@google-cloud/run
Version:
950 lines • 40.9 kB
JavaScript
"use strict";
// Copyright 2025 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
// ** This file is automatically generated by gapic-generator-typescript. **
// ** https://github.com/googleapis/gapic-generator-typescript **
// ** All changes to this file may be overwritten. **
Object.defineProperty(exports, "__esModule", { value: true });
exports.TasksClient = void 0;
const jsonProtos = require("../../protos/protos.json");
const google_gax_1 = require("google-gax");
/**
* Client JSON configuration object, loaded from
* `src/v2/tasks_client_config.json`.
* This file defines retry strategy and timeouts for all API methods in this library.
*/
const gapicConfig = require("./tasks_client_config.json");
const version = require('../../../package.json').version;
/**
* Cloud Run Task Control Plane API.
* @class
* @memberof v2
*/
class TasksClient {
_terminated = false;
_opts;
_providedCustomServicePath;
_gaxModule;
_gaxGrpc;
_protos;
_defaults;
_universeDomain;
_servicePath;
_log = google_gax_1.loggingUtils.log('run');
auth;
descriptors = {
page: {},
stream: {},
longrunning: {},
batching: {},
};
warn;
innerApiCalls;
locationsClient;
pathTemplates;
tasksStub;
/**
* Construct an instance of TasksClient.
*
* @param {object} [options] - The configuration object.
* The options accepted by the constructor are described in detail
* in [this document](https://github.com/googleapis/gax-nodejs/blob/main/client-libraries.md#creating-the-client-instance).
* The common options are:
* @param {object} [options.credentials] - Credentials object.
* @param {string} [options.credentials.client_email]
* @param {string} [options.credentials.private_key]
* @param {string} [options.email] - Account email address. Required when
* using a .pem or .p12 keyFilename.
* @param {string} [options.keyFilename] - Full path to the a .json, .pem, or
* .p12 key downloaded from the Google Developers Console. If you provide
* a path to a JSON file, the projectId option below is not necessary.
* NOTE: .pem and .p12 require you to specify options.email as well.
* @param {number} [options.port] - The port on which to connect to
* the remote host.
* @param {string} [options.projectId] - The project ID from the Google
* Developer's Console, e.g. 'grape-spaceship-123'. We will also check
* the environment variable GCLOUD_PROJECT for your project ID. If your
* app is running in an environment which supports
* {@link https://cloud.google.com/docs/authentication/application-default-credentials Application Default Credentials},
* your project ID will be detected automatically.
* @param {string} [options.apiEndpoint] - The domain name of the
* API remote host.
* @param {gax.ClientConfig} [options.clientConfig] - Client configuration override.
* Follows the structure of {@link gapicConfig}.
* @param {boolean} [options.fallback] - Use HTTP/1.1 REST mode.
* For more information, please check the
* {@link https://github.com/googleapis/gax-nodejs/blob/main/client-libraries.md#http11-rest-api-mode documentation}.
* @param {gax} [gaxInstance]: loaded instance of `google-gax`. Useful if you
* need to avoid loading the default gRPC version and want to use the fallback
* HTTP implementation. Load only fallback version and pass it to the constructor:
* ```
* const gax = require('google-gax/build/src/fallback'); // avoids loading google-gax with gRPC
* const client = new TasksClient({fallback: true}, gax);
* ```
*/
constructor(opts, gaxInstance) {
// Ensure that options include all the required fields.
const staticMembers = this.constructor;
if (opts?.universe_domain && opts?.universeDomain && opts?.universe_domain !== opts?.universeDomain) {
throw new Error('Please set either universe_domain or universeDomain, but not both.');
}
const universeDomainEnvVar = (typeof process === 'object' && typeof process.env === 'object') ? process.env['GOOGLE_CLOUD_UNIVERSE_DOMAIN'] : undefined;
this._universeDomain = opts?.universeDomain ?? opts?.universe_domain ?? universeDomainEnvVar ?? 'googleapis.com';
this._servicePath = 'run.' + this._universeDomain;
const servicePath = opts?.servicePath || opts?.apiEndpoint || this._servicePath;
this._providedCustomServicePath = !!(opts?.servicePath || opts?.apiEndpoint);
const port = opts?.port || staticMembers.port;
const clientConfig = opts?.clientConfig ?? {};
const fallback = opts?.fallback ?? (typeof window !== 'undefined' && typeof window?.fetch === 'function');
opts = Object.assign({ servicePath, port, clientConfig, fallback }, opts);
// Request numeric enum values if REST transport is used.
