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tencentcloud 1.81.183 published on Wednesday, Apr 16, 2025 by tencentcloudstack
tencentcloud.MonitorTmpTkeClusterAgent
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tencentcloud 1.81.183 published on Wednesday, Apr 16, 2025 by tencentcloudstack
Provides a resource to create a tmp tke cluster agent
Example Usage
import * as pulumi from "@pulumi/pulumi";
import * as tencentcloud from "@pulumi/tencentcloud";
const config = new pulumi.Config();
const defaultInstanceType = config.get("defaultInstanceType") || "SA1.MEDIUM2";
const availabilityZoneFirst = config.get("availabilityZoneFirst") || "ap-guangzhou-3";
const availabilityZoneSecond = config.get("availabilityZoneSecond") || "ap-guangzhou-4";
const exampleClusterCidr = config.get("exampleClusterCidr") || "10.31.0.0/16";
const vpcOne = tencentcloud.getVpcSubnets({
isDefault: true,
availabilityZone: availabilityZoneFirst,
});
const firstVpcId = vpcOne.then(vpcOne => vpcOne.instanceLists?.[0]?.vpcId);
const firstSubnetId = vpcOne.then(vpcOne => vpcOne.instanceLists?.[0]?.subnetId);
const vpcTwo = tencentcloud.getVpcSubnets({
isDefault: true,
availabilityZone: availabilityZoneSecond,
});
const secondVpcId = vpcTwo.then(vpcTwo => vpcTwo.instanceLists?.[0]?.vpcId);
const secondSubnetId = vpcTwo.then(vpcTwo => vpcTwo.instanceLists?.[0]?.subnetId);
const sg = new tencentcloud.SecurityGroup("sg", {});
const sgId = sg.securityGroupId;
const _default = tencentcloud.getImages({
imageTypes: ["PUBLIC_IMAGE"],
imageNameRegex: "Final",
});
const imageId = _default.then(_default => _default.imageId);
const sgRule = new tencentcloud.SecurityGroupLiteRule("sgRule", {
securityGroupId: sg.securityGroupId,
ingresses: [
"ACCEPT#10.0.0.0/16#ALL#ALL",
"ACCEPT#172.16.0.0/22#ALL#ALL",
"DROP#0.0.0.0/0#ALL#ALL",
],
egresses: ["ACCEPT#172.16.0.0/22#ALL#ALL"],
});
const example = new tencentcloud.KubernetesCluster("example", {
vpcId: firstVpcId,
clusterCidr: exampleClusterCidr,
clusterMaxPodNum: 32,
clusterName: "tf_example_cluster",
clusterDesc: "example for tke cluster",
clusterMaxServiceNum: 32,
clusterInternet: false,
clusterInternetSecurityGroup: sgId,
clusterVersion: "1.22.5",
clusterDeployType: "MANAGED_CLUSTER",
workerConfigs: [
{
count: 1,
availabilityZone: availabilityZoneFirst,
instanceType: defaultInstanceType,
systemDiskType: "CLOUD_SSD",
systemDiskSize: 60,
internetChargeType: "TRAFFIC_POSTPAID_BY_HOUR",
internetMaxBandwidthOut: 100,
publicIpAssigned: true,
subnetId: firstSubnetId,
imgId: imageId,
dataDisks: [{
diskType: "CLOUD_PREMIUM",
diskSize: 50,
}],
enhancedSecurityService: false,
enhancedMonitorService: false,
userData: "dGVzdA==",
password: "ZZXXccvv1212",
},
{
count: 1,
availabilityZone: availabilityZoneSecond,
instanceType: defaultInstanceType,
systemDiskType: "CLOUD_SSD",
systemDiskSize: 60,
internetChargeType: "TRAFFIC_POSTPAID_BY_HOUR",
internetMaxBandwidthOut: 100,
publicIpAssigned: true,
subnetId: secondSubnetId,
dataDisks: [{
diskType: "CLOUD_PREMIUM",
diskSize: 50,
}],
enhancedSecurityService: false,
enhancedMonitorService: false,
userData: "dGVzdA==",
camRoleName: "CVM_QcsRole",
password: "ZZXXccvv1212",
},
],
labels: {
test1: "test1",
test2: "test2",
},
});
const zone = config.get("zone") || "ap-guangzhou";
const clusterType = config.get("clusterType") || "tke";
const fooMonitorTmpInstance = new tencentcloud.MonitorTmpInstance("fooMonitorTmpInstance", {
instanceName: "tf-tmp-instance",
vpcId: firstVpcId,
subnetId: firstSubnetId,
dataRetentionTime: 30,
zone: availabilityZoneSecond,
tags: {
createdBy: "terraform",
},
});
// tmp tke bind
const fooMonitorTmpTkeClusterAgent = new tencentcloud.MonitorTmpTkeClusterAgent("fooMonitorTmpTkeClusterAgent", {
instanceId: fooMonitorTmpInstance.monitorTmpInstanceId,
agents: {
region: zone,
clusterType: clusterType,
clusterId: example.kubernetesClusterId,
enableExternal: false,
},
});
import pulumi
import pulumi_tencentcloud as tencentcloud
config = pulumi.Config()
default_instance_type = config.get("defaultInstanceType")
if default_instance_type is None:
default_instance_type = "SA1.MEDIUM2"
availability_zone_first = config.get("availabilityZoneFirst")
if availability_zone_first is None:
availability_zone_first = "ap-guangzhou-3"
availability_zone_second = config.get("availabilityZoneSecond")
if availability_zone_second is None:
availability_zone_second = "ap-guangzhou-4"
example_cluster_cidr = config.get("exampleClusterCidr")
if example_cluster_cidr is None:
example_cluster_cidr = "10.31.0.0/16"
vpc_one = tencentcloud.get_vpc_subnets(is_default=True,
availability_zone=availability_zone_first)
first_vpc_id = vpc_one.instance_lists[0].vpc_id
first_subnet_id = vpc_one.instance_lists[0].subnet_id
vpc_two = tencentcloud.get_vpc_subnets(is_default=True,
availability_zone=availability_zone_second)
second_vpc_id = vpc_two.instance_lists[0].vpc_id
second_subnet_id = vpc_two.instance_lists[0].subnet_id
