Deleting a Cluster

Function

This API is used to delete a specified cluster.

The URL for cluster management is in the format of https://Endpoint/uri. In the URL, uri indicates the resource path, that is, the path for API access.

Calling Method

For details, see Calling APIs.

URI

DELETE /api/v3/projects/{project_id}/clusters/{cluster_id}

**Table 1** Path Parameters
Parameter	Mandatory	Type	Description
project_id	Yes	String	Details: Project ID. For details about how to obtain the value, see How to Obtain Parameters in the API URI. Constraints: None Options: Project IDs of the account Default value: N/A
cluster_id	Yes	String	Details: Cluster ID. For details about how to obtain the value, see How to Obtain Parameters in the API URI. Constraints: None Options: Cluster IDs Default value: N/A

**Table 2** Query Parameters
Parameter	Mandatory	Type	Description
delete_efs	No	String	Whether to delete an SFS Turbo volume. Options: true or block: The system starts to delete the object. If the deletion fails, subsequent processes are blocked. try: The system starts to delete the object. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. false or skip: The deletion is skipped. This is the default option.
delete_eni	No	String	Whether to delete an ENI port (native ENI). Options: true or block: The system starts to delete the object. If the deletion fails, subsequent processes are blocked. This is the default option. try: The system starts to delete the object. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. false or skip: The deletion is skipped.
delete_evs	No	String	Whether to delete an EVS disk. Options: true or block: The system starts to delete the object. If the deletion fails, subsequent processes are blocked. try: The system starts to delete the object. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. false or skip: The deletion is skipped. This is the default option.
delete_net	No	String	Whether to delete cluster Service or ingress resources, such as a load balancer. Options: true or block: The system starts to delete the object. If the deletion fails, subsequent processes are blocked. This is the default option. try: The system starts to delete the object. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. false or skip: The deletion is skipped.
delete_obs	No	String	Whether to delete an OBS volume. Options: true or block: The system starts to delete the object. If the deletion fails, subsequent processes are blocked. try: The system starts to delete the object. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. false or skip: The deletion is skipped. This is the default option.
delete_sfs	No	String	Whether to delete an SFS volume. Options: true or block: The system starts to delete the object. If the deletion fails, subsequent processes are blocked. try: The system starts to delete the object. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. false or skip: The deletion is skipped. This is the default option.
delete_sfs30	No	String	Whether to delete an SFS 3.0 volume. Options: true or block: The system starts to delete the object. If the deletion fails, subsequent processes are blocked. try: The system starts to delete the object. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. false or skip: The deletion is skipped. This is the default option.
lts_reclaim_policy	No	String	Whether to delete an LTS resource, such as a log group or a log stream. Options: Delete_Log_Group: The system starts to delete a log group. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. Delete_Master_Log_Stream: The system starts to delete a master log stream. If the deletion fails, no deletion retry is performed, and subsequent processes will proceed. This is the default option. Retain: The deletion is skipped.
tobedeleted	No	String	Whether to use the preset deletion mode for yearly/monthly clusters. This parameter is valid only for yearly/monthly clusters. This parameter must be used together with other deletion parameters. You can specify parameter values or the system uses the default ones. If this parameter is used, the cluster does not delete resources. All query parameters of this request will be preset in the cluster database for identifying the resources to be deleted when a yearly/monthly cluster is unsubscribed from. This request can be executed for multiple times. Each request overwrites the deletion parameters preset last time. Options: true: specifies the preset mode. Only the query parameters are preset and the deletion is not performed.
ondemand_node_policy	No	String	Policy for handling all pay-per-use nodes in a cluster. Options: delete: The servers will be deleted. reset: The servers will undergo a reset, which will result in the retention of the servers themselves, but not the data stored on them. retain: The servers will be kept without undergoing a reset, and the data stored on them will also be retained. NOTE: If this parameter is not specified, pay-per-use nodes are deleted by default and managed nodes are retained.
periodic_node_policy	No	String	Policy for handling all yearly/monthly nodes in a cluster. Options: reset: The servers will undergo a reset, which will result in the retention of the servers themselves, but not the data stored on them. retain: The servers will be kept without undergoing a reset, and the data stored on them will also be retained. NOTE: If this parameter is not specified, the retain policy is used by default.

Request Parameters

**Table 3** Request header parameters
Parameter	Mandatory	Type	Description
Content-Type	Yes	String	Details: Request body type or format Constraints: The GET method is not verified. Options: application/json application/json;charset=utf-8 application/x-pem-file Default value: N/A
X-Auth-Token	Yes	String	Details: Requests for calling an API can be authenticated using either a token or AK/SK. If token-based authentication is used, this parameter is mandatory and must be set to a user token. For details, see Obtaining a User Token. Constraints: None Options: N/A Default value: N/A

