com.tencentcloudapi.emr.v20190103.models.ScaleOutInstanceRequest Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of tencentcloud-sdk-java-intl-en Show documentation
Show all versions of tencentcloud-sdk-java-intl-en Show documentation
Tencent Cloud API SDK for Java
/*
* Copyright (c) 2017-2018 THL A29 Limited, a Tencent company. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.tencentcloudapi.emr.v20190103.models;
import com.tencentcloudapi.common.AbstractModel;
import com.tencentcloudapi.common.SSEResponseModel;
import com.google.gson.annotations.SerializedName;
import com.google.gson.annotations.Expose;
import java.util.HashMap;
public class ScaleOutInstanceRequest extends AbstractModel {
/**
* Time unit of scale-out. Valid values:
s: Second. When `PayMode` is 0, `TimeUnit` can only be `s`.
m: Month. When `PayMode` is 1, `TimeUnit` can only be `m`.
*/
@SerializedName("TimeUnit")
@Expose
private String TimeUnit;
/**
* Time span of scale-out, which needs to be used together with `TimeUnit`.
*/
@SerializedName("TimeSpan")
@Expose
private Long TimeSpan;
/**
* Instance ID.
*/
@SerializedName("InstanceId")
@Expose
private String InstanceId;
/**
* Instance billing mode. Valid value:
0: Pay-as-you-go.
*/
@SerializedName("PayMode")
@Expose
private Long PayMode;
/**
* Client token.
*/
@SerializedName("ClientToken")
@Expose
private String ClientToken;
/**
* Bootstrap script settings.
*/
@SerializedName("PreExecutedFileSettings")
@Expose
private PreExecuteFileSettings [] PreExecutedFileSettings;
/**
* Number of task nodes to be added.
*/
@SerializedName("TaskCount")
@Expose
private Long TaskCount;
/**
* Number of core nodes to be added.
*/
@SerializedName("CoreCount")
@Expose
private Long CoreCount;
/**
* Processes unnecessary for scale-out.
*/
@SerializedName("UnNecessaryNodeList")
@Expose
private Long [] UnNecessaryNodeList;
/**
* Number of router nodes to be added.
*/
@SerializedName("RouterCount")
@Expose
private Long RouterCount;
/**
* Deployed service.
`SoftDeployInfo` and `ServiceNodeInfo` are in the same group and mutually exclusive with `UnNecessaryNodeList`.
The combination of `SoftDeployInfo` and `ServiceNodeInfo` is recommended.
*/
@SerializedName("SoftDeployInfo")
@Expose
private Long [] SoftDeployInfo;
/**
* Started process.
*/
@SerializedName("ServiceNodeInfo")
@Expose
private Long [] ServiceNodeInfo;
/**
* List of spread placement group IDs. Only one can be specified currently.
*/
@SerializedName("DisasterRecoverGroupIds")
@Expose
private String [] DisasterRecoverGroupIds;
/**
* List of tags bound to added nodes.
*/
@SerializedName("Tags")
@Expose
private Tag [] Tags;
/**
* Resource type selected for scaling. Valid values: `host` (general CVM resource) and `pod` (resource provided by TKE or EKS cluster).
*/
@SerializedName("HardwareResourceType")
@Expose
private String HardwareResourceType;
/**
* Specified information such as pod specification and source for scale-out with pod resources.
*/
@SerializedName("PodSpec")
@Expose
private PodSpec PodSpec;
/**
* Server group name selected for ClickHouse cluster scale-out.
*/
@SerializedName("ClickHouseClusterName")
@Expose
private String ClickHouseClusterName;
/**
* Server group type selected for ClickHouse cluster scale-out. Valid values: `new` (create a group) and `old` (select an existing group).
*/
@SerializedName("ClickHouseClusterType")
@Expose
private String ClickHouseClusterType;
/**
* Yarn node label specified for rule-based scale-out.
*/
@SerializedName("YarnNodeLabel")
@Expose
private String YarnNodeLabel;
/**
* Custom pod permission and parameter
*/
@SerializedName("PodParameter")
@Expose
private PodParameter PodParameter;
/**
* Number of master nodes to be added.
When a ClickHouse cluster is scaled, this parameter does not take effect.
When a Kafka cluster is scaled, this parameter does not take effect.
When `HardwareResourceType` is `pod`, this parameter does not take effect.
*/
@SerializedName("MasterCount")
@Expose
private Long MasterCount;
/**
* Whether to start the service after scale-out. `true`: Yes; `false`: No.
