@Generated(value="com.amazonaws:aws-java-sdk-code-generator") public class GetKxClusterResult extends AmazonWebServiceResult<ResponseMetadata> implements Serializable, Cloneable
Constructor and Description |
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GetKxClusterResult() |
Modifier and Type | Method and Description |
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GetKxClusterResult |
clone() |
boolean |
equals(Object obj) |
AutoScalingConfiguration |
getAutoScalingConfiguration()
The configuration based on which FinSpace will scale in or scale out nodes in your cluster.
|
String |
getAvailabilityZoneId()
The availability zone identifiers for the requested regions.
|
String |
getAzMode()
The number of availability zones you want to assign per cluster.
|
List<KxCacheStorageConfiguration> |
getCacheStorageConfigurations()
The configurations for a read only cache storage associated with a cluster.
|
CapacityConfiguration |
getCapacityConfiguration()
A structure for the metadata of a cluster.
|
String |
getClusterDescription()
A description of the cluster.
|
String |
getClusterName()
A unique name for the cluster.
|
String |
getClusterType()
Specifies the type of KDB database that is being created.
|
CodeConfiguration |
getCode()
The details of the custom code that you want to use inside a cluster when analyzing a data.
|
List<KxCommandLineArgument> |
getCommandLineArguments()
Defines key-value pairs to make them available inside the cluster.
|
Date |
getCreatedTimestamp()
The timestamp at which the cluster was created in FinSpace.
|
List<KxDatabaseConfiguration> |
getDatabases()
A list of databases mounted on the cluster.
|
String |
getExecutionRole()
An IAM role that defines a set of permissions associated with a cluster.
|
String |
getInitializationScript()
Specifies a Q program that will be run at launch of a cluster.
|
Date |
getLastModifiedTimestamp()
The last time that the cluster was modified.
|
String |
getReleaseLabel()
The version of FinSpace managed kdb to run.
|
KxSavedownStorageConfiguration |
getSavedownStorageConfiguration()
The size and type of the temporary storage that is used to hold data during the savedown process.
|
KxScalingGroupConfiguration |
getScalingGroupConfiguration() |
String |
getStatus()
The status of cluster creation.
|
String |
getStatusReason()
The error message when a failed state occurs.
|
TickerplantLogConfiguration |
getTickerplantLogConfiguration() |
List<Volume> |
getVolumes()
A list of volumes attached to the cluster.
|
VpcConfiguration |
getVpcConfiguration()
Configuration details about the network where the Privatelink endpoint of the cluster resides.
|
int |
hashCode() |
void |
setAutoScalingConfiguration(AutoScalingConfiguration autoScalingConfiguration)
The configuration based on which FinSpace will scale in or scale out nodes in your cluster.
|
void |
setAvailabilityZoneId(String availabilityZoneId)
The availability zone identifiers for the requested regions.
|
void |
setAzMode(String azMode)
The number of availability zones you want to assign per cluster.
|
void |
setCacheStorageConfigurations(Collection<KxCacheStorageConfiguration> cacheStorageConfigurations)
The configurations for a read only cache storage associated with a cluster.
|
void |
setCapacityConfiguration(CapacityConfiguration capacityConfiguration)
A structure for the metadata of a cluster.
|
void |
setClusterDescription(String clusterDescription)
A description of the cluster.
|
void |
setClusterName(String clusterName)
A unique name for the cluster.
|
void |
setClusterType(String clusterType)
Specifies the type of KDB database that is being created.
|
void |
setCode(CodeConfiguration code)
The details of the custom code that you want to use inside a cluster when analyzing a data.
|
void |
setCommandLineArguments(Collection<KxCommandLineArgument> commandLineArguments)
Defines key-value pairs to make them available inside the cluster.
|
void |
setCreatedTimestamp(Date createdTimestamp)
The timestamp at which the cluster was created in FinSpace.
|
void |
setDatabases(Collection<KxDatabaseConfiguration> databases)
A list of databases mounted on the cluster.
|
void |
setExecutionRole(String executionRole)
An IAM role that defines a set of permissions associated with a cluster.
|
void |
setInitializationScript(String initializationScript)
Specifies a Q program that will be run at launch of a cluster.
|
void |
setLastModifiedTimestamp(Date lastModifiedTimestamp)
The last time that the cluster was modified.
|
void |
setReleaseLabel(String releaseLabel)
The version of FinSpace managed kdb to run.
|
void |
setSavedownStorageConfiguration(KxSavedownStorageConfiguration savedownStorageConfiguration)
The size and type of the temporary storage that is used to hold data during the savedown process.
|
void |
setScalingGroupConfiguration(KxScalingGroupConfiguration scalingGroupConfiguration) |
void |
setStatus(String status)
The status of cluster creation.
|
void |
setStatusReason(String statusReason)
The error message when a failed state occurs.
|
void |
setTickerplantLogConfiguration(TickerplantLogConfiguration tickerplantLogConfiguration) |
void |
setVolumes(Collection<Volume> volumes)
A list of volumes attached to the cluster.