Response Parameters

Status code: 200

**Table 4** Response body parameters
Parameter	Type	Description
kind	String	Details: API type Constraints: The value cannot be changed. Options: Cluster cluster Default value: N/A
apiVersion	String	Details: API version Constraints: The value cannot be changed. Options: v3 Default value: N/A
metadata	ClusterMetadata object	Details: Basic information about a cluster. Metadata is a collection of attributes. Constraints: None
spec	ClusterSpec object	Details: Detailed description of a cluster. CCE creates or updates objects by defining or updating spec. Constraints: None
status	ClusterStatus object	Details: Cluster status and ID of a cluster deletion job Constraints: None

**Table 5** ClusterMetadata
Parameter	Type	Description
name	String	Details: Cluster name Constraints: None Options: Enter 4 to 128 characters starting with a lowercase letter and not ending with a hyphen (-). Only lowercase letters, digits, and hyphens (-) are allowed. Default value: N/A
uid	String	Details: Cluster ID, which identifies a cluster Constraints: The value is automatically generated after the object is created. A user-defined value will not take effect. When you create a yearly/monthly cluster, no cluster ID will be returned in the response body. Options: N/A Default value: N/A
alias	String	Details: Alias of a cluster name displayed on the CCE console. The name can be changed. A cluster alias must be unique. Constraints: In the request body for creating or updating a cluster, if the cluster alias is not specified or set to null, the cluster name will be used as the cluster alias. In the response body for creating a cluster or other response bodies, if the cluster alias is not configured, no value will be returned. Options: Enter 4 to 128 characters starting with a letter and not starting or ending with a hyphen (-). Only digits, letters, and hyphens (-) are allowed. Default value: N/A
annotations	Map<String,String>	Details: Cluster annotations, in the format of key-value pairs "annotations": { "key1" : "value1", "key2" : "value2" } Constraints: This field is not stored in the database and is used only to specify the add-ons to be installed in the cluster. Options: N/A Default value: N/A NOTE: annotations are not used to identify or select objects. The metadata in annotations may be small or large, structured or unstructured, and may include characters that are not allowed in labels. You can install ICAgent during cluster creation by adding the key-value pair "cluster.install.addons.external/install":"[{"addonTemplateName":"icagent"}]".
labels	Map<String,String>	Details: Cluster labels, in the format of key-value pairs Constraints: The value of this field is automatically generated by the system and is used by the frontend to identify the features supported by the cluster during the upgrade. Custom values are invalid. Options: N/A Default value: N/A
creationTimestamp	String	Details: Time when a cluster was created Constraints: None Options: N/A Default value: N/A
updateTimestamp	String	Details: Time when a cluster was updated Constraints: None Options: N/A Default value: N/A
timezone	String	Details: Cluster time zone Constraints: None Options: N/A Default value: N/A

