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flutter / third_party / googleapis.dart / b223bd5012b9ac23ec29d771476e115aa803650b / . / generated / googleapis / lib / file / v1.dart
blob: fc7dc9c86bc6e1bb841488c2d81f8e3ff0aa7ee7 [file] [log] [blame]
// This is a generated file (see the discoveryapis_generator project).
// ignore_for_file: unused_import, unnecessary_cast
library googleapis.file.v1;
import 'dart:core' as core;
import 'dart:async' as async;
import 'dart:convert' as convert;
import 'package:_discoveryapis_commons/_discoveryapis_commons.dart' as commons;
import 'package:http/http.dart' as http;
export 'package:_discoveryapis_commons/_discoveryapis_commons.dart'
show ApiRequestError, DetailedApiRequestError;
const core.String USER_AGENT = 'dart-api-client file/v1';
/// The Cloud Filestore API is used for creating and managing cloud file
/// servers.
class FileApi {
/// View and manage your data across Google Cloud Platform services
static const CloudPlatformScope =
"https://www.googleapis.com/auth/cloud-platform";
final commons.ApiRequester _requester;
ProjectsResourceApi get projects => new ProjectsResourceApi(_requester);
FileApi(http.Client client,
{core.String rootUrl = "https://file.googleapis.com/",
core.String servicePath = ""})
: _requester =
new commons.ApiRequester(client, rootUrl, servicePath, USER_AGENT);
}
class ProjectsResourceApi {
final commons.ApiRequester _requester;
ProjectsLocationsResourceApi get locations =>
new ProjectsLocationsResourceApi(_requester);
ProjectsResourceApi(commons.ApiRequester client) : _requester = client;
}
class ProjectsLocationsResourceApi {
final commons.ApiRequester _requester;
ProjectsLocationsInstancesResourceApi get instances =>
new ProjectsLocationsInstancesResourceApi(_requester);
ProjectsLocationsOperationsResourceApi get operations =>
new ProjectsLocationsOperationsResourceApi(_requester);
ProjectsLocationsResourceApi(commons.ApiRequester client)
: _requester = client;
/// Gets information about a location.
///
/// Request parameters:
///
/// [name] - Resource name for the location.
/// Value must have pattern "^projects/[^/]+/locations/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Location].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Location> get(core.String name, {core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$name');
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Location.fromJson(data));
}
/// Lists information about the supported locations for this service.
///
/// Request parameters:
///
/// [name] - The resource that owns the locations collection, if applicable.
/// Value must have pattern "^projects/[^/]+$".
///
/// [includeUnrevealedLocations] - If true, the returned list will include
/// locations which are not yet revealed.
///
/// [pageToken] - The standard list page token.
///
/// [pageSize] - The standard list page size.
///
/// [filter] - The standard list filter.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [ListLocationsResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<ListLocationsResponse> list(core.String name,
{core.bool includeUnrevealedLocations,
core.String pageToken,
core.int pageSize,
core.String filter,
core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if (includeUnrevealedLocations != null) {
_queryParams["includeUnrevealedLocations"] = [
"${includeUnrevealedLocations}"
];
}
if (pageToken != null) {
_queryParams["pageToken"] = [pageToken];
}
if (pageSize != null) {
_queryParams["pageSize"] = ["${pageSize}"];
}
if (filter != null) {
_queryParams["filter"] = [filter];
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url =
'v1/' + commons.Escaper.ecapeVariableReserved('$name') + '/locations';
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new ListLocationsResponse.fromJson(data));
}
}
class ProjectsLocationsInstancesResourceApi {
final commons.ApiRequester _requester;
ProjectsLocationsInstancesResourceApi(commons.ApiRequester client)
: _requester = client;
/// Creates an instance.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - Required. The instance's project and location, in the format
/// projects/{project_id}/locations/{location}. In Cloud Filestore, locations
/// map to GCP zones, for example **us-west1-b**.
/// Value must have pattern "^projects/[^/]+/locations/[^/]+$".
///
/// [instanceId] - Required. The name of the instance to create. The name must
/// be unique for the specified project and location.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Operation].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Operation> create(Instance request, core.String parent,
{core.String instanceId, core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (request != null) {
_body = convert.json.encode((request).toJson());
}
if (parent == null) {
throw new core.ArgumentError("Parameter parent is required.");
}
if (instanceId != null) {
_queryParams["instanceId"] = [instanceId];
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url =
'v1/' + commons.Escaper.ecapeVariableReserved('$parent') + '/instances';
var _response = _requester.request(_url, "POST",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Operation.fromJson(data));
}
/// Deletes an instance.
///
/// Request parameters:
///
/// [name] - Required. The instance resource name, in the format
/// projects/{project_id}/locations/{location}/instances/{instance_id}
/// Value must have pattern
/// "^projects/[^/]+/locations/[^/]+/instances/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Operation].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Operation> delete(core.String name, {core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$name');
var _response = _requester.request(_url, "DELETE",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Operation.fromJson(data));
}
/// Gets the details of a specific instance.
///
/// Request parameters:
///
/// [name] - Required. The instance resource name, in the format
/// projects/{project_id}/locations/{location}/instances/{instance_id}.
/// Value must have pattern
/// "^projects/[^/]+/locations/[^/]+/instances/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Instance].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Instance> get(core.String name, {core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$name');
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Instance.fromJson(data));
}
/// Lists all instances in a project for either a specified location or for
/// all locations.
///
/// Request parameters:
///
/// [parent] - Required. The project and location for which to retrieve
/// instance information, in the format
/// projects/{project_id}/locations/{location}. In Cloud Filestore, locations
/// map to GCP zones, for example **us-west1-b**. To retrieve instance
/// information for all locations, use "-" for the {location} value.
