Splunk® Enterprise

Managing Indexers and Clusters of Indexers

Splunk Enterprise version 9.0 will no longer be supported as of June 14, 2024. See the Splunk Software Support Policy for details. For information about upgrading to a supported version, see How to upgrade Splunk Enterprise.

Configure the SmartStore cache manager

The cache manager maximizes search efficiency through intelligent management of the local cache. It favors retaining in the cache copies of buckets and files that have a high likelihood of participating in future searches. When the cache fills up, the cache manager removes, or "evicts", copies of buckets that are least likely to participate in future searches.

Since the cache manager removes only the cached copies of buckets, the eviction process does not result in loss of data. The manager copies continue to reside in remote storage,

For details on how the cache manager operates, see The SmartStore cache manager.

Cache manager settings reside in the [cachemanager] stanza in server.conf. In the case of an indexer cluster, you configure the cache manager on each peer node.

The cache manager operates at the global level, across all indexes on an indexer. Aside from the recency settings, you cannot configure the cache manager on a per-index basis.

Set the cache eviction policy

The eviction_policy setting in server.conf determines the cache eviction policy.

Eviction policy Description
lru (default) Evict the least recently used bucket.
lruk Evict the least recently used bucket, keeping track of the last K references to popular buckets, where K=3.
clock Evict the bucket with the oldest events first, unless it has been accessed recently.
lrlt Evict the bucket with the oldest events first.
random Randomly evict a bucket.
noevict Don't evict.

If you want to use an eviction_policy other than "lru" or "lruk", consult with Splunk Support first.

Initiate eviction based on occupancy of the cache's disk partition

These settings in server.conf initiate eviction based on occupancy of the cache's disk partition:

  • The max_cache_size setting specifies the maximum occupied space, in megabytes, for the disk partition that contains the cache.
  • The minFreeSpace setting specifies the minimum free space, in megabytes, for a partition.
  • The eviction_padding setting controls the amount of additional space, in megabytes, that the cache manager protects, beyond the minFreeSpace value.

The minFreeSpace setting is not strictly a cache-specific setting, and therefore it does not reside in the [cachemanager] stanza, but it nevertheless helps determine cache size limits.

When the occupied space on the cache's partition exceeds max_cache_size, or the partition's free space falls below (minFreeSpace +eviction_padding), the cache manager begins to evict data.

Set cache retention periods based on data recency

You can protect recently indexed data from eviction. You can use this capability in two ways:

  • On a global level (across all indexes), to favor recently indexed data over recently used data.
  • On a per-index level, to favor data in critical indexes over data in non-critical indexes.

To set cache retention periods based on data recency, use the hotlist_recency_secs and hotlist_bloom_filter_recency_hours settings. These settings serve to override the eviction policy. You can scope these settings globally or on a per-index level.

The hotlist_recency_secs setting

The hotlist_recency_secs setting causes the cache manager to protect buckets that contain recent data over other buckets. The setting determines the cache retention period for warm buckets based on age. When eviction is necessary, the cache manager will not evict buckets until they reach the configured age, unless all other buckets have already been evicted.

The cache manager attempts to defer bucket eviction until all data in the bucket is older than the value of the setting. The setting defaults to 86400 seconds, or 24 hours.

To determine a bucket's age, or "recency", the age of the bucket is calculated by subtracting the time of the bucket's most recent event data from the current time. For example, if the current time (expressed in UTC epoch time) is 1567891234 ( Sep 7 23:20:34 CEST 2019) and the bucket is named db_1567809123_1557891234_10_8A21BEE9-60D4-436B-AA6D-21B68F631A8B (between May 15 05:33:54 CEST 2019 and Sep 7 00:32:03 CEST 2019), thus indicating that the time of the most recent event in the bucket is 1567809123 (Sep 7 00:32:03 CEST 2019), then the bucket's age, in seconds, is 82111 (~23 hours).

Ensure that the cache is of sufficient size to handle the value of this setting. Otherwise, cache eviction cannot function optimally. In other words, do not configure this setting to a size that will cause the cache to retain a quantity of buckets that approach or exceed the size of the cache based on this setting alone. Also, consider the rate of data ingestion and the typical time spans of your searches to determine for how long your recent buckets should remain in cache.

