Getting started with snapshot lifecycle management
editGetting started with snapshot lifecycle management
editLet’s get started with snapshot lifecycle management (SLM) by working through a hands-on scenario. The goal of this example is to automatically back up Elasticsearch indices using the snapshots every day at a particular time.
Security and SLM
editBefore starting, it’s important to understand the privileges that are needed
when configuring SLM if you are using the security plugin. There are two
built-in cluster privileges that can be used to assist: manage_slm
and
read_slm
. It’s also good to note that the create_snapshot
permission
allows taking snapshots even for indices the role may not have access to.
An example of configuring an administrator role for SLM follows:
POST /_security/role/slm-admin { "cluster": ["manage_slm", "create_snapshot"], "indices": [ { "names": [".slm-history-*"], "privileges": ["all"] } ] }
Or, for a read-only role that can retrieve policies (but not update, execute, or delete them), as well as only view the history index:
POST /_security/role/slm-read-only { "cluster": ["read_slm"], "indices": [ { "names": [".slm-history-*"], "privileges": ["read"] } ] }
Setting up a repository
editBefore we can set up an SLM policy, we’ll need to set up a snapshot repository where the snapshots will be stored. Repositories can use many different backends, including cloud storage providers. You’ll probably want to use one of these in production, but for this example we’ll use a shared file system repository:
PUT /_snapshot/my_repository { "type": "fs", "settings": { "location": "my_backup_location" } }
Setting up a policy
editNow that we have a repository in place, we can create a policy to automatically take snapshots. Policies are written in JSON and will define when to take snapshots, what the snapshots should be named, and which indices should be included, among other things. We’ll use the Put Policy API to create the policy.
PUT /_slm/policy/nightly-snapshots { "schedule": "0 30 1 * * ?", "name": "<nightly-snap-{now/d}>", "repository": "my_repository", "config": { "indices": ["*"] } }
when the snapshot should be taken, using Cron syntax, in this case at 1:30AM each day |
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whe name each snapshot should be given, using date math to include the current date in the name of the snapshot |
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the repository the snapshot should be stored in |
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the configuration to be used for the snapshot requests (see below) |
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which indices should be included in the snapshot, in this case, every index |
This policy will take a snapshot of every index each day at 1:30AM UTC. Snapshots are incremental, allowing frequent snapshots to be stored efficiently, so don’t be afraid to configure a policy to take frequent snapshots.
In addition to specifying the indices that should be included in the snapshot,
the config
field can be used to customize other aspects of the snapshot. You
can use any option allowed in a regular snapshot
request, so you can specify, for example, whether the snapshot should fail in
special cases, such as if one of the specified indices cannot be found.
Making sure the policy works
editWhile snapshots taken by SLM policies can be viewed through the standard snapshot API, SLM also keeps track of policy successes and failures in ways that are a bit easier to use to make sure the policy is working. Once a policy has executed at least once, when you view the policy using the Get Policy API, some metadata will be returned indicating whether the snapshot was sucessfully initiated or not.
Instead of waiting for our policy to run, let’s tell SLM to take a snapshot as using the configuration from our policy right now instead of waiting for 1:30AM.
PUT /_slm/policy/nightly-snapshots/_execute
This request will kick off a snapshot for our policy right now, regardless of the schedule in the policy. This is useful for taking snapshots before making a configuration change, upgrading, or for our purposes, making sure our policy is going to work successfully. The policy will continue to run on its configured schedule after this execution of the policy.
GET /_slm/policy/nightly-snapshots?human
This request will return a response that includes the policy, as well as information about the last time the policy succeeded and failed, as well as the next time the policy will be executed.