**Table 6** ClusterSpec
Parameter	Type	Description
category	String	Details: Cluster type Constraints: None Options: CCE: CCE cluster. CCE clusters support hybrid deployment of VMs and BMSs, and heterogeneous nodes such as GPU and NPU nodes, allowing you to run your containers in a secure, stable container runtime environment based on a high-performance network model. Turbo: CCE Turbo cluster. CCE Turbo clusters run on the cloud native 2.0 infrastructure that features hardware and software synergy to support passthrough networking, high security and reliability, and intelligent scheduling. Default value: CCE when the container network is not set to eni Turbo when the container network is set to eni
type	String	Details: Master node architecture Constraints: None Options: VirtualMachine: The master node is an x86 server. ARM64: The master node is an Arm-based Kunpeng server. Default value: VirtualMachine
flavor	String	Details: Cluster specifications. Specifications of clusters v1.15 and later versions can be changed after they are created. For details, see Changing Cluster Scale. Configure this parameter based on actual service requirements. Constraints: None Options: cce.s1.small: a small-scale CCE cluster with one master node and a maximum of 50 worker nodes cce.s1.medium: a medium-scale CCE cluster with one master node and a maximum of 200 worker nodes cce.s2.small: a small-scale CCE cluster with three master nodes and a maximum of 50 worker nodes cce.s2.medium: a medium-scale CCE cluster with three master nodes and a maximum of 200 worker nodes cce.s2.large: a large-scale CCE cluster with three master nodes and a maximum of 1000 worker nodes cce.s2.xlarge: an ultra-large-scale CCE cluster with three master nodes and a maximum of 2000 worker nodes Default value: N/A NOTE: The fields in the parameters are described as follows: s1: specifies a cluster with one master node. If the master node is faulty, the cluster will become unavailable, but running workloads in the cluster are not affected. s2: specifies an HA cluster with three master nodes. If one of the master nodes is faulty, the cluster is still available. dec: specifies a DeC CCE cluster. For example, cce.dec.s1.small specifies a small-scale, DeC CCE cluster with one master node and a maximum of 50 worker nodes. small: specifies that a cluster can manage a maximum of 50 worker nodes. medium: specifies that a cluster can manage a maximum of 200 worker nodes. large: specifies that a cluster can manage a maximum of 1000 worker nodes. xlarge: specifies that a cluster can manage a maximum of 2000 worker nodes.
version	String	Details: Version of a cluster, which mirrors the baseline version of the Kubernetes community. The latest version is recommended. You can create clusters of three latest versions on the CCE console. To learn which cluster versions are available, log in to the CCE console, create a cluster, and check the Cluster Version parameter. You can call APIs to create clusters of other versions. However, these cluster versions will be gradually terminated. For details about the support policy, see the CCE announcement. Constraints: None Options: N/A Default value: If this parameter is left blank, a cluster of the latest version is created by default. If a baseline cluster version is specified but the R version is not specified, a cluster of the latest R version will be created by default. It is a good practice not to specify the R version. NOTE: CCE Turbo clusters of v1.19 or later are commercially available.
platformVersion	String	Details: CCE cluster platform version, which is an internal version under the cluster version (version). Platform versions are used to trace iterations in a major cluster version. They are unique within a major cluster version and recounted when the major cluster version changes. Constraints: This parameter cannot be customized, and when you create a cluster, the latest corresponding platform version is selected automatically. Options: The format of platformVersion is cce.X.Y. X: internal feature version, which indicates changes in features, patches, or OS support in the cluster version. The value starts from 1 and increases monotonically. Y: patch version of an internal feature version. It is used only for software package update after the feature version is released. No other modification is involved. The value starts from 0 and increases monotonically. Default value: N/A
legacyVersion	String	Details: (Discarded) Outdated version of CCE clusters, which serves no practical purpose and is only used to showcase the cluster version and platform version combination. The version number is globally unique. For example, if the cluster version is va.b and the platformVersion is cce.X.Y, the value of legacyVersion is va.b.X-rY. Constraints: None Options: N/A Default value: N/A
description	String	Details: Cluster description, for example, which purpose the cluster is intended to serve. By default, this field is left blank. To modify cluster description after a cluster is created, call the API for updating a specified cluster or go to the cluster details page on the CCE console. Constraints: Only UTF-8 encoding is supported. Options: N/A Default value: N/A
customSan	Array of strings	Details: Custom Subject Alternative Name (SAN) in the server certificate of a cluster API server, which must comply with the SSL and X509 standard formats Constraints: Duplicate names are not allowed. Options: Values in the IP address or domain name format Default value: N/A Example: SAN 1: DNS Name=example.com SAN 2: DNS Name=www.example.com SAN 3: DNS Name=example.net SAN 4: IP Address=93.184.216.34
ipv6enable	Boolean	Details: Whether a cluster supports IPv6 addresses. It is supported by clusters v1.15 and later. Constraints: After IPv6 is enabled, iptables is not supported. The VPC network model does not support IPv4/IPv6 dual-stack. Options: true: IPv4/IPv6 dual-stack is enabled. false: Only IPv4 is used. Default value: false
hostNetwork	HostNetwork object	Details: Node network parameters, including VPC and subnet ID. This field is mandatory because nodes in a cluster communicate with each other using a VPC. Constraints: None
containerNetwork	ContainerNetwork object	Details: Container network parameters, including the container network model and container CIDR block Constraints: None
eniNetwork	EniNetwork object	Details: Configuration of the Cloud Native 2.0 network model. You need to specify this field when creating a CCE Turbo cluster. Constraints: None
serviceNetwork	ServiceNetwork object	Details: Service CIDR block, including IPv4 CIDR block Constraints: None
publicAccess	PublicAccess object	Details: Cluster API access control Constraints: None
authentication	Authentication object	Details: Configurations of the cluster authentication mode Constraints: None
billingMode	Integer	Details: Cluster billing mode Constraints: None Options: 0: pay-per-use 1: yearly/monthly Default value: 0
masters	Array of MasterSpec objects	Details: Advanced configurations of master nodes Constraints: If this parameter is not specified, no value is returned.
kubernetesSvcIpRange	String	Details: Service CIDR blocks which kubernetes clusterIP must fall within. This field is available only for clusters of v1.11.7 and later. If this parameter is not specified during cluster creation, the default value 10.247.0.0/16 is used. This parameter is being discarded, so you can use serviceNetwork instead. The new field contains the IPv4 CIDR blocks. Constraints: None Options: N/A Default value: N/A
clusterTags	Array of ResourceTag objects	Details: Cluster resource tags Constraints: None
kubeProxyMode	String	Details: Service forwarding mode Constraints: None Options: iptables: traditional kube-proxy mode, which uses iptables rules to implement Service load balancing. In this mode, too many iptables rules will be generated when many Services are deployed. Additionally, non-incremental updates will cause latency and obvious performance issues in the case of heavy service traffic. ipvs: optimized kube-proxy mode with higher throughput and faster speed. This mode supports incremental updates and can keep connections uninterrupted during Service updates. It is suitable for large-sized clusters. Default value: iptables is used by default.
az	String	Details: AZ. This field is returned only for a query. For details about AZs supported by CCE, see Regions and Endpoints. Constraints: None
extendParam	ClusterExtendParam object	Details: Extended field to decide whether a cluster will span across AZs or belong to a specified enterprise project, or whether a dedicated CCE cluster is to be created Constraints: None
supportIstio	Boolean	Details: Whether Istio is supported Constraints: None Options: true: Istio is supported. false: Istio is not supported. Default value: true
enableDistMgt	Boolean	Details: Whether to enable support for remote clouds Constraints: Only CCE Turbo clusters support this function. Options: true: Support for remote clouds is enabled. false: Support for remote clouds is not enabled. Default value: false
configurationsOverride	Array of PackageConfiguration objects	Details: Cluster default component configuration override. For details about the supported components and their parameters, see Modifying Cluster Configurations. Constraints: If you specify a component or parameter that is not supported, the configuration item will be ignored.
clusterOps	ClusterOps object	Details: Cluster O&M settings Constraints: None
enableAutopilot	Boolean	Details: Whether the cluster is an Autopilot cluster Constraints: None Options: true: Create an Autopilot cluster. false: Create a CCE standard or a Turbo cluster. Default value: false

