MariaDB connector#

The MariaDB connector allows querying and creating tables in an external MariaDB database.

Requirements#

To connect to MariaDB, you need:

  • MariaDB version 10.10 or higher.

  • Network access from the Trino coordinator and workers to MariaDB. Port 3306 is the default port.

Configuration#

To configure the MariaDB connector, create a catalog properties file in etc/catalog named, for example, example.properties, to mount the MariaDB connector as the example catalog. Create the file with the following contents, replacing the connection properties as appropriate for your setup:

connector.name=mariadb
connection-url=jdbc:mariadb://example.net:3306
connection-user=root
connection-password=secret

The connection-user and connection-password are typically required and determine the user credentials for the connection, often a service user. You can use secrets to avoid actual values in the catalog properties files.

Data source authentication#

The connector can provide credentials for the data source connection in multiple ways:

  • inline, in the connector configuration file

  • in a separate properties file

  • in a key store file

  • as extra credentials set when connecting to Trino

You can use secrets to avoid storing sensitive values in the catalog properties files.

The following table describes configuration properties for connection credentials:

Property name

Description

credential-provider.type

Type of the credential provider. Must be one of INLINE, FILE, or KEYSTORE; defaults to INLINE.

connection-user

Connection user name.

connection-password

Connection password.

user-credential-name

Name of the extra credentials property, whose value to use as the user name. See extraCredentials in Parameter reference.

password-credential-name

Name of the extra credentials property, whose value to use as the password.

connection-credential-file

Location of the properties file where credentials are present. It must contain the connection-user and connection-password properties.

keystore-file-path

The location of the Java Keystore file, from which to read credentials.

keystore-type

File format of the keystore file, for example JKS or PEM.

keystore-password

Password for the key store.

keystore-user-credential-name

Name of the key store entity to use as the user name.

keystore-user-credential-password

Password for the user name key store entity.

keystore-password-credential-name

Name of the key store entity to use as the password.

keystore-password-credential-password

Password for the password key store entity.

General configuration properties#

The following table describes general catalog configuration properties for the connector:

Property name

Description

case-insensitive-name-matching

Support case insensitive schema and table names. Defaults to false.

case-insensitive-name-matching.cache-ttl

Duration for which case insensitive schema and table names are cached. Defaults to 1m.

case-insensitive-name-matching.config-file

Path to a name mapping configuration file in JSON format that allows Trino to disambiguate between schemas and tables with similar names in different cases. Defaults to null.

case-insensitive-name-matching.config-file.refresh-period

Frequency with which Trino checks the name matching configuration file for changes. The duration value defaults to 0s (refresh disabled).

metadata.cache-ttl

Duration for which metadata, including table and column statistics, is cached. Defaults to 0s (caching disabled).

metadata.cache-missing

Cache the fact that metadata, including table and column statistics, is not available. Defaults to false.

metadata.schemas.cache-ttl

Duration for which schema metadata is cached. Defaults to the value of metadata.cache-ttl.

metadata.tables.cache-ttl

Duration for which table metadata is cached. Defaults to the value of metadata.cache-ttl.

metadata.statistics.cache-ttl

Duration for which tables statistics are cached. Defaults to the value of metadata.cache-ttl.

metadata.cache-maximum-size

Maximum number of objects stored in the metadata cache. Defaults to 10000.

write.batch-size

Maximum number of statements in a batched execution. Do not change this setting from the default. Non-default values may negatively impact performance. Defaults to 1000.

dynamic-filtering.enabled

Push down dynamic filters into JDBC queries. Defaults to true.

dynamic-filtering.wait-timeout

Maximum duration for which Trino waits for dynamic filters to be collected from the build side of joins before starting a JDBC query. Using a large timeout can potentially result in more detailed dynamic filters. However, it can also increase latency for some queries. Defaults to 20s.

Domain compaction threshold#

Pushing down a large list of predicates to the data source can compromise performance. Trino compacts large predicates into a simpler range predicate by default to ensure a balance between performance and predicate pushdown. If necessary, the threshold for this compaction can be increased to improve performance when the data source is capable of taking advantage of large predicates. Increasing this threshold may improve pushdown of large dynamic filters. The domain-compaction-threshold catalog configuration property or the domain_compaction_threshold catalog session property can be used to adjust the default value of 256 for this threshold.

Case insensitive matching#

When case-insensitive-name-matching is set to true, Trino is able to query non-lowercase schemas and tables by maintaining a mapping of the lowercase name to the actual name in the remote system. However, if two schemas and/or tables have names that differ only in case (such as “customers” and “Customers”) then Trino fails to query them due to ambiguity.

