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cluster_service.proto
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cluster_service.proto
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// Copyright 2019 Google LLC.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
syntax = "proto3";
package google.container.v1;
import "google/api/annotations.proto";
import "google/api/client.proto";
import "google/api/field_behavior.proto";
import "google/protobuf/empty.proto";
import "google/protobuf/timestamp.proto";
option csharp_namespace = "Google.Cloud.Container.V1";
option go_package = "google.golang.org/genproto/googleapis/container/v1;container";
option java_multiple_files = true;
option java_outer_classname = "ClusterServiceProto";
option java_package = "com.google.container.v1";
option php_namespace = "Google\\Cloud\\Container\\V1";
option ruby_package = "Google::Cloud::Container::V1";
// Google Kubernetes Engine Cluster Manager v1
service ClusterManager {
option (google.api.default_host) = "container.googleapis.com";
option (google.api.oauth_scopes) = "https://www.googleapis.com/auth/cloud-platform";
// Lists all clusters owned by a project in either the specified zone or all
// zones.
rpc ListClusters(ListClustersRequest) returns (ListClustersResponse) {
option (google.api.http) = {
get: "/v1/{parent=projects/*/locations/*}/clusters"
additional_bindings {
get: "/v1/projects/{project_id}/zones/{zone}/clusters"
}
};
option (google.api.method_signature) = "project_id,zone";
option (google.api.method_signature) = "parent";
}
// Gets the details of a specific cluster.
rpc GetCluster(GetClusterRequest) returns (Cluster) {
option (google.api.http) = {
get: "/v1/{name=projects/*/locations/*/clusters/*}"
additional_bindings {
get: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id";
option (google.api.method_signature) = "name";
}
// Creates a cluster, consisting of the specified number and type of Google
// Compute Engine instances.
//
// By default, the cluster is created in the project's
// [default network](https://cloud.google.com/compute/docs/networks-and-firewalls#networks).
//
// One firewall is added for the cluster. After cluster creation,
// the Kubelet creates routes for each node to allow the containers
// on that node to communicate with all other instances in the
// cluster.
//
// Finally, an entry is added to the project's global metadata indicating
// which CIDR range the cluster is using.
rpc CreateCluster(CreateClusterRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{parent=projects/*/locations/*}/clusters"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster";
option (google.api.method_signature) = "parent,cluster";
}
// Updates the settings of a specific cluster.
rpc UpdateCluster(UpdateClusterRequest) returns (Operation) {
option (google.api.http) = {
put: "/v1/{name=projects/*/locations/*/clusters/*}"
body: "*"
additional_bindings {
put: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,update";
option (google.api.method_signature) = "name,update";
}
// Updates the version and/or image type for the specified node pool.
rpc UpdateNodePool(UpdateNodePoolRequest) returns (Operation) {
option (google.api.http) = {
put: "/v1/{name=projects/*/locations/*/clusters/*/nodePools/*}"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools/{node_pool_id}/update"
body: "*"
}
};
}
// Sets the autoscaling settings for the specified node pool.
rpc SetNodePoolAutoscaling(SetNodePoolAutoscalingRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*/nodePools/*}:setAutoscaling"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools/{node_pool_id}/autoscaling"
body: "*"
}
};
}
// Sets the logging service for a specific cluster.
rpc SetLoggingService(SetLoggingServiceRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setLogging"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/logging"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,logging_service";
option (google.api.method_signature) = "name,logging_service";
}
// Sets the monitoring service for a specific cluster.
rpc SetMonitoringService(SetMonitoringServiceRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setMonitoring"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/monitoring"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,monitoring_service";
option (google.api.method_signature) = "name,monitoring_service";
}
// Sets the addons for a specific cluster.
rpc SetAddonsConfig(SetAddonsConfigRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setAddons"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/addons"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,addons_config";
option (google.api.method_signature) = "name,addons_config";
}
// Sets the locations for a specific cluster.
rpc SetLocations(SetLocationsRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setLocations"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/locations"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,locations";
option (google.api.method_signature) = "name,locations";
}
// Updates the master for a specific cluster.
rpc UpdateMaster(UpdateMasterRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:updateMaster"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/master"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,master_version";
option (google.api.method_signature) = "name,master_version";
}
// Sets master auth materials. Currently supports changing the admin password
// or a specific cluster, either via password generation or explicitly setting
// the password.
rpc SetMasterAuth(SetMasterAuthRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setMasterAuth"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}:setMasterAuth"
body: "*"
}
};
}
// Deletes the cluster, including the Kubernetes endpoint and all worker
// nodes.