*/
@SerializedName("StartServiceAfterScaleOut")
@Expose
private String StartServiceAfterScaleOut;
/**
* AZ, which defaults to the primary AZ of the cluster.
*/
@SerializedName("ZoneId")
@Expose
private Long ZoneId;
/**
* Subnet, which defaults to the subnet used when the cluster is created.
*/
@SerializedName("SubnetId")
@Expose
private String SubnetId;
/**
* Pre-defined configuration set
*/
@SerializedName("ScaleOutServiceConfAssign")
@Expose
private String ScaleOutServiceConfAssign;
/**
* Whether to enable auto-renewal. Valid values: `0` (no), `1` (yes).
*/
@SerializedName("AutoRenew")
@Expose
private Long AutoRenew;
/**
* Get Time unit of scale-out. Valid values:
s: Second. When `PayMode` is 0, `TimeUnit` can only be `s`.
m: Month. When `PayMode` is 1, `TimeUnit` can only be `m`.
* @return TimeUnit Time unit of scale-out. Valid values:
s: Second. When `PayMode` is 0, `TimeUnit` can only be `s`.
m: Month. When `PayMode` is 1, `TimeUnit` can only be `m`.
*/
public String getTimeUnit() {
return this.TimeUnit;
}
/**
* Set Time unit of scale-out. Valid values:
s: Second. When `PayMode` is 0, `TimeUnit` can only be `s`.
m: Month. When `PayMode` is 1, `TimeUnit` can only be `m`.
* @param TimeUnit Time unit of scale-out. Valid values:
s: Second. When `PayMode` is 0, `TimeUnit` can only be `s`.
m: Month. When `PayMode` is 1, `TimeUnit` can only be `m`.
*/
public void setTimeUnit(String TimeUnit) {
this.TimeUnit = TimeUnit;
}
/**
* Get Time span of scale-out, which needs to be used together with `TimeUnit`.
* @return TimeSpan Time span of scale-out, which needs to be used together with `TimeUnit`.
*/
public Long getTimeSpan() {
return this.TimeSpan;
}
/**
* Set Time span of scale-out, which needs to be used together with `TimeUnit`.
* @param TimeSpan Time span of scale-out, which needs to be used together with `TimeUnit`.
*/
public void setTimeSpan(Long TimeSpan) {
this.TimeSpan = TimeSpan;
}
/**
* Get Instance ID.
* @return InstanceId Instance ID.
*/
public String getInstanceId() {
return this.InstanceId;
}
/**
* Set Instance ID.
* @param InstanceId Instance ID.
*/
public void setInstanceId(String InstanceId) {
this.InstanceId = InstanceId;
}
/**
* Get Instance billing mode. Valid value:
0: Pay-as-you-go.
* @return PayMode Instance billing mode. Valid value:
0: Pay-as-you-go.
*/
public Long getPayMode() {
return this.PayMode;
}
/**
* Set Instance billing mode. Valid value:
0: Pay-as-you-go.
* @param PayMode Instance billing mode. Valid value:
0: Pay-as-you-go.
*/
public void setPayMode(Long PayMode) {
this.PayMode = PayMode;
}
/**
* Get Client token.
* @return ClientToken Client token.
*/
public String getClientToken() {
return this.ClientToken;
}
/**
* Set Client token.
* @param ClientToken Client token.
*/
public void setClientToken(String ClientToken) {
this.ClientToken = ClientToken;
}
/**
* Get Bootstrap script settings.
* @return PreExecutedFileSettings Bootstrap script settings.
*/
public PreExecuteFileSettings [] getPreExecutedFileSettings() {
return this.PreExecutedFileSettings;
}
/**
* Set Bootstrap script settings.
* @param PreExecutedFileSettings Bootstrap script settings.
*/
public void setPreExecutedFileSettings(PreExecuteFileSettings [] PreExecutedFileSettings) {
this.PreExecutedFileSettings = PreExecutedFileSettings;
}
/**
* Get Number of task nodes to be added.
* @return TaskCount Number of task nodes to be added.
*/
public Long getTaskCount() {
return this.TaskCount;
}
/**
* Set Number of task nodes to be added.
* @param TaskCount Number of task nodes to be added.
*/
public void setTaskCount(Long TaskCount) {
this.TaskCount = TaskCount;
}
/**
* Get Number of core nodes to be added.
* @return CoreCount Number of core nodes to be added.
*/
public Long getCoreCount() {
return this.CoreCount;
}
/**
* Set Number of core nodes to be added.
