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/*
* Copyright 2010-2015 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.ec2;
import org.w3c.dom.*;
import java.net.*;
import java.util.*;
import java.util.Map.Entry;
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.regions.*;
import com.amazonaws.transform.*;
import com.amazonaws.util.*;
import com.amazonaws.util.AWSRequestMetrics.Field;
import com.amazonaws.services.ec2.model.*;
import com.amazonaws.services.ec2.model.transform.*;
/**
* Client for accessing AmazonEC2. All service calls made
* using this client are blocking, and will not return until the service call
* completes.
*
* Amazon Elastic Compute Cloud
* Amazon Elastic Compute Cloud (Amazon EC2) provides resizable computing
* capacity in the Amazon Web Services (AWS) cloud. Using Amazon EC2
* eliminates your need to invest in hardware up front, so you can
* develop and deploy applications faster.
*
*/
public class AmazonEC2Client extends AmazonWebServiceClient implements AmazonEC2 {
/** Provider for AWS credentials. */
private AWSCredentialsProvider awsCredentialsProvider;
/**
* List of exception unmarshallers for all AmazonEC2 exceptions.
*/
protected final List> exceptionUnmarshallers
= new ArrayList>();
/**
* Constructs a new client to invoke service methods on
* AmazonEC2. 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
*/
public AmazonEC2Client() {
this(new DefaultAWSCredentialsProviderChain(), new ClientConfiguration());
}
/**
* Constructs a new client to invoke service methods on
* AmazonEC2. 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 AmazonEC2
* (ex: proxy settings, retry counts, etc.).
*
* @see DefaultAWSCredentialsProviderChain
*/
public AmazonEC2Client(ClientConfiguration clientConfiguration) {
this(new DefaultAWSCredentialsProviderChain(), clientConfiguration);
}
/**
* Constructs a new client to invoke service methods on
* AmazonEC2 using the specified AWS account credentials.
*
*
* All service calls made using this new client object are blocking, and will not
* return until the service call completes.
*
* @param awsCredentials The AWS credentials (access key ID and secret key) to use
* when authenticating with AWS services.
*/
public AmazonEC2Client(AWSCredentials awsCredentials) {
this(awsCredentials, new ClientConfiguration());
}
/**
* Constructs a new client to invoke service methods on
* AmazonEC2 using the specified AWS account credentials
* and client configuration options.
*
*
* All service calls made using this new client object are blocking, and will not
* return until the service call completes.
*
* @param awsCredentials The AWS credentials (access key ID and secret key) to use
* when authenticating with AWS services.
* @param clientConfiguration The client configuration options controlling how this
* client connects to AmazonEC2
* (ex: proxy settings, retry counts, etc.).
*/
public AmazonEC2Client(AWSCredentials awsCredentials, ClientConfiguration clientConfiguration) {
super(clientConfiguration);
this.awsCredentialsProvider = new StaticCredentialsProvider(awsCredentials);
init();
}
/**
* Constructs a new client to invoke service methods on
* AmazonEC2 using the specified AWS account credentials provider.
*
*
* All service calls made using this new client object are blocking, and will not
* return until the service call completes.
*
* @param awsCredentialsProvider
* The AWS credentials provider which will provide credentials
* to authenticate requests with AWS services.
*/
public AmazonEC2Client(AWSCredentialsProvider awsCredentialsProvider) {
this(awsCredentialsProvider, new ClientConfiguration());
}
/**
* Constructs a new client to invoke service methods on
* AmazonEC2 using the specified AWS account credentials
* provider and client configuration options.
*
*
* All service calls made using this new client object are blocking, and will not
* return until the service call completes.
*
* @param awsCredentialsProvider
* The AWS credentials provider which will provide credentials
* to authenticate requests with AWS services.
* @param clientConfiguration The client configuration options controlling how this
* client connects to AmazonEC2
* (ex: proxy settings, retry counts, etc.).
*/
public AmazonEC2Client(AWSCredentialsProvider awsCredentialsProvider, ClientConfiguration clientConfiguration) {
this(awsCredentialsProvider, clientConfiguration, null);
}
/**
* Constructs a new client to invoke service methods on
* AmazonEC2 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 AmazonEC2
* (ex: proxy settings, retry counts, etc.).
* @param requestMetricCollector optional request metric collector
*/
public AmazonEC2Client(AWSCredentialsProvider awsCredentialsProvider,
ClientConfiguration clientConfiguration,
RequestMetricCollector requestMetricCollector) {
super(clientConfiguration, requestMetricCollector);
this.awsCredentialsProvider = awsCredentialsProvider;
init();
}
private void init() {
exceptionUnmarshallers.add(new LegacyErrorUnmarshaller());
// calling this.setEndPoint(...) will also modify the signer accordingly
this.setEndpoint("ec2.us-east-1.amazonaws.com");
HandlerChainFactory chainFactory = new HandlerChainFactory();
requestHandler2s.addAll(chainFactory.newRequestHandlerChain(
"/com/amazonaws/services/ec2/request.handlers"));
requestHandler2s.addAll(chainFactory.newRequestHandler2Chain(
"/com/amazonaws/services/ec2/request.handler2s"));
}
/**
*
* Requests a reboot of one or more instances. This operation is
* asynchronous; it only queues a request to reboot the specified
* instances. The operation succeeds if the instances are valid and
* belong to you. Requests to reboot terminated instances are ignored.
*
*
* If a Linux/Unix instance does not cleanly shut down within four
* minutes, Amazon EC2 performs a hard reboot.
*
*
* For more information about troubleshooting, see
* Getting Console Output and Rebooting Instances
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param rebootInstancesRequest Container for the necessary parameters
* to execute the RebootInstances service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void rebootInstances(RebootInstancesRequest rebootInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(rebootInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new RebootInstancesRequestMarshaller().marshall(super.beforeMarshalling(rebootInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes one or more of the Reserved instances that you purchased.
*
*
* For more information about Reserved instances, see
* Reserved Instances
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describeReservedInstancesRequest Container for the necessary
* parameters to execute the DescribeReservedInstances service method on
* AmazonEC2.
*
* @return The response from the DescribeReservedInstances service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeReservedInstancesResult describeReservedInstances(DescribeReservedInstancesRequest describeReservedInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(describeReservedInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeReservedInstancesRequestMarshaller().marshall(super.beforeMarshalling(describeReservedInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeReservedInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates one or more flow logs to capture IP traffic for a specific
* network interface, subnet, or VPC. Flow logs are delivered to a
* specified log group in Amazon CloudWatch Logs. If you specify a VPC or
* subnet in the request, a log stream is created in CloudWatch Logs for
* each network interface in the subnet or VPC. Log streams can include
* information about accepted and rejected traffic to a network
* interface. You can view the data in your log streams using Amazon
* CloudWatch Logs.
*
*
* In your request, you must also specify an IAM role that has
* permission to publish logs to CloudWatch Logs.
*
*
* @param createFlowLogsRequest Container for the necessary parameters to
* execute the CreateFlowLogs service method on AmazonEC2.
*
* @return The response from the CreateFlowLogs service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateFlowLogsResult createFlowLogs(CreateFlowLogsRequest createFlowLogsRequest) {
ExecutionContext executionContext = createExecutionContext(createFlowLogsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateFlowLogsRequestMarshaller().marshall(super.beforeMarshalling(createFlowLogsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateFlowLogsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of the Availability Zones that are available to
* you. The results include zones only for the region you're currently
* using. If there is an event impacting an Availability Zone, you can
* use this request to view the state and any provided message for that
* Availability Zone.
*
*
* For more information, see
* Regions and Availability Zones
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describeAvailabilityZonesRequest Container for the necessary
* parameters to execute the DescribeAvailabilityZones service method on
* AmazonEC2.
*
* @return The response from the DescribeAvailabilityZones service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeAvailabilityZonesResult describeAvailabilityZones(DescribeAvailabilityZonesRequest describeAvailabilityZonesRequest) {
ExecutionContext executionContext = createExecutionContext(describeAvailabilityZonesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeAvailabilityZonesRequestMarshaller().marshall(super.beforeMarshalling(describeAvailabilityZonesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeAvailabilityZonesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Restores an Elastic IP address that was previously moved to the
* EC2-VPC platform back to the EC2-Classic platform. You cannot move an
* Elastic IP address that was originally allocated for use in EC2-VPC.
* The Elastic IP address must not be associated with an instance or
* network interface.
*
*
* @param restoreAddressToClassicRequest Container for the necessary
* parameters to execute the RestoreAddressToClassic service method on
* AmazonEC2.
*
* @return The response from the RestoreAddressToClassic service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public RestoreAddressToClassicResult restoreAddressToClassic(RestoreAddressToClassicRequest restoreAddressToClassicRequest) {
ExecutionContext executionContext = createExecutionContext(restoreAddressToClassicRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new RestoreAddressToClassicRequestMarshaller().marshall(super.beforeMarshalling(restoreAddressToClassicRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new RestoreAddressToClassicResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Detaches an EBS volume from an instance. Make sure to unmount any
* file systems on the device within your operating system before
* detaching the volume. Failure to do so results in the volume being
* stuck in a busy state while detaching.
*
*
* If an Amazon EBS volume is the root device of an instance, it can't
* be detached while the instance is running. To detach the root volume,
* stop the instance first.
*
*
* When a volume with an AWS Marketplace product code is detached from
* an instance, the product code is no longer associated with the
* instance.
*
*
* For more information, see
* Detaching an Amazon EBS Volume
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param detachVolumeRequest Container for the necessary parameters to
* execute the DetachVolume service method on AmazonEC2.
*
* @return The response from the DetachVolume service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DetachVolumeResult detachVolume(DetachVolumeRequest detachVolumeRequest) {
ExecutionContext executionContext = createExecutionContext(detachVolumeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DetachVolumeRequestMarshaller().marshall(super.beforeMarshalling(detachVolumeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DetachVolumeResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified key pair, by removing the public key from
* Amazon EC2.
*
*
* @param deleteKeyPairRequest Container for the necessary parameters to
* execute the DeleteKeyPair service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteKeyPair(DeleteKeyPairRequest deleteKeyPairRequest) {
ExecutionContext executionContext = createExecutionContext(deleteKeyPairRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteKeyPairRequestMarshaller().marshall(super.beforeMarshalling(deleteKeyPairRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Disables monitoring for a running instance. For more information
* about monitoring instances, see
* Monitoring Your Instances and Volumes
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param unmonitorInstancesRequest Container for the necessary
* parameters to execute the UnmonitorInstances service method on
* AmazonEC2.
*
* @return The response from the UnmonitorInstances service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public UnmonitorInstancesResult unmonitorInstances(UnmonitorInstancesRequest unmonitorInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(unmonitorInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new UnmonitorInstancesRequestMarshaller().marshall(super.beforeMarshalling(unmonitorInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new UnmonitorInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Attaches a virtual private gateway to a VPC. For more information,
* see
* Adding a Hardware Virtual Private Gateway to Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param attachVpnGatewayRequest Container for the necessary parameters
* to execute the AttachVpnGateway service method on AmazonEC2.
*
* @return The response from the AttachVpnGateway service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public AttachVpnGatewayResult attachVpnGateway(AttachVpnGatewayRequest attachVpnGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(attachVpnGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AttachVpnGatewayRequestMarshaller().marshall(super.beforeMarshalling(attachVpnGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new AttachVpnGatewayResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates an Amazon EBS-backed AMI from an Amazon EBS-backed instance
* that is either running or stopped.
*
*
* If you customized your instance with instance store volumes or EBS
* volumes in addition to the root device volume, the new AMI contains
* block device mapping information for those volumes. When you launch an
* instance from this new AMI, the instance automatically launches with
* those additional volumes.
*
*
* For more information, see
* Creating Amazon EBS-Backed Linux AMIs
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param createImageRequest Container for the necessary parameters to
* execute the CreateImage service method on AmazonEC2.
*
* @return The response from the CreateImage service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateImageResult createImage(CreateImageRequest createImageRequest) {
ExecutionContext executionContext = createExecutionContext(createImageRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateImageRequestMarshaller().marshall(super.beforeMarshalling(createImageRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateImageResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes a security group.
*
*
* If you attempt to delete a security group that is associated with an
* instance, or is referenced by another security group, the operation
* fails with InvalidGroup.InUse in EC2-Classic or
* DependencyViolation in EC2-VPC.
*
*
* @param deleteSecurityGroupRequest Container for the necessary
* parameters to execute the DeleteSecurityGroup service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteSecurityGroup(DeleteSecurityGroupRequest deleteSecurityGroupRequest) {
ExecutionContext executionContext = createExecutionContext(deleteSecurityGroupRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteSecurityGroupRequestMarshaller().marshall(super.beforeMarshalling(deleteSecurityGroupRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Set the instance affinity value for a specific stopped instance and
* modify the instance tenancy setting.
*
*
* Instance affinity is disabled by default. When instance affinity is
* host and it is not associated with a specific Dedicated
* host, the next time it is launched it will automatically be associated
* with the host it lands on. This relationship will persist if the
* instance is stopped/started, or rebooted.
*
*
* You can modify the host ID associated with a stopped instance. If a
* stopped instance has a new host ID association, the instance will
* target that host when restarted.
*
*
* You can modify the tenancy of a stopped instance with a tenancy of
* host or dedicated .
*
*
* Affinity, hostID, and tenancy are not required parameters, but at
* least one of them must be specified in the request. Affinity and
* tenancy can be modified in the same request, but tenancy can only be
* modified on instances that are stopped.
*
*
* @param modifyInstancePlacementRequest Container for the necessary
* parameters to execute the ModifyInstancePlacement service method on
* AmazonEC2.
*
* @return The response from the ModifyInstancePlacement service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ModifyInstancePlacementResult modifyInstancePlacement(ModifyInstancePlacementRequest modifyInstancePlacementRequest) {
ExecutionContext executionContext = createExecutionContext(modifyInstancePlacementRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyInstancePlacementRequestMarshaller().marshall(super.beforeMarshalling(modifyInstancePlacementRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ModifyInstancePlacementResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your Dedicated hosts.
*
*
* The results describe only the Dedicated hosts in the region you're
* currently using. All listed instances consume capacity on your
* Dedicated host. Dedicated hosts that have recently been released will
* be listed with the status "released".
*
*
* @param describeHostsRequest Container for the necessary parameters to
* execute the DescribeHosts service method on AmazonEC2.
*
* @return The response from the DescribeHosts service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeHostsResult describeHosts(DescribeHostsRequest describeHostsRequest) {
ExecutionContext executionContext = createExecutionContext(describeHostsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeHostsRequestMarshaller().marshall(super.beforeMarshalling(describeHostsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeHostsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Exports a running or stopped instance to an S3 bucket.
*
*
* For information about the supported operating systems, image formats,
* and known limitations for the types of instances you can export, see
* Exporting EC2 Instances
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param createInstanceExportTaskRequest Container for the necessary
* parameters to execute the CreateInstanceExportTask service method on
* AmazonEC2.