//
// Firewalls and routes that were configured during cluster creation
// are also deleted.
//
// Other Google Compute Engine resources that might be in use by the cluster,
// such as load balancer resources, are not deleted if they weren't present
// when the cluster was initially created.
rpc DeleteCluster(DeleteClusterRequest) returns (Operation) {
option (google.api.http) = {
delete: "/v1/{name=projects/*/locations/*/clusters/*}"
additional_bindings {
delete: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id";
option (google.api.method_signature) = "name";
}
// Lists all operations in a project in a specific zone or all zones.
rpc ListOperations(ListOperationsRequest) returns (ListOperationsResponse) {
option (google.api.http) = {
get: "/v1/{parent=projects/*/locations/*}/operations"
additional_bindings {
get: "/v1/projects/{project_id}/zones/{zone}/operations"
}
};
option (google.api.method_signature) = "project_id,zone";
}
// Gets the specified operation.
rpc GetOperation(GetOperationRequest) returns (Operation) {
option (google.api.http) = {
get: "/v1/{name=projects/*/locations/*/operations/*}"
additional_bindings {
get: "/v1/projects/{project_id}/zones/{zone}/operations/{operation_id}"
}
};
option (google.api.method_signature) = "project_id,zone,operation_id";
}
// Cancels the specified operation.
rpc CancelOperation(CancelOperationRequest) returns (google.protobuf.Empty) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/operations/*}:cancel"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/operations/{operation_id}:cancel"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,operation_id";
option (google.api.method_signature) = "name";
}
// Returns configuration info about the Google Kubernetes Engine service.
rpc GetServerConfig(GetServerConfigRequest) returns (ServerConfig) {
option (google.api.http) = {
get: "/v1/{name=projects/*/locations/*}/serverConfig"
additional_bindings {
get: "/v1/projects/{project_id}/zones/{zone}/serverconfig"
}
};
option (google.api.method_signature) = "project_id,zone";
option (google.api.method_signature) = "name";
}
// Lists the node pools for a cluster.
rpc ListNodePools(ListNodePoolsRequest) returns (ListNodePoolsResponse) {
option (google.api.http) = {
get: "/v1/{parent=projects/*/locations/*/clusters/*}/nodePools"
additional_bindings {
get: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id";
option (google.api.method_signature) = "parent";
}
// Retrieves the requested node pool.
rpc GetNodePool(GetNodePoolRequest) returns (NodePool) {
option (google.api.http) = {
get: "/v1/{name=projects/*/locations/*/clusters/*/nodePools/*}"
additional_bindings {
get: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools/{node_pool_id}"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,node_pool_id";
option (google.api.method_signature) = "name";
}
// Creates a node pool for a cluster.
rpc CreateNodePool(CreateNodePoolRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{parent=projects/*/locations/*/clusters/*}/nodePools"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,node_pool";
option (google.api.method_signature) = "parent,node_pool";
}
// Deletes a node pool from a cluster.
rpc DeleteNodePool(DeleteNodePoolRequest) returns (Operation) {
option (google.api.http) = {
delete: "/v1/{name=projects/*/locations/*/clusters/*/nodePools/*}"
additional_bindings {
delete: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools/{node_pool_id}"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,node_pool_id";
option (google.api.method_signature) = "name";
}
// Rolls back a previously Aborted or Failed NodePool upgrade.