opts.numericEnums = true;
// If scopes are unset in options and we're connecting to a non-default endpoint, set scopes just in case.
if (servicePath !== this._servicePath && !('scopes' in opts)) {
opts['scopes'] = staticMembers.scopes;
}
// Load google-gax module synchronously if needed
if (!gaxInstance) {
gaxInstance = require('google-gax');
}
// Choose either gRPC or proto-over-HTTP implementation of google-gax.
this._gaxModule = opts.fallback ? gaxInstance.fallback : gaxInstance;
// Create a `gaxGrpc` object, with any grpc-specific options sent to the client.
this._gaxGrpc = new this._gaxModule.GrpcClient(opts);
// Save options to use in initialize() method.
this._opts = opts;
// Save the auth object to the client, for use by other methods.
this.auth = this._gaxGrpc.auth;
// Set useJWTAccessWithScope on the auth object.
this.auth.useJWTAccessWithScope = true;
// Set defaultServicePath on the auth object.
this.auth.defaultServicePath = this._servicePath;
// Set the default scopes in auth client if needed.
if (servicePath === this._servicePath) {
this.auth.defaultScopes = staticMembers.scopes;
}
this.locationsClient = new this._gaxModule.LocationsClient(this._gaxGrpc, opts);
// Determine the client header string.
const clientHeader = [
`gax/${this._gaxModule.version}`,
`gapic/${version}`,
];
if (typeof process === 'object' && 'versions' in process) {
clientHeader.push(`gl-node/${process.versions.node}`);
}
else {
clientHeader.push(`gl-web/${this._gaxModule.version}`);
}
if (!opts.fallback) {
clientHeader.push(`grpc/${this._gaxGrpc.grpcVersion}`);
}
else {
clientHeader.push(`rest/${this._gaxGrpc.grpcVersion}`);
}
if (opts.libName && opts.libVersion) {
clientHeader.push(`${opts.libName}/${opts.libVersion}`);
}
// Load the applicable protos.
this._protos = this._gaxGrpc.loadProtoJSON(jsonProtos);
// This API contains "path templates"; forward-slash-separated
// identifiers to uniquely identify resources within the API.
// Create useful helper objects for these.
this.pathTemplates = {
cryptoKeyPathTemplate: new this._gaxModule.PathTemplate('projects/{project}/locations/{location}/keyRings/{key_ring}/cryptoKeys/{crypto_key}'),
executionPathTemplate: new this._gaxModule.PathTemplate('projects/{project}/locations/{location}/jobs/{job}/executions/{execution}'),
jobPathTemplate: new this._gaxModule.PathTemplate('projects/{project}/locations/{location}/jobs/{job}'),
locationPathTemplate: new this._gaxModule.PathTemplate('projects/{project}/locations/{location}'),
projectPathTemplate: new this._gaxModule.PathTemplate('projects/{project}'),
revisionPathTemplate: new this._gaxModule.PathTemplate('projects/{project}/locations/{location}/services/{service}/revisions/{revision}'),
servicePathTemplate: new this._gaxModule.PathTemplate('projects/{project}/locations/{location}/services/{service}'),
taskPathTemplate: new this._gaxModule.PathTemplate('projects/{project}/locations/{location}/jobs/{job}/executions/{execution}/tasks/{task}'),
workerPoolPathTemplate: new this._gaxModule.PathTemplate('projects/{project}/locations/{location}/workerPools/{worker_pool}'),
};
// Some of the methods on this service return "paged" results,
// (e.g. 50 results at a time, with tokens to get subsequent
// pages). Denote the keys used for pagination and results.
this.descriptors.page = {
listTasks: new this._gaxModule.PageDescriptor('pageToken', 'nextPageToken', 'tasks')
};
// Put together the default options sent with requests.
this._defaults = this._gaxGrpc.constructSettings('google.cloud.run.v2.Tasks', gapicConfig, opts.clientConfig || {}, { 'x-goog-api-client': clientHeader.join(' ') });
// Set up a dictionary of "inner API calls"; the core implementation
// of calling the API is handled in `google-gax`, with this code
// merely providing the destination and request information.
this.innerApiCalls = {};
// Add a warn function to the client constructor so it can be easily tested.
this.warn = this._gaxModule.warn;
}
/**
* Initialize the client.
