141 lines
6.8 KiB
C++
141 lines
6.8 KiB
C++
/*
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* Copyright 2009-2017 Alibaba Cloud All rights reserved.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <alibabacloud/eflo-controller/model/CreateClusterRequest.h>
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using AlibabaCloud::Eflo_controller::Model::CreateClusterRequest;
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CreateClusterRequest::CreateClusterRequest()
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: RpcServiceRequest("eflo-controller", "2022-12-15", "CreateCluster") {
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setMethod(HttpRequest::Method::Post);
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}
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CreateClusterRequest::~CreateClusterRequest() {}
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std::vector<CreateClusterRequest::Components> CreateClusterRequest::getComponents() const {
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return components_;
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}
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void CreateClusterRequest::setComponents(const std::vector<CreateClusterRequest::Components> &components) {
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components_ = components;
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for(int dep1 = 0; dep1 != components.size(); dep1++) {
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setBodyParameter(std::string("Components") + "." + std::to_string(dep1 + 1) + ".ComponentType", components[dep1].componentType);
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setBodyParameter(std::string("Components") + "." + std::to_string(dep1 + 1) + ".ComponentConfig.BasicArgs", std::to_string(components[dep1].componentConfig.basicArgs));
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for(int dep2 = 0; dep2 != components[dep1].componentConfig.nodeUnits.size(); dep2++) {
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setBodyParameter(std::string("Components") + "." + std::to_string(dep1 + 1) + ".ComponentConfig.NodeUnits." + std::to_string(dep2 + 1), std::to_string(components[dep1].componentConfig.nodeUnits[dep2]));
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}
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}
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}
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std::string CreateClusterRequest::getClusterName() const {
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return clusterName_;
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}
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void CreateClusterRequest::setClusterName(const std::string &clusterName) {
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clusterName_ = clusterName;
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setBodyParameter(std::string("ClusterName"), clusterName);
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}
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CreateClusterRequest::Networks CreateClusterRequest::getNetworks() const {
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return networks_;
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}
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void CreateClusterRequest::setNetworks(const CreateClusterRequest::Networks &networks) {
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networks_ = networks;
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.MonitorVswitchId", networks.newVpdInfo.monitorVswitchId);
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for(int dep1 = 0; dep1 != networks.newVpdInfo.vpdSubnets.size(); dep1++) {
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.VpdSubnets." + std::to_string(dep1 + 1) + ".SubnetType", networks.newVpdInfo.vpdSubnets[dep1].subnetType);
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.VpdSubnets." + std::to_string(dep1 + 1) + ".ZoneId", networks.newVpdInfo.vpdSubnets[dep1].zoneId);
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.VpdSubnets." + std::to_string(dep1 + 1) + ".SubnetCidr", networks.newVpdInfo.vpdSubnets[dep1].subnetCidr);
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}
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.CloudLinkId", networks.newVpdInfo.cloudLinkId);
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.VpdCidr", networks.newVpdInfo.vpdCidr);
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.CloudLinkCidr", networks.newVpdInfo.cloudLinkCidr);
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.CenId", networks.newVpdInfo.cenId);
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setBodyParameter(std::string("Networks") + ".NewVpdInfo.MonitorVpcId", networks.newVpdInfo.monitorVpcId);
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}
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std::string CreateClusterRequest::getResourceGroupId() const {
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return resourceGroupId_;
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}
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void CreateClusterRequest::setResourceGroupId(const std::string &resourceGroupId) {
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resourceGroupId_ = resourceGroupId;
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setBodyParameter(std::string("ResourceGroupId"), resourceGroupId);
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}
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std::string CreateClusterRequest::getClusterDescription() const {
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return clusterDescription_;
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}
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void CreateClusterRequest::setClusterDescription(const std::string &clusterDescription) {
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clusterDescription_ = clusterDescription;
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setBodyParameter(std::string("ClusterDescription"), clusterDescription);
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}
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std::vector<CreateClusterRequest::NodeGroups> CreateClusterRequest::getNodeGroups() const {
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return nodeGroups_;
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}
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void CreateClusterRequest::setNodeGroups(const std::vector<CreateClusterRequest::NodeGroups> &nodeGroups) {
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nodeGroups_ = nodeGroups;
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for(int dep1 = 0; dep1 != nodeGroups.size(); dep1++) {
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setBodyParameter(std::string("NodeGroups") + "." + std::to_string(dep1 + 1) + ".NodeGroupName", nodeGroups[dep1].nodeGroupName);
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for(int dep2 = 0; dep2 != nodeGroups[dep1].nodes.size(); dep2++) {
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setBodyParameter(std::string("NodeGroups") + "." + std::to_string(dep1 + 1) + ".Nodes." + std::to_string(dep2 + 1) + ".Hostname", nodeGroups[dep1].nodes[dep2].hostname);
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setBodyParameter(std::string("NodeGroups") + "." + std::to_string(dep1 + 1) + ".Nodes." + std::to_string(dep2 + 1) + ".LoginPassword", nodeGroups[dep1].nodes[dep2].loginPassword);
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setBodyParameter(std::string("NodeGroups") + "." + std::to_string(dep1 + 1) + ".Nodes." + std::to_string(dep2 + 1) + ".NodeId", nodeGroups[dep1].nodes[dep2].nodeId);
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}
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setBodyParameter(std::string("NodeGroups") + "." + std::to_string(dep1 + 1) + ".ImageId", nodeGroups[dep1].imageId);
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setBodyParameter(std::string("NodeGroups") + "." + std::to_string(dep1 + 1) + ".NodeGroupDescription", nodeGroups[dep1].nodeGroupDescription);
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setBodyParameter(std::string("NodeGroups") + "." + std::to_string(dep1 + 1) + ".ZoneId", nodeGroups[dep1].zoneId);
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setBodyParameter(std::string("NodeGroups") + "." + std::to_string(dep1 + 1) + ".MachineType", nodeGroups[dep1].machineType);
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}
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}
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std::vector<CreateClusterRequest::Tag> CreateClusterRequest::getTag() const {
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return tag_;
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}
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void CreateClusterRequest::setTag(const std::vector<CreateClusterRequest::Tag> &tag) {
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tag_ = tag;
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for(int dep1 = 0; dep1 != tag.size(); dep1++) {
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auto tagObj = tag.at(dep1);
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std::string tagObjStr = std::string("Tag") + "." + std::to_string(dep1 + 1);
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setParameter(tagObjStr + ".Value", tagObj.value);
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setParameter(tagObjStr + ".Key", tagObj.key);
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}
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}
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bool CreateClusterRequest::getIgnoreFailedNodeTasks() const {
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return ignoreFailedNodeTasks_;
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}
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void CreateClusterRequest::setIgnoreFailedNodeTasks(bool ignoreFailedNodeTasks) {
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ignoreFailedNodeTasks_ = ignoreFailedNodeTasks;
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setBodyParameter(std::string("IgnoreFailedNodeTasks"), ignoreFailedNodeTasks ? "true" : "false");
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}
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std::string CreateClusterRequest::getClusterType() const {
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return clusterType_;
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}
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void CreateClusterRequest::setClusterType(const std::string &clusterType) {
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clusterType_ = clusterType;
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setBodyParameter(std::string("ClusterType"), clusterType);
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}
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