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/*
* Copyright 2010-2016 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.kinesis;
import java.util.*;
import com.amazonaws.*;
import com.amazonaws.auth.*;
import com.amazonaws.handlers.*;
import com.amazonaws.http.*;
import com.amazonaws.internal.*;
import com.amazonaws.metrics.*;
import com.amazonaws.transform.*;
import com.amazonaws.util.*;
import com.amazonaws.util.AWSRequestMetrics.Field;
import com.amazonaws.services.kinesis.model.*;
import com.amazonaws.services.kinesis.model.transform.*;
/**
* Client for accessing Amazon Kinesis Streams. All service calls made using
* this client are blocking, and will not return until the service call
* completes.
*
* Amazon Kinesis Streams Service API Reference
*
* Amazon Kinesis Streams is a managed service that scales elastically for real
* time processing of streaming big data.
*
*/
public class AmazonKinesisClient extends AmazonWebServiceClient implements AmazonKinesis {
/** Provider for AWS credentials. */
private AWSCredentialsProvider awsCredentialsProvider;
/**
* List of exception unmarshallers for all Amazon Kinesis Streams
* exceptions.
*/
protected List jsonErrorUnmarshallers;
/**
* Constructs a new client to invoke service methods on AmazonKinesis. 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
public AmazonKinesisClient() {
this(new DefaultAWSCredentialsProviderChain(), new ClientConfiguration());
}
/**
* Constructs a new client to invoke service methods on AmazonKinesis. 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 AmazonKinesis (ex: proxy settings,
* retry counts, etc.).
* @see DefaultAWSCredentialsProviderChain
*/
@Deprecated
public AmazonKinesisClient(ClientConfiguration clientConfiguration) {
this(new DefaultAWSCredentialsProviderChain(), clientConfiguration);
}
/**
* Constructs a new client to invoke service methods on AmazonKinesis using
* the specified AWS account credentials.
*
* If AWS session credentials are passed in, then those credentials will be
* used to authenticate requests. Otherwise, if AWS long-term credentials
* are passed in, then session management will be handled automatically by
* the SDK. Callers are encouraged to use long-term credentials and let the
* SDK handle starting and renewing sessions.
*
* Automatically managed sessions will be shared among all clients that use
* the same credentials and service endpoint. To opt out of this behavior,
* explicitly provide an instance of {@link AWSCredentialsProvider} that
* returns {@link AWSSessionCredentials}.
*
* 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.
*/
public AmazonKinesisClient(AWSCredentials awsCredentials) {
this(awsCredentials, new ClientConfiguration());
}
/**
* Constructs a new client to invoke service methods on AmazonKinesis using
* the specified AWS account credentials and client configuration options.
*
* If AWS session credentials are passed in, then those credentials will be
* used to authenticate requests. Otherwise, if AWS long-term credentials
* are passed in, then session management will be handled automatically by
* the SDK. Callers are encouraged to use long-term credentials and let the
* SDK handle starting and renewing sessions.
*
* Automatically managed sessions will be shared among all clients that use
* the same credentials and service endpoint. To opt out of this behavior,
* explicitly provide an instance of {@link AWSCredentialsProvider} that
* returns {@link AWSSessionCredentials}.
*
* 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 AmazonKinesis (ex: proxy settings,
* retry counts, etc.).
*/
public AmazonKinesisClient(AWSCredentials awsCredentials,
ClientConfiguration clientConfiguration) {
this(new StaticCredentialsProvider(awsCredentials), clientConfiguration);
}
/**
* Constructs a new client to invoke service methods on AmazonKinesis using
* the specified AWS account credentials provider.
*
* If AWS session credentials are passed in, then those credentials will be
* used to authenticate requests. Otherwise, if AWS long-term credentials
* are passed in, then session management will be handled automatically by
* the SDK. Callers are encouraged to use long-term credentials and let the
* SDK handle starting and renewing sessions.
*
* Automatically managed sessions will be shared among all clients that use
* the same credentials and service endpoint. To opt out of this behavior,
* explicitly provide an instance of {@link AWSCredentialsProvider} that
* returns {@link AWSSessionCredentials}.
*
* 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.
*/
public AmazonKinesisClient(AWSCredentialsProvider awsCredentialsProvider) {
this(awsCredentialsProvider, new ClientConfiguration());
}
/**
* Constructs a new client to invoke service methods on AmazonKinesis using
* the specified AWS account credentials provider and client configuration
* options.
*
* If AWS session credentials are passed in, then those credentials will be
* used to authenticate requests. Otherwise, if AWS long-term credentials
* are passed in, then session management will be handled automatically by
* the SDK. Callers are encouraged to use long-term credentials and let the
* SDK handle starting and renewing sessions.
*
* Automatically managed sessions will be shared among all clients that use
* the same credentials and service endpoint. To opt out of this behavior,
* explicitly provide an instance of {@link AWSCredentialsProvider} that
* returns {@link AWSSessionCredentials}.
*
* 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 AmazonKinesis (ex: proxy settings,
* retry counts, etc.).
*/
public AmazonKinesisClient(AWSCredentialsProvider awsCredentialsProvider,
ClientConfiguration clientConfiguration) {
this(awsCredentialsProvider, clientConfiguration, new UrlHttpClient(clientConfiguration));
}
/**
* Constructs a new client to invoke service methods on AmazonKinesis 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 AmazonKinesis (ex: proxy settings,
* retry counts, etc.).
* @param requestMetricCollector optional request metric collector
*/
@Deprecated
public AmazonKinesisClient(AWSCredentialsProvider awsCredentialsProvider,
ClientConfiguration clientConfiguration,
RequestMetricCollector requestMetricCollector) {
super(adjustClientConfiguration(clientConfiguration), requestMetricCollector);
this.awsCredentialsProvider = awsCredentialsProvider;
init();
}
/**
* Constructs a new client to invoke service methods on AmazonKinesis 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 AmazonKinesis (ex: proxy settings,
* retry counts, etc.).
* @param httpClient A http client
*/
public AmazonKinesisClient(AWSCredentialsProvider awsCredentialsProvider,
ClientConfiguration clientConfiguration, HttpClient httpClient) {
super(adjustClientConfiguration(clientConfiguration), httpClient);
this.awsCredentialsProvider = awsCredentialsProvider;
init();
}
private void init() {
jsonErrorUnmarshallers = new ArrayList();
jsonErrorUnmarshallers.add(new ExpiredIteratorExceptionUnmarshaller());
jsonErrorUnmarshallers.add(new InvalidArgumentExceptionUnmarshaller());
jsonErrorUnmarshallers.add(new LimitExceededExceptionUnmarshaller());
jsonErrorUnmarshallers.add(new ProvisionedThroughputExceededExceptionUnmarshaller());
jsonErrorUnmarshallers.add(new ResourceInUseExceptionUnmarshaller());
jsonErrorUnmarshallers.add(new ResourceNotFoundExceptionUnmarshaller());
jsonErrorUnmarshallers.add(new JsonErrorUnmarshaller());
// calling this.setEndPoint(...) will also modify the signer accordingly
this.setEndpoint("kinesis.us-east-1.amazonaws.com");
HandlerChainFactory chainFactory = new HandlerChainFactory();
requestHandler2s.addAll(chainFactory.newRequestHandlerChain(
"/com/amazonaws/services/kinesis/request.handlers"));
requestHandler2s.addAll(chainFactory.newRequestHandler2Chain(
"/com/amazonaws/services/kinesis/request.handler2s"));
}
private static ClientConfiguration adjustClientConfiguration(ClientConfiguration orig) {
ClientConfiguration config = orig;
return config;
}
/**
*
* Adds or updates tags for the specified Amazon Kinesis stream. Each stream
* can have up to 10 tags.
*
*
* If tags have already been assigned to the stream,
* AddTagsToStream
overwrites any existing tags that correspond
* to the specified tag keys.
*
*
* @param addTagsToStreamRequest
* Represents the input for AddTagsToStream
.
*
* @throws ResourceNotFoundException
* @throws ResourceInUseException
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void addTagsToStream(AddTagsToStreamRequest addTagsToStreamRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(addTagsToStreamRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AddTagsToStreamRequestMarshaller().marshall(addTagsToStreamRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
JsonResponseHandler responseHandler = new JsonResponseHandler(null);
invoke(request, responseHandler, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Creates an Amazon Kinesis stream. A stream captures and transports data
* records that are continuously emitted from different data sources or
* producers. Scale-out within a stream is explicitly supported by
* means of shards, which are uniquely identified groups of data records in
* a stream.
*
*
* You specify and control the number of shards that a stream is composed
* of. Each shard can support reads up to 5 transactions per second, up to a
* maximum data read total of 2 MB per second. Each shard can support writes
* up to 1,000 records per second, up to a maximum data write total of 1 MB
* per second. You can add shards to a stream if the amount of data input
* increases and you can remove shards if the amount of data input
* decreases.