* Performs asynchronous operations (such as authentication) and prepares the client.
* This function will be called automatically when any class method is called for the
* first time, but if you need to initialize it before calling an actual method,
* feel free to call initialize() directly.
*
* You can await on this method if you want to make sure the client is initialized.
*
* @returns {Promise} A promise that resolves to an authenticated service stub.
*/
initialize() {
// If the client stub promise is already initialized, return immediately.
if (this.tasksStub) {
return this.tasksStub;
}
// Put together the "service stub" for
// google.cloud.run.v2.Tasks.
this.tasksStub = this._gaxGrpc.createStub(this._opts.fallback ?
this._protos.lookupService('google.cloud.run.v2.Tasks') :
// eslint-disable-next-line @typescript-eslint/no-explicit-any
this._protos.google.cloud.run.v2.Tasks, this._opts, this._providedCustomServicePath);
// Iterate over each of the methods that the service provides
// and create an API call method for each.
const tasksStubMethods = ['getTask', 'listTasks'];
for (const methodName of tasksStubMethods) {
const callPromise = this.tasksStub.then(stub => (...args) => {
if (this._terminated) {
return Promise.reject('The client has already been closed.');
}
const func = stub[methodName];
return func.apply(stub, args);
}, (err) => () => {
throw err;
});
const descriptor = this.descriptors.page[methodName] ||
undefined;
const apiCall = this._gaxModule.createApiCall(callPromise, this._defaults[methodName], descriptor, this._opts.fallback);
this.innerApiCalls[methodName] = apiCall;
}
return this.tasksStub;
}
/**
* The DNS address for this API service.
* @deprecated Use the apiEndpoint method of the client instance.
* @returns {string} The DNS address for this service.
*/
static get servicePath() {
if (typeof process === 'object' && typeof process.emitWarning === 'function') {
process.emitWarning('Static servicePath is deprecated, please use the instance method instead.', 'DeprecationWarning');
}
return 'run.googleapis.com';
}
/**
* The DNS address for this API service - same as servicePath.
* @deprecated Use the apiEndpoint method of the client instance.
* @returns {string} The DNS address for this service.
*/
static get apiEndpoint() {
if (typeof process === 'object' && typeof process.emitWarning === 'function') {
process.emitWarning('Static apiEndpoint is deprecated, please use the instance method instead.', 'DeprecationWarning');
}
return 'run.googleapis.com';
}
/**
* The DNS address for this API service.
* @returns {string} The DNS address for this service.
*/
get apiEndpoint() {
return this._servicePath;
}
get universeDomain() {
return this._universeDomain;
}
/**
* The port for this API service.
* @returns {number} The default port for this service.
*/
static get port() {
return 443;
}
/**
* The scopes needed to make gRPC calls for every method defined
* in this service.
* @returns {string[]} List of default scopes.
*/
static get scopes() {
return [
'https://www.googleapis.com/auth/cloud-platform'
];
}
/**
* Return the project ID used by this class.
* @returns {Promise} A promise that resolves to string containing the project ID.
*/
getProjectId(callback) {
if (callback) {
this.auth.getProjectId(callback);
return;
}
return this.auth.getProjectId();
}
getTask(request, optionsOrCallback, callback) {
request = request || {};
let options;
if (typeof optionsOrCallback === 'function' && callback === undefined) {
callback = optionsOrCallback;
options = {};
}
else {
options = optionsOrCallback;
}
options = options || {};
options.otherArgs = options.otherArgs || {};
options.otherArgs.headers = options.otherArgs.headers || {};
options.otherArgs.headers['x-goog-request-params'] = this._gaxModule.routingHeader.fromParams({
'name': request.name ?? '',
});
this.initialize().catch(err => { throw err; });
this._log.info('getTask request %j', request);
const wrappedCallback = callback
? (error, response, options, rawResponse) => {
this._log.info('getTask response %j', response);
callback(error, response, options, rawResponse); // We verified callback above.