/// Value must have pattern "^projects/[^/]+/locations/[^/]+$".
///
/// [orderBy] - Sort results. Supported values are "name", "name desc" or ""
/// (unsorted).
///
/// [pageToken] - The next_page_token value to use if there are additional
/// results to retrieve for this list request.
///
/// [pageSize] - The maximum number of items to return.
///
/// [filter] - List filter.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [ListInstancesResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<ListInstancesResponse> list(core.String parent,
{core.String orderBy,
core.String pageToken,
core.int pageSize,
core.String filter,
core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (parent == null) {
throw new core.ArgumentError("Parameter parent is required.");
}
if (orderBy != null) {
_queryParams["orderBy"] = [orderBy];
}
if (pageToken != null) {
_queryParams["pageToken"] = [pageToken];
}
if (pageSize != null) {
_queryParams["pageSize"] = ["${pageSize}"];
}
if (filter != null) {
_queryParams["filter"] = [filter];
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url =
'v1/' + commons.Escaper.ecapeVariableReserved('$parent') + '/instances';
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new ListInstancesResponse.fromJson(data));
}
/// Updates the settings of a specific instance.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [name] - Output only. The resource name of the instance, in the format
/// projects/{project}/locations/{location}/instances/{instance}.
/// Value must have pattern
/// "^projects/[^/]+/locations/[^/]+/instances/[^/]+$".
///
/// [updateMask] - Mask of fields to update. At least one path must be
/// supplied in this field. The elements of the repeated paths field may only
/// include these fields: * "description" * "file_shares" * "labels"
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Operation].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Operation> patch(Instance request, core.String name,
{core.String updateMask, core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (request != null) {
_body = convert.json.encode((request).toJson());
}
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if (updateMask != null) {
_queryParams["updateMask"] = [updateMask];
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$name');
var _response = _requester.request(_url, "PATCH",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Operation.fromJson(data));
}
}
class ProjectsLocationsOperationsResourceApi {
final commons.ApiRequester _requester;
ProjectsLocationsOperationsResourceApi(commons.ApiRequester client)
: _requester = client;
/// Starts asynchronous cancellation on a long-running operation. The server
/// makes a best effort to cancel the operation, but success is not
/// guaranteed. If the server doesn't support this method, it returns
/// `google.rpc.Code.UNIMPLEMENTED`. Clients can use Operations.GetOperation
/// or other methods to check whether the cancellation succeeded or whether
/// the operation completed despite cancellation. On successful cancellation,
/// the operation is not deleted; instead, it becomes an operation with an
/// Operation.error value with a google.rpc.Status.code of 1, corresponding to
/// `Code.CANCELLED`.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [name] - The name of the operation resource to be cancelled.
/// Value must have pattern
/// "^projects/[^/]+/locations/[^/]+/operations/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Empty].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Empty> cancel(CancelOperationRequest request, core.String name,
{core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (request != null) {
_body = convert.json.encode((request).toJson());
}
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$name') + ':cancel';
var _response = _requester.request(_url, "POST",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Empty.fromJson(data));
}
/// Deletes a long-running operation. This method indicates that the client is
/// no longer interested in the operation result. It does not cancel the
/// operation. If the server doesn't support this method, it returns
/// `google.rpc.Code.UNIMPLEMENTED`.
///
/// Request parameters:
///
/// [name] - The name of the operation resource to be deleted.
/// Value must have pattern
/// "^projects/[^/]+/locations/[^/]+/operations/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Empty].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Empty> delete(core.String name, {core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$name');
var _response = _requester.request(_url, "DELETE",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Empty.fromJson(data));
}
/// Gets the latest state of a long-running operation. Clients can use this
/// method to poll the operation result at intervals as recommended by the API
/// service.
///
/// Request parameters:
///
/// [name] - The name of the operation resource.
/// Value must have pattern
/// "^projects/[^/]+/locations/[^/]+/operations/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [Operation].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<Operation> get(core.String name, {core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$name');
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Operation.fromJson(data));
}
/// Lists operations that match the specified filter in the request. If the
/// server doesn't support this method, it returns `UNIMPLEMENTED`. NOTE: the
/// `name` binding allows API services to override the binding to use
/// different resource name schemes, such as `users / * /operations`. To
/// override the binding, API services can add a binding such as
/// `"/v1/{name=users / * }/operations"` to their service configuration. For
/// backwards compatibility, the default name includes the operations
/// collection id, however overriding users must ensure the name binding is
/// the parent resource, without the operations collection id.
///
/// Request parameters:
///
/// [name] - The name of the operation's parent resource.
/// Value must have pattern "^projects/[^/]+/locations/[^/]+$".
///
/// [filter] - The standard list filter.
///
/// [pageToken] - The standard list page token.
///
/// [pageSize] - The standard list page size.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [ListOperationsResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http.Client] completes with an error when making a REST call,
/// this method will complete with the same error.
async.Future<ListOperationsResponse> list(core.String name,
{core.String filter,
core.String pageToken,
core.int pageSize,
core.String $fields}) {
var _url;
var _queryParams = new core.Map<core.String, core.List<core.String>>();
var _uploadMedia;
var _uploadOptions;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if (filter != null) {
_queryParams["filter"] = [filter];
}
if (pageToken != null) {
_queryParams["pageToken"] = [pageToken];
}
if (pageSize != null) {
_queryParams["pageSize"] = ["${pageSize}"];
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url =
'v1/' + commons.Escaper.ecapeVariableReserved('$name') + '/operations';
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new ListOperationsResponse.fromJson(data));
}
}
/// The request message for Operations.CancelOperation.
