/*
* Copyright 2012-2017 Amazon.com, Inc. or its affiliates. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance with
* the License. A copy of the License is located at
*
* http://aws.amazon.com/apache2.0
*
* or in the "license" file accompanying this file. This file 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.
*/
package com.amazonaws.services.lexruntime;
import org.w3c.dom.*;
import java.net.*;
import java.util.*;
import javax.annotation.Generated;
import org.apache.commons.logging.*;
import com.amazonaws.*;
import com.amazonaws.annotation.SdkInternalApi;
import com.amazonaws.auth.*;
import com.amazonaws.handlers.*;
import com.amazonaws.http.*;
import com.amazonaws.internal.*;
import com.amazonaws.internal.auth.*;
import com.amazonaws.metrics.*;
import com.amazonaws.regions.*;
import com.amazonaws.transform.*;
import com.amazonaws.util.*;
import com.amazonaws.protocol.json.*;
import com.amazonaws.util.AWSRequestMetrics.Field;
import com.amazonaws.annotation.ThreadSafe;
import com.amazonaws.client.AwsSyncClientParams;
import com.amazonaws.services.lexruntime.AmazonLexRuntimeClientBuilder;
import com.amazonaws.AmazonServiceException;
import com.amazonaws.services.lexruntime.model.*;
import com.amazonaws.services.lexruntime.model.transform.*;
/**
* Client for accessing Amazon Lex Runtime Service. All service calls made using this client are blocking, and will not
* return until the service call completes.
* <p>
* <p>
* Amazon Lex provides both build and runtime endpoints. Each endpoint provides a set of operations (API). Your
* conversational bot uses the runtime API to understand user utterances (user input text or voice). For example,
* suppose a user says "I want pizza", your bot sends this input to Amazon Lex using the runtime API. Amazon Lex
* recognizes that the user request is for the OrderPizza intent (one of the intents defined in the bot). Then Amazon
* Lex engages in user conversation on behalf of the bot to elicit required information (slot values, such as pizza size
* and crust type), and then performs fulfillment activity (that you configured when you created the bot). You use the
* build-time API to create and manage your Amazon Lex bot. For a list of build-time operations, see the build-time API,
* .
* </p>
*/
@ThreadSafe
@Generated("com.amazonaws:aws-java-sdk-code-generator")
public class AmazonLexRuntimeClient extends AmazonWebServiceClient implements AmazonLexRuntime {
/** Provider for AWS credentials. */
private final AWSCredentialsProvider awsCredentialsProvider;
private static final Log log = LogFactory.getLog(AmazonLexRuntime.class);
/** Default signing name for the service. */
private static final String DEFAULT_SIGNING_NAME = "lex";
/** Client configuration factory providing ClientConfigurations tailored to this client */
protected static final ClientConfigurationFactory configFactory = new ClientConfigurationFactory();
private final com.amazonaws.protocol.json.SdkJsonProtocolFactory protocolFactory = new com.amazonaws.protocol.json.SdkJsonProtocolFactory(
new JsonClientMetadata()
.withProtocolVersion("1.1")
.withSupportsCbor(false)
.withSupportsIon(false)
.withContentTypeOverride("")
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("DependencyFailedException").withModeledClass(
com.amazonaws.services.lexruntime.model.DependencyFailedException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("ConflictException").withModeledClass(
com.amazonaws.services.lexruntime.model.ConflictException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("NotFoundException").withModeledClass(
com.amazonaws.services.lexruntime.model.NotFoundException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("InternalFailureException").withModeledClass(
com.amazonaws.services.lexruntime.model.InternalFailureException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("RequestTimeoutException").withModeledClass(
com.amazonaws.services.lexruntime.model.RequestTimeoutException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("UnsupportedMediaTypeException").withModeledClass(
com.amazonaws.services.lexruntime.model.UnsupportedMediaTypeException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("NotAcceptableException").withModeledClass(
com.amazonaws.services.lexruntime.model.NotAcceptableException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("BadRequestException").withModeledClass(
com.amazonaws.services.lexruntime.model.BadRequestException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("LimitExceededException").withModeledClass(
com.amazonaws.services.lexruntime.model.LimitExceededException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("BadGatewayException").withModeledClass(
com.amazonaws.services.lexruntime.model.BadGatewayException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("LoopDetectedException").withModeledClass(
com.amazonaws.services.lexruntime.model.LoopDetectedException.class))
.withBaseServiceExceptionClass(com.amazonaws.services.lexruntime.model.AmazonLexRuntimeException.class));
public static AmazonLexRuntimeClientBuilder builder() {
return AmazonLexRuntimeClientBuilder.standard();
}
/**
* Constructs a new client to invoke service methods on Amazon Lex Runtime Service using the specified parameters.
