2017-11-07 21:00:38 +00:00
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---
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title: Storage
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sort_rank: 5
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---
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# Storage
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Prometheus includes a local on-disk time series database, but also optionally integrates with remote storage systems.
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## Local storage
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2020-10-27 09:50:37 +00:00
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Prometheus's local time series database stores data in a custom, highly efficient format on local storage.
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2017-11-07 21:00:38 +00:00
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### On-disk layout
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2021-04-15 08:55:01 +00:00
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Ingested samples are grouped into blocks of two hours. Each two-hour block consists
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of a directory containing a chunks subdirectory containing all the time series samples
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for that window of time, a metadata file, and an index file (which indexes metric names
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and labels to time series in the chunks directory). The samples in the chunks directory
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are grouped together into one or more segment files of up to 512MB each by default. When
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series are deleted via the API, deletion records are stored in separate tombstone files
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(instead of deleting the data immediately from the chunk segments).
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2019-01-15 10:32:29 +00:00
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2020-10-27 09:50:37 +00:00
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The current block for incoming samples is kept in memory and is not fully
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persisted. It is secured against crashes by a write-ahead log (WAL) that can be
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replayed when the Prometheus server restarts. Write-ahead log files are stored
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in the `wal` directory in 128MB segments. These files contain raw data that
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has not yet been compacted; thus they are significantly larger than regular block
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files. Prometheus will retain a minimum of three write-ahead log files.
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High-traffic servers may retain more than three WAL files in order to keep at
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least two hours of raw data.
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2017-11-07 21:00:38 +00:00
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2020-10-27 09:50:37 +00:00
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A Prometheus server's data directory looks something like this:
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2017-11-07 21:00:38 +00:00
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```
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./data
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├── 01BKGV7JBM69T2G1BGBGM6KB12
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│ └── meta.json
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├── 01BKGTZQ1SYQJTR4PB43C8PD98
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│ ├── chunks
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│ │ └── 000001
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│ ├── tombstones
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│ ├── index
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│ └── meta.json
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├── 01BKGTZQ1HHWHV8FBJXW1Y3W0K
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│ └── meta.json
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├── 01BKGV7JC0RY8A6MACW02A2PJD
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│ ├── chunks
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│ │ └── 000001
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│ ├── tombstones
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│ ├── index
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│ └── meta.json
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├── chunks_head
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│ └── 000001
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└── wal
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├── 000000002
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└── checkpoint.00000001
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└── 00000000
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2017-11-07 21:00:38 +00:00
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```
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2020-10-27 09:50:37 +00:00
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Note that a limitation of local storage is that it is not clustered or
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replicated. Thus, it is not arbitrarily scalable or durable in the face of
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drive or node outages and should be managed like any other single node
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database. The use of RAID is suggested for storage availability, and
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[snapshots](querying/api.md#snapshot) are recommended for backups. With proper
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architecture, it is possible to retain years of data in local storage.
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2019-10-16 19:45:01 +00:00
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Alternatively, external storage may be used via the
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[remote read/write APIs](https://prometheus.io/docs/operating/integrations/#remote-endpoints-and-storage).
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Careful evaluation is required for these systems as they vary greatly in durability,
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performance, and efficiency.
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2017-11-07 21:00:38 +00:00
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2020-07-31 17:17:16 +00:00
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For further details on file format, see [TSDB format](/tsdb/docs/format/README.md).
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2018-07-28 07:02:03 +00:00
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2019-08-07 16:04:48 +00:00
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## Compaction
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The initial two-hour blocks are eventually compacted into longer blocks in the background.
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Compaction will create larger blocks containing data spanning up to 10% of the retention time,
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or 31 days, whichever is smaller.
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2019-08-07 16:04:48 +00:00
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2017-11-07 21:00:38 +00:00
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## Operational aspects
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2020-10-27 09:50:37 +00:00
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Prometheus has several flags that configure local storage. The most important are:
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- `--storage.tsdb.path`: Where Prometheus writes its database. Defaults to `data/`.
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- `--storage.tsdb.retention.time`: How long to retain samples in storage. When this flag is
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set, it overrides `storage.tsdb.retention`. If neither this flag nor `storage.tsdb.retention`
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nor `storage.tsdb.retention.size` is set, the retention time defaults to `15d`.
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Supported units: y, w, d, h, m, s, ms.
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- `--storage.tsdb.retention.size`: The maximum number of bytes of storage blocks to retain.
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The oldest data will be removed first. Defaults to `0` or disabled. Units supported:
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B, KB, MB, GB, TB, PB, EB. Ex: "512MB". Based on powers-of-2, so 1KB is 1024B. Only
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the persistent blocks are deleted to honor this retention although WAL and m-mapped
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chunks are counted in the total size. So the minimum requirement for the disk is the
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peak space taken by the `wal` (the WAL and Checkpoint) and `chunks_head`
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(m-mapped Head chunks) directory combined (peaks every 2 hours).
