ETL Kintone in Oracle Data Integrator



This article shows how to transfer Kintone data into a data warehouse using Oracle Data Integrator.

Leverage existing skills by using the JDBC standard to read and write to Kintone: Through drop-in integration into ETL tools like Oracle Data Integrator (ODI), the CData JDBC Driver for Kintone connects real-time Kintone data to your data warehouse, business intelligence, and Big Data technologies.

JDBC connectivity enables you to work with Kintone just as you would any other database in ODI. As with an RDBMS, you can use the driver to connect directly to the Kintone APIs in real time instead of working with flat files.

This article walks through a JDBC-based ETL -- Kintone to Oracle. After reverse engineering a data model of Kintone entities, you will create a mapping and select a data loading strategy -- since the driver supports SQL-92, this last step can easily be accomplished by selecting the built-in SQL to SQL Loading Knowledge Module.

Install the Driver

To install the driver, copy the driver JAR (cdata.jdbc.kintone.jar) and .lic file (cdata.jdbc.kintone.lic), located in the installation folder, into the ODI appropriate directory:

  • UNIX/Linux without Agent: ~/.odi/oracledi/userlib
  • UNIX/Linux with Agent: ~/.odi/oracledi/userlib and $ODI_HOME/odi/agent/lib
  • Windows without Agent: %APPDATA%\Roaming\odi\oracledi\userlib
  • Windows with Agent: %APPDATA%\odi\oracledi\userlib and %APPDATA%\odi\agent\lib

Restart ODI to complete the installation.

Reverse Engineer a Model

Reverse engineering the model retrieves metadata about the driver's relational view of Kintone data. After reverse engineering, you can query real-time Kintone data and create mappings based on Kintone tables.

  1. In ODI, connect to your repository and click New -> Model and Topology Objects.
  2. On the Model screen of the resulting dialog, enter the following information:
    • Name: Enter Kintone.
    • Technology: Select Generic SQL (for ODI Version 12.2+, select Microsoft SQL Server).
    • Logical Schema: Enter Kintone.
    • Context: Select Global.
  3. On the Data Server screen of the resulting dialog, enter the following information:
    • Name: Enter Kintone.
    • Driver List: Select Oracle JDBC Driver.
    • Driver: Enter cdata.jdbc.kintone.KintoneDriver
    • URL: Enter the JDBC URL containing the connection string.

      In addition to the authentication values, set the following parameters to connect to and retrieve data from Kintone:

      • Url: The URL of your account.
      • GuestSpaceId: Optional. Set this when using a guest space.

      Authenticating with Kintone

      Kintone supports the following authentication methods.

      Using Password Authentication

      You must set the following to authenticate:

      • User: The username of your account.
      • Password: The password of your account.

      Using Basic Authentication

      If the basic authentication security feature is set on the domain, supply the additional login credentials with BasicAuthUser and BasicAuthPassword. Basic authentication requires these credentials in addition to User and Password.

      Using Client SSL

      Instead of basic authentication, you can specify a client certificate to authenticate. Set SSLClientCert, SSLClientCertType, SSLClientCertSubject, and SSLClientCertPassword. Additionally, set User and Password to your login credentials.

      Built-in Connection String Designer

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

      java -jar cdata.jdbc.kintone.jar

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

      Below is a typical connection string:

      jdbc:kintone:User=myuseraccount;Password=mypassword;Url=http://subdomain.domain.com;GuestSpaceId=myspaceid
  4. On the Physical Schema screen, enter the following information:
    • Name: Select from the Drop Down menu.
    • Database (Catalog): Enter CData.
    • Owner (Schema): If you select a Schema for Kintone, enter the Schema selected, otherwise enter Kintone.
    • Database (Work Catalog): Enter CData.
    • Owner (Work Schema): If you select a Schema for Kintone, enter the Schema selected, otherwise enter Kintone.
  5. In the opened model click Reverse Engineer to retrieve the metadata for Kintone tables.

Edit and Save Kintone Data

After reverse engineering you can now work with Kintone data in ODI. To edit and save Kintone data, expand the Models accordion in the Designer navigator, right-click a table, and click Data. Click Refresh to pick up any changes to the data. Click Save Changes when you are finished making changes.

Create an ETL Project

Follow the steps below to create an ETL from Kintone. You will load Comments entities into the sample data warehouse included in the ODI Getting Started VM.

  1. Open SQL Developer and connect to your Oracle database. Right-click the node for your database in the Connections pane and click new SQL Worksheet.

    Alternatively you can use SQLPlus. From a command prompt enter the following:

    sqlplus / as sysdba
  2. Enter the following query to create a new target table in the sample data warehouse, which is in the ODI_DEMO schema. The following query defines a few columns that match the Comments table in Kintone: CREATE TABLE ODI_DEMO.TRG_COMMENTS (TEXT NUMBER(20,0),CreatorName VARCHAR2(255));
  3. In ODI expand the Models accordion in the Designer navigator and double-click the Sales Administration node in the ODI_DEMO folder. The model is opened in the Model Editor.
  4. Click Reverse Engineer. The TRG_COMMENTS table is added to the model.
  5. Right-click the Mappings node in your project and click New Mapping. Enter a name for the mapping and clear the Create Empty Dataset option. The Mapping Editor is displayed.
  6. Drag the TRG_COMMENTS table from the Sales Administration model onto the mapping.
  7. Drag the Comments table from the Kintone model onto the mapping.
  8. Click the source connector point and drag to the target connector point. The Attribute Matching dialog is displayed. For this example, use the default options. The target expressions are then displayed in the properties for the target columns.
  9. Open the Physical tab of the Mapping Editor and click COMMENTS_AP in TARGET_GROUP.
  10. In the COMMENTS_AP properties, select LKM SQL to SQL (Built-In) on the Loading Knowledge Module tab.

You can then run the mapping to load Kintone data into Oracle.

Ready to get started?

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