class CancelOperationRequest {
CancelOperationRequest();
CancelOperationRequest.fromJson(core.Map _json) {}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
return _json;
}
}
/// A generic empty message that you can re-use to avoid defining duplicated
/// empty messages in your APIs. A typical example is to use it as the request
/// or the response type of an API method. For instance: service Foo { rpc
/// Bar(google.protobuf.Empty) returns (google.protobuf.Empty); } The JSON
/// representation for `Empty` is empty JSON object `{}`.
class Empty {
Empty();
Empty.fromJson(core.Map _json) {}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
return _json;
}
}
/// File share configuration for the instance.
class FileShareConfig {
/// File share capacity in gigabytes (GB). Cloud Filestore defines 1 GB as
/// 1024^3 bytes.
core.String capacityGb;
/// The name of the file share (must be 16 characters or less).
core.String name;
FileShareConfig();
FileShareConfig.fromJson(core.Map _json) {
if (_json.containsKey("capacityGb")) {
capacityGb = _json["capacityGb"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (capacityGb != null) {
_json["capacityGb"] = capacityGb;
}
if (name != null) {
_json["name"] = name;
}
return _json;
}
}
class GoogleCloudSaasacceleratorManagementProvidersV1Instance {
/// consumer_defined_name is the name that is set by the consumer. On the
/// other hand Name field represents system-assigned id of an instance so
/// consumers are not necessarily aware of it. consumer_defined_name is used
/// for notification/UI purposes for consumer to recognize their instances.
core.String consumerDefinedName;
/// Output only. Timestamp when the resource was created.
core.String createTime;
/// Optional. Resource labels to represent user provided metadata. Each label
/// is a key-value pair, where both the key and the value are arbitrary
/// strings provided by the user.
core.Map<core.String, core.String> labels;
/// The MaintenancePolicies that have been attached to the instance. The key
/// must be of the type name of the oneof policy name defined in
/// MaintenancePolicy, and the referenced policy must define the same policy
/// type. For complete details of MaintenancePolicy, please refer to
/// go/cloud-saas-mw-ug.
core.Map<core.String, core.String> maintenancePolicyNames;
/// The MaintenanceSchedule contains the scheduling information of published
/// maintenance schedule with same key as software_versions.
core.Map<core.String,
GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSchedule>
maintenanceSchedules;
/// Optional. The MaintenanceSettings associated with instance.
GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSettings
maintenanceSettings;
/// Unique name of the resource. It uses the form:
/// `projects/{project_id}/locations/{location_id}/instances/{instance_id}`
core.String name;
/// Output only. Custom string attributes used primarily to expose
/// producer-specific information in monitoring dashboards. See
/// go/get-instance-metadata.
core.Map<core.String, core.String> producerMetadata;
/// Output only. The list of data plane resources provisioned for this
/// instance, e.g. compute VMs. See go/get-instance-metadata.
core.List<GoogleCloudSaasacceleratorManagementProvidersV1ProvisionedResource>
provisionedResources;
/// Link to the SLM instance template. Only populated when updating SLM
/// instances via SSA's Actuation service adaptor. Service producers with
/// custom control plane (e.g. Cloud SQL) doesn't need to populate this field.
/// Instead they should use software_versions.
core.String slmInstanceTemplate;
/// Output only. SLO metadata for instance classification in the Standardized
/// dataplane SLO platform. See go/cloud-ssa-standard-slo for feature
/// description.
GoogleCloudSaasacceleratorManagementProvidersV1SloMetadata sloMetadata;
/// Software versions that are used to deploy this instance. This can be
/// mutated by rollout services.
core.Map<core.String, core.String> softwareVersions;
/// Output only. Current lifecycle state of the resource (e.g. if it's being
/// created or ready to use).
/// Possible string values are:
/// - "STATE_UNSPECIFIED" : Unspecified state.
/// - "CREATING" : Instance is being created.
/// - "READY" : Instance has been created and is ready to use.
/// - "UPDATING" : Instance is being updated.
/// - "REPAIRING" : Instance is unheathy and under repair.
/// - "DELETING" : Instance is being deleted.
/// - "ERROR" : Instance encountered an error and is in indeterministic state.
core.String state;
/// Output only. ID of the associated GCP tenant project. See
/// go/get-instance-metadata.
core.String tenantProjectId;
/// Output only. Timestamp when the resource was last modified.
