This section lists security recommendations for managing Oracle Cloud Infrastructure Database instances. Recommendations for securely configuring Oracle databases are available in the Oracle Database Security Guide.
Database Access Control
- Users authenticate to the database using their password. Oracle recommends that
these passwords be strong. For guidelines on choosing Oracle database passwords, see
Guidelines for Securing Passwords. In addition, Oracle database provides a
PL/SQL script to verify database password complexity. This script is located at
$ORACLE_HOME/rdbms/admin/UTLPWDMG.SQL. For instructions on running UTLPWDMG.SQL script to verify password complexity, see Enforcing Password Complexity Verification.
- In addition to the database password, you can use VCN network security groups or security lists to enforce network access control to database instances. Oracle recommends that you configure VCN network security groups or security lists to allow least privilege access to customer databases in Oracle Cloud Infrastructure Database.
DB systems created within a public subnet can send outbound traffic directly to the Internet. DB systems created within a private subnet do not have internet connectivity, and internet traffic (both egress and ingress) cannot reach the instance directly. If you try to define a route to a DB system within a private subnet using an internet gateway, the route is ignored.
To perform OS patching and backup for a DB system on private subnet, you can use a service gateway or a NAT gateway to connect to your patching or backup endpoints.
In an virtual cloud network (VCN), you can use security rules along with a private subnet to restrict access to a DB system. In multi-tier deployments, a private subnet and VCN security rules can be used to restrict access to the DB system from the application tiers.
- Oracle recommends that you give database delete permissions
DB_SYSTEM_DELETE) to a minimum possible set of IAM users and groups. This minimizes loss of data due to inadvertent deletes by an authorized user or due to malicious deletes. Only give
DELETEpermissions to tenancy and compartment administrators.
- You can use RMAN to do periodic backups of Database databases, where encrypted backup copies are stored in local storage (block volumes, for example) or Oracle Cloud Infrastructure Object Storage. RMAN encrypts each backup of a database with a unique encryption key. In transparent mode, the encryption key is stored in the Oracle Wallet. RMAN backups to Object Storage require internet gateway (IGW), and VCN network security groups or security lists need to be configured to allow secure access to Object Storage. For information about setting up the VCN for backing up bare metal databases, see Backing Up a Database to Oracle Cloud Infrastructure Object Storage. For information about backing up and Exadata databases, see Managing Exadata Database Backups by Using bkup_api.
Database Encryption and Key Management
All databases created in Oracle Cloud Infrastructure are encrypted using transparent data encryption (TDE). Note that if you migrate an unencrypted database from on-premise to Oracle Cloud Infrastructure using RMAN, the migrated database will not be encrypted. Oracle strongly recommends encrypting such databases after migrating them to the cloud.
To learn how to encrypt your database with minimum downtime during migration, see the Oracle Maximum Availability Architecture white paper Converting to Transparent Data Encryption with Oracle Data Guard using Fast Offline Conversion.
Note that virtual machine DB systems use Oracle Cloud Infrastructure block storage instead of local storage. Block storage is encrypted by default.
- User-created tablespaces are encrypted by default in Oracle Cloud Infrastructure
Database. In these databases,
ENCRYPT_NEW_TABLESPACESparameter is set to
CLOUD_ONLYwhere tablespaces created in a Database Cloud Service (DBCS) database are transparently encrypted with the AES128 algorithm unless a different algorithm is specified.
- The Database administrator creates a local Oracle Wallet on a newly created database instance, and initializes the Transparent Data Encryption (TDE) master key. Then the Oracle Wallet is configured to be "auto-open". However, a customer can choose to set a password for the Oracle Wallet, and Oracle recommends that you set a strong password (eight characters or more, with at least one capital letter, one small letter, one number, and one special symbol).
- Oracle recommends that you periodically rotate the TDE master key. The recommended rotation period is 90 days or less. You can rotate the TDE master key by using native database commands ("administer key management" in 12c, for example) or dbaascli. All previous versions of TDE master key are maintained in the Oracle Wallet.
- Oracle Key Vault (OKV) is a key management appliance used for managing Oracle TDE master keys. OKV can store, rotate, and audit accesses to TDE master keys. For instructions about installing and configuring OKV in Oracle Cloud Infrastructure, see Managing Oracle Database Encryption Keys in Oracle Cloud Infrastructure with Oracle Key Vault.
Applying Oracle database security patches (Oracle Critical Patch Updates) is imperative to mitigate known security issues, and Oracle recommends that you keep patches up-to-date. Patchsets and Patch Set Updates (PSUs) are released on a quarterly basis. These patch releases contain security fixes and additional high-impact/low-risk critical bug fixes.
For information about the latest known security issues and available fixes, see Critical Patch Updates, Security Alerts and Bulletins. If your application does not support the latest patches and needs to use a DB system with older patches, you can provision a DB system with an older version of the Oracle Database edition you are using. In addition to reviewing the critical patch updates and security alerts for your Oracle Database, Oracle recommends that you analyze and patch the operating system provisioned with the DB system.
Database Security Configuration Checking
- The Oracle Database Security Assessment Tool (DBSAT) provides automated security configuration checks of Oracle databases in Oracle Cloud Infrastructure. DBSAT performs security checks for user privilege analysis, database authorization controls, auditing polices, database listener configuration, OS file permissions, and sensitive data stored. Oracle database images in Oracle Cloud Infrastructure Database are scanned with DBSAT before provisioning. After provisioning, Oracle recommends that you periodically scan databases with DBSAT, and remediate any issues found. DBSAT is available free of charge to Oracle customers.
Database Security Auditing
Oracle Audit Vault and Database Firewall (AVDF) monitors database audit logs and creates alerts. For instructions about installing and configuring AVDF in Oracle Cloud Infrastructure, see Deploying Oracle Audit Vault and Database Firewall in Oracle Cloud Infrastructure.
Oracle recommends using Managed backups (backups created using the Oracle Cloud Infrastructure Console or the API) whenever possible. When you use managed backups, Oracle manages the object store user and credentials, and rotates these credentials every 3 days. Oracle Cloud Infrastructure encrypts all managed backups in the object store. Oracle uses the Database Transparent Encryption feature by default for encrypting the backups.
If you are not using managed backups, Oracle recommends that you change the object store passwords at regular intervals.
Security Policy Examples
Prevent Delete of Database Instances
The following example policy allows the group
DBUsers to perform all
management actions except delete databases and any artifacts.
Allow group DBUsers to manage db-systems in tenancy where request.permission!='DB_SYSTEM_DELETE' Allow group DBUsers to manage databases in tenancy where request.permission!='DATABASE_DELETE' Allow group DBUsers to manage db-homes in tenancy where request.permission!='DB_HOME_DELETE'