}
: undefined;
return this.innerApiCalls.getTask(request, options, wrappedCallback)
?.then(([response, options, rawResponse]) => {
this._log.info('getTask response %j', response);
return [response, options, rawResponse];
}).catch((error) => {
if (error && 'statusDetails' in error && error.statusDetails instanceof Array) {
const protos = this._gaxModule.protobuf.Root.fromJSON(jsonProtos);
error.statusDetails = (0, google_gax_1.decodeAnyProtosInArray)(error.statusDetails, protos);
}
throw error;
});
}
listTasks(request, optionsOrCallback, callback) {
request = request || {};
let options;
if (typeof optionsOrCallback === 'function' && callback === undefined) {
callback = optionsOrCallback;
options = {};
}
else {
options = optionsOrCallback;
}
options = options || {};
options.otherArgs = options.otherArgs || {};
options.otherArgs.headers = options.otherArgs.headers || {};
options.otherArgs.headers['x-goog-request-params'] = this._gaxModule.routingHeader.fromParams({
'parent': request.parent ?? '',
});
this.initialize().catch(err => { throw err; });
const wrappedCallback = callback
? (error, values, nextPageRequest, rawResponse) => {
this._log.info('listTasks values %j', values);
callback(error, values, nextPageRequest, rawResponse); // We verified callback above.
}
: undefined;
this._log.info('listTasks request %j', request);
return this.innerApiCalls
.listTasks(request, options, wrappedCallback)
?.then(([response, input, output]) => {
this._log.info('listTasks values %j', response);
return [response, input, output];
});
}
/**
* Equivalent to `listTasks`, but returns a NodeJS Stream object.
* @param {Object} request
* The request object that will be sent.
* @param {string} request.parent
* Required. The Execution from which the Tasks should be listed.
* To list all Tasks across Executions of a Job, use "-" instead of Execution
* name. To list all Tasks across Jobs, use "-" instead of Job name. Format:
* projects/{project}/locations/{location}/jobs/{job}/executions/{execution}
* @param {number} request.pageSize
* Maximum number of Tasks to return in this call.
* @param {string} request.pageToken
* A page token received from a previous call to ListTasks.
* All other parameters must match.
* @param {boolean} request.showDeleted
* If true, returns deleted (but unexpired) resources along with active ones.
* @param {object} [options]
* Call options. See {@link https://googleapis.dev/nodejs/google-gax/latest/interfaces/CallOptions.html|CallOptions} for more details.
* @returns {Stream}
* An object stream which emits an object representing {@link protos.google.cloud.run.v2.Task|Task} on 'data' event.
* The client library will perform auto-pagination by default: it will call the API as many
* times as needed. Note that it can affect your quota.
* We recommend using `listTasksAsync()`
* method described below for async iteration which you can stop as needed.
* Please see the {@link https://github.com/googleapis/gax-nodejs/blob/master/client-libraries.md#auto-pagination | documentation }
* for more details and examples.
*/
listTasksStream(request, options) {
request = request || {};
options = options || {};
options.otherArgs = options.otherArgs || {};
options.otherArgs.headers = options.otherArgs.headers || {};
options.otherArgs.headers['x-goog-request-params'] = this._gaxModule.routingHeader.fromParams({
'parent': request.parent ?? '',
});
const defaultCallSettings = this._defaults['listTasks'];
const callSettings = defaultCallSettings.merge(options);
this.initialize().catch(err => { throw err; });
this._log.info('listTasks stream %j', request);
return this.descriptors.page.listTasks.createStream(this.innerApiCalls.listTasks, request, callSettings);
}
/**
* Equivalent to `listTasks`, but returns an iterable object.
*
* `for`-`await`-`of` syntax is used with the iterable to get response elements on-demand.
* @param {Object} request
* The request object that will be sent.