|
void |
setVpcConfiguration(VpcConfiguration vpcConfiguration)
Configuration details about the network where the Privatelink endpoint of the cluster resides.
|
String |
toString()
Returns a string representation of this object.
|
GetKxClusterResult |
withAutoScalingConfiguration(AutoScalingConfiguration autoScalingConfiguration)
The configuration based on which FinSpace will scale in or scale out nodes in your cluster.
|
GetKxClusterResult |
withAvailabilityZoneId(String availabilityZoneId)
The availability zone identifiers for the requested regions.
|
GetKxClusterResult |
withAzMode(KxAzMode azMode)
The number of availability zones you want to assign per cluster.
|
GetKxClusterResult |
withAzMode(String azMode)
The number of availability zones you want to assign per cluster.
|
GetKxClusterResult |
withCacheStorageConfigurations(Collection<KxCacheStorageConfiguration> cacheStorageConfigurations)
The configurations for a read only cache storage associated with a cluster.
|
GetKxClusterResult |
withCacheStorageConfigurations(KxCacheStorageConfiguration... cacheStorageConfigurations)
The configurations for a read only cache storage associated with a cluster.
|
GetKxClusterResult |
withCapacityConfiguration(CapacityConfiguration capacityConfiguration)
A structure for the metadata of a cluster.
|
GetKxClusterResult |
withClusterDescription(String clusterDescription)
A description of the cluster.
|
GetKxClusterResult |
withClusterName(String clusterName)
A unique name for the cluster.
|
GetKxClusterResult |
withClusterType(KxClusterType clusterType)
Specifies the type of KDB database that is being created.
|
GetKxClusterResult |
withClusterType(String clusterType)
Specifies the type of KDB database that is being created.
|
GetKxClusterResult |
withCode(CodeConfiguration code)
The details of the custom code that you want to use inside a cluster when analyzing a data.
|
GetKxClusterResult |
withCommandLineArguments(Collection<KxCommandLineArgument> commandLineArguments)
Defines key-value pairs to make them available inside the cluster.
|
GetKxClusterResult |
withCommandLineArguments(KxCommandLineArgument... commandLineArguments)
Defines key-value pairs to make them available inside the cluster.
|
GetKxClusterResult |
withCreatedTimestamp(Date createdTimestamp)
The timestamp at which the cluster was created in FinSpace.
|
GetKxClusterResult |
withDatabases(Collection<KxDatabaseConfiguration> databases)
A list of databases mounted on the cluster.
|
GetKxClusterResult |
withDatabases(KxDatabaseConfiguration... databases)
A list of databases mounted on the cluster.
|
GetKxClusterResult |
withExecutionRole(String executionRole)
An IAM role that defines a set of permissions associated with a cluster.
|
GetKxClusterResult |
withInitializationScript(String initializationScript)
Specifies a Q program that will be run at launch of a cluster.
|
GetKxClusterResult |
withLastModifiedTimestamp(Date lastModifiedTimestamp)
The last time that the cluster was modified.
|
GetKxClusterResult |
withReleaseLabel(String releaseLabel)
The version of FinSpace managed kdb to run.
|
GetKxClusterResult |
withSavedownStorageConfiguration(KxSavedownStorageConfiguration savedownStorageConfiguration)
The size and type of the temporary storage that is used to hold data during the savedown process.
|
GetKxClusterResult |
withScalingGroupConfiguration(KxScalingGroupConfiguration scalingGroupConfiguration) |
GetKxClusterResult |
withStatus(KxClusterStatus status)
The status of cluster creation.
|
GetKxClusterResult |
withStatus(String status)
The status of cluster creation.
|
GetKxClusterResult |
withStatusReason(String statusReason)
The error message when a failed state occurs.
|
GetKxClusterResult |
withTickerplantLogConfiguration(TickerplantLogConfiguration tickerplantLogConfiguration) |
GetKxClusterResult |
withVolumes(Collection<Volume> volumes)
A list of volumes attached to the cluster.
|
GetKxClusterResult |
withVolumes(Volume... volumes)
A list of volumes attached to the cluster.
|
GetKxClusterResult |
withVpcConfiguration(VpcConfiguration vpcConfiguration)
Configuration details about the network where the Privatelink endpoint of the cluster resides.
|
getSdkHttpMetadata, getSdkResponseMetadata, setSdkHttpMetadata, setSdkResponseMetadata
public void setStatus(String status)
The status of cluster creation.
PENDING – The cluster is pending creation.
CREATING – The cluster creation process is in progress.
CREATE_FAILED – The cluster creation process has failed.
RUNNING – The cluster creation process is running.
UPDATING – The cluster is in the process of being updated.
DELETING – The cluster is in the process of being deleted.
DELETED – The cluster has been deleted.
DELETE_FAILED – The cluster failed to delete.
status
- The status of cluster creation.
