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fuchsia / third_party / dart-pkg / 231a63142e1f6ac22b600840cd234143bd22f26d / . / googleapis / lib / serviceconsumermanagement / v1.dart
blob: f15fb80176c0418c513c3844acc33197a12cb9c5 [file] [log] [blame]
// This is a generated file (see the discoveryapis_generator project).
library googleapis.serviceconsumermanagement.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_1;
export 'package:_discoveryapis_commons/_discoveryapis_commons.dart'
show ApiRequestError, DetailedApiRequestError;
const core.String USER_AGENT = 'dart-api-client serviceconsumermanagement/v1';
/// Provides management methods for configuring service producer resources on
/// Google Cloud.
class ServiceconsumermanagementApi {
/// View and manage your data across Google Cloud Platform services
static const CloudPlatformScope =
"https://www.googleapis.com/auth/cloud-platform";
/// Manage your Google API service configuration
static const ServiceManagementScope =
"https://www.googleapis.com/auth/service.management";
final commons.ApiRequester _requester;
OperationsResourceApi get operations => new OperationsResourceApi(_requester);
ServicesResourceApi get services => new ServicesResourceApi(_requester);
ServiceconsumermanagementApi(http_1.Client client,
{core.String rootUrl: "https://serviceconsumermanagement.googleapis.com/",
core.String servicePath: ""})
: _requester =
new commons.ApiRequester(client, rootUrl, servicePath, USER_AGENT);
}
class OperationsResourceApi {
final commons.ApiRequester _requester;
OperationsResourceApi(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 "^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_1.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 $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (request != null) {
_body = convert.JSON.encode((request).toJson());
}
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($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 "^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_1.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 $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($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 "^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_1.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 $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($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 "^operations$".
///
/// [filter] - The standard list filter.
///
/// [pageToken] - The standard list page token.
///
/// [pageSize] - The standard list page size.
///
/// [$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_1.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 $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if (filter != null) {
_queryParams["filter"] = [filter];
}
if (pageToken != null) {
_queryParams["pageToken"] = [pageToken];
}
if (pageSize != null) {
_queryParams["pageSize"] = ["${pageSize}"];
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$name');
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new ListOperationsResponse.fromJson(data));
}
}
class ServicesResourceApi {
final commons.ApiRequester _requester;
ServicesTenancyUnitsResourceApi get tenancyUnits =>
new ServicesTenancyUnitsResourceApi(_requester);
ServicesResourceApi(commons.ApiRequester client) : _requester = client;
/// Search tenancy units for a service.
///
/// Request parameters:
///
/// [parent] - Service for which search is performed.
/// services/{service}
/// {service} the name of a service, for example 'service.googleapis.com'.
/// Value must have pattern "^services/[^/]+$".
///
/// [pageToken] - The continuation token, which is used to page through large
/// result sets.
/// To get the next page of results, set this parameter to the value of
/// `nextPageToken` from the previous response.
///
/// Optional.
///
/// [pageSize] - The maximum number of results returned by this request.
/// Currently, the
/// default maximum is set to 1000. If page_size is not provided or provided a
/// number larger than 1000, it will be automatically set to 1000.
///
/// Optional.
///
/// [query] - Set a query `{expression}` for querying tenancy units. Your
/// `{expression}`
/// must be in the format: `field_name=literal_string`. The `field_name` is
/// the
/// name of the field you want to compare. Supported fields are
/// `tenant_resources.tag` and`tenant_resources.resource`.
///
/// For example, to search tenancy units that contain at least one tenant
/// resource with given tag 'xyz', use query `tenant_resources.tag=xyz`.
/// To search tenancy units that contain at least one tenant resource with
/// given resource name 'projects/123456', use query
/// `tenant_resources.resource=projects/123456`.
///
/// Multiple expressions can be joined with `AND`s. Tenancy units must match
/// all expressions to be included in the result set. For example,
/// `tenant_resources.tag=xyz AND tenant_resources.resource=projects/123456`
///
/// Optional.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [SearchTenancyUnitsResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http_1.Client] completes with an error when making a REST
/// call, this method will complete with the same error.
async.Future<SearchTenancyUnitsResponse> search(core.String parent,
{core.String pageToken,
core.int pageSize,
core.String query,
core.String $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (parent == null) {
throw new core.ArgumentError("Parameter parent is required.");
}
if (pageToken != null) {
_queryParams["pageToken"] = [pageToken];
}
if (pageSize != null) {
_queryParams["pageSize"] = ["${pageSize}"];
}
if (query != null) {
_queryParams["query"] = [query];
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' + commons.Escaper.ecapeVariableReserved('$parent') + ':search';
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response
.then((data) => new SearchTenancyUnitsResponse.fromJson(data));
}
}
class ServicesTenancyUnitsResourceApi {
final commons.ApiRequester _requester;
ServicesTenancyUnitsResourceApi(commons.ApiRequester client)
: _requester = client;
/// Add a new tenant project to the tenancy unit.
/// There can be at most 512 tenant projects in a tenancy units.
/// If there are previously failed AddTenantProject calls, you might need to
/// call RemoveTenantProject first to clean them before you can make another
/// AddTenantProject with the same tag.
/// Operation<response: Empty>.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - Name of the tenancy unit.
/// Value must have pattern "^services/[^/]+/[^/]+/[^/]+/tenancyUnits/[^/]+$".
///
/// [$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_1.Client] completes with an error when making a REST
/// call, this method will complete with the same error.
async.Future<Operation> addProject(
AddTenantProjectRequest request, core.String parent,
{core.String $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (request != null) {
_body = convert.JSON.encode((request).toJson());
}
if (parent == null) {
throw new core.ArgumentError("Parameter parent is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' +
commons.Escaper.ecapeVariableReserved('$parent') +
':addProject';
var _response = _requester.request(_url, "POST",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Operation.fromJson(data));
}
/// Creates a tenancy unit with no tenant resources.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [parent] - services/{service}/{collection id}/{resource id}
/// {collection id} is the cloud resource collection type representing the
/// service consumer, for example 'projects', or 'organizations'.
/// {resource id} is the consumer numeric id, such as project number:
/// '123456'.
/// {service} the name of a service, for example 'service.googleapis.com'.
/// Enabled service binding using the new tenancy unit.
/// Value must have pattern "^services/[^/]+/[^/]+/[^/]+$".
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [TenancyUnit].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http_1.Client] completes with an error when making a REST
/// call, this method will complete with the same error.
async.Future<TenancyUnit> create(
CreateTenancyUnitRequest request, core.String parent,
{core.String $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (request != null) {
_body = convert.JSON.encode((request).toJson());
}
if (parent == null) {
throw new core.ArgumentError("Parameter parent is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' +
commons.Escaper.ecapeVariableReserved('$parent') +
'/tenancyUnits';
var _response = _requester.request(_url, "POST",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new TenancyUnit.fromJson(data));
}
/// Delete tenancy unit. Before the tenancy unit is deleted, there should be
/// no tenant resource in it.
/// Operation<response: Empty>.
///
/// Request parameters:
///
/// [name] - Name of the tenancy unit to be deleted.
/// Value must have pattern "^services/[^/]+/[^/]+/[^/]+/tenancyUnits/[^/]+$".
///
/// [$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_1.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 $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($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));
}
/// Find tenancy unit for a service and consumer.
/// This method should not be used in producers' runtime path, e.g. finding
/// the tenant project number when creating VMs. Producers should persist
/// the tenant project information after the project is created.
///
/// Request parameters:
///
/// [parent] - Service and consumer. Required.
/// services/{service}/{collection id}/{resource id}
/// {collection id} is the cloud resource collection type representing the
/// service consumer, for example 'projects', or 'organizations'.
/// {resource id} is the consumer numeric id, such as project number:
/// '123456'.
/// {service} the name of a service, for example 'service.googleapis.com'.
/// Value must have pattern "^services/[^/]+/[^/]+/[^/]+$".
///
/// [pageSize] - The maximum number of results returned by this request.
///
/// [filter] - Filter expression over tenancy resources field. Optional.
///
/// [pageToken] - The continuation token, which is used to page through large
/// result sets.
/// To get the next page of results, set this parameter to the value of
/// `nextPageToken` from the previous response.
///
/// [$fields] - Selector specifying which fields to include in a partial
/// response.
///
/// Completes with a [ListTenancyUnitsResponse].
///
/// Completes with a [commons.ApiRequestError] if the API endpoint returned an
/// error.
///
/// If the used [http_1.Client] completes with an error when making a REST
/// call, this method will complete with the same error.
async.Future<ListTenancyUnitsResponse> list(core.String parent,
{core.int pageSize,
core.String filter,
core.String pageToken,
core.String $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (parent == null) {
throw new core.ArgumentError("Parameter parent is required.");
}
if (pageSize != null) {
_queryParams["pageSize"] = ["${pageSize}"];
}
if (filter != null) {
_queryParams["filter"] = [filter];
}
if (pageToken != null) {
_queryParams["pageToken"] = [pageToken];
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' +
commons.Escaper.ecapeVariableReserved('$parent') +
'/tenancyUnits';
var _response = _requester.request(_url, "GET",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response
.then((data) => new ListTenancyUnitsResponse.fromJson(data));
}
/// Removes specified project resource identified by tenant resource tag.
/// It will remove project lien with 'TenantManager' origin if that was added.
/// It will then attempt to delete the project.
/// If that operation fails, this method fails.
/// Operation<response: Empty>.
///
/// [request] - The metadata request object.
///
/// Request parameters:
///
/// [name] - Name of the tenancy unit.
/// Such as
/// 'services/service.googleapis.com/projects/12345/tenancyUnits/abcd'.
/// Value must have pattern "^services/[^/]+/[^/]+/[^/]+/tenancyUnits/[^/]+$".
///
/// [$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_1.Client] completes with an error when making a REST
/// call, this method will complete with the same error.
async.Future<Operation> removeProject(
RemoveTenantProjectRequest request, core.String name,
{core.String $fields}) {
var _url = null;
var _queryParams = new core.Map();
var _uploadMedia = null;
var _uploadOptions = null;
var _downloadOptions = commons.DownloadOptions.Metadata;
var _body = null;
if (request != null) {
_body = convert.JSON.encode((request).toJson());
}
if (name == null) {
throw new core.ArgumentError("Parameter name is required.");
}
if ($fields != null) {
_queryParams["fields"] = [$fields];
}
_url = 'v1/' +
commons.Escaper.ecapeVariableReserved('$name') +
':removeProject';
var _response = _requester.request(_url, "POST",
body: _body,
queryParams: _queryParams,
uploadOptions: _uploadOptions,
uploadMedia: _uploadMedia,
downloadOptions: _downloadOptions);
return _response.then((data) => new Operation.fromJson(data));
}
}
/// Request to add a newly created and configured tenant project to tenancy
/// unit.
class AddTenantProjectRequest {
/// Configuration of the new tenant project that will be added to tenancy unit
/// resources.
TenantProjectConfig projectConfig;
/// Tag of the added project. Must be less than 128 characters. Required.
core.String tag;
AddTenantProjectRequest();
AddTenantProjectRequest.fromJson(core.Map _json) {
if (_json.containsKey("projectConfig")) {
projectConfig = new TenantProjectConfig.fromJson(_json["projectConfig"]);
}
if (_json.containsKey("tag")) {
tag = _json["tag"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (projectConfig != null) {
_json["projectConfig"] = (projectConfig).toJson();
}
if (tag != null) {
_json["tag"] = tag;
}
return _json;
}
}
/// Api is a light-weight descriptor for an API Interface.
///
/// Interfaces are also described as "protocol buffer services" in some
/// contexts,
/// such as by the "service" keyword in a .proto file, but they are different
/// from API Services, which represent a concrete implementation of an interface
/// as opposed to simply a description of methods and bindings. They are also
/// sometimes simply referred to as "APIs" in other contexts, such as the name
/// of
/// this message itself. See https://cloud.google.com/apis/design/glossary for
/// detailed terminology.
class Api {
/// The methods of this interface, in unspecified order.
core.List<Method> methods;
/// Included interfaces. See Mixin.
core.List<Mixin> mixins;
/// The fully qualified name of this interface, including package name
/// followed by the interface's simple name.
core.String name;
/// Any metadata attached to the interface.
core.List<Option> options;
/// Source context for the protocol buffer service represented by this
/// message.
SourceContext sourceContext;
/// The source syntax of the service.
/// Possible string values are:
/// - "SYNTAX_PROTO2" : Syntax `proto2`.
/// - "SYNTAX_PROTO3" : Syntax `proto3`.
core.String syntax;
/// A version string for this interface. If specified, must have the form
/// `major-version.minor-version`, as in `1.10`. If the minor version is
/// omitted, it defaults to zero. If the entire version field is empty, the
/// major version is derived from the package name, as outlined below. If the
/// field is not empty, the version in the package name will be verified to be
/// consistent with what is provided here.
///
/// The versioning schema uses [semantic
/// versioning](http://semver.org) where the major version number
/// indicates a breaking change and the minor version an additive,
/// non-breaking change. Both version numbers are signals to users
/// what to expect from different versions, and should be carefully
/// chosen based on the product plan.
///
/// The major version is also reflected in the package name of the
/// interface, which must end in `v<major-version>`, as in
/// `google.feature.v1`. For major versions 0 and 1, the suffix can
/// be omitted. Zero major versions must only be used for
/// experimental, non-GA interfaces.
core.String version;
Api();
Api.fromJson(core.Map _json) {
if (_json.containsKey("methods")) {
methods =
_json["methods"].map((value) => new Method.fromJson(value)).toList();
}
if (_json.containsKey("mixins")) {
mixins =
_json["mixins"].map((value) => new Mixin.fromJson(value)).toList();
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("options")) {
options =
_json["options"].map((value) => new Option.fromJson(value)).toList();
}
if (_json.containsKey("sourceContext")) {
sourceContext = new SourceContext.fromJson(_json["sourceContext"]);
}
if (_json.containsKey("syntax")) {
syntax = _json["syntax"];
}
if (_json.containsKey("version")) {
version = _json["version"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (methods != null) {
_json["methods"] = methods.map((value) => (value).toJson()).toList();
}
if (mixins != null) {
_json["mixins"] = mixins.map((value) => (value).toJson()).toList();
}
if (name != null) {
_json["name"] = name;
}
if (options != null) {
_json["options"] = options.map((value) => (value).toJson()).toList();
}
if (sourceContext != null) {
_json["sourceContext"] = (sourceContext).toJson();
}
if (syntax != null) {
_json["syntax"] = syntax;
}
if (version != null) {
_json["version"] = version;
}
return _json;
}
}
/// Configuration for an anthentication provider, including support for
/// [JSON Web Token
/// (JWT)](https://tools.ietf.org/html/draft-ietf-oauth-json-web-token-32).
class AuthProvider {
/// The list of JWT
/// [audiences](https://tools.ietf.org/html/draft-ietf-oauth-json-web-token-32#section-4.1.3).
/// that are allowed to access. A JWT containing any of these audiences will
/// be accepted. When this setting is absent, only JWTs with audience
/// "https://Service_name/API_name"
/// will be accepted. For example, if no audiences are in the setting,
/// LibraryService API will only accept JWTs with the following audience
/// "https://library-example.googleapis.com/google.example.library.v1.LibraryService".
///
/// Example:
///
/// audiences: bookstore_android.apps.googleusercontent.com,
/// bookstore_web.apps.googleusercontent.com
core.String audiences;
/// Redirect URL if JWT token is required but no present or is expired.
/// Implement authorizationUrl of securityDefinitions in OpenAPI spec.
core.String authorizationUrl;
/// The unique identifier of the auth provider. It will be referred to by
/// `AuthRequirement.provider_id`.
///
/// Example: "bookstore_auth".
core.String id;
/// Identifies the principal that issued the JWT. See
/// https://tools.ietf.org/html/draft-ietf-oauth-json-web-token-32#section-4.1.1
/// Usually a URL or an email address.
///
/// Example: https://securetoken.google.com
/// Example: 1234567-compute@developer.gserviceaccount.com
core.String issuer;
/// URL of the provider's public key set to validate signature of the JWT. See
/// [OpenID
/// Discovery](https://openid.net/specs/openid-connect-discovery-1_0.html#ProviderMetadata).
