestamps
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are ingested into VictoriaMetrics (aka [backfilling](https://docs.victoriametrics.com/#backfilling)).
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Try disabling response cache and see whether this helps. This can be done in the following ways:
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- By passing `-search.disableCache` command-line flag to a single-node VictoriaMetrics
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or to all the `vmselect` components if cluster version of VictoriaMetrics is used.
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- By passing `nocache=1` query arg to every request to `/api/v1/query` and `/api/v1/query_range`.
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If you use Grafana, then this query arg can be specified in `Custom Query Parameters` field
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at Prometheus datasource settings - see [these docs](https://grafana.com/docs/grafana/latest/datasources/prometheus/) for details.
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4. If you use cluster version of VictoriaMetrics, then it may return partial responses by default
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when some of `vmstorage` nodes are temporarily unavailable - see [cluster availability docs](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#cluster-availability)
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for details. If you want prioritizing query consistency over cluster availability,
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then you can pass `-search.denyPartialResponse` command-line flag to all the `vmselect` nodes.
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In this case VictoriaMetrics returns an error during querying if at least a single `vmstorage` node is unavailable.
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Another option is to pass `deny_partial_response=1` query arg to `/api/v1/query` and `/api/v1/query_range`.
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If you use Grafana, then this query arg can be specified in `Custom Query Parameters` field
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at Prometheus datasource settings - see [these docs](https://grafana.com/docs/grafana/latest/datasources/prometheus/) for details.
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5. If you pass `-replicationFactor` command-line flag to `vmselect`, then it is recommended removing this flag from `vmselect`,
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since it may lead to incomplete responses when `vmstorage` nodes contain less than `-replicationFactor`
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copies of the requested data.
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6. Try upgrading to the [latest available version of VictoriaMetrics](https://github.com/VictoriaMetrics/VictoriaMetrics/releases)
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and verifying whether the issue is fixed there.
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7. Try executing the query with `trace=1` query arg. This enables query tracing, which may contain
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useful information on why the query returns unexpected data. See [query tracing docs](https://docs.victoriametrics.com/#query-tracing) for details.
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8. Inspect command-line flags passed to VictoriaMetrics components. If you don't understand clearly the purpose
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or the effect of some flags, then remove them from the list of flags passed to VictoriaMetrics components,
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because some command-line flags may change query results in unexpected ways when set to improper values.
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VictoriaMetrics is optimized for running with default flag values (e.g. when they aren't set explicitly).
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9. If the steps above didn't help identifying the root cause of unexpected query results,
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then [file a bugreport](https://github.com/VictoriaMetrics/VictoriaMetrics/issues/new) with details on how to reproduce the issue.
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## Slow data ingestion
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There are the following most commons reasons for slow data ingestion in VictoriaMetrics:
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1. Memory shortage for the given amounts of [active time series](https://docs.victoriametrics.com/FAQ.html#what-is-an-active-time-series).
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VictoriaMetrics (or `vmstorage` in cluster version of VictoriaMetrics) maintains an in-memory cache
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for quick search for internal series ids per each incoming metric.
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This cache is named `storage/tsid`. VictoriaMetrics automatically determines the maximum size for this cache
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depending on the available memory on the host where VictoriaMetrics (or `vmstorage`) runs. If the cache size isn't enough
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for holding all the entries for active time series, then VictoriaMetrics locates the needed data on disk,
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unpacks it, re-constructs the missing entry and puts it into the cache. This takes additional CPU time and disk read IO.
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The [official Grafana dashboards for VictoriaMetrics](https://docs.victoriametrics.com/#monitoring)
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contain `Slow inserts` graph, which shows the cache miss percentage for `storage/tsid` cache
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during data ingestion. If `slow inserts` graph shows values greater than 5% for more than 10 minutes,
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then it is likely the current number of [active time series](https://docs.victoriametrics.com/FAQ.html#what-is-an-active-time-series)
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cannot fit the `storage/tsid` cache.
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There are the following solutions exist for this issue:
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- To increase the available memory on the host where VictoriaMetrics runs until `slow inserts` percentage
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will become lower than 5%. If you run VictoriaMetrics cluster, then you need increasing total available
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memory at `vmstorage` nodes. This can be done in two ways: either to increase the available memory
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per each existing `vmstorage` node or to add more `vmstorage` nodes to the cluster.
