[[disk-allocator]] === Disk-based Shard Allocation Elasticsearch factors in the available disk space on a node before deciding whether to allocate new shards to that node or to actively relocate shards away from that node. Below are the settings that can be configred in the `elasticsearch.yml` config file or updated dynamically on a live cluster with the <> API: `cluster.routing.allocation.disk.threshold_enabled`:: Defaults to `true`. Set to `false` to disable the disk allocation decider. `cluster.routing.allocation.disk.watermark.low`:: Controls the low watermark for disk usage. It defaults to 85%, meaning ES will not allocate new shards to nodes once they have more than 85% disk used. It can also be set to an absolute byte value (like 500mb) to prevent ES from allocating shards if less than the configured amount of space is available. `cluster.routing.allocation.disk.watermark.high`:: Controls the high watermark. It defaults to 90%, meaning ES will attempt to relocate shards to another node if the node disk usage rises above 90%. It can also be set to an absolute byte value (similar to the low watermark) to relocate shards once less than the configured amount of space is available on the node. NOTE: Percentage values refer to used disk space, while byte values refer to free disk space. This can be confusing, since it flips the meaning of high and low. For example, it makes sense to set the low watermark to 10gb and the high watermark to 5gb, but not the other way around. `cluster.info.update.interval`:: How often Elasticsearch should check on disk usage for each node in the cluster. Defaults to `30s`. `cluster.routing.allocation.disk.include_relocations`:: Defaults to +true+, which means that Elasticsearch will take into account shards that are currently being relocated to the target node when computing a node's disk usage. Taking relocating shards' sizes into account may, however, mean that the disk usage for a node is incorrectly estimated on the high side, since the relocation could be 90% complete and a recently retrieved disk usage would include the total size of the relocating shard as well as the space already used by the running relocation. An example of updating the low watermark to no more than 80% of the disk size, a high watermark of at least 50 gigabytes free, and updating the information about the cluster every minute: [source,js] -------------------------------------------------- PUT /_cluster/settings { "transient": { "cluster.routing.allocation.disk.watermark.low": "80%", "cluster.routing.allocation.disk.watermark.high": "50gb", "cluster.info.update.interval": "1m" } } -------------------------------------------------- // AUTOSENSE