As a best practice, start with a fairly low value for this setting and adjust over time. For example, if the cache size is 100 GB and you typically add 10 GB of new buckets to the indexer in a 24 hour period, configuring this setting to 172800 (48 hours) means that the cache manager will try to keep 20 GB of recent buckets in the cache at all times.

The hotlist_bloom_filter_recency_hours setting

The hotlist_bloom_filter_recency_hours setting protects certain small metadata files, such as the bloomfilter file, from eviction. By inspecting such metadata files, the cache manager can sometimes eliminate the need to fetch larger bucket files, such as the rawdata journal and the tsidx files, from remote storage when handling search requests. See The SmartStore cache manager.

The hotlist_bloom_filter_recency_hours setting affects the cache retention period for small warm bucket files. The cache manager attempts to defer eviction of the non-journal and non-tsidx bucket files, such as the bloomfilter file, until the interval between the bucket's latest time and the current time exceeds this setting. This setting defaults to 360 hours, or 15 days.

The recency of a bloomfilter file is based on its bucket's recency and is calculated in the same manner described for hotlist_recency_secs.

This setting works in concert with hotlist_recency_secs, which is designed to be configured for a shorter age. If hotlist_recency_secs leads to the eviction of a bucket, the bucket's bloomfilter and associated files will continue to remain in the cache until they reach the age configured with hotlist_bloom_filter_recency_hours. Thus, the bucket will remain in cache, but without its journal and tsidx files.

Configure recency globally or for individual indexes

When you configure these settings globally, they override the eviction policy, which, by default, favors buckets that have been recently searched. For example, if hotlist_recency_secs is set globally to 604800 (7 days), the cache manager will attempt to retain buckets with data that is less than seven days old. It will instead evict older buckets, even if those older buckets were searched more recently. The cache manager will only evict buckets containing data less than seven days old if there are no older buckets to evict.

By configuring the recency settings on a per-index level, you can favor data in critical indexes over data in less critical indexes. Since all SmartStore indexes share the cache and otherwise follow the global cache eviction policy, the per-index recency settings provide the only means to retain data from critical indexes for a longer period than data from less critical indexes.

For example, if you have an index with critical data, such as the ES threat_activity index, and another index whose data is less critical, such as the default _internal index, you can set hotlist_recency_secs to 5184000 (60 days) for threat_activity, while keeping the default setting of 86400 (1 day) for _internal. By doing so, you cause the cache manager to favor threat_activity buckets over _internal buckets, thus reducing the likelihood that the cache will need to fetch data from the remote store to handle threat_activity searches.

Configure globally for all indexes

To configure the hotlist_recency_secs and hotlist_bloom_filter_recency_hours settings globally, for all SmartStore indexes, you must set them in the [cachemanager] stanza in server.conf.

You can override the global settings on a per-index basis.

Configure for individual indexes

To configure the hotlist_recency_secs and hotlist_bloom_filter_recency_hours settings on a per-index basis, you must set them in each index's stanza in indexes.conf.

If you do not configure the settings for a particular SmartStore index, that index inherits the global value from server.conf.

Set the maximum download and upload rates

The max_concurrent_downloads setting in server.conf specifies the maximum number of buckets that can be downloaded simultaneously from remote storage. Its default is 8.

The max_concurrent_uploads setting in server.conf specifies the maximum number of buckets that can be uploaded simultaneously to remote storage. Its default is 8.

Last modified on 11 September, 2023
Configure SmartStore   Configure data retention for SmartStore indexes

This documentation applies to the following versions of Splunk® Enterprise: 8.1.0, 8.1.1, 8.1.2, 8.1.3, 8.1.4, 8.1.5, 8.1.6, 8.1.7, 8.1.8, 8.1.9, 8.1.10, 8.1.11, 8.1.12, 8.1.13, 8.1.14, 8.2.0, 8.2.1, 8.2.2, 8.2.3, 8.2.4, 8.2.5, 8.2.6, 8.2.7, 8.2.8, 8.2.9, 8.2.10, 8.2.11, 8.2.12, 9.0.0, 9.0.1, 9.0.2, 9.0.3, 9.0.4, 9.0.5, 9.0.6, 9.0.7, 9.0.8, 9.0.9, 9.0.10, 9.1.0, 9.1.1, 9.1.2, 9.1.3, 9.1.4, 9.1.5, 9.1.6, 9.2.0, 9.2.1, 9.2.2, 9.2.3, 9.3.0, 9.3.1


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