* @param CoreCount Number of core nodes to be added.
*/
public void setCoreCount(Long CoreCount) {
this.CoreCount = CoreCount;
}
/**
* Get Processes unnecessary for scale-out.
* @return UnNecessaryNodeList Processes unnecessary for scale-out.
*/
public Long [] getUnNecessaryNodeList() {
return this.UnNecessaryNodeList;
}
/**
* Set Processes unnecessary for scale-out.
* @param UnNecessaryNodeList Processes unnecessary for scale-out.
*/
public void setUnNecessaryNodeList(Long [] UnNecessaryNodeList) {
this.UnNecessaryNodeList = UnNecessaryNodeList;
}
/**
* Get Number of router nodes to be added.
* @return RouterCount Number of router nodes to be added.
*/
public Long getRouterCount() {
return this.RouterCount;
}
/**
* Set Number of router nodes to be added.
* @param RouterCount Number of router nodes to be added.
*/
public void setRouterCount(Long RouterCount) {
this.RouterCount = RouterCount;
}
/**
* Get Deployed service.
`SoftDeployInfo` and `ServiceNodeInfo` are in the same group and mutually exclusive with `UnNecessaryNodeList`.
The combination of `SoftDeployInfo` and `ServiceNodeInfo` is recommended.
* @return SoftDeployInfo Deployed service.
`SoftDeployInfo` and `ServiceNodeInfo` are in the same group and mutually exclusive with `UnNecessaryNodeList`.
The combination of `SoftDeployInfo` and `ServiceNodeInfo` is recommended.
*/
public Long [] getSoftDeployInfo() {
return this.SoftDeployInfo;
}
/**
* Set Deployed service.
`SoftDeployInfo` and `ServiceNodeInfo` are in the same group and mutually exclusive with `UnNecessaryNodeList`.
The combination of `SoftDeployInfo` and `ServiceNodeInfo` is recommended.
* @param SoftDeployInfo Deployed service.
`SoftDeployInfo` and `ServiceNodeInfo` are in the same group and mutually exclusive with `UnNecessaryNodeList`.
The combination of `SoftDeployInfo` and `ServiceNodeInfo` is recommended.
*/
public void setSoftDeployInfo(Long [] SoftDeployInfo) {
this.SoftDeployInfo = SoftDeployInfo;
}
/**
* Get Started process.
* @return ServiceNodeInfo Started process.
*/
public Long [] getServiceNodeInfo() {
return this.ServiceNodeInfo;
}
/**
* Set Started process.
* @param ServiceNodeInfo Started process.
*/
public void setServiceNodeInfo(Long [] ServiceNodeInfo) {
this.ServiceNodeInfo = ServiceNodeInfo;
}
/**
* Get List of spread placement group IDs. Only one can be specified currently.
* @return DisasterRecoverGroupIds List of spread placement group IDs. Only one can be specified currently.
*/
public String [] getDisasterRecoverGroupIds() {
return this.DisasterRecoverGroupIds;
}
/**
* Set List of spread placement group IDs. Only one can be specified currently.
* @param DisasterRecoverGroupIds List of spread placement group IDs. Only one can be specified currently.
*/
public void setDisasterRecoverGroupIds(String [] DisasterRecoverGroupIds) {
this.DisasterRecoverGroupIds = DisasterRecoverGroupIds;
}
/**
* Get List of tags bound to added nodes.
* @return Tags List of tags bound to added nodes.
*/
public Tag [] getTags() {
return this.Tags;
}
/**
* Set List of tags bound to added nodes.
* @param Tags List of tags bound to added nodes.
*/
public void setTags(Tag [] Tags) {
this.Tags = Tags;
}
/**
* Get Resource type selected for scaling. Valid values: `host` (general CVM resource) and `pod` (resource provided by TKE or EKS cluster).
* @return HardwareResourceType Resource type selected for scaling. Valid values: `host` (general CVM resource) and `pod` (resource provided by TKE or EKS cluster).
*/
public String getHardwareResourceType() {
return this.HardwareResourceType;
}
/**
* Set Resource type selected for scaling. Valid values: `host` (general CVM resource) and `pod` (resource provided by TKE or EKS cluster).
* @param HardwareResourceType Resource type selected for scaling. Valid values: `host` (general CVM resource) and `pod` (resource provided by TKE or EKS cluster).
*/
public void setHardwareResourceType(String HardwareResourceType) {
this.HardwareResourceType = HardwareResourceType;
}
/**
* Get Specified information such as pod specification and source for scale-out with pod resources.