sg = tencentcloud.SecurityGroup("sg")
sg_id = sg.security_group_id
default = tencentcloud.get_images(image_types=["PUBLIC_IMAGE"],
image_name_regex="Final")
image_id = default.image_id
sg_rule = tencentcloud.SecurityGroupLiteRule("sgRule",
security_group_id=sg.security_group_id,
ingresses=[
"ACCEPT#10.0.0.0/16#ALL#ALL",
"ACCEPT#172.16.0.0/22#ALL#ALL",
"DROP#0.0.0.0/0#ALL#ALL",
],
egresses=["ACCEPT#172.16.0.0/22#ALL#ALL"])
example = tencentcloud.KubernetesCluster("example",
vpc_id=first_vpc_id,
cluster_cidr=example_cluster_cidr,
cluster_max_pod_num=32,
cluster_name="tf_example_cluster",
cluster_desc="example for tke cluster",
cluster_max_service_num=32,
cluster_internet=False,
cluster_internet_security_group=sg_id,
cluster_version="1.22.5",
cluster_deploy_type="MANAGED_CLUSTER",
worker_configs=[
{
"count": 1,
"availability_zone": availability_zone_first,
"instance_type": default_instance_type,
"system_disk_type": "CLOUD_SSD",
"system_disk_size": 60,
"internet_charge_type": "TRAFFIC_POSTPAID_BY_HOUR",
"internet_max_bandwidth_out": 100,
"public_ip_assigned": True,
"subnet_id": first_subnet_id,
"img_id": image_id,
"data_disks": [{
"disk_type": "CLOUD_PREMIUM",
"disk_size": 50,
}],
"enhanced_security_service": False,
"enhanced_monitor_service": False,
"user_data": "dGVzdA==",
"password": "ZZXXccvv1212",
},
{
"count": 1,
"availability_zone": availability_zone_second,
"instance_type": default_instance_type,
"system_disk_type": "CLOUD_SSD",
"system_disk_size": 60,
"internet_charge_type": "TRAFFIC_POSTPAID_BY_HOUR",
"internet_max_bandwidth_out": 100,
"public_ip_assigned": True,
"subnet_id": second_subnet_id,
"data_disks": [{
"disk_type": "CLOUD_PREMIUM",
"disk_size": 50,
}],
"enhanced_security_service": False,
"enhanced_monitor_service": False,
"user_data": "dGVzdA==",
"cam_role_name": "CVM_QcsRole",
"password": "ZZXXccvv1212",
},
],
labels={
"test1": "test1",
"test2": "test2",
})
zone = config.get("zone")
if zone is None:
zone = "ap-guangzhou"
cluster_type = config.get("clusterType")
if cluster_type is None:
cluster_type = "tke"
foo_monitor_tmp_instance = tencentcloud.MonitorTmpInstance("fooMonitorTmpInstance",
instance_name="tf-tmp-instance",
vpc_id=first_vpc_id,
subnet_id=first_subnet_id,
data_retention_time=30,
zone=availability_zone_second,
tags={
"createdBy": "terraform",
})
# tmp tke bind
foo_monitor_tmp_tke_cluster_agent = tencentcloud.MonitorTmpTkeClusterAgent("fooMonitorTmpTkeClusterAgent",
instance_id=foo_monitor_tmp_instance.monitor_tmp_instance_id,
agents={
"region": zone,
"cluster_type": cluster_type,
"cluster_id": example.kubernetes_cluster_id,
"enable_external": False,
})
package main
import (
"github.com/pulumi/pulumi-terraform-provider/sdks/go/tencentcloud/tencentcloud"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi"
"github.com/pulumi/pulumi/sdk/v3/go/pulumi/config"
)
func main() {
pulumi.Run(func(ctx *pulumi.Context) error {
cfg := config.New(ctx, "")
defaultInstanceType := "SA1.MEDIUM2"
if param := cfg.Get("defaultInstanceType"); param != "" {
defaultInstanceType = param
}
availabilityZoneFirst := "ap-guangzhou-3"
if param := cfg.Get("availabilityZoneFirst"); param != "" {
availabilityZoneFirst = param
}
availabilityZoneSecond := "ap-guangzhou-4"
if param := cfg.Get("availabilityZoneSecond"); param != "" {
availabilityZoneSecond = param
}
exampleClusterCidr := "10.31.0.0/16"
if param := cfg.Get("exampleClusterCidr"); param != "" {
exampleClusterCidr = param
}
vpcOne, err := tencentcloud.GetVpcSubnets(ctx, &tencentcloud.GetVpcSubnetsArgs{
IsDefault: pulumi.BoolRef(true),
AvailabilityZone: pulumi.StringRef(availabilityZoneFirst),
}, nil)
if err != nil {
return err
}
firstVpcId := vpcOne.InstanceLists[0].VpcId
firstSubnetId := vpcOne.InstanceLists[0].SubnetId
vpcTwo, err := tencentcloud.GetVpcSubnets(ctx, &tencentcloud.GetVpcSubnetsArgs{
IsDefault: pulumi.BoolRef(true),
AvailabilityZone: pulumi.StringRef(availabilityZoneSecond),
}, nil)
if err != nil {
return err
}
_ := vpcTwo.InstanceLists[0].VpcId
secondSubnetId := vpcTwo.InstanceLists[0].SubnetId
sg, err := tencentcloud.NewSecurityGroup(ctx, "sg", nil)
if err != nil {
return err
}
sgId := sg.SecurityGroupId
_default, err := tencentcloud.GetImages(ctx, &tencentcloud.GetImagesArgs{
ImageTypes: []string{
"PUBLIC_IMAGE",
},
ImageNameRegex: pulumi.StringRef("Final"),
}, nil)
if err != nil {
return err
}
imageId := _default.ImageId
_, err = tencentcloud.NewSecurityGroupLiteRule(ctx, "sgRule", &tencentcloud.SecurityGroupLiteRuleArgs{
SecurityGroupId: sg.SecurityGroupId,
Ingresses: pulumi.StringArray{
pulumi.String("ACCEPT#10.0.0.0/16#ALL#ALL"),
pulumi.String("ACCEPT#172.16.0.0/22#ALL#ALL"),
pulumi.String("DROP#0.0.0.0/0#ALL#ALL"),
},
Egresses: pulumi.StringArray{
pulumi.String("ACCEPT#172.16.0.0/22#ALL#ALL"),
},
})
if err != nil {
return err
}
example, err := tencentcloud.NewKubernetesCluster(ctx, "example", &tencentcloud.KubernetesClusterArgs{
