Linux DSN Configuration
This section describes how to set up ODBC connectivity and configure DSNs on several Linux distributions: Debian-based systems, like Ubuntu, and Red Hat Linux platforms, like Red Hat Enterprise Linux (RHEL) and Fedora.
Minimum Linux Versions
Here are the minimum supported versions for Red Hat-based and Debian-based systems:
OS | Min. Version |
Ubuntu | 18.04 |
Debian | 10 |
RHEL | 8 |
Fedora | 28 |
SUSE | 15 |
Installing the Driver Dependencies
Run the following commands as root or with sudo to install the necessary dependencies:
- Debian/Ubuntu:
apt-get install libc6 libstdc++6 zlib1g libgcc1
- RHEL/Fedora:
yum install glibc libstdc++ zlib libgcc
Installing the Driver
You can use standard package management systems to install the driver.
On Debian-based systems, like Ubuntu, run the following command with root or sudo:
dpkg -i /path/to/driver/setup/GoogleBigQueryODBCDriverforUnix.deb
On systems that support the RPM package format, run the following command with root or sudo:
rpm -ivh /path/to/driver/GoogleBigQueryODBCDriverforUnix.rpm
Licensing the Driver
Run the following commands to license the driver. To activate a trial, omit the <key> input.
cd /opt/cdata/cdata-odbc-driver-for-googlebigquery/bin/
sudo ./install-license.sh <key>
Connecting through the Driver Manager
The driver manager loads the driver and passes function calls from the application to the driver. You need to register the driver with the driver manager and you define DSNs in the driver manager's configuration files.
The driver installation registers the driver with the unixODBC driver manager and creates a system DSN. The unixODBC driver manager can be used from Python and from many other applications. Your application may embed another driver manager.
Creating the DSN
See Using unixODBC to install unixODBC and configure DSNs. See Using the DataDirect Driver Manager to create a DSN to connect to OBIEE, Informatica, and SAS.
Connecting to Google BigQuery
By default, the CData driver connects to all available projects in your database. To limit the scope of your connection, set combinations of the following properties:- ProjectId: specifies which projects the driver connects to
- BillingProjectId: specifies which projects are billed
- DatasetId: specifies which datasets the driver accesses
Authenticating to Google BigQuery
The driver supports using user accounts, service accounts and GCP instance accounts for authentication.
The following sections discuss the available authentication schemes for Google BigQuery:
- User Accounts (OAuth)
- Service Account (OAuthJWT)
- GCP Instance Account
User Accounts (OAuth)
AuthScheme must be set to OAuth in all user account flows.
Desktop Applications
CData provides an embedded OAuth application that simplifies OAuth desktop Authentication. Alternatively, you can create a custom OAuth application. See Creating a Custom OAuth App for information about creating custom applications and reasons for doing so.
For authentication, the only difference between the two methods is that you must set two additional connection properties when using custom OAuth applications.
After setting the following connection properties, you are ready to connect:
- OAuthClientId: (custom applications only) Set this to the Client Id in your custom OAuth application settings.
- OAuthClientSecret: (custom applications only) Set this to the Client Secret in the custom OAuth application settings.
- Extracts the access token from the callback URL.
- Obtains a new access token when the old one expires.
- Saves OAuth values in OAuthSettingsLocation that persist across connections.
Web Applications
When connecting via a Web application, you need to create and register a custom OAuth application with Google BigQuery. You can then use the driver to acquire and manage the OAuth token values. See Creating a Custom OAuth App for more information about custom applications.Get an OAuth Access Token
Set the following connection properties to obtain the OAuthAccessToken:
- OAuthClientId: Set this to the Client Id in your application settings.
- OAuthClientSecret: Set this to the Client Secret in your application settings.
Then call stored procedures to complete the OAuth exchange:
- Call the GetOAuthAuthorizationURL stored procedure. Set the CallbackURL input to the Callback URL you specified in your application settings. The stored procedure returns the URL to the OAuth endpoint.
- Navigate to the URL that the stored procedure returned in Step 1. Log in to the custom OAuth application and authorize the web application. Once authenticated, the browser redirects you to the callback URL.