*
* <p>
* All service calls made using this new client object are blocking, and will not return until the service call
* completes.
*
* @param clientParams
* Object providing client parameters.
*/
AmazonLexRuntimeClient(AwsSyncClientParams clientParams) {
super(clientParams);
this.awsCredentialsProvider = clientParams.getCredentialsProvider();
init();
}
private void init() {
setServiceNameIntern(DEFAULT_SIGNING_NAME);
setEndpointPrefix(ENDPOINT_PREFIX);
// calling this.setEndPoint(...) will also modify the signer accordingly
setEndpoint("runtime.lex.us-east-1.amazonaws.com");
HandlerChainFactory chainFactory = new HandlerChainFactory();
requestHandler2s.addAll(chainFactory.newRequestHandlerChain("/com/amazonaws/services/lexruntime/request.handlers"));
requestHandler2s.addAll(chainFactory.newRequestHandler2Chain("/com/amazonaws/services/lexruntime/request.handler2s"));
requestHandler2s.addAll(chainFactory.getGlobalHandlers());
}
/**
* <p>
* Sends user input (text or speech) to Amazon Lex. Clients use this API to send requests to Amazon Lex at runtime.
* Amazon Lex interprets the user input using the machine learning model that it built for the bot.
* </p>
* <p>
* In response, Amazon Lex returns the next message to convey to the user. Consider the following example messages:
* </p>
* <ul>
* <li>
* <p>
* For a user input "I would like a pizza," Amazon Lex might return a response with a message eliciting slot data
* (for example, <code>PizzaSize</code>): "What size pizza would you like?".
* </p>
* </li>
* <li>
* <p>
* After the user provides all of the pizza order information, Amazon Lex might return a response with a message to
* get user confirmation: "Order the pizza?".
* </p>
* </li>
* <li>
* <p>
* After the user replies "Yes" to the confirmation prompt, Amazon Lex might return a conclusion statement:
* "Thank you, your cheese pizza has been ordered.".
* </p>
* </li>
* </ul>
* <p>
* Not all Amazon Lex messages require a response from the user. For example, conclusion statements do not require a
* response. Some messages require only a yes or no response. In addition to the <code>message</code>, Amazon Lex
* provides additional context about the message in the response that you can use to enhance client behavior, such
* as displaying the appropriate client user interface. Consider the following examples:
* </p>
* <ul>
* <li>
* <p>
* If the message is to elicit slot data, Amazon Lex returns the following context information:
* </p>
* <ul>
* <li>
* <p>
* <code>x-amz-lex-dialog-state</code> header set to <code>ElicitSlot</code>
* </p>
* </li>
* <li>
* <p>
* <code>x-amz-lex-intent-name</code> header set to the intent name in the current context
* </p>
* </li>
* <li>
* <p>
* <code>x-amz-lex-slot-to-elicit</code> header set to the slot name for which the <code>message</code> is eliciting
* information
* </p>
* </li>
* <li>
* <p>
* <code>x-amz-lex-slots</code> header set to a map of slots configured for the intent with their current values
* </p>
* </li>
* </ul>
* </li>
* <li>
* <p>
* If the message is a confirmation prompt, the <code>x-amz-lex-dialog-state</code> header is set to
* <code>Confirmation</code> and the <code>x-amz-lex-slot-to-elicit</code> header is omitted.
* </p>
* </li>
* <li>
* <p>
* If the message is a clarification prompt configured for the intent, indicating that the user intent is not
* understood, the <code>x-amz-dialog-state</code> header is set to <code>ElicitIntent</code> and the
* <code>x-amz-slot-to-elicit</code> header is omitted.
* </p>
* </li>
* </ul>
* <p>
* In addition, Amazon Lex also returns your application-specific <code>sessionAttributes</code>. For more
* information, see <a href="http://docs.aws.amazon.com/lex/latest/dg/context-mgmt.html">Managing Conversation
* Context</a>.
* </p>
*
* @param postContentRequest
* @return Result of the PostContent operation returned by the service.
* @throws NotFoundException
* The resource (such as the Amazon Lex bot or an alias) that is referred to is not found.
