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/*
* 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.dynamodbv2;
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.dynamodbv2.AmazonDynamoDBClientBuilder;
import com.amazonaws.services.dynamodbv2.waiters.AmazonDynamoDBWaiters;
import com.amazonaws.AmazonServiceException;
import com.amazonaws.services.dynamodbv2.model.*;
import com.amazonaws.services.dynamodbv2.model.transform.*;
/**
* Client for accessing DynamoDB. All service calls made using this client are blocking, and will not return until the
* service call completes.
*
* Amazon DynamoDB
*
* Amazon DynamoDB is a fully managed NoSQL database service that provides fast and predictable performance with
* seamless scalability. DynamoDB lets you offload the administrative burdens of operating and scaling a distributed
* database, so that you don't have to worry about hardware provisioning, setup and configuration, replication, software
* patching, or cluster scaling.
*
*
* With DynamoDB, you can create database tables that can store and retrieve any amount of data, and serve any level of
* request traffic. You can scale up or scale down your tables' throughput capacity without downtime or performance
* degradation, and use the AWS Management Console to monitor resource utilization and performance metrics.
*
*
* DynamoDB automatically spreads the data and traffic for your tables over a sufficient number of servers to handle
* your throughput and storage requirements, while maintaining consistent and fast performance. All of your data is
* stored on solid state disks (SSDs) and automatically replicated across multiple Availability Zones in an AWS region,
* providing built-in high availability and data durability.
*
*/
@ThreadSafe
@Generated("com.amazonaws:aws-java-sdk-code-generator")
public class AmazonDynamoDBClient extends AmazonWebServiceClient implements AmazonDynamoDB {
// register the service specific set of predefined metrics
static {
AwsSdkMetrics.addAll(Arrays.asList(com.amazonaws.services.dynamodbv2.metrics.DynamoDBRequestMetric.values()));
}
/** Provider for AWS credentials. */
private final AWSCredentialsProvider awsCredentialsProvider;
private static final Log log = LogFactory.getLog(AmazonDynamoDB.class);
/** Default signing name for the service. */
private static final String DEFAULT_SIGNING_NAME = "dynamodb";
private volatile AmazonDynamoDBWaiters waiters;
/** Client configuration factory providing ClientConfigurations tailored to this client */
protected static final com.amazonaws.services.dynamodbv2.AmazonDynamoDBClientConfigurationFactory configFactory = new com.amazonaws.services.dynamodbv2.AmazonDynamoDBClientConfigurationFactory();
private static final com.amazonaws.protocol.json.SdkJsonProtocolFactory protocolFactory = new com.amazonaws.protocol.json.SdkJsonProtocolFactory(
new JsonClientMetadata()
.withProtocolVersion("1.0")
.withSupportsCbor(false)
.withSupportsIon(false)
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("ItemCollectionSizeLimitExceededException").withModeledClass(
com.amazonaws.services.dynamodbv2.model.ItemCollectionSizeLimitExceededException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("ResourceInUseException").withModeledClass(
com.amazonaws.services.dynamodbv2.model.ResourceInUseException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("ResourceNotFoundException").withModeledClass(
com.amazonaws.services.dynamodbv2.model.ResourceNotFoundException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("ProvisionedThroughputExceededException").withModeledClass(
com.amazonaws.services.dynamodbv2.model.ProvisionedThroughputExceededException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("ConditionalCheckFailedException").withModeledClass(
com.amazonaws.services.dynamodbv2.model.ConditionalCheckFailedException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("InternalServerError").withModeledClass(
com.amazonaws.services.dynamodbv2.model.InternalServerErrorException.class))
.addErrorMetadata(
new JsonErrorShapeMetadata().withErrorCode("LimitExceededException").withModeledClass(
com.amazonaws.services.dynamodbv2.model.LimitExceededException.class))
.withBaseServiceExceptionClass(com.amazonaws.services.dynamodbv2.model.AmazonDynamoDBException.class));
/**
* Constructs a new client to invoke service methods on DynamoDB. A credentials provider chain will be used that
* searches for credentials in this order:
*
* - Environment Variables - AWS_ACCESS_KEY_ID and AWS_SECRET_KEY
* - Java System Properties - aws.accessKeyId and aws.secretKey
* - Instance profile credentials delivered through the Amazon EC2 metadata service
*
*
*
* All service calls made using this new client object are blocking, and will not return until the service call
* completes.
*
* @see DefaultAWSCredentialsProviderChain
* @deprecated use {@link AmazonDynamoDBClientBuilder#defaultClient()}
*/
@Deprecated
public AmazonDynamoDBClient() {
this(DefaultAWSCredentialsProviderChain.getInstance(), configFactory.getConfig());
}
/**
* Constructs a new client to invoke service methods on DynamoDB. A credentials provider chain will be used that
* searches for credentials in this order:
*
* - Environment Variables - AWS_ACCESS_KEY_ID and AWS_SECRET_KEY
* - Java System Properties - aws.accessKeyId and aws.secretKey
* - Instance profile credentials delivered through the Amazon EC2 metadata service
*
*
*
* All service calls made using this new client object are blocking, and will not return until the service call
* completes.
*
* @param clientConfiguration
* The client configuration options controlling how this client connects to DynamoDB (ex: proxy settings,
* retry counts, etc.).
*
* @see DefaultAWSCredentialsProviderChain
* @deprecated use {@link AmazonDynamoDBClientBuilder#withClientConfiguration(ClientConfiguration)}
*/
@Deprecated
public AmazonDynamoDBClient(ClientConfiguration clientConfiguration) {
this(DefaultAWSCredentialsProviderChain.getInstance(), clientConfiguration);
}
/**
* Constructs a new client to invoke service methods on DynamoDB using the specified AWS account credentials.
*
*
* All service calls made using this new client object are blocking, and will not return until the service call
* completes.
*
* @param awsCredentials
* The AWS credentials (access key ID and secret key) to use when authenticating with AWS services.
* @deprecated use {@link AmazonDynamoDBClientBuilder#withCredentials(AWSCredentialsProvider)} for example:
* {@code AmazonDynamoDBClientBuilder.standard().withCredentials(new AWSStaticCredentialsProvider(awsCredentials)).build();}
*/
@Deprecated
public AmazonDynamoDBClient(AWSCredentials awsCredentials) {
this(awsCredentials, configFactory.getConfig());
}
/**
* Constructs a new client to invoke service methods on DynamoDB using the specified AWS account credentials and
* client configuration options.
*
*
* All service calls made using this new client object are blocking, and will not return until the service call
* completes.
*
* @param awsCredentials
* The AWS credentials (access key ID and secret key) to use when authenticating with AWS services.
* @param clientConfiguration
* The client configuration options controlling how this client connects to DynamoDB (ex: proxy settings,
* retry counts, etc.).