*
*
* The stream name identifies the stream. The name is scoped to the AWS
* account used by the application. It is also scoped by region. That is,
* two streams in two different accounts can have the same name, and two
* streams in the same account, but in two different regions, can have the
* same name.
*
*
* CreateStream
is an asynchronous operation. Upon receiving a
* CreateStream
request, Amazon Kinesis immediately returns and
* sets the stream status to CREATING
. After the stream is
* created, Amazon Kinesis sets the stream status to ACTIVE
.
* You should perform read and write operations only on an
* ACTIVE
stream.
*
*
* You receive a LimitExceededException
when making a
* CreateStream
request if you try to do one of the following:
*
*
* - Have more than five streams in the
CREATING
state at any
* point in time.
* - Create more shards than are authorized for your account.
*
*
* For the default shard limit for an AWS account, see Streams Limits in the Amazon Kinesis Streams Developer Guide.
* If you need to increase this limit, contact AWS Support.
*
*
* You can use DescribeStream
to check the stream status, which
* is returned in StreamStatus
.
*
*
* CreateStream has a limit of 5 transactions per second per account.
*
*
* @param createStreamRequest
* Represents the input for CreateStream
.
*
* @throws ResourceInUseException
* @throws LimitExceededException
* @throws InvalidArgumentException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void createStream(CreateStreamRequest createStreamRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(createStreamRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateStreamRequestMarshaller().marshall(createStreamRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
JsonResponseHandler responseHandler = new JsonResponseHandler(null);
invoke(request, responseHandler, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Decreases the Amazon Kinesis stream's retention period, which is the
* length of time data records are accessible after they are added to the
* stream. The minimum value of a stream's retention period is 24 hours.
*
*
* This operation may result in lost data. For example, if the stream's
* retention period is 48 hours and is decreased to 24 hours, any data
* already in the stream that is older than 24 hours is inaccessible.
*
*
* @param decreaseStreamRetentionPeriodRequest
* Represents the input for DecreaseStreamRetentionPeriod.
*
* @throws ResourceInUseException
* @throws ResourceNotFoundException
* @throws LimitExceededException
* @throws InvalidArgumentException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void decreaseStreamRetentionPeriod(
DecreaseStreamRetentionPeriodRequest decreaseStreamRetentionPeriodRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(decreaseStreamRetentionPeriodRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DecreaseStreamRetentionPeriodRequestMarshaller()
.marshall(decreaseStreamRetentionPeriodRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
JsonResponseHandler responseHandler = new JsonResponseHandler(null);
invoke(request, responseHandler, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Deletes an Amazon Kinesis stream and all its shards and data. You must
* shut down any applications that are operating on the stream before you
* delete the stream. If an application attempts to operate on a deleted
* stream, it will receive the exception
* ResourceNotFoundException
.
*
*
* If the stream is in the ACTIVE
state, you can delete it.
* After a DeleteStream
request, the specified stream is in the
* DELETING
state until Amazon Kinesis completes the deletion.
*
*
* Note: Amazon Kinesis might continue to accept data read and write
* operations, such as PutRecord, PutRecords, and
* GetRecords, on a stream in the DELETING
state until
* the stream deletion is complete.
*
*
* When you delete a stream, any shards in that stream are also deleted, and
* any tags are dissociated from the stream.
*
*
* You can use the DescribeStream operation to check the state of the
* stream, which is returned in StreamStatus
.
*
*
* DeleteStream has a limit of 5 transactions per second per account.
*
*
* @param deleteStreamRequest
* Represents the input for DeleteStream.
*
* @throws ResourceNotFoundException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void deleteStream(DeleteStreamRequest deleteStreamRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(deleteStreamRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteStreamRequestMarshaller().marshall(deleteStreamRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
JsonResponseHandler responseHandler = new JsonResponseHandler(null);
invoke(request, responseHandler, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Describes the specified Amazon Kinesis stream.
*
*
* The information about the stream includes its current status, its Amazon
* Resource Name (ARN), and an array of shard objects. For each shard
* object, there is information about the hash key and sequence number
* ranges that the shard spans, and the IDs of any earlier shards that
* played in a role in creating the shard. A sequence number is the
* identifier associated with every record ingested in the stream. The
* sequence number is assigned when a record is put into the stream.
*
*
* You can limit the number of returned shards using the Limit
* parameter. The number of shards in a stream may be too large to return
* from a single call to DescribeStream
. You can detect this by
* using the HasMoreShards
flag in the returned output.
* HasMoreShards
is set to true
when there is more
* data available.
*
*
* DescribeStream
is a paginated operation. If there are more
* shards available, you can request them using the shard ID of the last
* shard returned. Specify this ID in the ExclusiveStartShardId
* parameter in a subsequent request to DescribeStream
.
*
*
* There are no guarantees about the chronological order shards returned in
* DescribeStream
results. If you want to process shards in
* chronological order, use ParentShardId
to track lineage to
* the oldest shard.
*
*
* DescribeStream has a limit of 10 transactions per second per
* account.
*
*
* @param describeStreamRequest
* Represents the input for DescribeStream
.
*
* @return describeStreamResult The response from the DescribeStream service
* method, as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public DescribeStreamResult describeStream(DescribeStreamRequest describeStreamRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(describeStreamRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeStreamRequestMarshaller().marshall(describeStreamRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new DescribeStreamResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Disables enhanced monitoring.
*
*
* @param disableEnhancedMonitoringRequest
* Represents the input for DisableEnhancedMonitoring.
*
* @return disableEnhancedMonitoringResult The response from the
* DisableEnhancedMonitoring service method, as returned by Amazon
* Kinesis Streams.
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws ResourceInUseException
* @throws ResourceNotFoundException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public DisableEnhancedMonitoringResult disableEnhancedMonitoring(
DisableEnhancedMonitoringRequest disableEnhancedMonitoringRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(disableEnhancedMonitoringRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DisableEnhancedMonitoringRequestMarshaller()
.marshall(disableEnhancedMonitoringRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new DisableEnhancedMonitoringResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Enables enhanced Amazon Kinesis stream monitoring for shard-level
* metrics.
*
*
* @param enableEnhancedMonitoringRequest
* Represents the input for EnableEnhancedMonitoring.
*
* @return enableEnhancedMonitoringResult The response from the
* EnableEnhancedMonitoring service method, as returned by Amazon
* Kinesis Streams.
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws ResourceInUseException
* @throws ResourceNotFoundException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public EnableEnhancedMonitoringResult enableEnhancedMonitoring(
EnableEnhancedMonitoringRequest enableEnhancedMonitoringRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(enableEnhancedMonitoringRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new EnableEnhancedMonitoringRequestMarshaller()
.marshall(enableEnhancedMonitoringRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new EnableEnhancedMonitoringResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Gets data records from an Amazon Kinesis stream's shard.
*
*
* Specify a shard iterator using the ShardIterator
parameter.
* The shard iterator specifies the position in the shard from which you
* want to start reading data records sequentially. If there are no records
* available in the portion of the shard that the iterator points to,
* GetRecords returns an empty list. Note that it might take multiple
* calls to get to a portion of the shard that contains records.
*
*
* You can scale by provisioning multiple shards per stream while
* considering service limits (for more information, see Streams Limits in the Amazon Kinesis Streams Developer
* Guide). Your application should have one thread per shard, each
* reading continuously from its stream. To read from a stream continually,
* call GetRecords in a loop. Use GetShardIterator to get the
* shard iterator to specify in the first GetRecords call.
* GetRecords returns a new shard iterator in
* NextShardIterator
. Specify the shard iterator returned in
* NextShardIterator
in subsequent calls to GetRecords.
* Note that if the shard has been closed, the shard iterator can't return
* more data and GetRecords returns null
in
* NextShardIterator
. You can terminate the loop when the shard
* is closed, or when the shard iterator reaches the record with the
* sequence number or other attribute that marks it as the last record to
* process.
*
*
* Each data record can be up to 1 MB in size, and each shard can read up to
* 2 MB per second. You can ensure that your calls don't exceed the maximum
* supported size or throughput by using the Limit
parameter to
* specify the maximum number of records that GetRecords can return.
* Consider your average record size when determining this limit.
*
*
* The size of the data returned by GetRecords varies depending on
* the utilization of the shard. The maximum size of data that
* GetRecords can return is 10 MB. If a call returns this amount of
* data, subsequent calls made within the next 5 seconds throw
* ProvisionedThroughputExceededException
. If there is
* insufficient provisioned throughput on the shard, subsequent calls made
* within the next 1 second throw
* ProvisionedThroughputExceededException
. Note that
* GetRecords won't return any data when it throws an exception. For
* this reason, we recommend that you wait one second between calls to
* GetRecords; however, it's possible that the application will get
* exceptions for longer than 1 second.