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- `--storage.tsdb.retention`: Deprecated in favor of `storage.tsdb.retention.time`.
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- `--storage.tsdb.wal-compression`: Enables compression of the write-ahead log (WAL).
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Depending on your data, you can expect the WAL size to be halved with little extra
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cpu load. This flag was introduced in 2.11.0 and enabled by default in 2.20.0.
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Note that once enabled, downgrading Prometheus to a version below 2.11.0 will
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require deleting the WAL.
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Prometheus stores an average of only 1-2 bytes per sample. Thus, to plan the
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capacity of a Prometheus server, you can use the rough formula:
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2017-11-07 21:00:38 +00:00
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```
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needed_disk_space = retention_time_seconds * ingested_samples_per_second * bytes_per_sample
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```
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2022-11-15 13:00:15 +00:00
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To lower the rate of ingested samples, you can either reduce the number of
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time series you scrape (fewer targets or fewer series per target), or you
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can increase the scrape interval. However, reducing the number of series is
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likely more effective, due to compression of samples within a series.
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2017-11-07 21:00:38 +00:00
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2021-01-30 11:04:48 +00:00
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If your local storage becomes corrupted for whatever reason, the best
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2020-11-29 01:23:10 +00:00
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strategy to address the problem is to shut down Prometheus then remove the
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entire storage directory. You can also try removing individual block directories,
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or the WAL directory to resolve the problem. Note that this means losing
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approximately two hours data per block directory. Again, Prometheus's local
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storage is not intended to be durable long-term storage; external solutions
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2020-11-29 01:23:10 +00:00
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offer extended retention and data durability.
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2020-07-30 09:22:44 +00:00
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2022-11-15 13:00:15 +00:00
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CAUTION: Non-POSIX compliant filesystems are not supported for Prometheus'
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local storage as unrecoverable corruptions may happen. NFS filesystems
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(including AWS's EFS) are not supported. NFS could be POSIX-compliant,
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but most implementations are not. It is strongly recommended to use a
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local filesystem for reliability.
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2017-11-07 21:00:38 +00:00
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If both time and size retention policies are specified, whichever triggers first
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will be used.
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2019-01-18 13:48:36 +00:00
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2022-11-15 13:00:15 +00:00
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Expired block cleanup happens in the background. It may take up to two hours
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to remove expired blocks. Blocks must be fully expired before they are removed.
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2017-11-07 21:00:38 +00:00
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## Remote storage integrations
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2020-10-27 09:50:37 +00:00
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Prometheus's local storage is limited to a single node's scalability and durability.
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Instead of trying to solve clustered storage in Prometheus itself, Prometheus offers
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a set of interfaces that allow integrating with remote storage systems.
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### Overview
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2021-01-30 11:04:48 +00:00
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Prometheus integrates with remote storage systems in three ways:
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- Prometheus can write samples that it ingests to a remote URL in a standardized format.
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- Prometheus can receive samples from other Prometheus servers in a standardized format.
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- Prometheus can read (back) sample data from a remote URL in a standardized format.
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![Remote read and write architecture](images/remote_integrations.png)
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The read and write protocols both use a snappy-compressed protocol buffer encoding over
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HTTP. The protocols are not considered as stable APIs yet and may change to use gRPC
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over HTTP/2 in the future, when all hops between Prometheus and the remote storage can
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safely be assumed to support HTTP/2.
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For details on configuring remote storage integrations in Prometheus, see the
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[remote write](configuration/configuration.md#remote_write) and
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[remote read](configuration/configuration.md#remote_read) sections of the Prometheus
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configuration documentation.
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The built-in remote write receiver can be enabled by setting the
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`--web.enable-remote-write-receiver` command line flag. When enabled,
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the remote write receiver endpoint is `/api/v1/write`.
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For details on the request and response messages, see the
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[remote storage protocol buffer definitions](https://github.com/prometheus/prometheus/blob/main/prompb/remote.proto).
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Note that on the read path, Prometheus only fetches raw series data for a set of
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label selectors and time ranges from the remote end. All PromQL evaluation on the
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raw data still happens in Prometheus itself. This means that remote read queries
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have some scalability limit, since all necessary data needs to be loaded into the
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querying Prometheus server first and then processed there. However, supporting
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fully distributed evaluation of PromQL was deemed infeasible for the time being.
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2017-11-07 21:00:38 +00:00
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### Existing integrations
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To learn more about existing integrations with remote storage systems, see the
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[Integrations documentation](https://prometheus.io/docs/operating/integrations/#remote-endpoints-and-storage).
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2020-12-10 15:29:44 +00:00
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## Backfilling from OpenMetrics format
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### Overview
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2022-11-15 13:00:15 +00:00
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If a user wants to create blocks into the TSDB from data that is in
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[OpenMetrics](https://openmetrics.io/) format, they can do so using backfilling.