VpcId: pulumi.String(firstVpcId),
ClusterCidr: pulumi.String(exampleClusterCidr),
ClusterMaxPodNum: pulumi.Float64(32),
ClusterName: pulumi.String("tf_example_cluster"),
ClusterDesc: pulumi.String("example for tke cluster"),
ClusterMaxServiceNum: pulumi.Float64(32),
ClusterInternet: pulumi.Bool(false),
ClusterInternetSecurityGroup: pulumi.String(sgId),
ClusterVersion: pulumi.String("1.22.5"),
ClusterDeployType: pulumi.String("MANAGED_CLUSTER"),
WorkerConfigs: tencentcloud.KubernetesClusterWorkerConfigArray{
&tencentcloud.KubernetesClusterWorkerConfigArgs{
Count: pulumi.Float64(1),
AvailabilityZone: pulumi.String(availabilityZoneFirst),
InstanceType: pulumi.String(defaultInstanceType),
SystemDiskType: pulumi.String("CLOUD_SSD"),
SystemDiskSize: pulumi.Float64(60),
InternetChargeType: pulumi.String("TRAFFIC_POSTPAID_BY_HOUR"),
InternetMaxBandwidthOut: pulumi.Float64(100),
PublicIpAssigned: pulumi.Bool(true),
SubnetId: pulumi.String(firstSubnetId),
ImgId: pulumi.String(imageId),
DataDisks: tencentcloud.KubernetesClusterWorkerConfigDataDiskArray{
&tencentcloud.KubernetesClusterWorkerConfigDataDiskArgs{
DiskType: pulumi.String("CLOUD_PREMIUM"),
DiskSize: pulumi.Float64(50),
},
},
EnhancedSecurityService: pulumi.Bool(false),
EnhancedMonitorService: pulumi.Bool(false),
UserData: pulumi.String("dGVzdA=="),
Password: pulumi.String("ZZXXccvv1212"),
},
&tencentcloud.KubernetesClusterWorkerConfigArgs{
Count: pulumi.Float64(1),
AvailabilityZone: pulumi.String(availabilityZoneSecond),
InstanceType: pulumi.String(defaultInstanceType),
SystemDiskType: pulumi.String("CLOUD_SSD"),
SystemDiskSize: pulumi.Float64(60),
InternetChargeType: pulumi.String("TRAFFIC_POSTPAID_BY_HOUR"),
InternetMaxBandwidthOut: pulumi.Float64(100),
PublicIpAssigned: pulumi.Bool(true),
SubnetId: pulumi.String(secondSubnetId),
DataDisks: tencentcloud.KubernetesClusterWorkerConfigDataDiskArray{
&tencentcloud.KubernetesClusterWorkerConfigDataDiskArgs{
DiskType: pulumi.String("CLOUD_PREMIUM"),
DiskSize: pulumi.Float64(50),
},
},
EnhancedSecurityService: pulumi.Bool(false),
EnhancedMonitorService: pulumi.Bool(false),
UserData: pulumi.String("dGVzdA=="),
CamRoleName: pulumi.String("CVM_QcsRole"),
Password: pulumi.String("ZZXXccvv1212"),
},
},
Labels: pulumi.StringMap{
"test1": pulumi.String("test1"),
"test2": pulumi.String("test2"),
},
})
if err != nil {
return err
}
zone := "ap-guangzhou"
if param := cfg.Get("zone"); param != "" {
zone = param
}
clusterType := "tke"
if param := cfg.Get("clusterType"); param != "" {
clusterType = param
}
fooMonitorTmpInstance, err := tencentcloud.NewMonitorTmpInstance(ctx, "fooMonitorTmpInstance", &tencentcloud.MonitorTmpInstanceArgs{
InstanceName: pulumi.String("tf-tmp-instance"),
VpcId: pulumi.String(firstVpcId),
SubnetId: pulumi.String(firstSubnetId),
DataRetentionTime: pulumi.Float64(30),
Zone: pulumi.String(availabilityZoneSecond),
Tags: pulumi.StringMap{
"createdBy": pulumi.String("terraform"),
},
})
if err != nil {
return err
}
// tmp tke bind
_, err = tencentcloud.NewMonitorTmpTkeClusterAgent(ctx, "fooMonitorTmpTkeClusterAgent", &tencentcloud.MonitorTmpTkeClusterAgentArgs{
InstanceId: fooMonitorTmpInstance.MonitorTmpInstanceId,
Agents: &tencentcloud.MonitorTmpTkeClusterAgentAgentsArgs{
Region: pulumi.String(zone),
ClusterType: pulumi.String(clusterType),
ClusterId: example.KubernetesClusterId,
EnableExternal: pulumi.Bool(false),
},
})
if err != nil {
return err
}
return nil
})
}
using System.Collections.Generic;
using System.Linq;
using Pulumi;
using Tencentcloud = Pulumi.Tencentcloud;
return await Deployment.RunAsync(() =>
{
var config = new Config();
var defaultInstanceType = config.Get("defaultInstanceType") ?? "SA1.MEDIUM2";
var availabilityZoneFirst = config.Get("availabilityZoneFirst") ?? "ap-guangzhou-3";
var availabilityZoneSecond = config.Get("availabilityZoneSecond") ?? "ap-guangzhou-4";
var exampleClusterCidr = config.Get("exampleClusterCidr") ?? "10.31.0.0/16";
var vpcOne = Tencentcloud.GetVpcSubnets.Invoke(new()
{
IsDefault = true,
AvailabilityZone = availabilityZoneFirst,
});
var firstVpcId = vpcOne.Apply(getVpcSubnetsResult => getVpcSubnetsResult.InstanceLists[0]?.VpcId);
var firstSubnetId = vpcOne.Apply(getVpcSubnetsResult => getVpcSubnetsResult.InstanceLists[0]?.SubnetId);
var vpcTwo = Tencentcloud.GetVpcSubnets.Invoke(new()
{
IsDefault = true,
AvailabilityZone = availabilityZoneSecond,
});
var secondVpcId = vpcTwo.Apply(getVpcSubnetsResult => getVpcSubnetsResult.InstanceLists[0]?.VpcId);
var secondSubnetId = vpcTwo.Apply(getVpcSubnetsResult => getVpcSubnetsResult.InstanceLists[0]?.SubnetId);
var sg = new Tencentcloud.SecurityGroup("sg");
var sgId = sg.SecurityGroupId;
var @default = Tencentcloud.GetImages.Invoke(new()
{
ImageTypes = new[]
{
"PUBLIC_IMAGE",
},
ImageNameRegex = "Final",
});
var imageId = @default.Apply(@default => @default.Apply(getImagesResult => getImagesResult.ImageId));
var sgRule = new Tencentcloud.SecurityGroupLiteRule("sgRule", new()