*
*
* To detect whether the application is falling behind in processing, you
* can use the MillisBehindLatest
response attribute. You can
* also monitor the stream using CloudWatch metrics and other mechanisms
* (see Monitoring in the Amazon Kinesis Streams Developer Guide).
*
*
* Each Amazon Kinesis record includes a value,
* ApproximateArrivalTimestamp
, that is set when a stream
* successfully receives and stores a record. This is commonly referred to
* as a server-side timestamp, whereas a client-side timestamp is set when a
* data producer creates or sends the record to a stream (a data producer is
* any data source putting data records into a stream, for example with
* PutRecords). The timestamp has millisecond precision. There are no
* guarantees about the timestamp accuracy, or that the timestamp is always
* increasing. For example, records in a shard or across a stream might have
* timestamps that are out of order.
*
*
* @param getRecordsRequest
* Represents the input for GetRecords.
*
* @return getRecordsResult The response from the GetRecords service method,
* as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws ProvisionedThroughputExceededException
* @throws ExpiredIteratorException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public GetRecordsResult getRecords(GetRecordsRequest getRecordsRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(getRecordsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new GetRecordsRequestMarshaller().marshall(getRecordsRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new GetRecordsResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Gets an Amazon Kinesis shard iterator. A shard iterator expires five
* minutes after it is returned to the requester.
*
*
* A shard iterator specifies the shard position from which to start reading
* data records sequentially. The position is specified using the sequence
* number of a data record in a shard. A sequence number is the identifier
* associated with every record ingested in the stream, and is assigned when
* a record is put into the stream. Each stream has one or more shards.
*
*
* You must specify the shard iterator type. For example, you can set the
* ShardIteratorType
parameter to read exactly from the
* position denoted by a specific sequence number by using the
* AT_SEQUENCE_NUMBER
shard iterator type, or right after the
* sequence number by using the AFTER_SEQUENCE_NUMBER
shard
* iterator type, using sequence numbers returned by earlier calls to
* PutRecord, PutRecords, GetRecords, or
* DescribeStream. In the request, you can specify the shard iterator
* type AT_TIMESTAMP
to read records from an arbitrary point in
* time, TRIM_HORIZON
to cause ShardIterator
to
* point to the last untrimmed record in the shard in the system (the oldest
* data record in the shard), or LATEST
so that you always read
* the most recent data in the shard.
*
*
* When you read repeatedly from a stream, use a GetShardIterator
* request to get the first shard iterator for use in your first
* GetRecords request and for subsequent reads use the shard iterator
* returned by the GetRecords request in
* NextShardIterator
. A new shard iterator is returned by every
* GetRecords request in NextShardIterator
, which you
* use in the ShardIterator
parameter of the next
* GetRecords request.
*
*
* If a GetShardIterator request is made too often, you receive a
* ProvisionedThroughputExceededException
. For more information
* about throughput limits, see GetRecords, and Streams Limits in the Amazon Kinesis Streams Developer Guide.
*
*
* If the shard is closed, GetShardIterator returns a valid iterator
* for the last sequence number of the shard. Note that a shard can be
* closed as a result of using SplitShard or MergeShards.
*
*
* GetShardIterator has a limit of 5 transactions per second per
* account per open shard.
*
*
* @param getShardIteratorRequest
* Represents the input for GetShardIterator
.
*
* @return getShardIteratorResult The response from the GetShardIterator
* service method, as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws ProvisionedThroughputExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public GetShardIteratorResult getShardIterator(GetShardIteratorRequest getShardIteratorRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(getShardIteratorRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new GetShardIteratorRequestMarshaller().marshall(getShardIteratorRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new GetShardIteratorResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Increases the Amazon Kinesis stream's retention period, which is the
* length of time data records are accessible after they are added to the
* stream. The maximum value of a stream's retention period is 168 hours (7
* days).
*
*
* Upon choosing a longer stream retention period, this operation will
* increase the time period records are accessible that have not yet
* expired. However, it will not make previous data that has expired (older
* than the stream's previous retention period) accessible after the
* operation has been called. For example, if a stream's retention period is
* set to 24 hours and is increased to 168 hours, any data that is older
* than 24 hours will remain inaccessible to consumer applications.
*
*
* @param increaseStreamRetentionPeriodRequest
* Represents the input for IncreaseStreamRetentionPeriod.
*
* @throws ResourceInUseException
* @throws ResourceNotFoundException
* @throws LimitExceededException
* @throws InvalidArgumentException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void increaseStreamRetentionPeriod(
IncreaseStreamRetentionPeriodRequest increaseStreamRetentionPeriodRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(increaseStreamRetentionPeriodRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new IncreaseStreamRetentionPeriodRequestMarshaller()
.marshall(increaseStreamRetentionPeriodRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
JsonResponseHandler responseHandler = new JsonResponseHandler(null);
invoke(request, responseHandler, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Lists your Amazon Kinesis streams.
*
*
* The number of streams may be too large to return from a single call to
* ListStreams
. You can limit the number of returned streams
* using the Limit
parameter. If you do not specify a value for
* the Limit
parameter, Amazon Kinesis uses the default limit,
* which is currently 10.
*
*
* You can detect if there are more streams available to list by using the
* HasMoreStreams
flag from the returned output. If there are
* more streams available, you can request more streams by using the name of
* the last stream returned by the ListStreams
request in the
* ExclusiveStartStreamName
parameter in a subsequent request
* to ListStreams
. The group of stream names returned by the
* subsequent request is then added to the list. You can continue this
* process until all the stream names have been collected in the list.
*
*
* ListStreams has a limit of 5 transactions per second per account.
*
*
* @param listStreamsRequest
* Represents the input for ListStreams
.
*
* @return listStreamsResult The response from the ListStreams service
* method, as returned by Amazon Kinesis Streams.
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public ListStreamsResult listStreams(ListStreamsRequest listStreamsRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(listStreamsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ListStreamsRequestMarshaller().marshall(listStreamsRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new ListStreamsResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Lists the tags for the specified Amazon Kinesis stream.
*
*
* @param listTagsForStreamRequest
* Represents the input for ListTagsForStream
.
*
* @return listTagsForStreamResult The response from the ListTagsForStream
* service method, as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public ListTagsForStreamResult listTagsForStream(
ListTagsForStreamRequest listTagsForStreamRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(listTagsForStreamRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ListTagsForStreamRequestMarshaller()
.marshall(listTagsForStreamRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new ListTagsForStreamResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Merges two adjacent shards in an Amazon Kinesis stream and combines them
* into a single shard to reduce the stream's capacity to ingest and
* transport data. Two shards are considered adjacent if the union of the
* hash key ranges for the two shards form a contiguous set with no gaps.
* For example, if you have two shards, one with a hash key range of
* 276...381 and the other with a hash key range of 382...454, then you
* could merge these two shards into a single shard that would have a hash
* key range of 276...454. After the merge, the single child shard receives
* data for all hash key values covered by the two parent shards.
*
*
* MergeShards
is called when there is a need to reduce the
* overall capacity of a stream because of excess capacity that is not being
* used. You must specify the shard to be merged and the adjacent shard for
* a stream. For more information about merging shards, see Merge Two Shards in the Amazon Kinesis Streams Developer
* Guide.
*
*
* If the stream is in the ACTIVE
state, you can call
* MergeShards
. If a stream is in the CREATING
,
* UPDATING
, or DELETING
state,
* MergeShards
returns a ResourceInUseException
.
* If the specified stream does not exist, MergeShards
returns
* a ResourceNotFoundException
.
*
*
* You can use DescribeStream to check the state of the stream, which
* is returned in StreamStatus
.
*
*
* MergeShards
is an asynchronous operation. Upon receiving a
* MergeShards
request, Amazon Kinesis immediately returns a
* response and sets the StreamStatus
to UPDATING
.
* After the operation is completed, Amazon Kinesis sets the
* StreamStatus
to ACTIVE
. Read and write
* operations continue to work while the stream is in the
* UPDATING
state.
*
*
* You use DescribeStream to determine the shard IDs that are
* specified in the MergeShards
request.
*
*
* If you try to operate on too many streams in parallel using
* CreateStream, DeleteStream, MergeShards
or
* SplitShard, you will receive a LimitExceededException
* .
*
*
* MergeShards
has limit of 5 transactions per second per
* account.
*
*
* @param mergeShardsRequest
* Represents the input for MergeShards
.
*
* @throws ResourceNotFoundException
* @throws ResourceInUseException
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void mergeShards(MergeShardsRequest mergeShardsRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(mergeShardsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new MergeShardsRequestMarshaller().marshall(mergeShardsRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
JsonResponseHandler responseHandler = new JsonResponseHandler(null);
invoke(request, responseHandler, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Writes a single data record into an Amazon Kinesis stream. Call
* PutRecord
to send data into the stream for real-time
* ingestion and subsequent processing, one record at a time. Each shard can
* support writes up to 1,000 records per second, up to a maximum data write
* total of 1 MB per second.
