Configuring a Data Source in the Windows OS
Configure the ODBC data source using the ODBC data source manager preinstalled in the Windows OS.
Procedure
- Replace the GaussDB(DWS) client driver.
Decompress GaussDB-8.1.3-Windows-Odbc.tar.gz and install psqlodbc.msi (for 32-bit OS) or psqlodbc_x64.msi (for 64-bit OS).
- Open Driver Manager.
Use the Driver Manager suitable for your OS to configure the data source. (Assume the Windows system drive is drive C.)
- If you develop 32-bit programs in the 64-bit Windows OS, open the 32-bit Driver Manager at C:\Windows\SysWOW64\odbcad32.exe after you install the 32-bit driver.
Do not open Driver Manager by choosing Control Panel, clicking Administrative Tools, and clicking Data Sources (ODBC).
WoW64 is the acronym for "Windows 32-bit on Windows 64-bit". C:\Windows\SysWOW64\ stores the 32-bit environment on a 64-bit system.
- If you develop 64-bit programs in the 64-bit Windows OS, open the 64-bit Driver Manager at C:\Windows\System32\odbcad32.exe after you install the 64-bit driver.
Do not open Driver Manager by choosing Control Panel, clicking Administrative Tools, and clicking Data Sources (ODBC).
C:\Windows\System32\ stores the environment consistent with the current OS. For technical details, see Windows technical documents.
- In a 32-bit Windows OS, open C:\Windows\System32\odbcad32.exe.
In the Windows OS, click Computer, and choose Control Panel. Click Administrative Tools and click Data Sources (ODBC).
- If you develop 32-bit programs in the 64-bit Windows OS, open the 32-bit Driver Manager at C:\Windows\SysWOW64\odbcad32.exe after you install the 32-bit driver.
- Configure the data source.
On the User DSN tab, click Add, and choose PostgreSQL Unicode for setup. (An identifier will be displayed for the 64-bit OS.)
The entered username and password will be recorded in the Windows registry and you do not need to enter them again when connecting to the database next time. For security purposes, you are advised to delete sensitive information before clicking Save and enter the required username and password again when using ODBC APIs to connect to the database.
- Enable the SSL mode.
To use SSL certificates for connection, decompress the certificate package contained in the GaussDB(DWS) installation package, and double-click the sslcert_env.bat file to deploy certificates in the default location.
The sslcert_env.bat file ensures the purity of the certificate environment. When the %APPDATA%\postgresql directory exists, a message will be prompted asking you whether you want to remove related directories. If you want to remove related directories, back up files in the directory.
Alternatively, you can copy the client.crt, client.key, client.key.cipher, and client.key.rand files in the certificate file folder to the manually created %APPDATA%\postgresql directory. Change client in the file names to postgres, for example, change client.key to postgres.key. Copy the cacert.pem file to the %APPDATA%\postgresql directory and change its name to root.crt.
Change the value of SSL Mode in step 2 to verify-ca.
Table 1 sslmode options sslmode
Whether SSL Encryption Is Enabled
Description
disable
No
The SSL secure connection is not used.
allow
Probably
The SSL secure encrypted connection is used if required by the database server, but does not check the authenticity of the server.
prefer
Probably
The SSL secure encrypted connection is used as a preferred mode if supported by the database, but does not check the authenticity of the server.
require
Yes
The SSL secure connection must be used, but it only encrypts data and does not check the authenticity of the server.
verify-ca
Yes
The SSL secure connection must be used, and it checks whether the database has certificates issued by a trusted CA.
verify-full
Yes
The SSL secure connection must be used. In addition to the check scope specified by verify-ca, it checks whether the name of the host where the database resides is the same as that on the certificate.
NOTE:This mode cannot be used.
- Add the IP address segment of the host where the client is located to the security group rules of GaussDB(DWS) to ensure that the host can communicate with GaussDB(DWS).
Testing Data Source Configuration
Click Test.
Troubleshooting
- Server common name "xxxx" does not match host name "xxxxx"
This problem occurs because when verify-full is used for SSL encryption, the driver checks whether the host name in certificates is the same as the actual one. To solve this problem, use verify-ca to stop checking host names, or generate a set of CA certificates containing the actual host names.
- connect to server failed: no such file or directory
- An incorrect or unreachable database IP address or port was configured.
Check the Servername and Port configuration items in data sources.
- Server monitoring is improper.
If Servername and Port are correctly configured, ensure the proper network adapter and port are monitored based on database server configurations in the procedure in this section.
- Firewall and network gatekeeper settings are improper.
Check firewall settings, ensuring that the database communication port is trusted.
Check to ensure network gatekeeper settings are proper (if any).
- An incorrect or unreachable database IP address or port was configured.
- In the specified DSN, the system structures of the drive do not match those of the application.
Possible cause: The bit versions of the drive and program are different.
C:\Windows\SysWOW64\odbcad32.exe is a 32-bit ODBC Drive Manager.
C:\Windows\System32\odbcad32.exe is a 64-bit ODBC Drive Manager.
- The password-stored method is not supported.
sslmode is not configured for the data source. Set this configuration item to allow or a higher level to enable SSL connections. For details about sslmode, see Table 1.
- authentication method 10 not supported.
If this error occurs on an open source client, the cause may be:
The database stores only the SHA-256 hash of the password, but the open source client supports only MD5 hashes.
- The database stores the hashes of user passwords instead of actual passwords.
- In versions earlier than V100R002C80SPC300, the database stores only SHA-256 hashes and no MD5 hashes. Therefore, MD5 cannot be used for user password authentication.
- In V100R002C80SPC300 and later, if a password is updated or a user is created, both types of hashes will be stored, compatible with open-source authentication protocols.
- An MD5 hash can only be generated using the original password, but the password cannot be obtained by reversing its SHA-256 hash. If your database is upgraded from a version earlier than V100R002C80SPC300, passwords in the old version will only have SHA-256 hashes and not support MD5 authentication.
To solve this problem, perform the following operations:
- Set password_encryption_type to 1. For details, see Modifying Database Parameters.
- Create a new database user for connection or reset the password of the existing database user.
- If you use an administrator account, reset the password. For details, see Resetting a Password.
- If you are a common user, use another client tool (such as Data Studio) to connect to the database and run the ALTER USER statement to change your password.
- Connect to the database.
- unsupported frontend protocol 3.51: server supports 1.0 to 3.0
The database version is too early or the database is an open-source database. Use the driver of the required version to connect to the database.
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