{ "nightly-snapshots" : { "version": 1, "modified_date": "2019-04-23T01:30:00.000Z", "modified_date_millis": 1556048137314, "policy" : { "schedule": "0 30 1 * * ?", "name": "<nightly-snap-{now/d}>", "repository": "my_repository", "config": { "indices": ["*"], } }, "last_success": { "snapshot_name": "nightly-snap-2019.04.24-tmtnyjtrsxkhbrrdcgg18a", "time_string": "2019-04-24T16:43:49.316Z", "time": 1556124229316 } , "last_failure": { "snapshot_name": "nightly-snap-2019.04.02-lohisb5ith2n8hxacaq3mw", "time_string": "2019-04-02T01:30:00.000Z", "time": 1556042030000, "details": "{\"type\":\"index_not_found_exception\",\"reason\":\"no such index [important]\",\"resource.type\":\"index_or_alias\",\"resource.id\":\"important\",\"index_uuid\":\"_na_\",\"index\":\"important\",\"stack_trace\":\"[important] IndexNotFoundException[no such index [important]]\\n\\tat org.elasticsearch.cluster.metadata.IndexNameExpressionResolver$WildcardExpressionResolver.indexNotFoundException(IndexNameExpressionResolver.java:762)\\n\\tat org.elasticsearch.cluster.metadata.IndexNameExpressionResolver$WildcardExpressionResolver.innerResolve(IndexNameExpressionResolver.java:714)\\n\\tat org.elasticsearch.cluster.metadata.IndexNameExpressionResolver$WildcardExpressionResolver.resolve(IndexNameExpressionResolver.java:670)\\n\\tat org.elasticsearch.cluster.metadata.IndexNameExpressionResolver.concreteIndices(IndexNameExpressionResolver.java:163)\\n\\tat org.elasticsearch.cluster.metadata.IndexNameExpressionResolver.concreteIndexNames(IndexNameExpressionResolver.java:142)\\n\\tat org.elasticsearch.cluster.metadata.IndexNameExpressionResolver.concreteIndexNames(IndexNameExpressionResolver.java:102)\\n\\tat org.elasticsearch.snapshots.SnapshotsService$1.execute(SnapshotsService.java:280)\\n\\tat org.elasticsearch.cluster.ClusterStateUpdateTask.execute(ClusterStateUpdateTask.java:47)\\n\\tat org.elasticsearch.cluster.service.MasterService.executeTasks(MasterService.java:687)\\n\\tat org.elasticsearch.cluster.service.MasterService.calculateTaskOutputs(MasterService.java:310)\\n\\tat org.elasticsearch.cluster.service.MasterService.runTasks(MasterService.java:210)\\n\\tat org.elasticsearch.cluster.service.MasterService$Batcher.run(MasterService.java:142)\\n\\tat org.elasticsearch.cluster.service.TaskBatcher.runIfNotProcessed(TaskBatcher.java:150)\\n\\tat org.elasticsearch.cluster.service.TaskBatcher$BatchedTask.run(TaskBatcher.java:188)\\n\\tat org.elasticsearch.common.util.concurrent.ThreadContext$ContextPreservingRunnable.run(ThreadContext.java:688)\\n\\tat org.elasticsearch.common.util.concurrent.PrioritizedEsThreadPoolExecutor$TieBreakingPrioritizedRunnable.runAndClean(PrioritizedEsThreadPoolExecutor.java:252)\\n\\tat org.elasticsearch.common.util.concurrent.PrioritizedEsThreadPoolExecutor$TieBreakingPrioritizedRunnable.run(PrioritizedEsThreadPoolExecutor.java:215)\\n\\tat java.base/java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1128)\\n\\tat java.base/java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:628)\\n\\tat java.base/java.lang.Thread.run(Thread.java:834)\\n\"}" } , "next_execution": "2019-04-24T01:30:00.000Z", "next_execution_millis": 1556048160000 } }
information about the last time the policy successfully initated a snapshot |
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the name of the snapshot that was successfully initiated |
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information about the last time the policy failed to initiate a snapshot |
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the is the next time the policy will execute |
This metadata only indicates whether the request to initiate the snapshot was made successfully or not - after the snapshot has been successfully started, it is possible for the snapshot to fail if, for example, the connection to a remote repository is lost while copying files.
If you’re following along, the returned SLM policy shouldn’t have a last_failure
field - it’s included above only as an example. You should, however, see a
last_success
field and a snapshot name. If you do, you’ve successfully taken
your first snapshot using SLM!
While only the most recent sucess and failure are available through the Get Policy
API, all policy executions are recorded to a history index, which may be queried
by searching the index pattern .slm-history*
.
That’s it! We have our first SLM policy set up to periodically take snapshots so that our backups are always up to date. You can read more details in the SLM API documentation and the general snapshot documentation.