/// Optional if the key set document:
/// - can be retrieved from
/// [OpenID
/// Discovery](https://openid.net/specs/openid-connect-discovery-1_0.html
/// of the issuer.
/// - can be inferred from the email domain of the issuer (e.g. a Google
/// service account).
///
/// Example: https://www.googleapis.com/oauth2/v1/certs
core.String jwksUri;
AuthProvider();
AuthProvider.fromJson(core.Map _json) {
if (_json.containsKey("audiences")) {
audiences = _json["audiences"];
}
if (_json.containsKey("authorizationUrl")) {
authorizationUrl = _json["authorizationUrl"];
}
if (_json.containsKey("id")) {
id = _json["id"];
}
if (_json.containsKey("issuer")) {
issuer = _json["issuer"];
}
if (_json.containsKey("jwksUri")) {
jwksUri = _json["jwksUri"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (audiences != null) {
_json["audiences"] = audiences;
}
if (authorizationUrl != null) {
_json["authorizationUrl"] = authorizationUrl;
}
if (id != null) {
_json["id"] = id;
}
if (issuer != null) {
_json["issuer"] = issuer;
}
if (jwksUri != null) {
_json["jwksUri"] = jwksUri;
}
return _json;
}
}
/// User-defined authentication requirements, including support for
/// [JSON Web Token
/// (JWT)](https://tools.ietf.org/html/draft-ietf-oauth-json-web-token-32).
class AuthRequirement {
/// NOTE: This will be deprecated soon, once AuthProvider.audiences is
/// implemented and accepted in all the runtime components.
///
/// The list of JWT
/// [audiences](https://tools.ietf.org/html/draft-ietf-oauth-json-web-token-32#section-4.1.3).
/// that are allowed to access. A JWT containing any of these audiences will
/// be accepted. When this setting is absent, only JWTs with audience
/// "https://Service_name/API_name"
/// will be accepted. For example, if no audiences are in the setting,
/// LibraryService API will only accept JWTs with the following audience
/// "https://library-example.googleapis.com/google.example.library.v1.LibraryService".
///
/// Example:
///
/// audiences: bookstore_android.apps.googleusercontent.com,
/// bookstore_web.apps.googleusercontent.com
core.String audiences;
/// id from authentication provider.
///
/// Example:
///
/// provider_id: bookstore_auth
core.String providerId;
AuthRequirement();
AuthRequirement.fromJson(core.Map _json) {
if (_json.containsKey("audiences")) {
audiences = _json["audiences"];
}
if (_json.containsKey("providerId")) {
providerId = _json["providerId"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (audiences != null) {
_json["audiences"] = audiences;
}
if (providerId != null) {
_json["providerId"] = providerId;
}
return _json;
}
}
/// `Authentication` defines the authentication configuration for an API.
///
/// Example for an API targeted for external use:
///
/// name: calendar.googleapis.com
/// authentication:
/// providers:
/// - id: google_calendar_auth
/// jwks_uri: https://www.googleapis.com/oauth2/v1/certs
/// issuer: https://securetoken.google.com
/// rules:
/// - selector: "*"
/// requirements:
/// provider_id: google_calendar_auth
class Authentication {
/// Defines a set of authentication providers that a service supports.
core.List<AuthProvider> providers;
/// A list of authentication rules that apply to individual API methods.
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<AuthenticationRule> rules;
Authentication();
Authentication.fromJson(core.Map _json) {
if (_json.containsKey("providers")) {
providers = _json["providers"]
.map((value) => new AuthProvider.fromJson(value))
.toList();
}
if (_json.containsKey("rules")) {
rules = _json["rules"]
.map((value) => new AuthenticationRule.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 (providers != null) {
_json["providers"] = providers.map((value) => (value).toJson()).toList();
}
if (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Authentication rules for the service.
///
/// By default, if a method has any authentication requirements, every request
/// must include a valid credential matching one of the requirements.
/// It's an error to include more than one kind of credential in a single
/// request.
///
/// If a method doesn't have any auth requirements, request credentials will be
/// ignored.
class AuthenticationRule {
/// Whether to allow requests without a credential. The credential can be
/// an OAuth token, Google cookies (first-party auth) or EndUserCreds.
///
/// For requests without credentials, if the service control environment is
/// specified, each incoming request **must** be associated with a service
/// consumer. This can be done by passing an API key that belongs to a
/// consumer
/// project.
core.bool allowWithoutCredential;
/// Configuration for custom authentication.
CustomAuthRequirements customAuth;
/// The requirements for OAuth credentials.
OAuthRequirements oauth;
/// Requirements for additional authentication providers.
core.List<AuthRequirement> requirements;
/// Selects the methods to which this rule applies.
///
/// Refer to selector for syntax details.
core.String selector;
AuthenticationRule();
AuthenticationRule.fromJson(core.Map _json) {
if (_json.containsKey("allowWithoutCredential")) {
allowWithoutCredential = _json["allowWithoutCredential"];
}
if (_json.containsKey("customAuth")) {
customAuth = new CustomAuthRequirements.fromJson(_json["customAuth"]);
}
if (_json.containsKey("oauth")) {
oauth = new OAuthRequirements.fromJson(_json["oauth"]);
}
if (_json.containsKey("requirements")) {
requirements = _json["requirements"]
.map((value) => new AuthRequirement.fromJson(value))
.toList();
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (allowWithoutCredential != null) {
_json["allowWithoutCredential"] = allowWithoutCredential;
}
if (customAuth != null) {
_json["customAuth"] = (customAuth).toJson();
}
if (oauth != null) {
_json["oauth"] = (oauth).toJson();
}
if (requirements != null) {
_json["requirements"] =
requirements.map((value) => (value).toJson()).toList();
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}
/// Configuration of authorization.
///
/// This section determines the authorization provider, if unspecified, then no
/// authorization check will be done.
///
/// Example:
///
/// experimental:
/// authorization:
/// provider: firebaserules.googleapis.com
class AuthorizationConfig {
/// The name of the authorization provider, such as
/// firebaserules.googleapis.com.
core.String provider;
AuthorizationConfig();
AuthorizationConfig.fromJson(core.Map _json) {
if (_json.containsKey("provider")) {
provider = _json["provider"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (provider != null) {
_json["provider"] = provider;
}
return _json;
}
}
/// Authorization rule for API services.
///
/// It specifies the permission(s) required for an API element for the overall
/// API request to succeed. It is typically used to mark request message fields
/// that contain the name of the resource and indicates the permissions that
/// will be checked on that resource.
///
/// For example:
///
/// package google.storage.v1;
///
/// message CopyObjectRequest {
/// string source = 1 [
/// (google.api.authz).permissions = "storage.objects.get"];
///
/// string destination = 2 [
/// (google.api.authz).permissions =
/// "storage.objects.create,storage.objects.update"];
/// }
class AuthorizationRule {
/// The required permissions. The acceptable values vary depend on the
/// authorization system used. For Google APIs, it should be a comma-separated
/// Google IAM permission values. When multiple permissions are listed, the
/// semantics is not defined by the system. Additional documentation must
/// be provided manually.
core.String permissions;
/// Selects the API elements to which this rule applies.
///
/// Refer to selector for syntax details.
core.String selector;
AuthorizationRule();
AuthorizationRule.fromJson(core.Map _json) {
if (_json.containsKey("permissions")) {
permissions = _json["permissions"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (permissions != null) {
_json["permissions"] = permissions;
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}
/// `Backend` defines the backend configuration for a service.
class Backend {
/// A list of API backend rules that apply to individual API methods.
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<BackendRule> rules;
Backend();
Backend.fromJson(core.Map _json) {
if (_json.containsKey("rules")) {
rules = _json["rules"]
.map((value) => new BackendRule.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 (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// A backend rule provides configuration for an individual API element.
class BackendRule {
/// The address of the API backend.
core.String address;
/// The number of seconds to wait for a response from a request. The default
/// deadline for gRPC is infinite (no deadline) and HTTP requests is 5
/// seconds.
core.double deadline;
/// Minimum deadline in seconds needed for this method. Calls having deadline
/// value lower than this will be rejected.
core.double minDeadline;
/// Selects the methods to which this rule applies.
///
/// Refer to selector for syntax details.
core.String selector;
BackendRule();
BackendRule.fromJson(core.Map _json) {
if (_json.containsKey("address")) {
address = _json["address"];
}
if (_json.containsKey("deadline")) {
deadline = _json["deadline"];
}
if (_json.containsKey("minDeadline")) {
minDeadline = _json["minDeadline"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (address != null) {
_json["address"] = address;
}
if (deadline != null) {
_json["deadline"] = deadline;
}
if (minDeadline != null) {
_json["minDeadline"] = minDeadline;
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}
/// Billing related configuration of the service.
///
/// The following example shows how to configure monitored resources and metrics
/// for billing:
///
/// monitored_resources:
/// - type: library.googleapis.com/branch
/// labels:
/// - key: /city
/// description: The city where the library branch is located in.
/// - key: /name
/// description: The name of the branch.
/// metrics:
/// - name: library.googleapis.com/book/borrowed_count
/// metric_kind: DELTA
/// value_type: INT64
/// billing:
/// consumer_destinations:
/// - monitored_resource: library.googleapis.com/branch
/// metrics:
/// - library.googleapis.com/book/borrowed_count
class Billing {
/// Billing configurations for sending metrics to the consumer project.
/// There can be multiple consumer destinations per service, each one must
/// have
/// a different monitored resource type. A metric can be used in at most
/// one consumer destination.
core.List<BillingDestination> consumerDestinations;
Billing();
Billing.fromJson(core.Map _json) {
if (_json.containsKey("consumerDestinations")) {
consumerDestinations = _json["consumerDestinations"]
.map((value) => new BillingDestination.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 (consumerDestinations != null) {
_json["consumerDestinations"] =
consumerDestinations.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Describes billing configuration for new a Tenant Project
class BillingConfig {
/// Name of the billing account.
/// For example `billingAccounts/012345-567890-ABCDEF`.
core.String billingAccount;
BillingConfig();
BillingConfig.fromJson(core.Map _json) {
if (_json.containsKey("billingAccount")) {
billingAccount = _json["billingAccount"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (billingAccount != null) {
_json["billingAccount"] = billingAccount;
}
return _json;
}
}
/// Configuration of a specific billing destination (Currently only support
/// bill against consumer project).
class BillingDestination {
/// Names of the metrics to report to this billing destination.
/// Each name must be defined in Service.metrics section.
core.List<core.String> metrics;
/// The monitored resource type. The type must be defined in
/// Service.monitored_resources section.
core.String monitoredResource;
BillingDestination();
BillingDestination.fromJson(core.Map _json) {
if (_json.containsKey("metrics")) {
metrics = _json["metrics"];
}
if (_json.containsKey("monitoredResource")) {
monitoredResource = _json["monitoredResource"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (metrics != null) {
_json["metrics"] = metrics;
}
if (monitoredResource != null) {
_json["monitoredResource"] = monitoredResource;
}
return _json;
}
}
/// 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;
}
}
/// `Context` defines which contexts an API requests.
///
/// Example:
///
/// context:
/// rules:
/// - selector: "*"
/// requested:
/// - google.rpc.context.ProjectContext
/// - google.rpc.context.OriginContext
///
/// The above specifies that all methods in the API request
/// `google.rpc.context.ProjectContext` and
/// `google.rpc.context.OriginContext`.
///
/// Available context types are defined in package
/// `google.rpc.context`.
///
/// This also provides mechanism to whitelist any protobuf message extension
/// that
/// can be sent in grpc metadata using “x-goog-ext-<extension_id>-bin” and
/// “x-goog-ext-<extension_id>-jspb” format. For example, list any service
/// specific protobuf types that can appear in grpc metadata as follows in your
/// yaml file:
///
/// Example:
///
/// context:
/// rules:
/// - selector: "google.example.library.v1.LibraryService.CreateBook"
/// allowed_request_extensions:
/// - google.foo.v1.NewExtension
/// allowed_response_extensions:
/// - google.foo.v1.NewExtension
///
/// You can also specify extension ID instead of fully qualified extension name
/// here.
class Context {
/// A list of RPC context rules that apply to individual API methods.
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<ContextRule> rules;
Context();
Context.fromJson(core.Map _json) {
if (_json.containsKey("rules")) {
rules = _json["rules"]
.map((value) => new ContextRule.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 (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// A context rule provides information about the context for an individual API
/// element.
class ContextRule {
/// A list of full type names or extension IDs of extensions allowed in grpc
/// side channel from client to backend.
core.List<core.String> allowedRequestExtensions;
/// A list of full type names or extension IDs of extensions allowed in grpc
/// side channel from backend to client.
core.List<core.String> allowedResponseExtensions;
/// A list of full type names of provided contexts.
core.List<core.String> provided;
/// A list of full type names of requested contexts.
core.List<core.String> requested;
/// Selects the methods to which this rule applies.
///
/// Refer to selector for syntax details.
core.String selector;
ContextRule();
ContextRule.fromJson(core.Map _json) {
if (_json.containsKey("allowedRequestExtensions")) {
allowedRequestExtensions = _json["allowedRequestExtensions"];
}
if (_json.containsKey("allowedResponseExtensions")) {
allowedResponseExtensions = _json["allowedResponseExtensions"];
}
if (_json.containsKey("provided")) {
provided = _json["provided"];
}
if (_json.containsKey("requested")) {
requested = _json["requested"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (allowedRequestExtensions != null) {
_json["allowedRequestExtensions"] = allowedRequestExtensions;
}
if (allowedResponseExtensions != null) {
_json["allowedResponseExtensions"] = allowedResponseExtensions;
}
if (provided != null) {
_json["provided"] = provided;
}
if (requested != null) {
_json["requested"] = requested;
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}
/// Selects and configures the service controller used by the service. The
/// service controller handles features like abuse, quota, billing, logging,
/// monitoring, etc.
class Control {
/// The service control environment to use. If empty, no control plane
/// feature (like quota and billing) will be enabled.
core.String environment;
Control();
Control.fromJson(core.Map _json) {
if (_json.containsKey("environment")) {
environment = _json["environment"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (environment != null) {
_json["environment"] = environment;
}
return _json;
}
}
/// Request to create a tenancy unit for a consumer of a service.
class CreateTenancyUnitRequest {
/// Optional producer provided identifier of the tenancy unit
/// Must be no longer than 40 characters and preferably URI friendly
/// If it is not provided, UID for the tenancy unit will be auto generated
/// It must be unique across a service.
/// If the tenancy unit already exists for the service and consumer pair,
/// CreateTenancyUnit will return existing tenancy unit if provided identifier
/// is identical or empty, otherwise the call will fail.
core.String tenancyUnitId;
CreateTenancyUnitRequest();
CreateTenancyUnitRequest.fromJson(core.Map _json) {
if (_json.containsKey("tenancyUnitId")) {
tenancyUnitId = _json["tenancyUnitId"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (tenancyUnitId != null) {
_json["tenancyUnitId"] = tenancyUnitId;
}
return _json;
}
}
/// Configuration for a custom authentication provider.
class CustomAuthRequirements {
/// A configuration string containing connection information for the
/// authentication provider, typically formatted as a SmartService string
/// (go/smartservice).
core.String provider;
CustomAuthRequirements();
CustomAuthRequirements.fromJson(core.Map _json) {
if (_json.containsKey("provider")) {
provider = _json["provider"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (provider != null) {
_json["provider"] = provider;
}
return _json;
}
}
/// Customize service error responses. For example, list any service
/// specific protobuf types that can appear in error detail lists of
/// error responses.
///
/// Example:
///
/// custom_error:
/// types:
/// - google.foo.v1.CustomError
/// - google.foo.v1.AnotherError
class CustomError {
/// The list of custom error rules that apply to individual API messages.