* @return PodSpec Specified information such as pod specification and source for scale-out with pod resources.
*/
public PodSpec getPodSpec() {
return this.PodSpec;
}
/**
* Set Specified information such as pod specification and source for scale-out with pod resources.
* @param PodSpec Specified information such as pod specification and source for scale-out with pod resources.
*/
public void setPodSpec(PodSpec PodSpec) {
this.PodSpec = PodSpec;
}
/**
* Get Server group name selected for ClickHouse cluster scale-out.
* @return ClickHouseClusterName Server group name selected for ClickHouse cluster scale-out.
*/
public String getClickHouseClusterName() {
return this.ClickHouseClusterName;
}
/**
* Set Server group name selected for ClickHouse cluster scale-out.
* @param ClickHouseClusterName Server group name selected for ClickHouse cluster scale-out.
*/
public void setClickHouseClusterName(String ClickHouseClusterName) {
this.ClickHouseClusterName = ClickHouseClusterName;
}
/**
* Get Server group type selected for ClickHouse cluster scale-out. Valid values: `new` (create a group) and `old` (select an existing group).
* @return ClickHouseClusterType Server group type selected for ClickHouse cluster scale-out. Valid values: `new` (create a group) and `old` (select an existing group).
*/
public String getClickHouseClusterType() {
return this.ClickHouseClusterType;
}
/**
* Set Server group type selected for ClickHouse cluster scale-out. Valid values: `new` (create a group) and `old` (select an existing group).
* @param ClickHouseClusterType Server group type selected for ClickHouse cluster scale-out. Valid values: `new` (create a group) and `old` (select an existing group).
*/
public void setClickHouseClusterType(String ClickHouseClusterType) {
this.ClickHouseClusterType = ClickHouseClusterType;
}
/**
* Get Yarn node label specified for rule-based scale-out.
* @return YarnNodeLabel Yarn node label specified for rule-based scale-out.
*/
public String getYarnNodeLabel() {
return this.YarnNodeLabel;
}
/**
* Set Yarn node label specified for rule-based scale-out.
* @param YarnNodeLabel Yarn node label specified for rule-based scale-out.
*/
public void setYarnNodeLabel(String YarnNodeLabel) {
this.YarnNodeLabel = YarnNodeLabel;
}
/**
* Get Custom pod permission and parameter
* @return PodParameter Custom pod permission and parameter
*/
public PodParameter getPodParameter() {
return this.PodParameter;
}
/**
* Set Custom pod permission and parameter
* @param PodParameter Custom pod permission and parameter
*/
public void setPodParameter(PodParameter PodParameter) {
this.PodParameter = PodParameter;
}
/**
* Get Number of master nodes to be added.
When a ClickHouse cluster is scaled, this parameter does not take effect.
When a Kafka cluster is scaled, this parameter does not take effect.
When `HardwareResourceType` is `pod`, this parameter does not take effect.
* @return MasterCount Number of master nodes to be added.
When a ClickHouse cluster is scaled, this parameter does not take effect.
When a Kafka cluster is scaled, this parameter does not take effect.
When `HardwareResourceType` is `pod`, this parameter does not take effect.
*/
public Long getMasterCount() {
return this.MasterCount;
}
/**
* Set Number of master nodes to be added.
When a ClickHouse cluster is scaled, this parameter does not take effect.
When a Kafka cluster is scaled, this parameter does not take effect.
When `HardwareResourceType` is `pod`, this parameter does not take effect.
* @param MasterCount Number of master nodes to be added.
When a ClickHouse cluster is scaled, this parameter does not take effect.
When a Kafka cluster is scaled, this parameter does not take effect.
When `HardwareResourceType` is `pod`, this parameter does not take effect.
*/
public void setMasterCount(Long MasterCount) {
this.MasterCount = MasterCount;
}
/**
* Get Whether to start the service after scale-out. `true`: Yes; `false`: No.
* @return StartServiceAfterScaleOut Whether to start the service after scale-out. `true`: Yes; `false`: No.
*/
public String getStartServiceAfterScaleOut() {
return this.StartServiceAfterScaleOut;
}
/**
* Set Whether to start the service after scale-out. `true`: Yes; `false`: No.
* @param StartServiceAfterScaleOut Whether to start the service after scale-out. `true`: Yes; `false`: No.
*/
public void setStartServiceAfterScaleOut(String StartServiceAfterScaleOut) {
this.StartServiceAfterScaleOut = StartServiceAfterScaleOut;
}
/**
* Get AZ, which defaults to the primary AZ of the cluster.