In these cases, use the case-insensitive-name-matching.config-file catalog configuration property to specify a configuration file that maps these remote schemas/tables to their respective Trino schemas/tables:

{
  "schemas": [
    {
      "remoteSchema": "CaseSensitiveName",
      "mapping": "case_insensitive_1"
    },
    {
      "remoteSchema": "cASEsENSITIVEnAME",
      "mapping": "case_insensitive_2"
    }],
  "tables": [
    {
      "remoteSchema": "CaseSensitiveName",
      "remoteTable": "tablex",
      "mapping": "table_1"
    },
    {
      "remoteSchema": "CaseSensitiveName",
      "remoteTable": "TABLEX",
      "mapping": "table_2"
    }]
}

Queries against one of the tables or schemes defined in the mapping attributes are run against the corresponding remote entity. For example, a query against tables in the case_insensitive_1 schema is forwarded to the CaseSensitiveName schema and a query against case_insensitive_2 is forwarded to the cASEsENSITIVEnAME schema.

At the table mapping level, a query on case_insensitive_1.table_1 as configured above is forwarded to CaseSensitiveName.tablex, and a query on case_insensitive_1.table_2 is forwarded to CaseSensitiveName.TABLEX.

By default, when a change is made to the mapping configuration file, Trino must be restarted to load the changes. Optionally, you can set the case-insensitive-name-mapping.refresh-period to have Trino refresh the properties without requiring a restart:

case-insensitive-name-mapping.refresh-period=30s

Non-transactional INSERT#

The connector supports adding rows using INSERT statements. By default, data insertion is performed by writing data to a temporary table. You can skip this step to improve performance and write directly to the target table. Set the insert.non-transactional-insert.enabled catalog property or the corresponding non_transactional_insert catalog session property to true.

Note that with this property enabled, data can be corrupted in rare cases where exceptions occur during the insert operation. With transactions disabled, no rollback can be performed.

Fault-tolerant execution support#

The connector supports Fault-tolerant execution of query processing. Read and write operations are both supported with any retry policy.

Querying MariaDB#

The MariaDB connector provides a schema for every MariaDB database. You can see the available MariaDB databases by running SHOW SCHEMAS:

SHOW SCHEMAS FROM example;

If you have a MariaDB database named web, you can view the tables in this database by running SHOW TABLES:

SHOW TABLES FROM example.web;

You can see a list of the columns in the clicks table in the web database using either of the following:

DESCRIBE example.web.clicks;
SHOW COLUMNS FROM example.web.clicks;

Finally, you can access the clicks table in the web database:

SELECT * FROM example.web.clicks;

If you used a different name for your catalog properties file, use that catalog name instead of example in the above examples.

Type mapping#

Because Trino and MariaDB each support types that the other does not, this connector modifies some types when reading or writing data. Data types may not map the same way in both directions between Trino and the data source. Refer to the following sections for type mapping in each direction.

MariaDB type to Trino type mapping#

The connector maps MariaDB types to the corresponding Trino types according to the following table:

MariaDB type to Trino type mapping#

MariaDB type

Trino type

Notes

BOOLEAN

TINYINT

BOOL and BOOLEAN are aliases of TINYINT(1)

TINYINT

TINYINT

TINYINT UNSIGNED

SMALLINT

SMALLINT

SMALLINT

SMALLINT UNSIGNED

INTEGER

INT

INTEGER

INT UNSIGNED

BIGINT

BIGINT

BIGINT

BIGINT UNSIGNED

DECIMAL(20, 0)

FLOAT

REAL

DOUBLE

DOUBLE

DECIMAL(p,s)

DECIMAL(p,s)

CHAR(n)

CHAR(n)

TINYTEXT

VARCHAR(255)

TEXT

VARCHAR(65535)

MEDIUMTEXT

VARCHAR(16777215)

LONGTEXT

VARCHAR

VARCHAR(n)

VARCHAR(n)

TINYBLOB

VARBINARY

BLOB

VARBINARY

MEDIUMBLOB

VARBINARY

LONGBLOB

VARBINARY

VARBINARY(n)

VARBINARY

DATE

DATE

TIME(n)

TIME(n)

TIMESTAMP(n)

TIMESTAMP(n)

MariaDB stores the current timestamp by default. Enable explicit_defaults_for_timestamp to avoid implicit default values and use NULL as the default value.

DATETIME(n)

TIMESTAMP(n)

No other types are supported.

Trino type mapping to MariaDB type mapping#

The connector maps Trino types to the corresponding MariaDB types according to the following table:

Trino type mapping to MariaDB type mapping#

Trino type

MariaDB type

Notes

BOOLEAN

BOOLEAN

TINYINT

TINYINT

SMALLINT

SMALLINT

INTEGER

INT

BIGINT

BIGINT

REAL

FLOAT

DOUBLE

DOUBLE

DECIMAL(p,s)

DECIMAL(p,s)

CHAR(n)

CHAR(n)

VARCHAR(255)

TINYTEXT

Maps on VARCHAR of length 255 or less.

VARCHAR(65535)

TEXT

Maps on VARCHAR of length between 256 and 65535, inclusive.

VARCHAR(16777215)

MEDIUMTEXT

Maps on VARCHAR of length between 65536 and 16777215, inclusive.

VARCHAR

LONGTEXT

VARCHAR of length greater than 16777215 and unbounded VARCHAR map to LONGTEXT.

