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com.google.api.grpc:proto-google-cloud-recaptchaenterprise-v1beta1

PROTO library for proto-google-cloud-recaptchaenterprise-v1beta1

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Google Cloud Java Client Libraries

Java idiomatic client for Google Cloud Platform services.

Supported APIs

Libraries are available on GitHub and Maven Central for developing Java applications that interact with individual Google Cloud services:

ClientRelease LevelVersion
AI Platform NotebooksstableMaven
API GatewaystableMaven
API Keys APIstableMaven
Access ApprovalstableMaven
Advisory Notifications APIstableMaven
AlloyDBstableMaven
AlloyDB connectorsstableMaven
Analytics Hub APIstableMaven
Apigee ConnectstableMaven
App Engine Admin APIstableMaven
Artifact RegistrystableMaven
Asset InventorystableMaven
Assured Workloads for GovernmentstableMaven
Auto MLstableMaven
Backup and DR Service APIstableMaven
BigQuerystableMaven
BigQuery ConnectionstableMaven
BigQuery Data Transfer ServicestableMaven
BigQuery ReservationstableMaven
BigQuery StoragestableMaven
BigtablestableMaven
Bigtable Hbase ClientstableMaven
BillingstableMaven
Billing BudgetsstableMaven
Binary AuthorizationstableMaven
BuildstableMaven
CCAI InsightsstableMaven
Certificate Authority ServicestableMaven
Channel ServicesstableMaven
ComposerstableMaven
Compute EnginestableMaven
Connect Gateway APIstableMaven
Container AnalysisstableMaven
Controls Partner APIstableMaven
DNSstableMaven
Data CatalogstableMaven
Data FusionstableMaven
Data LineagestableMaven
Data Loss PreventionstableMaven
Database Migration ServicestableMaven
DataplexstableMaven
DataprocstableMaven
Dataproc MetastorestableMaven
DatastorestableMaven
DatastreamstableMaven
DebuggerstableMaven
DeploystableMaven
Dialogflow APIstableMaven
Discovery Engine APIstableMaven
Distributed EdgestableMaven
Distributed Edge Network APIstableMaven
Document AIstableMaven
DomainsstableMaven
Essential Contacts APIstableMaven
EventarcstableMaven
Filestore APIstableMaven
FirestorestableMaven
Fleet RoutingstableMaven
FunctionsstableMaven
GKE Hub APIstableMaven
IAMstableMaven
IAM Admin APIstableMaven
IAM Policy Troubleshooter APIstableMaven
IAM Service Account Credentials APIstableMaven
Identity Access Context ManagerstableMaven
Identity-Aware Proxy APIstableMaven
Infrastructure Manager APIstableMaven
Internet of Things (IoT) CorestableMaven
Intrusion Detection SystemstableMaven
Key Management ServicestableMaven
Kubernetes EnginestableMaven
LoggingstableMaven
Managed Service for Microsoft Active DirectorystableMaven
MemcachestableMaven
Monitoring DashboardsstableMaven
Natural LanguagestableMaven
Network Connectivity CenterstableMaven
Network Management APIstableMaven
Network Security APIstableMaven
OS Config APIstableMaven
OS LoginstableMaven
Organization PolicystableMaven
ProfilerstableMaven
Pub/SubstableMaven
Pub/Sub Group Kafka ConnectorstableMaven
Pub/Sub LitestableMaven
Pub/Sub Lite Kafka ShimstableMaven
Pub/Sub Lite Spark ConnectorstableMaven
Public Certificate Authority APIstableMaven
Quotas APIstableMaven
RecommenderstableMaven
RedisstableMaven
Resource Manager APIstableMaven
Resource Settings APIstableMaven
RetailstableMaven
Routes APIstableMaven
SchedulerstableMaven
Secret ManagementstableMaven
Secure Source Manager APIstableMaven
Security Center Management APIstableMaven
Security Command CenterstableMaven
Security Posture APIstableMaven
Security ScannerstableMaven
Serverless VPC AccessstableMaven
Service Control APIstableMaven