*
*
* You must specify the name of the stream that captures, stores, and
* transports the data; a partition key; and the data blob itself.
*
*
* The data blob can be any type of data; for example, a segment from a log
* file, geographic/location data, website clickstream data, and so on.
*
*
* The partition key is used by Amazon Kinesis to distribute data across
* shards. Amazon Kinesis segregates the data records that belong to a
* stream into multiple shards, using the partition key associated with each
* data record to determine which shard a given data record belongs to.
*
*
* Partition keys are Unicode strings, with a maximum length limit of 256
* characters for each key. An MD5 hash function is used to map partition
* keys to 128-bit integer values and to map associated data records to
* shards using the hash key ranges of the shards. You can override hashing
* the partition key to determine the shard by explicitly specifying a hash
* value using the ExplicitHashKey
parameter. For more
* information, see Adding Data to a Stream in the Amazon Kinesis Streams Developer
* Guide.
*
*
* PutRecord
returns the shard ID of where the data record was
* placed and the sequence number that was assigned to the data record.
*
*
* Sequence numbers increase over time and are specific to a shard within a
* stream, not across all shards within a stream. To guarantee strictly
* increasing ordering, write serially to a shard and use the
* SequenceNumberForOrdering
parameter. For more information,
* see Adding Data to a Stream in the Amazon Kinesis Streams Developer
* Guide.
*
*
* If a PutRecord
request cannot be processed because of
* insufficient provisioned throughput on the shard involved in the request,
* PutRecord
throws
* ProvisionedThroughputExceededException
.
*
*
* Data records are accessible for only 24 hours from the time that they are
* added to a stream.
*
*
* @param putRecordRequest
* Represents the input for PutRecord
.
*
* @return putRecordResult The response from the PutRecord service method,
* as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws ProvisionedThroughputExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public PutRecordResult putRecord(PutRecordRequest putRecordRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(putRecordRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new PutRecordRequestMarshaller().marshall(putRecordRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new PutRecordResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Writes multiple data records into an Amazon Kinesis stream in a single
* call (also referred to as a PutRecords
request). Use this
* operation to send data into the stream for data ingestion and processing.
*
*
* Each PutRecords
request can support up to 500 records. Each
* record in the request can be as large as 1 MB, up to a limit of 5 MB for
* the entire request, including partition keys. Each shard can support
* writes up to 1,000 records per second, up to a maximum data write total
* of 1 MB per second.
*
*
* You must specify the name of the stream that captures, stores, and
* transports the data; and an array of request Records
, with
* each record in the array requiring a partition key and data blob. The
* record size limit applies to the total size of the partition key and data
* blob.
*
*
* The data blob can be any type of data; for example, a segment from a log
* file, geographic/location data, website clickstream data, and so on.
*
*
* The partition key is used by Amazon Kinesis as input to a hash function
* that maps the partition key and associated data to a specific shard. An
* MD5 hash function is used to map partition keys to 128-bit integer values
* and to map associated data records to shards. As a result of this hashing
* mechanism, all data records with the same partition key map to the same
* shard within the stream. For more information, see Adding Data to a Stream in the Amazon Kinesis Streams Developer
* Guide.
*
*
* Each record in the Records
array may include an optional
* parameter, ExplicitHashKey
, which overrides the partition
* key to shard mapping. This parameter allows a data producer to determine
* explicitly the shard where the record is stored. For more information,
* see Adding Multiple Records with PutRecords in the Amazon Kinesis
* Streams Developer Guide.
*
*
* The PutRecords
response includes an array of response
* Records
. Each record in the response array directly
* correlates with a record in the request array using natural ordering,
* from the top to the bottom of the request and response. The response
* Records
array always includes the same number of records as
* the request array.
*
*
* The response Records
array includes both successfully and
* unsuccessfully processed records. Amazon Kinesis attempts to process all
* records in each PutRecords
request. A single record failure
* does not stop the processing of subsequent records.
*
*
* A successfully-processed record includes ShardId
and
* SequenceNumber
values. The ShardId
parameter
* identifies the shard in the stream where the record is stored. The
* SequenceNumber
parameter is an identifier assigned to the
* put record, unique to all records in the stream.
*
*
* An unsuccessfully-processed record includes ErrorCode
and
* ErrorMessage
values. ErrorCode
reflects the
* type of error and can be one of the following values:
* ProvisionedThroughputExceededException
or
* InternalFailure
. ErrorMessage
provides more
* detailed information about the
* ProvisionedThroughputExceededException
exception including
* the account ID, stream name, and shard ID of the record that was
* throttled. For more information about partially successful responses, see
* Adding Multiple Records with PutRecords in the Amazon Kinesis
* Streams Developer Guide.
*
*
* By default, data records are accessible for only 24 hours from the time
* that they are added to an Amazon Kinesis stream. This retention period
* can be modified using the DecreaseStreamRetentionPeriod and
* IncreaseStreamRetentionPeriod operations.
*
*
* @param putRecordsRequest
* A PutRecords
request.
*
* @return putRecordsResult The response from the PutRecords service method,
* as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws ProvisionedThroughputExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public PutRecordsResult putRecords(PutRecordsRequest putRecordsRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(putRecordsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new PutRecordsRequestMarshaller().marshall(putRecordsRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
Unmarshaller unmarshaller = new PutRecordsResultJsonUnmarshaller();
JsonResponseHandler responseHandler = new JsonResponseHandler(
unmarshaller);
response = invoke(request, responseHandler, executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Removes tags from the specified Amazon Kinesis stream. Removed tags are
* deleted and cannot be recovered after this operation successfully
* completes.
*
*
* If you specify a tag that does not exist, it is ignored.
*
*
* @param removeTagsFromStreamRequest
* Represents the input for RemoveTagsFromStream
.
*
* @throws ResourceNotFoundException
* @throws ResourceInUseException
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void removeTagsFromStream(RemoveTagsFromStreamRequest removeTagsFromStreamRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(removeTagsFromStreamRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new RemoveTagsFromStreamRequestMarshaller()
.marshall(removeTagsFromStreamRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
JsonResponseHandler responseHandler = new JsonResponseHandler(null);
invoke(request, responseHandler, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Splits a shard into two new shards in the Amazon Kinesis stream to
* increase the stream's capacity to ingest and transport data.
* SplitShard
is called when there is a need to increase the
* overall capacity of a stream because of an expected increase in the
* volume of data records being ingested.
*
*
* You can also use SplitShard
when a shard appears to be
* approaching its maximum utilization; for example, the producers sending
* data into the specific shard are suddenly sending more than previously
* anticipated. You can also call SplitShard
to increase stream
* capacity, so that more Amazon Kinesis applications can simultaneously
* read data from the stream for real-time processing.
*
*
* You must specify the shard to be split and the new hash key, which is the
* position in the shard where the shard gets split in two. In many cases,
* the new hash key might simply be the average of the beginning and ending
* hash key, but it can be any hash key value in the range being mapped into
* the shard. For more information about splitting shards, see Split a Shard in the Amazon Kinesis Streams Developer Guide.
*
*
* You can use DescribeStream to determine the shard ID and hash key
* values for the ShardToSplit
and
* NewStartingHashKey
parameters that are specified in the
* SplitShard
request.
*
*
* SplitShard
is an asynchronous operation. Upon receiving a
* SplitShard
request, Amazon Kinesis immediately returns a
* response and sets the stream status to UPDATING
. After the
* operation is completed, Amazon Kinesis sets the stream status to
* ACTIVE
. Read and write operations continue to work while the
* stream is in the UPDATING
state.
*
*
* You can use DescribeStream
to check the status of the
* stream, which is returned in StreamStatus
. If the stream is
* in the ACTIVE
state, you can call SplitShard
.
* If a stream is in CREATING
or UPDATING
or
* DELETING
states, DescribeStream
returns a
* ResourceInUseException
.
*
*
* If the specified stream does not exist, DescribeStream
* returns a ResourceNotFoundException
. If you try to create
* more shards than are authorized for your account, you receive a
* LimitExceededException
.
*
*
* For the default shard limit for an AWS account, see Streams Limits in the Amazon Kinesis Streams Developer Guide.
* If you need to increase this limit, contact AWS Support.
*
*
* If you try to operate on too many streams simultaneously using
* CreateStream, DeleteStream, MergeShards, and/or
* SplitShard, you receive a LimitExceededException
.
*
*
* SplitShard
has limit of 5 transactions per second per
* account.
*
*
* @param splitShardRequest
* Represents the input for SplitShard
.