* @param {string} request.parent
* Required. The Execution from which the Tasks should be listed.
* To list all Tasks across Executions of a Job, use "-" instead of Execution
* name. To list all Tasks across Jobs, use "-" instead of Job name. Format:
* projects/{project}/locations/{location}/jobs/{job}/executions/{execution}
* @param {number} request.pageSize
* Maximum number of Tasks to return in this call.
* @param {string} request.pageToken
* A page token received from a previous call to ListTasks.
* All other parameters must match.
* @param {boolean} request.showDeleted
* If true, returns deleted (but unexpired) resources along with active ones.
* @param {object} [options]
* Call options. See {@link https://googleapis.dev/nodejs/google-gax/latest/interfaces/CallOptions.html|CallOptions} for more details.
* @returns {Object}
* An iterable Object that allows {@link https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Iteration_protocols | async iteration }.
* When you iterate the returned iterable, each element will be an object representing
* {@link protos.google.cloud.run.v2.Task|Task}. The API will be called under the hood as needed, once per the page,
* so you can stop the iteration when you don't need more results.
* Please see the {@link https://github.com/googleapis/gax-nodejs/blob/master/client-libraries.md#auto-pagination | documentation }
* for more details and examples.
* @example <caption>include:samples/generated/v2/tasks.list_tasks.js</caption>
* region_tag:run_v2_generated_Tasks_ListTasks_async
*/
listTasksAsync(request, options) {
request = request || {};
options = options || {};
options.otherArgs = options.otherArgs || {};
options.otherArgs.headers = options.otherArgs.headers || {};
options.otherArgs.headers['x-goog-request-params'] = this._gaxModule.routingHeader.fromParams({
'parent': request.parent ?? '',
});
const defaultCallSettings = this._defaults['listTasks'];
const callSettings = defaultCallSettings.merge(options);
this.initialize().catch(err => { throw err; });
this._log.info('listTasks iterate %j', request);
return this.descriptors.page.listTasks.asyncIterate(this.innerApiCalls['listTasks'], request, callSettings);
}
/**
* Gets information about a location.
*
* @param {Object} request
* The request object that will be sent.
* @param {string} request.name
* Resource name for the location.
* @param {object} [options]
* Call options. See {@link https://googleapis.dev/nodejs/google-gax/latest/interfaces/CallOptions.html | CallOptions} for more details.
* @returns {Promise} - The promise which resolves to an array.
* The first element of the array is an object representing {@link google.cloud.location.Location | Location}.
* Please see the {@link https://github.com/googleapis/gax-nodejs/blob/master/client-libraries.md#regular-methods | documentation }
* for more details and examples.
* @example
* ```
* const [response] = await client.getLocation(request);
* ```
*/
getLocation(request, options, callback) {
return this.locationsClient.getLocation(request, options, callback);
}
/**
* Lists information about the supported locations for this service. Returns an iterable object.
*
* `for`-`await`-`of` syntax is used with the iterable to get response elements on-demand.
* @param {Object} request
* The request object that will be sent.
* @param {string} request.name
* The resource that owns the locations collection, if applicable.
* @param {string} request.filter
* The standard list filter.
* @param {number} request.pageSize
* The standard list page size.
* @param {string} request.pageToken
* The standard list page token.
* @param {object} [options]
* Call options. See {@link https://googleapis.dev/nodejs/google-gax/latest/interfaces/CallOptions.html|CallOptions} for more details.
* @returns {Object}
* An iterable Object that allows {@link https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Iteration_protocols | async iteration }.
* When you iterate the returned iterable, each element will be an object representing
* {@link google.cloud.location.Location | Location}. The API will be called under the hood as needed, once per the page,
* so you can stop the iteration when you don't need more results.
* Please see the {@link https://github.com/googleapis/gax-nodejs/blob/master/client-libraries.md#auto-pagination | documentation }
* for more details and examples.
* @example
* ```
* const iterable = client.listLocationsAsync(request);
* for await (const response of iterable) {
* // process response
* }
* ```
*/
listLocationsAsync(request, options) {
return this.locationsClient.listLocationsAsync(request, options);
}
// --------------------
// -- Path templates --
// --------------------
/**
* Return a fully-qualified cryptoKey resource name string.