core.String updateTime;
GoogleCloudSaasacceleratorManagementProvidersV1Instance();
GoogleCloudSaasacceleratorManagementProvidersV1Instance.fromJson(
core.Map _json) {
if (_json.containsKey("consumerDefinedName")) {
consumerDefinedName = _json["consumerDefinedName"];
}
if (_json.containsKey("createTime")) {
createTime = _json["createTime"];
}
if (_json.containsKey("labels")) {
labels = (_json["labels"] as core.Map).cast<core.String, core.String>();
}
if (_json.containsKey("maintenancePolicyNames")) {
maintenancePolicyNames = (_json["maintenancePolicyNames"] as core.Map)
.cast<core.String, core.String>();
}
if (_json.containsKey("maintenanceSchedules")) {
maintenanceSchedules = commons.mapMap<core.Map,
GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSchedule>(
_json["maintenanceSchedules"].cast<core.String, core.Map>(),
(core.Map item) =>
new GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSchedule
.fromJson(item));
}
if (_json.containsKey("maintenanceSettings")) {
maintenanceSettings =
new GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSettings
.fromJson(_json["maintenanceSettings"]);
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("producerMetadata")) {
producerMetadata = (_json["producerMetadata"] as core.Map)
.cast<core.String, core.String>();
}
if (_json.containsKey("provisionedResources")) {
provisionedResources = (_json["provisionedResources"] as core.List)
.map<GoogleCloudSaasacceleratorManagementProvidersV1ProvisionedResource>(
(value) =>
new GoogleCloudSaasacceleratorManagementProvidersV1ProvisionedResource
.fromJson(value))
.toList();
}
if (_json.containsKey("slmInstanceTemplate")) {
slmInstanceTemplate = _json["slmInstanceTemplate"];
}
if (_json.containsKey("sloMetadata")) {
sloMetadata =
new GoogleCloudSaasacceleratorManagementProvidersV1SloMetadata
.fromJson(_json["sloMetadata"]);
}
if (_json.containsKey("softwareVersions")) {
softwareVersions = (_json["softwareVersions"] as core.Map)
.cast<core.String, core.String>();
}
if (_json.containsKey("state")) {
state = _json["state"];
}
if (_json.containsKey("tenantProjectId")) {
tenantProjectId = _json["tenantProjectId"];
}
if (_json.containsKey("updateTime")) {
updateTime = _json["updateTime"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (consumerDefinedName != null) {
_json["consumerDefinedName"] = consumerDefinedName;
}
if (createTime != null) {
_json["createTime"] = createTime;
}
if (labels != null) {
_json["labels"] = labels;
}
if (maintenancePolicyNames != null) {
_json["maintenancePolicyNames"] = maintenancePolicyNames;
}
if (maintenanceSchedules != null) {
_json["maintenanceSchedules"] = commons.mapMap<
GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSchedule,
core.Map<core.String, core.Object>>(
maintenanceSchedules,
(GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSchedule
item) =>
(item).toJson());
}
if (maintenanceSettings != null) {
_json["maintenanceSettings"] = (maintenanceSettings).toJson();
}
if (name != null) {
_json["name"] = name;
}
if (producerMetadata != null) {
_json["producerMetadata"] = producerMetadata;
}
if (provisionedResources != null) {
_json["provisionedResources"] =
provisionedResources.map((value) => (value).toJson()).toList();
}
if (slmInstanceTemplate != null) {
_json["slmInstanceTemplate"] = slmInstanceTemplate;
}
if (sloMetadata != null) {
_json["sloMetadata"] = (sloMetadata).toJson();
}
if (softwareVersions != null) {
_json["softwareVersions"] = softwareVersions;
}
if (state != null) {
_json["state"] = state;
}
if (tenantProjectId != null) {
_json["tenantProjectId"] = tenantProjectId;
}
if (updateTime != null) {
_json["updateTime"] = updateTime;
}
return _json;
}
}
/// Maintenance schedule which is exposed to customer and potentially end user,
/// indicating published upcoming future maintenance schedule
class GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSchedule {
/// Can this scheduled update be rescheduled? By default, it's true and API
/// needs to do explicitly check whether it's set, if it's set as false
/// explicitly, it's false
core.bool canReschedule;
/// The scheduled end time for the maintenance.
core.String endTime;
/// The rollout management policy this maintenance schedule is associated
/// with. When doing reschedule update request, the reschedule should be
/// against this given policy.
core.String rolloutManagementPolicy;
/// The scheduled start time for the maintenance.
core.String startTime;
GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSchedule();
GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSchedule.fromJson(
core.Map _json) {
if (_json.containsKey("canReschedule")) {
canReschedule = _json["canReschedule"];
}
if (_json.containsKey("endTime")) {
endTime = _json["endTime"];
}
if (_json.containsKey("rolloutManagementPolicy")) {
rolloutManagementPolicy = _json["rolloutManagementPolicy"];
}
if (_json.containsKey("startTime")) {
startTime = _json["startTime"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (canReschedule != null) {
_json["canReschedule"] = canReschedule;
}
if (endTime != null) {
_json["endTime"] = endTime;
}
if (rolloutManagementPolicy != null) {
_json["rolloutManagementPolicy"] = rolloutManagementPolicy;
}
if (startTime != null) {
_json["startTime"] = startTime;
}
return _json;
}
}
/// Maintenance settings associated with instance. Allows service producers and
/// end users to assign settings that controls maintenance on this instance.
class GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSettings {
/// Optional. Exclude instance from maintenance. When true, rollout service
/// will not attempt maintenance on the instance. Rollout service will include
/// the instance in reported rollout progress as not attempted.
core.bool exclude;
GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSettings();
GoogleCloudSaasacceleratorManagementProvidersV1MaintenanceSettings.fromJson(
core.Map _json) {
if (_json.containsKey("exclude")) {
exclude = _json["exclude"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (exclude != null) {
_json["exclude"] = exclude;
}
return _json;
}
}
/// Node information for custom per-node SLO implementations. SSA does not
/// support per-node SLO, but producers can populate per-node information in
/// SloMetadata for custom precomputations. SSA Eligibility Exporter will emit
/// per-node metric based on this information.
class GoogleCloudSaasacceleratorManagementProvidersV1NodeSloMetadata {
/// By default node is eligible if instance is eligible. But individual node
/// might be excluded from SLO by adding entry here. For semantic see
/// SloMetadata.exclusions. If both instance and node level exclusions are
/// present for time period, the node level's reason will be reported by
/// Eligibility Exporter.
core.List<GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion>
exclusions;
/// The location of the node, if different from instance location.
core.String location;
/// The id of the node. This should be equal to SaasInstanceNode.node_id.
core.String nodeId;
GoogleCloudSaasacceleratorManagementProvidersV1NodeSloMetadata();
GoogleCloudSaasacceleratorManagementProvidersV1NodeSloMetadata.fromJson(
core.Map _json) {
if (_json.containsKey("exclusions")) {
exclusions = (_json["exclusions"] as core.List)
.map<GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion>(
(value) =>
new GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion
.fromJson(value))
.toList();
}
if (_json.containsKey("location")) {
location = _json["location"];
}
if (_json.containsKey("nodeId")) {
nodeId = _json["nodeId"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (exclusions != null) {
_json["exclusions"] =
exclusions.map((value) => (value).toJson()).toList();
}
if (location != null) {
_json["location"] = location;
}
if (nodeId != null) {
_json["nodeId"] = nodeId;
}
return _json;
}
}
/// Describes provisioned dataplane resources.
