March 16, 2018
Nowadays your precious data can be stored everywhere, not just on several servers with different SQL versions, your data probably is wide spread in the cloud. It’s also a good idea to store data in the cloud with stretch database to release your local discs from excessive data and still be able to query it, but also use it in your SSIS and BI environment and keep an acceptable ETL. With Microsoft’s polybase you can access, import and export any data structured, semi, or non structured on the Hadoop platform and azure blob storage using T- SQL language.
The best business knowledge comes from the data you collect. So it might be a good idea to put the data you collect into some good use. Businesses collect lot’s of data, but in most cases this is also where it ends. Those who read my posts before, know I am all about combining various sources with linked servers, since SQL 2014 lot’s of new features are available for using all your data on business intelligence platforms.
In my last post, we had a first look and troubleshoot of a polybase installation. This time we are going to configure and use the polybase in SQL server 2017. I’m going to use the Blob storage on Azure to demonstrate how you can implement this solution in your (local) SQL database.
First things first, now you’ve got your polybase installation ready, check if the services for polybase exist and are running.
Services: ‘SQL Server PolyBase Data Movement’ and ‘SQL Server PolyBase Engine’
You need to configure Polybase in order to start using it. Fire up SSMS and open a new query window. Type
sp_configure ' hadoop connectivity', 4; reconfigure
Option 4 is Azure blob storage (WASB[S]). For more info on availability of the Polybase connectivity configuration, take a look here. Run the query and make sure you restart both Polybase services on the machine to finish the configuration.
In order to start using the blob storage make sure you have an Azure storage account if you don’t have an Azure account yet, create one here.
Login to Azure and on the left side select and create a new storage account
Give it some time, once the storage is created, you also need to create a container on the Azure storage.
To connect your local db to azure storage, you need to get the azure storage key from your Azure storage account you just created and put it in the configuration file of your SQL installation.
Look for the core-site.xml file in the installation path of SQL Server.
The path looks simular to this: “C:\Program Files\Microsoft SQL Server\MSSQL14.MSSQLSERVER\MSSQL\Binn\Polybase\Hadoop\conf”
This will open the config directory with the core-site.xml file.
Open the file in notepad and add code before the block of code mentioning Kerebos.
Fill in the storage name, in my case polybasedemo and the storagekey and save the file.
Now we have to create an external data source in SSMS. Replace containername@storagename with the names you created on Azure.
CREATE EXTERNAL DATA SOURCE PolyBaseDemo WITH ( TYPE = HADOOP, -- wasbs:// email@example.com/ LOCATION = 'wasbs://firstname.lastname@example.org/' );
Next up, we create the external file format to define external data on Azure blob storage, this needs to be done in order to create the external table
CREATE EXTERNAL FILE FORMAT PolybaseFormat WITH ( FORMAT_TYPE = DELIMITEDTEXT , FORMAT_OPTIONS ( FIELD_TERMINATOR = ',' ) );
This creates 2 new server objects in SSMS and now all is left to create the external table itself. In this demo I use an excel sheet with some irrelevant data to have some test data available.
USE [DemoPolybase] CREATE EXTERNAL TABLE [dbo].[Customers] ( [Name] VARCHAR(255) NULL, [adres] VARCHAR(255) NULL, [postalcode] VARCHAR(6) NULL ) WITH (LOCATION = N’/Customer_Export.csv’, DATA_SOURCE = PolyBaseDemo, FILE_FORMAT = PolybaseFormat, REJECT_TYPE = Value, REJECT_VALUE = 10) GO
And to see if this worked, just query the data 🙂
SELECT * FROM [Customers]
Now put this knowledge into action yourself with some real data!