PENDING – The cluster is pending creation.
CREATING – The cluster creation process is in progress.
CREATE_FAILED – The cluster creation process has failed.
RUNNING – The cluster creation process is running.
UPDATING – The cluster is in the process of being updated.
DELETING – The cluster is in the process of being deleted.
DELETED – The cluster has been deleted.
DELETE_FAILED – The cluster failed to delete.
KxClusterStatus
public String getStatus()
The status of cluster creation.
PENDING – The cluster is pending creation.
CREATING – The cluster creation process is in progress.
CREATE_FAILED – The cluster creation process has failed.
RUNNING – The cluster creation process is running.
UPDATING – The cluster is in the process of being updated.
DELETING – The cluster is in the process of being deleted.
DELETED – The cluster has been deleted.
DELETE_FAILED – The cluster failed to delete.
PENDING – The cluster is pending creation.
CREATING – The cluster creation process is in progress.
CREATE_FAILED – The cluster creation process has failed.
RUNNING – The cluster creation process is running.
UPDATING – The cluster is in the process of being updated.
DELETING – The cluster is in the process of being deleted.
DELETED – The cluster has been deleted.
DELETE_FAILED – The cluster failed to delete.
KxClusterStatus
public GetKxClusterResult withStatus(String status)
The status of cluster creation.
PENDING – The cluster is pending creation.
CREATING – The cluster creation process is in progress.
CREATE_FAILED – The cluster creation process has failed.
RUNNING – The cluster creation process is running.
UPDATING – The cluster is in the process of being updated.
DELETING – The cluster is in the process of being deleted.
DELETED – The cluster has been deleted.
DELETE_FAILED – The cluster failed to delete.
status
- The status of cluster creation.
PENDING – The cluster is pending creation.
CREATING – The cluster creation process is in progress.
CREATE_FAILED – The cluster creation process has failed.
RUNNING – The cluster creation process is running.
UPDATING – The cluster is in the process of being updated.
DELETING – The cluster is in the process of being deleted.
DELETED – The cluster has been deleted.
DELETE_FAILED – The cluster failed to delete.
KxClusterStatus
public GetKxClusterResult withStatus(KxClusterStatus status)
The status of cluster creation.
PENDING – The cluster is pending creation.
CREATING – The cluster creation process is in progress.
CREATE_FAILED – The cluster creation process has failed.
RUNNING – The cluster creation process is running.
UPDATING – The cluster is in the process of being updated.
DELETING – The cluster is in the process of being deleted.
DELETED – The cluster has been deleted.
DELETE_FAILED – The cluster failed to delete.
status
- The status of cluster creation.
PENDING – The cluster is pending creation.
CREATING – The cluster creation process is in progress.
CREATE_FAILED – The cluster creation process has failed.
RUNNING – The cluster creation process is running.
UPDATING – The cluster is in the process of being updated.
DELETING – The cluster is in the process of being deleted.
DELETED – The cluster has been deleted.
DELETE_FAILED – The cluster failed to delete.
KxClusterStatus
public void setStatusReason(String statusReason)
The error message when a failed state occurs.
statusReason
- The error message when a failed state occurs.public String getStatusReason()
The error message when a failed state occurs.
public GetKxClusterResult withStatusReason(String statusReason)
The error message when a failed state occurs.
statusReason
- The error message when a failed state occurs.public void setClusterName(String clusterName)
A unique name for the cluster.
clusterName
- A unique name for the cluster.public String getClusterName()
A unique name for the cluster.
public GetKxClusterResult withClusterName(String clusterName)
A unique name for the cluster.
clusterName
- A unique name for the cluster.public void setClusterType(String clusterType)
Specifies the type of KDB database that is being created. The following types are available:
HDB – A Historical Database. The data is only accessible with read-only permissions from one of the FinSpace managed kdb databases mounted to the cluster.
RDB – A Realtime Database. This type of database captures all the data from a ticker plant and stores it in
memory until the end of day, after which it writes all of its data to a disk and reloads the HDB. This cluster
type requires local storage for temporary storage of data during the savedown process. If you specify this field
in your request, you must provide the savedownStorageConfiguration
parameter.
GATEWAY – A gateway cluster allows you to access data across processes in kdb systems. It allows you to create your own routing logic using the initialization scripts and custom code. This type of cluster does not require a writable local storage.
GP – A general purpose cluster allows you to quickly iterate on code during development by granting greater
access to system commands and enabling a fast reload of custom code. This cluster type can optionally mount
databases including cache and savedown storage. For this cluster type, the node count is fixed at 1. It does not
support autoscaling and supports only SINGLE
AZ mode.
Tickerplant – A tickerplant cluster allows you to subscribe to feed handlers based on IAM permissions. It can publish to RDBs, other Tickerplants, and real-time subscribers (RTS). Tickerplants can persist messages to log, which is readable by any RDB environment. It supports only single-node that is only one kdb process.
clusterType
- Specifies the type of KDB database that is being created. The following types are available:
HDB – A Historical Database. The data is only accessible with read-only permissions from one of the FinSpace managed kdb databases mounted to the cluster.