class GoogleCloudSaasacceleratorManagementProvidersV1ProvisionedResource {
/// Type of the resource. This can be either a GCP resource or a custom one
/// (e.g. another cloud provider's VM). For GCP compute resources use singular
/// form of the names listed in GCP compute API documentation
/// (https://cloud.google.com/compute/docs/reference/rest/v1/), prefixed with
/// 'compute-', for example: 'compute-instance', 'compute-disk',
/// 'compute-autoscaler'.
core.String resourceType;
/// URL identifying the resource, e.g.
/// "https://www.googleapis.com/compute/v1/projects/...)".
core.String resourceUrl;
GoogleCloudSaasacceleratorManagementProvidersV1ProvisionedResource();
GoogleCloudSaasacceleratorManagementProvidersV1ProvisionedResource.fromJson(
core.Map _json) {
if (_json.containsKey("resourceType")) {
resourceType = _json["resourceType"];
}
if (_json.containsKey("resourceUrl")) {
resourceUrl = _json["resourceUrl"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (resourceType != null) {
_json["resourceType"] = resourceType;
}
if (resourceUrl != null) {
_json["resourceUrl"] = resourceUrl;
}
return _json;
}
}
/// SloEligibility is a tuple containing eligibility value: true if an instance
/// is eligible for SLO calculation or false if it should be excluded from all
/// SLO-related calculations along with a user-defined reason.
class GoogleCloudSaasacceleratorManagementProvidersV1SloEligibility {
/// Whether an instance is eligible or ineligible.
core.bool eligible;
/// User-defined reason for the current value of instance eligibility.
/// Usually, this can be directly mapped to the internal state. An empty
/// reason is allowed.
core.String reason;
GoogleCloudSaasacceleratorManagementProvidersV1SloEligibility();
GoogleCloudSaasacceleratorManagementProvidersV1SloEligibility.fromJson(
core.Map _json) {
if (_json.containsKey("eligible")) {
eligible = _json["eligible"];
}
if (_json.containsKey("reason")) {
reason = _json["reason"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (eligible != null) {
_json["eligible"] = eligible;
}
if (reason != null) {
_json["reason"] = reason;
}
return _json;
}
}
/// SloExclusion represents an exclusion in SLI calculation applies to all SLOs.
class GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion {
/// Exclusion duration. No restrictions on the possible values. When an
/// ongoing operation is taking longer than initially expected, an existing
/// entry in the exclusion list can be updated by extending the duration. This
/// is supported by the subsystem exporting eligibility data as long as such
/// extension is committed at least 10 minutes before the original exclusion
/// expiration - otherwise it is possible that there will be "gaps" in the
/// exclusion application in the exported timeseries.
core.String duration;
/// Human-readable reason for the exclusion. This should be a static string
/// (e.g. "Disruptive update in progress") and should not contain dynamically
/// generated data (e.g. instance name). Can be left empty.
core.String reason;
/// Name of an SLI that this exclusion applies to. Can be left empty,
/// signaling that the instance should be excluded from all SLIs defined in
/// the service SLO configuration.
core.String sliName;
/// Start time of the exclusion. No alignment (e.g. to a full minute) needed.
core.String startTime;
GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion();
GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion.fromJson(
core.Map _json) {
if (_json.containsKey("duration")) {
duration = _json["duration"];
}
if (_json.containsKey("reason")) {
reason = _json["reason"];
}
if (_json.containsKey("sliName")) {
sliName = _json["sliName"];
}
if (_json.containsKey("startTime")) {
startTime = _json["startTime"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (duration != null) {
_json["duration"] = duration;
}
if (reason != null) {
_json["reason"] = reason;
}
if (sliName != null) {
_json["sliName"] = sliName;
}
if (startTime != null) {
_json["startTime"] = startTime;
}
return _json;
}
}
/// SloMetadata contains resources required for proper SLO classification of the
/// instance.
class GoogleCloudSaasacceleratorManagementProvidersV1SloMetadata {
/// Optional. User-defined instance eligibility.
GoogleCloudSaasacceleratorManagementProvidersV1SloEligibility eligibility;
/// List of SLO exclusion windows. When multiple entries in the list match
/// (matching the exclusion time-window against current time point) the
/// exclusion reason used in the first matching entry will be published. It is
/// not needed to include expired exclusion in this list, as only the
/// currently applicable exclusions are taken into account by the eligibility
/// exporting subsystem (the historical state of exclusions will be reflected
/// in the historically produced timeseries regardless of the current state).