* @return ZoneId AZ, which defaults to the primary AZ of the cluster.
*/
public Long getZoneId() {
return this.ZoneId;
}
/**
* Set AZ, which defaults to the primary AZ of the cluster.
* @param ZoneId AZ, which defaults to the primary AZ of the cluster.
*/
public void setZoneId(Long ZoneId) {
this.ZoneId = ZoneId;
}
/**
* Get Subnet, which defaults to the subnet used when the cluster is created.
* @return SubnetId Subnet, which defaults to the subnet used when the cluster is created.
*/
public String getSubnetId() {
return this.SubnetId;
}
/**
* Set Subnet, which defaults to the subnet used when the cluster is created.
* @param SubnetId Subnet, which defaults to the subnet used when the cluster is created.
*/
public void setSubnetId(String SubnetId) {
this.SubnetId = SubnetId;
}
/**
* Get Pre-defined configuration set
* @return ScaleOutServiceConfAssign Pre-defined configuration set
*/
public String getScaleOutServiceConfAssign() {
return this.ScaleOutServiceConfAssign;
}
/**
* Set Pre-defined configuration set
* @param ScaleOutServiceConfAssign Pre-defined configuration set
*/
public void setScaleOutServiceConfAssign(String ScaleOutServiceConfAssign) {
this.ScaleOutServiceConfAssign = ScaleOutServiceConfAssign;
}
/**
* Get Whether to enable auto-renewal. Valid values: `0` (no), `1` (yes).
* @return AutoRenew Whether to enable auto-renewal. Valid values: `0` (no), `1` (yes).
*/
public Long getAutoRenew() {
return this.AutoRenew;
}
/**
* Set Whether to enable auto-renewal. Valid values: `0` (no), `1` (yes).
* @param AutoRenew Whether to enable auto-renewal. Valid values: `0` (no), `1` (yes).
*/
public void setAutoRenew(Long AutoRenew) {
this.AutoRenew = AutoRenew;
}
public ScaleOutInstanceRequest() {
}
/**
* NOTE: Any ambiguous key set via .set("AnyKey", "value") will be a shallow copy,
* and any explicit key, i.e Foo, set via .setFoo("value") will be a deep copy.
*/
public ScaleOutInstanceRequest(ScaleOutInstanceRequest source) {
if (source.TimeUnit != null) {
this.TimeUnit = new String(source.TimeUnit);
}
if (source.TimeSpan != null) {
this.TimeSpan = new Long(source.TimeSpan);
}
if (source.InstanceId != null) {
this.InstanceId = new String(source.InstanceId);
}
if (source.PayMode != null) {
this.PayMode = new Long(source.PayMode);
}
if (source.ClientToken != null) {
this.ClientToken = new String(source.ClientToken);
}
if (source.PreExecutedFileSettings != null) {
this.PreExecutedFileSettings = new PreExecuteFileSettings[source.PreExecutedFileSettings.length];
for (int i = 0; i < source.PreExecutedFileSettings.length; i++) {
this.PreExecutedFileSettings[i] = new PreExecuteFileSettings(source.PreExecutedFileSettings[i]);
}
}
if (source.TaskCount != null) {
this.TaskCount = new Long(source.TaskCount);
}
if (source.CoreCount != null) {
this.CoreCount = new Long(source.CoreCount);
}
if (source.UnNecessaryNodeList != null) {
this.UnNecessaryNodeList = new Long[source.UnNecessaryNodeList.length];
for (int i = 0; i < source.UnNecessaryNodeList.length; i++) {
this.UnNecessaryNodeList[i] = new Long(source.UnNecessaryNodeList[i]);
}
}
if (source.RouterCount != null) {
this.RouterCount = new Long(source.RouterCount);
}
if (source.SoftDeployInfo != null) {
this.SoftDeployInfo = new Long[source.SoftDeployInfo.length];
for (int i = 0; i < source.SoftDeployInfo.length; i++) {
this.SoftDeployInfo[i] = new Long(source.SoftDeployInfo[i]);
}
}
if (source.ServiceNodeInfo != null) {
this.ServiceNodeInfo = new Long[source.ServiceNodeInfo.length];
for (int i = 0; i < source.ServiceNodeInfo.length; i++) {
this.ServiceNodeInfo[i] = new Long(source.ServiceNodeInfo[i]);
}
}
if (source.DisasterRecoverGroupIds != null) {