// This makes no changes if the last upgrade successfully completed.
rpc RollbackNodePoolUpgrade(RollbackNodePoolUpgradeRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*/nodePools/*}:rollback"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools/{node_pool_id}:rollback"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,node_pool_id";
option (google.api.method_signature) = "name";
}
// Sets the NodeManagement options for a node pool.
rpc SetNodePoolManagement(SetNodePoolManagementRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*/nodePools/*}:setManagement"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools/{node_pool_id}/setManagement"
body: "*"
}
};
}
// Sets labels on a cluster.
rpc SetLabels(SetLabelsRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setResourceLabels"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/resourceLabels"
body: "*"
}
};
}
// Enables or disables the ABAC authorization mechanism on a cluster.
rpc SetLegacyAbac(SetLegacyAbacRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setLegacyAbac"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/legacyAbac"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,enabled";
option (google.api.method_signature) = "name,enabled";
}
// Starts master IP rotation.
rpc StartIPRotation(StartIPRotationRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:startIpRotation"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}:startIpRotation"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id";
option (google.api.method_signature) = "name";
}
// Completes master IP rotation.
rpc CompleteIPRotation(CompleteIPRotationRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:completeIpRotation"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}:completeIpRotation"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id";
option (google.api.method_signature) = "name";
}
// Sets the size for a specific node pool.
rpc SetNodePoolSize(SetNodePoolSizeRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*/nodePools/*}:setSize"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}/nodePools/{node_pool_id}/setSize"
body: "*"
}
};
}
// Enables or disables Network Policy for a cluster.
rpc SetNetworkPolicy(SetNetworkPolicyRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setNetworkPolicy"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}:setNetworkPolicy"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,network_policy";
option (google.api.method_signature) = "name,network_policy";
}
// Sets the maintenance policy for a cluster.
rpc SetMaintenancePolicy(SetMaintenancePolicyRequest) returns (Operation) {
option (google.api.http) = {
post: "/v1/{name=projects/*/locations/*/clusters/*}:setMaintenancePolicy"
body: "*"
additional_bindings {
post: "/v1/projects/{project_id}/zones/{zone}/clusters/{cluster_id}:setMaintenancePolicy"
body: "*"
}
};
option (google.api.method_signature) = "project_id,zone,cluster_id,maintenance_policy";
option (google.api.method_signature) = "name,maintenance_policy";
}
// Lists subnetworks that are usable for creating clusters in a project.
rpc ListUsableSubnetworks(ListUsableSubnetworksRequest) returns (ListUsableSubnetworksResponse) {
option (google.api.http) = {
get: "/v1/{parent=projects/*}/aggregated/usableSubnetworks"
};
}
}
// Parameters that describe the nodes in a cluster.
message NodeConfig {
// The name of a Google Compute Engine [machine
// type](https://cloud.google.com/compute/docs/machine-types) (e.g.
// `n1-standard-1`).
//
// If unspecified, the default machine type is
// `n1-standard-1`.
string machine_type = 1;
// Size of the disk attached to each node, specified in GB.
// The smallest allowed disk size is 10GB.
//
// If unspecified, the default disk size is 100GB.
int32 disk_size_gb = 2;
// The set of Google API scopes to be made available on all of the
// node VMs under the "default" service account.
//
// The following scopes are recommended, but not required, and by default are
// not included:
//
// * `https://www.googleapis.com/auth/compute` is required for mounting
// persistent storage on your nodes.
// * `https://www.googleapis.com/auth/devstorage.read_only` is required for
// communicating with **gcr.io**
// (the [Google Container Registry](https://cloud.google.com/container-registry/)).
//
// If unspecified, no scopes are added, unless Cloud Logging or Cloud
// Monitoring are enabled, in which case their required scopes will be added.
repeated string oauth_scopes = 3;
// The Google Cloud Platform Service Account to be used by the node VMs. If
// no Service Account is specified, the "default" service account is used.
string service_account = 9;
// The metadata key/value pairs assigned to instances in the cluster.
//
// Keys must conform to the regexp [a-zA-Z0-9-_]+ and be less than 128 bytes
// in length. These are reflected as part of a URL in the metadata server.
// Additionally, to avoid ambiguity, keys must not conflict with any other
// metadata keys for the project or be one of the reserved keys:
// "cluster-location"
// "cluster-name"
// "cluster-uid"
// "configure-sh"
// "containerd-configure-sh"
// "enable-os-login"
// "gci-update-strategy"
// "gci-ensure-gke-docker"
// "instance-template"
// "kube-env"
// "startup-script"
// "user-data"
// "disable-address-manager"
// "windows-startup-script-ps1"
// "common-psm1"
// "k8s-node-setup-psm1"
// "install-ssh-psm1"
// "user-profile-psm1"
// "serial-port-logging-enable"
//
// Values are free-form strings, and only have meaning as interpreted by
// the image running in the instance. The only restriction placed on them is
// that each value's size must be less than or equal to 32 KB.