* @deprecated use {@link AmazonDynamoDBClientBuilder#withCredentials(AWSCredentialsProvider)} and
* {@link AmazonDynamoDBClientBuilder#withClientConfiguration(ClientConfiguration)}
*/
@Deprecated
public AmazonDynamoDBClient(AWSCredentials awsCredentials, ClientConfiguration clientConfiguration) {
super(clientConfiguration);
this.awsCredentialsProvider = new StaticCredentialsProvider(awsCredentials);
init();
}
/**
* Constructs a new client to invoke service methods on DynamoDB using the specified AWS account credentials
* provider.
*
*
* All service calls made using this new client object are blocking, and will not return until the service call
* completes.
*
* @param awsCredentialsProvider
* The AWS credentials provider which will provide credentials to authenticate requests with AWS services.
* @deprecated use {@link AmazonDynamoDBClientBuilder#withCredentials(AWSCredentialsProvider)}
*/
@Deprecated
public AmazonDynamoDBClient(AWSCredentialsProvider awsCredentialsProvider) {
this(awsCredentialsProvider, configFactory.getConfig());
}
/**
* Constructs a new client to invoke service methods on DynamoDB using the specified AWS account credentials
* provider and client configuration options.
*
*
* All service calls made using this new client object are blocking, and will not return until the service call
* completes.
*
* @param awsCredentialsProvider
* The AWS credentials provider which will provide credentials to authenticate requests with AWS services.
* @param clientConfiguration
* The client configuration options controlling how this client connects to DynamoDB (ex: proxy settings,
* retry counts, etc.).
* @deprecated use {@link AmazonDynamoDBClientBuilder#withCredentials(AWSCredentialsProvider)} and
* {@link AmazonDynamoDBClientBuilder#withClientConfiguration(ClientConfiguration)}
*/
@Deprecated
public AmazonDynamoDBClient(AWSCredentialsProvider awsCredentialsProvider, ClientConfiguration clientConfiguration) {
this(awsCredentialsProvider, clientConfiguration, null);
}
/**
* Constructs a new client to invoke service methods on DynamoDB using the specified AWS account credentials
* provider, client configuration options, and request metric collector.
*
*
* All service calls made using this new client object are blocking, and will not return until the service call
* completes.
*
* @param awsCredentialsProvider
* The AWS credentials provider which will provide credentials to authenticate requests with AWS services.
* @param clientConfiguration
* The client configuration options controlling how this client connects to DynamoDB (ex: proxy settings,
* retry counts, etc.).
* @param requestMetricCollector
* optional request metric collector
* @deprecated use {@link AmazonDynamoDBClientBuilder#withCredentials(AWSCredentialsProvider)} and
* {@link AmazonDynamoDBClientBuilder#withClientConfiguration(ClientConfiguration)} and
* {@link AmazonDynamoDBClientBuilder#withMetricsCollector(RequestMetricCollector)}
*/
@Deprecated
public AmazonDynamoDBClient(AWSCredentialsProvider awsCredentialsProvider, ClientConfiguration clientConfiguration,
RequestMetricCollector requestMetricCollector) {
super(clientConfiguration, requestMetricCollector);
this.awsCredentialsProvider = awsCredentialsProvider;
init();
}
public static AmazonDynamoDBClientBuilder builder() {
return AmazonDynamoDBClientBuilder.standard();
}
/**
* Constructs a new client to invoke service methods on DynamoDB using the specified parameters.
*
*
* 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.
*/
AmazonDynamoDBClient(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("https://dynamodb.us-east-1.amazonaws.com");
HandlerChainFactory chainFactory = new HandlerChainFactory();
requestHandler2s.addAll(chainFactory.newRequestHandlerChain("/com/amazonaws/services/dynamodbv2/request.handlers"));
requestHandler2s.addAll(chainFactory.newRequestHandler2Chain("/com/amazonaws/services/dynamodbv2/request.handler2s"));
requestHandler2s.addAll(chainFactory.getGlobalHandlers());
}
/**
*
* The BatchGetItem
operation returns the attributes of one or more items from one or more tables. You
* identify requested items by primary key.
*
*
* A single operation can retrieve up to 16 MB of data, which can contain as many as 100 items.
* BatchGetItem
will return a partial result if the response size limit is exceeded, the table's
* provisioned throughput is exceeded, or an internal processing failure occurs. If a partial result is returned,
* the operation returns a value for UnprocessedKeys
. You can use this value to retry the operation
* starting with the next item to get.
*
*
*
* If you request more than 100 items BatchGetItem
will return a ValidationException
with
* the message "Too many items requested for the BatchGetItem call".
*
*
*
* For example, if you ask to retrieve 100 items, but each individual item is 300 KB in size, the system returns 52
* items (so as not to exceed the 16 MB limit). It also returns an appropriate UnprocessedKeys
value so
* you can get the next page of results. If desired, your application can include its own logic to assemble the
* pages of results into one data set.
*
*
* If none of the items can be processed due to insufficient provisioned throughput on all of the tables in
* the request, then BatchGetItem
will return a ProvisionedThroughputExceededException
. If
* at least one of the items is successfully processed, then BatchGetItem
completes
* successfully, while returning the keys of the unread items in UnprocessedKeys
.
*
*
*
* If DynamoDB returns any unprocessed items, you should retry the batch operation on those items. However, we
* strongly recommend that you use an exponential backoff algorithm. If you retry the batch operation
* immediately, the underlying read or write requests can still fail due to throttling on the individual tables. If
* you delay the batch operation using exponential backoff, the individual requests in the batch are much more
* likely to succeed.
*
*
* For more information, see Batch
* Operations and Error Handling in the Amazon DynamoDB Developer Guide.
*
*
*
* By default, BatchGetItem
performs eventually consistent reads on every table in the request. If you
* want strongly consistent reads instead, you can set ConsistentRead
to true
for any or
* all tables.
*
*
* In order to minimize response latency, BatchGetItem
retrieves items in parallel.
*
*
* When designing your application, keep in mind that DynamoDB does not return items in any particular order. To
* help parse the response by item, include the primary key values for the items in your request in the
* ProjectionExpression
parameter.
*
*
* If a requested item does not exist, it is not returned in the result. Requests for nonexistent items consume the
* minimum read capacity units according to the type of read. For more information, see Capacity Units Calculations in the Amazon DynamoDB Developer Guide.
*
*
* @param batchGetItemRequest
* Represents the input of a BatchGetItem
operation.
* @return Result of the BatchGetItem operation returned by the service.