* @throws BadRequestException
* Request validation failed, there is no usable message in the context, or the bot build failed.
* @throws LimitExceededException
* Exceeded a limit.
* @throws InternalFailureException
* Internal service error. Retry the call.
* @throws ConflictException
* Two clients are using the same AWS account, Amazon Lex bot, and user ID.
* @throws UnsupportedMediaTypeException
* The Content-Type header (<code>PostContent</code> API) has an invalid value.
* @throws NotAcceptableException
* The accept header in the request does not have a valid value.
* @throws RequestTimeoutException
* The input speech is too long.
* @throws DependencyFailedException
* One of the downstream dependencies, such as AWS Lambda or Amazon Polly, threw an exception. For example,
* if Amazon Lex does not have sufficient permissions to call a Lambda function, it results in Lambda
* throwing an exception.
* @throws BadGatewayException
* Either the Amazon Lex bot is still building, or one of the dependent services (Amazon Polly, AWS Lambda)
* failed with an internal service error.
* @throws LoopDetectedException
* Lambda fulfilment function returned <code>DelegateDialogAction</code> to Amazon Lex without changing any
* slot values.
* @sample AmazonLexRuntime.PostContent
* @see <a href="http://docs.aws.amazon.com/goto/WebAPI/runtime.lex-2016-11-28/PostContent" target="_top">AWS API
* Documentation</a>
*/
@Override
public PostContentResult postContent(PostContentRequest request) {
request = beforeClientExecution(request);
return executePostContent(request);
}
@SdkInternalApi
final PostContentResult executePostContent(PostContentRequest postContentRequest) {
ExecutionContext executionContext = createExecutionContext(postContentRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request<PostContentRequest> request = null;
Response<PostContentResult> response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new PostContentRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(postContentRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler<AmazonWebServiceResponse<PostContentResult>> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(false).withHasStreamingSuccessResponse(true), new PostContentResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
* <p>
* Sends user input (text-only) to Amazon Lex. Client applications can use this API to send requests to Amazon Lex
* at runtime. Amazon Lex then interprets the user input using the machine learning model it built for the bot.
* </p>
* <p>
* In response, Amazon Lex returns the next <code>message</code> to convey to the user an optional
* <code>responseCard</code> to display. Consider the following example messages:
* </p>
* <ul>
* <li>
* <p>
* For a user input "I would like a pizza", Amazon Lex might return a response with a message eliciting slot data
* (for example, PizzaSize): "What size pizza would you like?"
* </p>
* </li>
* <li>
* <p>
* After the user provides all of the pizza order information, Amazon Lex might return a response with a message to
* obtain user confirmation "Proceed with the pizza order?".
* </p>
* </li>
* <li>
* <p>
* After the user replies to a confirmation prompt with a "yes", Amazon Lex might return a conclusion statement:
* "Thank you, your cheese pizza has been ordered.".
* </p>
* </li>
* </ul>
* <p>
* Not all Amazon Lex messages require a user response. For example, a conclusion statement does not require a
* response. Some messages require only a "yes" or "no" user response. In addition to the <code>message</code>,
* Amazon Lex provides additional context about the message in the response that you might use to enhance client
* behavior, for example, to display the appropriate client user interface. These are the <code>slotToElicit</code>,
* <code>dialogState</code>, <code>intentName</code>, and <code>slots</code> fields in the response. Consider the
* following examples:
* </p>
* <ul>
* <li>
* <p>
* If the message is to elicit slot data, Amazon Lex returns the following context information:
* </p>
* <ul>
* <li>
* <p>
* <code>dialogState</code> set to ElicitSlot
* </p>
* </li>
* <li>
* <p>
* <code>intentName</code> set to the intent name in the current context
* </p>
* </li>
* <li>
* <p>
* <code>slotToElicit</code> set to the slot name for which the <code>message</code> is eliciting information
* </p>
* </li>
* <li>
* <p>
* <code>slots</code> set to a map of slots, configured for the intent, with currently known values
* </p>
* </li>
* </ul>
* </li>
* <li>
* <p>
* If the message is a confirmation prompt, the <code>dialogState</code> is set to ConfirmIntent and
* <code>SlotToElicit</code> is set to null.
* </p>
* </li>
* <li>
* <p>
* If the message is a clarification prompt (configured for the intent) that indicates that user intent is not
* understood, the <code>dialogState</code> is set to ElicitIntent and <code>slotToElicit</code> is set to null.