//
// The total size of all keys and values must be less than 512 KB.
map<string, string> metadata = 4;
// The image type to use for this node. Note that for a given image type,
// the latest version of it will be used.
string image_type = 5;
// The map of Kubernetes labels (key/value pairs) to be applied to each node.
// These will added in addition to any default label(s) that
// Kubernetes may apply to the node.
// In case of conflict in label keys, the applied set may differ depending on
// the Kubernetes version -- it's best to assume the behavior is undefined
// and conflicts should be avoided.
// For more information, including usage and the valid values, see:
// https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
map<string, string> labels = 6;
// The number of local SSD disks to be attached to the node.
//
// The limit for this value is dependent upon the maximum number of
// disks available on a machine per zone. See:
// https://cloud.google.com/compute/docs/disks/local-ssd
// for more information.
int32 local_ssd_count = 7;
// The list of instance tags applied to all nodes. Tags are used to identify
// valid sources or targets for network firewalls and are specified by
// the client during cluster or node pool creation. Each tag within the list
// must comply with RFC1035.
repeated string tags = 8;
// Whether the nodes are created as preemptible VM instances. See:
// https://cloud.google.com/compute/docs/instances/preemptible for more
// information about preemptible VM instances.
bool preemptible = 10;
// A list of hardware accelerators to be attached to each node.
// See https://cloud.google.com/compute/docs/gpus for more information about
// support for GPUs.
repeated AcceleratorConfig accelerators = 11;
// Type of the disk attached to each node (e.g. 'pd-standard' or 'pd-ssd')
//
// If unspecified, the default disk type is 'pd-standard'
string disk_type = 12;
// Minimum CPU platform to be used by this instance. The instance may be
// scheduled on the specified or newer CPU platform. Applicable values are the
// friendly names of CPU platforms, such as
// <code>minCpuPlatform: "Intel Haswell"</code> or
// <code>minCpuPlatform: "Intel Sandy Bridge"</code>. For more
// information, read [how to specify min CPU
// platform](https://cloud.google.com/compute/docs/instances/specify-min-cpu-platform)
string min_cpu_platform = 13;
// List of kubernetes taints to be applied to each node.
//
// For more information, including usage and the valid values, see:
// https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
repeated NodeTaint taints = 15;
// Shielded Instance options.
ShieldedInstanceConfig shielded_instance_config = 20;
}
// A set of Shielded Instance options.
message ShieldedInstanceConfig {
// Defines whether the instance has Secure Boot enabled.
//
// Secure Boot helps ensure that the system only runs authentic software by
// verifying the digital signature of all boot components, and halting the
// boot process if signature verification fails.
bool enable_secure_boot = 1;
// Defines whether the instance has integrity monitoring enabled.
//
// Enables monitoring and attestation of the boot integrity of the instance.
// The attestation is performed against the integrity policy baseline. This
// baseline is initially derived from the implicitly trusted boot image when
// the instance is created.
bool enable_integrity_monitoring = 2;
}
// Kubernetes taint is comprised of three fields: key, value, and effect. Effect
// can only be one of three types: NoSchedule, PreferNoSchedule or NoExecute.
//
// For more information, including usage and the valid values, see:
// https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
message NodeTaint {
// Possible values for Effect in taint.
enum Effect {
// Not set
EFFECT_UNSPECIFIED = 0;
// NoSchedule
NO_SCHEDULE = 1;
// PreferNoSchedule
PREFER_NO_SCHEDULE = 2;
// NoExecute
NO_EXECUTE = 3;
}
// Key for taint.
string key = 1;
// Value for taint.
string value = 2;
// Effect for taint.
Effect effect = 3;
}
// The authentication information for accessing the master endpoint.
// Authentication can be done using HTTP basic auth or using client
// certificates.
message MasterAuth {
// The username to use for HTTP basic authentication to the master endpoint.