RDB – A Realtime Database. This type of database captures all the data from a ticker plant and stores it
in memory until the end of day, after which it writes all of its data to a disk and reloads the HDB. This
cluster type requires local storage for temporary storage of data during the savedown process. If you
specify this field in your request, you must provide the savedownStorageConfiguration
parameter.
GATEWAY – A gateway cluster allows you to access data across processes in kdb systems. It allows you to create your own routing logic using the initialization scripts and custom code. This type of cluster does not require a writable local storage.
GP – A general purpose cluster allows you to quickly iterate on code during development by granting
greater access to system commands and enabling a fast reload of custom code. This cluster type can
optionally mount databases including cache and savedown storage. For this cluster type, the node count is
fixed at 1. It does not support autoscaling and supports only SINGLE
AZ mode.
Tickerplant – A tickerplant cluster allows you to subscribe to feed handlers based on IAM permissions. It can publish to RDBs, other Tickerplants, and real-time subscribers (RTS). Tickerplants can persist messages to log, which is readable by any RDB environment. It supports only single-node that is only one kdb process.
KxClusterType
public String getClusterType()
Specifies the type of KDB database that is being created. The following types are available:
HDB – A Historical Database. The data is only accessible with read-only permissions from one of the FinSpace managed kdb databases mounted to the cluster.
RDB – A Realtime Database. This type of database captures all the data from a ticker plant and stores it in
memory until the end of day, after which it writes all of its data to a disk and reloads the HDB. This cluster
type requires local storage for temporary storage of data during the savedown process. If you specify this field
in your request, you must provide the savedownStorageConfiguration
parameter.
GATEWAY – A gateway cluster allows you to access data across processes in kdb systems. It allows you to create your own routing logic using the initialization scripts and custom code. This type of cluster does not require a writable local storage.
GP – A general purpose cluster allows you to quickly iterate on code during development by granting greater
access to system commands and enabling a fast reload of custom code. This cluster type can optionally mount
databases including cache and savedown storage. For this cluster type, the node count is fixed at 1. It does not
support autoscaling and supports only SINGLE
AZ mode.
Tickerplant – A tickerplant cluster allows you to subscribe to feed handlers based on IAM permissions. It can publish to RDBs, other Tickerplants, and real-time subscribers (RTS). Tickerplants can persist messages to log, which is readable by any RDB environment. It supports only single-node that is only one kdb process.
HDB – A Historical Database. The data is only accessible with read-only permissions from one of the FinSpace managed kdb databases mounted to the cluster.
RDB – A Realtime Database. This type of database captures all the data from a ticker plant and stores it
in memory until the end of day, after which it writes all of its data to a disk and reloads the HDB. This
cluster type requires local storage for temporary storage of data during the savedown process. If you
specify this field in your request, you must provide the savedownStorageConfiguration
parameter.
GATEWAY – A gateway cluster allows you to access data across processes in kdb systems. It allows you to create your own routing logic using the initialization scripts and custom code. This type of cluster does not require a writable local storage.
GP – A general purpose cluster allows you to quickly iterate on code during development by granting
greater access to system commands and enabling a fast reload of custom code. This cluster type can
optionally mount databases including cache and savedown storage. For this cluster type, the node count is
fixed at 1. It does not support autoscaling and supports only SINGLE
AZ mode.
Tickerplant – A tickerplant cluster allows you to subscribe to feed handlers based on IAM permissions. It can publish to RDBs, other Tickerplants, and real-time subscribers (RTS). Tickerplants can persist messages to log, which is readable by any RDB environment. It supports only single-node that is only one kdb process.
KxClusterType
public GetKxClusterResult withClusterType(String clusterType)
Specifies the type of KDB database that is being created. The following types are available:
HDB – A Historical Database. The data is only accessible with read-only permissions from one of the FinSpace managed kdb databases mounted to the cluster.
RDB – A Realtime Database. This type of database captures all the data from a ticker plant and stores it in
memory until the end of day, after which it writes all of its data to a disk and reloads the HDB. This cluster
type requires local storage for temporary storage of data during the savedown process. If you specify this field
in your request, you must provide the savedownStorageConfiguration
parameter.
GATEWAY – A gateway cluster allows you to access data across processes in kdb systems. It allows you to create your own routing logic using the initialization scripts and custom code. This type of cluster does not require a writable local storage.
GP – A general purpose cluster allows you to quickly iterate on code during development by granting greater
access to system commands and enabling a fast reload of custom code. This cluster type can optionally mount
databases including cache and savedown storage. For this cluster type, the node count is fixed at 1. It does not
support autoscaling and supports only SINGLE
AZ mode.