*
* @return The response from the CreateInstanceExportTask service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateInstanceExportTaskResult createInstanceExportTask(CreateInstanceExportTaskRequest createInstanceExportTaskRequest) {
ExecutionContext executionContext = createExecutionContext(createInstanceExportTaskRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateInstanceExportTaskRequestMarshaller().marshall(super.beforeMarshalling(createInstanceExportTaskRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateInstanceExportTaskResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Adds one or more egress rules to a security group for use with a VPC.
* Specifically, this action permits instances to send traffic to one or
* more destination CIDR IP address ranges, or to one or more destination
* security groups for the same VPC.
*
*
* IMPORTANT: You can have up to 50 rules per security group
* (covering both ingress and egress rules).
*
*
* A security group is for use with instances either in the EC2-Classic
* platform or in a specific VPC. This action doesn't apply to security
* groups for use in EC2-Classic. For more information, see
* Security Groups for Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* Each rule consists of the protocol (for example, TCP), plus either a
* CIDR range or a source group. For the TCP and UDP protocols, you must
* also specify the destination port or port range. For the ICMP
* protocol, you must also specify the ICMP type and code. You can use -1
* for the type or code to mean all types or all codes.
*
*
* Rule changes are propagated to affected instances as quickly as
* possible. However, a small delay might occur.
*
*
* @param authorizeSecurityGroupEgressRequest Container for the necessary
* parameters to execute the AuthorizeSecurityGroupEgress service method
* on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void authorizeSecurityGroupEgress(AuthorizeSecurityGroupEgressRequest authorizeSecurityGroupEgressRequest) {
ExecutionContext executionContext = createExecutionContext(authorizeSecurityGroupEgressRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AuthorizeSecurityGroupEgressRequestMarshaller().marshall(super.beforeMarshalling(authorizeSecurityGroupEgressRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Associates a set of DHCP options (that you've previously created)
* with the specified VPC, or associates no DHCP options with the VPC.
*
*
* After you associate the options with the VPC, any existing instances
* and all new instances that you launch in that VPC use the options. You
* don't need to restart or relaunch the instances. They automatically
* pick up the changes within a few hours, depending on how frequently
* the instance renews its DHCP lease. You can explicitly renew the lease
* using the operating system on the instance.
*
*
* For more information, see
* DHCP Options Sets
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param associateDhcpOptionsRequest Container for the necessary
* parameters to execute the AssociateDhcpOptions service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void associateDhcpOptions(AssociateDhcpOptionsRequest associateDhcpOptionsRequest) {
ExecutionContext executionContext = createExecutionContext(associateDhcpOptionsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AssociateDhcpOptionsRequestMarshaller().marshall(super.beforeMarshalling(associateDhcpOptionsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Retrieves the encrypted administrator password for an instance
* running Windows.
*
*
* The Windows password is generated at boot if the
* EC2Config service plugin, Ec2SetPassword ,
* is enabled. This usually only happens the first time an AMI is
* launched, and then Ec2SetPassword is automatically
* disabled. The password is not generated for rebundled AMIs unless
* Ec2SetPassword is enabled before bundling.
*
*
* The password is encrypted using the key pair that you specified when
* you launched the instance. You must provide the corresponding key pair
* file.
*
*
* Password generation and encryption takes a few moments. We recommend
* that you wait up to 15 minutes after launching an instance before
* trying to retrieve the generated password.
*
*
* @param getPasswordDataRequest Container for the necessary parameters
* to execute the GetPasswordData service method on AmazonEC2.
*
* @return The response from the GetPasswordData service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public GetPasswordDataResult getPasswordData(GetPasswordDataRequest getPasswordDataRequest) {
ExecutionContext executionContext = createExecutionContext(getPasswordDataRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new GetPasswordDataRequestMarshaller().marshall(super.beforeMarshalling(getPasswordDataRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new GetPasswordDataResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Stops an Amazon EBS-backed instance. Each time you transition an
* instance from stopped to started, Amazon EC2 charges a full instance
* hour, even if transitions happen multiple times within a single hour.
*
*
* You can't start or stop Spot instances.
*
*
* Instances that use Amazon EBS volumes as their root devices can be
* quickly stopped and started. When an instance is stopped, the compute
* resources are released and you are not billed for hourly instance
* usage. However, your root partition Amazon EBS volume remains,
* continues to persist your data, and you are charged for Amazon EBS
* volume usage. You can restart your instance at any time.
*
*
* Before stopping an instance, make sure it is in a state from which it
* can be restarted. Stopping an instance does not preserve data stored
* in RAM.
*
*
* Performing this operation on an instance that uses an instance store
* as its root device returns an error.
*
*
* You can stop, start, and terminate EBS-backed instances. You can only
* terminate instance store-backed instances. What happens to an instance
* differs if you stop it or terminate it. For example, when you stop an
* instance, the root device and any other devices attached to the
* instance persist. When you terminate an instance, the root device and
* any other devices attached during the instance launch are
* automatically deleted. For more information about the differences
* between stopping and terminating instances, see
* Instance Lifecycle
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* For more information about troubleshooting, see
* Troubleshooting Stopping Your Instance
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param stopInstancesRequest Container for the necessary parameters to
* execute the StopInstances service method on AmazonEC2.
*
* @return The response from the StopInstances service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public StopInstancesResult stopInstances(StopInstancesRequest stopInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(stopInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new StopInstancesRequestMarshaller().marshall(super.beforeMarshalling(stopInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new StopInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Imports the public key from an RSA key pair that you created with a
* third-party tool. Compare this with CreateKeyPair, in which AWS
* creates the key pair and gives the keys to you (AWS keeps a copy of
* the public key). With ImportKeyPair, you create the key pair and give
* AWS just the public key. The private key is never transferred between
* you and AWS.
*
*
* For more information about key pairs, see
* Key Pairs
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param importKeyPairRequest Container for the necessary parameters to
* execute the ImportKeyPair service method on AmazonEC2.
*
* @return The response from the ImportKeyPair service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ImportKeyPairResult importKeyPair(ImportKeyPairRequest importKeyPairRequest) {
ExecutionContext executionContext = createExecutionContext(importKeyPairRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ImportKeyPairRequestMarshaller().marshall(super.beforeMarshalling(importKeyPairRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ImportKeyPairResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified network interface. You must detach the network
* interface before you can delete it.
*
*
* @param deleteNetworkInterfaceRequest Container for the necessary
* parameters to execute the DeleteNetworkInterface service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteNetworkInterface(DeleteNetworkInterfaceRequest deleteNetworkInterfaceRequest) {
ExecutionContext executionContext = createExecutionContext(deleteNetworkInterfaceRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteNetworkInterfaceRequestMarshaller().marshall(super.beforeMarshalling(deleteNetworkInterfaceRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Modifies the specified attribute of the specified VPC.
*
*
* @param modifyVpcAttributeRequest Container for the necessary
* parameters to execute the ModifyVpcAttribute service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void modifyVpcAttribute(ModifyVpcAttributeRequest modifyVpcAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(modifyVpcAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyVpcAttributeRequestMarshaller().marshall(super.beforeMarshalling(modifyVpcAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes the running instances for the specified Spot fleet.
*
*
* @param describeSpotFleetInstancesRequest Container for the necessary
* parameters to execute the DescribeSpotFleetInstances service method on
* AmazonEC2.
*
* @return The response from the DescribeSpotFleetInstances service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeSpotFleetInstancesResult describeSpotFleetInstances(DescribeSpotFleetInstancesRequest describeSpotFleetInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(describeSpotFleetInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeSpotFleetInstancesRequestMarshaller().marshall(super.beforeMarshalling(describeSpotFleetInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeSpotFleetInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a security group.
*
*
* A security group is for use with instances either in the EC2-Classic
* platform or in a specific VPC. For more information, see
* Amazon EC2 Security Groups in the Amazon Elastic Compute Cloud User Guide and Security Groups for Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* IMPORTANT: EC2-Classic: You can have up to 500 security
* groups. EC2-VPC: You can create up to 100 security groups per VPC.
*
*
* When you create a security group, you specify a friendly name of your
* choice. You can have a security group for use in EC2-Classic with the
* same name as a security group for use in a VPC. However, you can't
* have two security groups for use in EC2-Classic with the same name or
* two security groups for use in a VPC with the same name.
*
*
* You have a default security group for use in EC2-Classic and a
* default security group for use in your VPC. If you don't specify a
* security group when you launch an instance, the instance is launched
* into the appropriate default security group. A default security group
* includes a default rule that grants instances unrestricted network
* access to each other.
*
*
* You can add or remove rules from your security groups using
* AuthorizeSecurityGroupIngress, AuthorizeSecurityGroupEgress,
* RevokeSecurityGroupIngress, and RevokeSecurityGroupEgress.
*
*
* @param createSecurityGroupRequest Container for the necessary
* parameters to execute the CreateSecurityGroup service method on
* AmazonEC2.
*
* @return The response from the CreateSecurityGroup service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateSecurityGroupResult createSecurityGroup(CreateSecurityGroupRequest createSecurityGroupRequest) {
ExecutionContext executionContext = createExecutionContext(createSecurityGroupRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateSecurityGroupRequestMarshaller().marshall(super.beforeMarshalling(createSecurityGroupRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateSecurityGroupResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes the Spot price history. The prices returned are listed in
* chronological order, from the oldest to the most recent, for up to the
* past 90 days. For more information, see
* Spot Instance Pricing History
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* When you specify a start and end time, this operation returns the
* prices of the instance types within the time range that you specified
* and the time when the price changed. The price is valid within the
* time period that you specified; the response merely indicates the last
* time that the price changed.
*
*
* @param describeSpotPriceHistoryRequest Container for the necessary
* parameters to execute the DescribeSpotPriceHistory service method on
* AmazonEC2.
*
* @return The response from the DescribeSpotPriceHistory service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeSpotPriceHistoryResult describeSpotPriceHistory(DescribeSpotPriceHistoryRequest describeSpotPriceHistoryRequest) {
ExecutionContext executionContext = createExecutionContext(describeSpotPriceHistoryRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeSpotPriceHistoryRequestMarshaller().marshall(super.beforeMarshalling(describeSpotPriceHistoryRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeSpotPriceHistoryResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more regions that are currently available to you.
*
*
* For a list of the regions supported by Amazon EC2, see
* Regions and Endpoints
* .
*
*
* @param describeRegionsRequest Container for the necessary parameters
* to execute the DescribeRegions service method on AmazonEC2.
*
* @return The response from the DescribeRegions service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeRegionsResult describeRegions(DescribeRegionsRequest describeRegionsRequest) {
ExecutionContext executionContext = createExecutionContext(describeRegionsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeRegionsRequestMarshaller().marshall(super.beforeMarshalling(describeRegionsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeRegionsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your network interfaces.
*
*
* @param describeNetworkInterfacesRequest Container for the necessary
* parameters to execute the DescribeNetworkInterfaces service method on
* AmazonEC2.
*
* @return The response from the DescribeNetworkInterfaces service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeNetworkInterfacesResult describeNetworkInterfaces(DescribeNetworkInterfacesRequest describeNetworkInterfacesRequest) {
ExecutionContext executionContext = createExecutionContext(describeNetworkInterfacesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeNetworkInterfacesRequestMarshaller().marshall(super.beforeMarshalling(describeNetworkInterfacesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeNetworkInterfacesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a set of DHCP options for your VPC. After creating the set,
* you must associate it with the VPC, causing all existing and new
* instances that you launch in the VPC to use this set of DHCP options.
* The following are the individual DHCP options you can specify. For
* more information about the options, see
* RFC 2132
* .
*
*
*
* -
domain-name-servers - The IP addresses of up to
* four domain name servers, or AmazonProvidedDNS . The
* default DHCP option set specifies AmazonProvidedDNS . If
* specifying more than one domain name server, specify the IP addresses
* in a single parameter, separated by commas.
* -
domain-name - If you're using AmazonProvidedDNS in
* us-east-1 , specify ec2.internal . If you're
* using AmazonProvidedDNS in another region, specify
* region.compute.internal (for example,
* ap-northeast-1.compute.internal ). Otherwise, specify a
* domain name (for example, MyCompany.com ).
* Important : Some Linux operating systems accept multiple domain
* names separated by spaces. However, Windows and other Linux operating
* systems treat the value as a single domain, which results in
* unexpected behavior. If your DHCP options set is associated with a VPC
* that has instances with multiple operating systems, specify only one
* domain name.
* -
ntp-servers - The IP addresses of up to four
* Network Time Protocol (NTP) servers.
* -
netbios-name-servers - The IP addresses of up to
* four NetBIOS name servers.
* -
netbios-node-type - The NetBIOS node type (1, 2, 4,
* or 8). We recommend that you specify 2 (broadcast and multicast are
* not currently supported). For more information about these node types,
* see
* RFC 2132
* .
*
*
*
* Your VPC automatically starts out with a set of DHCP options that
* includes only a DNS server that we provide (AmazonProvidedDNS). If you
* create a set of options, and if your VPC has an Internet gateway, make
* sure to set the domain-name-servers option either to
* AmazonProvidedDNS or to a domain name server of your
* choice. For more information about DHCP options, see
* DHCP Options Sets
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param createDhcpOptionsRequest Container for the necessary parameters
* to execute the CreateDhcpOptions service method on AmazonEC2.
*
* @return The response from the CreateDhcpOptions service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateDhcpOptionsResult createDhcpOptions(CreateDhcpOptionsRequest createDhcpOptionsRequest) {
ExecutionContext executionContext = createExecutionContext(createDhcpOptionsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateDhcpOptionsRequestMarshaller().marshall(super.beforeMarshalling(createDhcpOptionsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateDhcpOptionsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a listing for Amazon EC2 Reserved instances to be sold in the
* Reserved Instance Marketplace. You can submit one Reserved instance
* listing at a time. To get a list of your Reserved instances, you can
* use the DescribeReservedInstances operation.
*
*
* The Reserved Instance Marketplace matches sellers who want to resell
* Reserved instance capacity that they no longer need with buyers who
* want to purchase additional capacity. Reserved instances bought and
* sold through the Reserved Instance Marketplace work like any other
* Reserved instances.
*
*
* To sell your Reserved instances, you must first register as a seller
* in the Reserved Instance Marketplace. After completing the
* registration process, you can create a Reserved Instance Marketplace
* listing of some or all of your Reserved Instances, and specify the
* upfront price to receive for them. Your Reserved instance listings
* then become available for purchase. To view the details of your
* Reserved instance listing, you can use the
* DescribeReservedInstancesListings operation.
*
*
* For more information, see
* Reserved Instance Marketplace
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param createReservedInstancesListingRequest Container for the
* necessary parameters to execute the CreateReservedInstancesListing
* service method on AmazonEC2.
*
* @return The response from the CreateReservedInstancesListing service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateReservedInstancesListingResult createReservedInstancesListing(CreateReservedInstancesListingRequest createReservedInstancesListingRequest) {
ExecutionContext executionContext = createExecutionContext(createReservedInstancesListingRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateReservedInstancesListingRequestMarshaller().marshall(super.beforeMarshalling(createReservedInstancesListingRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateReservedInstancesListingResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes one or more specified VPC endpoints. Deleting the endpoint
* also deletes the endpoint routes in the route tables that were
* associated with the endpoint.