**Table 7** HostNetwork
Parameter	Type	Description
vpc	String	Details: ID of the VPC used to create a master node Constraints: None Options: N/A Default value: N/A You can obtain the value in either of the following ways: Method 1: Log in to the VPC console and view the VPC ID on the VPC details page. Method 2: Use the VPC API. For details, see Querying VPCs.
subnet	String	Details: Network ID of the subnet used to create a master node Constraints: None Options: N/A Default value: N/A You can obtain the value in either of the following ways: Method 1: Log in to the VPC console, click the target subnet on the Subnets page, and view the network ID on the displayed page. Method 2: Use the VPC API. For details, see Querying Subnets.
SecurityGroup	String	Details: ID of the default node security group in a cluster Constraints: None Options: N/A Default value: If this parameter is not specified, the system automatically creates a default node security group. If this parameter is specified, the cluster will be bound to the specified security group. NOTE: To ensure proper communication, allow traffic from certain ports to the specified node security group. For details, see How Can I Configure a Security Group Rule in a Cluster?
controlPlaneSecurityGroup	String	Details: ID of the master node security group in a cluster Constraints: The value is automatically generated after the object is created. A user-defined value will not take effect. Options: N/A Default value: N/A

**Table 8** ContainerNetwork
Parameter	Type	Description
mode	String	Details: Container network type Constraints: Only one container network type can be selected. Options: overlay_l2: an overlay_l2 network (container tunnel network) built for containers by using OpenVSwitch (OVS). vpc-router: an underlay_l2 network built for containers by using IPvlan and custom VPC routes. eni: a Cloud Native 2.0 network. This model has integrated cloud native elastic network interfaces (ENIs), uses VPC CIDR blocks to allocate container IP addresses, and supports passthrough networking. You can use this model when creating a CCE Turbo cluster. Default value*: N/A
cidr	String	Details: Container CIDR block. 10.0.0.0/12-19, 172.16.0.0/16-19, or 192.168.0.0/16-19 is recommended. If the selected CIDR block conflicts with existing ones, an error will be reported. Constraints: This parameter cannot be modified after the cluster is created. (It has been discarded. If cidrs has been configured, the specified CIDR blocks will be ignored.) Once you have created a cluster that uses a VPC network, you can add new CIDR blocks, but you are unable to modify the existing ones. If you need to adjust the CIDR blocks, you will have to create a new cluster. Options: Values in IPv4 CIDR format Default value: If this parameter is left blank, a unique CIDR block is randomly allocated from 172.(16–31).0.0/16 and 10.(0 \| 16 \| 32 \| 48 \| 64 \| 80 \| 96 \| 112).0.0/12.
cidrs	Array of ContainerCIDR objects	Details: List of container CIDR blocks. In clusters of v1.21 or later, the cidrs field is used. When the cluster network type is vpc-router, you can configure a maximum of 20 container CIDR blocks. In clusters of versions earlier than v1.21, if the cidrs field is used, the first CIDR element in the array is used as the container CIDR block. Constraints: Once you have created a cluster that uses a container tunnel network, you cannot modify the CIDR blocks. Once you have created a cluster that uses a VPC network, you can add new CIDR blocks, but you are unable to modify the existing ones. If you need to adjust the CIDR blocks, you will have to create a new cluster.

**Table 9** ContainerCIDR
Parameter	Type	Description
cidr	String	Details: Container CIDR block. 10.0.0.0/12-19, 172.16.0.0/16-19, or 192.168.0.0/16-19 is recommended. Constraints: If a CIDR block conflict occurs, an error will be reported. Options: N/A Default value: N/A

**Table 10** EniNetwork
Parameter	Type	Description
eniSubnetId	String	Details: IPv4 subnet ID list of the subnet where an ENI resides Constraints: IPv6 is not supported. This parameter is being discarded, and the new field subnets is recommended. Options: N/A Default value: N/A You can obtain the value in either of the following ways: Method 1: Log in to the VPC console, click the target subnet on the Subnets page, and view the IPv4 subnet ID on the displayed page. Method 2: Use the VPC API. For details, see Querying Subnets.
eniSubnetCIDR	String	Details: ENI subnet CIDR block Constraints: This parameter is being discarded. The new field subnets is recommended. Options: N/A Default value: N/A
subnets	Array of NetworkSubnet objects	Details: List of IPv4 subnet IDs Constraints: None

**Table 11** NetworkSubnet
Parameter	Type	Description
subnetID	String	Details: IPv4 subnet ID of the subnet used to create a master node Constraints: IPv6 is not supported. Options: N/A Default value: N/A You can obtain the value in either of the following ways: Method 1: Log in to the VPC console, click the target subnet on the Subnets page, and view the IPv4 subnet ID on the displayed page. Method 2: Use the VPC API. For details, see Querying Subnets.