- Call the GetOAuthAccessToken stored procedure. Set AuthMode to WEB and the Verifier input to the "code" parameter in the query string of the callback URL.
Once you have obtained the access and refresh tokens, you can connect to data and refresh the OAuth access token either automatically or manually.
Automatic Refresh of the OAuth Access Token
To have the driver automatically refresh the OAuth access token, set the following on the first data connection:
- InitiateOAuth: Set this to REFRESH.
- OAuthClientId: Set this to the Client Id in your application settings.
- OAuthClientSecret: Set this to the Client Secret in your application settings.
- OAuthAccessToken: Set this to the access token returned by GetOAuthAccessToken.
- OAuthRefreshToken: Set this to the refresh token returned by GetOAuthAccessToken.
- OAuthSettingsLocation: Set this to the location where the driver saves the OAuth token values, which persist across connections.
Manual Refresh of the OAuth Access Token
The only value needed to manually refresh the OAuth access token when connecting to data is the OAuth refresh token.
Use the RefreshOAuthAccessToken stored procedure to manually refresh the OAuthAccessToken after the ExpiresIn parameter value returned by GetOAuthAccessToken has elapsed, then set the following connection properties:
- OAuthClientId: Set this to the Client Id in your application settings.
- OAuthClientSecret: Set this to the Client Secret in your application settings.
Then call RefreshOAuthAccessToken with OAuthRefreshToken set to the OAuth refresh token returned by GetOAuthAccessToken. After the new tokens have been retrieved, open a new connection by setting the OAuthAccessToken property to the value returned by RefreshOAuthAccessToken.
Finally, store the OAuth refresh token so that you can use it to manually refresh the OAuth access token after it has expired.
Headless Machines
To configure the driver to use OAuth with a user account on a headless machine, you need to authenticate on another device that has an internet browser.
- Choose one of two options:
- Option 1: Obtain the OAuthVerifier value as described in "Obtain and Exchange a Verifier Code" below.
- Option 2: Install the driver on a machine with an Internet browser and transfer the OAuth authentication values after you authenticate through the usual browser-based flow, as described in "Transfer OAuth Settings" below.
- Then configure the driver to automatically refresh the access token on the headless machine.
Option 1: Obtain and Exchange a Verifier Code
To obtain a verifier code, you must authenticate at the OAuth authorization URL.
Follow the steps below to authenticate from the machine with an Internet browser and obtain the OAuthVerifier connection property.
- Choose one of these options:
- If you are using the Embedded OAuth Application click Google BigQuery OAuth endpoint to open the endpoint in your browser.
- If you are using a custom OAuth application, create the Authorization URL by setting the following properties:
- InitiateOAuth: Set to OFF.
- OAuthClientId: Set to the client Id assigned when you registered your application.
- OAuthClientSecret: Set to the client secret assigned when you registered your application.
- Log in and grant permissions to the driver. You are then redirected to the callback URL, which contains the verifier code.
- Save the value of the verifier code. Later you will set this in the OAuthVerifier connection property.
On the headless machine, set the following connection properties to obtain the OAuth authentication values:
- InitiateOAuth: Set this to REFRESH.
- OAuthVerifier: Set this to the verifier code.
- OAuthClientId: (custom applications only) Set this to the Client Id in your custom OAuth application settings.
- OAuthClientSecret: (custom applications only) Set this to the Client Secret in the custom OAuth application settings.
- OAuthSettingsLocation: Set this to persist the encrypted OAuth authentication values to the specified location.
After the OAuth settings file is generated, you need to re-set the following properties to connect:
- InitiateOAuth: Set this to REFRESH.
- OAuthClientId: (custom applications only) Set this to the client Id assigned when you registered your application.
- OAuthClientSecret: (custom applications only) Set this to the client secret assigned when you registered your application.
- OAuthSettingsLocation: Set this to the location containing the encrypted OAuth authentication values. Make sure this location gives read and write permissions to the driver to enable the automatic refreshing of the access token.