{
SecurityGroupId = sg.SecurityGroupId,
Ingresses = new[]
{
"ACCEPT#10.0.0.0/16#ALL#ALL",
"ACCEPT#172.16.0.0/22#ALL#ALL",
"DROP#0.0.0.0/0#ALL#ALL",
},
Egresses = new[]
{
"ACCEPT#172.16.0.0/22#ALL#ALL",
},
});
var example = new Tencentcloud.KubernetesCluster("example", new()
{
VpcId = firstVpcId,
ClusterCidr = exampleClusterCidr,
ClusterMaxPodNum = 32,
ClusterName = "tf_example_cluster",
ClusterDesc = "example for tke cluster",
ClusterMaxServiceNum = 32,
ClusterInternet = false,
ClusterInternetSecurityGroup = sgId,
ClusterVersion = "1.22.5",
ClusterDeployType = "MANAGED_CLUSTER",
WorkerConfigs = new[]
{
new Tencentcloud.Inputs.KubernetesClusterWorkerConfigArgs
{
Count = 1,
AvailabilityZone = availabilityZoneFirst,
InstanceType = defaultInstanceType,
SystemDiskType = "CLOUD_SSD",
SystemDiskSize = 60,
InternetChargeType = "TRAFFIC_POSTPAID_BY_HOUR",
InternetMaxBandwidthOut = 100,
PublicIpAssigned = true,
SubnetId = firstSubnetId,
ImgId = imageId,
DataDisks = new[]
{
new Tencentcloud.Inputs.KubernetesClusterWorkerConfigDataDiskArgs
{
DiskType = "CLOUD_PREMIUM",
DiskSize = 50,
},
},
EnhancedSecurityService = false,
EnhancedMonitorService = false,
UserData = "dGVzdA==",
Password = "ZZXXccvv1212",
},
new Tencentcloud.Inputs.KubernetesClusterWorkerConfigArgs
{
Count = 1,
AvailabilityZone = availabilityZoneSecond,
InstanceType = defaultInstanceType,
SystemDiskType = "CLOUD_SSD",
SystemDiskSize = 60,
InternetChargeType = "TRAFFIC_POSTPAID_BY_HOUR",
InternetMaxBandwidthOut = 100,
PublicIpAssigned = true,
SubnetId = secondSubnetId,
DataDisks = new[]
{
new Tencentcloud.Inputs.KubernetesClusterWorkerConfigDataDiskArgs
{
DiskType = "CLOUD_PREMIUM",
DiskSize = 50,
},
},
EnhancedSecurityService = false,
EnhancedMonitorService = false,
UserData = "dGVzdA==",
CamRoleName = "CVM_QcsRole",
Password = "ZZXXccvv1212",
},
},
Labels =
{
{ "test1", "test1" },
{ "test2", "test2" },
},
});
var zone = config.Get("zone") ?? "ap-guangzhou";
var clusterType = config.Get("clusterType") ?? "tke";
var fooMonitorTmpInstance = new Tencentcloud.MonitorTmpInstance("fooMonitorTmpInstance", new()
{
InstanceName = "tf-tmp-instance",
VpcId = firstVpcId,
SubnetId = firstSubnetId,
DataRetentionTime = 30,
Zone = availabilityZoneSecond,
Tags =
{
{ "createdBy", "terraform" },
},
});
// tmp tke bind
var fooMonitorTmpTkeClusterAgent = new Tencentcloud.MonitorTmpTkeClusterAgent("fooMonitorTmpTkeClusterAgent", new()
{
InstanceId = fooMonitorTmpInstance.MonitorTmpInstanceId,
Agents = new Tencentcloud.Inputs.MonitorTmpTkeClusterAgentAgentsArgs
{
Region = zone,
ClusterType = clusterType,
ClusterId = example.KubernetesClusterId,
EnableExternal = false,
},
});
});
package generated_program;
import com.pulumi.Context;
import com.pulumi.Pulumi;
import com.pulumi.core.Output;
import com.pulumi.tencentcloud.TencentcloudFunctions;
import com.pulumi.tencentcloud.inputs.GetVpcSubnetsArgs;
import com.pulumi.tencentcloud.SecurityGroup;
import com.pulumi.tencentcloud.inputs.GetImagesArgs;
import com.pulumi.tencentcloud.SecurityGroupLiteRule;
import com.pulumi.tencentcloud.SecurityGroupLiteRuleArgs;
import com.pulumi.tencentcloud.KubernetesCluster;
import com.pulumi.tencentcloud.KubernetesClusterArgs;
import com.pulumi.tencentcloud.inputs.KubernetesClusterWorkerConfigArgs;
import com.pulumi.tencentcloud.MonitorTmpInstance;
import com.pulumi.tencentcloud.MonitorTmpInstanceArgs;
import com.pulumi.tencentcloud.MonitorTmpTkeClusterAgent;
import com.pulumi.tencentcloud.MonitorTmpTkeClusterAgentArgs;
import com.pulumi.tencentcloud.inputs.MonitorTmpTkeClusterAgentAgentsArgs;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
public class App {
public static void main(String[] args) {
Pulumi.run(App::stack);
}
public static void stack(Context ctx) {
final var config = ctx.config();
final var defaultInstanceType = config.get("defaultInstanceType").orElse("SA1.MEDIUM2");
final var availabilityZoneFirst = config.get("availabilityZoneFirst").orElse("ap-guangzhou-3");
final var availabilityZoneSecond = config.get("availabilityZoneSecond").orElse("ap-guangzhou-4");
final var exampleClusterCidr = config.get("exampleClusterCidr").orElse("10.31.0.0/16");
final var vpcOne = TencentcloudFunctions.getVpcSubnets(GetVpcSubnetsArgs.builder()
.isDefault(true)
.availabilityZone(availabilityZoneFirst)
.build());
final var firstVpcId = vpcOne.applyValue(getVpcSubnetsResult -> getVpcSubnetsResult.instanceLists()[0].vpcId());
final var firstSubnetId = vpcOne.applyValue(getVpcSubnetsResult -> getVpcSubnetsResult.instanceLists()[0].subnetId());
final var vpcTwo = TencentcloudFunctions.getVpcSubnets(GetVpcSubnetsArgs.builder()
.isDefault(true)
.availabilityZone(availabilityZoneSecond)
.build());
final var secondVpcId = vpcTwo.applyValue(getVpcSubnetsResult -> getVpcSubnetsResult.instanceLists()[0].vpcId());
final var secondSubnetId = vpcTwo.applyValue(getVpcSubnetsResult -> getVpcSubnetsResult.instanceLists()[0].subnetId());