/// This field can be used to mark the instance as temporary ineligible for
/// the purpose of SLO calculation. For permanent instance SLO exclusion, use
/// of custom instance eligibility is recommended. See 'eligibility' field
/// below.
core.List<GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion>
exclusions;
/// Optional. List of nodes. Some producers need to use per-node metadata to
/// calculate SLO. This field allows such producers to publish per-node SLO
/// meta data, which will be consumed by SSA Eligibility Exporter and
/// published in the form of per node metric to Monarch.
core.List<GoogleCloudSaasacceleratorManagementProvidersV1NodeSloMetadata>
nodes;
/// Name of the SLO tier the Instance belongs to. This name will be expected
/// to match the tiers specified in the service SLO configuration. Field is
/// mandatory and must not be empty.
core.String tier;
GoogleCloudSaasacceleratorManagementProvidersV1SloMetadata();
GoogleCloudSaasacceleratorManagementProvidersV1SloMetadata.fromJson(
core.Map _json) {
if (_json.containsKey("eligibility")) {
eligibility =
new GoogleCloudSaasacceleratorManagementProvidersV1SloEligibility
.fromJson(_json["eligibility"]);
}
if (_json.containsKey("exclusions")) {
exclusions = (_json["exclusions"] as core.List)
.map<GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion>(
(value) =>
new GoogleCloudSaasacceleratorManagementProvidersV1SloExclusion
.fromJson(value))
.toList();
}
if (_json.containsKey("nodes")) {
nodes = (_json["nodes"] as core.List)
.map<GoogleCloudSaasacceleratorManagementProvidersV1NodeSloMetadata>(
(value) =>
new GoogleCloudSaasacceleratorManagementProvidersV1NodeSloMetadata
.fromJson(value))
.toList();
}
if (_json.containsKey("tier")) {
tier = _json["tier"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (eligibility != null) {
_json["eligibility"] = (eligibility).toJson();
}
if (exclusions != null) {
_json["exclusions"] =
exclusions.map((value) => (value).toJson()).toList();
}
if (nodes != null) {
_json["nodes"] = nodes.map((value) => (value).toJson()).toList();
}
if (tier != null) {
_json["tier"] = tier;
}
return _json;
}
}
/// A Cloud Filestore instance.
class Instance {
/// Output only. The time when the instance was created.
core.String createTime;
/// The description of the instance (2048 characters or less).
core.String description;
/// Server-specified ETag for the instance resource to prevent simultaneous
/// updates from overwriting each other.
core.String etag;
/// File system shares on the instance. For this version, only a single file
/// share is supported.
core.List<FileShareConfig> fileShares;
/// Resource labels to represent user provided metadata.
core.Map<core.String, core.String> labels;
/// Output only. The resource name of the instance, in the format
/// projects/{project}/locations/{location}/instances/{instance}.
core.String name;
/// VPC networks to which the instance is connected. For this version, only a
/// single network is supported.
core.List<NetworkConfig> networks;
/// Output only. The instance state.
/// Possible string values are:
/// - "STATE_UNSPECIFIED" : State not set.
/// - "CREATING" : The instance is being created.
/// - "READY" : The instance is available for use.
/// - "REPAIRING" : Work is being done on the instance. You can get further
/// details from the `statusMessage` field of the `Instance` resource.
/// - "DELETING" : The instance is shutting down.
/// - "ERROR" : The instance is experiencing an issue and might be unusable.
/// You can get further details from the `statusMessage` field of the
/// `Instance` resource.
core.String state;
/// Output only. Additional information about the instance state, if
/// available.
core.String statusMessage;
/// The service tier of the instance.
/// Possible string values are:
/// - "TIER_UNSPECIFIED" : Not set.
/// - "STANDARD" : STANDARD tier.
/// - "PREMIUM" : PREMIUM tier.
/// - "BASIC_HDD" : BASIC instances offer a maximum capacity of 63.9 TB.
/// BASIC_HDD is an alias for STANDARD Tier, offering economical performance
/// backed by HDD.
/// - "BASIC_SSD" : BASIC instances offer a maximum capacity of 63.9 TB.
/// BASIC_SSD is an alias for PREMIUM Tier, and offers improved performance
/// backed by SSD.
/// - "HIGH_SCALE_SSD" : HIGH_SCALE instances offer expanded capacity and
/// performance scaling capabilities.
core.String tier;
Instance();
Instance.fromJson(core.Map _json) {
if (_json.containsKey("createTime")) {
createTime = _json["createTime"];
}
if (_json.containsKey("description")) {
description = _json["description"];
}
if (_json.containsKey("etag")) {
etag = _json["etag"];
}
if (_json.containsKey("fileShares")) {
fileShares = (_json["fileShares"] as core.List)
.map<FileShareConfig>((value) => new FileShareConfig.fromJson(value))
.toList();
}
if (_json.containsKey("labels")) {
labels = (_json["labels"] as core.Map).cast<core.String, core.String>();
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("networks")) {
networks = (_json["networks"] as core.List)
.map<NetworkConfig>((value) => new NetworkConfig.fromJson(value))
.toList();
}
if (_json.containsKey("state")) {
state = _json["state"];
}
if (_json.containsKey("statusMessage")) {
statusMessage = _json["statusMessage"];
}
if (_json.containsKey("tier")) {
tier = _json["tier"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (createTime != null) {
_json["createTime"] = createTime;
}
if (description != null) {
_json["description"] = description;
}
if (etag != null) {
_json["etag"] = etag;
}
if (fileShares != null) {
_json["fileShares"] =
fileShares.map((value) => (value).toJson()).toList();
}
if (labels != null) {
_json["labels"] = labels;
}
if (name != null) {
_json["name"] = name;
}
if (networks != null) {
_json["networks"] = networks.map((value) => (value).toJson()).toList();
}
if (state != null) {
_json["state"] = state;
}
if (statusMessage != null) {
_json["statusMessage"] = statusMessage;
}
if (tier != null) {
_json["tier"] = tier;
}
return _json;
}
}
/// ListInstancesResponse is the result of ListInstancesRequest.
class ListInstancesResponse {
/// A list of instances in the project for the specified location. If the
/// {location} value in the request is "-", the response contains a list of
/// instances from all locations. If any location is unreachable, the response
/// will only return instances in reachable locations and the "unreachable"
/// field will be populated with a list of unreachable locations.
core.List<Instance> instances;
/// The token you can use to retrieve the next page of results. Not returned
/// if there are no more results in the list.
