create

Description

Creates an Autonomous Container Database in the specified Autonomous Exadata Infrastructure.

Usage

oci db autonomous-container-database create [OPTIONS]

Required Parameters

--display-name [text]

The display name for the Autonomous Container Database.

--patch-model [text]

Database Patch model preference.

Accepted values are:

RELEASE_UPDATES, RELEASE_UPDATE_REVISIONS

Optional Parameters

--autonomous-exadata-infrastructure-id [text]

The OCID of the Autonomous Exadata Infrastructure.

--autonomous-vm-cluster-id [text]

The OCID of the Autonomous VM Cluster.

--backup-config [complex type]

This is a complex type whose value must be valid JSON. The value can be provided as a string on the command line or passed in as a file using the file://path/to/file syntax.

The --generate-param-json-input option can be used to generate an example of the JSON which must be provided. We recommend storing this example in a file, modifying it as needed and then passing it back in via the file:// syntax.

--compartment-id, -c [text]

The OCID of the compartment containing the Autonomous Container Database.

--db-unique-name [text]

The DB_UNIQUE_NAME of the Oracle Database being backed up.

--defined-tags [complex type]

Defined tags for this resource. Each key is predefined and scoped to a namespace. For more information, see Resource Tags. This is a complex type whose value must be valid JSON. The value can be provided as a string on the command line or passed in as a file using the file://path/to/file syntax.

The --generate-param-json-input option can be used to generate an example of the JSON which must be provided. We recommend storing this example in a file, modifying it as needed and then passing it back in via the file:// syntax.

--freeform-tags [complex type]

Free-form tags for this resource. Each tag is a simple key-value pair with no predefined name, type, or namespace. For more information, see Resource Tags.

Example:

{"Department": "Finance"}

This is a complex type whose value must be valid JSON. The value can be provided as a string on the command line or passed in as a file using the file://path/to/file syntax.

The --generate-param-json-input option can be used to generate an example of the JSON which must be provided. We recommend storing this example in a file, modifying it as needed and then passing it back in via the file:// syntax.

--from-json [text]

Provide input to this command as a JSON document from a file using the file://path-to/file syntax.

The --generate-full-command-json-input option can be used to generate a sample json file to be used with this command option. The key names are pre-populated and match the command option names (converted to camelCase format, e.g. compartment-id --> compartmentId), while the values of the keys need to be populated by the user before using the sample file as an input to this command. For any command option that accepts multiple values, the value of the key can be a JSON array.

Options can still be provided on the command line. If an option exists in both the JSON document and the command line then the command line specified value will be used.

For examples on usage of this option, please see our "using CLI with advanced JSON options" link: https://docs.cloud.oracle.com/iaas/Content/API/SDKDocs/cliusing.htm#AdvancedJSONOptions

--key-store-id [text]

The OCID of the key store.

--kms-key-id [text]

The OCID of the key container that is used as the master encryption key in database transparent data encryption (TDE) operations.

--kms-key-version-id [text]

The OCID of the key container version that is used in database transparent data encryption (TDE) operations KMS Key can have multiple key versions. If none is specified, the current key version (latest) of the Key Id is used for the operation.

--maintenance-window-details [complex type]

This is a complex type whose value must be valid JSON. The value can be provided as a string on the command line or passed in as a file using the file://path/to/file syntax.

The --generate-param-json-input option can be used to generate an example of the JSON which must be provided. We recommend storing this example in a file, modifying it as needed and then passing it back in via the file:// syntax.

--max-wait-seconds [integer]

The maximum time to wait for the resource to reach the lifecycle state defined by --wait-for-state. Defaults to 1200 seconds.

--peer-autonomous-container-database-backup-config [complex type]

This is a complex type whose value must be valid JSON. The value can be provided as a string on the command line or passed in as a file using the file://path/to/file syntax.

The --generate-param-json-input option can be used to generate an example of the JSON which must be provided. We recommend storing this example in a file, modifying it as needed and then passing it back in via the file:// syntax.

--peer-autonomous-container-database-compartment-id [text]

The OCID of the compartment where the standby Autonomous Container Database will be created.

--peer-autonomous-container-database-display-name [text]

The display name for the peer Autonomous Container Database.

--peer-autonomous-exadata-infrastructure-id [text]

The OCID of the peer Autonomous Exadata Infrastructure for Autonomous Data Guard.

--peer-autonomous-vm-cluster-id [text]

The OCID of the peer Autonomous VM cluster for Autonomous Data Guard. Required to enable Data Guard.

--peer-db-unique-name [text]

The DB_UNIQUE_NAME of the peer Autonomous Container Database in a Data Guard association.

--protection-mode [text]

The protection mode of this Autonomous Data Guard association. For more information, see Oracle Data Guard Protection Modes in the Oracle Data Guard documentation.

Accepted values are:

MAXIMUM_AVAILABILITY, MAXIMUM_PERFORMANCE
--service-level-agreement-type [text]

The service level agreement type of the Autonomous Container Database. The default is STANDARD. For an autonomous dataguard Autonomous Container Database, the specified Autonomous Exadata Infrastructure must be associated with a remote Autonomous Exadata Infrastructure.

Accepted values are:

AUTONOMOUS_DATAGUARD, STANDARD
--standby-maintenance-buffer-in-days [integer]

The scheduling detail for the quarterly maintenance window of the standby Autonomous Container Database. This value represents the number of days before scheduled maintenance of the primary database.

--vault-id [text]

The OCID of the Oracle Cloud Infrastructure vault.

--wait-for-state [text]

This operation creates, modifies or deletes a resource that has a defined lifecycle state. Specify this option to perform the action and then wait until the resource reaches a given lifecycle state. Multiple states can be specified, returning on the first state. For example, --wait-for-state SUCCEEDED --wait-for-state FAILED would return on whichever lifecycle state is reached first. If timeout is reached, a return code of 2 is returned. For any other error, a return code of 1 is returned.

Accepted values are:

AVAILABLE, BACKUP_IN_PROGRESS, FAILED, MAINTENANCE_IN_PROGRESS, PROVISIONING, RESTARTING, RESTORE_FAILED, RESTORING, ROLE_CHANGE_IN_PROGRESS, TERMINATED, TERMINATING, UNAVAILABLE, UPDATING
--wait-interval-seconds [integer]

Check every --wait-interval-seconds to see whether the resource to see if it has reached the lifecycle state defined by --wait-for-state. Defaults to 30 seconds.