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- To reduce the number of active time series. The [official Grafana dashboards for VictoriaMetrics](https://docs.victoriametrics.com/#monitoring)
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contain a graph showing the number of active time series. Recent versions of VictoriaMetrics
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provide [cardinality explorer](https://docs.victoriametrics.com/#cardinality-explorer),
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which can help determining and fixing the source of [high cardinality](https://docs.victoriametrics.com/FAQ.html#what-is-high-cardinality).
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2. [High churn rate](https://docs.victoriametrics.com/FAQ.html#what-is-high-churn-rate),
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e.g. when old time series are substituted with new time series at a high rate.
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When VictoriaMetrics encounters a sample for new time series, it needs to register the time series
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in the internal index (aka `indexdb`), so it can be quickly located on subsequent select queries.
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The process of registering new time series in the internal index is an order of magnitude slower
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than the process of adding new sample to already registered time series.
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So VictoriaMetrics may work slower than expected under [high churn rate](https://docs.victoriametrics.com/FAQ.html#what-is-high-churn-rate).
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The [official Grafana dashboards for VictoriaMetrics](https://docs.victoriametrics.com/#monitoring)
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provides `Churn rate` graph, which shows the average number of new time series registered
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during the last 24 hours. If this number exceeds the number of [active time series](https://docs.victoriametrics.com/FAQ.html#what-is-an-active-time-series),
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then you need to identify and fix the source of [high churn rate](https://docs.victoriametrics.com/FAQ.html#what-is-high-churn-rate).
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The most commons source of high churn rate is a label, which frequently changes its value. Try avoiding such labels.
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The [cardinality explorer](https://docs.victoriametrics.com/#cardinality-explorer) can help identifying
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such labels.
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3. Resource shortage. The [official Grafana dashboards for VictoriaMetrics](https://docs.victoriametrics.com/#monitoring)
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contain `resource usage` graphs, which show memory usage, CPU usage, disk IO usage and free disk size.
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Make sure VictoriaMetrics has enough free resources for graceful handling of potential spikes in workload
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according to the following recommendations:
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- 50% of free CPU
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- 50% of free memory
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- 20% of free disk space
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If VictoriaMetrics components have lower amounts of free resources, then this may lead
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to **significant** performance degradation after workload increases slightly.
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For example:
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- If the percentage of free CPU is close to 0, then VictoriaMetrics
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may experience arbitrary long delays during data ingestion when it cannot keep up
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with slightly increased data ingestion rate.
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- If the percentage of free memory reaches 0, then the Operating System where VictoriaMetrics components run,
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may have no enough memory for [page cache](https://en.wikipedia.org/wiki/Page_cache).
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VictoriaMetrics relies on page cache for quick queries over recently ingested data.
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If the operating system has no enough free memory for page cache, then it needs
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to re-read the requested data from disk. This may **significantly** increase disk read IO
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and slow down both queries and data ingestion.
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- If free disk space is lower than 20%, then VictoriaMetrics is unable to perform optimal
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background merge of the incoming data. This leads to increased number of data files on disk,
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which, in turn, slows down both data ingestion and querying. See [these docs](https://docs.victoriametrics.com/#storage) for details.
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4. If you run cluster version of VictoriaMetrics, then make sure `vminsert` and `vmstorage` components
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are located in the same network with small network latency between them.
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`vminsert` packs incoming data into batch packets and sends them to `vmstorage` on-by-one.
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It waits until `vmstorage` returns back `ack` response before sending the next packet.
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If the network latency between `vminsert` and `vmstorage` is high (for example, if they run in different datacenters),
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then this may become limiting factor for data ingestion speed.
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The [official Grafana dashboard for cluster version of VictoriaMetrics](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#monitoring)
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contain `connection saturation` graph for `vminsert` components. If this graph reaches 100% (1s),
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then it is likely you have issues with network latency between `vminsert` and `vmstorage`.
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Another possible issue for 100% connection saturation between `vminsert` and `vmstorage`
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is resource shortage at `vmstorage` nodes. In this case you need to increase amounts
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of available resources (CPU, RAM, disk IO) at `vmstorage` nodes or to add more `vmstorage` nodes to the cluster.
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5. Noisy neighbor. Make sure VictoriaMetrics components run in an envirnoments without other resource-hungry apps.