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<CustomErrorRule> rules;
/// The list of custom error detail types, e.g. 'google.foo.v1.CustomError'.
core.List<core.String> types;
CustomError();
CustomError.fromJson(core.Map _json) {
if (_json.containsKey("rules")) {
rules = _json["rules"]
.map((value) => new CustomErrorRule.fromJson(value))
.toList();
}
if (_json.containsKey("types")) {
types = _json["types"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
if (types != null) {
_json["types"] = types;
}
return _json;
}
}
/// A custom error rule.
class CustomErrorRule {
/// Mark this message as possible payload in error response. Otherwise,
/// objects of this type will be filtered when they appear in error payload.
core.bool isErrorType;
/// Selects messages to which this rule applies.
///
/// Refer to selector for syntax details.
core.String selector;
CustomErrorRule();
CustomErrorRule.fromJson(core.Map _json) {
if (_json.containsKey("isErrorType")) {
isErrorType = _json["isErrorType"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (isErrorType != null) {
_json["isErrorType"] = isErrorType;
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}
/// A custom pattern is used for defining custom HTTP verb.
class CustomHttpPattern {
/// The name of this custom HTTP verb.
core.String kind;
/// The path matched by this custom verb.
core.String path;
CustomHttpPattern();
CustomHttpPattern.fromJson(core.Map _json) {
if (_json.containsKey("kind")) {
kind = _json["kind"];
}
if (_json.containsKey("path")) {
path = _json["path"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (kind != null) {
_json["kind"] = kind;
}
if (path != null) {
_json["path"] = path;
}
return _json;
}
}
/// `Documentation` provides the information for describing a service.
///
/// Example:
/// <pre><code>documentation:
/// summary: >
/// The Google Calendar API gives access
/// to most calendar features.
/// pages:
/// - name: Overview
/// content: &#40;== include google/foo/overview.md ==&#41;
/// - name: Tutorial
/// content: &#40;== include google/foo/tutorial.md ==&#41;
/// subpages;
/// - name: Java
/// content: &#40;== include google/foo/tutorial_java.md ==&#41;
/// rules:
/// - selector: google.calendar.Calendar.Get
/// description: >
/// ...
/// - selector: google.calendar.Calendar.Put
/// description: >
/// ...
/// </code></pre>
/// Documentation is provided in markdown syntax. In addition to
/// standard markdown features, definition lists, tables and fenced
/// code blocks are supported. Section headers can be provided and are
/// interpreted relative to the section nesting of the context where
/// a documentation fragment is embedded.
///
/// Documentation from the IDL is merged with documentation defined
/// via the config at normalization time, where documentation provided
/// by config rules overrides IDL provided.
///
/// A number of constructs specific to the API platform are supported
/// in documentation text.
///
/// In order to reference a proto element, the following
/// notation can be used:
/// <pre><code>&#91;fully.qualified.proto.name]&#91;]</code></pre>
/// To override the display text used for the link, this can be used:
/// <pre><code>&#91;display text]&#91;fully.qualified.proto.name]</code></pre>
/// Text can be excluded from doc using the following notation:
/// <pre><code>&#40;-- internal comment --&#41;</code></pre>
/// Comments can be made conditional using a visibility label. The below
/// text will be only rendered if the `BETA` label is available:
/// <pre><code>&#40;--BETA: comment for BETA users --&#41;</code></pre>
/// A few directives are available in documentation. Note that
/// directives must appear on a single line to be properly
/// identified. The `include` directive includes a markdown file from
/// an external source:
/// <pre><code>&#40;== include path/to/file ==&#41;</code></pre>
/// The `resource_for` directive marks a message to be the resource of
/// a collection in REST view. If it is not specified, tools attempt
/// to infer the resource from the operations in a collection:
/// <pre><code>&#40;== resource_for v1.shelves.books ==&#41;</code></pre>
/// The directive `suppress_warning` does not directly affect documentation
/// and is documented together with service config validation.
class Documentation {
/// The URL to the root of documentation.
core.String documentationRootUrl;
/// Declares a single overview page. For example:
/// <pre><code>documentation:
/// summary: ...
/// overview: &#40;== include overview.md ==&#41;
/// </code></pre>
/// This is a shortcut for the following declaration (using pages style):
/// <pre><code>documentation:
/// summary: ...
/// pages:
/// - name: Overview
/// content: &#40;== include overview.md ==&#41;
/// </code></pre>
/// Note: you cannot specify both `overview` field and `pages` field.
core.String overview;
/// The top level pages for the documentation set.
core.List<Page> pages;
/// A list of documentation rules that apply to individual API elements.
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<DocumentationRule> rules;
/// A short summary of what the service does. Can only be provided by
/// plain text.
core.String summary;
Documentation();
Documentation.fromJson(core.Map _json) {
if (_json.containsKey("documentationRootUrl")) {
documentationRootUrl = _json["documentationRootUrl"];
}
if (_json.containsKey("overview")) {
overview = _json["overview"];
}
if (_json.containsKey("pages")) {
pages = _json["pages"].map((value) => new Page.fromJson(value)).toList();
}
if (_json.containsKey("rules")) {
rules = _json["rules"]
.map((value) => new DocumentationRule.fromJson(value))
.toList();
}
if (_json.containsKey("summary")) {
summary = _json["summary"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (documentationRootUrl != null) {
_json["documentationRootUrl"] = documentationRootUrl;
}
if (overview != null) {
_json["overview"] = overview;
}
if (pages != null) {
_json["pages"] = pages.map((value) => (value).toJson()).toList();
}
if (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
if (summary != null) {
_json["summary"] = summary;
}
return _json;
}
}
/// A documentation rule provides information about individual API elements.
class DocumentationRule {
/// Deprecation description of the selected element(s). It can be provided if
/// an
/// element is marked as `deprecated`.
core.String deprecationDescription;
/// Description of the selected API(s).
core.String description;
/// The selector is a comma-separated list of patterns. Each pattern is a
/// qualified name of the element which may end in "*", indicating a wildcard.
/// Wildcards are only allowed at the end and for a whole component of the
/// qualified name, i.e. "foo.*" is ok, but not "foo.b*" or "foo.*.bar". To
/// specify a default for all applicable elements, the whole pattern "*"
/// is used.
core.String selector;
DocumentationRule();
DocumentationRule.fromJson(core.Map _json) {
if (_json.containsKey("deprecationDescription")) {
deprecationDescription = _json["deprecationDescription"];
}
if (_json.containsKey("description")) {
description = _json["description"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (deprecationDescription != null) {
_json["deprecationDescription"] = deprecationDescription;
}
if (description != null) {
_json["description"] = description;
}
if (selector != null) {
_json["selector"] = selector;
}
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;
}
}
/// `Endpoint` describes a network endpoint that serves a set of APIs.
/// A service may expose any number of endpoints, and all endpoints share the
/// same service configuration, such as quota configuration and monitoring
/// configuration.
///
/// Example service configuration:
///
/// name: library-example.googleapis.com
/// endpoints:
/// # Below entry makes 'google.example.library.v1.Library'
/// # API be served from endpoint address library-example.googleapis.com.
/// # It also allows HTTP OPTIONS calls to be passed to the backend, for
/// # it to decide whether the subsequent cross-origin request is
/// # allowed to proceed.
/// - name: library-example.googleapis.com
/// allow_cors: true
class Endpoint {
/// DEPRECATED: This field is no longer supported. Instead of using aliases,
/// please specify multiple google.api.Endpoint for each of the intended
/// aliases.
///
/// Additional names that this endpoint will be hosted on.
core.List<core.String> aliases;
/// Allowing
/// [CORS](https://en.wikipedia.org/wiki/Cross-origin_resource_sharing), aka
/// cross-domain traffic, would allow the backends served from this endpoint
/// to
/// receive and respond to HTTP OPTIONS requests. The response will be used by
/// the browser to determine whether the subsequent cross-origin request is
/// allowed to proceed.
core.bool allowCors;
/// The list of features enabled on this endpoint.
core.List<core.String> features;
/// The canonical name of this endpoint.
core.String name;
/// The specification of an Internet routable address of API frontend that
/// will
/// handle requests to this [API
/// Endpoint](https://cloud.google.com/apis/design/glossary).
/// It should be either a valid IPv4 address or a fully-qualified domain name.
/// For example, "8.8.8.8" or "myservice.appspot.com".
core.String target;
Endpoint();
Endpoint.fromJson(core.Map _json) {
if (_json.containsKey("aliases")) {
aliases = _json["aliases"];
}
if (_json.containsKey("allowCors")) {
allowCors = _json["allowCors"];
}
if (_json.containsKey("features")) {
features = _json["features"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("target")) {
target = _json["target"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (aliases != null) {
_json["aliases"] = aliases;
}
if (allowCors != null) {
_json["allowCors"] = allowCors;
}
if (features != null) {
_json["features"] = features;
}
if (name != null) {
_json["name"] = name;
}
if (target != null) {
_json["target"] = target;
}
return _json;
}
}
/// Enum type definition.
class Enum {
/// Enum value definitions.
core.List<EnumValue> enumvalue;
/// Enum type name.
core.String name;
/// Protocol buffer options.
core.List<Option> options;
/// The source context.
SourceContext sourceContext;
/// The source syntax.
/// Possible string values are:
/// - "SYNTAX_PROTO2" : Syntax `proto2`.
/// - "SYNTAX_PROTO3" : Syntax `proto3`.
core.String syntax;
Enum();
Enum.fromJson(core.Map _json) {
if (_json.containsKey("enumvalue")) {
enumvalue = _json["enumvalue"]
.map((value) => new EnumValue.fromJson(value))
.toList();
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("options")) {
options =
_json["options"].map((value) => new Option.fromJson(value)).toList();
}
if (_json.containsKey("sourceContext")) {
sourceContext = new SourceContext.fromJson(_json["sourceContext"]);
}
if (_json.containsKey("syntax")) {
syntax = _json["syntax"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (enumvalue != null) {
_json["enumvalue"] = enumvalue.map((value) => (value).toJson()).toList();
}
if (name != null) {
_json["name"] = name;
}
if (options != null) {
_json["options"] = options.map((value) => (value).toJson()).toList();
}
if (sourceContext != null) {
_json["sourceContext"] = (sourceContext).toJson();
}
if (syntax != null) {
_json["syntax"] = syntax;
}
return _json;
}
}
/// Enum value definition.
class EnumValue {
/// Enum value name.
core.String name;
/// Enum value number.
core.int number;
/// Protocol buffer options.
core.List<Option> options;
EnumValue();
EnumValue.fromJson(core.Map _json) {
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("number")) {
number = _json["number"];
}
if (_json.containsKey("options")) {
options =
_json["options"].map((value) => new Option.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 (name != null) {
_json["name"] = name;
}
if (number != null) {
_json["number"] = number;
}
if (options != null) {
_json["options"] = options.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Experimental service configuration. These configuration options can
/// only be used by whitelisted users.
class Experimental {
/// Authorization configuration.
AuthorizationConfig authorization;
Experimental();
Experimental.fromJson(core.Map _json) {
if (_json.containsKey("authorization")) {
authorization = new AuthorizationConfig.fromJson(_json["authorization"]);
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (authorization != null) {
_json["authorization"] = (authorization).toJson();
}
return _json;
}
}
/// A single field of a message type.
class Field {
/// The field cardinality.
/// Possible string values are:
/// - "CARDINALITY_UNKNOWN" : For fields with unknown cardinality.
/// - "CARDINALITY_OPTIONAL" : For optional fields.
/// - "CARDINALITY_REQUIRED" : For required fields. Proto2 syntax only.
/// - "CARDINALITY_REPEATED" : For repeated fields.
core.String cardinality;
/// The string value of the default value of this field. Proto2 syntax only.
core.String defaultValue;
/// The field JSON name.
core.String jsonName;
/// The field type.
/// Possible string values are:
/// - "TYPE_UNKNOWN" : Field type unknown.
/// - "TYPE_DOUBLE" : Field type double.
/// - "TYPE_FLOAT" : Field type float.
/// - "TYPE_INT64" : Field type int64.
/// - "TYPE_UINT64" : Field type uint64.
/// - "TYPE_INT32" : Field type int32.
/// - "TYPE_FIXED64" : Field type fixed64.
/// - "TYPE_FIXED32" : Field type fixed32.
/// - "TYPE_BOOL" : Field type bool.
/// - "TYPE_STRING" : Field type string.
/// - "TYPE_GROUP" : Field type group. Proto2 syntax only, and deprecated.
/// - "TYPE_MESSAGE" : Field type message.
/// - "TYPE_BYTES" : Field type bytes.
/// - "TYPE_UINT32" : Field type uint32.
/// - "TYPE_ENUM" : Field type enum.
/// - "TYPE_SFIXED32" : Field type sfixed32.
/// - "TYPE_SFIXED64" : Field type sfixed64.
/// - "TYPE_SINT32" : Field type sint32.
/// - "TYPE_SINT64" : Field type sint64.
core.String kind;
/// The field name.
core.String name;
/// The field number.
core.int number;
/// The index of the field type in `Type.oneofs`, for message or enumeration
/// types. The first type has index 1; zero means the type is not in the list.
core.int oneofIndex;
/// The protocol buffer options.
core.List<Option> options;
/// Whether to use alternative packed wire representation.
core.bool packed;
/// The field type URL, without the scheme, for message or enumeration
/// types. Example: `"type.googleapis.com/google.protobuf.Timestamp"`.
core.String typeUrl;
Field();
Field.fromJson(core.Map _json) {
if (_json.containsKey("cardinality")) {
cardinality = _json["cardinality"];
}
if (_json.containsKey("defaultValue")) {
defaultValue = _json["defaultValue"];
}
if (_json.containsKey("jsonName")) {
jsonName = _json["jsonName"];
}
if (_json.containsKey("kind")) {
kind = _json["kind"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("number")) {
number = _json["number"];
}
if (_json.containsKey("oneofIndex")) {
oneofIndex = _json["oneofIndex"];
}
if (_json.containsKey("options")) {
options =
_json["options"].map((value) => new Option.fromJson(value)).toList();
}
if (_json.containsKey("packed")) {
packed = _json["packed"];
}
if (_json.containsKey("typeUrl")) {
typeUrl = _json["typeUrl"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (cardinality != null) {
_json["cardinality"] = cardinality;
}
if (defaultValue != null) {
_json["defaultValue"] = defaultValue;
}
if (jsonName != null) {
_json["jsonName"] = jsonName;
}
if (kind != null) {
_json["kind"] = kind;
}
if (name != null) {
_json["name"] = name;
}
if (number != null) {
_json["number"] = number;
}
if (oneofIndex != null) {
_json["oneofIndex"] = oneofIndex;
}
if (options != null) {
_json["options"] = options.map((value) => (value).toJson()).toList();
}
if (packed != null) {
_json["packed"] = packed;
}
if (typeUrl != null) {
_json["typeUrl"] = typeUrl;
}
return _json;
}
}
/// Defines the HTTP configuration for an API service. It contains a list of
/// HttpRule, each specifying the mapping of an RPC method
/// to one or more HTTP REST API methods.
class Http {
/// When set to true, URL path parmeters will be fully URI-decoded except in
/// cases of single segment matches in reserved expansion, where "%2F" will be
/// left encoded.
///
/// The default behavior is to not decode RFC 6570 reserved characters in
/// multi
/// segment matches.
core.bool fullyDecodeReservedExpansion;
/// A list of HTTP configuration rules that apply to individual API methods.
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<HttpRule> rules;
Http();
Http.fromJson(core.Map _json) {
if (_json.containsKey("fullyDecodeReservedExpansion")) {
fullyDecodeReservedExpansion = _json["fullyDecodeReservedExpansion"];
}
if (_json.containsKey("rules")) {
rules =
_json["rules"].map((value) => new HttpRule.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 (fullyDecodeReservedExpansion != null) {
_json["fullyDecodeReservedExpansion"] = fullyDecodeReservedExpansion;
}
if (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// `HttpRule` defines the mapping of an RPC method to one or more HTTP
/// REST API methods. The mapping specifies how different portions of the RPC
/// request message are mapped to URL path, URL query parameters, and
/// HTTP request body. The mapping is typically specified as an
/// `google.api.http` annotation on the RPC method,
/// see "google/api/annotations.proto" for details.