VARBINARY

MEDIUMBLOB

DATE

DATE

TIME(n)

TIME(n)

TIMESTAMP(n)

TIMESTAMP(n)

MariaDB stores the current timestamp by default. Enable explicit_defaults_for_timestamp   <https://mariadb.com/docs/reference/mdb/system-variables/explicit_defaults_for_timestamp/>_ to avoid implicit default values and use NULL as the default value.

No other types are supported.

Complete list of MariaDB data types.

Type mapping configuration properties#

The following properties can be used to configure how data types from the connected data source are mapped to Trino data types and how the metadata is cached in Trino.

Property name

Description

Default value

unsupported-type-handling

Configure how unsupported column data types are handled:

  • IGNORE, column is not accessible.

  • CONVERT_TO_VARCHAR, column is converted to unbounded VARCHAR.

The respective catalog session property is unsupported_type_handling.

IGNORE

jdbc-types-mapped-to-varchar

Allow forced mapping of comma separated lists of data types to convert to unbounded VARCHAR

SQL support#

The connector provides read access and write access to data and metadata in a MariaDB database. In addition to the globally available and read operation statements, the connector supports the following features:

UPDATE#

Only UPDATE statements with constant assignments and predicates are supported. For example, the following statement is supported because the values assigned are constants:

UPDATE table SET col1 = 1 WHERE col3 = 1

Arithmetic expressions, function calls, and other non-constant UPDATE statements are not supported. For example, the following statement is not supported because arithmetic expressions cannot be used with the SET command:

UPDATE table SET col1 = col2 + 2 WHERE col3 = 1

All column values of a table row cannot be updated simultaneously. For a three column table, the following statement is not supported:

UPDATE table SET col1 = 1, col2 = 2, col3 = 3 WHERE col3 = 1

SQL DELETE#

If a WHERE clause is specified, the DELETE operation only works if the predicate in the clause can be fully pushed down to the data source.

Procedures#

system.flush_metadata_cache()#

Flush JDBC metadata caches. For example, the following system call flushes the metadata caches for all schemas in the example catalog

USE example.example_schema;
CALL system.flush_metadata_cache();

system.execute('query')#

The execute procedure allows you to execute a query in the underlying data source directly. The query must use supported syntax of the connected data source. Use the procedure to access features which are not available in Trino or to execute queries that return no result set and therefore can not be used with the query or raw_query pass-through table function. Typical use cases are statements that create or alter objects, and require native feature such as constraints, default values, automatic identifier creation, or indexes. Queries can also invoke statements that insert, update, or delete data, and do not return any data as a result.

The query text is not parsed by Trino, only passed through, and therefore only subject to any security or access control of the underlying data source.

The following example sets the current database to the example_schema of the example catalog. Then it calls the procedure in that schema to drop the default value from your_column on your_table table using the standard SQL syntax in the parameter value assigned for query:

USE example.example_schema;
CALL system.execute(query => 'ALTER TABLE your_table ALTER COLUMN your_column DROP DEFAULT');

Verify that the specific database supports this syntax, and adapt as necessary based on the documentation for the specific connected database and database version.

Table functions#

The connector provides specific table functions to access MariaDB.

query(varchar) -> table#

The query function allows you to query the underlying database directly. It requires syntax native to MariaDB, because the full query is pushed down and processed in MariaDB. This can be useful for accessing native features which are not available in Trino or for improving query performance in situations where running a query natively may be faster.

The native query passed to the underlying data source is required to return a table as a result set. Only the data source performs validation or security checks for these queries using its own configuration. Trino does not perform these tasks. Only use passthrough queries to read data.

As an example, query the example catalog and select the age of employees by using TIMESTAMPDIFF and CURDATE:

SELECT
  age
FROM
  TABLE(
    example.system.query(
      query => 'SELECT
        TIMESTAMPDIFF(
          YEAR,
          date_of_birth,
          CURDATE()
        ) AS age
      FROM
        tiny.employees'
    )
  );

Note

The query engine does not preserve the order of the results of this function. If the passed query contains an ORDER BY clause, the function result may not be ordered as expected.

Performance#

The connector includes a number of performance improvements, detailed in the following sections.

Table statistics#

The MariaDB connector can use table and column statistics for cost based optimizations to improve query processing performance based on the actual data in the data source.

The statistics are collected by MariaDB and retrieved by the connector.

To collect statistics for a table, execute the following statement in MariaDB.

ANALYZE TABLE table_name;

Refer to MariaDB documentation for additional information.

Pushdown#

The connector supports pushdown for a number of operations:

Aggregate pushdown for the following functions:

Note

The connector performs pushdown where performance may be improved, but in order to preserve correctness an operation may not be pushed down. When pushdown of an operation may result in better performance but risks correctness, the connector prioritizes correctness.

Predicate pushdown support#

The connector does not support pushdown of any predicates on columns with textual types like CHAR or VARCHAR. This ensures correctness of results since the data source may compare strings case-insensitively.

In the following example, the predicate is not pushed down for either query since name is a column of type VARCHAR:

SELECT * FROM nation WHERE name > 'CANADA';
SELECT * FROM nation WHERE name = 'CANADA';