Option 2: Transfer OAuth Settings
Prior to connecting on a headless machine, you need to create and install a connection with the driver on a device that supports an Internet browser. Set the connection properties as described in "Desktop Applications" above.
After completing the instructions in "Desktop Applications", the resulting authentication values are encrypted and written to the location specified by OAuthSettingsLocation. The default filename is OAuthSettings.txt.
Once you have successfully tested the connection, copy the OAuth settings file to your headless machine.
On the headless machine, set the following connection properties to connect to data:
- InitiateOAuth: Set this to REFRESH.
- OAuthClientId: (custom applications only) Set this to the client Id assigned when you registered your application.
- OAuthClientSecret: (custom applications only) Set this to the client secret assigned when you registered your application.
- OAuthSettingsLocation: Set this to the location of your OAuth settings file. Make sure this location gives read and write permissions to the driver to enable the automatic refreshing of the access token.
Service Accounts (OAuthJWT)
To authenticate using a service account, you must create a new service account and have a copy of the accounts certificate. If you do not already have a service account, you can create one by following the procedure in Creating a Custom OAuth App.
For a JSON file, set these properties:
- AuthScheme: Set this to OAuthJWT.
- OAuthJWTCertType: Set this to GOOGLEJSON.
- OAuthJWTCert: Set this to the path to the .json file provided by Google.
- OAuthJWTSubject: (optional) Only set this value if the service account is part of a GSuite domain and you want to enable delegation. The value of this property should be the email address of the user whose data you want to access.
For a PFX file, set these properties instead:
- AuthScheme: Set this to OAuthJWT.
- OAuthJWTCertType: Set this to PFXFILE.
- OAuthJWTCert: Set this to the path to the .pfx file provided by Google.
- OAuthJWTCertPassword: (optional) Set this to the .pfx file password. In most cases you must provide this since Google encrypts PFX certificates.
- OAuthJWTCertSubject: (optional) Set this only if you are using a OAuthJWTCertType which stores multiple certificates. Should not be set for PFX certificates generated by Google.
- OAuthJWTIssuer: Set this to the email address of the service account. This address will usually include the domain iam.gserviceaccount.com.
- OAuthJWTSubject: (optional) Only set this value if the service account is part of a GSuite domain and you want to enable delegation. The value of this property should be the email address of the user whose data you want to access.
GCP Instance Accounts
When running on a GCP virtual machine, the driver can authenticate using a service account tied to the virtual machine. To use this mode, set AuthScheme to GCPInstanceAccount.
Refreshing OAuth Values
The driver can refresh the temporary OAuth access tokens obtained during the browser-based OAuth authentication exchange. By default, the driver saves the encrypted tokens in the odbc.ini file corresponding to the DSN. Access to this odbc.ini file can be restricted in the case of System DSNs.
To enable the automatic token exchange, you can give the driver write access to the system odbc.ini. Or, you can set the OAuthSettingsLocation connection property to an alternate file path, to which the driver would have read and write access.
OAuthSettingsLocation=/tmp/oauthsettings.txt
Installing Dependencies for OAuth Authentication
The OAuth authentication standard requires the authenticating user to interact with Google BigQuery, using a web-browser. If the first OAuth interaction is to be done on the same machine the driver is installed on, for example, a desktop application, the driver needs access to the xdg-open program, which opens the default browser.
To satisfy this dependency, install the corresponding package with your package manager:
Debian/Ubuntu Package | RHEL/Fedora Package | File |
xdg-utils | xdg-utils | xdg-open |
Set the Driver Encoding
The ODBC drivers need to specify which encoding to use with the ODBC Driver Manager. By default, the CData ODBC Drivers for Unix are configured to use UTF-16 which is compatible with unixODBC, but other Driver Managers may require alternative encoding.
Alternatively, if you are using the ODBC driver from an application that uses the ANSI ODBC API it may be necessary to set the ANSI code page. For example, to import Japanese characters in an ANSI application, you can specify the code page in the config file '/opt/cdata/cdata-odbc-driver-for-googlebigquery/lib/cdata.odbc.googlebigquery.ini':
[Driver]
AnsiCodePage = 932