*
*
* @param deleteVpcEndpointsRequest Container for the necessary
* parameters to execute the DeleteVpcEndpoints service method on
* AmazonEC2.
*
* @return The response from the DeleteVpcEndpoints service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DeleteVpcEndpointsResult deleteVpcEndpoints(DeleteVpcEndpointsRequest deleteVpcEndpointsRequest) {
ExecutionContext executionContext = createExecutionContext(deleteVpcEndpointsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteVpcEndpointsRequestMarshaller().marshall(super.beforeMarshalling(deleteVpcEndpointsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DeleteVpcEndpointsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Resets permission settings for the specified snapshot.
*
*
* For more information on modifying snapshot permissions, see
* Sharing Snapshots
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param resetSnapshotAttributeRequest Container for the necessary
* parameters to execute the ResetSnapshotAttribute service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void resetSnapshotAttribute(ResetSnapshotAttributeRequest resetSnapshotAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(resetSnapshotAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ResetSnapshotAttributeRequestMarshaller().marshall(super.beforeMarshalling(resetSnapshotAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Deletes the specified route from the specified route table.
*
*
* @param deleteRouteRequest Container for the necessary parameters to
* execute the DeleteRoute service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteRoute(DeleteRouteRequest deleteRouteRequest) {
ExecutionContext executionContext = createExecutionContext(deleteRouteRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteRouteRequestMarshaller().marshall(super.beforeMarshalling(deleteRouteRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes one or more of your Internet gateways.
*
*
* @param describeInternetGatewaysRequest Container for the necessary
* parameters to execute the DescribeInternetGateways service method on
* AmazonEC2.
*
* @return The response from the DescribeInternetGateways service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeInternetGatewaysResult describeInternetGateways(DescribeInternetGatewaysRequest describeInternetGatewaysRequest) {
ExecutionContext executionContext = createExecutionContext(describeInternetGatewaysRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeInternetGatewaysRequestMarshaller().marshall(super.beforeMarshalling(describeInternetGatewaysRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeInternetGatewaysResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates an import volume task using metadata from the specified disk
* image. After importing the image, you then upload it using the
* ec2-import-volume command in the Amazon EC2 command-line
* interface (CLI) tools. For more information, see
* Using the Command Line Tools to Import Your Virtual Machine to Amazon EC2
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param importVolumeRequest Container for the necessary parameters to
* execute the ImportVolume service method on AmazonEC2.
*
* @return The response from the ImportVolume service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ImportVolumeResult importVolume(ImportVolumeRequest importVolumeRequest) {
ExecutionContext executionContext = createExecutionContext(importVolumeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ImportVolumeRequestMarshaller().marshall(super.beforeMarshalling(importVolumeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ImportVolumeResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your security groups.
*
*
* A security group is for use with instances either in the EC2-Classic
* platform or in a specific VPC. For more information, see
* Amazon EC2 Security Groups in the Amazon Elastic Compute Cloud User Guide and Security Groups for Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param describeSecurityGroupsRequest Container for the necessary
* parameters to execute the DescribeSecurityGroups service method on
* AmazonEC2.
*
* @return The response from the DescribeSecurityGroups service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeSecurityGroupsResult describeSecurityGroups(DescribeSecurityGroupsRequest describeSecurityGroupsRequest) {
ExecutionContext executionContext = createExecutionContext(describeSecurityGroupsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeSecurityGroupsRequestMarshaller().marshall(super.beforeMarshalling(describeSecurityGroupsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeSecurityGroupsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Rejects a VPC peering connection request. The VPC peering connection
* must be in the pending-acceptance state. Use the
* DescribeVpcPeeringConnections request to view your outstanding VPC
* peering connection requests. To delete an active VPC peering
* connection, or to delete a VPC peering connection request that you
* initiated, use DeleteVpcPeeringConnection.
*
*
* @param rejectVpcPeeringConnectionRequest Container for the necessary
* parameters to execute the RejectVpcPeeringConnection service method on
* AmazonEC2.
*
* @return The response from the RejectVpcPeeringConnection service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public RejectVpcPeeringConnectionResult rejectVpcPeeringConnection(RejectVpcPeeringConnectionRequest rejectVpcPeeringConnectionRequest) {
ExecutionContext executionContext = createExecutionContext(rejectVpcPeeringConnectionRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new RejectVpcPeeringConnectionRequestMarshaller().marshall(super.beforeMarshalling(rejectVpcPeeringConnectionRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new RejectVpcPeeringConnectionResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes one or more flow logs.
*
*
* @param deleteFlowLogsRequest Container for the necessary parameters to
* execute the DeleteFlowLogs service method on AmazonEC2.
*
* @return The response from the DeleteFlowLogs service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DeleteFlowLogsResult deleteFlowLogs(DeleteFlowLogsRequest deleteFlowLogsRequest) {
ExecutionContext executionContext = createExecutionContext(deleteFlowLogsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteFlowLogsRequestMarshaller().marshall(super.beforeMarshalling(deleteFlowLogsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DeleteFlowLogsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Detaches a virtual private gateway from a VPC. You do this if you're
* planning to turn off the VPC and not use it anymore. You can confirm a
* virtual private gateway has been completely detached from a VPC by
* describing the virtual private gateway (any attachments to the virtual
* private gateway are also described).
*
*
* You must wait for the attachment's state to switch to
* detached before you can delete the VPC or attach a
* different VPC to the virtual private gateway.
*
*
* @param detachVpnGatewayRequest Container for the necessary parameters
* to execute the DetachVpnGateway service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void detachVpnGateway(DetachVpnGatewayRequest detachVpnGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(detachVpnGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DetachVpnGatewayRequestMarshaller().marshall(super.beforeMarshalling(detachVpnGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Deregisters the specified AMI. After you deregister an AMI, it can't
* be used to launch new instances.
*
*
* This command does not delete the AMI.
*
*
* @param deregisterImageRequest Container for the necessary parameters
* to execute the DeregisterImage service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deregisterImage(DeregisterImageRequest deregisterImageRequest) {
ExecutionContext executionContext = createExecutionContext(deregisterImageRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeregisterImageRequestMarshaller().marshall(super.beforeMarshalling(deregisterImageRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes the data feed for Spot instances. For more information, see
* Spot Instance Data Feed
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describeSpotDatafeedSubscriptionRequest Container for the
* necessary parameters to execute the DescribeSpotDatafeedSubscription
* service method on AmazonEC2.
*
* @return The response from the DescribeSpotDatafeedSubscription service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeSpotDatafeedSubscriptionResult describeSpotDatafeedSubscription(DescribeSpotDatafeedSubscriptionRequest describeSpotDatafeedSubscriptionRequest) {
ExecutionContext executionContext = createExecutionContext(describeSpotDatafeedSubscriptionRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeSpotDatafeedSubscriptionRequestMarshaller().marshall(super.beforeMarshalling(describeSpotDatafeedSubscriptionRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeSpotDatafeedSubscriptionResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified set of tags from the specified set of
* resources. This call is designed to follow a DescribeTags
* request.
*
*
* For more information about tags, see
* Tagging Your Resources
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param deleteTagsRequest Container for the necessary parameters to
* execute the DeleteTags service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteTags(DeleteTagsRequest deleteTagsRequest) {
ExecutionContext executionContext = createExecutionContext(deleteTagsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteTagsRequestMarshaller().marshall(super.beforeMarshalling(deleteTagsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* When you no longer want to use a Dedicated host it can be released.
* On-Demand billing is stopped and the host goes into "released" state.
* The host ID of Dedicated hosts that have been released can no longer
* be specified in another request, e.g., ModifyHosts. You must stop or
* terminate all instances on a host before it can be released.
*
*
* When Dedicated hosts are released, it make take some time for them to
* stop counting toward your limit and you may receive capacity errors
* when trying to allocate new Dedicated hosts. Try waiting a few
* minutes, and then try again.
*
*
* Released hosts will still appear in a DescribeHosts response.
*
*
* @param releaseHostsRequest Container for the necessary parameters to
* execute the ReleaseHosts service method on AmazonEC2.
*
* @return The response from the ReleaseHosts service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ReleaseHostsResult releaseHosts(ReleaseHostsRequest releaseHostsRequest) {
ExecutionContext executionContext = createExecutionContext(releaseHostsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ReleaseHostsRequestMarshaller().marshall(super.beforeMarshalling(releaseHostsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ReleaseHostsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified subnet. You must terminate all running
* instances in the subnet before you can delete the subnet.
*
*
* @param deleteSubnetRequest Container for the necessary parameters to
* execute the DeleteSubnet service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteSubnet(DeleteSubnetRequest deleteSubnetRequest) {
ExecutionContext executionContext = createExecutionContext(deleteSubnetRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteSubnetRequestMarshaller().marshall(super.beforeMarshalling(deleteSubnetRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes attributes of your AWS account. The following are the
* supported account attributes:
*
*
*
* -
* supported-platforms : Indicates whether your account can
* launch instances into EC2-Classic and EC2-VPC, or only into EC2-VPC.
*
*
* -
* default-vpc : The ID of the default VPC for your
* account, or none .
*
*
* -
* max-instances : The maximum number of On-Demand
* instances that you can run.
*
*
* -
* vpc-max-security-groups-per-interface : The maximum
* number of security groups that you can assign to a network interface.
*
*
* -
* max-elastic-ips : The maximum number of Elastic IP
* addresses that you can allocate for use with EC2-Classic.
*
*
* -
* vpc-max-elastic-ips : The maximum number of Elastic IP
* addresses that you can allocate for use with EC2-VPC.
*
*
*
*
*
* @param describeAccountAttributesRequest Container for the necessary
* parameters to execute the DescribeAccountAttributes service method on
* AmazonEC2.
*
* @return The response from the DescribeAccountAttributes service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeAccountAttributesResult describeAccountAttributes(DescribeAccountAttributesRequest describeAccountAttributesRequest) {
ExecutionContext executionContext = createExecutionContext(describeAccountAttributesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeAccountAttributesRequestMarshaller().marshall(super.beforeMarshalling(describeAccountAttributesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeAccountAttributesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Links an EC2-Classic instance to a ClassicLink-enabled VPC through
* one or more of the VPC's security groups. You cannot link an
* EC2-Classic instance to more than one VPC at a time. You can only link
* an instance that's in the running state. An instance is
* automatically unlinked from a VPC when it's stopped - you can link it
* to the VPC again when you restart it.
*
*
* After you've linked an instance, you cannot change the VPC security
* groups that are associated with it. To change the security groups, you
* must first unlink the instance, and then link it again.
*
*
* Linking your instance to a VPC is sometimes referred to as
* attaching your instance.
*
*
* @param attachClassicLinkVpcRequest Container for the necessary
* parameters to execute the AttachClassicLinkVpc service method on
* AmazonEC2.
*
* @return The response from the AttachClassicLinkVpc service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public AttachClassicLinkVpcResult attachClassicLinkVpc(AttachClassicLinkVpcRequest attachClassicLinkVpcRequest) {
ExecutionContext executionContext = createExecutionContext(attachClassicLinkVpcRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AttachClassicLinkVpcRequestMarshaller().marshall(super.beforeMarshalling(attachClassicLinkVpcRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new AttachClassicLinkVpcResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a virtual private gateway. A virtual private gateway is the
* endpoint on the VPC side of your VPN connection. You can create a
* virtual private gateway before creating the VPC itself.
*
*
* For more information about virtual private gateways, see
* Adding a Hardware Virtual Private Gateway to Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param createVpnGatewayRequest Container for the necessary parameters
* to execute the CreateVpnGateway service method on AmazonEC2.
*
* @return The response from the CreateVpnGateway service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateVpnGatewayResult createVpnGateway(CreateVpnGatewayRequest createVpnGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(createVpnGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateVpnGatewayRequestMarshaller().marshall(super.beforeMarshalling(createVpnGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateVpnGatewayResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Enables I/O operations for a volume that had I/O operations disabled
* because the data on the volume was potentially inconsistent.
*
*
* @param enableVolumeIORequest Container for the necessary parameters to
* execute the EnableVolumeIO service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void enableVolumeIO(EnableVolumeIORequest enableVolumeIORequest) {
ExecutionContext executionContext = createExecutionContext(enableVolumeIORequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new EnableVolumeIORequestMarshaller().marshall(super.beforeMarshalling(enableVolumeIORequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Moves an Elastic IP address from the EC2-Classic platform to the
* EC2-VPC platform. The Elastic IP address must be allocated to your
* account, and it must not be associated with an instance. After the
* Elastic IP address is moved, it is no longer available for use in the
* EC2-Classic platform, unless you move it back using the
* RestoreAddressToClassic request. You cannot move an Elastic IP address
* that's allocated for use in the EC2-VPC platform to the EC2-Classic
* platform.
*
*
* @param moveAddressToVpcRequest Container for the necessary parameters
* to execute the MoveAddressToVpc service method on AmazonEC2.
*
* @return The response from the MoveAddressToVpc service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public MoveAddressToVpcResult moveAddressToVpc(MoveAddressToVpcRequest moveAddressToVpcRequest) {
ExecutionContext executionContext = createExecutionContext(moveAddressToVpcRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new MoveAddressToVpcRequestMarshaller().marshall(super.beforeMarshalling(moveAddressToVpcRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new MoveAddressToVpcResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified virtual private gateway. We recommend that
* before you delete a virtual private gateway, you detach it from the
* VPC and delete the VPN connection. Note that you don't need to delete
* the virtual private gateway if you plan to delete and recreate the VPN
* connection between your VPC and your network.
*
*
* @param deleteVpnGatewayRequest Container for the necessary parameters
* to execute the DeleteVpnGateway service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteVpnGateway(DeleteVpnGatewayRequest deleteVpnGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(deleteVpnGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteVpnGatewayRequestMarshaller().marshall(super.beforeMarshalling(deleteVpnGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Attaches an EBS volume to a running or stopped instance and exposes
* it to the instance with the specified device name.
*
*
* Encrypted EBS volumes may only be attached to instances that support
* Amazon EBS encryption. For more information, see
* Amazon EBS Encryption
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* For a list of supported device names, see
* Attaching an EBS Volume to an Instance . Any device names that aren't reserved for instance store volumes can be used for EBS volumes. For more information, see Amazon EC2 Instance Store
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* If a volume has an AWS Marketplace product code:
*
*
*
* - The volume can be attached only to a stopped instance.
* - AWS Marketplace product codes are copied from the volume to the
* instance.
* - You must be subscribed to the product.
* - The instance type and operating system of the instance must
* support the product. For example, you can't detach a volume from a
* Windows instance and attach it to a Linux instance.
*
*
*
* For an overview of the AWS Marketplace, see
* Introducing AWS Marketplace
* .
*
*
* For more information about EBS volumes, see
* Attaching Amazon EBS Volumes
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param attachVolumeRequest Container for the necessary parameters to
* execute the AttachVolume service method on AmazonEC2.
