Register a snapshot repositoryedit

You must register a snapshot repository before you can perform snapshot and restore operations. Use the create or update snapshot repository API to register or update a snapshot repository. We recommend creating a new snapshot repository for each major version. The valid repository settings depend on the repository type.

If you register the same snapshot repository with multiple clusters, only one cluster should have write access to the repository. All other clusters connected to that repository should set the repository to readonly mode.

The snapshot format can change across major versions, so if you have clusters on different versions trying to write to the same repository, snapshots written by one version may not be visible to the other and the repository could be corrupted. While setting the repository to readonly on all but one of the clusters should work with multiple clusters differing by one major version, it is not a supported configuration.

PUT /_snapshot/my_backup
{
  "type": "fs",
  "settings": {
    "location": "my_backup_location"
  }
}

Use the get snapshot API to retrieve information about a registered repository:

GET /_snapshot/my_backup

This request returns the following response:

{
  "my_backup": {
    "type": "fs",
    "uuid": "0JLknrXbSUiVPuLakHjBrQ",
    "settings": {
      "location": "my_backup_location"
    }
  }
}

To retrieve information about multiple repositories, specify a comma-delimited list of repositories. You can also use a wildcard (*) when specifying repository names. For example, the following request retrieves information about all of the snapshot repositories that start with repo or contain backup:

GET /_snapshot/repo*,*backup*

To retrieve information about all registered snapshot repositories, omit the repository name:

GET /_snapshot

Alternatively, you can specify _all:

GET /_snapshot/_all

You can unregister a repository using the delete snapshot repository API:

DELETE /_snapshot/my_backup

When a repository is unregistered, Elasticsearch only removes the reference to the location where the repository is storing the snapshots. The snapshots themselves are left untouched and in place.

Shared file system repositoryedit

Use a shared file system repository ("type": "fs") to store snapshots on a shared file system.

To register a shared file system repository, first mount the file system to the same location on all master and data nodes. Then add the file system’s path or parent directory to the path.repo setting in elasticsearch.yml for each master and data node. For running clusters, this requires a rolling restart of each node.

By default, a network file system (NFS) uses user IDs (UIDs) and group IDs (GIDs) to match accounts across nodes. If your shared file system is an NFS and your nodes don’t use the same UIDs and GIDs, update your NFS configuration to account for this.

Supported path.repo values vary by platform:

Linux and macOS installations support Unix-style paths:

path:
  repo:
    - /mount/backups
    - /mount/long_term_backups

After restarting each node, use the create or update snapshot repository API to register the file system repository. Specify the file system’s path in settings.location:

PUT /_snapshot/my_fs_backup
{
  "type": "fs",
  "settings": {
    "location": "/mount/backups/my_fs_backup_location",
    "compress": true
  }
}

If you specify a relative path in settings.location, Elasticsearch resolves the path using the first value in the path.repo setting.

PUT /_snapshot/my_fs_backup
{
  "type": "fs",
  "settings": {
    "location": "my_fs_backup_location",       
    "compress": true
  }
}

The first value in the path.repo setting is /mount/backups. This relative path, my_fs_backup_location, resolves to /mount/backups/my_fs_backup_location.

Read-only URL repositoryedit

If you register the same snapshot repository with multiple clusters, only one cluster should have write access to the repository. Having multiple clusters write to the repository at the same time risks corrupting the contents of the repository.

To reduce this risk, you can use URL repositories ("type": "url") to give one or more clusters read-only access to a shared file system repository. As URL repositories are always read-only, they are a safer and more convenient alternative to registering a read-only shared filesystem repository.

The URL specified in the url parameter should point to the root of the shared filesystem repository.

PUT /_snapshot/my_read_only_url_repository
{
  "type": "url",
  "settings": {
    "url": "file:/mount/backups/my_fs_backup_location"
  }
}

The url parameter supports the following protocols:

  • file
  • ftp
  • http
  • https
  • jar

URLs using the file protocol must point to the location of a shared filesystem accessible to all master and data nodes in the cluster. This location must be registered in the path.repo setting, similar to a shared file system repository.