**Table 12** ServiceNetwork
Parameter	Type	Description
IPv4CIDR	String	Details: Value range of the Kubernetes clusterIP IPv4 CIDR block Constraints: None Options: N/A Default value: 10.247.0.0/16
IPv6CIDR	String	Details: Value range of the Kubernetes clusterIP IPv6 CIDR block Constraints: IPv6 Service CIDR blocks can be configured only for CCE Turbo clusters with IPv6 dual stack enabled. Options: N/A Default value: Default value for a CCE Turbo cluster: fc00::/112 Default value for a CCE standard cluster: fd00:1234::/120

**Table 13** PublicAccess
Parameter	Type	Description
cidrs	Array of strings	Details: Trustlist of network CIDRs that are allowed to access cluster APIs. You are advised to allow the traffic from VPC and container network CIDRs. Constraints: This parameter is valid only when a cluster is created. Options: N/A Default value: By default, no trustlist is configured, and the value is 0.0.0.0/0.

**Table 14** Authentication
Parameter	Type	Description
mode	String	Details: Cluster authentication mode Constraints: None Options: Clusters of Kubernetes 1.11 or earlier support x509, rbac, and authenticating_proxy. The parameter defaults to x509. Clusters of Kubernetes 1.13 or later support rbac and authenticating_proxy. The parameter defaults to rbac. Default value: Clusters of Kubernetes 1.11 or earlier: x509 Clusters of Kubernetes 1.13 or later: rbac
authenticatingProxy	AuthenticatingProxy object	Details: Configuration related to the authenticating_proxy mode Constraints: This field is mandatory when the authentication mode is authenticating_proxy.

**Table 15** AuthenticatingProxy
Parameter	Type	Description
ca	String	Details: X509 CA certificate (Base64-encoded) configured in authenticating_proxy mode Constraints: This field is mandatory when the cluster authentication mode is authenticating_proxy. Options: Maximum size: 1 MB Default value: N/A
cert	String	Details: Client certificate issued by the X509 CA certificate configured in authenticating_proxy mode, which is used for authentication from kube-apiserver to the extended API server. (The value must be Base64-encoded.) Constraints: This field is mandatory when the cluster authentication mode is authenticating_proxy. Options: Maximum size: 1 MB Default value: N/A
privateKey	String	Details: Private key of the client certificate issued by the X509 CA certificate configured in authenticating_proxy mode, which is used for authentication from kube-apiserver to the extended API server. The private key used by the Kubernetes cluster does not support password encryption. Use an unencrypted private key. (The value must be Base64-encoded.) Constraints: This field is mandatory when the cluster authentication mode is authenticating_proxy. Options: Maximum size: 1 MB Default value: N/A

**Table 16** MasterSpec
Parameter	Type	Description
availabilityZone	String	Details: AZ Constraints: None Options: N/A Default value: N/A

**Table 17** ResourceTag
Parameter	Type	Description
key	String	Details: Key Constraints: None Options: The value cannot be empty and cannot start or end with spaces. A maximum of 128 characters are supported. Letters, digits, and spaces in UTF-8 format are supported. The value can contain the following special characters: _.:=+-@ The value cannot start with _sys_. Default value: N/A
value	String	Details: Value Constraints: None Options: The value can be null but not the default. Max characters: 255 Letters, digits, and spaces in UTF-8 format are supported. The value can contain the following special characters: _.:/=+-@ Default value: N/A