Service DirectorystableMaven
Service Management APIstableMaven
Service UsagestableMaven
ShellstableMaven
SpannerstableMaven
Spanner JDBCstableMaven
SpeechstableMaven
Stackdriver MonitoringstableMaven
Stackdriver TracestableMaven
StoragestableMaven
Storage Transfer ServicestableMaven
TPUstableMaven
Talent SolutionstableMaven
TasksstableMaven
Telco Automation APIstableMaven
Text-to-SpeechstableMaven
TranslationstableMaven
VM MigrationstableMaven
Vertex AIstableMaven
VertexAI APIstableMaven
Video IntelligencestableMaven
Video Stitcher APIstableMaven
Video TranscoderstableMaven
VisionstableMaven
Web RiskstableMaven
Workflow ExecutionsstableMaven
WorkflowsstableMaven
Workspace Add-ons APIstableMaven
WorkstationsstableMaven
reCAPTCHA EnterprisestableMaven
API hub APIpreviewMaven
Ad Manager APIpreviewMaven
Address Validation APIpreviewMaven
Analytics AdminpreviewMaven
Analytics DatapreviewMaven
Analytics HubpreviewMaven
Anthos MulticloudpreviewMaven
Managed Service for Apache Kafka APIpreviewMaven
App Hub APIpreviewMaven
Area 120 TablespreviewMaven
Backup for GKEpreviewMaven
Bare Metal SolutionpreviewMaven
BatchpreviewMaven
BeyondCorp AppConnectionspreviewMaven
BeyondCorp AppConnectorspreviewMaven
BeyondCorp AppGatewayspreviewMaven
BeyondCorp ClientConnectorServicespreviewMaven
BeyondCorp ClientGatewayspreviewMaven
BigLakepreviewMaven
BigQuery DataPolicy APIpreviewMaven
BigQuery MigrationpreviewMaven
CSS APIpreviewMaven
Certificate ManagerpreviewMaven
Chat APIpreviewMaven
Commerce Consumer ProcurementpreviewMaven
Confidential Computing APIpreviewMaven
Connect Gateway APIpreviewMaven
Data LabelingpreviewMaven
DataflowpreviewMaven
DataformpreviewMaven
Developer Connect APIpreviewMaven
Dialogflow CXpreviewMaven
Document AI WarehousepreviewMaven
Enterprise Knowledge GraphpreviewMaven
Error ReportingpreviewMaven
Eventarc PublishingpreviewMaven
GDC Hardware Management APIpreviewMaven
KMS Inventory APIpreviewMaven
Life SciencespreviewMaven
Live Stream APIpreviewMaven
Logging Logback AppenderpreviewMaven
Logging Servlet InitializerpreviewMaven
Maps Platform Datasets APIpreviewMaven
Marketing Platform Admin APIpreviewMaven
Media Translation APIpreviewMaven
Meet APIpreviewMaven
Memorystore for Redis APIpreviewMaven
Merchant APIpreviewMaven
Merchant APIpreviewMaven
Merchant APIpreviewMaven
Merchant APIpreviewMaven
Merchant APIpreviewMaven
Merchant APIpreviewMaven
Merchant Conversions APIpreviewMaven
Merchant LFP APIpreviewMaven
Merchant Notifications APIpreviewMaven
Merchant Quota APIpreviewMaven
Migration Center APIpreviewMaven
Monitoring Metrics ScopespreviewMaven
NIO Filesystem Provider for StoragepreviewMaven
NetApp APIpreviewMaven
Network Services APIpreviewMaven
Oracle Database@APIpreviewMaven
Parallelstore APIpreviewMaven
Phishing ProtectionpreviewMaven
Places API (New)previewMaven
Places Insights APIpreviewMaven
Policy Simulator APIpreviewMaven
Private CatalogpreviewMaven
Privileged Access Manager APIpreviewMaven
Pub/Sub Lite Flink ConnectorpreviewMaven
Rapid Migration Assessment APIpreviewMaven
Recommendations AIpreviewMaven
Registry APIpreviewMaven
Route Optimization APIpreviewMaven
RunpreviewMaven
Security Command Center Settings APIpreviewMaven
Service Health APIpreviewMaven
Solar APIpreviewMaven
Storage Insights APIpreviewMaven
Support APIpreviewMaven
VMware EnginepreviewMaven
Vision AI APIpreviewMaven
Workspace Events APIpreviewMaven

If the service is not listed, google-api-java-client interfaces with additional Google Cloud APIs using a legacy REST interface.