Tickerplant – A tickerplant cluster allows you to subscribe to feed handlers based on IAM permissions. It can publish to RDBs, other Tickerplants, and real-time subscribers (RTS). Tickerplants can persist messages to log, which is readable by any RDB environment. It supports only single-node that is only one kdb process.
clusterType
- Specifies the type of KDB database that is being created. The following types are available:
HDB – A Historical Database. The data is only accessible with read-only permissions from one of the FinSpace managed kdb databases mounted to the cluster.
RDB – A Realtime Database. This type of database captures all the data from a ticker plant and stores it
in memory until the end of day, after which it writes all of its data to a disk and reloads the HDB. This
cluster type requires local storage for temporary storage of data during the savedown process. If you
specify this field in your request, you must provide the savedownStorageConfiguration
parameter.
GATEWAY – A gateway cluster allows you to access data across processes in kdb systems. It allows you to create your own routing logic using the initialization scripts and custom code. This type of cluster does not require a writable local storage.
GP – A general purpose cluster allows you to quickly iterate on code during development by granting
greater access to system commands and enabling a fast reload of custom code. This cluster type can
optionally mount databases including cache and savedown storage. For this cluster type, the node count is
fixed at 1. It does not support autoscaling and supports only SINGLE
AZ mode.
Tickerplant – A tickerplant cluster allows you to subscribe to feed handlers based on IAM permissions. It can publish to RDBs, other Tickerplants, and real-time subscribers (RTS). Tickerplants can persist messages to log, which is readable by any RDB environment. It supports only single-node that is only one kdb process.
KxClusterType
public GetKxClusterResult withClusterType(KxClusterType clusterType)
Specifies the type of KDB database that is being created. The following types are available:
HDB – A Historical Database. The data is only accessible with read-only permissions from one of the FinSpace managed kdb databases mounted to the cluster.
RDB – A Realtime Database. This type of database captures all the data from a ticker plant and stores it in
memory until the end of day, after which it writes all of its data to a disk and reloads the HDB. This cluster
type requires local storage for temporary storage of data during the savedown process. If you specify this field
in your request, you must provide the savedownStorageConfiguration
parameter.
GATEWAY – A gateway cluster allows you to access data across processes in kdb systems. It allows you to create your own routing logic using the initialization scripts and custom code. This type of cluster does not require a writable local storage.
GP – A general purpose cluster allows you to quickly iterate on code during development by granting greater
access to system commands and enabling a fast reload of custom code. This cluster type can optionally mount
databases including cache and savedown storage. For this cluster type, the node count is fixed at 1. It does not
support autoscaling and supports only SINGLE
AZ mode.
Tickerplant – A tickerplant cluster allows you to subscribe to feed handlers based on IAM permissions. It can publish to RDBs, other Tickerplants, and real-time subscribers (RTS). Tickerplants can persist messages to log, which is readable by any RDB environment. It supports only single-node that is only one kdb process.
clusterType
- Specifies the type of KDB database that is being created. The following types are available:
HDB – A Historical Database. The data is only accessible with read-only permissions from one of the FinSpace managed kdb databases mounted to the cluster.
RDB – A Realtime Database. This type of database captures all the data from a ticker plant and stores it
in memory until the end of day, after which it writes all of its data to a disk and reloads the HDB. This
cluster type requires local storage for temporary storage of data during the savedown process. If you
specify this field in your request, you must provide the savedownStorageConfiguration
parameter.
GATEWAY – A gateway cluster allows you to access data across processes in kdb systems. It allows you to create your own routing logic using the initialization scripts and custom code. This type of cluster does not require a writable local storage.
GP – A general purpose cluster allows you to quickly iterate on code during development by granting
greater access to system commands and enabling a fast reload of custom code. This cluster type can
optionally mount databases including cache and savedown storage. For this cluster type, the node count is
fixed at 1. It does not support autoscaling and supports only SINGLE
AZ mode.
Tickerplant – A tickerplant cluster allows you to subscribe to feed handlers based on IAM permissions. It can publish to RDBs, other Tickerplants, and real-time subscribers (RTS). Tickerplants can persist messages to log, which is readable by any RDB environment. It supports only single-node that is only one kdb process.
KxClusterType
public void setTickerplantLogConfiguration(TickerplantLogConfiguration tickerplantLogConfiguration)
tickerplantLogConfiguration
- public TickerplantLogConfiguration getTickerplantLogConfiguration()
public GetKxClusterResult withTickerplantLogConfiguration(TickerplantLogConfiguration tickerplantLogConfiguration)
tickerplantLogConfiguration
- public List<Volume> getVolumes()
A list of volumes attached to the cluster.
public void setVolumes(Collection<Volume> volumes)
A list of volumes attached to the cluster.
volumes
- A list of volumes attached to the cluster.public GetKxClusterResult withVolumes(Volume... volumes)
A list of volumes attached to the cluster.
