Hive connector with Azure Storage#

The Hive connector can be configured to query Azure Standard Blob Storage and Azure Data Lake Storage Gen2 (ABFS). Azure Blobs are accessed via the Windows Azure Storage Blob (WASB). This layer is built on top of the HDFS APIs and is what allows for the separation of storage from the cluster.

Trino supports both ADLS Gen1 and Gen2. With ADLS Gen2 now generally available, we recommend using ADLS Gen2. Learn more from the official documentation.

Hive connector configuration#

All configuration for the Azure storage driver is stored in the Hadoop core-site.xml configuration file. The path to the file needs to be configured in the catalog properties file:


Configuration for Azure Storage credentials#

If you do not want to rely on Hadoop’s core-site.xml and want to have Trino configured independently with the storage credentials, you can use the following properties in the catalog configuration.

We suggest to use this kind of configuration when you only have the Primary Storage account linked to the cluster. When there are secondary storage accounts involved, we recommend configuring Trino using a core-site.xml containing the appropriate credentials for each account, as described in the preceding section.

WASB storage#

WASB properties#

Property name


Storage account name of Azure Blob Storage

The decrypted access key for the Azure Blob Storage

ADLS Gen2 / ABFS storage#

To connect to ABFS storage, you may either use the storage account’s access key, or a service principal. Do not use both sets of properties at the same time.

ABFS Access Key#

Property name


The name of the ADLS Gen2 storage account

The decrypted access key for the ADLS Gen2 storage account

ABFS Service Principal OAuth#

Property name


The service principal / application’s OAuth 2.0 token endpoint (v1).

The service principal’s client/application ID.

A client secret for the service principal.

When using a service principal, it must have the Storage Blob Data Owner, Contributor, or Reader role on the storage account you are using, depending on which operations you would like to use.

ADLS Gen1#

While it is advised to migrate to ADLS Gen2 whenever possible, if you still choose to use ADLS Gen1 you need to include the following properties in your catalog configuration.


Credentials for the filesystem can be configured using ClientCredential type. To authenticate with ADLS Gen1 you must create a new application secret for your ADLS Gen1 account’s App Registration, and save this value because you won’t able to retrieve the key later. Refer to the Azure documentation for details.

ADLS properties#

Property name


Client (Application) ID from the App Registrations for your storage account

Value of the new client (application) secret created

OAuth 2.0 token endpoint url

Proxy host and port in host:port format. Use this property to connect to an ADLS endpoint via a SOCKS proxy.

Accessing Azure Storage data#

URI scheme to reference data#

Consistent with other FileSystem implementations within Hadoop, the Azure Standard Blob and Azure Data Lake Storage Gen2 (ABFS) drivers define their own URI scheme so that resources (directories and files) may be distinctly addressed. You can access both primary and secondary storage accounts linked to the cluster with the same URI scheme. Following are example URIs for the different systems.





Azure Standard Blob URI:


Querying Azure Storage#

You can query tables already configured in your Hive metastore used in your Hive catalog. To access Azure Storage data that is not yet mapped in the Hive metastore, you need to provide the schema of the data, the file format, and the data location.

For example, if you have ORC or Parquet files in an ABFS file_system, you need to execute a query:

-- select schema in which the table is to be defined, must already exist
USE hive.default;

-- create table
     orderkey bigint,
     custkey bigint,
     orderstatus varchar(1),
     totalprice double,
     orderdate date,
     orderpriority varchar(15),
     clerk varchar(15),
     shippriority integer,
     comment varchar(79)
) WITH (
     external_location = 'abfs[s]://<path>/<path>/<file_name>`',
     format = 'ORC' -- or 'PARQUET'

Now you can query the newly mapped table:

SELECT * FROM orders;

Writing data#


Before you attempt to write data to Azure Storage, make sure you have configured everything necessary to read data from the storage.

Create a write schema#

If the Hive metastore contains schema(s) mapped to Azure storage filesystems, you can use them to write data to Azure storage.

If you don’t want to use existing schemas, or there are no appropriate schemas in the Hive metastore, you need to create a new one:

CREATE SCHEMA hive.abfs_export
WITH (location = 'abfs[s]://<path>');

Write data to Azure Storage#

Once you have a schema pointing to a location where you want to write the data, you can issue a CREATE TABLE AS statement and select your desired file format. The data will be written to one or more files within the abfs[s]://<path>/my_table namespace. Example:

CREATE TABLE hive.abfs_export.orders_abfs
WITH (format = 'ORC')
AS SELECT * FROM tpch.sf1.orders;