*
* @return The response from the AttachVolume service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public AttachVolumeResult attachVolume(AttachVolumeRequest attachVolumeRequest) {
ExecutionContext executionContext = createExecutionContext(attachVolumeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AttachVolumeRequestMarshaller().marshall(super.beforeMarshalling(attachVolumeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new AttachVolumeResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes the status of the specified volumes. Volume status provides
* the result of the checks performed on your volumes to determine events
* that can impair the performance of your volumes. The performance of a
* volume can be affected if an issue occurs on the volume's underlying
* host. If the volume's underlying host experiences a power outage or
* system issue, after the system is restored, there could be data
* inconsistencies on the volume. Volume events notify you if this
* occurs. Volume actions notify you if any action needs to be taken in
* response to the event.
*
*
* The DescribeVolumeStatus operation provides the
* following information about the specified volumes:
*
*
* Status : Reflects the current status of the volume. The
* possible values are ok , impaired ,
* warning , or insufficient-data . If all
* checks pass, the overall status of the volume is ok . If
* the check fails, the overall status is impaired . If the
* status is insufficient-data , then the checks may still
* be taking place on your volume at the time. We recommend that you
* retry the request. For more information on volume status, see
* Monitoring the Status of Your Volumes
* .
*
*
* Events : Reflect the cause of a volume status and may require
* you to take action. For example, if your volume returns an
* impaired status, then the volume event might be
* potential-data-inconsistency . This means that your
* volume has been affected by an issue with the underlying host, has all
* I/O operations disabled, and may have inconsistent data.
*
*
* Actions : Reflect the actions you may have to take in response
* to an event. For example, if the status of the volume is
* impaired and the volume event shows
* potential-data-inconsistency , then the action shows
* enable-volume-io . This means that you may want to enable
* the I/O operations for the volume by calling the EnableVolumeIO action
* and then check the volume for data consistency.
*
*
* NOTE: Volume status is based on the volume status checks, and
* does not reflect the volume state. Therefore, volume status does not
* indicate volumes in the error state (for example, when a volume is
* incapable of accepting I/O.)
*
*
* @param describeVolumeStatusRequest Container for the necessary
* parameters to execute the DescribeVolumeStatus service method on
* AmazonEC2.
*
* @return The response from the DescribeVolumeStatus service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeVolumeStatusResult describeVolumeStatus(DescribeVolumeStatusRequest describeVolumeStatusRequest) {
ExecutionContext executionContext = createExecutionContext(describeVolumeStatusRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeVolumeStatusRequestMarshaller().marshall(super.beforeMarshalling(describeVolumeStatusRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeVolumeStatusResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes your import snapshot tasks.
*
*
* @param describeImportSnapshotTasksRequest Container for the necessary
* parameters to execute the DescribeImportSnapshotTasks service method
* on AmazonEC2.
*
* @return The response from the DescribeImportSnapshotTasks service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeImportSnapshotTasksResult describeImportSnapshotTasks(DescribeImportSnapshotTasksRequest describeImportSnapshotTasksRequest) {
ExecutionContext executionContext = createExecutionContext(describeImportSnapshotTasksRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeImportSnapshotTasksRequestMarshaller().marshall(super.beforeMarshalling(describeImportSnapshotTasksRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeImportSnapshotTasksResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your VPN connections.
*
*
* For more information about VPN connections, see
* Adding a Hardware Virtual Private Gateway to Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param describeVpnConnectionsRequest Container for the necessary
* parameters to execute the DescribeVpnConnections service method on
* AmazonEC2.
*
* @return The response from the DescribeVpnConnections service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeVpnConnectionsResult describeVpnConnections(DescribeVpnConnectionsRequest describeVpnConnectionsRequest) {
ExecutionContext executionContext = createExecutionContext(describeVpnConnectionsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeVpnConnectionsRequestMarshaller().marshall(super.beforeMarshalling(describeVpnConnectionsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeVpnConnectionsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Resets an attribute of an AMI to its default value.
*
*
* NOTE: The productCodes attribute can't be reset.
*
*
* @param resetImageAttributeRequest Container for the necessary
* parameters to execute the ResetImageAttribute service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void resetImageAttribute(ResetImageAttributeRequest resetImageAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(resetImageAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ResetImageAttributeRequestMarshaller().marshall(super.beforeMarshalling(resetImageAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Enables a virtual private gateway (VGW) to propagate routes to the
* specified route table of a VPC.
*
*
* @param enableVgwRoutePropagationRequest Container for the necessary
* parameters to execute the EnableVgwRoutePropagation service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void enableVgwRoutePropagation(EnableVgwRoutePropagationRequest enableVgwRoutePropagationRequest) {
ExecutionContext executionContext = createExecutionContext(enableVgwRoutePropagationRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new EnableVgwRoutePropagationRequestMarshaller().marshall(super.beforeMarshalling(enableVgwRoutePropagationRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Creates a snapshot of an EBS volume and stores it in Amazon S3. You
* can use snapshots for backups, to make copies of EBS volumes, and to
* save data before shutting down an instance.
*
*
* When a snapshot is created, any AWS Marketplace product codes that
* are associated with the source volume are propagated to the snapshot.
*
*
* You can take a snapshot of an attached volume that is in use.
* However, snapshots only capture data that has been written to your EBS
* volume at the time the snapshot command is issued; this may exclude
* any data that has been cached by any applications or the operating
* system. If you can pause any file systems on the volume long enough to
* take a snapshot, your snapshot should be complete. However, if you
* cannot pause all file writes to the volume, you should unmount the
* volume from within the instance, issue the snapshot command, and then
* remount the volume to ensure a consistent and complete snapshot. You
* may remount and use your volume while the snapshot status is
* pending .
*
*
* To create a snapshot for EBS volumes that serve as root devices, you
* should stop the instance before taking the snapshot.
*
*
* Snapshots that are taken from encrypted volumes are automatically
* encrypted. Volumes that are created from encrypted snapshots are also
* automatically encrypted. Your encrypted volumes and any associated
* snapshots always remain protected.
*
*
* For more information, see
* Amazon Elastic Block Store and Amazon EBS Encryption
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param createSnapshotRequest Container for the necessary parameters to
* execute the CreateSnapshot service method on AmazonEC2.
*
* @return The response from the CreateSnapshot service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateSnapshotResult createSnapshot(CreateSnapshotRequest createSnapshotRequest) {
ExecutionContext executionContext = createExecutionContext(createSnapshotRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateSnapshotRequestMarshaller().marshall(super.beforeMarshalling(createSnapshotRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateSnapshotResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified EBS volume. The volume must be in the
* available state (not attached to an instance).
*
*
* NOTE: The volume may remain in the deleting state for several
* minutes.
*
*
* For more information, see
* Deleting an Amazon EBS Volume
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param deleteVolumeRequest Container for the necessary parameters to
* execute the DeleteVolume service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteVolume(DeleteVolumeRequest deleteVolumeRequest) {
ExecutionContext executionContext = createExecutionContext(deleteVolumeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteVolumeRequestMarshaller().marshall(super.beforeMarshalling(deleteVolumeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Creates a network interface in the specified subnet.
*
*
* For more information about network interfaces, see
* Elastic Network Interfaces
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param createNetworkInterfaceRequest Container for the necessary
* parameters to execute the CreateNetworkInterface service method on
* AmazonEC2.
*
* @return The response from the CreateNetworkInterface service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateNetworkInterfaceResult createNetworkInterface(CreateNetworkInterfaceRequest createNetworkInterfaceRequest) {
ExecutionContext executionContext = createExecutionContext(createNetworkInterfaceRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateNetworkInterfaceRequestMarshaller().marshall(super.beforeMarshalling(createNetworkInterfaceRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateNetworkInterfaceResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Modifies the Availability Zone, instance count, instance type, or
* network platform (EC2-Classic or EC2-VPC) of your Reserved Instances.
* The Reserved Instances to be modified must be identical, except for
* Availability Zone, network platform, and instance type.
*
*
* For more information, see
* Modifying Reserved Instances
* in the Amazon Elastic Compute Cloud User Guide.
*
*
* @param modifyReservedInstancesRequest Container for the necessary
* parameters to execute the ModifyReservedInstances service method on
* AmazonEC2.
*
* @return The response from the ModifyReservedInstances service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ModifyReservedInstancesResult modifyReservedInstances(ModifyReservedInstancesRequest modifyReservedInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(modifyReservedInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyReservedInstancesRequestMarshaller().marshall(super.beforeMarshalling(modifyReservedInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ModifyReservedInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Cancels the specified Spot fleet requests.
*
*
* After you cancel a Spot fleet request, the Spot fleet launches no new
* Spot instances. You must specify whether the Spot fleet should also
* terminate its Spot instances. If you terminate the instances, the Spot
* fleet request enters the cancelled_terminating state.
* Otherwise, the Spot fleet request enters the
* cancelled_running state and the instances continue to run
* until they are interrupted or you terminate them manually.
*
*
* @param cancelSpotFleetRequestsRequest Container for the necessary
* parameters to execute the CancelSpotFleetRequests service method on
* AmazonEC2.
*
* @return The response from the CancelSpotFleetRequests service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CancelSpotFleetRequestsResult cancelSpotFleetRequests(CancelSpotFleetRequestsRequest cancelSpotFleetRequestsRequest) {
ExecutionContext executionContext = createExecutionContext(cancelSpotFleetRequestsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CancelSpotFleetRequestsRequestMarshaller().marshall(super.beforeMarshalling(cancelSpotFleetRequestsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CancelSpotFleetRequestsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Unassigns one or more secondary private IP addresses from a network
* interface.
*
*
* @param unassignPrivateIpAddressesRequest Container for the necessary
* parameters to execute the UnassignPrivateIpAddresses service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void unassignPrivateIpAddresses(UnassignPrivateIpAddressesRequest unassignPrivateIpAddressesRequest) {
ExecutionContext executionContext = createExecutionContext(unassignPrivateIpAddressesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new UnassignPrivateIpAddressesRequestMarshaller().marshall(super.beforeMarshalling(unassignPrivateIpAddressesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes one or more of your VPCs.
*
*
* @param describeVpcsRequest Container for the necessary parameters to
* execute the DescribeVpcs service method on AmazonEC2.
*
* @return The response from the DescribeVpcs service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeVpcsResult describeVpcs(DescribeVpcsRequest describeVpcsRequest) {
ExecutionContext executionContext = createExecutionContext(describeVpcsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeVpcsRequestMarshaller().marshall(super.beforeMarshalling(describeVpcsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeVpcsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Cancels an active conversion task. The task can be the import of an
* instance or volume. The action removes all artifacts of the
* conversion, including a partially uploaded volume or instance. If the
* conversion is complete or is in the process of transferring the final
* disk image, the command fails and returns an exception.
*
*
* For more information, see
* Using the Command Line Tools to Import Your Virtual Machine to Amazon EC2
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param cancelConversionTaskRequest Container for the necessary
* parameters to execute the CancelConversionTask service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void cancelConversionTask(CancelConversionTaskRequest cancelConversionTaskRequest) {
ExecutionContext executionContext = createExecutionContext(cancelConversionTaskRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CancelConversionTaskRequestMarshaller().marshall(super.beforeMarshalling(cancelConversionTaskRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Associates an Elastic IP address with an instance or a network
* interface.
*
*
* An Elastic IP address is for use in either the EC2-Classic platform
* or in a VPC. For more information, see
* Elastic IP Addresses
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* [EC2-Classic, VPC in an EC2-VPC-only account] If the Elastic IP
* address is already associated with a different instance, it is
* disassociated from that instance and associated with the specified
* instance.
*
*
* [VPC in an EC2-Classic account] If you don't specify a private IP
* address, the Elastic IP address is associated with the primary IP
* address. If the Elastic IP address is already associated with a
* different instance or a network interface, you get an error unless you
* allow reassociation.
*
*
* This is an idempotent operation. If you perform the operation more
* than once, Amazon EC2 doesn't return an error.
*
*
* @param associateAddressRequest Container for the necessary parameters
* to execute the AssociateAddress service method on AmazonEC2.
*
* @return The response from the AssociateAddress service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public AssociateAddressResult associateAddress(AssociateAddressRequest associateAddressRequest) {
ExecutionContext executionContext = createExecutionContext(associateAddressRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AssociateAddressRequestMarshaller().marshall(super.beforeMarshalling(associateAddressRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new AssociateAddressResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified customer gateway. You must delete the VPN
* connection before you can delete the customer gateway.
*
*
* @param deleteCustomerGatewayRequest Container for the necessary
* parameters to execute the DeleteCustomerGateway service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteCustomerGateway(DeleteCustomerGatewayRequest deleteCustomerGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(deleteCustomerGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteCustomerGatewayRequestMarshaller().marshall(super.beforeMarshalling(deleteCustomerGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Creates an entry (a rule) in a network ACL with the specified rule
* number. Each network ACL has a set of numbered ingress rules and a
* separate set of numbered egress rules. When determining whether a
* packet should be allowed in or out of a subnet associated with the
* ACL, we process the entries in the ACL according to the rule numbers,
* in ascending order. Each network ACL has a set of ingress rules and a
* separate set of egress rules.
*
*
* We recommend that you leave room between the rule numbers (for
* example, 100, 110, 120, ...), and not number them one right after the
* other (for example, 101, 102, 103, ...). This makes it easier to add a
* rule between existing ones without having to renumber the rules.
*
*
* After you add an entry, you can't modify it; you must either replace
* it, or create an entry and delete the old one.
*
*
* For more information about network ACLs, see
* Network ACLs
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param createNetworkAclEntryRequest Container for the necessary
* parameters to execute the CreateNetworkAclEntry service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void createNetworkAclEntry(CreateNetworkAclEntryRequest createNetworkAclEntryRequest) {
ExecutionContext executionContext = createExecutionContext(createNetworkAclEntryRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateNetworkAclEntryRequestMarshaller().marshall(super.beforeMarshalling(createNetworkAclEntryRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Accept a VPC peering connection request. To accept a request, the VPC
* peering connection must be in the pending-acceptance
* state, and you must be the owner of the peer VPC. Use the
* DescribeVpcPeeringConnections request to view your
* outstanding VPC peering connection requests.
*
*
* @param acceptVpcPeeringConnectionRequest Container for the necessary
* parameters to execute the AcceptVpcPeeringConnection service method on
* AmazonEC2.
*
* @return The response from the AcceptVpcPeeringConnection service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public AcceptVpcPeeringConnectionResult acceptVpcPeeringConnection(AcceptVpcPeeringConnectionRequest acceptVpcPeeringConnectionRequest) {
ExecutionContext executionContext = createExecutionContext(acceptVpcPeeringConnectionRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AcceptVpcPeeringConnectionRequestMarshaller().marshall(super.beforeMarshalling(acceptVpcPeeringConnectionRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new AcceptVpcPeeringConnectionResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your export tasks.
*
*
* @param describeExportTasksRequest Container for the necessary
* parameters to execute the DescribeExportTasks service method on
* AmazonEC2.
*
* @return The response from the DescribeExportTasks service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeExportTasksResult describeExportTasks(DescribeExportTasksRequest describeExportTasksRequest) {
ExecutionContext executionContext = createExecutionContext(describeExportTasksRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeExportTasksRequestMarshaller().marshall(super.beforeMarshalling(describeExportTasksRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeExportTasksResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Detaches an Internet gateway from a VPC, disabling connectivity
* between the Internet and the VPC. The VPC must not contain any running
* instances with Elastic IP addresses.