NOTE: This method appends the values to the existing list (if any). Use
setVolumes(java.util.Collection)
or withVolumes(java.util.Collection)
if you want to override
the existing values.
volumes
- A list of volumes attached to the cluster.public GetKxClusterResult withVolumes(Collection<Volume> volumes)
A list of volumes attached to the cluster.
volumes
- A list of volumes attached to the cluster.public List<KxDatabaseConfiguration> getDatabases()
A list of databases mounted on the cluster.
public void setDatabases(Collection<KxDatabaseConfiguration> databases)
A list of databases mounted on the cluster.
databases
- A list of databases mounted on the cluster.public GetKxClusterResult withDatabases(KxDatabaseConfiguration... databases)
A list of databases mounted on the cluster.
NOTE: This method appends the values to the existing list (if any). Use
setDatabases(java.util.Collection)
or withDatabases(java.util.Collection)
if you want to
override the existing values.
databases
- A list of databases mounted on the cluster.public GetKxClusterResult withDatabases(Collection<KxDatabaseConfiguration> databases)
A list of databases mounted on the cluster.
databases
- A list of databases mounted on the cluster.public List<KxCacheStorageConfiguration> getCacheStorageConfigurations()
The configurations for a read only cache storage associated with a cluster. This cache will be stored as an FSx Lustre that reads from the S3 store.
public void setCacheStorageConfigurations(Collection<KxCacheStorageConfiguration> cacheStorageConfigurations)
The configurations for a read only cache storage associated with a cluster. This cache will be stored as an FSx Lustre that reads from the S3 store.
cacheStorageConfigurations
- The configurations for a read only cache storage associated with a cluster. This cache will be stored as
an FSx Lustre that reads from the S3 store.public GetKxClusterResult withCacheStorageConfigurations(KxCacheStorageConfiguration... cacheStorageConfigurations)
The configurations for a read only cache storage associated with a cluster. This cache will be stored as an FSx Lustre that reads from the S3 store.
NOTE: This method appends the values to the existing list (if any). Use
setCacheStorageConfigurations(java.util.Collection)
or
withCacheStorageConfigurations(java.util.Collection)
if you want to override the existing values.
cacheStorageConfigurations
- The configurations for a read only cache storage associated with a cluster. This cache will be stored as
an FSx Lustre that reads from the S3 store.public GetKxClusterResult withCacheStorageConfigurations(Collection<KxCacheStorageConfiguration> cacheStorageConfigurations)
The configurations for a read only cache storage associated with a cluster. This cache will be stored as an FSx Lustre that reads from the S3 store.
cacheStorageConfigurations
- The configurations for a read only cache storage associated with a cluster. This cache will be stored as
an FSx Lustre that reads from the S3 store.public void setAutoScalingConfiguration(AutoScalingConfiguration autoScalingConfiguration)
The configuration based on which FinSpace will scale in or scale out nodes in your cluster.
autoScalingConfiguration
- The configuration based on which FinSpace will scale in or scale out nodes in your cluster.public AutoScalingConfiguration getAutoScalingConfiguration()
The configuration based on which FinSpace will scale in or scale out nodes in your cluster.
public GetKxClusterResult withAutoScalingConfiguration(AutoScalingConfiguration autoScalingConfiguration)
The configuration based on which FinSpace will scale in or scale out nodes in your cluster.
autoScalingConfiguration
- The configuration based on which FinSpace will scale in or scale out nodes in your cluster.public void setClusterDescription(String clusterDescription)
A description of the cluster.
clusterDescription
- A description of the cluster.public String getClusterDescription()
A description of the cluster.
public GetKxClusterResult withClusterDescription(String clusterDescription)
A description of the cluster.
clusterDescription
- A description of the cluster.public void setCapacityConfiguration(CapacityConfiguration capacityConfiguration)
A structure for the metadata of a cluster. It includes information like the CPUs needed, memory of instances, and number of instances.
capacityConfiguration
- A structure for the metadata of a cluster. It includes information like the CPUs needed, memory of
instances, and number of instances.public CapacityConfiguration getCapacityConfiguration()
A structure for the metadata of a cluster. It includes information like the CPUs needed, memory of instances, and number of instances.
public GetKxClusterResult withCapacityConfiguration(CapacityConfiguration capacityConfiguration)
A structure for the metadata of a cluster. It includes information like the CPUs needed, memory of instances, and number of instances.
capacityConfiguration
- A structure for the metadata of a cluster. It includes information like the CPUs needed, memory of
instances, and number of instances.public void setReleaseLabel(String releaseLabel)
The version of FinSpace managed kdb to run.
releaseLabel
- The version of FinSpace managed kdb to run.public String getReleaseLabel()
The version of FinSpace managed kdb to run.
public GetKxClusterResult withReleaseLabel(String releaseLabel)
The version of FinSpace managed kdb to run.
releaseLabel
- The version of FinSpace managed kdb to run.public void setVpcConfiguration(VpcConfiguration vpcConfiguration)
Configuration details about the network where the Privatelink endpoint of the cluster resides.