var sg = new SecurityGroup("sg");
final var sgId = sg.securityGroupId();
final var default = TencentcloudFunctions.getImages(GetImagesArgs.builder()
.imageTypes("PUBLIC_IMAGE")
.imageNameRegex("Final")
.build());
final var imageId = default_.imageId();
var sgRule = new SecurityGroupLiteRule("sgRule", SecurityGroupLiteRuleArgs.builder()
.securityGroupId(sg.securityGroupId())
.ingresses(
"ACCEPT#10.0.0.0/16#ALL#ALL",
"ACCEPT#172.16.0.0/22#ALL#ALL",
"DROP#0.0.0.0/0#ALL#ALL")
.egresses("ACCEPT#172.16.0.0/22#ALL#ALL")
.build());
var example = new KubernetesCluster("example", KubernetesClusterArgs.builder()
.vpcId(firstVpcId)
.clusterCidr(exampleClusterCidr)
.clusterMaxPodNum(32)
.clusterName("tf_example_cluster")
.clusterDesc("example for tke cluster")
.clusterMaxServiceNum(32)
.clusterInternet(false)
.clusterInternetSecurityGroup(sgId)
.clusterVersion("1.22.5")
.clusterDeployType("MANAGED_CLUSTER")
.workerConfigs(
KubernetesClusterWorkerConfigArgs.builder()
.count(1)
.availabilityZone(availabilityZoneFirst)
.instanceType(defaultInstanceType)
.systemDiskType("CLOUD_SSD")
.systemDiskSize(60)
.internetChargeType("TRAFFIC_POSTPAID_BY_HOUR")
.internetMaxBandwidthOut(100)
.publicIpAssigned(true)
.subnetId(firstSubnetId)
.imgId(imageId)
.dataDisks(KubernetesClusterWorkerConfigDataDiskArgs.builder()
.diskType("CLOUD_PREMIUM")
.diskSize(50)
.build())
.enhancedSecurityService(false)
.enhancedMonitorService(false)
.userData("dGVzdA==")
.password("ZZXXccvv1212")
.build(),
KubernetesClusterWorkerConfigArgs.builder()
.count(1)
.availabilityZone(availabilityZoneSecond)
.instanceType(defaultInstanceType)
.systemDiskType("CLOUD_SSD")
.systemDiskSize(60)
.internetChargeType("TRAFFIC_POSTPAID_BY_HOUR")
.internetMaxBandwidthOut(100)
.publicIpAssigned(true)
.subnetId(secondSubnetId)
.dataDisks(KubernetesClusterWorkerConfigDataDiskArgs.builder()
.diskType("CLOUD_PREMIUM")
.diskSize(50)
.build())
.enhancedSecurityService(false)
.enhancedMonitorService(false)
.userData("dGVzdA==")
.camRoleName("CVM_QcsRole")
.password("ZZXXccvv1212")
.build())
.labels(Map.ofEntries(
Map.entry("test1", "test1"),
Map.entry("test2", "test2")
))
.build());
final var zone = config.get("zone").orElse("ap-guangzhou");
final var clusterType = config.get("clusterType").orElse("tke");
var fooMonitorTmpInstance = new MonitorTmpInstance("fooMonitorTmpInstance", MonitorTmpInstanceArgs.builder()
.instanceName("tf-tmp-instance")
.vpcId(firstVpcId)
.subnetId(firstSubnetId)
.dataRetentionTime(30)
.zone(availabilityZoneSecond)
.tags(Map.of("createdBy", "terraform"))
.build());
// tmp tke bind
var fooMonitorTmpTkeClusterAgent = new MonitorTmpTkeClusterAgent("fooMonitorTmpTkeClusterAgent", MonitorTmpTkeClusterAgentArgs.builder()
.instanceId(fooMonitorTmpInstance.monitorTmpInstanceId())
.agents(MonitorTmpTkeClusterAgentAgentsArgs.builder()
.region(zone)
.clusterType(clusterType)
.clusterId(example.kubernetesClusterId())
.enableExternal(false)
.build())
.build());
}
}
configuration:
defaultInstanceType:
type: string
default: SA1.MEDIUM2
availabilityZoneFirst:
type: string
default: ap-guangzhou-3
availabilityZoneSecond:
type: string
default: ap-guangzhou-4
exampleClusterCidr:
type: string
default: 10.31.0.0/16
# create monitor
zone:
type: string
default: ap-guangzhou
clusterType:
type: string
default: tke
resources:
sg:
type: tencentcloud:SecurityGroup
sgRule:
type: tencentcloud:SecurityGroupLiteRule
properties:
securityGroupId: ${sg.securityGroupId}
ingresses:
- ACCEPT#10.0.0.0/16#ALL#ALL
- ACCEPT#172.16.0.0/22#ALL#ALL
- DROP#0.0.0.0/0#ALL#ALL
egresses:
- ACCEPT#172.16.0.0/22#ALL#ALL
example:
type: tencentcloud:KubernetesCluster
properties:
vpcId: ${firstVpcId}
clusterCidr: ${exampleClusterCidr}
clusterMaxPodNum: 32
clusterName: tf_example_cluster
clusterDesc: example for tke cluster
clusterMaxServiceNum: 32
clusterInternet: false
clusterInternetSecurityGroup: ${sgId}
clusterVersion: 1.22.5
clusterDeployType: MANAGED_CLUSTER
workerConfigs:
- count: 1
availabilityZone: ${availabilityZoneFirst}
instanceType: ${defaultInstanceType}
systemDiskType: CLOUD_SSD
systemDiskSize: 60
internetChargeType: TRAFFIC_POSTPAID_BY_HOUR
internetMaxBandwidthOut: 100
publicIpAssigned: true
subnetId: ${firstSubnetId}
imgId: ${imageId}
dataDisks:
- diskType: CLOUD_PREMIUM
diskSize: 50
enhancedSecurityService: false
enhancedMonitorService: false
userData: dGVzdA==
password: ZZXXccvv1212
- count: 1
availabilityZone: ${availabilityZoneSecond}
instanceType: ${defaultInstanceType}
systemDiskType: CLOUD_SSD
systemDiskSize: 60
internetChargeType: TRAFFIC_POSTPAID_BY_HOUR
internetMaxBandwidthOut: 100
publicIpAssigned: true
subnetId: ${secondSubnetId}
dataDisks:
- diskType: CLOUD_PREMIUM
diskSize: 50
enhancedSecurityService: false
enhancedMonitorService: false
userData: dGVzdA==
camRoleName: CVM_QcsRole
password: ZZXXccvv1212
labels:
test1: test1
test2: test2
fooMonitorTmpInstance:
type: tencentcloud:MonitorTmpInstance
properties:
instanceName: tf-tmp-instance
vpcId: ${firstVpcId}
subnetId: ${firstSubnetId}
dataRetentionTime: 30
zone: ${availabilityZoneSecond}
tags:
createdBy: terraform
# tmp tke bind
fooMonitorTmpTkeClusterAgent:
type: tencentcloud:MonitorTmpTkeClusterAgent
properties:
instanceId: ${fooMonitorTmpInstance.monitorTmpInstanceId}
agents:
region: ${zone}
clusterType: ${clusterType}
clusterId: ${example.kubernetesClusterId}
enableExternal: false
variables:
firstVpcId: ${vpcOne.instanceLists[0].vpcId}
firstSubnetId: ${vpcOne.instanceLists[0].subnetId}
secondVpcId: ${vpcTwo.instanceLists[0].vpcId}
secondSubnetId: ${vpcTwo.instanceLists[0].subnetId}
sgId: ${sg.securityGroupId}
imageId: ${default.imageId}
vpcOne:
fn::invoke:
function: tencentcloud:getVpcSubnets
arguments:
isDefault: true
availabilityZone: ${availabilityZoneFirst}
vpcTwo:
fn::invoke:
function: tencentcloud:getVpcSubnets
arguments:
isDefault: true
availabilityZone: ${availabilityZoneSecond}
default:
fn::invoke:
function: tencentcloud:getImages
arguments:
imageTypes:
- PUBLIC_IMAGE
imageNameRegex: Final
Create MonitorTmpTkeClusterAgent Resource
Resources are created with functions called constructors. To learn more about declaring and configuring resources, see Resources.
Constructor syntax
new MonitorTmpTkeClusterAgent(name: string, args: MonitorTmpTkeClusterAgentArgs, opts?: CustomResourceOptions);@overload
def MonitorTmpTkeClusterAgent(resource_name: str,
args: MonitorTmpTkeClusterAgentArgs,
opts: Optional[ResourceOptions] = None)
@overload
def MonitorTmpTkeClusterAgent(resource_name: str,
opts: Optional[ResourceOptions] = None,
agents: Optional[MonitorTmpTkeClusterAgentAgentsArgs] = None,
instance_id: Optional[str] = None,
monitor_tmp_tke_cluster_agent_id: Optional[str] = None)func NewMonitorTmpTkeClusterAgent(ctx *Context, name string, args MonitorTmpTkeClusterAgentArgs, opts ...ResourceOption) (*MonitorTmpTkeClusterAgent, error)public MonitorTmpTkeClusterAgent(string name, MonitorTmpTkeClusterAgentArgs args, CustomResourceOptions? opts = null)public MonitorTmpTkeClusterAgent(String name, MonitorTmpTkeClusterAgentArgs args)
public MonitorTmpTkeClusterAgent(String name, MonitorTmpTkeClusterAgentArgs args, CustomResourceOptions options)
type: tencentcloud:MonitorTmpTkeClusterAgent
properties: # The arguments to resource properties.
options: # Bag of options to control resource's behavior.
Parameters
- name
This property is required. string - The unique name of the resource.
- args
This property is required. MonitorTmpTkeClusterAgentArgs - The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- resource_name
This property is required. str - The unique name of the resource.
- args
This property is required. MonitorTmpTkeClusterAgentArgs - The arguments to resource properties.
- opts ResourceOptions
- Bag of options to control resource's behavior.
- ctx Context
- Context object for the current deployment.
- name
This property is required. string - The unique name of the resource.
- args
This property is required. MonitorTmpTkeClusterAgentArgs - The arguments to resource properties.
- opts ResourceOption
- Bag of options to control resource's behavior.
- name
This property is required. string - The unique name of the resource.
- args
This property is required. MonitorTmpTkeClusterAgentArgs - The arguments to resource properties.
- opts CustomResourceOptions
- Bag of options to control resource's behavior.
- name
This property is required. String - The unique name of the resource.
- args
This property is required. MonitorTmpTkeClusterAgentArgs - The arguments to resource properties.
- options CustomResourceOptions
- Bag of options to control resource's behavior.
MonitorTmpTkeClusterAgent Resource Properties
To learn more about resource properties and how to use them, see Inputs and Outputs in the Architecture and Concepts docs.
Inputs
In Python, inputs that are objects can be passed either as argument classes or as dictionary literals.
The MonitorTmpTkeClusterAgent resource accepts the following input properties:
- Agents
This property is required. MonitorTmp Tke Cluster Agent Agents - agent list.
- Instance
Id This property is required. string - Instance Id.
- Monitor
Tmp stringTke Cluster Agent Id - ID of the resource.
- Agents
This property is required. MonitorTmp Tke Cluster Agent Agents Args - agent list.
- Instance
Id This property is required. string - Instance Id.
- Monitor
Tmp stringTke Cluster Agent Id - ID of the resource.
- agents
This property is required. MonitorTmp Tke Cluster Agent Agents - agent list.
- instance
Id This property is required. String - Instance Id.
- monitor
Tmp StringTke Cluster Agent Id - ID of the resource.
- agents
This property is required. MonitorTmp Tke Cluster Agent Agents - agent list.
- instance
Id This property is required. string - Instance Id.
- monitor
Tmp stringTke Cluster Agent Id - ID of the resource.