core.String nextPageToken;
/// Locations that could not be reached.
core.List<core.String> unreachable;
ListInstancesResponse();
ListInstancesResponse.fromJson(core.Map _json) {
if (_json.containsKey("instances")) {
instances = (_json["instances"] as core.List)
.map<Instance>((value) => new Instance.fromJson(value))
.toList();
}
if (_json.containsKey("nextPageToken")) {
nextPageToken = _json["nextPageToken"];
}
if (_json.containsKey("unreachable")) {
unreachable = (_json["unreachable"] as core.List).cast<core.String>();
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (instances != null) {
_json["instances"] = instances.map((value) => (value).toJson()).toList();
}
if (nextPageToken != null) {
_json["nextPageToken"] = nextPageToken;
}
if (unreachable != null) {
_json["unreachable"] = unreachable;
}
return _json;
}
}
/// The response message for Locations.ListLocations.
class ListLocationsResponse {
/// A list of locations that matches the specified filter in the request.
core.List<Location> locations;
/// The standard List next-page token.
core.String nextPageToken;
ListLocationsResponse();
ListLocationsResponse.fromJson(core.Map _json) {
if (_json.containsKey("locations")) {
locations = (_json["locations"] as core.List)
.map<Location>((value) => new Location.fromJson(value))
.toList();
}
if (_json.containsKey("nextPageToken")) {
nextPageToken = _json["nextPageToken"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (locations != null) {
_json["locations"] = locations.map((value) => (value).toJson()).toList();
}
if (nextPageToken != null) {
_json["nextPageToken"] = nextPageToken;
}
return _json;
}
}
/// The response message for Operations.ListOperations.
class ListOperationsResponse {
/// The standard List next-page token.
core.String nextPageToken;
/// A list of operations that matches the specified filter in the request.
core.List<Operation> operations;
ListOperationsResponse();
ListOperationsResponse.fromJson(core.Map _json) {
if (_json.containsKey("nextPageToken")) {
nextPageToken = _json["nextPageToken"];
}
if (_json.containsKey("operations")) {
operations = (_json["operations"] as core.List)
.map<Operation>((value) => new Operation.fromJson(value))
.toList();
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (nextPageToken != null) {
_json["nextPageToken"] = nextPageToken;
}
if (operations != null) {
_json["operations"] =
operations.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// A resource that represents Google Cloud Platform location.
class Location {
/// The friendly name for this location, typically a nearby city name. For
/// example, "Tokyo".
core.String displayName;
/// Cross-service attributes for the location. For example
/// {"cloud.googleapis.com/region": "us-east1"}
core.Map<core.String, core.String> labels;
/// The canonical id for this location. For example: `"us-east1"`.
core.String locationId;
/// Service-specific metadata. For example the available capacity at the given
/// location.
///
/// The values for Object must be JSON objects. It can consist of `num`,
/// `String`, `bool` and `null` as well as `Map` and `List` values.
core.Map<core.String, core.Object> metadata;
/// Resource name for the location, which may vary between implementations.
/// For example: `"projects/example-project/locations/us-east1"`
core.String name;
Location();
Location.fromJson(core.Map _json) {
if (_json.containsKey("displayName")) {
displayName = _json["displayName"];
}
if (_json.containsKey("labels")) {
labels = (_json["labels"] as core.Map).cast<core.String, core.String>();
}
if (_json.containsKey("locationId")) {
locationId = _json["locationId"];
}
if (_json.containsKey("metadata")) {
metadata =
(_json["metadata"] as core.Map).cast<core.String, core.Object>();
}
if (_json.containsKey("name")) {
name = _json["name"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (displayName != null) {
_json["displayName"] = displayName;
}
if (labels != null) {
_json["labels"] = labels;
}
if (locationId != null) {
_json["locationId"] = locationId;
}
if (metadata != null) {
_json["metadata"] = metadata;
}
if (name != null) {
_json["name"] = name;
}
return _json;
}
}
/// Network configuration for the instance.
class NetworkConfig {
/// Output only. IPv4 addresses in the format {octet 1}.{octet 2}.{octet
/// 3}.{octet 4} or IPv6 addresses in the format {block 1}:{block 2}:{block
/// 3}:{block 4}:{block 5}:{block 6}:{block 7}:{block 8}.
core.List<core.String> ipAddresses;
/// Internet protocol versions for which the instance has IP addresses
/// assigned. For this version, only MODE_IPV4 is supported.
core.List<core.String> modes;
/// The name of the Google Compute Engine [VPC
/// network](/compute/docs/networks-and-firewalls#networks) to which the
/// instance is connected.
core.String network;
/// A /29 CIDR block in one of the [internal IP address
/// ranges](https://www.arin.net/knowledge/address_filters.html) that
/// identifies the range of IP addresses reserved for this instance. For
/// example, 10.0.0.0/29 or 192.168.0.0/29. The range you specify can't
/// overlap with either existing subnets or assigned IP address ranges for
/// other Cloud Filestore instances in the selected VPC network.
core.String reservedIpRange;
NetworkConfig();
NetworkConfig.fromJson(core.Map _json) {
if (_json.containsKey("ipAddresses")) {
ipAddresses = (_json["ipAddresses"] as core.List).cast<core.String>();
}
if (_json.containsKey("modes")) {
modes = (_json["modes"] as core.List).cast<core.String>();
}
if (_json.containsKey("network")) {
network = _json["network"];
}
if (_json.containsKey("reservedIpRange")) {
reservedIpRange = _json["reservedIpRange"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (ipAddresses != null) {
_json["ipAddresses"] = ipAddresses;
}
if (modes != null) {
_json["modes"] = modes;
}
if (network != null) {
_json["network"] = network;
}
if (reservedIpRange != null) {
_json["reservedIpRange"] = reservedIpRange;
}
return _json;
}
}
/// This resource represents a long-running operation that is the result of a
/// network API call.
class Operation {
/// If the value is `false`, it means the operation is still in progress. If
/// `true`, the operation is completed, and either `error` or `response` is
/// available.
core.bool done;
/// The error result of the operation in case of failure or cancellation.