* @throws ProvisionedThroughputExceededException
* Your request rate is too high. The AWS SDKs for DynamoDB automatically retry requests that receive this
* exception. Your request is eventually successful, unless your retry queue is too large to finish. Reduce
* the frequency of requests and use exponential backoff. For more information, go to Error Retries and Exponential Backoff in the Amazon DynamoDB Developer Guide.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.BatchGetItem
* @see AWS API
* Documentation
*/
@Override
public BatchGetItemResult batchGetItem(BatchGetItemRequest request) {
request = beforeClientExecution(request);
return executeBatchGetItem(request);
}
@SdkInternalApi
final BatchGetItemResult executeBatchGetItem(BatchGetItemRequest batchGetItemRequest) {
ExecutionContext executionContext = createExecutionContext(batchGetItemRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new BatchGetItemRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(batchGetItemRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new BatchGetItemResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public BatchGetItemResult batchGetItem(java.util.Map requestItems, String returnConsumedCapacity) {
return batchGetItem(new BatchGetItemRequest().withRequestItems(requestItems).withReturnConsumedCapacity(returnConsumedCapacity));
}
@Override
public BatchGetItemResult batchGetItem(java.util.Map requestItems) {
return batchGetItem(new BatchGetItemRequest().withRequestItems(requestItems));
}
/**
*
* The BatchWriteItem
operation puts or deletes multiple items in one or more tables. A single call to
* BatchWriteItem
can write up to 16 MB of data, which can comprise as many as 25 put or delete
* requests. Individual items to be written can be as large as 400 KB.
*
*
*
* BatchWriteItem
cannot update items. To update items, use the UpdateItem
action.
*
*
*
* The individual PutItem
and DeleteItem
operations specified in
* BatchWriteItem
are atomic; however BatchWriteItem
as a whole is not. If any requested
* operations fail because the table's provisioned throughput is exceeded or an internal processing failure occurs,
* the failed operations are returned in the UnprocessedItems
response parameter. You can investigate
* and optionally resend the requests. Typically, you would call BatchWriteItem
in a loop. Each
* iteration would check for unprocessed items and submit a new BatchWriteItem
request with those
* unprocessed items until all items have been processed.
*
*
* Note that if none of the items can be processed due to insufficient provisioned throughput on all of the
* tables in the request, then BatchWriteItem
will return a
* ProvisionedThroughputExceededException
.
*
*
*
* If DynamoDB returns any unprocessed items, you should retry the batch operation on those items. However, we
* strongly recommend that you use an exponential backoff algorithm. If you retry the batch operation
* immediately, the underlying read or write requests can still fail due to throttling on the individual tables. If
* you delay the batch operation using exponential backoff, the individual requests in the batch are much more
* likely to succeed.
*
*
* For more information, see Batch
* Operations and Error Handling in the Amazon DynamoDB Developer Guide.
*
*
*
* With BatchWriteItem
, you can efficiently write or delete large amounts of data, such as from Amazon
* Elastic MapReduce (EMR), or copy data from another database into DynamoDB. In order to improve performance with
* these large-scale operations, BatchWriteItem
does not behave in the same way as individual
* PutItem
and DeleteItem
calls would. For example, you cannot specify conditions on
* individual put and delete requests, and BatchWriteItem
does not return deleted items in the
* response.
*
*
* If you use a programming language that supports concurrency, you can use threads to write items in parallel. Your
* application must include the necessary logic to manage the threads. With languages that don't support threading,
* you must update or delete the specified items one at a time. In both situations, BatchWriteItem
* performs the specified put and delete operations in parallel, giving you the power of the thread pool approach
* without having to introduce complexity into your application.
*
*
* Parallel processing reduces latency, but each specified put and delete request consumes the same number of write
* capacity units whether it is processed in parallel or not. Delete operations on nonexistent items consume one
* write capacity unit.
*
*
* If one or more of the following is true, DynamoDB rejects the entire batch write operation:
*
*
* -
*
* One or more tables specified in the BatchWriteItem
request does not exist.
*
*
* -
*
* Primary key attributes specified on an item in the request do not match those in the corresponding table's
* primary key schema.
*
*
* -
*
* You try to perform multiple operations on the same item in the same BatchWriteItem
request. For
* example, you cannot put and delete the same item in the same BatchWriteItem
request.
*
*
* -
*
* There are more than 25 requests in the batch.
*
*
* -
*
* Any individual item in a batch exceeds 400 KB.
*
*
* -
*
* The total request size exceeds 16 MB.
*
*
*
*
* @param batchWriteItemRequest
* Represents the input of a BatchWriteItem
operation.
* @return Result of the BatchWriteItem operation returned by the service.
* @throws ProvisionedThroughputExceededException
* Your request rate is too high. The AWS SDKs for DynamoDB automatically retry requests that receive this
* exception. Your request is eventually successful, unless your retry queue is too large to finish. Reduce
* the frequency of requests and use exponential backoff. For more information, go to Error Retries and Exponential Backoff in the Amazon DynamoDB Developer Guide.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws ItemCollectionSizeLimitExceededException
* An item collection is too large. This exception is only returned for tables that have one or more local
* secondary indexes.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.BatchWriteItem
* @see AWS API
* Documentation
*/
@Override
public BatchWriteItemResult batchWriteItem(BatchWriteItemRequest request) {
request = beforeClientExecution(request);
return executeBatchWriteItem(request);
}
@SdkInternalApi
final BatchWriteItemResult executeBatchWriteItem(BatchWriteItemRequest batchWriteItemRequest) {
ExecutionContext executionContext = createExecutionContext(batchWriteItemRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new BatchWriteItemRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(batchWriteItemRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new BatchWriteItemResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public BatchWriteItemResult batchWriteItem(java.util.Map> requestItems) {
return batchWriteItem(new BatchWriteItemRequest().withRequestItems(requestItems));
}
/**
*
* The CreateTable
operation adds a new table to your account. In an AWS account, table names must be
* unique within each region. That is, you can have two tables with same name if you create the tables in different
* regions.
*
*
* CreateTable
is an asynchronous operation. Upon receiving a CreateTable
request,
* DynamoDB immediately returns a response with a TableStatus
of CREATING
. After the table
* is created, DynamoDB sets the TableStatus
to ACTIVE
. You can perform read and write
* operations only on an ACTIVE
table.
*
*
* You can optionally define secondary indexes on the new table, as part of the CreateTable
operation.
* If you want to create multiple tables with secondary indexes on them, you must create the tables sequentially.
* Only one table with secondary indexes can be in the CREATING
state at any given time.
*
*
* You can use the DescribeTable
action to check the table status.
*
*
* @param createTableRequest
* Represents the input of a CreateTable
operation.
* @return Result of the CreateTable operation returned by the service.
* @throws ResourceInUseException
* The operation conflicts with the resource's availability. For example, you attempted to recreate an
* existing table, or tried to delete a table currently in the CREATING
state.
* @throws LimitExceededException
* The number of concurrent table requests (cumulative number of tables in the CREATING
,
* DELETING
or UPDATING
state) exceeds the maximum allowed of 10.
*
* Also, for tables with secondary indexes, only one of those tables can be in the CREATING
* state at any point in time. Do not attempt to create more than one such table simultaneously.