When building Java applications, preference should be given to the libraries listed in the table.

Specifying a Project ID

Most google-cloud libraries require a project ID. There are multiple ways to specify this project ID.

  1. When using google-cloud libraries from within Compute/App Engine, there's no need to specify a project ID. It is automatically inferred from the production environment.
  2. When using google-cloud elsewhere, you can do one of the following:
  • Supply the project ID when building the service options. For example, to use Datastore from a project with ID "PROJECT_ID", you can write:

    Datastore datastore = DatastoreOptions.newBuilder().setProjectId("PROJECT_ID").build().getService();
    
  • Specify the environment variable GOOGLE_CLOUD_PROJECT to be your desired project ID.

  • Set the project ID using the Google Cloud SDK. To use the SDK, download the SDK if you haven't already, and set the project ID from the command line. For example:

    gcloud config set project PROJECT_ID
    

google-cloud determines the project ID from the following sources in the listed order, stopping once it finds a value:

  1. The project ID supplied when building the service options
  2. Project ID specified by the environment variable GOOGLE_CLOUD_PROJECT
  3. The App Engine / Compute Engine project ID
  4. The project ID specified in the JSON credentials file pointed by the GOOGLE_APPLICATION_CREDENTIALS environment variable
  5. The Google Cloud SDK project ID

In cases where the library may expect a project ID explicitly, we provide a helper that can provide the inferred project ID:

  import com.google.cloud.ServiceOptions;
  ...
  String projectId = ServiceOptions.getDefaultProjectId();

Authentication

google-cloud-java uses https://github.com/googleapis/google-auth-library-java to authenticate requests. google-auth-library-java supports a wide range of authentication types; see the project's README and javadoc for more details.

Google Cloud Platform environment

When using Google Cloud libraries from a Google Cloud Platform environment such as Compute Engine, Kubernetes Engine, or App Engine, no additional authentication steps are necessary.

For example:

Storage storage = StorageOptions.getDefaultInstance().getService();

or:

CloudTasksClient cloudTasksClient = CloudTasksClient.create();

Other environments

  1. Generate a JSON service account key.

  2. After downloading that key, you must do one of the following:

    • Define the environment variable GOOGLE_APPLICATION_CREDENTIALS to be the location of the key. For example:
    export GOOGLE_APPLICATION_CREDENTIALS=/path/to/my/key.json
    
    • Supply the JSON credentials file when building the service options. For example, this Storage object has the necessary permissions to interact with your Google Cloud Storage data:
    Storage storage = StorageOptions.newBuilder()
        .setCredentials(ServiceAccountCredentials.fromStream(new FileInputStream("/path/to/my/key.json")))
        .build()
        .getService();
    
Local development/testing

If running locally for development/testing, you can use the Google Cloud SDK. Create Application Default Credentials with gcloud auth application-default login, and then google-cloud will automatically detect such credentials.

Existing OAuth2 access token

If you already have an OAuth2 access token, you can use it to authenticate (notice that in this case, the access token will not be automatically refreshed):

Credentials credentials = GoogleCredentials.create(new AccessToken(accessToken, expirationTime));
Storage storage = StorageOptions.newBuilder()
    .setCredentials(credentials)
    .build()
    .getService();

or:

Credentials credentials = GoogleCredentials.create(new AccessToken(accessToken, expirationTime));
CloudTasksSettings cloudTasksSettings = CloudTasksSettings.newBuilder()
    .setCredentialProvider(FixedCredentialsProvider.create(credentials))
    .build();
CloudTasksClient cloudTasksClient = CloudTasksClient.create(cloudTasksSettings);

Application Default Credentials

If no credentials are provided, google-cloud will attempt to detect them from the environment using GoogleCredentials.getApplicationDefault() which will search for Application Default Credentials in the following locations (in order):

  1. The credentials file pointed to by the GOOGLE_APPLICATION_CREDENTIALS environment variable
  2. Credentials provided by the Google Cloud SDK gcloud auth application-default login command
  3. Google App Engine built-in credentials
  4. Google Cloud Shell built-in credentials
  5. Google Compute Engine built-in credentials

Authenticating with an API Key

Authenticating with API Keys is supported by a handful of Google Cloud APIs.