*
*
* @param detachInternetGatewayRequest Container for the necessary
* parameters to execute the DetachInternetGateway service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void detachInternetGateway(DetachInternetGatewayRequest detachInternetGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(detachInternetGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DetachInternetGatewayRequestMarshaller().marshall(super.beforeMarshalling(detachInternetGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Requests a VPC peering connection between two VPCs: a requester VPC
* that you own and a peer VPC with which to create the connection. The
* peer VPC can belong to another AWS account. The requester VPC and peer
* VPC cannot have overlapping CIDR blocks.
*
*
* The owner of the peer VPC must accept the peering request to activate
* the peering connection. The VPC peering connection request expires
* after 7 days, after which it cannot be accepted or rejected.
*
*
* A CreateVpcPeeringConnection request between VPCs with
* overlapping CIDR blocks results in the VPC peering connection having a
* status of failed .
*
*
* @param createVpcPeeringConnectionRequest Container for the necessary
* parameters to execute the CreateVpcPeeringConnection service method on
* AmazonEC2.
*
* @return The response from the CreateVpcPeeringConnection service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateVpcPeeringConnectionResult createVpcPeeringConnection(CreateVpcPeeringConnectionRequest createVpcPeeringConnectionRequest) {
ExecutionContext executionContext = createExecutionContext(createVpcPeeringConnectionRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateVpcPeeringConnectionRequestMarshaller().marshall(super.beforeMarshalling(createVpcPeeringConnectionRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateVpcPeeringConnectionResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a route table for the specified VPC. After you create a route
* table, you can add routes and associate the table with a subnet.
*
*
* For more information about route tables, see
* Route Tables
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param createRouteTableRequest Container for the necessary parameters
* to execute the CreateRouteTable service method on AmazonEC2.
*
* @return The response from the CreateRouteTable service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateRouteTableResult createRouteTable(CreateRouteTableRequest createRouteTableRequest) {
ExecutionContext executionContext = createExecutionContext(createRouteTableRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateRouteTableRequestMarshaller().marshall(super.beforeMarshalling(createRouteTableRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateRouteTableResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Cancels an in-process import virtual machine or import snapshot task.
*
*
* @param cancelImportTaskRequest Container for the necessary parameters
* to execute the CancelImportTask service method on AmazonEC2.
*
* @return The response from the CancelImportTask service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CancelImportTaskResult cancelImportTask(CancelImportTaskRequest cancelImportTaskRequest) {
ExecutionContext executionContext = createExecutionContext(cancelImportTaskRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CancelImportTaskRequestMarshaller().marshall(super.beforeMarshalling(cancelImportTaskRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CancelImportTaskResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes the specified EBS volumes.
*
*
* If you are describing a long list of volumes, you can paginate the
* output to make the list more manageable. The MaxResults
* parameter sets the maximum number of results returned in a single
* page. If the list of results exceeds your MaxResults
* value, then that number of results is returned along with a
* NextToken value that can be passed to a subsequent
* DescribeVolumes request to retrieve the remaining
* results.
*
*
* For more information about EBS volumes, see
* Amazon EBS Volumes
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describeVolumesRequest Container for the necessary parameters
* to execute the DescribeVolumes service method on AmazonEC2.
*
* @return The response from the DescribeVolumes service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeVolumesResult describeVolumes(DescribeVolumesRequest describeVolumesRequest) {
ExecutionContext executionContext = createExecutionContext(describeVolumesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeVolumesRequestMarshaller().marshall(super.beforeMarshalling(describeVolumesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeVolumesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes your account's Reserved instance listings in the Reserved
* Instance Marketplace.
*
*
* The Reserved Instance Marketplace matches sellers who want to resell
* Reserved instance capacity that they no longer need with buyers who
* want to purchase additional capacity. Reserved instances bought and
* sold through the Reserved Instance Marketplace work like any other
* Reserved Instances.
*
*
* As a seller, you choose to list some or all of your Reserved
* instances, and you specify the upfront price to receive for them. Your
* Reserved instances are then listed in the Reserved Instance
* Marketplace and are available for purchase.
*
*
* As a buyer, you specify the configuration of the Reserved instance to
* purchase, and the Marketplace matches what you're searching for with
* what's available. The Marketplace first sells the lowest priced
* Reserved instances to you, and continues to sell available Reserved
* Instance listings to you until your demand is met. You are charged
* based on the total price of all of the listings that you purchase.
*
*
* For more information, see
* Reserved Instance Marketplace
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describeReservedInstancesListingsRequest Container for the
* necessary parameters to execute the DescribeReservedInstancesListings
* service method on AmazonEC2.
*
* @return The response from the DescribeReservedInstancesListings
* service method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeReservedInstancesListingsResult describeReservedInstancesListings(DescribeReservedInstancesListingsRequest describeReservedInstancesListingsRequest) {
ExecutionContext executionContext = createExecutionContext(describeReservedInstancesListingsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeReservedInstancesListingsRequestMarshaller().marshall(super.beforeMarshalling(describeReservedInstancesListingsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeReservedInstancesListingsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Submits feedback about the status of an instance. The instance must
* be in the running state. If your experience with the
* instance differs from the instance status returned by
* DescribeInstanceStatus, use ReportInstanceStatus to report your
* experience with the instance. Amazon EC2 collects this information to
* improve the accuracy of status checks.
*
*
* Use of this action does not change the value returned by
* DescribeInstanceStatus.
*
*
* @param reportInstanceStatusRequest Container for the necessary
* parameters to execute the ReportInstanceStatus service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void reportInstanceStatus(ReportInstanceStatusRequest reportInstanceStatusRequest) {
ExecutionContext executionContext = createExecutionContext(reportInstanceStatusRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ReportInstanceStatusRequestMarshaller().marshall(super.beforeMarshalling(reportInstanceStatusRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes one or more of your route tables.
*
*
* Each subnet in your VPC must be associated with a route table. If a
* subnet is not explicitly associated with any route table, it is
* implicitly associated with the main route table. This command does not
* return the subnet ID for implicit associations.
*
*
* For more information about route tables, see
* Route Tables
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param describeRouteTablesRequest Container for the necessary
* parameters to execute the DescribeRouteTables service method on
* AmazonEC2.
*
* @return The response from the DescribeRouteTables service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeRouteTablesResult describeRouteTables(DescribeRouteTablesRequest describeRouteTablesRequest) {
ExecutionContext executionContext = createExecutionContext(describeRouteTablesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeRouteTablesRequestMarshaller().marshall(super.beforeMarshalling(describeRouteTablesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeRouteTablesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your DHCP options sets.
*
*
* For more information about DHCP options sets, see
* DHCP Options Sets
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param describeDhcpOptionsRequest Container for the necessary
* parameters to execute the DescribeDhcpOptions service method on
* AmazonEC2.
*
* @return The response from the DescribeDhcpOptions service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeDhcpOptionsResult describeDhcpOptions(DescribeDhcpOptionsRequest describeDhcpOptionsRequest) {
ExecutionContext executionContext = createExecutionContext(describeDhcpOptionsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeDhcpOptionsRequestMarshaller().marshall(super.beforeMarshalling(describeDhcpOptionsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeDhcpOptionsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Enables monitoring for a running instance. For more information about
* monitoring instances, see
* Monitoring Your Instances and Volumes
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param monitorInstancesRequest Container for the necessary parameters
* to execute the MonitorInstances service method on AmazonEC2.
*
* @return The response from the MonitorInstances service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public MonitorInstancesResult monitorInstances(MonitorInstancesRequest monitorInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(monitorInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new MonitorInstancesRequestMarshaller().marshall(super.beforeMarshalling(monitorInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new MonitorInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes available AWS services in a prefix list format, which
* includes the prefix list name and prefix list ID of the service and
* the IP address range for the service. A prefix list ID is required for
* creating an outbound security group rule that allows traffic from a
* VPC to access an AWS service through a VPC endpoint.
*
*
* @param describePrefixListsRequest Container for the necessary
* parameters to execute the DescribePrefixLists service method on
* AmazonEC2.
*
* @return The response from the DescribePrefixLists service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribePrefixListsResult describePrefixLists(DescribePrefixListsRequest describePrefixListsRequest) {
ExecutionContext executionContext = createExecutionContext(describePrefixListsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribePrefixListsRequestMarshaller().marshall(super.beforeMarshalling(describePrefixListsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribePrefixListsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a Spot fleet request.
*
*
* You can submit a single request that includes multiple launch
* specifications that vary by instance type, AMI, Availability Zone, or
* subnet.
*
*
* By default, the Spot fleet requests Spot instances in the Spot pool
* where the price per unit is the lowest. Each launch specification can
* include its own instance weighting that reflects the value of the
* instance type to your application workload.
*
*
* Alternatively, you can specify that the Spot fleet distribute the
* target capacity across the Spot pools included in its launch
* specifications. By ensuring that the Spot instances in your Spot fleet
* are in different Spot pools, you can improve the availability of your
* fleet.
*
*
* For more information, see
* Spot Fleet Requests
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param requestSpotFleetRequest Container for the necessary parameters
* to execute the RequestSpotFleet service method on AmazonEC2.
*
* @return The response from the RequestSpotFleet service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public RequestSpotFleetResult requestSpotFleet(RequestSpotFleetRequest requestSpotFleetRequest) {
ExecutionContext executionContext = createExecutionContext(requestSpotFleetRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new RequestSpotFleetRequestMarshaller().marshall(super.beforeMarshalling(requestSpotFleetRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new RequestSpotFleetResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Displays details about an import virtual machine or import snapshot
* tasks that are already created.
*
*
* @param describeImportImageTasksRequest Container for the necessary
* parameters to execute the DescribeImportImageTasks service method on
* AmazonEC2.
*
* @return The response from the DescribeImportImageTasks service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeImportImageTasksResult describeImportImageTasks(DescribeImportImageTasksRequest describeImportImageTasksRequest) {
ExecutionContext executionContext = createExecutionContext(describeImportImageTasksRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeImportImageTasksRequestMarshaller().marshall(super.beforeMarshalling(describeImportImageTasksRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeImportImageTasksResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your network ACLs.
*
*
* For more information about network ACLs, see
* Network ACLs
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param describeNetworkAclsRequest Container for the necessary
* parameters to execute the DescribeNetworkAcls service method on
* AmazonEC2.
*
* @return The response from the DescribeNetworkAcls service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeNetworkAclsResult describeNetworkAcls(DescribeNetworkAclsRequest describeNetworkAclsRequest) {
ExecutionContext executionContext = createExecutionContext(describeNetworkAclsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeNetworkAclsRequestMarshaller().marshall(super.beforeMarshalling(describeNetworkAclsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeNetworkAclsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your bundling tasks.
*
*
* NOTE: Completed bundle tasks are listed for only a limited
* time. If your bundle task is no longer in the list, you can still
* register an AMI from it. Just use RegisterImage with the Amazon S3
* bucket name and image manifest name you provided to the bundle task.
*
*
* @param describeBundleTasksRequest Container for the necessary
* parameters to execute the DescribeBundleTasks service method on
* AmazonEC2.
*
* @return The response from the DescribeBundleTasks service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeBundleTasksResult describeBundleTasks(DescribeBundleTasksRequest describeBundleTasksRequest) {
ExecutionContext executionContext = createExecutionContext(describeBundleTasksRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeBundleTasksRequestMarshaller().marshall(super.beforeMarshalling(describeBundleTasksRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeBundleTasksResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates an import instance task using metadata from the specified
* disk image. ImportInstance only supports single-volume
* VMs. To import multi-volume VMs, use ImportImage. After importing the
* image, you then upload it using the ec2-import-volume
* command in the EC2 command line tools. For more information, see
* Using the Command Line Tools to Import Your Virtual Machine to Amazon EC2
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param importInstanceRequest Container for the necessary parameters to
* execute the ImportInstance service method on AmazonEC2.
*
* @return The response from the ImportInstance service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ImportInstanceResult importInstance(ImportInstanceRequest importInstanceRequest) {
ExecutionContext executionContext = createExecutionContext(importInstanceRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ImportInstanceRequestMarshaller().marshall(super.beforeMarshalling(importInstanceRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ImportInstanceResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Removes one or more ingress rules from a security group. The values
* that you specify in the revoke request (for example, ports) must match
* the existing rule's values for the rule to be removed.
*
*
* Each rule consists of the protocol and the CIDR range or source
* security group. For the TCP and UDP protocols, you must also specify
* the destination port or range of ports. For the ICMP protocol, you
* must also specify the ICMP type and code.
*
*
* Rule changes are propagated to instances within the security group as
* quickly as possible. However, a small delay might occur.
*
*
* @param revokeSecurityGroupIngressRequest Container for the necessary
* parameters to execute the RevokeSecurityGroupIngress service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void revokeSecurityGroupIngress(RevokeSecurityGroupIngressRequest revokeSecurityGroupIngressRequest) {
ExecutionContext executionContext = createExecutionContext(revokeSecurityGroupIngressRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new RevokeSecurityGroupIngressRequestMarshaller().marshall(super.beforeMarshalling(revokeSecurityGroupIngressRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Deletes a VPC peering connection. Either the owner of the requester
* VPC or the owner of the peer VPC can delete the VPC peering connection
* if it's in the active state. The owner of the requester
* VPC can delete a VPC peering connection in the
* pending-acceptance state.
*
*
* @param deleteVpcPeeringConnectionRequest Container for the necessary
* parameters to execute the DeleteVpcPeeringConnection service method on
* AmazonEC2.
*
* @return The response from the DeleteVpcPeeringConnection service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DeleteVpcPeeringConnectionResult deleteVpcPeeringConnection(DeleteVpcPeeringConnectionRequest deleteVpcPeeringConnectionRequest) {
ExecutionContext executionContext = createExecutionContext(deleteVpcPeeringConnectionRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteVpcPeeringConnectionRequestMarshaller().marshall(super.beforeMarshalling(deleteVpcPeeringConnectionRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DeleteVpcPeeringConnectionResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Gets the console output for the specified instance.
*
*
* Instances do not have a physical monitor through which you can view
* their console output. They also lack physical controls that allow you
* to power up, reboot, or shut them down. To allow these actions, we
* provide them through the Amazon EC2 API and command line interface.
*
*
* Instance console output is buffered and posted shortly after instance
* boot, reboot, and termination. Amazon EC2 preserves the most recent 64
* KB output which is available for at least one hour after the most
* recent post.
*
*
* For Linux instances, the instance console output displays the exact
* console output that would normally be displayed on a physical monitor
* attached to a computer. This output is buffered because the instance
* produces it and then posts it to a store where the instance's owner
* can retrieve it.
*
*
* For Windows instances, the instance console output includes output
* from the EC2Config service.
*
*
* @param getConsoleOutputRequest Container for the necessary parameters
* to execute the GetConsoleOutput service method on AmazonEC2.
