--- id: metadata-storage title: "Metadata storage" --- Apache Druid relies on an external dependency for metadata storage. Druid uses the metadata store to house various metadata about the system, but not to store the actual data. The metadata store retains all metadata essential for a Druid cluster to work. The metadata store includes the following: - Segments records - Rule records - Configuration records - Task-related tables - Audit records Derby is the default metadata store for Druid, however, it is not suitable for production. [MySQL](../development/extensions-core/mysql.md) and [PostgreSQL](../development/extensions-core/postgresql.md) are more production suitable metadata stores. See [Metadata storage configuration](../configuration/index.md#metadata-storage) for the default configuration settings. :::info We also recommend you set up a high availability environment because there is no way to restore lost metadata. ::: ## Available metadata stores Druid supports Derby, MySQL, and PostgreSQL for storing metadata. ### Derby :::info For production clusters, consider using MySQL or PostgreSQL instead of Derby. ::: Configure metadata storage with Derby by setting the following properties in your Druid configuration. ```properties druid.metadata.storage.type=derby druid.metadata.storage.connector.connectURI=jdbc:derby://localhost:1527//opt/var/druid_state/derby;create=true ``` ### MySQL See [mysql-metadata-storage extension documentation](../development/extensions-core/mysql.md). ### PostgreSQL See [postgresql-metadata-storage](../development/extensions-core/postgresql.md). ## Adding custom DBCP properties You can add custom properties to customize the database connection pool (DBCP) for connecting to the metadata store. Define these properties with a `druid.metadata.storage.connector.dbcp.` prefix. For example: ```properties druid.metadata.storage.connector.dbcp.maxConnLifetimeMillis=1200000 druid.metadata.storage.connector.dbcp.defaultQueryTimeout=30000 ``` Certain properties cannot be set through `druid.metadata.storage.connector.dbcp.` and must be set with the prefix `druid.metadata.storage.connector.`: * `username` * `password` * `connectURI` * `validationQuery` * `testOnBorrow` See [BasicDataSource Configuration](https://commons.apache.org/proper/commons-dbcp/configuration) for a full list of configurable properties. ## Metadata storage tables This section describes the various tables in metadata storage. ### Segments table This is dictated by the `druid.metadata.storage.tables.segments` property. This table stores metadata about the segments that should be available in the system. (This set of segments is called "used segments" elsewhere in the documentation and throughout the project.) The table is polled by the [Coordinator](../design/coordinator.md) to determine the set of segments that should be available for querying in the system. The table has two main functional columns, the other columns are for indexing purposes. Value 1 in the `used` column means that the segment should be "used" by the cluster (i.e., it should be loaded and available for requests). Value 0 means that the segment should not be loaded into the cluster. We do this as a means of unloading segments from the cluster without actually removing their metadata (which allows for simpler rolling back if that is ever an issue). The `used` column has a corresponding `used_status_last_updated` column which denotes the time when the `used` status of the segment was last updated. This information can be used by the Coordinator to determine if a segment is a candidate for deletion (if automated segment killing is enabled). The `payload` column stores a JSON blob that has all of the metadata for the segment. Some of the data in the `payload` column intentionally duplicates data from other columns in the segments table. As an example, the `payload` column may take the following form: ```json { "dataSource":"wikipedia", "interval":"2012-05-23T00:00:00.000Z/2012-05-24T00:00:00.000Z", "version":"2012-05-24T00:10:00.046Z", "loadSpec":{ "type":"s3_zip", "bucket":"bucket_for_segment", "key":"path/to/segment/on/s3" }, "dimensions":"comma-delimited-list-of-dimension-names", "metrics":"comma-delimited-list-of-metric-names", "shardSpec":{"type":"none"}, "binaryVersion":9, "size":size_of_segment, "identifier":"wikipedia_2012-05-23T00:00:00.000Z_2012-05-24T00:00:00.000Z_2012-05-23T00:10:00.046Z" } ``` ### Rule table The rule table stores the various rules about where segments should land. These rules are used by the [Coordinator](../design/coordinator.md) when making segment (re-)allocation decisions about the cluster. ### Config table The config table stores runtime configuration objects. We do not have many of these yet and we are not sure if we will keep this mechanism going forward, but it is the beginnings of a method of changing some configuration parameters across the cluster at runtime. ### Task-related tables Task-related tables are created and used by the [Overlord](../design/overlord.md) and [MiddleManager](../design/middlemanager.md) when managing tasks. ### Audit table The audit table stores the audit history for configuration changes such as rule changes done by [Coordinator](../design/coordinator.md) and other config changes. ## Metadata storage access Only the following processes access the metadata storage: 1. Indexing service processes (if any) 2. Realtime processes (if any) 3. Coordinator processes Thus you need to give permissions (e.g., in AWS security groups) for only these machines to access the metadata storage. ## Learn more See the following topics for more information: * [Metadata storage configuration](../configuration/index.md#metadata-storage) * [Automated cleanup for metadata records](../operations/clean-metadata-store.md)