We are actively exploring ways to improve the API Key experience. Currently, to use an API Key with a Java client library, you need to set the header for the relevant service Client manually.

For example, to set the API Key with the Language service:

public LanguageServiceClient createGrpcClientWithApiKey(String apiKey) throws Exception {
    // Manually set the api key via the header
    Map<String, String> header = new HashMap<String, String>() { {put("x-goog-api-key", apiKey);}};
    FixedHeaderProvider headerProvider = FixedHeaderProvider.create(header);

    // Create the client
    TransportChannelProvider transportChannelProvider = InstantiatingGrpcChannelProvider.newBuilder().setHeaderProvider(headerProvider).build();
    LanguageServiceSettings settings = LanguageServiceSettings.newBuilder().setTransportChannelProvider(transportChannelProvider).build();
    LanguageServiceClient client = LanguageServiceClient.create(settings);
    return client;
  }

An example instantiation with the Language Client using rest:

 public LanguageServiceClient createRestClientWithApiKey(String apiKey) throws Exception {
    // Manually set the api key header
    Map<String, String> header = new HashMap<String, String>() { {put("x-goog-api-key", apiKey);}};
    FixedHeaderProvider headerProvider = FixedHeaderProvider.create(header);

    // Create the client
    TransportChannelProvider transportChannelProvider = InstantiatingHttpJsonChannelProvider.newBuilder().setHeaderProvider(headerProvider).build();
    LanguageServiceSettings settings = LanguageServiceSettings.newBuilder().setTransportChannelProvider(transportChannelProvider).build();
    LanguageServiceClient client = LanguageServiceClient.create(settings);
    return client;
  }

Troubleshooting

To get help, follow the instructions in the Troubleshooting document.

Configuring a Proxy

Google Cloud client libraries use HTTPS and gRPC in underlying communication with the services. In both protocols, you can configure a proxy using https.proxyHost and (optional) https.proxyPort properties.

gRPC Custom Proxy Configuration

For a more custom proxy with gRPC, you will need supply a ProxyDetector to the ManagedChannelBuilder:

import com.google.api.core.ApiFunction;
import com.google.api.gax.rpc.TransportChannelProvider;
import com.google.cloud.tasks.v2.CloudTasksClient;
import com.google.cloud.tasks.v2.CloudTasksSettings;
import com.google.cloud.tasks.v2.stub.CloudTasksStubSettings;
import io.grpc.HttpConnectProxiedSocketAddress;
import io.grpc.ManagedChannelBuilder;
import io.grpc.ProxiedSocketAddress;
import io.grpc.ProxyDetector;

import javax.annotation.Nullable;
import java.io.IOException;
import java.net.InetSocketAddress;
import java.net.SocketAddress;

public CloudTasksClient getService() throws IOException {
  TransportChannelProvider transportChannelProvider =
      CloudTasksStubSettings.defaultGrpcTransportProviderBuilder()
          .setChannelConfigurator(
              new ApiFunction<ManagedChannelBuilder, ManagedChannelBuilder>() {
                @Override
                public ManagedChannelBuilder apply(ManagedChannelBuilder managedChannelBuilder) {
                  return managedChannelBuilder.proxyDetector(
                      new ProxyDetector() {
                        @Nullable
                        @Override
                        public ProxiedSocketAddress proxyFor(SocketAddress socketAddress)
                            throws IOException {
                          return HttpConnectProxiedSocketAddress.newBuilder()
                              .setUsername(PROXY_USERNAME)
                              .setPassword(PROXY_PASSWORD)
                              .setProxyAddress(new InetSocketAddress(PROXY_HOST, PROXY_PORT))
                              .setTargetAddress((InetSocketAddress) socketAddress)
                              .build();
                        }
                      });
                }
              })
          .build();
  CloudTasksSettings cloudTasksSettings =
      CloudTasksSettings.newBuilder()
          .setTransportChannelProvider(transportChannelProvider)
          .build();
  return CloudTasksClient.create(cloudTasksSettings);
}

Long Running Operations

Long running operations (LROs) are often used for API calls that are expected to take a long time to complete (i.e. provisioning a GCE instance or a Dataflow pipeline). The initial API call creates an "operation" on the server and returns an Operation ID to track its progress. LRO RPCs have the suffix Async appended to the call name (i.e. clusterControllerClient.createClusterAsync())

Our generated clients provide a nice interface for starting the operation and then waiting for the operation to complete. This is accomplished by returning an OperationFuture. When calling get() on the OperationFuture, the client library will poll the operation to check the operation's status.