- agents
This property is required. MonitorTmp Tke Cluster Agent Agents Args - agent list.
- instance_
id This property is required. str - Instance Id.
- monitor_
tmp_ strtke_ cluster_ agent_ id - ID of the resource.
- agents
This property is required. Property Map - agent list.
- instance
Id This property is required. String - Instance Id.
- monitor
Tmp StringTke Cluster Agent Id - ID of the resource.
Outputs
All input properties are implicitly available as output properties. Additionally, the MonitorTmpTkeClusterAgent resource produces the following output properties:
- Id string
- The provider-assigned unique ID for this managed resource.
- Id string
- The provider-assigned unique ID for this managed resource.
- id String
- The provider-assigned unique ID for this managed resource.
- id string
- The provider-assigned unique ID for this managed resource.
- id str
- The provider-assigned unique ID for this managed resource.
- id String
- The provider-assigned unique ID for this managed resource.
Look up Existing MonitorTmpTkeClusterAgent Resource
Get an existing MonitorTmpTkeClusterAgent resource’s state with the given name, ID, and optional extra properties used to qualify the lookup.
public static get(name: string, id: Input<ID>, state?: MonitorTmpTkeClusterAgentState, opts?: CustomResourceOptions): MonitorTmpTkeClusterAgent@staticmethod
def get(resource_name: str,
id: str,
opts: Optional[ResourceOptions] = None,
agents: Optional[MonitorTmpTkeClusterAgentAgentsArgs] = None,
instance_id: Optional[str] = None,
monitor_tmp_tke_cluster_agent_id: Optional[str] = None) -> MonitorTmpTkeClusterAgentfunc GetMonitorTmpTkeClusterAgent(ctx *Context, name string, id IDInput, state *MonitorTmpTkeClusterAgentState, opts ...ResourceOption) (*MonitorTmpTkeClusterAgent, error)public static MonitorTmpTkeClusterAgent Get(string name, Input<string> id, MonitorTmpTkeClusterAgentState? state, CustomResourceOptions? opts = null)public static MonitorTmpTkeClusterAgent get(String name, Output<String> id, MonitorTmpTkeClusterAgentState state, CustomResourceOptions options)resources: _: type: tencentcloud:MonitorTmpTkeClusterAgent get: id: ${id}- name
This property is required. - The unique name of the resulting resource.
- id
This property is required. - The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- resource_name
This property is required. - The unique name of the resulting resource.
- id
This property is required. - The unique provider ID of the resource to lookup.
- name
This property is required. - The unique name of the resulting resource.
- id
This property is required. - The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- name
This property is required. - The unique name of the resulting resource.
- id
This property is required. - The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
- name
This property is required. - The unique name of the resulting resource.
- id
This property is required. - The unique provider ID of the resource to lookup.
- state
- Any extra arguments used during the lookup.
- opts
- A bag of options that control this resource's behavior.
The following state arguments are supported:
- Agents
Monitor
Tmp Tke Cluster Agent Agents - agent list.
- Instance
Id string - Instance Id.
- Monitor
Tmp stringTke Cluster Agent Id - ID of the resource.
- Agents
Monitor
Tmp Tke Cluster Agent Agents Args - agent list.
- Instance
Id string - Instance Id.
- Monitor
Tmp stringTke Cluster Agent Id - ID of the resource.
- agents
Monitor
Tmp Tke Cluster Agent Agents - agent list.
- instance
Id String - Instance Id.
- monitor
Tmp StringTke Cluster Agent Id - ID of the resource.
- agents
Monitor
Tmp Tke Cluster Agent Agents - agent list.
- instance
Id string - Instance Id.
- monitor
Tmp stringTke Cluster Agent Id - ID of the resource.
- agents
Monitor
Tmp Tke Cluster Agent Agents Args - agent list.
- instance_
id str - Instance Id.
- monitor_
tmp_ strtke_ cluster_ agent_ id - ID of the resource.
- agents Property Map
- agent list.
- instance
Id String - Instance Id.
- monitor
Tmp StringTke Cluster Agent Id - ID of the resource.
Supporting Types
MonitorTmpTkeClusterAgentAgents, MonitorTmpTkeClusterAgentAgentsArgs
, MonitorTmpTkeClusterAgentAgentsArgs
- Cluster
Id This property is required. string - An id identify the cluster, like
cls-xxxxxx. - Cluster
Type This property is required. string - Type of cluster.
- Enable
External This property is required. bool - Whether to enable the public network CLB.
- Region
This property is required. string - Limitation of region.
- Cluster
Name string - the name of the cluster.
- External
Labels List<MonitorTmp Tke Cluster Agent Agents External Label> - All metrics collected by the cluster will carry these labels.
- In
Cluster MonitorPod Config Tmp Tke Cluster Agent Agents In Cluster Pod Config - Pod configuration for components deployed in the cluster.
- Not
Install boolBasic Scrape - Whether to install the default collection configuration.
- Not
Scrape bool - Whether to collect indicators, true means drop all indicators, false means collect default indicators.
- Open
Default boolRecord - Whether to enable the default pre-aggregation rule.
- Status string
- agent state,
normal,abnormal.
- Cluster
Id This property is required. string - An id identify the cluster, like
cls-xxxxxx. - Cluster
Type This property is required. string - Type of cluster.
- Enable
External This property is required. bool - Whether to enable the public network CLB.
- Region
This property is required. string - Limitation of region.
- Cluster
Name string - the name of the cluster.
- External
Labels []MonitorTmp Tke Cluster Agent Agents External Label - All metrics collected by the cluster will carry these labels.
- In
Cluster MonitorPod Config Tmp Tke Cluster Agent Agents In Cluster Pod Config - Pod configuration for components deployed in the cluster.
- Not
Install boolBasic Scrape - Whether to install the default collection configuration.
- Not
Scrape bool - Whether to collect indicators, true means drop all indicators, false means collect default indicators.
- Open
Default boolRecord - Whether to enable the default pre-aggregation rule.
- Status string
- agent state,
normal,abnormal.
- cluster
Id This property is required. String - An id identify the cluster, like
cls-xxxxxx. - cluster
Type This property is required. String - Type of cluster.
- enable
External This property is required. Boolean - Whether to enable the public network CLB.
- region
This property is required. String - Limitation of region.
- cluster
Name String - the name of the cluster.
- external
Labels List<MonitorTmp Tke Cluster Agent Agents External Label> - All metrics collected by the cluster will carry these labels.