vpcConfiguration
- Configuration details about the network where the Privatelink endpoint of the cluster resides.public VpcConfiguration getVpcConfiguration()
Configuration details about the network where the Privatelink endpoint of the cluster resides.
public GetKxClusterResult withVpcConfiguration(VpcConfiguration vpcConfiguration)
Configuration details about the network where the Privatelink endpoint of the cluster resides.
vpcConfiguration
- Configuration details about the network where the Privatelink endpoint of the cluster resides.public void setInitializationScript(String initializationScript)
Specifies a Q program that will be run at launch of a cluster. It is a relative path within .zip file that
contains the custom code, which will be loaded on the cluster. It must include the file name itself. For example,
somedir/init.q
.
initializationScript
- Specifies a Q program that will be run at launch of a cluster. It is a relative path within .zip
file that contains the custom code, which will be loaded on the cluster. It must include the file name
itself. For example, somedir/init.q
.public String getInitializationScript()
Specifies a Q program that will be run at launch of a cluster. It is a relative path within .zip file that
contains the custom code, which will be loaded on the cluster. It must include the file name itself. For example,
somedir/init.q
.
somedir/init.q
.public GetKxClusterResult withInitializationScript(String initializationScript)
Specifies a Q program that will be run at launch of a cluster. It is a relative path within .zip file that
contains the custom code, which will be loaded on the cluster. It must include the file name itself. For example,
somedir/init.q
.
initializationScript
- Specifies a Q program that will be run at launch of a cluster. It is a relative path within .zip
file that contains the custom code, which will be loaded on the cluster. It must include the file name
itself. For example, somedir/init.q
.public List<KxCommandLineArgument> getCommandLineArguments()
Defines key-value pairs to make them available inside the cluster.
public void setCommandLineArguments(Collection<KxCommandLineArgument> commandLineArguments)
Defines key-value pairs to make them available inside the cluster.
commandLineArguments
- Defines key-value pairs to make them available inside the cluster.public GetKxClusterResult withCommandLineArguments(KxCommandLineArgument... commandLineArguments)
Defines key-value pairs to make them available inside the cluster.
NOTE: This method appends the values to the existing list (if any). Use
setCommandLineArguments(java.util.Collection)
or withCommandLineArguments(java.util.Collection)
if you want to override the existing values.
commandLineArguments
- Defines key-value pairs to make them available inside the cluster.public GetKxClusterResult withCommandLineArguments(Collection<KxCommandLineArgument> commandLineArguments)
Defines key-value pairs to make them available inside the cluster.
commandLineArguments
- Defines key-value pairs to make them available inside the cluster.public void setCode(CodeConfiguration code)
The details of the custom code that you want to use inside a cluster when analyzing a data. It consists of the S3 source bucket, location, S3 object version, and the relative path from where the custom code is loaded into the cluster.
code
- The details of the custom code that you want to use inside a cluster when analyzing a data. It consists of
the S3 source bucket, location, S3 object version, and the relative path from where the custom code is
loaded into the cluster.public CodeConfiguration getCode()
The details of the custom code that you want to use inside a cluster when analyzing a data. It consists of the S3 source bucket, location, S3 object version, and the relative path from where the custom code is loaded into the cluster.
public GetKxClusterResult withCode(CodeConfiguration code)
The details of the custom code that you want to use inside a cluster when analyzing a data. It consists of the S3 source bucket, location, S3 object version, and the relative path from where the custom code is loaded into the cluster.
code
- The details of the custom code that you want to use inside a cluster when analyzing a data. It consists of
the S3 source bucket, location, S3 object version, and the relative path from where the custom code is
loaded into the cluster.public void setExecutionRole(String executionRole)
An IAM role that defines a set of permissions associated with a cluster. These permissions are assumed when a cluster attempts to access another cluster.
executionRole
- An IAM role that defines a set of permissions associated with a cluster. These permissions are assumed
when a cluster attempts to access another cluster.public String getExecutionRole()
An IAM role that defines a set of permissions associated with a cluster. These permissions are assumed when a cluster attempts to access another cluster.
public GetKxClusterResult withExecutionRole(String executionRole)
An IAM role that defines a set of permissions associated with a cluster. These permissions are assumed when a cluster attempts to access another cluster.
executionRole
- An IAM role that defines a set of permissions associated with a cluster. These permissions are assumed
when a cluster attempts to access another cluster.public void setLastModifiedTimestamp(Date lastModifiedTimestamp)
The last time that the cluster was modified. The value is determined as epoch time in milliseconds. For example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as 1635768000000.
lastModifiedTimestamp
- The last time that the cluster was modified. The value is determined as epoch time in milliseconds. For
example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as 1635768000000.public Date getLastModifiedTimestamp()
The last time that the cluster was modified. The value is determined as epoch time in milliseconds. For example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as 1635768000000.
public GetKxClusterResult withLastModifiedTimestamp(Date lastModifiedTimestamp)
The last time that the cluster was modified. The value is determined as epoch time in milliseconds. For example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as 1635768000000.