**Table 18** ClusterExtendParam
Parameter	Type	Description
clusterAZ	String	Details: AZs of master nodes in a cluster For details about AZs supported by CCE, see Regions and Endpoints. Constraints: None Options: AZs supported by a specified region multi_az: (Optional) multiple AZs, which can be configured only when a cluster with multiple master nodes is used AZs of the dedicated cloud computing pool: Master nodes will be deployed in the DeC AZs. It is mandatory for dedicated CCE clusters. Default value: If no AZ is specified, an AZ is randomly allocated by default.
dssMasterVolumes	String	Details: Whether the system and data disks of a master node use dedicated distributed storage. If this parameter is omitted or left unspecified, EVS disks are used by default. Constraints: This parameter is mandatory for dedicated CCE clusters. It is in the following format: <rootVol.dssPoolID>.<rootVol.volType>;<dataVol.dssPoolID>.<dataVol.volType> Specifically: rootVol specifies the system disk. dataVol specifies the data disk. dssPoolID specifies the ID of the DSS storage pool. volType specifies the storage volume type of the DSS storage pool, such as SAS, SSD, SATA, ESSD, GPSDD, ESSD2, and GPSSD2. Options: N/A Default value: N/A Example: c950ee97-587c-4f24-8a74-3367e3da570f.sas;6edbc2f4-1507-44f8-ac0d-eed1d2608d38.ssd NOTE: This field cannot be configured for non-dedicated CCE clusters.
enterpriseProjectId	String	Details: ID of the enterprise project that a cluster belongs to Constraints: An enterprise project can be configured only after the enterprise project function is enabled. Options: N/A Default value: N/A
kubeProxyMode	String	Details: Service forwarding mode Constraints: This parameter has been discarded. If both this parameter and kubeProxyMode in ClusterSpec are specified, the latter is used. Options: iptables: traditional kube-proxy mode, which uses iptables rules to implement Service load balancing. In this mode, too many iptables rules will be generated when many Services are deployed. Additionally, non-incremental updates will cause latency and obvious performance issues in the case of heavy service traffic. ipvs: optimized kube-proxy mode with higher throughput and faster speed. This mode supports incremental updates and can keep connections uninterrupted during Service updates. It is suitable for large-sized clusters. Default value: iptables
clusterExternalIP	String	Details: EIP of the master node Constraints: None Options: N/A Default value: N/A
alpha.cce/fixPoolMask	String	Details: Number of mask bits of the fixed IP address pool of the container networks. This parameter determines the maximum number of IP addresses that can be assigned to containers on a node. This, along with the maxPods setting during node creation, determines the maximum number of pods that can be created on a node. For details, see Maximum Number of Pods That Can Be Created on a Node. Constraints: Only the vpc-router networks support this function. Options: Integers from 24 to 28 Default value: 24
decMasterFlavor	String	Details: Master node flavor in a dedicated CCE cluster Constraints: None Options: N/A Default value: N/A
dockerUmaskMode	String	Details: Default UmaskMode configuration of Docker in a cluster Constraints: None Options: secure normal Default value: normal
kubernetes.io/cpuManagerPolicy	String	Details: Cluster CPU management policy Constraints: None Options: none or null: disables pods from exclusively occupying CPUs. Select this option if you want a large pool of shareable CPU cores. static: enables pods to exclusively occupy CPUs. Select this option if your workload is sensitive to CPU cache and scheduling latency. In a CCE Turbo cluster, this setting is valid only for nodes where common containers, not secure containers, run. Default value: none
orderID	String	Details: Order ID Constraints: This parameter is returned in the response when the cluster is billed on a yearly/monthly basis with auto payment enabled (only in creation scenarios). Options: N/A Default value: N/A
periodType	String	Details: The subscription term unit Constraints: As a request parameter, it is valid and mandatory when billingMode is set to 1, which is, the yearly/monthly billing mode is configured. As a response parameter, it is returned only when a yearly/monthly cluster is created. Options: month year Default value: N/A
periodNum	Integer	Details: Number of subscription periods Constraints: As a request parameter, it is valid and mandatory when billingMode is set to 1. As a response parameter, it is returned only when a yearly/monthly cluster is created. Options: If periodType is month, the value ranges from 1 to 9. If periodType is year, the value ranges from 1 to 3. Default value: N/A
isAutoRenew	String	Details: Whether to enable auto renewal Constraints: This field is valid only when billingMode is set to 1. Options: true: Auto renewal is enabled. false: Auto renewal is not enabled. Default value: false
isAutoPay	String	Details: Whether to enable auto payment Constraints: This field is valid only when billingMode is set to 1. Options: true: Auto payment is enabled. false: Auto payment is not enabled. Default value: false
upgradefrom	String	Details: Records of how a cluster is upgraded to its current version Constraints: None Options: N/A Default value: N/A

**Table 19** PackageConfiguration
Parameter	Type	Description
name	String	Details: Component name Constraints: None Options: N/A Default value: N/A
configurations	Array of ConfigurationItem objects	Details: Component configuration items Constraints: None

**Table 20** ConfigurationItem
Parameter	Type	Description
name	String	Details: Component configuration item name Constraints: None Options: N/A Default value: N/A
value	Object	Details: Component configuration item value Constraints: None Options: N/A Default value: N/A

**Table 21** ClusterOps
Parameter	Type	Description
alarm	AlarmInfo object	Details: Alarm assistant settings. CCE is integrated with AOM, which enables alarm functionality, allowing for easy search and configuration of alarms. The Cloud Native Cluster Monitoring add-on sends metric rule data in CCE alarm center to AOM instances. Constraints: None