*
* @throws ResourceNotFoundException
* @throws ResourceInUseException
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void splitShard(SplitShardRequest splitShardRequest)
throws AmazonServiceException, AmazonClientException {
ExecutionContext executionContext = createExecutionContext(splitShardRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new SplitShardRequestMarshaller().marshall(splitShardRequest);
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
JsonResponseHandler responseHandler = new JsonResponseHandler(null);
invoke(request, responseHandler, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, response, LOGGING_AWS_REQUEST_METRIC);
}
}
/**
*
* Creates an Amazon Kinesis stream. A stream captures and transports data
* records that are continuously emitted from different data sources or
* producers. Scale-out within a stream is explicitly supported by
* means of shards, which are uniquely identified groups of data records in
* a stream.
*
*
* You specify and control the number of shards that a stream is composed
* of. Each shard can support reads up to 5 transactions per second, up to a
* maximum data read total of 2 MB per second. Each shard can support writes
* up to 1,000 records per second, up to a maximum data write total of 1 MB
* per second. You can add shards to a stream if the amount of data input
* increases and you can remove shards if the amount of data input
* decreases.
*
*
* The stream name identifies the stream. The name is scoped to the AWS
* account used by the application. It is also scoped by region. That is,
* two streams in two different accounts can have the same name, and two
* streams in the same account, but in two different regions, can have the
* same name.
*
*
* CreateStream
is an asynchronous operation. Upon receiving a
* CreateStream
request, Amazon Kinesis immediately returns and
* sets the stream status to CREATING
. After the stream is
* created, Amazon Kinesis sets the stream status to ACTIVE
.
* You should perform read and write operations only on an
* ACTIVE
stream.
*
*
* You receive a LimitExceededException
when making a
* CreateStream
request if you try to do one of the following:
*
*
* - Have more than five streams in the
CREATING
state at any
* point in time.
* - Create more shards than are authorized for your account.
*
*
* For the default shard limit for an AWS account, see Streams Limits in the Amazon Kinesis Streams Developer Guide.
* If you need to increase this limit, contact AWS Support.
*
*
* You can use DescribeStream
to check the stream status, which
* is returned in StreamStatus
.
*
*
* CreateStream has a limit of 5 transactions per second per account.
*
*
* @param streamName
* A name to identify the stream. The stream name is scoped to
* the AWS account used by the application that creates the
* stream. It is also scoped by region. That is, two streams in
* two different AWS accounts can have the same name, and two
* streams in the same AWS account but in two different regions
* can have the same name.
*
* @param shardCount
* The number of shards that the stream will use. The throughput
* of the stream is a function of the number of shards; more
* shards are required for greater provisioned throughput.
*
*
* DefaultShardLimit;
*
* @throws ResourceInUseException
* @throws LimitExceededException
* @throws InvalidArgumentException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void createStream(String streamName, Integer shardCount)
throws AmazonServiceException, AmazonClientException {
CreateStreamRequest createStreamRequest = new CreateStreamRequest();
createStreamRequest.setStreamName(streamName);
createStreamRequest.setShardCount(shardCount);
createStream(createStreamRequest);
}
/**
*
* Deletes an Amazon Kinesis stream and all its shards and data. You must
* shut down any applications that are operating on the stream before you
* delete the stream. If an application attempts to operate on a deleted
* stream, it will receive the exception
* ResourceNotFoundException
.
*
*
* If the stream is in the ACTIVE
state, you can delete it.
* After a DeleteStream
request, the specified stream is in the
* DELETING
state until Amazon Kinesis completes the deletion.
*
*
* Note: Amazon Kinesis might continue to accept data read and write
* operations, such as PutRecord, PutRecords, and
* GetRecords, on a stream in the DELETING
state until
* the stream deletion is complete.
*
*
* When you delete a stream, any shards in that stream are also deleted, and
* any tags are dissociated from the stream.
*
*
* You can use the DescribeStream operation to check the state of the
* stream, which is returned in StreamStatus
.
*
*
* DeleteStream has a limit of 5 transactions per second per account.
*
*
* @param streamName
* The name of the stream to delete.
*
* @throws ResourceNotFoundException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void deleteStream(String streamName)
throws AmazonServiceException, AmazonClientException {
DeleteStreamRequest deleteStreamRequest = new DeleteStreamRequest();
deleteStreamRequest.setStreamName(streamName);
deleteStream(deleteStreamRequest);
}
/**
*
* Describes the specified Amazon Kinesis stream.
*
*
* The information about the stream includes its current status, its Amazon
* Resource Name (ARN), and an array of shard objects. For each shard
* object, there is information about the hash key and sequence number
* ranges that the shard spans, and the IDs of any earlier shards that
* played in a role in creating the shard. A sequence number is the
* identifier associated with every record ingested in the stream. The
* sequence number is assigned when a record is put into the stream.
*
*
* You can limit the number of returned shards using the Limit
* parameter. The number of shards in a stream may be too large to return
* from a single call to DescribeStream
. You can detect this by
* using the HasMoreShards
flag in the returned output.
* HasMoreShards
is set to true
when there is more
* data available.
*
*
* DescribeStream
is a paginated operation. If there are more
* shards available, you can request them using the shard ID of the last
* shard returned. Specify this ID in the ExclusiveStartShardId
* parameter in a subsequent request to DescribeStream
.
*
*
* There are no guarantees about the chronological order shards returned in
* DescribeStream
results. If you want to process shards in
* chronological order, use ParentShardId
to track lineage to
* the oldest shard.
*
*
* DescribeStream has a limit of 10 transactions per second per
* account.
*
*
* @param streamName
* The name of the stream to describe.
*
* @return describeStreamResult The response from the DescribeStream service
* method, as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public DescribeStreamResult describeStream(String streamName)
throws AmazonServiceException, AmazonClientException {
DescribeStreamRequest describeStreamRequest = new DescribeStreamRequest();
describeStreamRequest.setStreamName(streamName);
return describeStream(describeStreamRequest);
}
/**
*
* Describes the specified Amazon Kinesis stream.
*
*
* The information about the stream includes its current status, its Amazon
* Resource Name (ARN), and an array of shard objects. For each shard
* object, there is information about the hash key and sequence number
* ranges that the shard spans, and the IDs of any earlier shards that
* played in a role in creating the shard. A sequence number is the
* identifier associated with every record ingested in the stream. The
* sequence number is assigned when a record is put into the stream.
*
*
* You can limit the number of returned shards using the Limit
* parameter. The number of shards in a stream may be too large to return
* from a single call to DescribeStream
. You can detect this by
* using the HasMoreShards
flag in the returned output.
* HasMoreShards
is set to true
when there is more
* data available.
*
*
* DescribeStream
is a paginated operation. If there are more
* shards available, you can request them using the shard ID of the last
* shard returned. Specify this ID in the ExclusiveStartShardId
* parameter in a subsequent request to DescribeStream
.
*
*
* There are no guarantees about the chronological order shards returned in
* DescribeStream
results. If you want to process shards in
* chronological order, use ParentShardId
to track lineage to
* the oldest shard.
*
*
* DescribeStream has a limit of 10 transactions per second per
* account.
*
*
* @param streamName
* The name of the stream to describe.
*
* @param exclusiveStartShardId
* The shard ID of the shard to start with.
*
* @return describeStreamResult The response from the DescribeStream service
* method, as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public DescribeStreamResult describeStream(String streamName, String exclusiveStartShardId)
throws AmazonServiceException, AmazonClientException {
DescribeStreamRequest describeStreamRequest = new DescribeStreamRequest();
describeStreamRequest.setStreamName(streamName);
describeStreamRequest.setExclusiveStartShardId(exclusiveStartShardId);
return describeStream(describeStreamRequest);
}
/**
*
* Describes the specified Amazon Kinesis stream.
*
*
* The information about the stream includes its current status, its Amazon
* Resource Name (ARN), and an array of shard objects. For each shard
* object, there is information about the hash key and sequence number
* ranges that the shard spans, and the IDs of any earlier shards that
* played in a role in creating the shard. A sequence number is the
* identifier associated with every record ingested in the stream. The
* sequence number is assigned when a record is put into the stream.
*
*
* You can limit the number of returned shards using the Limit
* parameter. The number of shards in a stream may be too large to return
* from a single call to DescribeStream
. You can detect this by
* using the HasMoreShards
flag in the returned output.
* HasMoreShards
is set to true
when there is more
* data available.
*
*
* DescribeStream
is a paginated operation. If there are more
* shards available, you can request them using the shard ID of the last
* shard returned. Specify this ID in the ExclusiveStartShardId
* parameter in a subsequent request to DescribeStream
.
*
*
* There are no guarantees about the chronological order shards returned in
* DescribeStream
results. If you want to process shards in
* chronological order, use ParentShardId
to track lineage to
* the oldest shard.
*
*
* DescribeStream has a limit of 10 transactions per second per
* account.
*
*
* @param streamName
* The name of the stream to describe.
*
* @param limit
* The maximum number of shards to return.