For example, take a sample createCluster Operation in google-cloud-dataproc v4.20.0:

try (ClusterControllerClient clusterControllerClient = ClusterControllerClient.create()) {
  CreateClusterRequest request =
      CreateClusterRequest.newBuilder()
          .setProjectId("{PROJECT_ID}")
          .setRegion("{REGION}")
          .setCluster(Cluster.newBuilder().build())
          .setRequestId("{REQUEST_ID}")
          .setActionOnFailedPrimaryWorkers(FailureAction.forNumber(0))
          .build();
  OperationFuture<Cluster, ClusterOperationMetadata> future =
      clusterControllerClient.createClusterOperationCallable().futureCall(request);
  // Do something.
  Cluster response = future.get();
} catch (CancellationException e) {
  // Exceeded the default RPC timeout without the Operation completing.
  // Library is no longer polling for the Operation status. Consider 
  // increasing the timeout.
}

LRO Timeouts

The polling operations have a default timeout that varies from service to service. The library will throw a java.util.concurrent.CancellationException with the message: Task was cancelled. if the timeout exceeds the operation. A CancellationException does not mean that the backend GCP Operation was cancelled. This exception is thrown from the client library when it has exceeded the total timeout without receiving a successful status from the operation. Our client libraries respect the configured values set in the OperationTimedPollAlgorithm for each RPC.

Note: The client library handles the Operation's polling mechanism for you. By default, there is no need to manually poll the status yourself.

Default LRO Values

Each LRO RPC has a set of pre-configured default values. You can find these values by searching in each Client's StubSettings's class. The default LRO settings are initialized inside the initDefaults() method in the nested Builder class.

For example, in google-cloud-aiplatform v3.24.0, the default OperationTimedPollAlgorithm has these default values:

OperationTimedPollAlgorithm.create(
    RetrySettings.newBuilder()
        .setInitialRetryDelay(Duration.ofMillis(5000L))
        .setRetryDelayMultiplier(1.5)
        .setMaxRetryDelay(Duration.ofMillis(45000L))
        .setInitialRpcTimeout(Duration.ZERO)
        .setRpcTimeoutMultiplier(1.0)
        .setMaxRpcTimeout(Duration.ZERO)
        .setTotalTimeout(Duration.ofMillis(300000L))
        .build())

Both retries and LROs share the same RetrySettings class. Note the corresponding link:

  • Total Timeout (Max Time allowed for polling): 5 minutes
  • Initial Retry Delay (Initial delay before first poll): 5 seconds
  • Max Retry Delay (Maximum delay between each poll): 45 seconds
  • Retry Delay Multiplier (Multiplier value to increase the poll delay): 1.5

The RPC Timeout values have no use in LROs and can be omitted or set to the default values (Duration.ZERO for Timeouts or 1.0 for the multiplier).

Configuring LRO Timeouts

To configure the LRO values, create an OperationTimedPollAlgorithm object and update the RPC's polling algorithm. For example:

ClusterControllerSettings.Builder settingsBuilder = ClusterControllerSettings.newBuilder();
TimedRetryAlgorithm timedRetryAlgorithm = OperationTimedPollAlgorithm.create(
		RetrySettings.newBuilder()
				.setInitialRetryDelay(Duration.ofMillis(500L))
				.setRetryDelayMultiplier(1.5)
				.setMaxRetryDelay(Duration.ofMillis(5000L))
				.setInitialRpcTimeout(Duration.ZERO) // ignored
				.setRpcTimeoutMultiplier(1.0) // ignored
				.setMaxRpcTimeout(Duration.ZERO) // ignored
				.setTotalTimeout(Duration.ofHours(24L))	// set polling timeout to 24 hours
				.build());
settingsBuilder.createClusterOperationSettings()
		.setPollingAlgorithm(timedRetryAlgorithm);
ClusterControllerClient clusterControllerClient = ClusterControllerClient.create(settingsBuilder.build());

Note: The configuration above only modifies the LRO values for the createClusterOperation RPC. The other RPCs in the Client will still use each RPC's pre-configured LRO values.