///
/// The mapping consists of a field specifying the path template and
/// method kind. The path template can refer to fields in the request
/// message, as in the example below which describes a REST GET
/// operation on a resource collection of messages:
///
///
/// service Messaging {
/// rpc GetMessage(GetMessageRequest) returns (Message) {
/// option (google.api.http).get = "/v1/messages/{message_id}/{sub.subfield}";
/// }
/// }
/// message GetMessageRequest {
/// message SubMessage {
/// string subfield = 1;
/// }
/// string message_id = 1; // mapped to the URL
/// SubMessage sub = 2; // `sub.subfield` is url-mapped
/// }
/// message Message {
/// string text = 1; // content of the resource
/// }
///
/// The same http annotation can alternatively be expressed inside the
/// `GRPC API Configuration` YAML file.
///
/// http:
/// rules:
/// - selector: <proto_package_name>.Messaging.GetMessage
/// get: /v1/messages/{message_id}/{sub.subfield}
///
/// This definition enables an automatic, bidrectional mapping of HTTP
/// JSON to RPC. Example:
///
/// HTTP | RPC
/// -----|-----
/// `GET /v1/messages/123456/foo` | `GetMessage(message_id: "123456" sub:
/// SubMessage(subfield: "foo"))`
///
/// In general, not only fields but also field paths can be referenced
/// from a path pattern. Fields mapped to the path pattern cannot be
/// repeated and must have a primitive (non-message) type.
///
/// Any fields in the request message which are not bound by the path
/// pattern automatically become (optional) HTTP query
/// parameters. Assume the following definition of the request message:
///
///
/// service Messaging {
/// rpc GetMessage(GetMessageRequest) returns (Message) {
/// option (google.api.http).get = "/v1/messages/{message_id}";
/// }
/// }
/// message GetMessageRequest {
/// message SubMessage {
/// string subfield = 1;
/// }
/// string message_id = 1; // mapped to the URL
/// int64 revision = 2; // becomes a parameter
/// SubMessage sub = 3; // `sub.subfield` becomes a parameter
/// }
///
///
/// This enables a HTTP JSON to RPC mapping as below:
///
/// HTTP | RPC
/// -----|-----
/// `GET /v1/messages/123456?revision=2&sub.subfield=foo` |
/// `GetMessage(message_id: "123456" revision: 2 sub: SubMessage(subfield:
/// "foo"))`
///
/// Note that fields which are mapped to HTTP parameters must have a
/// primitive type or a repeated primitive type. Message types are not
/// allowed. In the case of a repeated type, the parameter can be
/// repeated in the URL, as in `...?param=A&param=B`.
///
/// For HTTP method kinds which allow a request body, the `body` field
/// specifies the mapping. Consider a REST update method on the
/// message resource collection:
///
///
/// service Messaging {
/// rpc UpdateMessage(UpdateMessageRequest) returns (Message) {
/// option (google.api.http) = {
/// put: "/v1/messages/{message_id}"
/// body: "message"
/// };
/// }
/// }
/// message UpdateMessageRequest {
/// string message_id = 1; // mapped to the URL
/// Message message = 2; // mapped to the body
/// }
///
///
/// The following HTTP JSON to RPC mapping is enabled, where the
/// representation of the JSON in the request body is determined by
/// protos JSON encoding:
///
/// HTTP | RPC
/// -----|-----
/// `PUT /v1/messages/123456 { "text": "Hi!" }` | `UpdateMessage(message_id:
/// "123456" message { text: "Hi!" })`
///
/// The special name `*` can be used in the body mapping to define that
/// every field not bound by the path template should be mapped to the
/// request body. This enables the following alternative definition of
/// the update method:
///
/// service Messaging {
/// rpc UpdateMessage(Message) returns (Message) {
/// option (google.api.http) = {
/// put: "/v1/messages/{message_id}"
/// body: "*"
/// };
/// }
/// }
/// message Message {
/// string message_id = 1;
/// string text = 2;
/// }
///
///
/// The following HTTP JSON to RPC mapping is enabled:
///
/// HTTP | RPC
/// -----|-----
/// `PUT /v1/messages/123456 { "text": "Hi!" }` | `UpdateMessage(message_id:
/// "123456" text: "Hi!")`
///
/// Note that when using `*` in the body mapping, it is not possible to
/// have HTTP parameters, as all fields not bound by the path end in
/// the body. This makes this option more rarely used in practice of
/// defining REST APIs. The common usage of `*` is in custom methods
/// which don't use the URL at all for transferring data.
///
/// It is possible to define multiple HTTP methods for one RPC by using
/// the `additional_bindings` option. Example:
///
/// service Messaging {
/// rpc GetMessage(GetMessageRequest) returns (Message) {
/// option (google.api.http) = {
/// get: "/v1/messages/{message_id}"
/// additional_bindings {
/// get: "/v1/users/{user_id}/messages/{message_id}"
/// }
/// };
/// }
/// }
/// message GetMessageRequest {
/// string message_id = 1;
/// string user_id = 2;
/// }
///
///
/// This enables the following two alternative HTTP JSON to RPC
/// mappings:
///
/// HTTP | RPC
/// -----|-----
/// `GET /v1/messages/123456` | `GetMessage(message_id: "123456")`
/// `GET /v1/users/me/messages/123456` | `GetMessage(user_id: "me" message_id:
/// "123456")`
///
/// # Rules for HTTP mapping
///
/// The rules for mapping HTTP path, query parameters, and body fields
/// to the request message are as follows:
///
/// 1. The `body` field specifies either `*` or a field path, or is
/// omitted. If omitted, it indicates there is no HTTP request body.
/// 2. Leaf fields (recursive expansion of nested messages in the
/// request) can be classified into three types:
/// (a) Matched in the URL template.
/// (b) Covered by body (if body is `*`, everything except (a) fields;
/// else everything under the body field)
/// (c) All other fields.
/// 3. URL query parameters found in the HTTP request are mapped to (c) fields.
/// 4. Any body sent with an HTTP request can contain only (b) fields.
///
/// The syntax of the path template is as follows:
///
/// Template = "/" Segments [ Verb ] ;
/// Segments = Segment { "/" Segment } ;
/// Segment = "*" | "**" | LITERAL | Variable ;
/// Variable = "{" FieldPath [ "=" Segments ] "}" ;
/// FieldPath = IDENT { "." IDENT } ;
/// Verb = ":" LITERAL ;
///
/// The syntax `*` matches a single path segment. The syntax `**` matches zero
/// or more path segments, which must be the last part of the path except the
/// `Verb`. The syntax `LITERAL` matches literal text in the path.
///
/// The syntax `Variable` matches part of the URL path as specified by its
/// template. A variable template must not contain other variables. If a
/// variable
/// matches a single path segment, its template may be omitted, e.g. `{var}`
/// is equivalent to `{var=*}`.
///
/// If a variable contains exactly one path segment, such as `"{var}"` or
/// `"{var=*}"`, when such a variable is expanded into a URL path, all
/// characters
/// except `[-_.~0-9a-zA-Z]` are percent-encoded. Such variables show up in the
/// Discovery Document as `{var}`.
///
/// If a variable contains one or more path segments, such as `"{var=foo / * }"`
/// or `"{var=**}"`, when such a variable is expanded into a URL path, all
/// characters except `[-_.~/0-9a-zA-Z]` are percent-encoded. Such variables
/// show up in the Discovery Document as `{+var}`.
///
/// NOTE: While the single segment variable matches the semantics of
/// [RFC 6570](https://tools.ietf.org/html/rfc6570) Section 3.2.2
/// Simple String Expansion, the multi segment variable **does not** match
/// RFC 6570 Reserved Expansion. The reason is that the Reserved Expansion
/// does not expand special characters like `?` and `#`, which would lead
/// to invalid URLs.
///
/// NOTE: the field paths in variables and in the `body` must not refer to
/// repeated fields or map fields.
class HttpRule {
/// Additional HTTP bindings for the selector. Nested bindings must
/// not contain an `additional_bindings` field themselves (that is,
/// the nesting may only be one level deep).
core.List<HttpRule> additionalBindings;
/// Specifies the permission(s) required for an API element for the overall
/// API request to succeed. It is typically used to mark request message
/// fields
/// that contain the name of the resource and indicates the permissions that
/// will be checked on that resource.
core.List<AuthorizationRule> authorizations;
/// The name of the request field whose value is mapped to the HTTP body, or
/// `*` for mapping all fields not captured by the path pattern to the HTTP
/// body. NOTE: the referred field must not be a repeated field and must be
/// present at the top-level of request message type.
core.String body;
/// The custom pattern is used for specifying an HTTP method that is not
/// included in the `pattern` field, such as HEAD, or "*" to leave the
/// HTTP method unspecified for this rule. The wild-card rule is useful
/// for services that provide content to Web (HTML) clients.
CustomHttpPattern custom;
/// Used for deleting a resource.
core.String delete;
/// Used for listing and getting information about resources.
core.String get;
/// Use this only for Scotty Requests. Do not use this for bytestream methods.
/// For media support, add instead [][google.bytestream.RestByteStream] as an
/// API to your configuration.
MediaDownload mediaDownload;
/// Use this only for Scotty Requests. Do not use this for media support using
/// Bytestream, add instead
/// [][google.bytestream.RestByteStream] as an API to your
/// configuration for Bytestream methods.
MediaUpload mediaUpload;
/// Used for updating a resource.
core.String patch;
/// Used for creating a resource.
core.String post;
/// Used for updating a resource.
core.String put;
/// DO NOT USE. This is an experimental field.
///
/// Optional. The REST collection name is by default derived from the URL
/// pattern. If specified, this field overrides the default collection name.
/// Example:
///
/// rpc AddressesAggregatedList(AddressesAggregatedListRequest)
/// returns (AddressesAggregatedListResponse) {
/// option (google.api.http) = {
/// get: "/v1/projects/{project_id}/aggregated/addresses"
/// rest_collection: "projects.addresses"
/// };
/// }
///
/// This method has the automatically derived collection name
/// "projects.aggregated". Because, semantically, this rpc is actually an
/// operation on the "projects.addresses" collection, the `rest_collection`
/// field is configured to override the derived collection name.
core.String restCollection;
/// DO NOT USE. This is an experimental field.
///
/// Optional. The rest method name is by default derived from the URL
/// pattern. If specified, this field overrides the default method name.
/// Example:
///
/// rpc CreateResource(CreateResourceRequest)
/// returns (CreateResourceResponse) {
/// option (google.api.http) = {
/// post: "/v1/resources",
/// body: "resource",
/// rest_method_name: "insert"
/// };
/// }
///
/// This method has the automatically derived rest method name
/// "create", but for backwards compatibility with apiary, it is specified as
/// insert.
core.String restMethodName;
/// Selects methods to which this rule applies.
///
/// Refer to selector for syntax details.
core.String selector;
HttpRule();
HttpRule.fromJson(core.Map _json) {
if (_json.containsKey("additionalBindings")) {
additionalBindings = _json["additionalBindings"]
.map((value) => new HttpRule.fromJson(value))
.toList();
}
if (_json.containsKey("authorizations")) {
authorizations = _json["authorizations"]
.map((value) => new AuthorizationRule.fromJson(value))
.toList();
}
if (_json.containsKey("body")) {
body = _json["body"];
}
if (_json.containsKey("custom")) {
custom = new CustomHttpPattern.fromJson(_json["custom"]);
}
if (_json.containsKey("delete")) {
delete = _json["delete"];
}
if (_json.containsKey("get")) {
get = _json["get"];
}
if (_json.containsKey("mediaDownload")) {
mediaDownload = new MediaDownload.fromJson(_json["mediaDownload"]);
}
if (_json.containsKey("mediaUpload")) {
mediaUpload = new MediaUpload.fromJson(_json["mediaUpload"]);
}
if (_json.containsKey("patch")) {
patch = _json["patch"];
}
if (_json.containsKey("post")) {
post = _json["post"];
}
if (_json.containsKey("put")) {
put = _json["put"];
}
if (_json.containsKey("restCollection")) {
restCollection = _json["restCollection"];
}
if (_json.containsKey("restMethodName")) {
restMethodName = _json["restMethodName"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (additionalBindings != null) {
_json["additionalBindings"] =
additionalBindings.map((value) => (value).toJson()).toList();
}
if (authorizations != null) {
_json["authorizations"] =
authorizations.map((value) => (value).toJson()).toList();
}
if (body != null) {
_json["body"] = body;
}
if (custom != null) {
_json["custom"] = (custom).toJson();
}
if (delete != null) {
_json["delete"] = delete;
}
if (get != null) {
_json["get"] = get;
}
if (mediaDownload != null) {
_json["mediaDownload"] = (mediaDownload).toJson();
}
if (mediaUpload != null) {
_json["mediaUpload"] = (mediaUpload).toJson();
}
if (patch != null) {
_json["patch"] = patch;
}
if (post != null) {
_json["post"] = post;
}
if (put != null) {
_json["put"] = put;
}
if (restCollection != null) {
_json["restCollection"] = restCollection;
}
if (restMethodName != null) {
_json["restMethodName"] = restMethodName;
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}
/// A description of a label.
class LabelDescriptor {
/// A human-readable description for the label.
core.String description;
/// The label key.
core.String key;
/// The type of data that can be assigned to the label.
/// Possible string values are:
/// - "STRING" : A variable-length string. This is the default.
/// - "BOOL" : Boolean; true or false.
/// - "INT64" : A 64-bit signed integer.
core.String valueType;
LabelDescriptor();
LabelDescriptor.fromJson(core.Map _json) {
if (_json.containsKey("description")) {
description = _json["description"];
}
if (_json.containsKey("key")) {
key = _json["key"];
}
if (_json.containsKey("valueType")) {
valueType = _json["valueType"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (description != null) {
_json["description"] = description;
}
if (key != null) {
_json["key"] = key;
}
if (valueType != null) {
_json["valueType"] = valueType;
}
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"]
.map((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;
}
}
/// Response for the list request.
class ListTenancyUnitsResponse {
/// Pagination token for large results.
core.String nextPageToken;
/// Tenancy Units matching the request.
core.List<TenancyUnit> tenancyUnits;
ListTenancyUnitsResponse();
ListTenancyUnitsResponse.fromJson(core.Map _json) {
if (_json.containsKey("nextPageToken")) {
nextPageToken = _json["nextPageToken"];
}
if (_json.containsKey("tenancyUnits")) {
tenancyUnits = _json["tenancyUnits"]
.map((value) => new TenancyUnit.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 (tenancyUnits != null) {
_json["tenancyUnits"] =
tenancyUnits.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// A description of a log type. Example in YAML format:
///
/// - name: library.googleapis.com/activity_history
/// description: The history of borrowing and returning library items.
/// display_name: Activity
/// labels:
/// - key: /customer_id
/// description: Identifier of a library customer
class LogDescriptor {
/// A human-readable description of this log. This information appears in
/// the documentation and can contain details.
core.String description;
/// The human-readable name for this log. This information appears on
/// the user interface and should be concise.
core.String displayName;
/// The set of labels that are available to describe a specific log entry.
/// Runtime requests that contain labels not specified here are
/// considered invalid.
core.List<LabelDescriptor> labels;
/// The name of the log. It must be less than 512 characters long and can
/// include the following characters: upper- and lower-case alphanumeric
/// characters [A-Za-z0-9], and punctuation characters including
/// slash, underscore, hyphen, period [/_-.].
core.String name;
LogDescriptor();
LogDescriptor.fromJson(core.Map _json) {
if (_json.containsKey("description")) {
description = _json["description"];
}
if (_json.containsKey("displayName")) {
displayName = _json["displayName"];
}
if (_json.containsKey("labels")) {
labels = _json["labels"]
.map((value) => new LabelDescriptor.fromJson(value))
.toList();
}
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 (description != null) {
_json["description"] = description;
}
if (displayName != null) {
_json["displayName"] = displayName;
}
if (labels != null) {
_json["labels"] = labels.map((value) => (value).toJson()).toList();
}
if (name != null) {
_json["name"] = name;
}
return _json;
}
}
/// Logging configuration of the service.
///
/// The following example shows how to configure logs to be sent to the
/// producer and consumer projects. In the example, the `activity_history`
/// log is sent to both the producer and consumer projects, whereas the
/// `purchase_history` log is only sent to the producer project.
///
/// monitored_resources:
/// - type: library.googleapis.com/branch
/// labels:
/// - key: /city
/// description: The city where the library branch is located in.