// For clusters v1.6.0 and later, basic authentication can be disabled by
// leaving username unspecified (or setting it to the empty string).
string username = 1;
// The password to use for HTTP basic authentication to the master endpoint.
// Because the master endpoint is open to the Internet, you should create a
// strong password. If a password is provided for cluster creation, username
// must be non-empty.
string password = 2;
// Configuration for client certificate authentication on the cluster. For
// clusters before v1.12, if no configuration is specified, a client
// certificate is issued.
ClientCertificateConfig client_certificate_config = 3;
// [Output only] Base64-encoded public certificate that is the root of
// trust for the cluster.
string cluster_ca_certificate = 100;
// [Output only] Base64-encoded public certificate used by clients to
// authenticate to the cluster endpoint.
string client_certificate = 101;
// [Output only] Base64-encoded private key used by clients to authenticate
// to the cluster endpoint.
string client_key = 102;
}
// Configuration for client certificates on the cluster.
message ClientCertificateConfig {
// Issue a client certificate.
bool issue_client_certificate = 1;
}
// Configuration for the addons that can be automatically spun up in the
// cluster, enabling additional functionality.
message AddonsConfig {
// Configuration for the HTTP (L7) load balancing controller addon, which
// makes it easy to set up HTTP load balancers for services in a cluster.
HttpLoadBalancing http_load_balancing = 1;
// Configuration for the horizontal pod autoscaling feature, which
// increases or decreases the number of replica pods a replication controller
// has based on the resource usage of the existing pods.
HorizontalPodAutoscaling horizontal_pod_autoscaling = 2;
// Configuration for the Kubernetes Dashboard.
// This addon is deprecated, and will be disabled in 1.15. It is recommended
// to use the Cloud Console to manage and monitor your Kubernetes clusters,
// workloads and applications. For more information, see:
// https://cloud.google.com/kubernetes-engine/docs/concepts/dashboards
KubernetesDashboard kubernetes_dashboard = 3 [deprecated = true];
// Configuration for NetworkPolicy. This only tracks whether the addon
// is enabled or not on the Master, it does not track whether network policy
// is enabled for the nodes.
NetworkPolicyConfig network_policy_config = 4;
// Configuration for the Cloud Run addon, which allows the user to use a
// managed Knative service.
CloudRunConfig cloud_run_config = 7;
}
// Configuration options for the HTTP (L7) load balancing controller addon,
// which makes it easy to set up HTTP load balancers for services in a cluster.
message HttpLoadBalancing {
// Whether the HTTP Load Balancing controller is enabled in the cluster.
// When enabled, it runs a small pod in the cluster that manages the load
// balancers.
bool disabled = 1;
}
// Configuration options for the horizontal pod autoscaling feature, which
// increases or decreases the number of replica pods a replication controller
// has based on the resource usage of the existing pods.
message HorizontalPodAutoscaling {
// Whether the Horizontal Pod Autoscaling feature is enabled in the cluster.
// When enabled, it ensures that a Heapster pod is running in the cluster,
// which is also used by the Cloud Monitoring service.
bool disabled = 1;
}
// Configuration for the Kubernetes Dashboard.
message KubernetesDashboard {
// Whether the Kubernetes Dashboard is enabled for this cluster.
bool disabled = 1;
}
// Configuration for NetworkPolicy. This only tracks whether the addon
// is enabled or not on the Master, it does not track whether network policy
// is enabled for the nodes.
message NetworkPolicyConfig {
// Whether NetworkPolicy is enabled for this cluster.
bool disabled = 1;
}
// Configuration options for private clusters.
message PrivateClusterConfig {
// Whether nodes have internal IP addresses only. If enabled, all nodes are
// given only RFC 1918 private addresses and communicate with the master via
// private networking.
bool enable_private_nodes = 1;
// Whether the master's internal IP address is used as the cluster endpoint.
bool enable_private_endpoint = 2;
// The IP range in CIDR notation to use for the hosted master network. This
// range will be used for assigning internal IP addresses to the master or
// set of masters, as well as the ILB VIP. This range must not overlap with
// any other ranges in use within the cluster's network.
string master_ipv4_cidr_block = 3;
// Output only. The internal IP address of this cluster's master endpoint.