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Such apps may steal RAM, CPU, disk IO and network bandwidth, which is needed for VictoriaMetrics components.
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Issues like this are very hard to catch via [official Grafana dashboard for cluster version of VictoriaMetrics](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#monitoring)
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and proper diagnosis would require checking resource usage on the instances where VictoriaMetrics runs.
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6. If you see `TooHighSlowInsertsRate` [alert](https://docs.victoriametrics.com/#monitoring) when single-node VictoriaMetrics or `vmstorage` has enough
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free CPU and RAM, then increase `-cacheExpireDuration` command-line flag at single-node VictoriaMetrics or at `vmstorage` to the value,
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which exceeds the interval between ingested samples for the same time series (aka `scrape_interval`).
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See [this comment](https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3976#issuecomment-1476883183) for more details.
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## Slow queries
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Some queries may take more time and resources (CPU, RAM, network bandwidth) than others.
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VictoriaMetrics logs slow queries if their execution time exceeds the duration passed
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to `-search.logSlowQueryDuration` command-line flag (5s by default).
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VictoriaMetrics also provides `/api/v1/status/top_queries` endpoint, which returns
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queries that took the most time to execute.
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See [these docs](https://docs.victoriametrics.com/#prometheus-querying-api-enhancements) for details.
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There are the following solutions exist for slow queries:
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- Adding more CPU and memory to VictoriaMetrics, so it may perform the slow query faster.
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If you use cluster version of VictoriaMetrics, then migration of `vmselect` nodes to machines
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with more CPU and RAM should help improving speed for slow queries. Query performance
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is always limited by resources of one vmselect which processes the query. For example, if 2vCPU cores on `vmselect`
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isn't enough to process query fast enough, then migrating `vmselect` to a machine with 4vCPU cores should increase heavy query performance by up to 2x.
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If the line on `Concurrent select` graph form the [official Grafana dashboard for VictoriaMetrics](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#monitoring)
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is close to the limit, then prefer adding more `vmselect` nodes to the cluster.
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Sometimes adding more `vmstorage` nodes also can help improving the speed for slow queries.
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- Rewriting slow queries, so they become faster. Unfortunately it is hard determining
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whether the given query is slow by just looking at it.
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VictoriaMetrics provides [query tracing](https://docs.victoriametrics.com/#query-tracing) feature,
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which can help determine the source of slow query.
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See also [this article](https://valyala.medium.com/how-to-optimize-promql-and-metricsql-queries-85a1b75bf986),
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which explains how to determine and optimize slow queries.
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In practice many slow queries are generated because of improper use of [subqueries](https://docs.victoriametrics.com/MetricsQL.html#subqueries).
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It is recommended avoiding subqueries if you don't understand clearly how they work.
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It is easy to create a subquery without knowing about it.
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For example, `rate(sum(some_metric))` is implicitly transformed into the following subquery
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according to [implicit conversion rules for MetricsQL queries](https://docs.victoriametrics.com/MetricsQL.html#implicit-query-conversions):
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```metricsql
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rate(
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sum(
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default_rollup(some_metric[1i])
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)[1i:1i]
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)
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```
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It is likely this query won't return the expected results. Instead, `sum(rate(some_metric))` must be used instead.
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See [this article](https://www.robustperception.io/rate-then-sum-never-sum-then-rate/) for more details.
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## Out of memory errors
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There are the following most common sources of out of memory (aka OOM) crashes in VictoriaMetrics:
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1. Improper command-line flag values. Inspect command-line flags passed to VictoriaMetrics components.
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If you don't understand clearly the purpose or the effect of some flags - remove them
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from the list of flags passed to VictoriaMetrics components. Improper command-line flags values
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may lead to increased memory and CPU usage. The increased memory usage increases chances for OOM crashes.
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VictoriaMetrics is optimized for running with default flag values (e.g. when they aren't set explicitly).
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For example, it isn't recommended tuning cache sizes in VictoriaMetrics, since it frequently leads to OOM exceptions.
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[These docs](https://docs.victoriametrics.com/#cache-tuning) refer command-line flags, which aren't
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recommended to tune. If you see that VictoriaMetrics needs increasing some cache sizes for the current workload,
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then it is better migrating to a host with more memory instead of trying to tune cache sizes manually.