Status error;
/// Service-specific metadata associated with the operation. It typically
/// contains progress information and common metadata such as create time.
/// Some services might not provide such metadata. Any method that returns a
/// long-running operation should document the metadata type, if any.
///
/// The values for Object must be JSON objects. It can consist of `num`,
/// `String`, `bool` and `null` as well as `Map` and `List` values.
core.Map<core.String, core.Object> metadata;
/// The server-assigned name, which is only unique within the same service
/// that originally returns it. If you use the default HTTP mapping, the
/// `name` should be a resource name ending with `operations/{unique_id}`.
core.String name;
/// The normal response of the operation in case of success. If the original
/// method returns no data on success, such as `Delete`, the response is
/// `google.protobuf.Empty`. If the original method is standard
/// `Get`/`Create`/`Update`, the response should be the resource. For other
/// methods, the response should have the type `XxxResponse`, where `Xxx` is
/// the original method name. For example, if the original method name is
/// `TakeSnapshot()`, the inferred response type is `TakeSnapshotResponse`.
///
/// The values for Object must be JSON objects. It can consist of `num`,
/// `String`, `bool` and `null` as well as `Map` and `List` values.
core.Map<core.String, core.Object> response;
Operation();
Operation.fromJson(core.Map _json) {
if (_json.containsKey("done")) {
done = _json["done"];
}
if (_json.containsKey("error")) {
error = new Status.fromJson(_json["error"]);
}
if (_json.containsKey("metadata")) {
metadata =
(_json["metadata"] as core.Map).cast<core.String, core.Object>();
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("response")) {
response =
(_json["response"] as core.Map).cast<core.String, core.Object>();
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (done != null) {
_json["done"] = done;
}
if (error != null) {
_json["error"] = (error).toJson();
}
if (metadata != null) {
_json["metadata"] = metadata;
}
if (name != null) {
_json["name"] = name;
}
if (response != null) {
_json["response"] = response;
}
return _json;
}
}
/// Represents the metadata of the long-running operation.
class OperationMetadata {
/// [Output only] API version used to start the operation.
core.String apiVersion;
/// [Output only] Identifies whether the user has requested cancellation of
/// the operation. Operations that have successfully been cancelled have
/// Operation.error value with a google.rpc.Status.code of 1, corresponding to
/// `Code.CANCELLED`.
core.bool cancelRequested;
/// [Output only] The time the operation was created.
core.String createTime;
/// [Output only] The time the operation finished running.
core.String endTime;
/// [Output only] Human-readable status of the operation, if any.
core.String statusDetail;
/// [Output only] Server-defined resource path for the target of the
/// operation.
core.String target;
/// [Output only] Name of the verb executed by the operation.
core.String verb;
OperationMetadata();
OperationMetadata.fromJson(core.Map _json) {
if (_json.containsKey("apiVersion")) {
apiVersion = _json["apiVersion"];
}
if (_json.containsKey("cancelRequested")) {
cancelRequested = _json["cancelRequested"];
}
if (_json.containsKey("createTime")) {
createTime = _json["createTime"];
}
if (_json.containsKey("endTime")) {
endTime = _json["endTime"];
}
if (_json.containsKey("statusDetail")) {
statusDetail = _json["statusDetail"];
}
if (_json.containsKey("target")) {
target = _json["target"];
}
if (_json.containsKey("verb")) {
verb = _json["verb"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (apiVersion != null) {
_json["apiVersion"] = apiVersion;
}
if (cancelRequested != null) {
_json["cancelRequested"] = cancelRequested;
}
if (createTime != null) {
_json["createTime"] = createTime;
}
if (endTime != null) {
_json["endTime"] = endTime;
}
if (statusDetail != null) {
_json["statusDetail"] = statusDetail;
}
if (target != null) {
_json["target"] = target;
}
if (verb != null) {
_json["verb"] = verb;
}
return _json;
}
}
/// The `Status` type defines a logical error model that is suitable for
/// different programming environments, including REST APIs and RPC APIs. It is
/// used by [gRPC](https://github.com/grpc). Each `Status` message contains
/// three pieces of data: error code, error message, and error details. You can
/// find out more about this error model and how to work with it in the [API
/// Design Guide](https://cloud.google.com/apis/design/errors).
class Status {
/// The status code, which should be an enum value of google.rpc.Code.
core.int code;
/// A list of messages that carry the error details. There is a common set of
/// message types for APIs to use.
///
/// The values for Object must be JSON objects. It can consist of `num`,
/// `String`, `bool` and `null` as well as `Map` and `List` values.
core.List<core.Map<core.String, core.Object>> details;
/// A developer-facing error message, which should be in English. Any
/// user-facing error message should be localized and sent in the
/// google.rpc.Status.details field, or localized by the client.
core.String message;
Status();
Status.fromJson(core.Map _json) {
if (_json.containsKey("code")) {
code = _json["code"];
}
if (_json.containsKey("details")) {
details = (_json["details"] as core.List)
.map<core.Map<core.String, core.Object>>(
(value) => (value as core.Map).cast<core.String, core.Object>())
.toList();
}
if (_json.containsKey("message")) {
message = _json["message"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (code != null) {
_json["code"] = code;
}
if (details != null) {
_json["details"] = details;
}
if (message != null) {
_json["message"] = message;
}
return _json;
}
}