URLs using the ftp, http, or https protocols must be explicitly allowed with the repositories.url.allowed_urls setting. This setting supports wildcards (*) in place of a host, path, query, or fragment in the URL. For example:

repositories.url.allowed_urls: ["http://www.example.org/root/*", "https://*.mydomain.com/*?*#*"]

URLs using the ftp, http, https, or jar protocols do not need to be registered in the path.repo setting.

Read-only URL repositories do not support searchable snapshots.

Source only repositoryedit

A source repository enables you to create minimal, source-only snapshots that take up to 50% less space on disk. Source only snapshots contain stored fields and index metadata. They do not include index or doc values structures and are not searchable when restored. After restoring a source-only snapshot, you must reindex the data into a new index.

Source repositories delegate to another snapshot repository for storage.

Source only snapshots are only supported if the _source field is enabled and no source-filtering is applied. When you restore a source only snapshot:

  • The restored index is read-only and can only serve match_all search or scroll requests to enable reindexing.
  • Queries other than match_all and _get requests are not supported.
  • The mapping of the restored index is empty, but the original mapping is available from the types top level meta element.

When you create a source repository, you must specify the type and name of the delegate repository where the snapshots will be stored:

PUT _snapshot/my_src_only_repository
{
  "type": "source",
  "settings": {
    "delegate_type": "fs",
    "location": "my_backup_location"
  }
}

Repository pluginsedit

Other repository backends are available in these official plugins:

Repository verificationedit

When a repository is registered, it’s immediately verified on all master and data nodes to make sure that it is functional on all nodes currently present in the cluster. The verify parameter can be used to explicitly disable the repository verification when registering or updating a repository:

PUT /_snapshot/my_unverified_backup?verify=false
{
  "type": "fs",
  "settings": {
    "location": "my_unverified_backup_location"
  }
}

The verification process can also be executed manually by running the following command:

POST /_snapshot/my_unverified_backup/_verify

It returns a list of nodes where repository was successfully verified or an error message if verification process failed.

If desired, you can also test a repository more thoroughly using the Repository analysis API.

Repository cleanupedit

Repositories can over time accumulate data that is not referenced by any existing snapshot. This is a result of the data safety guarantees the snapshot functionality provides in failure scenarios during snapshot creation and the decentralized nature of the snapshot creation process. This unreferenced data does in no way negatively impact the performance or safety of a snapshot repository but leads to higher than necessary storage use. In order to clean up this unreferenced data, users can call the cleanup endpoint for a repository which will trigger a complete accounting of the repositories contents and subsequent deletion of all unreferenced data that was found.

POST /_snapshot/my_repository/_cleanup

The response to a cleanup request looks as follows:

{
  "results": {
    "deleted_bytes": 20,
    "deleted_blobs": 5
  }
}

Depending on the concrete repository implementation the numbers shown for bytes free as well as the number of blobs removed will either be an approximation or an exact result. Any non-zero value for the number of blobs removed implies that unreferenced blobs were found and subsequently cleaned up.

Please note that most of the cleanup operations executed by this endpoint are automatically executed when deleting any snapshot from a repository. If you regularly delete snapshots, you will in most cases not get any or only minor space savings from using this functionality and should lower your frequency of invoking it accordingly.

Repository backupedit

You may wish to make an independent backup of your repository, for instance so that you have an archive copy of its contents that you can use to recreate the repository in its current state at a later date.

You must ensure that Elasticsearch does not write to the repository while you are taking the backup of its contents. You can do this by unregistering it, or registering it with readonly: true, on all your clusters. If Elasticsearch writes any data to the repository during the backup then the contents of the backup may not be consistent and it may not be possible to recover any data from it in future.

Alternatively, if your repository supports it, you may take an atomic snapshot of the underlying filesystem and then take a backup of this filesystem snapshot. It is very important that the filesystem snapshot is taken atomically.

You cannot use filesystem snapshots of individual nodes as a backup mechanism. You must use the Elasticsearch snapshot and restore feature to copy the cluster contents to a separate repository. Then, if desired, you can take a filesystem snapshot of this repository.