Managing Dependencies

If you are using more than one Google Cloud client library, we recommend you use one of our Bill of Material (BOM) artifacts to help manage dependency versions. For more information, see Using the Cloud Client Libraries.

Java Versions

Java 8 or above is required for using the clients in this repository.

Supported Platforms

Clients in this repository use either HTTP or gRPC for the transport layer. All HTTP-based clients should work in all environments.

For clients that use gRPC, the supported platforms are constrained by the platforms that Forked Tomcat Native supports, which for architectures means only x86_64, and for operating systems means Mac OS X, Windows, and Linux. Additionally, gRPC constrains the use of platforms with threading restrictions.

Thus, the following are not supported:

  • Android
    • Consider Firebase, which includes many of these APIs.
    • It is possible to use these libraries in many cases, although it is unsupported. You can find examples, such as this one, in this example repository but consider the risks carefully before using these libraries in an application.
  • Raspberry Pi (since it runs on the ARM architecture)
  • Google App Engine Standard Java 7

The following environments should work (among others):

  • standalone Windows on x86_64
  • standalone Mac OS X on x86_64
  • standalone Linux on x86_64
  • Google Compute Engine (GCE)
  • Google Container Engine (GKE)
  • Google App Engine Standard Java 8 (GAE Std J8)
  • Google App Engine Flex (GAE Flex)
  • Alpine Linux (Java 11+)

Testing

This library provides tools to help write tests for code that uses google-cloud services.

See TESTING to read more about using our testing helpers.

Versioning

This library follows Semantic Versioning, with some additional qualifications:

  1. Components marked with @BetaApi or @Experimental are considered to be "0.x" features inside a "1.x" library. This means they can change between minor and patch releases in incompatible ways. These features should not be used by any library "B" that itself has consumers, unless the components of library B that use @BetaApi features are also marked with @BetaApi. Features marked as @BetaApi are on a path to eventually become "1.x" features with the marker removed.

    Special exception for google-cloud-java: google-cloud-java is allowed to depend on @BetaApi features in gax-java without declaring the consuming code @BetaApi, because gax-java and google-cloud-java move in step with each other. For this reason, gax-java should not be used independently of google-cloud-java.

  2. Components marked with @InternalApi are technically public, but only because of the limitations of Java's access modifiers. For the purposes of semver, they should be considered private.

  3. Interfaces marked with @InternalExtensionOnly are public, but should only be implemented by internal classes. For the purposes of semver, we reserve the right to add to these interfaces without default implementations (for Java 7).

Please note these clients are currently under active development. Any release versioned 0.x.y is subject to backwards incompatible changes at any time.

Stable

Libraries defined at a Stable quality level are expected to be stable and all updates in the libraries are guaranteed to be backwards-compatible. Any backwards-incompatible changes will lead to the major version increment (1.x.y -> 2.0.0).

Preview

Libraries defined at a Preview quality level are still a work-in-progress and are more likely to get backwards-incompatible updates. Additionally, it's possible for Preview libraries to get deprecated and deleted before ever being promoted to Preview or Stable.

IDE Plugins

If you're using IntelliJ or Eclipse, you can add client libraries to your project using these IDE plugins:

Besides adding client libraries, the plugins provide additional functionality, such as service account key management. Refer to the documentation for each plugin for more details.

These client libraries can be used on App Engine standard for Java 8 runtime and App Engine flexible (including the Compat runtime). Most of the libraries do not work on the App Engine standard for Java 7 runtime. However, Datastore, Storage, and Bigquery should work.

Contributing

Contributions to this library are always welcome and highly encouraged.

See google-cloud's CONTRIBUTING documentation and the shared documentation for more information on how to get started.

Please note that this project is released with a Contributor Code of Conduct. By participating in this project you agree to abide by its terms. See Code of Conduct for more information.

License

Apache 2.0 - See LICENSE for more information.

FAQs

Package last updated on 09 Oct 2024

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