*
*
* The total limit of tables in the ACTIVE
state is 250.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.CreateTable
* @see AWS API
* Documentation
*/
@Override
public CreateTableResult createTable(CreateTableRequest request) {
request = beforeClientExecution(request);
return executeCreateTable(request);
}
@SdkInternalApi
final CreateTableResult executeCreateTable(CreateTableRequest createTableRequest) {
ExecutionContext executionContext = createExecutionContext(createTableRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateTableRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(createTableRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new CreateTableResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public CreateTableResult createTable(java.util.List attributeDefinitions, String tableName,
java.util.List keySchema, ProvisionedThroughput provisionedThroughput) {
return createTable(new CreateTableRequest().withAttributeDefinitions(attributeDefinitions).withTableName(tableName).withKeySchema(keySchema)
.withProvisionedThroughput(provisionedThroughput));
}
/**
*
* Deletes a single item in a table by primary key. You can perform a conditional delete operation that deletes the
* item if it exists, or if it has an expected attribute value.
*
*
* In addition to deleting an item, you can also return the item's attribute values in the same operation, using the
* ReturnValues
parameter.
*
*
* Unless you specify conditions, the DeleteItem
is an idempotent operation; running it multiple times
* on the same item or attribute does not result in an error response.
*
*
* Conditional deletes are useful for deleting items only if specific conditions are met. If those conditions are
* met, DynamoDB performs the delete. Otherwise, the item is not deleted.
*
*
* @param deleteItemRequest
* Represents the input of a DeleteItem
operation.
* @return Result of the DeleteItem operation returned by the service.
* @throws ConditionalCheckFailedException
* A condition specified in the operation could not be evaluated.
* @throws ProvisionedThroughputExceededException
* Your request rate is too high. The AWS SDKs for DynamoDB automatically retry requests that receive this
* exception. Your request is eventually successful, unless your retry queue is too large to finish. Reduce
* the frequency of requests and use exponential backoff. For more information, go to Error Retries and Exponential Backoff in the Amazon DynamoDB Developer Guide.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws ItemCollectionSizeLimitExceededException
* An item collection is too large. This exception is only returned for tables that have one or more local
* secondary indexes.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.DeleteItem
* @see AWS API
* Documentation
*/
@Override
public DeleteItemResult deleteItem(DeleteItemRequest request) {
request = beforeClientExecution(request);
return executeDeleteItem(request);
}
@SdkInternalApi
final DeleteItemResult executeDeleteItem(DeleteItemRequest deleteItemRequest) {
ExecutionContext executionContext = createExecutionContext(deleteItemRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteItemRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(deleteItemRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(new JsonOperationMetadata()
.withPayloadJson(true).withHasStreamingSuccessResponse(false), new DeleteItemResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public DeleteItemResult deleteItem(String tableName, java.util.Map key) {
return deleteItem(new DeleteItemRequest().withTableName(tableName).withKey(key));
}
@Override
public DeleteItemResult deleteItem(String tableName, java.util.Map key, String returnValues) {
return deleteItem(new DeleteItemRequest().withTableName(tableName).withKey(key).withReturnValues(returnValues));
}
/**
*
* The DeleteTable
operation deletes a table and all of its items. After a DeleteTable
* request, the specified table is in the DELETING
state until DynamoDB completes the deletion. If the
* table is in the ACTIVE
state, you can delete it. If a table is in CREATING
or
* UPDATING
states, then DynamoDB returns a ResourceInUseException
. If the specified table
* does not exist, DynamoDB returns a ResourceNotFoundException
. If table is already in the
* DELETING
state, no error is returned.
*
*
*
* DynamoDB might continue to accept data read and write operations, such as GetItem
and
* PutItem
, on a table in the DELETING
state until the table deletion is complete.
*
*
*
* When you delete a table, any indexes on that table are also deleted.
*
*
* If you have DynamoDB Streams enabled on the table, then the corresponding stream on that table goes into the
* DISABLED
state, and the stream is automatically deleted after 24 hours.
*
*
* Use the DescribeTable
action to check the status of the table.
*
*
* @param deleteTableRequest
* Represents the input of a DeleteTable
operation.
* @return Result of the DeleteTable operation returned by the service.
* @throws ResourceInUseException
* The operation conflicts with the resource's availability. For example, you attempted to recreate an
* existing table, or tried to delete a table currently in the CREATING
state.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws LimitExceededException
* The number of concurrent table requests (cumulative number of tables in the CREATING
,
* DELETING
or UPDATING
state) exceeds the maximum allowed of 10.
*
* Also, for tables with secondary indexes, only one of those tables can be in the CREATING
* state at any point in time. Do not attempt to create more than one such table simultaneously.
*
*
* The total limit of tables in the ACTIVE
state is 250.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.DeleteTable
* @see AWS API
* Documentation
*/
@Override
public DeleteTableResult deleteTable(DeleteTableRequest request) {
request = beforeClientExecution(request);
return executeDeleteTable(request);
}
@SdkInternalApi
final DeleteTableResult executeDeleteTable(DeleteTableRequest deleteTableRequest) {
ExecutionContext executionContext = createExecutionContext(deleteTableRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteTableRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(deleteTableRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new DeleteTableResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public DeleteTableResult deleteTable(String tableName) {
return deleteTable(new DeleteTableRequest().withTableName(tableName));
}
/**
*
* Returns the current provisioned-capacity limits for your AWS account in a region, both for the region as a whole
* and for any one DynamoDB table that you create there.
*
*
* When you establish an AWS account, the account has initial limits on the maximum read capacity units and write
* capacity units that you can provision across all of your DynamoDB tables in a given region. Also, there are
* per-table limits that apply when you create a table there. For more information, see Limits page in the
* Amazon DynamoDB Developer Guide.
*
*
* Although you can increase these limits by filing a case at AWS Support Center, obtaining the increase is not
* instantaneous. The DescribeLimits
action lets you write code to compare the capacity you are
* currently using to those limits imposed by your account so that you have enough time to apply for an increase
* before you hit a limit.
*
*
* For example, you could use one of the AWS SDKs to do the following:
*
*
* -
*
* Call DescribeLimits
for a particular region to obtain your current account limits on provisioned
* capacity there.
*
*
* -
*
* Create a variable to hold the aggregate read capacity units provisioned for all your tables in that region, and
* one to hold the aggregate write capacity units. Zero them both.
*
*
* -
*
* Call ListTables
to obtain a list of all your DynamoDB tables.
*
*
* -
*
* For each table name listed by ListTables
, do the following:
*
*
* -
*
* Call DescribeTable
with the table name.
*
*
* -
*
* Use the data returned by DescribeTable
to add the read capacity units and write capacity units
* provisioned for the table itself to your variables.
*
*
* -
*
* If the table has one or more global secondary indexes (GSIs), loop over these GSIs and add their provisioned
* capacity values to your variables as well.
*
*
*
*
* -
*
* Report the account limits for that region returned by DescribeLimits
, along with the total current
* provisioned capacity levels you have calculated.
*
*
*
*
* This will let you see whether you are getting close to your account-level limits.
*
*
* The per-table limits apply only when you are creating a new table. They restrict the sum of the provisioned
* capacity of the new table itself and all its global secondary indexes.