*
* @param exclusiveStartShardId
* The shard ID of the shard to start with.
*
* @return describeStreamResult The response from the DescribeStream service
* method, as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public DescribeStreamResult describeStream(String streamName, Integer limit,
String exclusiveStartShardId)
throws AmazonServiceException, AmazonClientException {
DescribeStreamRequest describeStreamRequest = new DescribeStreamRequest();
describeStreamRequest.setStreamName(streamName);
describeStreamRequest.setLimit(limit);
describeStreamRequest.setExclusiveStartShardId(exclusiveStartShardId);
return describeStream(describeStreamRequest);
}
/**
*
* Lists your Amazon Kinesis streams.
*
*
* The number of streams may be too large to return from a single call to
* ListStreams
. You can limit the number of returned streams
* using the Limit
parameter. If you do not specify a value for
* the Limit
parameter, Amazon Kinesis uses the default limit,
* which is currently 10.
*
*
* You can detect if there are more streams available to list by using the
* HasMoreStreams
flag from the returned output. If there are
* more streams available, you can request more streams by using the name of
* the last stream returned by the ListStreams
request in the
* ExclusiveStartStreamName
parameter in a subsequent request
* to ListStreams
. The group of stream names returned by the
* subsequent request is then added to the list. You can continue this
* process until all the stream names have been collected in the list.
*
*
* ListStreams has a limit of 5 transactions per second per account.
*
*
* @return listStreamsResult The response from the ListStreams service
* method, as returned by Amazon Kinesis Streams.
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public ListStreamsResult listStreams()
throws AmazonServiceException, AmazonClientException {
ListStreamsRequest listStreamsRequest = new ListStreamsRequest();
return listStreams(listStreamsRequest);
}
/**
*
* Lists your Amazon Kinesis streams.
*
*
* The number of streams may be too large to return from a single call to
* ListStreams
. You can limit the number of returned streams
* using the Limit
parameter. If you do not specify a value for
* the Limit
parameter, Amazon Kinesis uses the default limit,
* which is currently 10.
*
*
* You can detect if there are more streams available to list by using the
* HasMoreStreams
flag from the returned output. If there are
* more streams available, you can request more streams by using the name of
* the last stream returned by the ListStreams
request in the
* ExclusiveStartStreamName
parameter in a subsequent request
* to ListStreams
. The group of stream names returned by the
* subsequent request is then added to the list. You can continue this
* process until all the stream names have been collected in the list.
*
*
* ListStreams has a limit of 5 transactions per second per account.
*
*
* @param exclusiveStartStreamName
* The name of the stream to start the list with.
*
* @return listStreamsResult The response from the ListStreams service
* method, as returned by Amazon Kinesis Streams.
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public ListStreamsResult listStreams(String exclusiveStartStreamName)
throws AmazonServiceException, AmazonClientException {
ListStreamsRequest listStreamsRequest = new ListStreamsRequest();
listStreamsRequest.setExclusiveStartStreamName(exclusiveStartStreamName);
return listStreams(listStreamsRequest);
}
/**
*
* Lists your Amazon Kinesis streams.
*
*
* The number of streams may be too large to return from a single call to
* ListStreams
. You can limit the number of returned streams
* using the Limit
parameter. If you do not specify a value for
* the Limit
parameter, Amazon Kinesis uses the default limit,
* which is currently 10.
*
*
* You can detect if there are more streams available to list by using the
* HasMoreStreams
flag from the returned output. If there are
* more streams available, you can request more streams by using the name of
* the last stream returned by the ListStreams
request in the
* ExclusiveStartStreamName
parameter in a subsequent request
* to ListStreams
. The group of stream names returned by the
* subsequent request is then added to the list. You can continue this
* process until all the stream names have been collected in the list.
*
*
* ListStreams has a limit of 5 transactions per second per account.
*
*
* @param limit
* The maximum number of streams to list.
*
* @param exclusiveStartStreamName
* The name of the stream to start the list with.
*
* @return listStreamsResult The response from the ListStreams service
* method, as returned by Amazon Kinesis Streams.
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public ListStreamsResult listStreams(Integer limit, String exclusiveStartStreamName)
throws AmazonServiceException, AmazonClientException {
ListStreamsRequest listStreamsRequest = new ListStreamsRequest();
listStreamsRequest.setLimit(limit);
listStreamsRequest.setExclusiveStartStreamName(exclusiveStartStreamName);
return listStreams(listStreamsRequest);
}
/**
*
* Merges two adjacent shards in an Amazon Kinesis stream and combines them
* into a single shard to reduce the stream's capacity to ingest and
* transport data. Two shards are considered adjacent if the union of the
* hash key ranges for the two shards form a contiguous set with no gaps.
* For example, if you have two shards, one with a hash key range of
* 276...381 and the other with a hash key range of 382...454, then you
* could merge these two shards into a single shard that would have a hash
* key range of 276...454. After the merge, the single child shard receives
* data for all hash key values covered by the two parent shards.
*
*
* MergeShards
is called when there is a need to reduce the
* overall capacity of a stream because of excess capacity that is not being
* used. You must specify the shard to be merged and the adjacent shard for
* a stream. For more information about merging shards, see Merge Two Shards in the Amazon Kinesis Streams Developer
* Guide.
*
*
* If the stream is in the ACTIVE
state, you can call
* MergeShards
. If a stream is in the CREATING
,
* UPDATING
, or DELETING
state,
* MergeShards
returns a ResourceInUseException
.
* If the specified stream does not exist, MergeShards
returns
* a ResourceNotFoundException
.
*
*
* You can use DescribeStream to check the state of the stream, which
* is returned in StreamStatus
.
*
*
* MergeShards
is an asynchronous operation. Upon receiving a
* MergeShards
request, Amazon Kinesis immediately returns a
* response and sets the StreamStatus
to UPDATING
.
* After the operation is completed, Amazon Kinesis sets the
* StreamStatus
to ACTIVE
. Read and write
* operations continue to work while the stream is in the
* UPDATING
state.
*
*
* You use DescribeStream to determine the shard IDs that are
* specified in the MergeShards
request.
*
*
* If you try to operate on too many streams in parallel using
* CreateStream, DeleteStream, MergeShards
or
* SplitShard, you will receive a LimitExceededException
* .
*
*
* MergeShards
has limit of 5 transactions per second per
* account.
*
*
* @param streamName
* The name of the stream for the merge.
*
* @param shardToMerge
* The shard ID of the shard to combine with the adjacent shard
* for the merge.
*
* @param adjacentShardToMerge
* The shard ID of the adjacent shard for the merge.
*
* @throws ResourceNotFoundException
* @throws ResourceInUseException
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void mergeShards(String streamName, String shardToMerge, String adjacentShardToMerge)
throws AmazonServiceException, AmazonClientException {
MergeShardsRequest mergeShardsRequest = new MergeShardsRequest();
mergeShardsRequest.setStreamName(streamName);
mergeShardsRequest.setShardToMerge(shardToMerge);
mergeShardsRequest.setAdjacentShardToMerge(adjacentShardToMerge);
mergeShards(mergeShardsRequest);
}
/**
*
* Splits a shard into two new shards in the Amazon Kinesis stream to
* increase the stream's capacity to ingest and transport data.
* SplitShard
is called when there is a need to increase the
* overall capacity of a stream because of an expected increase in the
* volume of data records being ingested.
*
*
* You can also use SplitShard
when a shard appears to be
* approaching its maximum utilization; for example, the producers sending
* data into the specific shard are suddenly sending more than previously
* anticipated. You can also call SplitShard
to increase stream
* capacity, so that more Amazon Kinesis applications can simultaneously
* read data from the stream for real-time processing.
*
*
* You must specify the shard to be split and the new hash key, which is the
* position in the shard where the shard gets split in two. In many cases,
* the new hash key might simply be the average of the beginning and ending
* hash key, but it can be any hash key value in the range being mapped into
* the shard. For more information about splitting shards, see Split a Shard in the Amazon Kinesis Streams Developer Guide.
*
*
* You can use DescribeStream to determine the shard ID and hash key
* values for the ShardToSplit
and
* NewStartingHashKey
parameters that are specified in the
* SplitShard
request.
*
*
* SplitShard
is an asynchronous operation. Upon receiving a
* SplitShard
request, Amazon Kinesis immediately returns a
* response and sets the stream status to UPDATING
. After the
* operation is completed, Amazon Kinesis sets the stream status to
* ACTIVE
. Read and write operations continue to work while the
* stream is in the UPDATING
state.
*
*
* You can use DescribeStream
to check the status of the
* stream, which is returned in StreamStatus
. If the stream is
* in the ACTIVE
state, you can call SplitShard
.
* If a stream is in CREATING
or UPDATING
or
* DELETING
states, DescribeStream
returns a
* ResourceInUseException
.