/// - key: /name
/// description: The name of the branch.
/// logs:
/// - name: activity_history
/// labels:
/// - key: /customer_id
/// - name: purchase_history
/// logging:
/// producer_destinations:
/// - monitored_resource: library.googleapis.com/branch
/// logs:
/// - activity_history
/// - purchase_history
/// consumer_destinations:
/// - monitored_resource: library.googleapis.com/branch
/// logs:
/// - activity_history
class Logging {
/// Logging configurations for sending logs to the consumer project.
/// There can be multiple consumer destinations, each one must have a
/// different monitored resource type. A log can be used in at most
/// one consumer destination.
core.List<LoggingDestination> consumerDestinations;
/// Logging configurations for sending logs to the producer project.
/// There can be multiple producer destinations, each one must have a
/// different monitored resource type. A log can be used in at most
/// one producer destination.
core.List<LoggingDestination> producerDestinations;
Logging();
Logging.fromJson(core.Map _json) {
if (_json.containsKey("consumerDestinations")) {
consumerDestinations = _json["consumerDestinations"]
.map((value) => new LoggingDestination.fromJson(value))
.toList();
}
if (_json.containsKey("producerDestinations")) {
producerDestinations = _json["producerDestinations"]
.map((value) => new LoggingDestination.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 (consumerDestinations != null) {
_json["consumerDestinations"] =
consumerDestinations.map((value) => (value).toJson()).toList();
}
if (producerDestinations != null) {
_json["producerDestinations"] =
producerDestinations.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Configuration of a specific logging destination (the producer project
/// or the consumer project).
class LoggingDestination {
/// Names of the logs to be sent to this destination. Each name must
/// be defined in the Service.logs section. If the log name is
/// not a domain scoped name, it will be automatically prefixed with
/// the service name followed by "/".
core.List<core.String> logs;
/// The monitored resource type. The type must be defined in the
/// Service.monitored_resources section.
core.String monitoredResource;
LoggingDestination();
LoggingDestination.fromJson(core.Map _json) {
if (_json.containsKey("logs")) {
logs = _json["logs"];
}
if (_json.containsKey("monitoredResource")) {
monitoredResource = _json["monitoredResource"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (logs != null) {
_json["logs"] = logs;
}
if (monitoredResource != null) {
_json["monitoredResource"] = monitoredResource;
}
return _json;
}
}
/// Defines the Media configuration for a service in case of a download.
/// Use this only for Scotty Requests. Do not use this for media support using
/// Bytestream, add instead [][google.bytestream.RestByteStream] as an API to
/// your configuration for Bytestream methods.
class MediaDownload {
/// A boolean that determines whether a notification for the completion of a
/// download should be sent to the backend.
core.bool completeNotification;
/// DO NOT USE FIELDS BELOW THIS LINE UNTIL THIS WARNING IS REMOVED.
///
/// Specify name of the download service if one is used for download.
core.String downloadService;
/// Name of the Scotty dropzone to use for the current API.
core.String dropzone;
/// Whether download is enabled.
core.bool enabled;
/// Optional maximum acceptable size for direct download.
/// The size is specified in bytes.
core.String maxDirectDownloadSize;
/// A boolean that determines if direct download from ESF should be used for
/// download of this media.
core.bool useDirectDownload;
MediaDownload();
MediaDownload.fromJson(core.Map _json) {
if (_json.containsKey("completeNotification")) {
completeNotification = _json["completeNotification"];
}
if (_json.containsKey("downloadService")) {
downloadService = _json["downloadService"];
}
if (_json.containsKey("dropzone")) {
dropzone = _json["dropzone"];
}
if (_json.containsKey("enabled")) {
enabled = _json["enabled"];
}
if (_json.containsKey("maxDirectDownloadSize")) {
maxDirectDownloadSize = _json["maxDirectDownloadSize"];
}
if (_json.containsKey("useDirectDownload")) {
useDirectDownload = _json["useDirectDownload"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (completeNotification != null) {
_json["completeNotification"] = completeNotification;
}
if (downloadService != null) {
_json["downloadService"] = downloadService;
}
if (dropzone != null) {
_json["dropzone"] = dropzone;
}
if (enabled != null) {
_json["enabled"] = enabled;
}
if (maxDirectDownloadSize != null) {
_json["maxDirectDownloadSize"] = maxDirectDownloadSize;
}
if (useDirectDownload != null) {
_json["useDirectDownload"] = useDirectDownload;
}
return _json;
}
}
/// Defines the Media configuration for a service in case of an upload.
/// Use this only for Scotty Requests. Do not use this for media support using
/// Bytestream, add instead [][google.bytestream.RestByteStream] as an API to
/// your configuration for Bytestream methods.
class MediaUpload {
/// A boolean that determines whether a notification for the completion of an
/// upload should be sent to the backend. These notifications will not be seen
/// by the client and will not consume quota.
core.bool completeNotification;
/// Name of the Scotty dropzone to use for the current API.
core.String dropzone;
/// Whether upload is enabled.
core.bool enabled;
/// Optional maximum acceptable size for an upload.
/// The size is specified in bytes.
core.String maxSize;
/// An array of mimetype patterns. Esf will only accept uploads that match one
/// of the given patterns.
core.List<core.String> mimeTypes;
/// Whether to receive a notification for progress changes of media upload.
core.bool progressNotification;
/// Whether to receive a notification on the start of media upload.
core.bool startNotification;
/// DO NOT USE FIELDS BELOW THIS LINE UNTIL THIS WARNING IS REMOVED.
///
/// Specify name of the upload service if one is used for upload.
core.String uploadService;
MediaUpload();
MediaUpload.fromJson(core.Map _json) {
if (_json.containsKey("completeNotification")) {
completeNotification = _json["completeNotification"];
}
if (_json.containsKey("dropzone")) {
dropzone = _json["dropzone"];
}
if (_json.containsKey("enabled")) {
enabled = _json["enabled"];
}
if (_json.containsKey("maxSize")) {
maxSize = _json["maxSize"];
}
if (_json.containsKey("mimeTypes")) {
mimeTypes = _json["mimeTypes"];
}
if (_json.containsKey("progressNotification")) {
progressNotification = _json["progressNotification"];
}
if (_json.containsKey("startNotification")) {
startNotification = _json["startNotification"];
}
if (_json.containsKey("uploadService")) {
uploadService = _json["uploadService"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (completeNotification != null) {
_json["completeNotification"] = completeNotification;
}
if (dropzone != null) {
_json["dropzone"] = dropzone;
}
if (enabled != null) {
_json["enabled"] = enabled;
}
if (maxSize != null) {
_json["maxSize"] = maxSize;
}
if (mimeTypes != null) {
_json["mimeTypes"] = mimeTypes;
}
if (progressNotification != null) {
_json["progressNotification"] = progressNotification;
}
if (startNotification != null) {
_json["startNotification"] = startNotification;
}
if (uploadService != null) {
_json["uploadService"] = uploadService;
}
return _json;
}
}
/// Method represents a method of an API interface.
class Method {
/// The simple name of this method.
core.String name;
/// Any metadata attached to the method.
core.List<Option> options;
/// If true, the request is streamed.
core.bool requestStreaming;
/// A URL of the input message type.
core.String requestTypeUrl;
/// If true, the response is streamed.
core.bool responseStreaming;
/// The URL of the output message type.
core.String responseTypeUrl;
/// The source syntax of this method.
/// Possible string values are:
/// - "SYNTAX_PROTO2" : Syntax `proto2`.
/// - "SYNTAX_PROTO3" : Syntax `proto3`.
core.String syntax;
Method();
Method.fromJson(core.Map _json) {
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("options")) {
options =
_json["options"].map((value) => new Option.fromJson(value)).toList();
}
if (_json.containsKey("requestStreaming")) {
requestStreaming = _json["requestStreaming"];
}
if (_json.containsKey("requestTypeUrl")) {
requestTypeUrl = _json["requestTypeUrl"];
}
if (_json.containsKey("responseStreaming")) {
responseStreaming = _json["responseStreaming"];
}
if (_json.containsKey("responseTypeUrl")) {
responseTypeUrl = _json["responseTypeUrl"];
}
if (_json.containsKey("syntax")) {
syntax = _json["syntax"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (name != null) {
_json["name"] = name;
}
if (options != null) {
_json["options"] = options.map((value) => (value).toJson()).toList();
}
if (requestStreaming != null) {
_json["requestStreaming"] = requestStreaming;
}
if (requestTypeUrl != null) {
_json["requestTypeUrl"] = requestTypeUrl;
}
if (responseStreaming != null) {
_json["responseStreaming"] = responseStreaming;
}
if (responseTypeUrl != null) {
_json["responseTypeUrl"] = responseTypeUrl;
}
if (syntax != null) {
_json["syntax"] = syntax;
}
return _json;
}
}
/// Defines a metric type and its schema. Once a metric descriptor is created,
/// deleting or altering it stops data collection and makes the metric type's
/// existing data unusable.
class MetricDescriptor {
/// A detailed description of the metric, which can be used in documentation.
core.String description;
/// A concise name for the metric, which can be displayed in user interfaces.
/// Use sentence case without an ending period, for example "Request count".
/// This field is optional but it is recommended to be set for any metrics
/// associated with user-visible concepts, such as Quota.
core.String displayName;
/// The set of labels that can be used to describe a specific
/// instance of this metric type. For example, the
/// `appengine.googleapis.com/http/server/response_latencies` metric
/// type has a label for the HTTP response code, `response_code`, so
/// you can look at latencies for successful responses or just
/// for responses that failed.
core.List<LabelDescriptor> labels;
/// Whether the metric records instantaneous values, changes to a value, etc.
/// Some combinations of `metric_kind` and `value_type` might not be
/// supported.
/// Possible string values are:
/// - "METRIC_KIND_UNSPECIFIED" : Do not use this default value.
/// - "GAUGE" : An instantaneous measurement of a value.
/// - "DELTA" : The change in a value during a time interval.
/// - "CUMULATIVE" : A value accumulated over a time interval. Cumulative
/// measurements in a time series should have the same start time
/// and increasing end times, until an event resets the cumulative
/// value to zero and sets a new start time for the following
/// points.
core.String metricKind;
/// The resource name of the metric descriptor.
core.String name;
/// The metric type, including its DNS name prefix. The type is not
/// URL-encoded. All user-defined custom metric types have the DNS name
/// `custom.googleapis.com`. Metric types should use a natural hierarchical
/// grouping. For example:
///
/// "custom.googleapis.com/invoice/paid/amount"
/// "appengine.googleapis.com/http/server/response_latencies"
core.String type;
/// The unit in which the metric value is reported. It is only applicable
/// if the `value_type` is `INT64`, `DOUBLE`, or `DISTRIBUTION`. The
/// supported units are a subset of [The Unified Code for Units of
/// Measure](http://unitsofmeasure.org/ucum.html) standard:
///
/// **Basic units (UNIT)**
///
/// * `bit` bit
/// * `By` byte
/// * `s` second
/// * `min` minute
/// * `h` hour
/// * `d` day
///
/// **Prefixes (PREFIX)**
///
/// * `k` kilo (10**3)
/// * `M` mega (10**6)
/// * `G` giga (10**9)
/// * `T` tera (10**12)
/// * `P` peta (10**15)
/// * `E` exa (10**18)
/// * `Z` zetta (10**21)
/// * `Y` yotta (10**24)
/// * `m` milli (10**-3)
/// * `u` micro (10**-6)
/// * `n` nano (10**-9)
/// * `p` pico (10**-12)
/// * `f` femto (10**-15)
/// * `a` atto (10**-18)
/// * `z` zepto (10**-21)
/// * `y` yocto (10**-24)
/// * `Ki` kibi (2**10)
/// * `Mi` mebi (2**20)
/// * `Gi` gibi (2**30)
/// * `Ti` tebi (2**40)
///
/// **Grammar**
///
/// The grammar also includes these connectors:
///
/// * `/` division (as an infix operator, e.g. `1/s`).
/// * `.` multiplication (as an infix operator, e.g. `GBy.d`)
///
/// The grammar for a unit is as follows:
///
/// Expression = Component { "." Component } { "/" Component } ;
///
/// Component = ( [ PREFIX ] UNIT | "%" ) [ Annotation ]
/// | Annotation
/// | "1"
/// ;
///
/// Annotation = "{" NAME "}" ;
///
/// Notes:
///
/// * `Annotation` is just a comment if it follows a `UNIT` and is
/// equivalent to `1` if it is used alone. For examples,
/// `{requests}/s == 1/s`, `By{transmitted}/s == By/s`.
/// * `NAME` is a sequence of non-blank printable ASCII characters not
/// containing '{' or '}'.
/// * `1` represents dimensionless value 1, such as in `1/s`.
/// * `%` represents dimensionless value 1/100, and annotates values giving
/// a percentage.
core.String unit;
/// Whether the measurement is an integer, a floating-point number, etc.
/// Some combinations of `metric_kind` and `value_type` might not be
/// supported.
/// Possible string values are:
/// - "VALUE_TYPE_UNSPECIFIED" : Do not use this default value.
/// - "BOOL" : The value is a boolean.
/// This value type can be used only if the metric kind is `GAUGE`.
/// - "INT64" : The value is a signed 64-bit integer.
/// - "DOUBLE" : The value is a double precision floating point number.
/// - "STRING" : The value is a text string.
/// This value type can be used only if the metric kind is `GAUGE`.
/// - "DISTRIBUTION" : The value is a `Distribution`.
/// - "MONEY" : The value is money.
core.String valueType;
MetricDescriptor();
MetricDescriptor.fromJson(core.Map _json) {
if (_json.containsKey("description")) {
description = _json["description"];
}
if (_json.containsKey("displayName")) {
displayName = _json["displayName"];
}
if (_json.containsKey("labels")) {
labels = _json["labels"]
.map((value) => new LabelDescriptor.fromJson(value))
.toList();
}
if (_json.containsKey("metricKind")) {
metricKind = _json["metricKind"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("type")) {
type = _json["type"];
}
if (_json.containsKey("unit")) {
unit = _json["unit"];
}
if (_json.containsKey("valueType")) {
valueType = _json["valueType"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (description != null) {
_json["description"] = description;
}
if (displayName != null) {
_json["displayName"] = displayName;
}
if (labels != null) {
_json["labels"] = labels.map((value) => (value).toJson()).toList();
}
if (metricKind != null) {
_json["metricKind"] = metricKind;
}
if (name != null) {
_json["name"] = name;
}
if (type != null) {
_json["type"] = type;
}
if (unit != null) {
_json["unit"] = unit;
}
if (valueType != null) {
_json["valueType"] = valueType;
}
return _json;
}
}
/// Bind API methods to metrics. Binding a method to a metric causes that
/// metric's configured quota behaviors to apply to the method call.
class MetricRule {
/// Metrics to update when the selected methods are called, and the associated
/// cost applied to each metric.
///
/// The key of the map is the metric name, and the values are the amount
/// increased for the metric against which the quota limits are defined.
/// The value must not be negative.
core.Map<core.String, core.String> metricCosts;
/// Selects the methods to which this rule applies.
///
/// Refer to selector for syntax details.
core.String selector;
MetricRule();
MetricRule.fromJson(core.Map _json) {
if (_json.containsKey("metricCosts")) {
metricCosts = _json["metricCosts"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (metricCosts != null) {
_json["metricCosts"] = metricCosts;
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}
/// Declares an API Interface to be included in this interface. The including
/// interface must redeclare all the methods from the included interface, but
/// documentation and options are inherited as follows:
///
/// - If after comment and whitespace stripping, the documentation
/// string of the redeclared method is empty, it will be inherited
/// from the original method.
///
/// - Each annotation belonging to the service config (http,
/// visibility) which is not set in the redeclared method will be
/// inherited.
///
/// - If an http annotation is inherited, the path pattern will be
/// modified as follows. Any version prefix will be replaced by the
/// version of the including interface plus the root path if
/// specified.
///
/// Example of a simple mixin:
///
/// package google.acl.v1;
/// service AccessControl {
/// // Get the underlying ACL object.