*
* @return The response from the GetConsoleOutput service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public GetConsoleOutputResult getConsoleOutput(GetConsoleOutputRequest getConsoleOutputRequest) {
ExecutionContext executionContext = createExecutionContext(getConsoleOutputRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new GetConsoleOutputRequestMarshaller().marshall(super.beforeMarshalling(getConsoleOutputRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new GetConsoleOutputResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates an Internet gateway for use with a VPC. After creating the
* Internet gateway, you attach it to a VPC using AttachInternetGateway.
*
*
* For more information about your VPC and Internet gateway, see the
* Amazon Virtual Private Cloud User Guide
* .
*
*
* @param createInternetGatewayRequest Container for the necessary
* parameters to execute the CreateInternetGateway service method on
* AmazonEC2.
*
* @return The response from the CreateInternetGateway service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateInternetGatewayResult createInternetGateway(CreateInternetGatewayRequest createInternetGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(createInternetGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateInternetGatewayRequestMarshaller().marshall(super.beforeMarshalling(createInternetGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateInternetGatewayResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified static route associated with a VPN connection
* between an existing virtual private gateway and a VPN customer
* gateway. The static route allows traffic to be routed from the virtual
* private gateway to the VPN customer gateway.
*
*
* @param deleteVpnConnectionRouteRequest Container for the necessary
* parameters to execute the DeleteVpnConnectionRoute service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteVpnConnectionRoute(DeleteVpnConnectionRouteRequest deleteVpnConnectionRouteRequest) {
ExecutionContext executionContext = createExecutionContext(deleteVpnConnectionRouteRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteVpnConnectionRouteRequestMarshaller().marshall(super.beforeMarshalling(deleteVpnConnectionRouteRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Detaches a network interface from an instance.
*
*
* @param detachNetworkInterfaceRequest Container for the necessary
* parameters to execute the DetachNetworkInterface service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void detachNetworkInterface(DetachNetworkInterfaceRequest detachNetworkInterfaceRequest) {
ExecutionContext executionContext = createExecutionContext(detachNetworkInterfaceRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DetachNetworkInterfaceRequestMarshaller().marshall(super.beforeMarshalling(detachNetworkInterfaceRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Modifies the specified attribute of the specified AMI. You can
* specify only one attribute at a time.
*
*
* NOTE: AWS Marketplace product codes cannot be modified. Images
* with an AWS Marketplace product code cannot be made public.
*
*
* @param modifyImageAttributeRequest Container for the necessary
* parameters to execute the ModifyImageAttribute service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void modifyImageAttribute(ModifyImageAttributeRequest modifyImageAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(modifyImageAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyImageAttributeRequestMarshaller().marshall(super.beforeMarshalling(modifyImageAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Allocates a Dedicated host to your account. At minimum you need to
* specify the instance size type, Availability Zone, and quantity of
* hosts you want to allocate.
*
*
* @param allocateHostsRequest Container for the necessary parameters to
* execute the AllocateHosts service method on AmazonEC2.
*
* @return The response from the AllocateHosts service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public AllocateHostsResult allocateHosts(AllocateHostsRequest allocateHostsRequest) {
ExecutionContext executionContext = createExecutionContext(allocateHostsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AllocateHostsRequestMarshaller().marshall(super.beforeMarshalling(allocateHostsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new AllocateHostsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Provides information to AWS about your VPN customer gateway device.
* The customer gateway is the appliance at your end of the VPN
* connection. (The device on the AWS side of the VPN connection is the
* virtual private gateway.) You must provide the Internet-routable IP
* address of the customer gateway's external interface. The IP address
* must be static and may be behind a device performing network address
* translation (NAT).
*
*
* For devices that use Border Gateway Protocol (BGP), you can also
* provide the device's BGP Autonomous System Number (ASN). You can use
* an existing ASN assigned to your network. If you don't have an ASN
* already, you can use a private ASN (in the 64512 - 65534 range).
*
*
* NOTE: Amazon EC2 supports all 2-byte ASN numbers in the range
* of 1 - 65534, with the exception of 7224, which is reserved in the
* us-east-1 region, and 9059, which is reserved in the eu-west-1 region.
*
*
* For more information about VPN customer gateways, see
* Adding a Hardware Virtual Private Gateway to Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* IMPORTANT: You cannot create more than one customer gateway
* with the same VPN type, IP address, and BGP ASN parameter values. If
* you run an identical request more than one time, the first request
* creates the customer gateway, and subsequent requests return
* information about the existing customer gateway. The subsequent
* requests do not create new customer gateway resources.
*
*
* @param createCustomerGatewayRequest Container for the necessary
* parameters to execute the CreateCustomerGateway service method on
* AmazonEC2.
*
* @return The response from the CreateCustomerGateway service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateCustomerGatewayResult createCustomerGateway(CreateCustomerGatewayRequest createCustomerGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(createCustomerGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateCustomerGatewayRequestMarshaller().marshall(super.beforeMarshalling(createCustomerGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateCustomerGatewayResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a data feed for Spot instances, enabling you to view Spot
* instance usage logs. You can create one data feed per AWS account. For
* more information, see
* Spot Instance Data Feed
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param createSpotDatafeedSubscriptionRequest Container for the
* necessary parameters to execute the CreateSpotDatafeedSubscription
* service method on AmazonEC2.
*
* @return The response from the CreateSpotDatafeedSubscription service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateSpotDatafeedSubscriptionResult createSpotDatafeedSubscription(CreateSpotDatafeedSubscriptionRequest createSpotDatafeedSubscriptionRequest) {
ExecutionContext executionContext = createExecutionContext(createSpotDatafeedSubscriptionRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateSpotDatafeedSubscriptionRequestMarshaller().marshall(super.beforeMarshalling(createSpotDatafeedSubscriptionRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateSpotDatafeedSubscriptionResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Attaches an Internet gateway to a VPC, enabling connectivity between
* the Internet and the VPC. For more information about your VPC and
* Internet gateway, see the
* Amazon Virtual Private Cloud User Guide
* .
*
*
* @param attachInternetGatewayRequest Container for the necessary
* parameters to execute the AttachInternetGateway service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void attachInternetGateway(AttachInternetGatewayRequest attachInternetGatewayRequest) {
ExecutionContext executionContext = createExecutionContext(attachInternetGatewayRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AttachInternetGatewayRequestMarshaller().marshall(super.beforeMarshalling(attachInternetGatewayRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Deletes the specified VPN connection.
*
*
* If you're deleting the VPC and its associated components, we
* recommend that you detach the virtual private gateway from the VPC and
* delete the VPC before deleting the VPN connection. If you believe that
* the tunnel credentials for your VPN connection have been compromised,
* you can delete the VPN connection and create a new one that has new
* keys, without needing to delete the VPC or virtual private gateway. If
* you create a new VPN connection, you must reconfigure the customer
* gateway using the new configuration information returned with the new
* VPN connection ID.
*
*
* @param deleteVpnConnectionRequest Container for the necessary
* parameters to execute the DeleteVpnConnection service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteVpnConnection(DeleteVpnConnectionRequest deleteVpnConnectionRequest) {
ExecutionContext executionContext = createExecutionContext(deleteVpnConnectionRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteVpnConnectionRequestMarshaller().marshall(super.beforeMarshalling(deleteVpnConnectionRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Creates a VPN connection between an existing virtual private gateway
* and a VPN customer gateway. The only supported connection type is
* ipsec.1 .
*
*
* The response includes information that you need to give to your
* network administrator to configure your customer gateway.
*
*
* IMPORTANT: We strongly recommend that you use HTTPS when
* calling this operation because the response contains sensitive
* cryptographic information for configuring your customer gateway.
*
*
* If you decide to shut down your VPN connection for any reason and
* later create a new VPN connection, you must reconfigure your customer
* gateway with the new information returned from this call.
*
*
* For more information about VPN connections, see
* Adding a Hardware Virtual Private Gateway to Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param createVpnConnectionRequest Container for the necessary
* parameters to execute the CreateVpnConnection service method on
* AmazonEC2.
*
* @return The response from the CreateVpnConnection service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateVpnConnectionResult createVpnConnection(CreateVpnConnectionRequest createVpnConnectionRequest) {
ExecutionContext executionContext = createExecutionContext(createVpnConnectionRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateVpnConnectionRequestMarshaller().marshall(super.beforeMarshalling(createVpnConnectionRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateVpnConnectionResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your conversion tasks. For more information,
* see
* Using the Command Line Tools to Import Your Virtual Machine to Amazon EC2
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describeConversionTasksRequest Container for the necessary
* parameters to execute the DescribeConversionTasks service method on
* AmazonEC2.
*
* @return The response from the DescribeConversionTasks service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeConversionTasksResult describeConversionTasks(DescribeConversionTasksRequest describeConversionTasksRequest) {
ExecutionContext executionContext = createExecutionContext(describeConversionTasksRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeConversionTasksRequestMarshaller().marshall(super.beforeMarshalling(describeConversionTasksRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeConversionTasksResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes your Elastic IP addresses that are being moved to the
* EC2-VPC platform, or that are being restored to the EC2-Classic
* platform. This request does not return information about any other
* Elastic IP addresses in your account.
*
*
* @param describeMovingAddressesRequest Container for the necessary
* parameters to execute the DescribeMovingAddresses service method on
* AmazonEC2.
*
* @return The response from the DescribeMovingAddresses service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeMovingAddressesResult describeMovingAddresses(DescribeMovingAddressesRequest describeMovingAddressesRequest) {
ExecutionContext executionContext = createExecutionContext(describeMovingAddressesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeMovingAddressesRequestMarshaller().marshall(super.beforeMarshalling(describeMovingAddressesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeMovingAddressesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Import single or multi-volume disk images or EBS snapshots into an
* Amazon Machine Image (AMI).
*
*
* @param importImageRequest Container for the necessary parameters to
* execute the ImportImage service method on AmazonEC2.
*
* @return The response from the ImportImage service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ImportImageResult importImage(ImportImageRequest importImageRequest) {
ExecutionContext executionContext = createExecutionContext(importImageRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ImportImageRequestMarshaller().marshall(super.beforeMarshalling(importImageRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ImportImageResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Disables ClassicLink for a VPC. You cannot disable ClassicLink for a
* VPC that has EC2-Classic instances linked to it.
*
*
* @param disableVpcClassicLinkRequest Container for the necessary
* parameters to execute the DisableVpcClassicLink service method on
* AmazonEC2.
*
* @return The response from the DisableVpcClassicLink service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DisableVpcClassicLinkResult disableVpcClassicLink(DisableVpcClassicLinkRequest disableVpcClassicLinkRequest) {
ExecutionContext executionContext = createExecutionContext(disableVpcClassicLinkRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DisableVpcClassicLinkRequestMarshaller().marshall(super.beforeMarshalling(disableVpcClassicLinkRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DisableVpcClassicLinkResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes the specified attribute of the specified instance. You can
* specify only one attribute at a time. Valid attribute values are:
* instanceType | kernel | ramdisk
* | userData | disableApiTermination |
* instanceInitiatedShutdownBehavior |
* rootDeviceName | blockDeviceMapping |
* productCodes | sourceDestCheck |
* groupSet | ebsOptimized |
* sriovNetSupport
*
*
* @param describeInstanceAttributeRequest Container for the necessary
* parameters to execute the DescribeInstanceAttribute service method on
* AmazonEC2.
*
* @return The response from the DescribeInstanceAttribute service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeInstanceAttributeResult describeInstanceAttribute(DescribeInstanceAttributeRequest describeInstanceAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(describeInstanceAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeInstanceAttributeRequestMarshaller().marshall(super.beforeMarshalling(describeInstanceAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeInstanceAttributeResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more flow logs. To view the information in your flow
* logs (the log streams for the network interfaces), you must use the
* CloudWatch Logs console or the CloudWatch Logs API.
*
*
* @param describeFlowLogsRequest Container for the necessary parameters
* to execute the DescribeFlowLogs service method on AmazonEC2.
*
* @return The response from the DescribeFlowLogs service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeFlowLogsResult describeFlowLogs(DescribeFlowLogsRequest describeFlowLogsRequest) {
ExecutionContext executionContext = createExecutionContext(describeFlowLogsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeFlowLogsRequestMarshaller().marshall(super.beforeMarshalling(describeFlowLogsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeFlowLogsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your VPC peering connections.
*
*
* @param describeVpcPeeringConnectionsRequest Container for the
* necessary parameters to execute the DescribeVpcPeeringConnections
* service method on AmazonEC2.
*
* @return The response from the DescribeVpcPeeringConnections service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeVpcPeeringConnectionsResult describeVpcPeeringConnections(DescribeVpcPeeringConnectionsRequest describeVpcPeeringConnectionsRequest) {
ExecutionContext executionContext = createExecutionContext(describeVpcPeeringConnectionsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeVpcPeeringConnectionsRequestMarshaller().marshall(super.beforeMarshalling(describeVpcPeeringConnectionsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeVpcPeeringConnectionsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Launches the specified number of instances using an AMI for which you
* have permissions.
*
*
* When you launch an instance, it enters the pending
* state. After the instance is ready for you, it enters the
* running state. To check the state of your instance, call
* DescribeInstances.
*
*
* If you don't specify a security group when launching an instance,
* Amazon EC2 uses the default security group. For more information, see
* Security Groups
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* [EC2-VPC only accounts] If you don't specify a subnet in the request,
* we choose a default subnet from your default VPC for you.
*
*
* [EC2-Classic accounts] If you're launching into EC2-Classic and you
* don't specify an Availability Zone, we choose one for you.
*
*
* Linux instances have access to the public key of the key pair at
* boot. You can use this key to provide secure access to the instance.
* Amazon EC2 public images use this feature to provide secure access
* without passwords. For more information, see
* Key Pairs
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* You can provide optional user data when launching an instance. For
* more information, see
* Instance Metadata
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* If any of the AMIs have a product code attached for which the user
* has not subscribed, RunInstances fails.
*
*
* T2 instance types can only be launched into a VPC. If you do not have
* a default VPC, or if you do not specify a subnet ID in the request,
* RunInstances fails.
*
*
* For more information about troubleshooting, see
* What To Do If An Instance Immediately Terminates , and Troubleshooting Connecting to Your Instance
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param runInstancesRequest Container for the necessary parameters to
* execute the RunInstances service method on AmazonEC2.
*
* @return The response from the RunInstances service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public RunInstancesResult runInstances(RunInstancesRequest runInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(runInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new RunInstancesRequestMarshaller().marshall(super.beforeMarshalling(runInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new RunInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your subnets.
*
*
* For more information about subnets, see
* Your VPC and Subnets
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param describeSubnetsRequest Container for the necessary parameters
* to execute the DescribeSubnets service method on AmazonEC2.
*
* @return The response from the DescribeSubnets service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeSubnetsResult describeSubnets(DescribeSubnetsRequest describeSubnetsRequest) {
ExecutionContext executionContext = createExecutionContext(describeSubnetsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeSubnetsRequestMarshaller().marshall(super.beforeMarshalling(describeSubnetsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeSubnetsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your placement groups. For more information
* about placement groups and cluster instances, see
* Cluster Instances
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describePlacementGroupsRequest Container for the necessary
* parameters to execute the DescribePlacementGroups service method on
* AmazonEC2.