*
* @param {string} project
* @param {string} location
* @param {string} key_ring
* @param {string} crypto_key
* @returns {string} Resource name string.
*/
cryptoKeyPath(project, location, keyRing, cryptoKey) {
return this.pathTemplates.cryptoKeyPathTemplate.render({
project: project,
location: location,
key_ring: keyRing,
crypto_key: cryptoKey,
});
}
/**
* Parse the project from CryptoKey resource.
*
* @param {string} cryptoKeyName
* A fully-qualified path representing CryptoKey resource.
* @returns {string} A string representing the project.
*/
matchProjectFromCryptoKeyName(cryptoKeyName) {
return this.pathTemplates.cryptoKeyPathTemplate.match(cryptoKeyName).project;
}
/**
* Parse the location from CryptoKey resource.
*
* @param {string} cryptoKeyName
* A fully-qualified path representing CryptoKey resource.
* @returns {string} A string representing the location.
*/
matchLocationFromCryptoKeyName(cryptoKeyName) {
return this.pathTemplates.cryptoKeyPathTemplate.match(cryptoKeyName).location;
}
/**
* Parse the key_ring from CryptoKey resource.
*
* @param {string} cryptoKeyName
* A fully-qualified path representing CryptoKey resource.
* @returns {string} A string representing the key_ring.
*/
matchKeyRingFromCryptoKeyName(cryptoKeyName) {
return this.pathTemplates.cryptoKeyPathTemplate.match(cryptoKeyName).key_ring;
}
/**
* Parse the crypto_key from CryptoKey resource.
*
* @param {string} cryptoKeyName
* A fully-qualified path representing CryptoKey resource.
* @returns {string} A string representing the crypto_key.
*/
matchCryptoKeyFromCryptoKeyName(cryptoKeyName) {
return this.pathTemplates.cryptoKeyPathTemplate.match(cryptoKeyName).crypto_key;
}
/**
* Return a fully-qualified execution resource name string.
*
* @param {string} project
* @param {string} location
* @param {string} job
* @param {string} execution
* @returns {string} Resource name string.
*/
executionPath(project, location, job, execution) {
return this.pathTemplates.executionPathTemplate.render({
project: project,
location: location,
job: job,
execution: execution,
});
}
/**
* Parse the project from Execution resource.
*
* @param {string} executionName
* A fully-qualified path representing Execution resource.
* @returns {string} A string representing the project.
*/
matchProjectFromExecutionName(executionName) {
return this.pathTemplates.executionPathTemplate.match(executionName).project;
}
/**
* Parse the location from Execution resource.
*
* @param {string} executionName
* A fully-qualified path representing Execution resource.
* @returns {string} A string representing the location.
*/
matchLocationFromExecutionName(executionName) {
return this.pathTemplates.executionPathTemplate.match(executionName).location;
}
/**
* Parse the job from Execution resource.
*
* @param {string} executionName
* A fully-qualified path representing Execution resource.
* @returns {string} A string representing the job.
*/
matchJobFromExecutionName(executionName) {
return this.pathTemplates.executionPathTemplate.match(executionName).job;
}
/**
* Parse the execution from Execution resource.
*
* @param {string} executionName
* A fully-qualified path representing Execution resource.
* @returns {string} A string representing the execution.
*/
matchExecutionFromExecutionName(executionName) {
return this.pathTemplates.executionPathTemplate.match(executionName).execution;
}
/**
* Return a fully-qualified job resource name string.
*
* @param {string} project
* @param {string} location
* @param {string} job
* @returns {string} Resource name string.
*/
jobPath(project, location, job) {
return this.pathTemplates.jobPathTemplate.render({
project: project,
location: location,
job: job,
});
}
/**
* Parse the project from Job resource.
*
* @param {string} jobName
* A fully-qualified path representing Job resource.
* @returns {string} A string representing the project.
*/
matchProjectFromJobName(jobName) {
return this.pathTemplates.jobPathTemplate.match(jobName).project;
}
/**
* Parse the location from Job resource.