*
*
* If the specified stream does not exist, DescribeStream
* returns a ResourceNotFoundException
. If you try to create
* more shards than are authorized for your account, you receive a
* LimitExceededException
.
*
*
* For the default shard limit for an AWS account, see Streams Limits in the Amazon Kinesis Streams Developer Guide.
* If you need to increase this limit, contact AWS Support.
*
*
* If you try to operate on too many streams simultaneously using
* CreateStream, DeleteStream, MergeShards, and/or
* SplitShard, you receive a LimitExceededException
.
*
*
* SplitShard
has limit of 5 transactions per second per
* account.
*
*
* @param streamName
* The name of the stream for the shard split.
*
* @param shardToSplit
* The shard ID of the shard to split.
*
* @param newStartingHashKey
* A hash key value for the starting hash key of one of the child
* shards created by the split. The hash key range for a given
* shard constitutes a set of ordered contiguous positive
* integers. The value for NewStartingHashKey
must
* be in the range of hash keys being mapped into the shard. The
* NewStartingHashKey
hash key value and all higher
* hash key values in hash key range are distributed to one of
* the child shards. All the lower hash key values in the range
* are distributed to the other child shard.
*
* @throws ResourceNotFoundException
* @throws ResourceInUseException
* @throws InvalidArgumentException
* @throws LimitExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public void splitShard(String streamName, String shardToSplit, String newStartingHashKey)
throws AmazonServiceException, AmazonClientException {
SplitShardRequest splitShardRequest = new SplitShardRequest();
splitShardRequest.setStreamName(streamName);
splitShardRequest.setShardToSplit(shardToSplit);
splitShardRequest.setNewStartingHashKey(newStartingHashKey);
splitShard(splitShardRequest);
}
/**
*
* Writes a single data record into an Amazon Kinesis stream. Call
* PutRecord
to send data into the stream for real-time
* ingestion and subsequent processing, one record at a time. Each shard can
* support writes up to 1,000 records per second, up to a maximum data write
* total of 1 MB per second.
*
*
* You must specify the name of the stream that captures, stores, and
* transports the data; a partition key; and the data blob itself.
*
*
* The data blob can be any type of data; for example, a segment from a log
* file, geographic/location data, website clickstream data, and so on.
*
*
* The partition key is used by Amazon Kinesis to distribute data across
* shards. Amazon Kinesis segregates the data records that belong to a
* stream into multiple shards, using the partition key associated with each
* data record to determine which shard a given data record belongs to.
*
*
* Partition keys are Unicode strings, with a maximum length limit of 256
* characters for each key. An MD5 hash function is used to map partition
* keys to 128-bit integer values and to map associated data records to
* shards using the hash key ranges of the shards. You can override hashing
* the partition key to determine the shard by explicitly specifying a hash
* value using the ExplicitHashKey
parameter. For more
* information, see Adding Data to a Stream in the Amazon Kinesis Streams Developer
* Guide.
*
*
* PutRecord
returns the shard ID of where the data record was
* placed and the sequence number that was assigned to the data record.
*
*
* Sequence numbers increase over time and are specific to a shard within a
* stream, not across all shards within a stream. To guarantee strictly
* increasing ordering, write serially to a shard and use the
* SequenceNumberForOrdering
parameter. For more information,
* see Adding Data to a Stream in the Amazon Kinesis Streams Developer
* Guide.
*
*
* If a PutRecord
request cannot be processed because of
* insufficient provisioned throughput on the shard involved in the request,
* PutRecord
throws
* ProvisionedThroughputExceededException
.
*
*
* Data records are accessible for only 24 hours from the time that they are
* added to a stream.
*
*
* @param streamName
* The name of the stream to put the data record into.
*
* @param data
* The data blob to put into the record, which is base64-encoded
* when the blob is serialized. When the data blob (the payload
* before base64-encoding) is added to the partition key size,
* the total size must not exceed the maximum record size (1 MB).
*
* @param partitionKey
* Determines which shard in the stream the data record is
* assigned to. Partition keys are Unicode strings with a maximum
* length limit of 256 characters for each key. Amazon Kinesis
* uses the partition key as input to a hash function that maps
* the partition key and associated data to a specific shard.
* Specifically, an MD5 hash function is used to map partition
* keys to 128-bit integer values and to map associated data
* records to shards. As a result of this hashing mechanism, all
* data records with the same partition key map to the same shard
* within the stream.
*
* @return putRecordResult The response from the PutRecord service method,
* as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws ProvisionedThroughputExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public PutRecordResult putRecord(String streamName, java.nio.ByteBuffer data,
String partitionKey)
throws AmazonServiceException, AmazonClientException {
PutRecordRequest putRecordRequest = new PutRecordRequest();
putRecordRequest.setStreamName(streamName);
putRecordRequest.setData(data);
putRecordRequest.setPartitionKey(partitionKey);
return putRecord(putRecordRequest);
}
/**
*
* Writes a single data record into an Amazon Kinesis stream. Call
* PutRecord
to send data into the stream for real-time
* ingestion and subsequent processing, one record at a time. Each shard can
* support writes up to 1,000 records per second, up to a maximum data write
* total of 1 MB per second.
*
*
* You must specify the name of the stream that captures, stores, and
* transports the data; a partition key; and the data blob itself.
*
*
* The data blob can be any type of data; for example, a segment from a log
* file, geographic/location data, website clickstream data, and so on.
*
*
* The partition key is used by Amazon Kinesis to distribute data across
* shards. Amazon Kinesis segregates the data records that belong to a
* stream into multiple shards, using the partition key associated with each
* data record to determine which shard a given data record belongs to.
*
*
* Partition keys are Unicode strings, with a maximum length limit of 256
* characters for each key. An MD5 hash function is used to map partition
* keys to 128-bit integer values and to map associated data records to
* shards using the hash key ranges of the shards. You can override hashing
* the partition key to determine the shard by explicitly specifying a hash
* value using the ExplicitHashKey
parameter. For more
* information, see Adding Data to a Stream in the Amazon Kinesis Streams Developer
* Guide.
*
*
* PutRecord
returns the shard ID of where the data record was
* placed and the sequence number that was assigned to the data record.
*
*
* Sequence numbers increase over time and are specific to a shard within a
* stream, not across all shards within a stream. To guarantee strictly
* increasing ordering, write serially to a shard and use the
* SequenceNumberForOrdering
parameter. For more information,
* see Adding Data to a Stream in the Amazon Kinesis Streams Developer
* Guide.
*
*
* If a PutRecord
request cannot be processed because of
* insufficient provisioned throughput on the shard involved in the request,
* PutRecord
throws
* ProvisionedThroughputExceededException
.
*
*
* Data records are accessible for only 24 hours from the time that they are
* added to a stream.
*
*
* @param streamName
* The name of the stream to put the data record into.
*
* @param data
* The data blob to put into the record, which is base64-encoded
* when the blob is serialized. When the data blob (the payload
* before base64-encoding) is added to the partition key size,
* the total size must not exceed the maximum record size (1 MB).
*
* @param partitionKey
* Determines which shard in the stream the data record is
* assigned to. Partition keys are Unicode strings with a maximum
* length limit of 256 characters for each key. Amazon Kinesis
* uses the partition key as input to a hash function that maps
* the partition key and associated data to a specific shard.
* Specifically, an MD5 hash function is used to map partition
* keys to 128-bit integer values and to map associated data
* records to shards. As a result of this hashing mechanism, all
* data records with the same partition key map to the same shard
* within the stream.
*
* @param sequenceNumberForOrdering
* Guarantees strictly increasing sequence numbers, for puts from
* the same client and to the same partition key. Usage: set the
* SequenceNumberForOrdering
of record n to
* the sequence number of record n-1 (as returned in the
* result when putting record n-1). If this parameter is
* not set, records will be coarsely ordered based on arrival
* time.
*
* @return putRecordResult The response from the PutRecord service method,
* as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws ProvisionedThroughputExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public PutRecordResult putRecord(String streamName, java.nio.ByteBuffer data,
String partitionKey, String sequenceNumberForOrdering)
throws AmazonServiceException, AmazonClientException {
PutRecordRequest putRecordRequest = new PutRecordRequest();
putRecordRequest.setStreamName(streamName);
putRecordRequest.setData(data);
putRecordRequest.setPartitionKey(partitionKey);
putRecordRequest.setSequenceNumberForOrdering(sequenceNumberForOrdering);
return putRecord(putRecordRequest);
}
/**
*
* Gets an Amazon Kinesis shard iterator. A shard iterator expires five
* minutes after it is returned to the requester.
*
*
* A shard iterator specifies the shard position from which to start reading
* data records sequentially. The position is specified using the sequence
* number of a data record in a shard. A sequence number is the identifier
* associated with every record ingested in the stream, and is assigned when
* a record is put into the stream. Each stream has one or more shards.