- in
Cluster MonitorPod Config Tmp Tke Cluster Agent Agents In Cluster Pod Config - Pod configuration for components deployed in the cluster.
- not
Install BooleanBasic Scrape - Whether to install the default collection configuration.
- not
Scrape Boolean - Whether to collect indicators, true means drop all indicators, false means collect default indicators.
- open
Default BooleanRecord - Whether to enable the default pre-aggregation rule.
- status String
- agent state,
normal,abnormal.
- cluster
Id This property is required. string - An id identify the cluster, like
cls-xxxxxx. - cluster
Type This property is required. string - Type of cluster.
- enable
External This property is required. boolean - Whether to enable the public network CLB.
- region
This property is required. string - Limitation of region.
- cluster
Name string - the name of the cluster.
- external
Labels MonitorTmp Tke Cluster Agent Agents External Label[] - All metrics collected by the cluster will carry these labels.
- in
Cluster MonitorPod Config Tmp Tke Cluster Agent Agents In Cluster Pod Config - Pod configuration for components deployed in the cluster.
- not
Install booleanBasic Scrape - Whether to install the default collection configuration.
- not
Scrape boolean - Whether to collect indicators, true means drop all indicators, false means collect default indicators.
- open
Default booleanRecord - Whether to enable the default pre-aggregation rule.
- status string
- agent state,
normal,abnormal.
- cluster_
id This property is required. str - An id identify the cluster, like
cls-xxxxxx. - cluster_
type This property is required. str - Type of cluster.
- enable_
external This property is required. bool - Whether to enable the public network CLB.
- region
This property is required. str - Limitation of region.
- cluster_
name str - the name of the cluster.
- external_
labels Sequence[MonitorTmp Tke Cluster Agent Agents External Label] - All metrics collected by the cluster will carry these labels.
- in_
cluster_ Monitorpod_ config Tmp Tke Cluster Agent Agents In Cluster Pod Config - Pod configuration for components deployed in the cluster.
- not_
install_ boolbasic_ scrape - Whether to install the default collection configuration.
- not_
scrape bool - Whether to collect indicators, true means drop all indicators, false means collect default indicators.
- open_
default_ boolrecord - Whether to enable the default pre-aggregation rule.
- status str
- agent state,
normal,abnormal.
- cluster
Id This property is required. String - An id identify the cluster, like
cls-xxxxxx. - cluster
Type This property is required. String - Type of cluster.
- enable
External This property is required. Boolean - Whether to enable the public network CLB.
- region
This property is required. String - Limitation of region.
- cluster
Name String - the name of the cluster.
- external
Labels List<Property Map> - All metrics collected by the cluster will carry these labels.
- in
Cluster Property MapPod Config - Pod configuration for components deployed in the cluster.
- not
Install BooleanBasic Scrape - Whether to install the default collection configuration.
- not
Scrape Boolean - Whether to collect indicators, true means drop all indicators, false means collect default indicators.
- open
Default BooleanRecord - Whether to enable the default pre-aggregation rule.
- status String
- agent state,
normal,abnormal.
MonitorTmpTkeClusterAgentAgentsExternalLabel, MonitorTmpTkeClusterAgentAgentsExternalLabelArgs
, MonitorTmpTkeClusterAgentAgentsExternalLabelArgs
MonitorTmpTkeClusterAgentAgentsInClusterPodConfig, MonitorTmpTkeClusterAgentAgentsInClusterPodConfigArgs
, MonitorTmpTkeClusterAgentAgentsInClusterPodConfigArgs
- Host
Net This property is required. bool - Whether to use HostNetWork.
- Node
Selectors List<MonitorTmp Tke Cluster Agent Agents In Cluster Pod Config Node Selector> - Specify the pod to run the node.
- Tolerations
List<Monitor
Tmp Tke Cluster Agent Agents In Cluster Pod Config Toleration> - Tolerate Stain.
- Host
Net This property is required. bool - Whether to use HostNetWork.
- Node
Selectors []MonitorTmp Tke Cluster Agent Agents In Cluster Pod Config Node Selector - Specify the pod to run the node.
- Tolerations
[]Monitor
Tmp Tke Cluster Agent Agents In Cluster Pod Config Toleration - Tolerate Stain.
- host
Net This property is required. Boolean - Whether to use HostNetWork.
- node
Selectors List<MonitorTmp Tke Cluster Agent Agents In Cluster Pod Config Node Selector> - Specify the pod to run the node.
- tolerations
List<Monitor
Tmp Tke Cluster Agent Agents In Cluster Pod Config Toleration> - Tolerate Stain.
- host
Net This property is required. boolean - Whether to use HostNetWork.
- node
Selectors MonitorTmp Tke Cluster Agent Agents In Cluster Pod Config Node Selector[] - Specify the pod to run the node.
- tolerations
Monitor
Tmp Tke Cluster Agent Agents In Cluster Pod Config Toleration[] - Tolerate Stain.
- host_
net This property is required. bool - Whether to use HostNetWork.
- node_
selectors Sequence[MonitorTmp Tke Cluster Agent Agents In Cluster Pod Config Node Selector] - Specify the pod to run the node.
- tolerations
Sequence[Monitor
Tmp Tke Cluster Agent Agents In Cluster Pod Config Toleration] - Tolerate Stain.
- host
Net This property is required. Boolean - Whether to use HostNetWork.
- node
Selectors List<Property Map> - Specify the pod to run the node.
- tolerations List<Property Map>
- Tolerate Stain.
MonitorTmpTkeClusterAgentAgentsInClusterPodConfigNodeSelector, MonitorTmpTkeClusterAgentAgentsInClusterPodConfigNodeSelectorArgs
, MonitorTmpTkeClusterAgentAgentsInClusterPodConfigNodeSelectorArgs
MonitorTmpTkeClusterAgentAgentsInClusterPodConfigToleration, MonitorTmpTkeClusterAgentAgentsInClusterPodConfigTolerationArgs
, MonitorTmpTkeClusterAgentAgentsInClusterPodConfigTolerationArgs
Package Details
- Repository
- tencentcloud tencentcloudstack/terraform-provider-tencentcloud
- License
- Notes
- This Pulumi package is based on the
tencentcloudTerraform Provider.
tencentcloud 1.81.183 published on Wednesday, Apr 16, 2025 by tencentcloudstack