*
*
* For existing tables and their GSIs, DynamoDB will not let you increase provisioned capacity extremely rapidly,
* but the only upper limit that applies is that the aggregate provisioned capacity over all your tables and GSIs
* cannot exceed either of the per-account limits.
*
*
*
* DescribeLimits
should only be called periodically. You can expect throttling errors if you call it
* more than once in a minute.
*
*
*
* The DescribeLimits
Request element has no content.
*
*
* @param describeLimitsRequest
* Represents the input of a DescribeLimits
operation. Has no content.
* @return Result of the DescribeLimits operation returned by the service.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.DescribeLimits
* @see AWS API
* Documentation
*/
@Override
public DescribeLimitsResult describeLimits(DescribeLimitsRequest request) {
request = beforeClientExecution(request);
return executeDescribeLimits(request);
}
@SdkInternalApi
final DescribeLimitsResult executeDescribeLimits(DescribeLimitsRequest describeLimitsRequest) {
ExecutionContext executionContext = createExecutionContext(describeLimitsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeLimitsRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(describeLimitsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new DescribeLimitsResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Returns information about the table, including the current status of the table, when it was created, the primary
* key schema, and any indexes on the table.
*
*
*
* If you issue a DescribeTable
request immediately after a CreateTable
request, DynamoDB
* might return a ResourceNotFoundException
. This is because DescribeTable
uses an
* eventually consistent query, and the metadata for your table might not be available at that moment. Wait for a
* few seconds, and then try the DescribeTable
request again.
*
*
*
* @param describeTableRequest
* Represents the input of a DescribeTable
operation.
* @return Result of the DescribeTable operation returned by the service.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.DescribeTable
* @see AWS API
* Documentation
*/
@Override
public DescribeTableResult describeTable(DescribeTableRequest request) {
request = beforeClientExecution(request);
return executeDescribeTable(request);
}
@SdkInternalApi
final DescribeTableResult executeDescribeTable(DescribeTableRequest describeTableRequest) {
ExecutionContext executionContext = createExecutionContext(describeTableRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeTableRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(describeTableRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new DescribeTableResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public DescribeTableResult describeTable(String tableName) {
return describeTable(new DescribeTableRequest().withTableName(tableName));
}
/**
*
* Gives a description of the Time to Live (TTL) status on the specified table.
*
*
* @param describeTimeToLiveRequest
* @return Result of the DescribeTimeToLive operation returned by the service.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.DescribeTimeToLive
* @see AWS
* API Documentation
*/
@Override
public DescribeTimeToLiveResult describeTimeToLive(DescribeTimeToLiveRequest request) {
request = beforeClientExecution(request);
return executeDescribeTimeToLive(request);
}
@SdkInternalApi
final DescribeTimeToLiveResult executeDescribeTimeToLive(DescribeTimeToLiveRequest describeTimeToLiveRequest) {
ExecutionContext executionContext = createExecutionContext(describeTimeToLiveRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeTimeToLiveRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(describeTimeToLiveRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new DescribeTimeToLiveResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* The GetItem
operation returns a set of attributes for the item with the given primary key. If there
* is no matching item, GetItem
does not return any data and there will be no Item
element
* in the response.
*
*
* GetItem
provides an eventually consistent read by default. If your application requires a strongly
* consistent read, set ConsistentRead
to true
. Although a strongly consistent read might
* take more time than an eventually consistent read, it always returns the last updated value.
*
*
* @param getItemRequest
* Represents the input of a GetItem
operation.
* @return Result of the GetItem operation returned by the service.
* @throws ProvisionedThroughputExceededException
* Your request rate is too high. The AWS SDKs for DynamoDB automatically retry requests that receive this
* exception. Your request is eventually successful, unless your retry queue is too large to finish. Reduce
* the frequency of requests and use exponential backoff. For more information, go to Error Retries and Exponential Backoff in the Amazon DynamoDB Developer Guide.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.GetItem
* @see AWS API
* Documentation
*/
@Override
public GetItemResult getItem(GetItemRequest request) {
request = beforeClientExecution(request);
return executeGetItem(request);
}
@SdkInternalApi
final GetItemResult executeGetItem(GetItemRequest getItemRequest) {
ExecutionContext executionContext = createExecutionContext(getItemRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new GetItemRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(getItemRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(new JsonOperationMetadata()
.withPayloadJson(true).withHasStreamingSuccessResponse(false), new GetItemResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public GetItemResult getItem(String tableName, java.util.Map key) {
return getItem(new GetItemRequest().withTableName(tableName).withKey(key));
}
@Override
public GetItemResult getItem(String tableName, java.util.Map key, Boolean consistentRead) {
return getItem(new GetItemRequest().withTableName(tableName).withKey(key).withConsistentRead(consistentRead));
}
/**
*
* Returns an array of table names associated with the current account and endpoint. The output from
* ListTables
is paginated, with each page returning a maximum of 100 table names.
*
*
* @param listTablesRequest
* Represents the input of a ListTables
operation.
* @return Result of the ListTables operation returned by the service.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.ListTables
* @see AWS API
* Documentation
*/
@Override
public ListTablesResult listTables(ListTablesRequest request) {
request = beforeClientExecution(request);
return executeListTables(request);
}
@SdkInternalApi
final ListTablesResult executeListTables(ListTablesRequest listTablesRequest) {
ExecutionContext executionContext = createExecutionContext(listTablesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ListTablesRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(listTablesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(new JsonOperationMetadata()
.withPayloadJson(true).withHasStreamingSuccessResponse(false), new ListTablesResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public ListTablesResult listTables() {
return listTables(new ListTablesRequest());
}
@Override
public ListTablesResult listTables(String exclusiveStartTableName) {
return listTables(new ListTablesRequest().withExclusiveStartTableName(exclusiveStartTableName));
}
@Override
public ListTablesResult listTables(String exclusiveStartTableName, Integer limit) {
return listTables(new ListTablesRequest().withExclusiveStartTableName(exclusiveStartTableName).withLimit(limit));
}
@Override
public ListTablesResult listTables(Integer limit) {
return listTables(new ListTablesRequest().withLimit(limit));
}
/**
*
* List all tags on an Amazon DynamoDB resource. You can call ListTagsOfResource up to 10 times per second, per
* account.
*
*
* For an overview on tagging DynamoDB resources, see Tagging for DynamoDB in
* the Amazon DynamoDB Developer Guide.
*
*
* @param listTagsOfResourceRequest
* @return Result of the ListTagsOfResource operation returned by the service.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.ListTagsOfResource
* @see AWS
* API Documentation
*/
@Override
public ListTagsOfResourceResult listTagsOfResource(ListTagsOfResourceRequest request) {
request = beforeClientExecution(request);
return executeListTagsOfResource(request);
}
@SdkInternalApi
final ListTagsOfResourceResult executeListTagsOfResource(ListTagsOfResourceRequest listTagsOfResourceRequest) {
ExecutionContext executionContext = createExecutionContext(listTagsOfResourceRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ListTagsOfResourceRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(listTagsOfResourceRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new ListTagsOfResourceResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a new item, or replaces an old item with a new item. If an item that has the same primary key as the new
* item already exists in the specified table, the new item completely replaces the existing item. You can perform a
* conditional put operation (add a new item if one with the specified primary key doesn't exist), or replace an
* existing item if it has certain attribute values. You can return the item's attribute values in the same
* operation, using the ReturnValues
parameter.