*
* @return The response from the DescribePlacementGroups service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribePlacementGroupsResult describePlacementGroups(DescribePlacementGroupsRequest describePlacementGroupsRequest) {
ExecutionContext executionContext = createExecutionContext(describePlacementGroupsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribePlacementGroupsRequestMarshaller().marshall(super.beforeMarshalling(describePlacementGroupsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribePlacementGroupsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Associates a subnet with a route table. The subnet and route table
* must be in the same VPC. This association causes traffic originating
* from the subnet to be routed according to the routes in the route
* table. The action returns an association ID, which you need in order
* to disassociate the route table from the subnet later. A route table
* can be associated with multiple subnets.
*
*
* For more information about route tables, see
* Route Tables
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param associateRouteTableRequest Container for the necessary
* parameters to execute the AssociateRouteTable service method on
* AmazonEC2.
*
* @return The response from the AssociateRouteTable service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public AssociateRouteTableResult associateRouteTable(AssociateRouteTableRequest associateRouteTableRequest) {
ExecutionContext executionContext = createExecutionContext(associateRouteTableRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AssociateRouteTableRequestMarshaller().marshall(super.beforeMarshalling(associateRouteTableRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new AssociateRouteTableResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your instances.
*
*
* If you specify one or more instance IDs, Amazon EC2 returns
* information for those instances. If you do not specify instance IDs,
* Amazon EC2 returns information for all relevant instances. If you
* specify an instance ID that is not valid, an error is returned. If you
* specify an instance that you do not own, it is not included in the
* returned results.
*
*
* Recently terminated instances might appear in the returned results.
* This interval is usually less than one hour.
*
*
* @param describeInstancesRequest Container for the necessary parameters
* to execute the DescribeInstances service method on AmazonEC2.
*
* @return The response from the DescribeInstances service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeInstancesResult describeInstances(DescribeInstancesRequest describeInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(describeInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeInstancesRequestMarshaller().marshall(super.beforeMarshalling(describeInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Modifies a volume attribute.
*
*
* By default, all I/O operations for the volume are suspended when the
* data on the volume is determined to be potentially inconsistent, to
* prevent undetectable, latent data corruption. The I/O access to the
* volume can be resumed by first enabling I/O access and then checking
* the data consistency on your volume.
*
*
* You can change the default behavior to resume I/O operations. We
* recommend that you change this only for boot volumes or for volumes
* that are stateless or disposable.
*
*
* @param modifyVolumeAttributeRequest Container for the necessary
* parameters to execute the ModifyVolumeAttribute service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void modifyVolumeAttribute(ModifyVolumeAttributeRequest modifyVolumeAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(modifyVolumeAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyVolumeAttributeRequestMarshaller().marshall(super.beforeMarshalling(modifyVolumeAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Deletes the specified network ACL. You can't delete the ACL if it's
* associated with any subnets. You can't delete the default network ACL.
*
*
* @param deleteNetworkAclRequest Container for the necessary parameters
* to execute the DeleteNetworkAcl service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteNetworkAcl(DeleteNetworkAclRequest deleteNetworkAclRequest) {
ExecutionContext executionContext = createExecutionContext(deleteNetworkAclRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteNetworkAclRequestMarshaller().marshall(super.beforeMarshalling(deleteNetworkAclRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes one or more of the images (AMIs, AKIs, and ARIs) available
* to you. Images available to you include public images, private images
* that you own, and private images owned by other AWS accounts but for
* which you have explicit launch permissions.
*
*
* NOTE: Deregistered images are included in the returned results
* for an unspecified interval after deregistration.
*
*
* @param describeImagesRequest Container for the necessary parameters to
* execute the DescribeImages service method on AmazonEC2.
*
* @return The response from the DescribeImages service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeImagesResult describeImages(DescribeImagesRequest describeImagesRequest) {
ExecutionContext executionContext = createExecutionContext(describeImagesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeImagesRequestMarshaller().marshall(super.beforeMarshalling(describeImagesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeImagesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Starts an Amazon EBS-backed AMI that you've previously stopped.
*
*
* Instances that use Amazon EBS volumes as their root devices can be
* quickly stopped and started. When an instance is stopped, the compute
* resources are released and you are not billed for hourly instance
* usage. However, your root partition Amazon EBS volume remains,
* continues to persist your data, and you are charged for Amazon EBS
* volume usage. You can restart your instance at any time. Each time you
* transition an instance from stopped to started, Amazon EC2 charges a
* full instance hour, even if transitions happen multiple times within a
* single hour.
*
*
* Before stopping an instance, make sure it is in a state from which it
* can be restarted. Stopping an instance does not preserve data stored
* in RAM.
*
*
* Performing this operation on an instance that uses an instance store
* as its root device returns an error.
*
*
* For more information, see
* Stopping Instances
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param startInstancesRequest Container for the necessary parameters to
* execute the StartInstances service method on AmazonEC2.
*
* @return The response from the StartInstances service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public StartInstancesResult startInstances(StartInstancesRequest startInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(startInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new StartInstancesRequestMarshaller().marshall(super.beforeMarshalling(startInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new StartInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Modifies the specified attribute of the specified instance. You can
* specify only one attribute at a time.
*
*
* To modify some attributes, the instance must be stopped. For more
* information, see
* Modifying Attributes of a Stopped Instance
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param modifyInstanceAttributeRequest Container for the necessary
* parameters to execute the ModifyInstanceAttribute service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void modifyInstanceAttribute(ModifyInstanceAttributeRequest modifyInstanceAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(modifyInstanceAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyInstanceAttributeRequestMarshaller().marshall(super.beforeMarshalling(modifyInstanceAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Cancels the specified Reserved instance listing in the Reserved
* Instance Marketplace.
*
*
* For more information, see
* Reserved Instance Marketplace
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param cancelReservedInstancesListingRequest Container for the
* necessary parameters to execute the CancelReservedInstancesListing
* service method on AmazonEC2.
*
* @return The response from the CancelReservedInstancesListing service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CancelReservedInstancesListingResult cancelReservedInstancesListing(CancelReservedInstancesListingRequest cancelReservedInstancesListingRequest) {
ExecutionContext executionContext = createExecutionContext(cancelReservedInstancesListingRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CancelReservedInstancesListingRequestMarshaller().marshall(super.beforeMarshalling(cancelReservedInstancesListingRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CancelReservedInstancesListingResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Deletes the specified set of DHCP options. You must disassociate the
* set of DHCP options before you can delete it. You can disassociate the
* set of DHCP options by associating either a new set of options or the
* default set of options with the VPC.
*
*
* @param deleteDhcpOptionsRequest Container for the necessary parameters
* to execute the DeleteDhcpOptions service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteDhcpOptions(DeleteDhcpOptionsRequest deleteDhcpOptionsRequest) {
ExecutionContext executionContext = createExecutionContext(deleteDhcpOptionsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteDhcpOptionsRequestMarshaller().marshall(super.beforeMarshalling(deleteDhcpOptionsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Adds one or more ingress rules to a security group.
*
*
* IMPORTANT: EC2-Classic: You can have up to 100 rules per
* group. EC2-VPC: You can have up to 50 rules per group (covering both
* ingress and egress rules).
*
*
* Rule changes are propagated to instances within the security group as
* quickly as possible. However, a small delay might occur.
*
*
* [EC2-Classic] This action gives one or more CIDR IP address ranges
* permission to access a security group in your account, or gives one or
* more security groups (called the source groups ) permission to
* access a security group for your account. A source group can be for
* your own AWS account, or another.
*
*
* [EC2-VPC] This action gives one or more CIDR IP address ranges
* permission to access a security group in your VPC, or gives one or
* more other security groups (called the source groups )
* permission to access a security group for your VPC. The security
* groups must all be for the same VPC.
*
*
* @param authorizeSecurityGroupIngressRequest Container for the
* necessary parameters to execute the AuthorizeSecurityGroupIngress
* service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void authorizeSecurityGroupIngress(AuthorizeSecurityGroupIngressRequest authorizeSecurityGroupIngressRequest) {
ExecutionContext executionContext = createExecutionContext(authorizeSecurityGroupIngressRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AuthorizeSecurityGroupIngressRequestMarshaller().marshall(super.beforeMarshalling(authorizeSecurityGroupIngressRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes the Spot instance requests that belong to your account.
* Spot instances are instances that Amazon EC2 launches when the bid
* price that you specify exceeds the current Spot price. Amazon EC2
* periodically sets the Spot price based on available Spot instance
* capacity and current Spot instance requests. For more information, see
* Spot Instance Requests
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* You can use DescribeSpotInstanceRequests to find a
* running Spot instance by examining the response. If the status of the
* Spot instance is fulfilled , the instance ID appears in
* the response and contains the identifier of the instance.
* Alternatively, you can use DescribeInstances with a filter to look for
* instances where the instance lifecycle is spot .
*
*
* @param describeSpotInstanceRequestsRequest Container for the necessary
* parameters to execute the DescribeSpotInstanceRequests service method
* on AmazonEC2.
*
* @return The response from the DescribeSpotInstanceRequests service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeSpotInstanceRequestsResult describeSpotInstanceRequests(DescribeSpotInstanceRequestsRequest describeSpotInstanceRequestsRequest) {
ExecutionContext executionContext = createExecutionContext(describeSpotInstanceRequestsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeSpotInstanceRequestsRequestMarshaller().marshall(super.beforeMarshalling(describeSpotInstanceRequestsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeSpotInstanceRequestsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a VPC with the specified CIDR block.
*
*
* The smallest VPC you can create uses a /28 netmask (16 IP addresses),
* and the largest uses a /16 netmask (65,536 IP addresses). To help you
* decide how big to make your VPC, see
* Your VPC and Subnets
* in the Amazon Virtual Private Cloud User Guide .
*
*
* By default, each instance you launch in the VPC has the default DHCP
* options, which includes only a default DNS server that we provide
* (AmazonProvidedDNS). For more information about DHCP options, see
* DHCP Options Sets
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param createVpcRequest Container for the necessary parameters to
* execute the CreateVpc service method on AmazonEC2.
*
* @return The response from the CreateVpc service method, as returned by
* AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateVpcResult createVpc(CreateVpcRequest createVpcRequest) {
ExecutionContext executionContext = createExecutionContext(createVpcRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateVpcRequestMarshaller().marshall(super.beforeMarshalling(createVpcRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateVpcResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your VPN customer gateways.
*
*
* For more information about VPN customer gateways, see
* Adding a Hardware Virtual Private Gateway to Your VPC
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param describeCustomerGatewaysRequest Container for the necessary
* parameters to execute the DescribeCustomerGateways service method on
* AmazonEC2.
*
* @return The response from the DescribeCustomerGateways service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeCustomerGatewaysResult describeCustomerGateways(DescribeCustomerGatewaysRequest describeCustomerGatewaysRequest) {
ExecutionContext executionContext = createExecutionContext(describeCustomerGatewaysRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeCustomerGatewaysRequestMarshaller().marshall(super.beforeMarshalling(describeCustomerGatewaysRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeCustomerGatewaysResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Cancels an active export task. The request removes all artifacts of
* the export, including any partially-created Amazon S3 objects. If the
* export task is complete or is in the process of transferring the final
* disk image, the command fails and returns an error.
*
*
* @param cancelExportTaskRequest Container for the necessary parameters
* to execute the CancelExportTask service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void cancelExportTask(CancelExportTaskRequest cancelExportTaskRequest) {
ExecutionContext executionContext = createExecutionContext(cancelExportTaskRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CancelExportTaskRequestMarshaller().marshall(super.beforeMarshalling(cancelExportTaskRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Creates a route in a route table within a VPC.
*
*
* You must specify one of the following targets: Internet gateway or
* virtual private gateway, NAT instance, VPC peering connection, or
* network interface.
*
*
* When determining how to route traffic, we use the route with the most
* specific match. For example, let's say the traffic is destined for
* 192.0.2.3 , and the route table includes the following
* two routes:
*
*
*
* -
* 192.0.2.0/24 (goes to some target A)
*
*
* -
* 192.0.2.0/28 (goes to some target B)
*
*
*
*
*
* Both routes apply to the traffic destined for 192.0.2.3
* . However, the second route in the list covers a smaller number of IP
* addresses and is therefore more specific, so we use that route to
* determine where to target the traffic.
*
*
* For more information about route tables, see
* Route Tables
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param createRouteRequest Container for the necessary parameters to
* execute the CreateRoute service method on AmazonEC2.
*
* @return The response from the CreateRoute service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateRouteResult createRoute(CreateRouteRequest createRouteRequest) {
ExecutionContext executionContext = createExecutionContext(createRouteRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateRouteRequestMarshaller().marshall(super.beforeMarshalling(createRouteRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateRouteResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a VPC endpoint for a specified AWS service. An endpoint
* enables you to create a private connection between your VPC and
* another AWS service in your account. You can specify an endpoint
* policy to attach to the endpoint that will control access to the
* service from your VPC. You can also specify the VPC route tables that
* use the endpoint.
*
*
* Currently, only endpoints to Amazon S3 are supported.
*
*
* @param createVpcEndpointRequest Container for the necessary parameters
* to execute the CreateVpcEndpoint service method on AmazonEC2.
*
* @return The response from the CreateVpcEndpoint service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CreateVpcEndpointResult createVpcEndpoint(CreateVpcEndpointRequest createVpcEndpointRequest) {
ExecutionContext executionContext = createExecutionContext(createVpcEndpointRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateVpcEndpointRequestMarshaller().marshall(super.beforeMarshalling(createVpcEndpointRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CreateVpcEndpointResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Initiates the copy of an AMI from the specified source region to the
* current region. You specify the destination region by using its
* endpoint when making the request. AMIs that use encrypted EBS
* snapshots cannot be copied with this method.
*
*
* For more information, see
* Copying AMIs
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param copyImageRequest Container for the necessary parameters to
* execute the CopyImage service method on AmazonEC2.
*
* @return The response from the CopyImage service method, as returned by
* AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CopyImageResult copyImage(CopyImageRequest copyImageRequest) {
ExecutionContext executionContext = createExecutionContext(copyImageRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CopyImageRequestMarshaller().marshall(super.beforeMarshalling(copyImageRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CopyImageResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes the ClassicLink status of one or more VPCs.
*
*
* @param describeVpcClassicLinkRequest Container for the necessary
* parameters to execute the DescribeVpcClassicLink service method on
* AmazonEC2.
*
* @return The response from the DescribeVpcClassicLink service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeVpcClassicLinkResult describeVpcClassicLink(DescribeVpcClassicLinkRequest describeVpcClassicLinkRequest) {
ExecutionContext executionContext = createExecutionContext(describeVpcClassicLinkRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeVpcClassicLinkRequestMarshaller().marshall(super.beforeMarshalling(describeVpcClassicLinkRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeVpcClassicLinkResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Modifies the specified network interface attribute. You can specify
* only one attribute at a time.
*
*
* @param modifyNetworkInterfaceAttributeRequest Container for the
* necessary parameters to execute the ModifyNetworkInterfaceAttribute
* service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void modifyNetworkInterfaceAttribute(ModifyNetworkInterfaceAttributeRequest modifyNetworkInterfaceAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(modifyNetworkInterfaceAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyNetworkInterfaceAttributeRequestMarshaller().marshall(super.beforeMarshalling(modifyNetworkInterfaceAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Deletes the specified route table. You must disassociate the route
* table from any subnets before you can delete it. You can't delete the
* main route table.