lastModifiedTimestamp
- The last time that the cluster was modified. The value is determined as epoch time in milliseconds. For
example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as 1635768000000.public void setSavedownStorageConfiguration(KxSavedownStorageConfiguration savedownStorageConfiguration)
The size and type of the temporary storage that is used to hold data during the savedown process. This parameter
is required when you choose clusterType
as RDB. All the data written to this storage space is lost
when the cluster node is restarted.
savedownStorageConfiguration
- The size and type of the temporary storage that is used to hold data during the savedown process. This
parameter is required when you choose clusterType
as RDB. All the data written to this
storage space is lost when the cluster node is restarted.public KxSavedownStorageConfiguration getSavedownStorageConfiguration()
The size and type of the temporary storage that is used to hold data during the savedown process. This parameter
is required when you choose clusterType
as RDB. All the data written to this storage space is lost
when the cluster node is restarted.
clusterType
as RDB. All the data written to this
storage space is lost when the cluster node is restarted.public GetKxClusterResult withSavedownStorageConfiguration(KxSavedownStorageConfiguration savedownStorageConfiguration)
The size and type of the temporary storage that is used to hold data during the savedown process. This parameter
is required when you choose clusterType
as RDB. All the data written to this storage space is lost
when the cluster node is restarted.
savedownStorageConfiguration
- The size and type of the temporary storage that is used to hold data during the savedown process. This
parameter is required when you choose clusterType
as RDB. All the data written to this
storage space is lost when the cluster node is restarted.public void setAzMode(String azMode)
The number of availability zones you want to assign per cluster. This can be one of the following
SINGLE
– Assigns one availability zone per cluster.
MULTI
– Assigns all the availability zones per cluster.
azMode
- The number of availability zones you want to assign per cluster. This can be one of the following
SINGLE
– Assigns one availability zone per cluster.
MULTI
– Assigns all the availability zones per cluster.
KxAzMode
public String getAzMode()
The number of availability zones you want to assign per cluster. This can be one of the following
SINGLE
– Assigns one availability zone per cluster.
MULTI
– Assigns all the availability zones per cluster.
SINGLE
– Assigns one availability zone per cluster.
MULTI
– Assigns all the availability zones per cluster.
KxAzMode
public GetKxClusterResult withAzMode(String azMode)
The number of availability zones you want to assign per cluster. This can be one of the following
SINGLE
– Assigns one availability zone per cluster.
MULTI
– Assigns all the availability zones per cluster.
azMode
- The number of availability zones you want to assign per cluster. This can be one of the following
SINGLE
– Assigns one availability zone per cluster.
MULTI
– Assigns all the availability zones per cluster.
KxAzMode
public GetKxClusterResult withAzMode(KxAzMode azMode)
The number of availability zones you want to assign per cluster. This can be one of the following
SINGLE
– Assigns one availability zone per cluster.
MULTI
– Assigns all the availability zones per cluster.
azMode
- The number of availability zones you want to assign per cluster. This can be one of the following
SINGLE
– Assigns one availability zone per cluster.
MULTI
– Assigns all the availability zones per cluster.
KxAzMode
public void setAvailabilityZoneId(String availabilityZoneId)
The availability zone identifiers for the requested regions.
availabilityZoneId
- The availability zone identifiers for the requested regions.public String getAvailabilityZoneId()
The availability zone identifiers for the requested regions.
public GetKxClusterResult withAvailabilityZoneId(String availabilityZoneId)
The availability zone identifiers for the requested regions.
availabilityZoneId
- The availability zone identifiers for the requested regions.public void setCreatedTimestamp(Date createdTimestamp)
The timestamp at which the cluster was created in FinSpace. The value is determined as epoch time in milliseconds. For example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as 1635768000000.
createdTimestamp
- The timestamp at which the cluster was created in FinSpace. The value is determined as epoch time in
milliseconds. For example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as
1635768000000.public Date getCreatedTimestamp()
The timestamp at which the cluster was created in FinSpace. The value is determined as epoch time in milliseconds. For example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as 1635768000000.
public GetKxClusterResult withCreatedTimestamp(Date createdTimestamp)
The timestamp at which the cluster was created in FinSpace. The value is determined as epoch time in milliseconds. For example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as 1635768000000.
createdTimestamp
- The timestamp at which the cluster was created in FinSpace. The value is determined as epoch time in
milliseconds. For example, the value for Monday, November 1, 2021 12:00:00 PM UTC is specified as
1635768000000.public void setScalingGroupConfiguration(KxScalingGroupConfiguration scalingGroupConfiguration)
scalingGroupConfiguration
- public KxScalingGroupConfiguration getScalingGroupConfiguration()
public GetKxClusterResult withScalingGroupConfiguration(KxScalingGroupConfiguration scalingGroupConfiguration)
scalingGroupConfiguration
- public String toString()
toString
in class Object
Object.toString()
public GetKxClusterResult clone()