*
* @param {string} jobName
* A fully-qualified path representing Job resource.
* @returns {string} A string representing the location.
*/
matchLocationFromJobName(jobName) {
return this.pathTemplates.jobPathTemplate.match(jobName).location;
}
/**
* Parse the job from Job resource.
*
* @param {string} jobName
* A fully-qualified path representing Job resource.
* @returns {string} A string representing the job.
*/
matchJobFromJobName(jobName) {
return this.pathTemplates.jobPathTemplate.match(jobName).job;
}
/**
* Return a fully-qualified location resource name string.
*
* @param {string} project
* @param {string} location
* @returns {string} Resource name string.
*/
locationPath(project, location) {
return this.pathTemplates.locationPathTemplate.render({
project: project,
location: location,
});
}
/**
* Parse the project from Location resource.
*
* @param {string} locationName
* A fully-qualified path representing Location resource.
* @returns {string} A string representing the project.
*/
matchProjectFromLocationName(locationName) {
return this.pathTemplates.locationPathTemplate.match(locationName).project;
}
/**
* Parse the location from Location resource.
*
* @param {string} locationName
* A fully-qualified path representing Location resource.
* @returns {string} A string representing the location.
*/
matchLocationFromLocationName(locationName) {
return this.pathTemplates.locationPathTemplate.match(locationName).location;
}
/**
* Return a fully-qualified project resource name string.
*
* @param {string} project
* @returns {string} Resource name string.
*/
projectPath(project) {
return this.pathTemplates.projectPathTemplate.render({
project: project,
});
}
/**
* Parse the project from Project resource.
*
* @param {string} projectName
* A fully-qualified path representing Project resource.
* @returns {string} A string representing the project.
*/
matchProjectFromProjectName(projectName) {
return this.pathTemplates.projectPathTemplate.match(projectName).project;
}
/**
* Return a fully-qualified revision resource name string.
*
* @param {string} project
* @param {string} location
* @param {string} service
* @param {string} revision
* @returns {string} Resource name string.
*/
revisionPath(project, location, service, revision) {
return this.pathTemplates.revisionPathTemplate.render({
project: project,
location: location,
service: service,
revision: revision,
});
}
/**
* Parse the project from Revision resource.
*
* @param {string} revisionName
* A fully-qualified path representing Revision resource.
* @returns {string} A string representing the project.
*/
matchProjectFromRevisionName(revisionName) {
return this.pathTemplates.revisionPathTemplate.match(revisionName).project;
}
/**
* Parse the location from Revision resource.
*
* @param {string} revisionName
* A fully-qualified path representing Revision resource.
* @returns {string} A string representing the location.
*/
matchLocationFromRevisionName(revisionName) {
return this.pathTemplates.revisionPathTemplate.match(revisionName).location;
}
/**
* Parse the service from Revision resource.
*
* @param {string} revisionName
* A fully-qualified path representing Revision resource.
* @returns {string} A string representing the service.
*/
matchServiceFromRevisionName(revisionName) {
return this.pathTemplates.revisionPathTemplate.match(revisionName).service;
}
/**
* Parse the revision from Revision resource.
*
* @param {string} revisionName
* A fully-qualified path representing Revision resource.
* @returns {string} A string representing the revision.
*/
matchRevisionFromRevisionName(revisionName) {
return this.pathTemplates.revisionPathTemplate.match(revisionName).revision;
}
/**
* Return a fully-qualified service resource name string.
*
* @param {string} project
* @param {string} location
* @param {string} service
* @returns {string} Resource name string.
*/
servicePath(project, location, service) {
return this.pathTemplates.servicePathTemplate.render({
project: project,
location: location,
service: service,
});
}
/**
* Parse the project from Service resource.
*
* @param {string} serviceName
* A fully-qualified path representing Service resource.
* @returns {string} A string representing the project.
*/
matchProjectFromServiceName(serviceName) {
return this.pathTemplates.servicePathTemplate.match(serviceName).project;
}
/**
* Parse the location from Service resource.
*
* @param {string} serviceName
* A fully-qualified path representing Service resource.
* @returns {string} A string representing the location.