this.DisasterRecoverGroupIds = new String[source.DisasterRecoverGroupIds.length];
for (int i = 0; i < source.DisasterRecoverGroupIds.length; i++) {
this.DisasterRecoverGroupIds[i] = new String(source.DisasterRecoverGroupIds[i]);
}
}
if (source.Tags != null) {
this.Tags = new Tag[source.Tags.length];
for (int i = 0; i < source.Tags.length; i++) {
this.Tags[i] = new Tag(source.Tags[i]);
}
}
if (source.HardwareResourceType != null) {
this.HardwareResourceType = new String(source.HardwareResourceType);
}
if (source.PodSpec != null) {
this.PodSpec = new PodSpec(source.PodSpec);
}
if (source.ClickHouseClusterName != null) {
this.ClickHouseClusterName = new String(source.ClickHouseClusterName);
}
if (source.ClickHouseClusterType != null) {
this.ClickHouseClusterType = new String(source.ClickHouseClusterType);
}
if (source.YarnNodeLabel != null) {
this.YarnNodeLabel = new String(source.YarnNodeLabel);
}
if (source.PodParameter != null) {
this.PodParameter = new PodParameter(source.PodParameter);
}
if (source.MasterCount != null) {
this.MasterCount = new Long(source.MasterCount);
}
if (source.StartServiceAfterScaleOut != null) {
this.StartServiceAfterScaleOut = new String(source.StartServiceAfterScaleOut);
}
if (source.ZoneId != null) {
this.ZoneId = new Long(source.ZoneId);
}
if (source.SubnetId != null) {
this.SubnetId = new String(source.SubnetId);
}
if (source.ScaleOutServiceConfAssign != null) {
this.ScaleOutServiceConfAssign = new String(source.ScaleOutServiceConfAssign);
}
if (source.AutoRenew != null) {
this.AutoRenew = new Long(source.AutoRenew);
}
}
/**
* Internal implementation, normal users should not use it.
*/
public void toMap(HashMap map, String prefix) {
this.setParamSimple(map, prefix + "TimeUnit", this.TimeUnit);
this.setParamSimple(map, prefix + "TimeSpan", this.TimeSpan);
this.setParamSimple(map, prefix + "InstanceId", this.InstanceId);
this.setParamSimple(map, prefix + "PayMode", this.PayMode);
this.setParamSimple(map, prefix + "ClientToken", this.ClientToken);
this.setParamArrayObj(map, prefix + "PreExecutedFileSettings.", this.PreExecutedFileSettings);
this.setParamSimple(map, prefix + "TaskCount", this.TaskCount);
this.setParamSimple(map, prefix + "CoreCount", this.CoreCount);
this.setParamArraySimple(map, prefix + "UnNecessaryNodeList.", this.UnNecessaryNodeList);
this.setParamSimple(map, prefix + "RouterCount", this.RouterCount);
this.setParamArraySimple(map, prefix + "SoftDeployInfo.", this.SoftDeployInfo);
this.setParamArraySimple(map, prefix + "ServiceNodeInfo.", this.ServiceNodeInfo);
this.setParamArraySimple(map, prefix + "DisasterRecoverGroupIds.", this.DisasterRecoverGroupIds);
this.setParamArrayObj(map, prefix + "Tags.", this.Tags);
this.setParamSimple(map, prefix + "HardwareResourceType", this.HardwareResourceType);
this.setParamObj(map, prefix + "PodSpec.", this.PodSpec);
this.setParamSimple(map, prefix + "ClickHouseClusterName", this.ClickHouseClusterName);
this.setParamSimple(map, prefix + "ClickHouseClusterType", this.ClickHouseClusterType);
this.setParamSimple(map, prefix + "YarnNodeLabel", this.YarnNodeLabel);
this.setParamObj(map, prefix + "PodParameter.", this.PodParameter);
this.setParamSimple(map, prefix + "MasterCount", this.MasterCount);
this.setParamSimple(map, prefix + "StartServiceAfterScaleOut", this.StartServiceAfterScaleOut);
this.setParamSimple(map, prefix + "ZoneId", this.ZoneId);
this.setParamSimple(map, prefix + "SubnetId", this.SubnetId);
this.setParamSimple(map, prefix + "ScaleOutServiceConfAssign", this.ScaleOutServiceConfAssign);
this.setParamSimple(map, prefix + "AutoRenew", this.AutoRenew);
}
}
© 2015 - 2025 Weber Informatics LLC | Privacy Policy