/// rpc GetAcl(GetAclRequest) returns (Acl) {
/// option (google.api.http).get = "/v1/{resource=**}:getAcl";
/// }
/// }
///
/// package google.storage.v2;
/// service Storage {
/// // rpc GetAcl(GetAclRequest) returns (Acl);
///
/// // Get a data record.
/// rpc GetData(GetDataRequest) returns (Data) {
/// option (google.api.http).get = "/v2/{resource=**}";
/// }
/// }
///
/// Example of a mixin configuration:
///
/// apis:
/// - name: google.storage.v2.Storage
/// mixins:
/// - name: google.acl.v1.AccessControl
///
/// The mixin construct implies that all methods in `AccessControl` are
/// also declared with same name and request/response types in
/// `Storage`. A documentation generator or annotation processor will
/// see the effective `Storage.GetAcl` method after inherting
/// documentation and annotations as follows:
///
/// service Storage {
/// // Get the underlying ACL object.
/// rpc GetAcl(GetAclRequest) returns (Acl) {
/// option (google.api.http).get = "/v2/{resource=**}:getAcl";
/// }
/// ...
/// }
///
/// Note how the version in the path pattern changed from `v1` to `v2`.
///
/// If the `root` field in the mixin is specified, it should be a
/// relative path under which inherited HTTP paths are placed. Example:
///
/// apis:
/// - name: google.storage.v2.Storage
/// mixins:
/// - name: google.acl.v1.AccessControl
/// root: acls
///
/// This implies the following inherited HTTP annotation:
///
/// service Storage {
/// // Get the underlying ACL object.
/// rpc GetAcl(GetAclRequest) returns (Acl) {
/// option (google.api.http).get = "/v2/acls/{resource=**}:getAcl";
/// }
/// ...
/// }
class Mixin {
/// The fully qualified name of the interface which is included.
core.String name;
/// If non-empty specifies a path under which inherited HTTP paths
/// are rooted.
core.String root;
Mixin();
Mixin.fromJson(core.Map _json) {
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("root")) {
root = _json["root"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (name != null) {
_json["name"] = name;
}
if (root != null) {
_json["root"] = root;
}
return _json;
}
}
/// An object that describes the schema of a MonitoredResource object using a
/// type name and a set of labels. For example, the monitored resource
/// descriptor for Google Compute Engine VM instances has a type of
/// `"gce_instance"` and specifies the use of the labels `"instance_id"` and
/// `"zone"` to identify particular VM instances.
///
/// Different APIs can support different monitored resource types. APIs
/// generally
/// provide a `list` method that returns the monitored resource descriptors used
/// by the API.
class MonitoredResourceDescriptor {
/// Optional. A detailed description of the monitored resource type that might
/// be used in documentation.
core.String description;
/// Optional. A concise name for the monitored resource type that might be
/// displayed in user interfaces. It should be a Title Cased Noun Phrase,
/// without any article or other determiners. For example,
/// `"Google Cloud SQL Database"`.
core.String displayName;
/// Required. A set of labels used to describe instances of this monitored
/// resource type. For example, an individual Google Cloud SQL database is
/// identified by values for the labels `"database_id"` and `"zone"`.
core.List<LabelDescriptor> labels;
/// Optional. The resource name of the monitored resource descriptor:
/// `"projects/{project_id}/monitoredResourceDescriptors/{type}"` where
/// {type} is the value of the `type` field in this object and
/// {project_id} is a project ID that provides API-specific context for
/// accessing the type. APIs that do not use project information can use the
/// resource name format `"monitoredResourceDescriptors/{type}"`.
core.String name;
/// Required. The monitored resource type. For example, the type
/// `"cloudsql_database"` represents databases in Google Cloud SQL.
/// The maximum length of this value is 256 characters.
core.String type;
MonitoredResourceDescriptor();
MonitoredResourceDescriptor.fromJson(core.Map _json) {
if (_json.containsKey("description")) {
description = _json["description"];
}
if (_json.containsKey("displayName")) {
displayName = _json["displayName"];
}
if (_json.containsKey("labels")) {
labels = _json["labels"]
.map((value) => new LabelDescriptor.fromJson(value))
.toList();
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("type")) {
type = _json["type"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (description != null) {
_json["description"] = description;
}
if (displayName != null) {
_json["displayName"] = displayName;
}
if (labels != null) {
_json["labels"] = labels.map((value) => (value).toJson()).toList();
}
if (name != null) {
_json["name"] = name;
}
if (type != null) {
_json["type"] = type;
}
return _json;
}
}
/// Monitoring configuration of the service.
///
/// The example below shows how to configure monitored resources and metrics
/// for monitoring. In the example, a monitored resource and two metrics are
/// defined. The `library.googleapis.com/book/returned_count` metric is sent
/// to both producer and consumer projects, whereas the
/// `library.googleapis.com/book/overdue_count` metric is only sent to the
/// consumer project.
///
/// monitored_resources:
/// - type: library.googleapis.com/branch
/// labels:
/// - key: /city
/// description: The city where the library branch is located in.
/// - key: /name
/// description: The name of the branch.
/// metrics:
/// - name: library.googleapis.com/book/returned_count
/// metric_kind: DELTA
/// value_type: INT64
/// labels:
/// - key: /customer_id
/// - name: library.googleapis.com/book/overdue_count
/// metric_kind: GAUGE
/// value_type: INT64
/// labels:
/// - key: /customer_id
/// monitoring:
/// producer_destinations:
/// - monitored_resource: library.googleapis.com/branch
/// metrics:
/// - library.googleapis.com/book/returned_count
/// consumer_destinations:
/// - monitored_resource: library.googleapis.com/branch
/// metrics:
/// - library.googleapis.com/book/returned_count
/// - library.googleapis.com/book/overdue_count
class Monitoring {
/// Monitoring configurations for sending metrics to the consumer project.
/// There can be multiple consumer destinations, each one must have a
/// different monitored resource type. A metric can be used in at most
/// one consumer destination.
core.List<MonitoringDestination> consumerDestinations;
/// Monitoring configurations for sending metrics to the producer project.
/// There can be multiple producer destinations, each one must have a
/// different monitored resource type. A metric can be used in at most
/// one producer destination.
core.List<MonitoringDestination> producerDestinations;
Monitoring();
Monitoring.fromJson(core.Map _json) {
if (_json.containsKey("consumerDestinations")) {
consumerDestinations = _json["consumerDestinations"]
.map((value) => new MonitoringDestination.fromJson(value))
.toList();
}
if (_json.containsKey("producerDestinations")) {
producerDestinations = _json["producerDestinations"]
.map((value) => new MonitoringDestination.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 (consumerDestinations != null) {
_json["consumerDestinations"] =
consumerDestinations.map((value) => (value).toJson()).toList();
}
if (producerDestinations != null) {
_json["producerDestinations"] =
producerDestinations.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Configuration of a specific monitoring destination (the producer project
/// or the consumer project).
class MonitoringDestination {
/// Names of the metrics to report to this monitoring destination.
/// Each name must be defined in Service.metrics section.
core.List<core.String> metrics;
/// The monitored resource type. The type must be defined in
/// Service.monitored_resources section.
core.String monitoredResource;
MonitoringDestination();
MonitoringDestination.fromJson(core.Map _json) {
if (_json.containsKey("metrics")) {
metrics = _json["metrics"];
}
if (_json.containsKey("monitoredResource")) {
monitoredResource = _json["monitoredResource"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (metrics != null) {
_json["metrics"] = metrics;
}
if (monitoredResource != null) {
_json["monitoredResource"] = monitoredResource;
}
return _json;
}
}
/// OAuth scopes are a way to define data and permissions on data. For example,
/// there are scopes defined for "Read-only access to Google Calendar" and
/// "Access to Cloud Platform". Users can consent to a scope for an application,
/// giving it permission to access that data on their behalf.
///
/// OAuth scope specifications should be fairly coarse grained; a user will need
/// to see and understand the text description of what your scope means.
///
/// In most cases: use one or at most two OAuth scopes for an entire family of
/// products. If your product has multiple APIs, you should probably be sharing
/// the OAuth scope across all of those APIs.
///
/// When you need finer grained OAuth consent screens: talk with your product
/// management about how developers will use them in practice.
///
/// Please note that even though each of the canonical scopes is enough for a
/// request to be accepted and passed to the backend, a request can still fail
/// due to the backend requiring additional scopes or permissions.
class OAuthRequirements {
/// The list of publicly documented OAuth scopes that are allowed access. An
/// OAuth token containing any of these scopes will be accepted.
///
/// Example:
///
/// canonical_scopes: https://www.googleapis.com/auth/calendar,
/// https://www.googleapis.com/auth/calendar.read
core.String canonicalScopes;
OAuthRequirements();
OAuthRequirements.fromJson(core.Map _json) {
if (_json.containsKey("canonicalScopes")) {
canonicalScopes = _json["canonicalScopes"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (canonicalScopes != null) {
_json["canonicalScopes"] = canonicalScopes;
}
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 have the format of `operations/some/unique/name`.
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"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("response")) {
response = _json["response"];
}
}
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;
}
}
/// A protocol buffer option, which can be attached to a message, field,
/// enumeration, etc.
class Option {
/// The option's name. For protobuf built-in options (options defined in
/// descriptor.proto), this is the short name. For example, `"map_entry"`.
/// For custom options, it should be the fully-qualified name. For example,
/// `"google.api.http"`.
core.String name;
/// The option's value packed in an Any message. If the value is a primitive,
/// the corresponding wrapper type defined in google/protobuf/wrappers.proto
/// should be used. If the value is an enum, it should be stored as an int32
/// value using the google.protobuf.Int32Value type.
///
/// 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> value;
Option();
Option.fromJson(core.Map _json) {
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("value")) {
value = _json["value"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (name != null) {
_json["name"] = name;
}
if (value != null) {
_json["value"] = value;
}
return _json;
}
}
/// Represents a documentation page. A page can contain subpages to represent
/// nested documentation set structure.
class Page {
/// The Markdown content of the page. You can use <code>&#40;== include {path}
/// ==&#41;</code>
/// to include content from a Markdown file.
core.String content;
/// The name of the page. It will be used as an identity of the page to
/// generate URI of the page, text of the link to this page in navigation,
/// etc. The full page name (start from the root page name to this page
/// concatenated with `.`) can be used as reference to the page in your
/// documentation. For example:
/// <pre><code>pages:
/// - name: Tutorial
/// content: &#40;== include tutorial.md ==&#41;
/// subpages:
/// - name: Java
/// content: &#40;== include tutorial_java.md ==&#41;
/// </code></pre>
/// You can reference `Java` page using Markdown reference link syntax:
/// `Java`.
core.String name;
/// Subpages of this page. The order of subpages specified here will be
/// honored in the generated docset.
core.List<Page> subpages;
Page();
Page.fromJson(core.Map _json) {
if (_json.containsKey("content")) {
content = _json["content"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("subpages")) {
subpages =
_json["subpages"].map((value) => new Page.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 (content != null) {
_json["content"] = content;
}
if (name != null) {
_json["name"] = name;
}
if (subpages != null) {
_json["subpages"] = subpages.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Translates to IAM Policy bindings (without auditing at this level)
class PolicyBinding {
/// Uses the same format as in IAM policy.
/// `member` must include both prefix and id. E.g., `user:{emailId}`,
/// `serviceAccount:{emailId}`, `group:{emailId}`.
core.List<core.String> members;
/// Role. (https://cloud.google.com/iam/docs/understanding-roles)
/// For example, `roles/viewer`, `roles/editor`, or `roles/owner`.
core.String role;
PolicyBinding();
PolicyBinding.fromJson(core.Map _json) {
if (_json.containsKey("members")) {
members = _json["members"];
}
if (_json.containsKey("role")) {
role = _json["role"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (members != null) {
_json["members"] = members;
}
if (role != null) {
_json["role"] = role;
}
return _json;
}
}
/// Quota configuration helps to achieve fairness and budgeting in service
/// usage.
///
/// The quota configuration works this way:
/// - The service configuration defines a set of metrics.
/// - For API calls, the quota.metric_rules maps methods to metrics with
/// corresponding costs.
/// - The quota.limits defines limits on the metrics, which will be used for
/// quota checks at runtime.
///
/// An example quota configuration in yaml format:
///
/// quota:
///
/// - name: apiWriteQpsPerProject
/// metric: library.googleapis.com/write_calls
/// unit: "1/min/{project}" # rate limit for consumer projects
/// values:
/// STANDARD: 10000
///
///
/// # The metric rules bind all methods to the read_calls metric,
/// # except for the UpdateBook and DeleteBook methods. These two methods
/// # are mapped to the write_calls metric, with the UpdateBook method
/// # consuming at twice rate as the DeleteBook method.
/// metric_rules:
/// - selector: "*"
/// metric_costs:
/// library.googleapis.com/read_calls: 1
/// - selector: google.example.library.v1.LibraryService.UpdateBook
/// metric_costs:
/// library.googleapis.com/write_calls: 2
/// - selector: google.example.library.v1.LibraryService.DeleteBook
/// metric_costs:
/// library.googleapis.com/write_calls: 1
///
/// Corresponding Metric definition:
///
/// metrics:
/// - name: library.googleapis.com/read_calls
/// display_name: Read requests
/// metric_kind: DELTA
/// value_type: INT64
///
/// - name: library.googleapis.com/write_calls
/// display_name: Write requests
/// metric_kind: DELTA
/// value_type: INT64
class Quota {
/// List of `QuotaLimit` definitions for the service.
core.List<QuotaLimit> limits;
/// List of `MetricRule` definitions, each one mapping a selected method to
/// one
/// or more metrics.
core.List<MetricRule> metricRules;
Quota();
Quota.fromJson(core.Map _json) {
if (_json.containsKey("limits")) {
limits = _json["limits"]
.map((value) => new QuotaLimit.fromJson(value))
.toList();
}
if (_json.containsKey("metricRules")) {
metricRules = _json["metricRules"]
.map((value) => new MetricRule.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 (limits != null) {
_json["limits"] = limits.map((value) => (value).toJson()).toList();
}
if (metricRules != null) {
_json["metricRules"] =
metricRules.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// `QuotaLimit` defines a specific limit that applies over a specified duration
/// for a limit type. There can be at most one limit for a duration and limit
/// type combination defined within a `QuotaGroup`.
class QuotaLimit {
/// Default number of tokens that can be consumed during the specified
/// duration. This is the number of tokens assigned when a client
/// application developer activates the service for his/her project.
///
/// Specifying a value of 0 will block all requests. This can be used if you
/// are provisioning quota to selected consumers and blocking others.
/// Similarly, a value of -1 will indicate an unlimited quota. No other
/// negative values are allowed.
///
/// Used by group-based quotas only.
core.String defaultLimit;
/// Optional. User-visible, extended description for this quota limit.
/// Should be used only when more context is needed to understand this limit
/// than provided by the limit's display name (see: `display_name`).
core.String description;
/// User-visible display name for this limit.
/// Optional. If not set, the UI will provide a default display name based on
/// the quota configuration. This field can be used to override the default
/// display name generated from the configuration.
core.String displayName;
/// Duration of this limit in textual notation. Example: "100s", "24h", "1d".
/// For duration longer than a day, only multiple of days is supported. We
/// support only "100s" and "1d" for now. Additional support will be added in
/// the future. "0" indicates indefinite duration.
///
/// Used by group-based quotas only.
core.String duration;
/// Free tier value displayed in the Developers Console for this limit.
/// The free tier is the number of tokens that will be subtracted from the
/// billed amount when billing is enabled.
/// This field can only be set on a limit with duration "1d", in a billable
/// group; it is invalid on any other limit. If this field is not set, it
/// defaults to 0, indicating that there is no free tier for this service.
///
/// Used by group-based quotas only.
core.String freeTier;
/// Maximum number of tokens that can be consumed during the specified
/// duration. Client application developers can override the default limit up
/// to this maximum. If specified, this value cannot be set to a value less
/// than the default limit. If not specified, it is set to the default limit.
///
/// To allow clients to apply overrides with no upper bound, set this to -1,
/// indicating unlimited maximum quota.