*
*
*
* This topic provides general information about the PutItem
API.
*
*
* For information on how to call the PutItem
API using the AWS SDK in specific languages, see the
* following:
*
*
* -
*
*
* -
*
*
* -
*
*
* -
*
*
* -
*
*
* -
*
*
* -
*
*
* -
*
*
* -
*
*
*
*
*
* When you add an item, the primary key attribute(s) are the only required attributes. Attribute values cannot be
* null. String and Binary type attributes must have lengths greater than zero. Set type attributes cannot be empty.
* Requests with empty values will be rejected with a ValidationException
exception.
*
*
*
* To prevent a new item from replacing an existing item, use a conditional expression that contains the
* attribute_not_exists
function with the name of the attribute being used as the partition key for the
* table. Since every record must contain that attribute, the attribute_not_exists
function will only
* succeed if no matching item exists.
*
*
*
* For more information about PutItem
, see Working with
* Items in the Amazon DynamoDB Developer Guide.
*
*
* @param putItemRequest
* Represents the input of a PutItem
operation.
* @return Result of the PutItem operation returned by the service.
* @throws ConditionalCheckFailedException
* A condition specified in the operation could not be evaluated.
* @throws ProvisionedThroughputExceededException
* Your request rate is too high. The AWS SDKs for DynamoDB automatically retry requests that receive this
* exception. Your request is eventually successful, unless your retry queue is too large to finish. Reduce
* the frequency of requests and use exponential backoff. For more information, go to Error Retries and Exponential Backoff in the Amazon DynamoDB Developer Guide.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws ItemCollectionSizeLimitExceededException
* An item collection is too large. This exception is only returned for tables that have one or more local
* secondary indexes.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.PutItem
* @see AWS API
* Documentation
*/
@Override
public PutItemResult putItem(PutItemRequest request) {
request = beforeClientExecution(request);
return executePutItem(request);
}
@SdkInternalApi
final PutItemResult executePutItem(PutItemRequest putItemRequest) {
ExecutionContext executionContext = createExecutionContext(putItemRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new PutItemRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(putItemRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(new JsonOperationMetadata()
.withPayloadJson(true).withHasStreamingSuccessResponse(false), new PutItemResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public PutItemResult putItem(String tableName, java.util.Map item) {
return putItem(new PutItemRequest().withTableName(tableName).withItem(item));
}
@Override
public PutItemResult putItem(String tableName, java.util.Map item, String returnValues) {
return putItem(new PutItemRequest().withTableName(tableName).withItem(item).withReturnValues(returnValues));
}
/**
*
* The Query
operation finds items based on primary key values. You can query any table or secondary
* index that has a composite primary key (a partition key and a sort key).
*
*
* Use the KeyConditionExpression
parameter to provide a specific value for the partition key. The
* Query
operation will return all of the items from the table or index with that partition key value.
* You can optionally narrow the scope of the Query
operation by specifying a sort key value and a
* comparison operator in KeyConditionExpression
. To further refine the Query
results, you
* can optionally provide a FilterExpression
. A FilterExpression
determines which items
* within the results should be returned to you. All of the other results are discarded.
*
*
* A Query
operation always returns a result set. If no matching items are found, the result set will
* be empty. Queries that do not return results consume the minimum number of read capacity units for that type of
* read operation.
*
*
*
* DynamoDB calculates the number of read capacity units consumed based on item size, not on the amount of data that
* is returned to an application. The number of capacity units consumed will be the same whether you request all of
* the attributes (the default behavior) or just some of them (using a projection expression). The number will also
* be the same whether or not you use a FilterExpression
.
*
*
*
* Query
results are always sorted by the sort key value. If the data type of the sort key is Number,
* the results are returned in numeric order; otherwise, the results are returned in order of UTF-8 bytes. By
* default, the sort order is ascending. To reverse the order, set the ScanIndexForward
parameter to
* false.
*
*
* A single Query
operation will read up to the maximum number of items set (if using the
* Limit
parameter) or a maximum of 1 MB of data and then apply any filtering to the results using
* FilterExpression
. If LastEvaluatedKey
is present in the response, you will need to
* paginate the result set. For more information, see Paginating the
* Results in the Amazon DynamoDB Developer Guide.
*
*
* FilterExpression
is applied after a Query
finishes, but before the results are
* returned. A FilterExpression
cannot contain partition key or sort key attributes. You need to
* specify those attributes in the KeyConditionExpression
.
*
*
*
* A Query
operation can return an empty result set and a LastEvaluatedKey
if all the
* items read for the page of results are filtered out.
*
*
*
* You can query a table, a local secondary index, or a global secondary index. For a query on a table or on a local
* secondary index, you can set the ConsistentRead
parameter to true
and obtain a strongly
* consistent result. Global secondary indexes support eventually consistent reads only, so do not specify
* ConsistentRead
when querying a global secondary index.
*
*
* @param queryRequest
* Represents the input of a Query
operation.
* @return Result of the Query operation returned by the service.
* @throws ProvisionedThroughputExceededException
* Your request rate is too high. The AWS SDKs for DynamoDB automatically retry requests that receive this
* exception. Your request is eventually successful, unless your retry queue is too large to finish. Reduce
* the frequency of requests and use exponential backoff. For more information, go to Error Retries and Exponential Backoff in the Amazon DynamoDB Developer Guide.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.Query
* @see AWS API
* Documentation
*/
@Override
public QueryResult query(QueryRequest request) {
request = beforeClientExecution(request);
return executeQuery(request);
}
@SdkInternalApi
final QueryResult executeQuery(QueryRequest queryRequest) {
ExecutionContext executionContext = createExecutionContext(queryRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new QueryRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(queryRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(new JsonOperationMetadata()
.withPayloadJson(true).withHasStreamingSuccessResponse(false), new QueryResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* The Scan
operation returns one or more items and item attributes by accessing every item in a table
* or a secondary index. To have DynamoDB return fewer items, you can provide a FilterExpression
* operation.
*
*
* If the total number of scanned items exceeds the maximum data set size limit of 1 MB, the scan stops and results
* are returned to the user as a LastEvaluatedKey
value to continue the scan in a subsequent operation.
* The results also include the number of items exceeding the limit. A scan can result in no table data meeting the
* filter criteria.
*
*
* A single Scan
operation will read up to the maximum number of items set (if using the
* Limit
parameter) or a maximum of 1 MB of data and then apply any filtering to the results using
* FilterExpression
. If LastEvaluatedKey
is present in the response, you will need to
* paginate the result set. For more information, see Paginating the
* Results in the Amazon DynamoDB Developer Guide.
