Process & Analyze Amazon S3 Data in Databricks (AWS)



Use CData, AWS, and Databricks to perform data engineering and data science on live Amazon S3 Data.

Databricks is a cloud-based service that provides data processing capabilities through Apache Spark. When paired with the CData JDBC Driver, customers can use Databricks to perform data engineering and data science on live Amazon S3 data. This article walks through hosting the CData JDBC Driver in AWS, as well as connecting to and processing live Amazon S3 data in Databricks.

With built-in optimized data processing, the CData JDBC Driver offers unmatched performance for interacting with live Amazon S3 data. When you issue complex SQL queries to Amazon S3, the driver pushes supported SQL operations, like filters and aggregations, directly to Amazon S3 and utilizes the embedded SQL engine to process unsupported operations client-side (often SQL functions and JOIN operations). Its built-in dynamic metadata querying allows you to work with and analyze Amazon S3 data using native data types.

Install the CData JDBC Driver in Databricks

To work with live Amazon S3 data in Databricks, install the driver on your Databricks cluster.

  1. Navigate to your Databricks administration screen and select the target cluster.
  2. On the Libraries tab, click "Install New."
  3. Select "Upload" as the Library Source and "Jar" as the Library Type.
  4. Upload the JDBC JAR file (cdata.jdbc.amazons3.jar) from the installation location (typically C:\Program Files\CData[product_name]\lib).

Access Amazon S3 Data in your Notebook: Python

With the JAR file installed, we are ready to work with live Amazon S3 data in Databricks. Start by creating a new notebook in your workspace. Name the notebook, select Python as the language (though Scala is available as well), and choose the cluster where you installed the JDBC driver. When the notebook launches, we can configure the connection, query Amazon S3, and create a basic report.

Configure the Connection to Amazon S3

Connect to Amazon S3 by referencing the JDBC Driver class and constructing a connection string to use in the JDBC URL. Additionally, you will need to set the RTK property in the JDBC URL (unless you are using a Beta driver). You can view the licensing file included in the installation for information on how to set this property.

Step 1: Connection Information

driver = "cdata.jdbc.amazons3.AmazonS3Driver"
url = "jdbc:amazons3:RTK=5246...;AccessKey=a123;SecretKey=s123;"

Built-in Connection String Designer

For assistance in constructing the JDBC URL, use the connection string designer built into the Amazon S3 JDBC Driver. Either double-click the JAR file or execute the jar file from the command-line.

java -jar cdata.jdbc.amazons3.jar

Fill in the connection properties and copy the connection string to the clipboard.

To authorize Amazon S3 requests, provide the credentials for an administrator account or for an IAM user with custom permissions. Set AccessKey to the access key Id. Set SecretKey to the secret access key.

Note: You can connect as the AWS account administrator, but it is recommended to use IAM user credentials to access AWS services.

For information on obtaining the credentials and other authentication methods, refer to the Getting Started section of the Help documentation.

Load Amazon S3 Data

Once you configure the connection, you can load Amazon S3 data as a dataframe using the CData JDBC Driver and the connection information.

Step 2: Reading the data

remote_table = spark.read.format ( "jdbc" ) \
	.option ( "driver" , driver) \
	.option ( "url" , url) \
	.option ( "dbtable" , "ObjectsACL") \
	.load ()

Display Amazon S3 Data

Check the loaded Amazon S3 data by calling the display function.

Step 3: Checking the result

display (remote_table.select ("Name"))

Analyze Amazon S3 Data in Databricks

If you want to process data with Databricks SparkSQL, register the loaded data as a Temp View.

Step 4: Create a view or table

remote_table.createOrReplaceTempView ( "SAMPLE_VIEW" )

With the Temp View created, you can use SparkSQL to retrieve the Amazon S3 data for reporting, visualization, and analysis.

% sql

SELECT Name, OwnerId FROM SAMPLE_VIEW ORDER BY OwnerId DESC LIMIT 5

The data from Amazon S3 is only available in the target notebook. If you want to use it with other users, save it as a table.

remote_table.write.format ( "parquet" ) .saveAsTable ( "SAMPLE_TABLE" )

Download a free, 30-day trial of the CData JDBC Driver for Amazon S3 and start working with your live Amazon S3 data in Databricks. Reach out to our Support Team if you have any questions.

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