string private_endpoint = 4;
// Output only. The external IP address of this cluster's master endpoint.
string public_endpoint = 5;
}
// Configuration for returning group information from authenticators.
message AuthenticatorGroupsConfig {
// Whether this cluster should return group membership lookups
// during authentication using a group of security groups.
bool enabled = 1;
// The name of the security group-of-groups to be used. Only relevant
// if enabled = true.
string security_group = 2;
}
// Configuration options for the Cloud Run feature.
message CloudRunConfig {
// Whether Cloud Run addon is enabled for this cluster.
bool disabled = 1;
}
// Configuration options for the master authorized networks feature. Enabled
// master authorized networks will disallow all external traffic to access
// Kubernetes master through HTTPS except traffic from the given CIDR blocks,
// Google Compute Engine Public IPs and Google Prod IPs.
message MasterAuthorizedNetworksConfig {
// CidrBlock contains an optional name and one CIDR block.
message CidrBlock {
// display_name is an optional field for users to identify CIDR blocks.
string display_name = 1;
// cidr_block must be specified in CIDR notation.
string cidr_block = 2;
}
// Whether or not master authorized networks is enabled.
bool enabled = 1;
// cidr_blocks define up to 50 external networks that could access
// Kubernetes master through HTTPS.
repeated CidrBlock cidr_blocks = 2;
}
// Configuration for the legacy Attribute Based Access Control authorization
// mode.
message LegacyAbac {
// Whether the ABAC authorizer is enabled for this cluster. When enabled,
// identities in the system, including service accounts, nodes, and
// controllers, will have statically granted permissions beyond those
// provided by the RBAC configuration or IAM.
bool enabled = 1;
}
// Configuration options for the NetworkPolicy feature.
// https://kubernetes.io/docs/concepts/services-networking/networkpolicies/
message NetworkPolicy {
// Allowed Network Policy providers.
enum Provider {
// Not set
PROVIDER_UNSPECIFIED = 0;
// Tigera (Calico Felix).
CALICO = 1;
}
// The selected network policy provider.
Provider provider = 1;
// Whether network policy is enabled on the cluster.
bool enabled = 2;
}
// Configuration for Binary Authorization.
message BinaryAuthorization {
// Enable Binary Authorization for this cluster. If enabled, all container
// images will be validated by Binary Authorization.
bool enabled = 1;
}
// Configuration for controlling how IPs are allocated in the cluster.
message IPAllocationPolicy {
// Whether alias IPs will be used for pod IPs in the cluster.
bool use_ip_aliases = 1;
// Whether a new subnetwork will be created automatically for the cluster.
//
// This field is only applicable when `use_ip_aliases` is true.
bool create_subnetwork = 2;
// A custom subnetwork name to be used if `create_subnetwork` is true. If
// this field is empty, then an automatic name will be chosen for the new
// subnetwork.
string subnetwork_name = 3;
// This field is deprecated, use cluster_ipv4_cidr_block.
string cluster_ipv4_cidr = 4 [deprecated = true];
// This field is deprecated, use node_ipv4_cidr_block.
string node_ipv4_cidr = 5 [deprecated = true];
// This field is deprecated, use services_ipv4_cidr_block.
string services_ipv4_cidr = 6 [deprecated = true];
// The name of the secondary range to be used for the cluster CIDR
// block. The secondary range will be used for pod IP
// addresses. This must be an existing secondary range associated
// with the cluster subnetwork.
//
// This field is only applicable with use_ip_aliases is true and
// create_subnetwork is false.
string cluster_secondary_range_name = 7;
// The name of the secondary range to be used as for the services
// CIDR block. The secondary range will be used for service
// ClusterIPs. This must be an existing secondary range associated
// with the cluster subnetwork.
//
// This field is only applicable with use_ip_aliases is true and
// create_subnetwork is false.
string services_secondary_range_name = 8;
// The IP address range for the cluster pod IPs. If this field is set, then
// `cluster.cluster_ipv4_cidr` must be left blank.
//
// This field is only applicable when `use_ip_aliases` is true.
//
// Set to blank to have a range chosen with the default size.
//
// Set to /netmask (e.g. `/14`) to have a range chosen with a specific
// netmask.