*
*
* Scan
operations proceed sequentially; however, for faster performance on a large table or secondary
* index, applications can request a parallel Scan
operation by providing the Segment
and
* TotalSegments
parameters. For more information, see Parallel
* Scan in the Amazon DynamoDB Developer Guide.
*
*
* Scan
uses eventually consistent reads when accessing the data in a table; therefore, the result set
* might not include the changes to data in the table immediately before the operation began. If you need a
* consistent copy of the data, as of the time that the Scan
begins, you can set the
* ConsistentRead
parameter to true
.
*
*
* @param scanRequest
* Represents the input of a Scan
operation.
* @return Result of the Scan operation returned by the service.
* @throws ProvisionedThroughputExceededException
* Your request rate is too high. The AWS SDKs for DynamoDB automatically retry requests that receive this
* exception. Your request is eventually successful, unless your retry queue is too large to finish. Reduce
* the frequency of requests and use exponential backoff. For more information, go to Error Retries and Exponential Backoff in the Amazon DynamoDB Developer Guide.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.Scan
* @see AWS API
* Documentation
*/
@Override
public ScanResult scan(ScanRequest request) {
request = beforeClientExecution(request);
return executeScan(request);
}
@SdkInternalApi
final ScanResult executeScan(ScanRequest scanRequest) {
ExecutionContext executionContext = createExecutionContext(scanRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ScanRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(scanRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(new JsonOperationMetadata()
.withPayloadJson(true).withHasStreamingSuccessResponse(false), new ScanResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public ScanResult scan(String tableName, java.util.List attributesToGet) {
return scan(new ScanRequest().withTableName(tableName).withAttributesToGet(attributesToGet));
}
@Override
public ScanResult scan(String tableName, java.util.Map scanFilter) {
return scan(new ScanRequest().withTableName(tableName).withScanFilter(scanFilter));
}
@Override
public ScanResult scan(String tableName, java.util.List attributesToGet, java.util.Map scanFilter) {
return scan(new ScanRequest().withTableName(tableName).withAttributesToGet(attributesToGet).withScanFilter(scanFilter));
}
/**
*
* Associate a set of tags with an Amazon DynamoDB resource. You can then activate these user-defined tags so that
* they appear on the Billing and Cost Management console for cost allocation tracking. You can call TagResource up
* to 5 times per second, per account.
*
*
* For an overview on tagging DynamoDB resources, see Tagging for DynamoDB in
* the Amazon DynamoDB Developer Guide.
*
*
* @param tagResourceRequest
* @return Result of the TagResource operation returned by the service.
* @throws LimitExceededException
* The number of concurrent table requests (cumulative number of tables in the CREATING
,
* DELETING
or UPDATING
state) exceeds the maximum allowed of 10.
*
* Also, for tables with secondary indexes, only one of those tables can be in the CREATING
* state at any point in time. Do not attempt to create more than one such table simultaneously.
*
*
* The total limit of tables in the ACTIVE
state is 250.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @throws ResourceInUseException
* The operation conflicts with the resource's availability. For example, you attempted to recreate an
* existing table, or tried to delete a table currently in the CREATING
state.
* @sample AmazonDynamoDB.TagResource
* @see AWS API
* Documentation
*/
@Override
public TagResourceResult tagResource(TagResourceRequest request) {
request = beforeClientExecution(request);
return executeTagResource(request);
}
@SdkInternalApi
final TagResourceResult executeTagResource(TagResourceRequest tagResourceRequest) {
ExecutionContext executionContext = createExecutionContext(tagResourceRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new TagResourceRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(tagResourceRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new TagResourceResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Removes the association of tags from an Amazon DynamoDB resource. You can call UntagResource up to 5 times per
* second, per account.
*
*
* For an overview on tagging DynamoDB resources, see Tagging for DynamoDB in
* the Amazon DynamoDB Developer Guide.
*
*
* @param untagResourceRequest
* @return Result of the UntagResource operation returned by the service.
* @throws LimitExceededException
* The number of concurrent table requests (cumulative number of tables in the CREATING
,
* DELETING
or UPDATING
state) exceeds the maximum allowed of 10.
*
* Also, for tables with secondary indexes, only one of those tables can be in the CREATING
* state at any point in time. Do not attempt to create more than one such table simultaneously.
*
*
* The total limit of tables in the ACTIVE
state is 250.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @throws ResourceInUseException
* The operation conflicts with the resource's availability. For example, you attempted to recreate an
* existing table, or tried to delete a table currently in the CREATING
state.
* @sample AmazonDynamoDB.UntagResource
* @see AWS API
* Documentation
*/
@Override
public UntagResourceResult untagResource(UntagResourceRequest request) {
request = beforeClientExecution(request);
return executeUntagResource(request);
}
@SdkInternalApi
final UntagResourceResult executeUntagResource(UntagResourceRequest untagResourceRequest) {
ExecutionContext executionContext = createExecutionContext(untagResourceRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new UntagResourceRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(untagResourceRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new UntagResourceResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Edits an existing item's attributes, or adds a new item to the table if it does not already exist. You can put,
* delete, or add attribute values. You can also perform a conditional update on an existing item (insert a new
* attribute name-value pair if it doesn't exist, or replace an existing name-value pair if it has certain expected
* attribute values).
*
*
* You can also return the item's attribute values in the same UpdateItem
operation using the
* ReturnValues
parameter.
*
*
* @param updateItemRequest
* Represents the input of an UpdateItem
operation.
* @return Result of the UpdateItem operation returned by the service.
* @throws ConditionalCheckFailedException
* A condition specified in the operation could not be evaluated.
* @throws ProvisionedThroughputExceededException
* Your request rate is too high. The AWS SDKs for DynamoDB automatically retry requests that receive this
* exception. Your request is eventually successful, unless your retry queue is too large to finish. Reduce
* the frequency of requests and use exponential backoff. For more information, go to Error Retries and Exponential Backoff in the Amazon DynamoDB Developer Guide.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws ItemCollectionSizeLimitExceededException
* An item collection is too large. This exception is only returned for tables that have one or more local
* secondary indexes.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.UpdateItem
* @see AWS API
* Documentation
*/
@Override
public UpdateItemResult updateItem(UpdateItemRequest request) {
request = beforeClientExecution(request);
return executeUpdateItem(request);
}
@SdkInternalApi
final UpdateItemResult executeUpdateItem(UpdateItemRequest updateItemRequest) {
ExecutionContext executionContext = createExecutionContext(updateItemRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new UpdateItemRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(updateItemRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(new JsonOperationMetadata()
.withPayloadJson(true).withHasStreamingSuccessResponse(false), new UpdateItemResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public UpdateItemResult updateItem(String tableName, java.util.Map key, java.util.Map attributeUpdates) {
return updateItem(new UpdateItemRequest().withTableName(tableName).withKey(key).withAttributeUpdates(attributeUpdates));
}
@Override
public UpdateItemResult updateItem(String tableName, java.util.Map key,
java.util.Map attributeUpdates, String returnValues) {
return updateItem(new UpdateItemRequest().withTableName(tableName).withKey(key).withAttributeUpdates(attributeUpdates).withReturnValues(returnValues));
}
/**
*
* Modifies the provisioned throughput settings, global secondary indexes, or DynamoDB Streams settings for a given
* table.