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2. Unexpected heavy queries. The query is considered as heavy if it needs to select and process millions of unique time series.
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Such query may lead to OOM exception, since VictoriaMetrics needs to keep some of per-series data in memory.
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VictoriaMetrics provides [various settings](https://docs.victoriametrics.com/#resource-usage-limits),
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which can help limit resource usage.
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For more context, see [How to optimize PromQL and MetricsQL queries](https://valyala.medium.com/how-to-optimize-promql-and-metricsql-queries-85a1b75bf986).
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VictoriaMetrics also provides [query tracer](https://docs.victoriametrics.com/#query-tracing)
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to help identify the source of heavy query.
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3. Lack of free memory for processing workload spikes. If VictoriaMetrics components use almost all the available memory
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under the current workload, then it is recommended migrating to a host with bigger amounts of memory.
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This would protect from possible OOM crashes on workload spikes. It is recommended to have at least 50%
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of free memory for graceful handling of possible workload spikes.
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See [capacity planning for single-node VictoriaMetrics](https://docs.victoriametrics.com/#capacity-planning)
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and [capacity planning for cluster version of VictoriaMetrics](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#capacity-planning).
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## Cluster instability
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VictoriaMetrics cluster may become unstable if there is no enough free resources (CPU, RAM, disk IO, network bandwidth)
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for processing the current workload.
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The most common sources of cluster instability are:
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- Workload spikes. For example, if the number of active time series increases by 2x while
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the cluster has no enough free resources for processing the increased workload,
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then it may become unstable.
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VictoriaMetrics provides various configuration settings, which can be used for limiting unexpected workload spikes.
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See [these docs](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#resource-usage-limits) for details.
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- Various maintenance tasks such as rolling upgrades or rolling restarts during configuration changes.
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For example, if a cluster contains `N=3` `vmstorage` nodes and they are restarted one-by-one (aka rolling restart),
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then the cluster will have only `N-1=2` healthy `vmstorage` nodes during the rolling restart.
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This means that the load on healthy `vmstorage` nodes increases by at least `100%/(N-1)=50%`
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comparing to the load before rolling restart. E.g. they need to process 50% more incoming
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data and to return 50% more data during queries. In reality, the load on the remaining `vmstorage`
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nodes increases even more because they need to register new time series, which were re-routed
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from temporarily unavailable `vmstorage` node. If `vmstorage` nodes had less than 50%
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of free resources (CPU, RAM, disk IO) before the rolling restart, then it
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can lead to cluster overload and instability for both data ingestion and querying.
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The workload increase during rolling restart can be reduced by increasing
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the number of `vmstorage` nodes in the cluster. For example, if VictoriaMetrics cluster contains
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`N=11` `vmstorage` nodes, then the workload increase during rolling restart of `vmstorage` nodes
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would be `100%/(N-1)=10%`. It is recommended to have at least 8 `vmstorage` nodes in the cluster.
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The recommended number of `vmstorage` nodes should be multiplied by `-replicationFactor` if replication is enabled -
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see [replication and data safety docs](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#replication-and-data-safety)
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for details.
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The obvious solution against VictoriaMetrics cluster instability is to make sure cluster components
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have enough free resources for graceful processing of the increased workload.
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See [capacity planning docs](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#capacity-planning)
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and [cluster resizing and scalability docs](https://docs.victoriametrics.com/Cluster-VictoriaMetrics.html#cluster-resizing-and-scalability)
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for details.
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## Monitoring
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Having proper [monitoring](https://docs.victoriametrics.com/Single-server-VictoriaMetrics.html#monitoring)
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would help identify and prevent most of the issues listed above.
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[Grafana dasbhoards](https://grafana.com/orgs/victoriametrics/dashboards) contain panels reflecting the
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health state, resource usage and other specific metrics for VictoriaMetrics components.
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Alerting rules for [single-node](https://github.com/VictoriaMetrics/VictoriaMetrics/blob/master/deployment/docker/alerts.yml)
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and [cluster](https://github.com/VictoriaMetrics/VictoriaMetrics/blob/cluster/deployment/docker/alerts.yml) versions
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of VictoriaMetrics will notify about issues with Victoriametrics components and provide recommendations for how to solve them.
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Internally, we heavily rely both on dashboards and alerts, and constantly improve them.
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It is important to stay up to date with such changes.
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