* </p>
* </li>
* </ul>
* <p>
* In addition, Amazon Lex also returns your application-specific <code>sessionAttributes</code>. For more
* information, see <a href="http://docs.aws.amazon.com/lex/latest/dg/context-mgmt.html">Managing Conversation
* Context</a>.
* </p>
*
* @param postTextRequest
* @return Result of the PostText operation returned by the service.
* @throws NotFoundException
* The resource (such as the Amazon Lex bot or an alias) that is referred to is not found.
* @throws BadRequestException
* Request validation failed, there is no usable message in the context, or the bot build failed.
* @throws LimitExceededException
* Exceeded a limit.
* @throws InternalFailureException
* Internal service error. Retry the call.
* @throws ConflictException
* Two clients are using the same AWS account, Amazon Lex bot, and user ID.
* @throws DependencyFailedException
* One of the downstream dependencies, such as AWS Lambda or Amazon Polly, threw an exception. For example,
* if Amazon Lex does not have sufficient permissions to call a Lambda function, it results in Lambda
* throwing an exception.
* @throws BadGatewayException
* Either the Amazon Lex bot is still building, or one of the dependent services (Amazon Polly, AWS Lambda)
* failed with an internal service error.
* @throws LoopDetectedException
* Lambda fulfilment function returned <code>DelegateDialogAction</code> to Amazon Lex without changing any
* slot values.
* @sample AmazonLexRuntime.PostText
* @see <a href="http://docs.aws.amazon.com/goto/WebAPI/runtime.lex-2016-11-28/PostText" target="_top">AWS API
* Documentation</a>
*/
@Override
public PostTextResult postText(PostTextRequest request) {
request = beforeClientExecution(request);
return executePostText(request);
}
@SdkInternalApi
final PostTextResult executePostText(PostTextRequest postTextRequest) {
ExecutionContext executionContext = createExecutionContext(postTextRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request<PostTextRequest> request = null;
Response<PostTextResult> response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new PostTextRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(postTextRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler<AmazonWebServiceResponse<PostTextResult>> responseHandler = protocolFactory.createResponseHandler(new JsonOperationMetadata()
.withPayloadJson(true).withHasStreamingSuccessResponse(false), new PostTextResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
* Returns additional metadata for a previously executed successful, request, typically used for debugging issues
* where a service isn't acting as expected. This data isn't considered part of the result data returned by an
* operation, so it's available through this separate, diagnostic interface.
* <p>
* Response metadata is only cached for a limited period of time, so if you need to access this extra diagnostic
* information for an executed request, you should use this method to retrieve it as soon as possible after
* executing the request.
*
* @param request
* The originally executed request
*
* @return The response metadata for the specified request, or null if none is available.
*/
public ResponseMetadata getCachedResponseMetadata(AmazonWebServiceRequest request) {
return client.getResponseMetadataForRequest(request);
}
/**
* Normal invoke with authentication. Credentials are required and may be overriden at the request level.
**/
private <X, Y extends AmazonWebServiceRequest> Response<X> invoke(Request<Y> request, HttpResponseHandler<AmazonWebServiceResponse<X>> responseHandler,
ExecutionContext executionContext) {
executionContext.setCredentialsProvider(CredentialUtils.getCredentialsProvider(request.getOriginalRequest(), awsCredentialsProvider));
return doInvoke(request, responseHandler, executionContext);
}
/**
* Invoke with no authentication. Credentials are not required and any credentials set on the client or request will
* be ignored for this operation.
**/
private <X, Y extends AmazonWebServiceRequest> Response<X> anonymousInvoke(Request<Y> request,
HttpResponseHandler<AmazonWebServiceResponse<X>> responseHandler, ExecutionContext executionContext) {
return doInvoke(request, responseHandler, executionContext);
}
/**
* Invoke the request using the http client. Assumes credentials (or lack thereof) have been configured in the
* ExecutionContext beforehand.
**/
private <X, Y extends AmazonWebServiceRequest> Response<X> doInvoke(Request<Y> request, HttpResponseHandler<AmazonWebServiceResponse<X>> responseHandler,
ExecutionContext executionContext) {
request.setEndpoint(endpoint);
request.setTimeOffset(timeOffset);
HttpResponseHandler<AmazonServiceException> errorResponseHandler = protocolFactory.createErrorResponseHandler(new JsonErrorResponseMetadata());
return client.execute(request, responseHandler, errorResponseHandler, executionContext);
}
}