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However, they should be careful and note that it is not safe to backfill data
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from the last 3 hours (the current head block) as this time range may overlap
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with the current head block Prometheus is still mutating. Backfilling will
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create new TSDB blocks, each containing two hours of metrics data. This limits
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the memory requirements of block creation. Compacting the two hour blocks into
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larger blocks is later done by the Prometheus server itself.
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2022-11-15 13:00:15 +00:00
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A typical use case is to migrate metrics data from a different monitoring system
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or time-series database to Prometheus. To do so, the user must first convert the
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source data into [OpenMetrics](https://openmetrics.io/) format, which is the
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input format for the backfilling as described below.
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### Usage
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Backfilling can be used via the Promtool command line. Promtool will write the blocks
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to a directory. By default this output directory is ./data/, you can change it by
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using the name of the desired output directory as an optional argument in the sub-command.
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2020-12-10 15:29:44 +00:00
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```
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promtool tsdb create-blocks-from openmetrics <input file> [<output directory>]
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```
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After the creation of the blocks, move it to the data directory of Prometheus.
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If there is an overlap with the existing blocks in Prometheus, the flag
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`--storage.tsdb.allow-overlapping-blocks` needs to be set for Prometheus versions
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v2.38 and below. Note that any backfilled data is subject to the retention
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configured for your Prometheus server (by time or size).
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2021-06-29 09:23:38 +00:00
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#### Longer Block Durations
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By default, the promtool will use the default block duration (2h) for the blocks;
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this behavior is the most generally applicable and correct. However, when backfilling
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data over a long range of times, it may be advantageous to use a larger value for
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the block duration to backfill faster and prevent additional compactions by TSDB later.
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The `--max-block-duration` flag allows the user to configure a maximum duration of blocks.
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The backfilling tool will pick a suitable block duration no larger than this.
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2022-11-15 13:00:15 +00:00
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While larger blocks may improve the performance of backfilling large datasets,
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drawbacks exist as well. Time-based retention policies must keep the entire block
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around if even one sample of the (potentially large) block is still within the
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retention policy. Conversely, size-based retention policies will remove the entire
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block even if the TSDB only goes over the size limit in a minor way.
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Therefore, backfilling with few blocks, thereby choosing a larger block duration,
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must be done with care and is not recommended for any production instances.
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2021-04-01 20:38:00 +00:00
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## Backfilling for Recording Rules
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### Overview
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2022-11-15 13:00:15 +00:00
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When a new recording rule is created, there is no historical data for it.
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Recording rule data only exists from the creation time on.
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`promtool` makes it possible to create historical recording rule data.
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### Usage
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To see all options, use: `$ promtool tsdb create-blocks-from rules --help`.
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Example usage:
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2021-06-17 10:20:53 +00:00
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2021-04-01 20:38:00 +00:00
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```
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$ promtool tsdb create-blocks-from rules \
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--start 1617079873 \
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--end 1617097873 \
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--url http://mypromserver.com:9090 \
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rules.yaml rules2.yaml
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```
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2022-11-15 13:00:15 +00:00
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The recording rule files provided should be a normal
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[Prometheus rules file](https://prometheus.io/docs/prometheus/latest/configuration/recording_rules/).
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2021-04-01 20:38:00 +00:00
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2022-11-15 13:00:15 +00:00
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The output of `promtool tsdb create-blocks-from rules` command is a directory that
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contains blocks with the historical rule data for all rules in the recording rule
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files. By default, the output directory is `data/`. In order to make use of this
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new block data, the blocks must be moved to a running Prometheus instance data dir
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`storage.tsdb.path` (for Prometheus versions v2.38 and below, the flag
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`--storage.tsdb.allow-overlapping-blocks` must be enabled). Once moved, the new
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blocks will merge with existing blocks when the next compaction runs.
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2021-04-01 20:38:00 +00:00
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### Limitations
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2022-11-15 13:00:15 +00:00
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- If you run the rule backfiller multiple times with the overlapping start/end times,
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blocks containing the same data will be created each time the rule backfiller is run.
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2021-04-01 20:38:00 +00:00
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- All rules in the recording rule files will be evaluated.
|
2022-11-15 13:00:15 +00:00
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- If the `interval` is set in the recording rule file that will take priority over
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the `eval-interval` flag in the rule backfill command.
|
2021-04-01 20:38:00 +00:00
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- Alerts are currently ignored if they are in the recording rule file.
|
2022-11-15 13:00:15 +00:00
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- Rules in the same group cannot see the results of previous rules. Meaning that rules
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that refer to other rules being backfilled is not supported. A workaround is to
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backfill multiple times and create the dependent data first (and move dependent
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data to the Prometheus server data dir so that it is accessible from the Prometheus API).
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