//
// Set to a
// [CIDR](http://en.wikipedia.org/wiki/Classless_Inter-Domain_Routing)
// notation (e.g. `10.96.0.0/14`) from the RFC-1918 private networks (e.g.
// `10.0.0.0/8`, `172.16.0.0/12`, `192.168.0.0/16`) to pick a specific range
// to use.
string cluster_ipv4_cidr_block = 9;
// The IP address range of the instance IPs in this cluster.
//
// This is applicable only if `create_subnetwork` is true.
//
// Set to blank to have a range chosen with the default size.
//
// Set to /netmask (e.g. `/14`) to have a range chosen with a specific
// netmask.
//
// Set to a
// [CIDR](http://en.wikipedia.org/wiki/Classless_Inter-Domain_Routing)
// notation (e.g. `10.96.0.0/14`) from the RFC-1918 private networks (e.g.
// `10.0.0.0/8`, `172.16.0.0/12`, `192.168.0.0/16`) to pick a specific range
// to use.
string node_ipv4_cidr_block = 10;
// The IP address range of the services IPs in this cluster. If blank, a range
// will be automatically chosen with the default size.
//
// This field is only applicable when `use_ip_aliases` is true.
//
// Set to blank to have a range chosen with the default size.
//
// Set to /netmask (e.g. `/14`) to have a range chosen with a specific
// netmask.
//
// Set to a
// [CIDR](http://en.wikipedia.org/wiki/Classless_Inter-Domain_Routing)
// notation (e.g. `10.96.0.0/14`) from the RFC-1918 private networks (e.g.
// `10.0.0.0/8`, `172.16.0.0/12`, `192.168.0.0/16`) to pick a specific range
// to use.
string services_ipv4_cidr_block = 11;
// The IP address range of the Cloud TPUs in this cluster. If unspecified, a
// range will be automatically chosen with the default size.
//
// This field is only applicable when `use_ip_aliases` is true.
//
// If unspecified, the range will use the default size.
//
// Set to /netmask (e.g. `/14`) to have a range chosen with a specific
// netmask.
//
// Set to a
// [CIDR](http://en.wikipedia.org/wiki/Classless_Inter-Domain_Routing)
// notation (e.g. `10.96.0.0/14`) from the RFC-1918 private networks (e.g.
// `10.0.0.0/8`, `172.16.0.0/12`, `192.168.0.0/16`) to pick a specific range
// to use.
string tpu_ipv4_cidr_block = 13;
}
// A Google Kubernetes Engine cluster.
message Cluster {
// The current status of the cluster.
enum Status {
// Not set.
STATUS_UNSPECIFIED = 0;
// The PROVISIONING state indicates the cluster is being created.
PROVISIONING = 1;
// The RUNNING state indicates the cluster has been created and is fully
// usable.
RUNNING = 2;
// The RECONCILING state indicates that some work is actively being done on
// the cluster, such as upgrading the master or node software. Details can
// be found in the `statusMessage` field.
RECONCILING = 3;
// The STOPPING state indicates the cluster is being deleted.
STOPPING = 4;
// The ERROR state indicates the cluster may be unusable. Details
// can be found in the `statusMessage` field.
ERROR = 5;
// The DEGRADED state indicates the cluster requires user action to restore
// full functionality. Details can be found in the `statusMessage` field.
DEGRADED = 6;
}
// The name of this cluster. The name must be unique within this project
// and location (e.g. zone or region), and can be up to 40 characters with
// the following restrictions:
//
// * Lowercase letters, numbers, and hyphens only.
// * Must start with a letter.
// * Must end with a number or a letter.
string name = 1;
// An optional description of this cluster.
string description = 2;
// The number of nodes to create in this cluster. You must ensure that your
// Compute Engine [resource quota](https://cloud.google.com/compute/quotas)
// is sufficient for this number of instances. You must also have available
// firewall and routes quota.
// For requests, this field should only be used in lieu of a
// "node_pool" object, since this configuration (along with the
// "node_config") will be used to create a "NodePool" object with an
// auto-generated name. Do not use this and a node_pool at the same time.
//
// This field is deprecated, use node_pool.initial_node_count instead.