///
/// Used by group-based quotas only.
core.String maxLimit;
/// The name of the metric this quota limit applies to. The quota limits with
/// the same metric will be checked together during runtime. The metric must
/// be
/// defined within the service config.
core.String metric;
/// Name of the quota limit.
///
/// The name must be provided, and it must be unique within the service. The
/// name can only include alphanumeric characters as well as '-'.
///
/// The maximum length of the limit name is 64 characters.
core.String name;
/// Specify the unit of the quota limit. It uses the same syntax as
/// Metric.unit. The supported unit kinds are determined by the quota
/// backend system.
///
/// Here are some examples:
/// * "1/min/{project}" for quota per minute per project.
///
/// Note: the order of unit components is insignificant.
/// The "1" at the beginning is required to follow the metric unit syntax.
core.String unit;
/// Tiered limit values. You must specify this as a key:value pair, with an
/// integer value that is the maximum number of requests allowed for the
/// specified unit. Currently only STANDARD is supported.
core.Map<core.String, core.String> values;
QuotaLimit();
QuotaLimit.fromJson(core.Map _json) {
if (_json.containsKey("defaultLimit")) {
defaultLimit = _json["defaultLimit"];
}
if (_json.containsKey("description")) {
description = _json["description"];
}
if (_json.containsKey("displayName")) {
displayName = _json["displayName"];
}
if (_json.containsKey("duration")) {
duration = _json["duration"];
}
if (_json.containsKey("freeTier")) {
freeTier = _json["freeTier"];
}
if (_json.containsKey("maxLimit")) {
maxLimit = _json["maxLimit"];
}
if (_json.containsKey("metric")) {
metric = _json["metric"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("unit")) {
unit = _json["unit"];
}
if (_json.containsKey("values")) {
values = _json["values"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (defaultLimit != null) {
_json["defaultLimit"] = defaultLimit;
}
if (description != null) {
_json["description"] = description;
}
if (displayName != null) {
_json["displayName"] = displayName;
}
if (duration != null) {
_json["duration"] = duration;
}
if (freeTier != null) {
_json["freeTier"] = freeTier;
}
if (maxLimit != null) {
_json["maxLimit"] = maxLimit;
}
if (metric != null) {
_json["metric"] = metric;
}
if (name != null) {
_json["name"] = name;
}
if (unit != null) {
_json["unit"] = unit;
}
if (values != null) {
_json["values"] = values;
}
return _json;
}
}
/// Request message to remove tenant project resource from the tenancy unit.
class RemoveTenantProjectRequest {
/// Tag of the resource within the tenancy unit.
core.String tag;
RemoveTenantProjectRequest();
RemoveTenantProjectRequest.fromJson(core.Map _json) {
if (_json.containsKey("tag")) {
tag = _json["tag"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (tag != null) {
_json["tag"] = tag;
}
return _json;
}
}
/// Response for the search query.
class SearchTenancyUnitsResponse {
/// Pagination token for large results.
core.String nextPageToken;
/// Tenancy Units matching the request.
core.List<TenancyUnit> tenancyUnits;
SearchTenancyUnitsResponse();
SearchTenancyUnitsResponse.fromJson(core.Map _json) {
if (_json.containsKey("nextPageToken")) {
nextPageToken = _json["nextPageToken"];
}
if (_json.containsKey("tenancyUnits")) {
tenancyUnits = _json["tenancyUnits"]
.map((value) => new TenancyUnit.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 (tenancyUnits != null) {
_json["tenancyUnits"] =
tenancyUnits.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// `Service` is the root object of Google service configuration schema. It
/// describes basic information about a service, such as the name and the
/// title, and delegates other aspects to sub-sections. Each sub-section is
/// either a proto message or a repeated proto message that configures a
/// specific aspect, such as auth. See each proto message definition for
/// details.
///
/// Example:
///
/// type: google.api.Service
/// config_version: 3
/// name: calendar.googleapis.com
/// title: Google Calendar API
/// apis:
/// - name: google.calendar.v3.Calendar
/// authentication:
/// providers:
/// - id: google_calendar_auth
/// jwks_uri: https://www.googleapis.com/oauth2/v1/certs
/// issuer: https://securetoken.google.com
/// rules:
/// - selector: "*"
/// requirements:
/// provider_id: google_calendar_auth
class Service {
/// A list of API interfaces exported by this service. Only the `name` field
/// of the google.protobuf.Api needs to be provided by the configuration
/// author, as the remaining fields will be derived from the IDL during the
/// normalization process. It is an error to specify an API interface here
/// which cannot be resolved against the associated IDL files.
core.List<Api> apis;
/// Auth configuration.
Authentication authentication;
/// API backend configuration.
Backend backend;
/// Billing configuration.
Billing billing;
/// The semantic version of the service configuration. The config version
/// affects the interpretation of the service configuration. For example,
/// certain features are enabled by default for certain config versions.
/// The latest config version is `3`.
core.int configVersion;
/// Context configuration.
Context context;
/// Configuration for the service control plane.
Control control;
/// Custom error configuration.
CustomError customError;
/// Additional API documentation.
Documentation documentation;
/// Configuration for network endpoints. If this is empty, then an endpoint
/// with the same name as the service is automatically generated to service
/// all
/// defined APIs.
core.List<Endpoint> endpoints;
/// A list of all enum types included in this API service. Enums
/// referenced directly or indirectly by the `apis` are automatically
/// included. Enums which are not referenced but shall be included
/// should be listed here by name. Example:
///
/// enums:
/// - name: google.someapi.v1.SomeEnum
core.List<Enum> enums;
/// Experimental configuration.
Experimental experimental;
/// HTTP configuration.
Http http;
/// A unique ID for a specific instance of this message, typically assigned
/// by the client for tracking purpose. If empty, the server may choose to
/// generate one instead.
core.String id;
/// Logging configuration.
Logging logging;
/// Defines the logs used by this service.
core.List<LogDescriptor> logs;
/// Defines the metrics used by this service.
core.List<MetricDescriptor> metrics;
/// Defines the monitored resources used by this service. This is required
/// by the Service.monitoring and Service.logging configurations.
core.List<MonitoredResourceDescriptor> monitoredResources;
/// Monitoring configuration.
Monitoring monitoring;
/// The DNS address at which this service is available,
/// e.g. `calendar.googleapis.com`.
core.String name;
/// The Google project that owns this service.
core.String producerProjectId;
/// Quota configuration.
Quota quota;
/// Output only. The source information for this configuration if available.
SourceInfo sourceInfo;
/// System parameter configuration.
SystemParameters systemParameters;
/// A list of all proto message types included in this API service.
/// It serves similar purpose as [google.api.Service.types], except that
/// these types are not needed by user-defined APIs. Therefore, they will not
/// show up in the generated discovery doc. This field should only be used
/// to define system APIs in ESF.
core.List<Type> systemTypes;
/// The product title for this service.
core.String title;
/// A list of all proto message types included in this API service.
/// Types referenced directly or indirectly by the `apis` are
/// automatically included. Messages which are not referenced but
/// shall be included, such as types used by the `google.protobuf.Any` type,
/// should be listed here by name. Example:
///
/// types:
/// - name: google.protobuf.Int32
core.List<Type> types;
/// Configuration controlling usage of this service.
Usage usage;
/// API visibility configuration.
Visibility visibility;
Service();
Service.fromJson(core.Map _json) {
if (_json.containsKey("apis")) {
apis = _json["apis"].map((value) => new Api.fromJson(value)).toList();
}
if (_json.containsKey("authentication")) {
authentication = new Authentication.fromJson(_json["authentication"]);
}
if (_json.containsKey("backend")) {
backend = new Backend.fromJson(_json["backend"]);
}
if (_json.containsKey("billing")) {
billing = new Billing.fromJson(_json["billing"]);
}
if (_json.containsKey("configVersion")) {
configVersion = _json["configVersion"];
}
if (_json.containsKey("context")) {
context = new Context.fromJson(_json["context"]);
}
if (_json.containsKey("control")) {
control = new Control.fromJson(_json["control"]);
}
if (_json.containsKey("customError")) {
customError = new CustomError.fromJson(_json["customError"]);
}
if (_json.containsKey("documentation")) {
documentation = new Documentation.fromJson(_json["documentation"]);
}
if (_json.containsKey("endpoints")) {
endpoints = _json["endpoints"]
.map((value) => new Endpoint.fromJson(value))
.toList();
}
if (_json.containsKey("enums")) {
enums = _json["enums"].map((value) => new Enum.fromJson(value)).toList();
}
if (_json.containsKey("experimental")) {
experimental = new Experimental.fromJson(_json["experimental"]);
}
if (_json.containsKey("http")) {
http = new Http.fromJson(_json["http"]);
}
if (_json.containsKey("id")) {
id = _json["id"];
}
if (_json.containsKey("logging")) {
logging = new Logging.fromJson(_json["logging"]);
}
if (_json.containsKey("logs")) {
logs = _json["logs"]
.map((value) => new LogDescriptor.fromJson(value))
.toList();
}
if (_json.containsKey("metrics")) {
metrics = _json["metrics"]
.map((value) => new MetricDescriptor.fromJson(value))
.toList();
}
if (_json.containsKey("monitoredResources")) {
monitoredResources = _json["monitoredResources"]
.map((value) => new MonitoredResourceDescriptor.fromJson(value))
.toList();
}
if (_json.containsKey("monitoring")) {
monitoring = new Monitoring.fromJson(_json["monitoring"]);
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("producerProjectId")) {
producerProjectId = _json["producerProjectId"];
}
if (_json.containsKey("quota")) {
quota = new Quota.fromJson(_json["quota"]);
}
if (_json.containsKey("sourceInfo")) {
sourceInfo = new SourceInfo.fromJson(_json["sourceInfo"]);
}
if (_json.containsKey("systemParameters")) {
systemParameters =
new SystemParameters.fromJson(_json["systemParameters"]);
}
if (_json.containsKey("systemTypes")) {
systemTypes = _json["systemTypes"]
.map((value) => new Type.fromJson(value))
.toList();
}
if (_json.containsKey("title")) {
title = _json["title"];
}
if (_json.containsKey("types")) {
types = _json["types"].map((value) => new Type.fromJson(value)).toList();
}
if (_json.containsKey("usage")) {
usage = new Usage.fromJson(_json["usage"]);
}
if (_json.containsKey("visibility")) {
visibility = new Visibility.fromJson(_json["visibility"]);
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (apis != null) {
_json["apis"] = apis.map((value) => (value).toJson()).toList();
}
if (authentication != null) {
_json["authentication"] = (authentication).toJson();
}
if (backend != null) {
_json["backend"] = (backend).toJson();
}
if (billing != null) {
_json["billing"] = (billing).toJson();
}
if (configVersion != null) {
_json["configVersion"] = configVersion;
}
if (context != null) {
_json["context"] = (context).toJson();
}
if (control != null) {
_json["control"] = (control).toJson();
}
if (customError != null) {
_json["customError"] = (customError).toJson();
}
if (documentation != null) {
_json["documentation"] = (documentation).toJson();
}
if (endpoints != null) {
_json["endpoints"] = endpoints.map((value) => (value).toJson()).toList();
}
if (enums != null) {
_json["enums"] = enums.map((value) => (value).toJson()).toList();
}
if (experimental != null) {
_json["experimental"] = (experimental).toJson();
}
if (http != null) {
_json["http"] = (http).toJson();
}
if (id != null) {
_json["id"] = id;
}
if (logging != null) {
_json["logging"] = (logging).toJson();
}
if (logs != null) {
_json["logs"] = logs.map((value) => (value).toJson()).toList();
}
if (metrics != null) {
_json["metrics"] = metrics.map((value) => (value).toJson()).toList();
}
if (monitoredResources != null) {
_json["monitoredResources"] =
monitoredResources.map((value) => (value).toJson()).toList();
}
if (monitoring != null) {
_json["monitoring"] = (monitoring).toJson();
}
if (name != null) {
_json["name"] = name;
}
if (producerProjectId != null) {
_json["producerProjectId"] = producerProjectId;
}
if (quota != null) {
_json["quota"] = (quota).toJson();
}
if (sourceInfo != null) {
_json["sourceInfo"] = (sourceInfo).toJson();
}
if (systemParameters != null) {
_json["systemParameters"] = (systemParameters).toJson();
}
if (systemTypes != null) {
_json["systemTypes"] =
systemTypes.map((value) => (value).toJson()).toList();
}
if (title != null) {
_json["title"] = title;
}
if (types != null) {
_json["types"] = types.map((value) => (value).toJson()).toList();
}
if (usage != null) {
_json["usage"] = (usage).toJson();
}
if (visibility != null) {
_json["visibility"] = (visibility).toJson();
}
return _json;
}
}
/// Describes service account configuration for the tenant project.
class ServiceAccountConfig {
/// ID of the IAM service account to be created in tenant project.
/// The email format of the service account will be
/// "<account-id>@<tenant-project-id>.iam.gserviceaccount.com".
/// This account id has to be unique within tenant project and producers
/// have to guarantee it.
core.String accountId;
/// Roles for the service account above on tenant project.
core.List<core.String> tenantProjectRoles;
ServiceAccountConfig();
ServiceAccountConfig.fromJson(core.Map _json) {
if (_json.containsKey("accountId")) {
accountId = _json["accountId"];
}
if (_json.containsKey("tenantProjectRoles")) {
tenantProjectRoles = _json["tenantProjectRoles"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (accountId != null) {
_json["accountId"] = accountId;
}
if (tenantProjectRoles != null) {
_json["tenantProjectRoles"] = tenantProjectRoles;
}
return _json;
}
}
/// `SourceContext` represents information about the source of a
/// protobuf element, like the file in which it is defined.
class SourceContext {
/// The path-qualified name of the .proto file that contained the associated
/// protobuf element. For example: `"google/protobuf/source_context.proto"`.
core.String fileName;
SourceContext();
SourceContext.fromJson(core.Map _json) {
if (_json.containsKey("fileName")) {
fileName = _json["fileName"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (fileName != null) {
_json["fileName"] = fileName;
}
return _json;
}
}
/// Source information used to create a Service Config
class SourceInfo {
/// All files used during config generation.
///
/// 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>> sourceFiles;
SourceInfo();
SourceInfo.fromJson(core.Map _json) {
if (_json.containsKey("sourceFiles")) {
sourceFiles = _json["sourceFiles"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (sourceFiles != null) {
_json["sourceFiles"] = sourceFiles;
}
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). The error model is designed to be:
///
/// - Simple to use and understand for most users
/// - Flexible enough to meet unexpected needs
///
/// # Overview
///
/// The `Status` message contains three pieces of data: error code, error
/// message,
/// and error details. The error code should be an enum value of
/// google.rpc.Code, but it may accept additional error codes if needed. The
/// error message should be a developer-facing English message that helps
/// developers *understand* and *resolve* the error. If a localized user-facing
/// error message is needed, put the localized message in the error details or
/// localize it in the client. The optional error details may contain arbitrary
/// information about the error. There is a predefined set of error detail types
/// in the package `google.rpc` that can be used for common error conditions.
///
/// # Language mapping
///
/// The `Status` message is the logical representation of the error model, but
/// it
/// is not necessarily the actual wire format. When the `Status` message is
/// exposed in different client libraries and different wire protocols, it can
/// be
/// mapped differently. For example, it will likely be mapped to some exceptions
/// in Java, but more likely mapped to some error codes in C.
///
/// # Other uses
///
/// The error model and the `Status` message can be used in a variety of
/// environments, either with or without APIs, to provide a
/// consistent developer experience across different environments.
///
/// Example uses of this error model include:
///
/// - Partial errors. If a service needs to return partial errors to the client,
/// it may embed the `Status` in the normal response to indicate the partial
/// errors.
///
/// - Workflow errors. A typical workflow has multiple steps. Each step may
/// have a `Status` message for error reporting.
///
/// - Batch operations. If a client uses batch request and batch response, the
/// `Status` message should be used directly inside batch response, one for
/// each error sub-response.
///
/// - Asynchronous operations. If an API call embeds asynchronous operation
/// results in its response, the status of those operations should be
/// represented directly using the `Status` message.
///
/// - Logging. If some API errors are stored in logs, the message `Status` could
/// be used directly after any stripping needed for security/privacy reasons.