**Table 22** AlarmInfo
Parameter	Type	Description
topics	Array of strings	Details: Contact group list. You can enter SMN topic names and configure contact groups to manage endpoints that have subscribed to alarm messages. Constraints: None
alarmRuleTemplateId	String	Details: Alarm rule template ID transferred when the alarm assistant is enabled. By default, the alarm rule template in the container scenario is used. Constraints: None Options: N/A Default value: N/A
promInstanceID	String	Details: ID of the AOM Prometheus instance transferred when the alarm assistant is enabled. If the Prometheus add-on is not installed or the AOM instance is not connected, there is no need to specify this parameter. In this case, the alarm center will not generate metric alarm rules. Constraints: None Options: N/A Default value: N/A
promEnterpriseProjectID	String	Details: Enterprise project ID of the AOM Prometheus instance transferred when the alarm assistant is enabled. If the Prometheus add-on is not installed or the AOM instance is not connected, there is no need to specify this parameter. In this case, the alarm center will not generate metric alarm rules. Constraints: None Options: N/A Default value: N/A

**Table 23** ClusterStatus
Parameter	Type	Description
phase	String	Details: Cluster status Constraints: None Options: Available: The cluster is running properly. Unavailable: The cluster is exhibiting unexpected behavior and needs to be manually deleted. ScalingUp: Nodes are being added to the cluster. ScalingDown: The cluster is being downsized to fewer nodes. Creating: The cluster is being created. Deleting: The cluster is being deleted. Upgrading: The cluster is being upgraded. Resizing: Cluster specifications are being changed. ResizeFailed: Cluster specification changing is abnormal. RollingBack: The cluster is being rolled back. RollbackFailed: The cluster rollback is abnormal. Hibernating: The cluster is being hibernated. Hibernation: The cluster is in hibernation. Freezing: The cluster is being frozen. Frozen: The cluster has been frozen. UnFreezing: The cluster is being unfrozen. Awaking: The cluster is being woken up from hibernation. Empty: The cluster does not have any resources. This field has been discarded. Error: Resources in the cluster are abnormal. You can manually delete the cluster.
jobID	String	Details: ID of the job associated with the current cluster status. The system supports: ID of the associated job returned when creating a cluster. You can use it to obtain the auxiliary jobs for creating a cluster. ID of the associated job returned when a cluster fails to be deleted or is being deleted. If this parameter is not empty, you can use the job ID to obtain the auxiliary jobs for deleting a cluster. Constraints: None Options: N/A NOTE: Jobs are short-lived. Do not use job information in scenarios such as cluster status determination.
reason	String	Details: Why a cluster changes to the current state. This parameter is returned if the cluster is not in the Available state. Constraints: None Options: N/A
message	String	Details: Detailed information about why a cluster changes to the current state. This parameter is returned if the cluster is not in the Available state. Constraints: None Options: N/A
endpoints	Array of ClusterEndpoints objects	Details: Access address of kube-apiserver in a cluster Constraints: None
isLocked	Boolean	Details: CBC resource locked Constraints: None Options: true: The resource is locked by CBC. false: The resource is not locked by CBC.
lockScene	String	Details: CBC resource locking scenario Constraints: None Options: N/A
lockSource	String	Details: Resource locked Constraints: None Options: N/A
lockSourceId	String	Details: ID of a locked resource Constraints: None Options: N/A
deleteOption	Object	Details: Status of the configuration to be deleted. This parameter is contained only in the response to the deletion request. Constraints: None Options: N/A
deleteStatus	Object	Details: Information of the status to be deleted. This parameter is contained only in the response to the deletion request. Constraints: None Options: N/A

**Table 24** ClusterEndpoints
Parameter	Type	Description
url	String	Details: Access address of kube-apiserver in a cluster Constraints: None Options: N/A
type	String	Details: Type of the cluster access address Constraints: None Options: Internal: address for internal network access External: address for external network access

Example Requests

None

Example Responses

Status code: 200

The job for deleting a cluster is successfully delivered.

{
  "kind" : "Cluster",
  "apiVersion" : "v3",
  "metadata" : {
    "alias" : "mycluster",
    "name" : "mycluster",
    "uid" : "fc563b3c-9552-11e8-8beb-0255ac106311",
    "creationTimestamp" : "2018-08-01 06:20:28.81667161 +0000 UTC",
    "updateTimestamp" : "2018-08-01 09:23:38.944333282 +0000 UTC"
  },
  "spec" : {
    "type" : "VirtualMachine",
    "flavor" : "cce.s1.small",
    "version" : "v1.7.3-r13",
    "description" : "new description",
    "hostNetwork" : {
      "vpc" : "cbed56e8-03e7-4304-a477-b54bef0857c3",
      "subnet" : "5de50062-2be2-4a52-893e-e0906e3e9c9d"
    },
    "containerNetwork" : {
      "mode" : "overlay_l2",
      "cidr" : "172.16.0.0/16"
    },
    "authentication" : {
      "mode" : "x509",
      "authenticatingProxy" : { }
    },
    "billingMode" : 0
  },
  "status" : {
    "phase" : "Available",
    "jobID" : "e8ebf96c-956d-11e8-a949-0255ac10575d",
    "endpoints" : [ {
      "url" : "https://192.168.0.16:5443",
      "type" : "Internal"
    } ]
  }
}

SDK Sample Code

The SDK sample code is as follows.