*/
matchLocationFromServiceName(serviceName) {
return this.pathTemplates.servicePathTemplate.match(serviceName).location;
}
/**
* Parse the service from Service resource.
*
* @param {string} serviceName
* A fully-qualified path representing Service resource.
* @returns {string} A string representing the service.
*/
matchServiceFromServiceName(serviceName) {
return this.pathTemplates.servicePathTemplate.match(serviceName).service;
}
/**
* Return a fully-qualified task resource name string.
*
* @param {string} project
* @param {string} location
* @param {string} job
* @param {string} execution
* @param {string} task
* @returns {string} Resource name string.
*/
taskPath(project, location, job, execution, task) {
return this.pathTemplates.taskPathTemplate.render({
project: project,
location: location,
job: job,
execution: execution,
task: task,
});
}
/**
* Parse the project from Task resource.
*
* @param {string} taskName
* A fully-qualified path representing Task resource.
* @returns {string} A string representing the project.
*/
matchProjectFromTaskName(taskName) {
return this.pathTemplates.taskPathTemplate.match(taskName).project;
}
/**
* Parse the location from Task resource.
*
* @param {string} taskName
* A fully-qualified path representing Task resource.
* @returns {string} A string representing the location.
*/
matchLocationFromTaskName(taskName) {
return this.pathTemplates.taskPathTemplate.match(taskName).location;
}
/**
* Parse the job from Task resource.
*
* @param {string} taskName
* A fully-qualified path representing Task resource.
* @returns {string} A string representing the job.
*/
matchJobFromTaskName(taskName) {
return this.pathTemplates.taskPathTemplate.match(taskName).job;
}
/**
* Parse the execution from Task resource.
*
* @param {string} taskName
* A fully-qualified path representing Task resource.
* @returns {string} A string representing the execution.
*/
matchExecutionFromTaskName(taskName) {
return this.pathTemplates.taskPathTemplate.match(taskName).execution;
}
/**
* Parse the task from Task resource.
*
* @param {string} taskName
* A fully-qualified path representing Task resource.
* @returns {string} A string representing the task.
*/
matchTaskFromTaskName(taskName) {
return this.pathTemplates.taskPathTemplate.match(taskName).task;
}
/**
* Return a fully-qualified workerPool resource name string.
*
* @param {string} project
* @param {string} location
* @param {string} worker_pool
* @returns {string} Resource name string.
*/
workerPoolPath(project, location, workerPool) {
return this.pathTemplates.workerPoolPathTemplate.render({
project: project,
location: location,
worker_pool: workerPool,
});
}
/**
* Parse the project from WorkerPool resource.
*
* @param {string} workerPoolName
* A fully-qualified path representing WorkerPool resource.
* @returns {string} A string representing the project.
*/
matchProjectFromWorkerPoolName(workerPoolName) {
return this.pathTemplates.workerPoolPathTemplate.match(workerPoolName).project;
}
/**
* Parse the location from WorkerPool resource.
*
* @param {string} workerPoolName
* A fully-qualified path representing WorkerPool resource.
* @returns {string} A string representing the location.
*/
matchLocationFromWorkerPoolName(workerPoolName) {
return this.pathTemplates.workerPoolPathTemplate.match(workerPoolName).location;
}
/**
* Parse the worker_pool from WorkerPool resource.
*
* @param {string} workerPoolName
* A fully-qualified path representing WorkerPool resource.
* @returns {string} A string representing the worker_pool.
*/
matchWorkerPoolFromWorkerPoolName(workerPoolName) {
return this.pathTemplates.workerPoolPathTemplate.match(workerPoolName).worker_pool;
}
/**
* Terminate the gRPC channel and close the client.
*
* The client will no longer be usable and all future behavior is undefined.
* @returns {Promise} A promise that resolves when the client is closed.
*/
close() {
if (this.tasksStub && !this._terminated) {
return this.tasksStub.then(stub => {
this._log.info('ending gRPC channel');
this._terminated = true;
stub.close();
this.locationsClient.close().catch(err => { throw err; });
});
}
return Promise.resolve();
}
}
exports.TasksClient = TasksClient;
//# sourceMappingURL=tasks_client.js.map