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"];
}
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;
}
}
/// Define a parameter's name and location. The parameter may be passed as
/// either
/// an HTTP header or a URL query parameter, and if both are passed the behavior
/// is implementation-dependent.
class SystemParameter {
/// Define the HTTP header name to use for the parameter. It is case
/// insensitive.
core.String httpHeader;
/// Define the name of the parameter, such as "api_key" . It is case
/// sensitive.
core.String name;
/// Define the URL query parameter name to use for the parameter. It is case
/// sensitive.
core.String urlQueryParameter;
SystemParameter();
SystemParameter.fromJson(core.Map _json) {
if (_json.containsKey("httpHeader")) {
httpHeader = _json["httpHeader"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("urlQueryParameter")) {
urlQueryParameter = _json["urlQueryParameter"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (httpHeader != null) {
_json["httpHeader"] = httpHeader;
}
if (name != null) {
_json["name"] = name;
}
if (urlQueryParameter != null) {
_json["urlQueryParameter"] = urlQueryParameter;
}
return _json;
}
}
/// Define a system parameter rule mapping system parameter definitions to
/// methods.
class SystemParameterRule {
/// Define parameters. Multiple names may be defined for a parameter.
/// For a given method call, only one of them should be used. If multiple
/// names are used the behavior is implementation-dependent.
/// If none of the specified names are present the behavior is
/// parameter-dependent.
core.List<SystemParameter> parameters;
/// Selects the methods to which this rule applies. Use '*' to indicate all
/// methods in all APIs.
///
/// Refer to selector for syntax details.
core.String selector;
SystemParameterRule();
SystemParameterRule.fromJson(core.Map _json) {
if (_json.containsKey("parameters")) {
parameters = _json["parameters"]
.map((value) => new SystemParameter.fromJson(value))
.toList();
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (parameters != null) {
_json["parameters"] =
parameters.map((value) => (value).toJson()).toList();
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}
/// ### System parameter configuration
///
/// A system parameter is a special kind of parameter defined by the API
/// system, not by an individual API. It is typically mapped to an HTTP header
/// and/or a URL query parameter. This configuration specifies which methods
/// change the names of the system parameters.
class SystemParameters {
/// Define system parameters.
///
/// The parameters defined here will override the default parameters
/// implemented by the system. If this field is missing from the service
/// config, default system parameters will be used. Default system parameters
/// and names is implementation-dependent.
///
/// Example: define api key for all methods
///
/// system_parameters
/// rules:
/// - selector: "*"
/// parameters:
/// - name: api_key
/// url_query_parameter: api_key
///
///
/// Example: define 2 api key names for a specific method.
///
/// system_parameters
/// rules:
/// - selector: "/ListShelves"
/// parameters:
/// - name: api_key
/// http_header: Api-Key1
/// - name: api_key
/// http_header: Api-Key2
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<SystemParameterRule> rules;
SystemParameters();
SystemParameters.fromJson(core.Map _json) {
if (_json.containsKey("rules")) {
rules = _json["rules"]
.map((value) => new SystemParameterRule.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 (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Representation of a tenancy unit.
class TenancyUnit {
/// @OutputOnly Cloud resource One Platform Name of the consumer of this
/// service. For example 'projects/123456'.
core.String consumer;
/// @OutputOnly The time this tenancy unit was created.
core.String createTime;
/// Globally unique identifier of this tenancy unit
/// "services/{service}/{collection id}/{resource id}/tenancyUnits/{unit}"
core.String name;
/// @OutputOnly Google Cloud API name of the service owning this tenancy unit.
/// For example 'serviceconsumermanagement.googleapis.com'.
core.String service;
/// Resources constituting the tenancy unit.
/// There can be at most 512 tenant resources in a tenancy units.
core.List<TenantResource> tenantResources;
TenancyUnit();
TenancyUnit.fromJson(core.Map _json) {
if (_json.containsKey("consumer")) {
consumer = _json["consumer"];
}
if (_json.containsKey("createTime")) {
createTime = _json["createTime"];
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("service")) {
service = _json["service"];
}
if (_json.containsKey("tenantResources")) {
tenantResources = _json["tenantResources"]
.map((value) => new TenantResource.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 (consumer != null) {
_json["consumer"] = consumer;
}
if (createTime != null) {
_json["createTime"] = createTime;
}
if (name != null) {
_json["name"] = name;
}
if (service != null) {
_json["service"] = service;
}
if (tenantResources != null) {
_json["tenantResources"] =
tenantResources.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// This structure defines a tenant project to be added to the specified tenancy
/// unit and its initial configuration and properties. A project lien will be
/// created for the tenant project to prevent the tenant project from being
/// deleted accidentally. The lien will be deleted as part of tenant project
/// removal.
class TenantProjectConfig {
/// Billing account properties.
/// It may be specified explicitly, or created from the specified group
/// during provisioning
BillingConfig billingConfig;
/// Folder where project in this tenancy unit must be located
/// This folder must have been previously created with proper
/// permissions for the caller to create and configure a project in it.
/// Valid folder resource names have the format `folders/{folder_number}`
/// (for example, `folders/123456`).
core.String folder;
/// Labels that will be applied to this project.
core.Map<core.String, core.String> labels;
/// Configuration for IAM service account on tenant project.
ServiceAccountConfig serviceAccountConfig;
/// Google Cloud API names of services that will be activated on this project
/// during provisioning. If any of these services can not be activated,
/// addTenantProject method will fail.
/// For example: 'compute.googleapis.com','cloudfunctions.googleapis.com'
core.List<core.String> services;
/// Describes ownership and policies for the new tenant project. Required.
TenantProjectPolicy tenantProjectPolicy;
TenantProjectConfig();
TenantProjectConfig.fromJson(core.Map _json) {
if (_json.containsKey("billingConfig")) {
billingConfig = new BillingConfig.fromJson(_json["billingConfig"]);
}
if (_json.containsKey("folder")) {
folder = _json["folder"];
}
if (_json.containsKey("labels")) {
labels = _json["labels"];
}
if (_json.containsKey("serviceAccountConfig")) {
serviceAccountConfig =
new ServiceAccountConfig.fromJson(_json["serviceAccountConfig"]);
}
if (_json.containsKey("services")) {
services = _json["services"];
}
if (_json.containsKey("tenantProjectPolicy")) {
tenantProjectPolicy =
new TenantProjectPolicy.fromJson(_json["tenantProjectPolicy"]);
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (billingConfig != null) {
_json["billingConfig"] = (billingConfig).toJson();
}
if (folder != null) {
_json["folder"] = folder;
}
if (labels != null) {
_json["labels"] = labels;
}
if (serviceAccountConfig != null) {
_json["serviceAccountConfig"] = (serviceAccountConfig).toJson();
}
if (services != null) {
_json["services"] = services;
}
if (tenantProjectPolicy != null) {
_json["tenantProjectPolicy"] = (tenantProjectPolicy).toJson();
}
return _json;
}
}
/// Describes policy settings that need to be applied to a newly
/// created Tenant Project.
class TenantProjectPolicy {
/// Policy bindings to be applied to the tenant project, in addition to the
/// 'roles/owner' role granted to the Service Consumer Management service
/// account.
/// At least one binding must have the role `roles/owner`. Among the list of
/// members for `roles/owner`, at least one of them must be either `user` or
/// `group` type.
core.List<PolicyBinding> policyBindings;
TenantProjectPolicy();
TenantProjectPolicy.fromJson(core.Map _json) {
if (_json.containsKey("policyBindings")) {
policyBindings = _json["policyBindings"]
.map((value) => new PolicyBinding.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 (policyBindings != null) {
_json["policyBindings"] =
policyBindings.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Resource constituting the TenancyUnit.
class TenantResource {
/// @OutputOnly Identifier of the tenant resource.
/// For cloud projects it is in the form 'projects/{number}'.
/// For example 'projects/123456'.
core.String resource;
/// Status of tenant resource.
/// Possible string values are:
/// - "STATUS_UNSPECIFIED" : Unspecified status is the default unset value.
/// - "PENDING_CREATE" : Creation of the tenant resource is ongoing.
/// - "ACTIVE" : Active resource.
/// - "PENDING_DELETE" : Deletion of the resource is ongoing.
/// - "FAILED" : Tenant resource creation or deletion has failed.
core.String status;
/// Unique per single tenancy unit.
core.String tag;
TenantResource();
TenantResource.fromJson(core.Map _json) {
if (_json.containsKey("resource")) {
resource = _json["resource"];
}
if (_json.containsKey("status")) {
status = _json["status"];
}
if (_json.containsKey("tag")) {
tag = _json["tag"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (resource != null) {
_json["resource"] = resource;
}
if (status != null) {
_json["status"] = status;
}
if (tag != null) {
_json["tag"] = tag;
}
return _json;
}
}
/// A protocol buffer message type.
class Type {
/// The list of fields.
core.List<Field> fields;
/// The fully qualified message name.
core.String name;
/// The list of types appearing in `oneof` definitions in this type.
core.List<core.String> oneofs;
/// The protocol buffer options.
core.List<Option> options;
/// The source context.
SourceContext sourceContext;
/// The source syntax.
/// Possible string values are:
/// - "SYNTAX_PROTO2" : Syntax `proto2`.
/// - "SYNTAX_PROTO3" : Syntax `proto3`.
core.String syntax;
Type();
Type.fromJson(core.Map _json) {
if (_json.containsKey("fields")) {
fields =
_json["fields"].map((value) => new Field.fromJson(value)).toList();
}
if (_json.containsKey("name")) {
name = _json["name"];
}
if (_json.containsKey("oneofs")) {
oneofs = _json["oneofs"];
}
if (_json.containsKey("options")) {
options =
_json["options"].map((value) => new Option.fromJson(value)).toList();
}
if (_json.containsKey("sourceContext")) {
sourceContext = new SourceContext.fromJson(_json["sourceContext"]);
}
if (_json.containsKey("syntax")) {
syntax = _json["syntax"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (fields != null) {
_json["fields"] = fields.map((value) => (value).toJson()).toList();
}
if (name != null) {
_json["name"] = name;
}
if (oneofs != null) {
_json["oneofs"] = oneofs;
}
if (options != null) {
_json["options"] = options.map((value) => (value).toJson()).toList();
}
if (sourceContext != null) {
_json["sourceContext"] = (sourceContext).toJson();
}
if (syntax != null) {
_json["syntax"] = syntax;
}
return _json;
}
}
/// Configuration controlling usage of a service.
class Usage {
/// The full resource name of a channel used for sending notifications to the
/// service producer.
///
/// Google Service Management currently only supports
/// [Google Cloud Pub/Sub](https://cloud.google.com/pubsub) as a notification
/// channel. To use Google Cloud Pub/Sub as the channel, this must be the name
/// of a Cloud Pub/Sub topic that uses the Cloud Pub/Sub topic name format
/// documented in https://cloud.google.com/pubsub/docs/overview.
core.String producerNotificationChannel;
/// Requirements that must be satisfied before a consumer project can use the
/// service. Each requirement is of the form <service.name>/<requirement-id>;
/// for example 'serviceusage.googleapis.com/billing-enabled'.
core.List<core.String> requirements;
/// A list of usage rules that apply to individual API methods.
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<UsageRule> rules;
Usage();
Usage.fromJson(core.Map _json) {
if (_json.containsKey("producerNotificationChannel")) {
producerNotificationChannel = _json["producerNotificationChannel"];
}
if (_json.containsKey("requirements")) {
requirements = _json["requirements"];
}
if (_json.containsKey("rules")) {
rules =
_json["rules"].map((value) => new UsageRule.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 (producerNotificationChannel != null) {
_json["producerNotificationChannel"] = producerNotificationChannel;
}
if (requirements != null) {
_json["requirements"] = requirements;
}
if (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// Usage configuration rules for the service.
///
/// NOTE: Under development.
///
///
/// Use this rule to configure unregistered calls for the service. Unregistered
/// calls are calls that do not contain consumer project identity.
/// (Example: calls that do not contain an API key).
/// By default, API methods do not allow unregistered calls, and each method
/// call
/// must be identified by a consumer project identity. Use this rule to
/// allow/disallow unregistered calls.
///
/// Example of an API that wants to allow unregistered calls for entire service.
///
/// usage:
/// rules:
/// - selector: "*"
/// allow_unregistered_calls: true
///
/// Example of a method that wants to allow unregistered calls.
///
/// usage:
/// rules:
/// - selector: "google.example.library.v1.LibraryService.CreateBook"
/// allow_unregistered_calls: true
class UsageRule {
/// If true, the selected method allows unregistered calls, e.g. calls
/// that don't identify any user or application.
core.bool allowUnregisteredCalls;
/// Selects the methods to which this rule applies. Use '*' to indicate all
/// methods in all APIs.
///
/// Refer to selector for syntax details.
core.String selector;
/// If true, the selected method should skip service control and the control
/// plane features, such as quota and billing, will not be available.
/// This flag is used by Google Cloud Endpoints to bypass checks for internal
/// methods, such as service health check methods.
core.bool skipServiceControl;
UsageRule();
UsageRule.fromJson(core.Map _json) {
if (_json.containsKey("allowUnregisteredCalls")) {
allowUnregisteredCalls = _json["allowUnregisteredCalls"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
if (_json.containsKey("skipServiceControl")) {
skipServiceControl = _json["skipServiceControl"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (allowUnregisteredCalls != null) {
_json["allowUnregisteredCalls"] = allowUnregisteredCalls;
}
if (selector != null) {
_json["selector"] = selector;
}
if (skipServiceControl != null) {
_json["skipServiceControl"] = skipServiceControl;
}
return _json;
}
}
/// `Visibility` defines restrictions for the visibility of service
/// elements. Restrictions are specified using visibility labels
/// (e.g., TRUSTED_TESTER) that are elsewhere linked to users and projects.
///
/// Users and projects can have access to more than one visibility label. The
/// effective visibility for multiple labels is the union of each label's
/// elements, plus any unrestricted elements.
///
/// If an element and its parents have no restrictions, visibility is
/// unconditionally granted.
///
/// Example:
///
/// visibility:
/// rules:
/// - selector: google.calendar.Calendar.EnhancedSearch
/// restriction: TRUSTED_TESTER
/// - selector: google.calendar.Calendar.Delegate
/// restriction: GOOGLE_INTERNAL
///
/// Here, all methods are publicly visible except for the restricted methods
/// EnhancedSearch and Delegate.
class Visibility {
/// A list of visibility rules that apply to individual API elements.
///
/// **NOTE:** All service configuration rules follow "last one wins" order.
core.List<VisibilityRule> rules;
Visibility();
Visibility.fromJson(core.Map _json) {
if (_json.containsKey("rules")) {
rules = _json["rules"]
.map((value) => new VisibilityRule.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 (rules != null) {
_json["rules"] = rules.map((value) => (value).toJson()).toList();
}
return _json;
}
}
/// A visibility rule provides visibility configuration for an individual API
/// element.
class VisibilityRule {
/// A comma-separated list of visibility labels that apply to the `selector`.
/// Any of the listed labels can be used to grant the visibility.
///
/// If a rule has multiple labels, removing one of the labels but not all of
/// them can break clients.
///
/// Example:
///
/// visibility:
/// rules:
/// - selector: google.calendar.Calendar.EnhancedSearch
/// restriction: GOOGLE_INTERNAL, TRUSTED_TESTER
///
/// Removing GOOGLE_INTERNAL from this restriction will break clients that
/// rely on this method and only had access to it through GOOGLE_INTERNAL.
core.String restriction;
/// Selects methods, messages, fields, enums, etc. to which this rule applies.
///
/// Refer to selector for syntax details.
core.String selector;
VisibilityRule();
VisibilityRule.fromJson(core.Map _json) {
if (_json.containsKey("restriction")) {
restriction = _json["restriction"];
}
if (_json.containsKey("selector")) {
selector = _json["selector"];
}
}
core.Map<core.String, core.Object> toJson() {
final core.Map<core.String, core.Object> _json =
new core.Map<core.String, core.Object>();
if (restriction != null) {
_json["restriction"] = restriction;
}
if (selector != null) {
_json["selector"] = selector;
}
return _json;
}
}