      
       
         
         
           package com.huaweicloud.sdk.test;

import com.huaweicloud.sdk.core.auth.ICredential;
import com.huaweicloud.sdk.core.auth.BasicCredentials;
import com.huaweicloud.sdk.core.exception.ConnectionException;
import com.huaweicloud.sdk.core.exception.RequestTimeoutException;
import com.huaweicloud.sdk.core.exception.ServiceResponseException;
import com.huaweicloud.sdk.cce.v3.region.CceRegion;
import com.huaweicloud.sdk.cce.v3.*;
import com.huaweicloud.sdk.cce.v3.model.*;


public class DeleteClusterSolution {

    public static void main(String[] args) {
        // The AK and SK used for authentication are hard-coded or stored in plaintext, which has great security risks. It is recommended that the AK and SK be stored in ciphertext in configuration files or environment variables and decrypted during use to ensure security.
        // In this example, AK and SK are stored in environment variables for authentication. Before running this example, set environment variables CLOUD_SDK_AK and CLOUD_SDK_SK in the local environment
        String ak = System.getenv("CLOUD_SDK_AK");
        String sk = System.getenv("CLOUD_SDK_SK");
        String projectId = "{project_id}";

        ICredential auth = new BasicCredentials()
                .withProjectId(projectId)
                .withAk(ak)
                .withSk(sk);

        CceClient client = CceClient.newBuilder()
                .withCredential(auth)
                .withRegion(CceRegion.valueOf("<YOUR REGION>"))
                .build();
        DeleteClusterRequest request = new DeleteClusterRequest();
        request.withClusterId("{cluster_id}");
        try {
            DeleteClusterResponse response = client.deleteCluster(request);
            System.out.println(response.toString());
        } catch (ConnectionException e) {
            e.printStackTrace();
        } catch (RequestTimeoutException e) {
            e.printStackTrace();
        } catch (ServiceResponseException e) {
            e.printStackTrace();
            System.out.println(e.getHttpStatusCode());
            System.out.println(e.getRequestId());
            System.out.println(e.getErrorCode());
            System.out.println(e.getErrorMsg());
        }
    }
}

          

        

      
     

      
       
         
         
           # coding: utf-8

import os
from huaweicloudsdkcore.auth.credentials import BasicCredentials
from huaweicloudsdkcce.v3.region.cce_region import CceRegion
from huaweicloudsdkcore.exceptions import exceptions
from huaweicloudsdkcce.v3 import *

if __name__ == "__main__":
    # The AK and SK used for authentication are hard-coded or stored in plaintext, which has great security risks. It is recommended that the AK and SK be stored in ciphertext in configuration files or environment variables and decrypted during use to ensure security.
    # In this example, AK and SK are stored in environment variables for authentication. Before running this example, set environment variables CLOUD_SDK_AK and CLOUD_SDK_SK in the local environment
    ak = os.environ["CLOUD_SDK_AK"]
    sk = os.environ["CLOUD_SDK_SK"]
    projectId = "{project_id}"

    credentials = BasicCredentials(ak, sk, projectId)

    client = CceClient.new_builder() \
        .with_credentials(credentials) \
        .with_region(CceRegion.value_of("<YOUR REGION>")) \
        .build()

    try:
        request = DeleteClusterRequest()
        request.cluster_id = "{cluster_id}"
        response = client.delete_cluster(request)
        print(response)
    except exceptions.ClientRequestException as e:
        print(e.status_code)
        print(e.request_id)
        print(e.error_code)
        print(e.error_msg)

          

        

      
     

      
       
         
         
           package main

import (
	"fmt"
	"github.com/huaweicloud/huaweicloud-sdk-go-v3/core/auth/basic"
    cce "github.com/huaweicloud/huaweicloud-sdk-go-v3/services/cce/v3"
	"github.com/huaweicloud/huaweicloud-sdk-go-v3/services/cce/v3/model"
    region "github.com/huaweicloud/huaweicloud-sdk-go-v3/services/cce/v3/region"
)

func main() {
    // The AK and SK used for authentication are hard-coded or stored in plaintext, which has great security risks. It is recommended that the AK and SK be stored in ciphertext in configuration files or environment variables and decrypted during use to ensure security.
    // In this example, AK and SK are stored in environment variables for authentication. Before running this example, set environment variables CLOUD_SDK_AK and CLOUD_SDK_SK in the local environment
    ak := os.Getenv("CLOUD_SDK_AK")
    sk := os.Getenv("CLOUD_SDK_SK")
    projectId := "{project_id}"

    auth := basic.NewCredentialsBuilder().
        WithAk(ak).
        WithSk(sk).
        WithProjectId(projectId).
        Build()

    client := cce.NewCceClient(
        cce.CceClientBuilder().
            WithRegion(region.ValueOf("<YOUR REGION>")).
            WithCredential(auth).
            Build())

    request := &model.DeleteClusterRequest{}
	request.ClusterId = "{cluster_id}"
	response, err := client.DeleteCluster(request)
	if err == nil {
        fmt.Printf("%+v\n", response)
    } else {
        fmt.Println(err)
    }
}

          

        

      
     