*
*
* You must specify the shard iterator type. For example, you can set the
* ShardIteratorType
parameter to read exactly from the
* position denoted by a specific sequence number by using the
* AT_SEQUENCE_NUMBER
shard iterator type, or right after the
* sequence number by using the AFTER_SEQUENCE_NUMBER
shard
* iterator type, using sequence numbers returned by earlier calls to
* PutRecord, PutRecords, GetRecords, or
* DescribeStream. In the request, you can specify the shard iterator
* type AT_TIMESTAMP
to read records from an arbitrary point in
* time, TRIM_HORIZON
to cause ShardIterator
to
* point to the last untrimmed record in the shard in the system (the oldest
* data record in the shard), or LATEST
so that you always read
* the most recent data in the shard.
*
*
* When you read repeatedly from a stream, use a GetShardIterator
* request to get the first shard iterator for use in your first
* GetRecords request and for subsequent reads use the shard iterator
* returned by the GetRecords request in
* NextShardIterator
. A new shard iterator is returned by every
* GetRecords request in NextShardIterator
, which you
* use in the ShardIterator
parameter of the next
* GetRecords request.
*
*
* If a GetShardIterator request is made too often, you receive a
* ProvisionedThroughputExceededException
. For more information
* about throughput limits, see GetRecords, and Streams Limits in the Amazon Kinesis Streams Developer Guide.
*
*
* If the shard is closed, GetShardIterator returns a valid iterator
* for the last sequence number of the shard. Note that a shard can be
* closed as a result of using SplitShard or MergeShards.
*
*
* GetShardIterator has a limit of 5 transactions per second per
* account per open shard.
*
*
* @param streamName
* The name of the Amazon Kinesis stream.
*
* @param shardId
* The shard ID of the Amazon Kinesis shard to get the iterator
* for.
*
* @param shardIteratorType
* Determines how the shard iterator is used to start reading
* data records from the shard.
*
*
* The following are the valid Amazon Kinesis shard iterator
* types:
*
*
* - AT_SEQUENCE_NUMBER - Start reading from the position
* denoted by a specific sequence number, provided in the value
*
StartingSequenceNumber
.
* - AFTER_SEQUENCE_NUMBER - Start reading right after the
* position denoted by a specific sequence number, provided in
* the value
StartingSequenceNumber
.
* - AT_TIMESTAMP - Start reading from the position denoted by
* a specific timestamp, provided in the value
*
Timestamp
.
* - TRIM_HORIZON - Start reading at the last untrimmed record
* in the shard in the system, which is the oldest data record in
* the shard.
* - LATEST - Start reading just after the most recent record
* in the shard, so that you always read the most recent data in
* the shard.
*
* @return getShardIteratorResult The response from the GetShardIterator
* service method, as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws ProvisionedThroughputExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public GetShardIteratorResult getShardIterator(String streamName, String shardId,
String shardIteratorType)
throws AmazonServiceException, AmazonClientException {
GetShardIteratorRequest getShardIteratorRequest = new GetShardIteratorRequest();
getShardIteratorRequest.setStreamName(streamName);
getShardIteratorRequest.setShardId(shardId);
getShardIteratorRequest.setShardIteratorType(shardIteratorType);
return getShardIterator(getShardIteratorRequest);
}
/**
*
* Gets an Amazon Kinesis shard iterator. A shard iterator expires five
* minutes after it is returned to the requester.
*
*
* A shard iterator specifies the shard position from which to start reading
* data records sequentially. The position is specified using the sequence
* number of a data record in a shard. A sequence number is the identifier
* associated with every record ingested in the stream, and is assigned when
* a record is put into the stream. Each stream has one or more shards.
*
*
* You must specify the shard iterator type. For example, you can set the
* ShardIteratorType
parameter to read exactly from the
* position denoted by a specific sequence number by using the
* AT_SEQUENCE_NUMBER
shard iterator type, or right after the
* sequence number by using the AFTER_SEQUENCE_NUMBER
shard
* iterator type, using sequence numbers returned by earlier calls to
* PutRecord, PutRecords, GetRecords, or
* DescribeStream. In the request, you can specify the shard iterator
* type AT_TIMESTAMP
to read records from an arbitrary point in
* time, TRIM_HORIZON
to cause ShardIterator
to
* point to the last untrimmed record in the shard in the system (the oldest
* data record in the shard), or LATEST
so that you always read
* the most recent data in the shard.
*
*
* When you read repeatedly from a stream, use a GetShardIterator
* request to get the first shard iterator for use in your first
* GetRecords request and for subsequent reads use the shard iterator
* returned by the GetRecords request in
* NextShardIterator
. A new shard iterator is returned by every
* GetRecords request in NextShardIterator
, which you
* use in the ShardIterator
parameter of the next
* GetRecords request.
*
*
* If a GetShardIterator request is made too often, you receive a
* ProvisionedThroughputExceededException
. For more information
* about throughput limits, see GetRecords, and Streams Limits in the Amazon Kinesis Streams Developer Guide.
*
*
* If the shard is closed, GetShardIterator returns a valid iterator
* for the last sequence number of the shard. Note that a shard can be
* closed as a result of using SplitShard or MergeShards.
*
*
* GetShardIterator has a limit of 5 transactions per second per
* account per open shard.
*
*
* @param streamName
* The name of the Amazon Kinesis stream.
*
* @param shardId
* The shard ID of the Amazon Kinesis shard to get the iterator
* for.
*
* @param shardIteratorType
* Determines how the shard iterator is used to start reading
* data records from the shard.
*
*
* The following are the valid Amazon Kinesis shard iterator
* types:
*
*
* - AT_SEQUENCE_NUMBER - Start reading from the position
* denoted by a specific sequence number, provided in the value
*
StartingSequenceNumber
.
* - AFTER_SEQUENCE_NUMBER - Start reading right after the
* position denoted by a specific sequence number, provided in
* the value
StartingSequenceNumber
.
* - AT_TIMESTAMP - Start reading from the position denoted by
* a specific timestamp, provided in the value
*
Timestamp
.
* - TRIM_HORIZON - Start reading at the last untrimmed record
* in the shard in the system, which is the oldest data record in
* the shard.
* - LATEST - Start reading just after the most recent record
* in the shard, so that you always read the most recent data in
* the shard.
*
* @param startingSequenceNumber
* The sequence number of the data record in the shard from which
* to start reading. Used with shard iterator type
* AT_SEQUENCE_NUMBER and AFTER_SEQUENCE_NUMBER.
*
* @return getShardIteratorResult The response from the GetShardIterator
* service method, as returned by Amazon Kinesis Streams.
* @throws ResourceNotFoundException
* @throws InvalidArgumentException
* @throws ProvisionedThroughputExceededException
* @throws AmazonClientException If any internal errors are encountered
* inside the client while attempting to make the request or
* handle the response. For example if a network connection is
* not available.
* @throws AmazonServiceException If an error response is returned by Amazon
* Kinesis Streams indicating either a problem with the data in
* the request, or a server side issue.
*/
public GetShardIteratorResult getShardIterator(String streamName, String shardId,
String shardIteratorType, String startingSequenceNumber)
throws AmazonServiceException, AmazonClientException {
GetShardIteratorRequest getShardIteratorRequest = new GetShardIteratorRequest();
getShardIteratorRequest.setStreamName(streamName);
getShardIteratorRequest.setShardId(shardId);
getShardIteratorRequest.setShardIteratorType(shardIteratorType);
getShardIteratorRequest.setStartingSequenceNumber(startingSequenceNumber);
return getShardIterator(getShardIteratorRequest);
}
/**
* 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.
* @deprecated ResponseMetadata cache can hold up to 50 requests and
* responses in memory and will cause memory issue. This method
* now always returns null.
*/
@Deprecated
public ResponseMetadata getCachedResponseMetadata(AmazonWebServiceRequest request) {
return client.getResponseMetadataForRequest(request);
}
private Response invoke(Request request,
HttpResponseHandler> responseHandler,
ExecutionContext executionContext) {
request.setEndpoint(endpoint);
request.setTimeOffset(timeOffset);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
AWSCredentials credentials;
awsRequestMetrics.startEvent(Field.CredentialsRequestTime);
try {
credentials = awsCredentialsProvider.getCredentials();
} finally {
awsRequestMetrics.endEvent(Field.CredentialsRequestTime);
}
AmazonWebServiceRequest originalRequest = request.getOriginalRequest();
if (originalRequest != null && originalRequest.getRequestCredentials() != null) {
credentials = originalRequest.getRequestCredentials();
}
executionContext.setCredentials(credentials);
JsonErrorResponseHandler errorResponseHandler = new JsonErrorResponseHandler(
jsonErrorUnmarshallers);
Response result = client.execute(request, responseHandler,
errorResponseHandler, executionContext);
return result;
}
}