*
*
* You can only perform one of the following operations at once:
*
*
* -
*
* Modify the provisioned throughput settings of the table.
*
*
* -
*
* Enable or disable Streams on the table.
*
*
* -
*
* Remove a global secondary index from the table.
*
*
* -
*
* Create a new global secondary index on the table. Once the index begins backfilling, you can use
* UpdateTable
to perform other operations.
*
*
*
*
* UpdateTable
is an asynchronous operation; while it is executing, the table status changes from
* ACTIVE
to UPDATING
. While it is UPDATING
, you cannot issue another
* UpdateTable
request. When the table returns to the ACTIVE
state, the
* UpdateTable
operation is complete.
*
*
* @param updateTableRequest
* Represents the input of an UpdateTable
operation.
* @return Result of the UpdateTable operation returned by the service.
* @throws ResourceInUseException
* The operation conflicts with the resource's availability. For example, you attempted to recreate an
* existing table, or tried to delete a table currently in the CREATING
state.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws LimitExceededException
* The number of concurrent table requests (cumulative number of tables in the CREATING
,
* DELETING
or UPDATING
state) exceeds the maximum allowed of 10.
*
* Also, for tables with secondary indexes, only one of those tables can be in the CREATING
* state at any point in time. Do not attempt to create more than one such table simultaneously.
*
*
* The total limit of tables in the ACTIVE
state is 250.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.UpdateTable
* @see AWS API
* Documentation
*/
@Override
public UpdateTableResult updateTable(UpdateTableRequest request) {
request = beforeClientExecution(request);
return executeUpdateTable(request);
}
@SdkInternalApi
final UpdateTableResult executeUpdateTable(UpdateTableRequest updateTableRequest) {
ExecutionContext executionContext = createExecutionContext(updateTableRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new UpdateTableRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(updateTableRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new UpdateTableResultJsonUnmarshaller());
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
@Override
public UpdateTableResult updateTable(String tableName, ProvisionedThroughput provisionedThroughput) {
return updateTable(new UpdateTableRequest().withTableName(tableName).withProvisionedThroughput(provisionedThroughput));
}
/**
*
* The UpdateTimeToLive method will enable or disable TTL for the specified table. A successful
* UpdateTimeToLive
call returns the current TimeToLiveSpecification
; it may take up to
* one hour for the change to fully process. Any additional UpdateTimeToLive
calls for the same table
* during this one hour duration result in a ValidationException
.
*
*
* TTL compares the current time in epoch time format to the time stored in the TTL attribute of an item. If the
* epoch time value stored in the attribute is less than the current time, the item is marked as expired and
* subsequently deleted.
*
*
*
* The epoch time format is the number of seconds elapsed since 12:00:00 AM January 1st, 1970 UTC.
*
*
*
* DynamoDB deletes expired items on a best-effort basis to ensure availability of throughput for other data
* operations.
*
*
*
* DynamoDB typically deletes expired items within two days of expiration. The exact duration within which an item
* gets deleted after expiration is specific to the nature of the workload. Items that have expired and not been
* deleted will still show up in reads, queries, and scans.
*
*
*
* As items are deleted, they are removed from any Local Secondary Index and Global Secondary Index immediately in
* the same eventually consistent way as a standard delete operation.
*
*
* For more information, see Time
* To Live in the Amazon DynamoDB Developer Guide.
*
*
* @param updateTimeToLiveRequest
* Represents the input of an UpdateTimeToLive
operation.
* @return Result of the UpdateTimeToLive operation returned by the service.
* @throws ResourceInUseException
* The operation conflicts with the resource's availability. For example, you attempted to recreate an
* existing table, or tried to delete a table currently in the CREATING
state.
* @throws ResourceNotFoundException
* The operation tried to access a nonexistent table or index. The resource might not be specified
* correctly, or its status might not be ACTIVE
.
* @throws LimitExceededException
* The number of concurrent table requests (cumulative number of tables in the CREATING
,
* DELETING
or UPDATING
state) exceeds the maximum allowed of 10.
*
* Also, for tables with secondary indexes, only one of those tables can be in the CREATING
* state at any point in time. Do not attempt to create more than one such table simultaneously.
*
*
* The total limit of tables in the ACTIVE
state is 250.
* @throws InternalServerErrorException
* An error occurred on the server side.
* @sample AmazonDynamoDB.UpdateTimeToLive
* @see AWS API
* Documentation
*/
@Override
public UpdateTimeToLiveResult updateTimeToLive(UpdateTimeToLiveRequest request) {
request = beforeClientExecution(request);
return executeUpdateTimeToLive(request);
}
@SdkInternalApi
final UpdateTimeToLiveResult executeUpdateTimeToLive(UpdateTimeToLiveRequest updateTimeToLiveRequest) {
ExecutionContext executionContext = createExecutionContext(updateTimeToLiveRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new UpdateTimeToLiveRequestProtocolMarshaller(protocolFactory).marshall(super.beforeMarshalling(updateTimeToLiveRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
HttpResponseHandler> responseHandler = protocolFactory.createResponseHandler(
new JsonOperationMetadata().withPayloadJson(true).withHasStreamingSuccessResponse(false), new UpdateTimeToLiveResultJsonUnmarshaller());
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.
*
* 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);
}
@Override
protected final boolean calculateCRC32FromCompressedData() {
return true;
}
/**
* Normal invoke with authentication. Credentials are required and may be overriden at the request level.
**/
private Response invoke(Request request, HttpResponseHandler> 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 Response anonymousInvoke(Request request,
HttpResponseHandler> 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 Response doInvoke(Request request, HttpResponseHandler> responseHandler,
ExecutionContext executionContext) {
request.setEndpoint(endpoint);
request.setTimeOffset(timeOffset);
HttpResponseHandler errorResponseHandler = protocolFactory.createErrorResponseHandler(new JsonErrorResponseMetadata());
return client.execute(request, responseHandler, errorResponseHandler, executionContext);
}
@com.amazonaws.annotation.SdkInternalApi
static com.amazonaws.protocol.json.SdkJsonProtocolFactory getProtocolFactory() {
return protocolFactory;
}
@Override
public AmazonDynamoDBWaiters waiters() {
if (waiters == null) {
synchronized (this) {
if (waiters == null) {
waiters = new AmazonDynamoDBWaiters(this);
}
}
}
return waiters;
}
@Override
public void shutdown() {
super.shutdown();
if (waiters != null) {
waiters.shutdown();
}
}
}