*
*
* @param deleteRouteTableRequest Container for the necessary parameters
* to execute the DeleteRouteTable service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void deleteRouteTable(DeleteRouteTableRequest deleteRouteTableRequest) {
ExecutionContext executionContext = createExecutionContext(deleteRouteTableRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DeleteRouteTableRequestMarshaller().marshall(super.beforeMarshalling(deleteRouteTableRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes a network interface attribute. You can specify only one
* attribute at a time.
*
*
* @param describeNetworkInterfaceAttributeRequest Container for the
* necessary parameters to execute the DescribeNetworkInterfaceAttribute
* service method on AmazonEC2.
*
* @return The response from the DescribeNetworkInterfaceAttribute
* service method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeNetworkInterfaceAttributeResult describeNetworkInterfaceAttribute(DescribeNetworkInterfaceAttributeRequest describeNetworkInterfaceAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(describeNetworkInterfaceAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeNetworkInterfaceAttributeRequestMarshaller().marshall(super.beforeMarshalling(describeNetworkInterfaceAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeNetworkInterfaceAttributeResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes one or more of your linked EC2-Classic instances. This
* request only returns information about EC2-Classic instances linked to
* a VPC through ClassicLink; you cannot use this request to return
* information about other instances.
*
*
* @param describeClassicLinkInstancesRequest Container for the necessary
* parameters to execute the DescribeClassicLinkInstances service method
* on AmazonEC2.
*
* @return The response from the DescribeClassicLinkInstances service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeClassicLinkInstancesResult describeClassicLinkInstances(DescribeClassicLinkInstancesRequest describeClassicLinkInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(describeClassicLinkInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeClassicLinkInstancesRequestMarshaller().marshall(super.beforeMarshalling(describeClassicLinkInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeClassicLinkInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Creates a Spot instance request. Spot instances are instances that
* Amazon EC2 launches when the bid price that you specify exceeds the
* current Spot price. Amazon EC2 periodically sets the Spot price based
* on available Spot Instance capacity and current Spot instance
* requests. For more information, see
* Spot Instance Requests
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param requestSpotInstancesRequest Container for the necessary
* parameters to execute the RequestSpotInstances service method on
* AmazonEC2.
*
* @return The response from the RequestSpotInstances service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public RequestSpotInstancesResult requestSpotInstances(RequestSpotInstancesRequest requestSpotInstancesRequest) {
ExecutionContext executionContext = createExecutionContext(requestSpotInstancesRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new RequestSpotInstancesRequestMarshaller().marshall(super.beforeMarshalling(requestSpotInstancesRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new RequestSpotInstancesResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Adds or overwrites one or more tags for the specified Amazon EC2
* resource or resources. Each resource can have a maximum of 10 tags.
* Each tag consists of a key and optional value. Tag keys must be unique
* per resource.
*
*
* For more information about tags, see
* Tagging Your Resources in the Amazon Elastic Compute Cloud User Guide . For more information about creating IAM policies that control users' access to resources based on tags, see Supported Resource-Level Permissions for Amazon EC2 API Actions
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param createTagsRequest Container for the necessary parameters to
* execute the CreateTags service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void createTags(CreateTagsRequest createTagsRequest) {
ExecutionContext executionContext = createExecutionContext(createTagsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CreateTagsRequestMarshaller().marshall(super.beforeMarshalling(createTagsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes the specified attribute of the specified volume. You can
* specify only one attribute at a time.
*
*
* For more information about EBS volumes, see
* Amazon EBS Volumes
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describeVolumeAttributeRequest Container for the necessary
* parameters to execute the DescribeVolumeAttribute service method on
* AmazonEC2.
*
* @return The response from the DescribeVolumeAttribute service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeVolumeAttributeResult describeVolumeAttribute(DescribeVolumeAttributeRequest describeVolumeAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(describeVolumeAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeVolumeAttributeRequestMarshaller().marshall(super.beforeMarshalling(describeVolumeAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeVolumeAttributeResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Attaches a network interface to an instance.
*
*
* @param attachNetworkInterfaceRequest Container for the necessary
* parameters to execute the AttachNetworkInterface service method on
* AmazonEC2.
*
* @return The response from the AttachNetworkInterface service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public AttachNetworkInterfaceResult attachNetworkInterface(AttachNetworkInterfaceRequest attachNetworkInterfaceRequest) {
ExecutionContext executionContext = createExecutionContext(attachNetworkInterfaceRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new AttachNetworkInterfaceRequestMarshaller().marshall(super.beforeMarshalling(attachNetworkInterfaceRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new AttachNetworkInterfaceResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Important: This command is reserved for future use, and is
* currently not available for you to use.
*
*
* Modifies the ID format for the specified resource. You can specify
* that resources should receive longer IDs (17-character IDs) when they
* are created. The following resource types support longer IDs:
* instance | reservation .
*
*
* This setting applies to the IAM user who makes the request; it does
* not apply to the entire AWS account. By default, an IAM user defaults
* to the same settings as the root user, unless they explicitly override
* the settings by running this request. These settings are applied on a
* per-region basis.
*
*
* @param modifyIdFormatRequest Container for the necessary parameters to
* execute the ModifyIdFormat service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void modifyIdFormat(ModifyIdFormatRequest modifyIdFormatRequest) {
ExecutionContext executionContext = createExecutionContext(modifyIdFormatRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyIdFormatRequestMarshaller().marshall(super.beforeMarshalling(modifyIdFormatRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Replaces an existing route within a route table in a VPC. You must
* provide only one of the following: Internet gateway or virtual private
* gateway, NAT instance, VPC peering connection, or network interface.
*
*
* For more information about route tables, see
* Route Tables
* in the Amazon Virtual Private Cloud User Guide .
*
*
* @param replaceRouteRequest Container for the necessary parameters to
* execute the ReplaceRoute service method on AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void replaceRoute(ReplaceRouteRequest replaceRouteRequest) {
ExecutionContext executionContext = createExecutionContext(replaceRouteRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ReplaceRouteRequestMarshaller().marshall(super.beforeMarshalling(replaceRouteRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Describes one or more of the tags for your EC2 resources.
*
*
* For more information about tags, see
* Tagging Your Resources
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param describeTagsRequest Container for the necessary parameters to
* execute the DescribeTags service method on AmazonEC2.
*
* @return The response from the DescribeTags service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeTagsResult describeTags(DescribeTagsRequest describeTagsRequest) {
ExecutionContext executionContext = createExecutionContext(describeTagsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeTagsRequestMarshaller().marshall(super.beforeMarshalling(describeTagsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeTagsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Cancels a bundling operation for an instance store-backed Windows
* instance.
*
*
* @param cancelBundleTaskRequest Container for the necessary parameters
* to execute the CancelBundleTask service method on AmazonEC2.
*
* @return The response from the CancelBundleTask service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CancelBundleTaskResult cancelBundleTask(CancelBundleTaskRequest cancelBundleTaskRequest) {
ExecutionContext executionContext = createExecutionContext(cancelBundleTaskRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CancelBundleTaskRequestMarshaller().marshall(super.beforeMarshalling(cancelBundleTaskRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CancelBundleTaskResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Disables a virtual private gateway (VGW) from propagating routes to a
* specified route table of a VPC.
*
*
* @param disableVgwRoutePropagationRequest Container for the necessary
* parameters to execute the DisableVgwRoutePropagation service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void disableVgwRoutePropagation(DisableVgwRoutePropagationRequest disableVgwRoutePropagationRequest) {
ExecutionContext executionContext = createExecutionContext(disableVgwRoutePropagationRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DisableVgwRoutePropagationRequestMarshaller().marshall(super.beforeMarshalling(disableVgwRoutePropagationRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Modifies the specified Spot fleet request.
*
*
* While the Spot fleet request is being modified, it is in the
* modifying state.
*
*
* To scale up your Spot fleet, increase its target capacity. The Spot
* fleet launches the additional Spot instances according to the
* allocation strategy for the Spot fleet request. If the allocation
* strategy is lowestPrice , the Spot fleet launches
* instances using the Spot pool with the lowest price. If the allocation
* strategy is diversified , the Spot fleet distributes the
* instances across the Spot pools.
*
*
* To scale down your Spot fleet, decrease its target capacity. First,
* the Spot fleet cancels any open bids that exceed the new target
* capacity. You can request that the Spot fleet terminate Spot instances
* until the size of the fleet no longer exceeds the new target capacity.
* If the allocation strategy is lowestPrice , the Spot
* fleet terminates the instances with the highest price per unit. If the
* allocation strategy is diversified , the Spot fleet
* terminates instances across the Spot pools. Alternatively, you can
* request that the Spot fleet keep the fleet at its current size, but
* not replace any Spot instances that are interrupted or that you
* terminate manually.
*
*
* @param modifySpotFleetRequestRequest Container for the necessary
* parameters to execute the ModifySpotFleetRequest service method on
* AmazonEC2.
*
* @return The response from the ModifySpotFleetRequest service method,
* as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ModifySpotFleetRequestResult modifySpotFleetRequest(ModifySpotFleetRequestRequest modifySpotFleetRequestRequest) {
ExecutionContext executionContext = createExecutionContext(modifySpotFleetRequestRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifySpotFleetRequestRequestMarshaller().marshall(super.beforeMarshalling(modifySpotFleetRequestRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ModifySpotFleetRequestResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Imports a disk into an EBS snapshot.
*
*
* @param importSnapshotRequest Container for the necessary parameters to
* execute the ImportSnapshot service method on AmazonEC2.
*
* @return The response from the ImportSnapshot service method, as
* returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ImportSnapshotResult importSnapshot(ImportSnapshotRequest importSnapshotRequest) {
ExecutionContext executionContext = createExecutionContext(importSnapshotRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ImportSnapshotRequestMarshaller().marshall(super.beforeMarshalling(importSnapshotRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ImportSnapshotResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Cancels one or more Spot instance requests. Spot instances are
* instances that Amazon EC2 starts on your behalf when the bid price
* that you specify exceeds the current Spot price. Amazon EC2
* periodically sets the Spot price based on available Spot instance
* capacity and current Spot instance requests. For more information, see
* Spot Instance Requests
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* IMPORTANT: Canceling a Spot instance request does not
* terminate running Spot instances associated with the request.
*
*
* @param cancelSpotInstanceRequestsRequest Container for the necessary
* parameters to execute the CancelSpotInstanceRequests service method on
* AmazonEC2.
*
* @return The response from the CancelSpotInstanceRequests service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public CancelSpotInstanceRequestsResult cancelSpotInstanceRequests(CancelSpotInstanceRequestsRequest cancelSpotInstanceRequestsRequest) {
ExecutionContext executionContext = createExecutionContext(cancelSpotInstanceRequestsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new CancelSpotInstanceRequestsRequestMarshaller().marshall(super.beforeMarshalling(cancelSpotInstanceRequestsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new CancelSpotInstanceRequestsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes your Spot fleet requests.
*
*
* @param describeSpotFleetRequestsRequest Container for the necessary
* parameters to execute the DescribeSpotFleetRequests service method on
* AmazonEC2.
*
* @return The response from the DescribeSpotFleetRequests service
* method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeSpotFleetRequestsResult describeSpotFleetRequests(DescribeSpotFleetRequestsRequest describeSpotFleetRequestsRequest) {
ExecutionContext executionContext = createExecutionContext(describeSpotFleetRequestsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeSpotFleetRequestsRequestMarshaller().marshall(super.beforeMarshalling(describeSpotFleetRequestsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeSpotFleetRequestsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Purchases a Reserved instance for use with your account. With Amazon
* EC2 Reserved instances, you obtain a capacity reservation for a
* certain instance configuration over a specified period of time and pay
* a lower hourly rate compared to On-Demand Instance pricing.
*
*
* Use DescribeReservedInstancesOfferings to get a list of Reserved
* instance offerings that match your specifications. After you've
* purchased a Reserved instance, you can check for your new Reserved
* instance with DescribeReservedInstances.
*
*
* For more information, see
* Reserved Instances and Reserved Instance Marketplace
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* @param purchaseReservedInstancesOfferingRequest Container for the
* necessary parameters to execute the PurchaseReservedInstancesOffering
* service method on AmazonEC2.
*
* @return The response from the PurchaseReservedInstancesOffering
* service method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public PurchaseReservedInstancesOfferingResult purchaseReservedInstancesOffering(PurchaseReservedInstancesOfferingRequest purchaseReservedInstancesOfferingRequest) {
ExecutionContext executionContext = createExecutionContext(purchaseReservedInstancesOfferingRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new PurchaseReservedInstancesOfferingRequestMarshaller().marshall(super.beforeMarshalling(purchaseReservedInstancesOfferingRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new PurchaseReservedInstancesOfferingResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Adds or removes permission settings for the specified snapshot. You
* may add or remove specified AWS account IDs from a snapshot's list of
* create volume permissions, but you cannot do both in a single API
* call. If you need to both add and remove account IDs for a snapshot,
* you must use multiple API calls.
*
*
* For more information on modifying snapshot permissions, see
* Sharing Snapshots
* in the Amazon Elastic Compute Cloud User Guide .
*
*
* NOTE: Snapshots with AWS Marketplace product codes cannot be
* made public.
*
*
* @param modifySnapshotAttributeRequest Container for the necessary
* parameters to execute the ModifySnapshotAttribute service method on
* AmazonEC2.
*
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public void modifySnapshotAttribute(ModifySnapshotAttributeRequest modifySnapshotAttributeRequest) {
ExecutionContext executionContext = createExecutionContext(modifySnapshotAttributeRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
Request request = null;
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifySnapshotAttributeRequestMarshaller().marshall(super.beforeMarshalling(modifySnapshotAttributeRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
invoke(request, null, executionContext);
} finally {
endClientExecution(awsRequestMetrics, request, null);
}
}
/**
*
* Modify the auto-placement setting of a Dedicated host. When
* auto-placement is enabled, AWS will place instances that you launch
* with a tenancy of host , but without targeting a specific
* host ID, onto any available Dedicated host in your account which has
* auto-placement enabled. When auto-placement is disabled, you need to
* provide a host ID if you want the instance to launch onto a specific
* host. If no host ID is provided, the instance will be launched onto a
* suitable host which has auto-placement enabled.
*
*
* @param modifyHostsRequest Container for the necessary parameters to
* execute the ModifyHosts service method on AmazonEC2.
*
* @return The response from the ModifyHosts service method, as returned
* by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public ModifyHostsResult modifyHosts(ModifyHostsRequest modifyHostsRequest) {
ExecutionContext executionContext = createExecutionContext(modifyHostsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new ModifyHostsRequestMarshaller().marshall(super.beforeMarshalling(modifyHostsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new ModifyHostsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Describes the modifications made to your Reserved instances. If no
* parameter is specified, information about all your Reserved Instances
* modification requests is returned. If a modification ID is specified,
* only information about the specific modification is returned.
*
*
* For more information, see
* Modifying Reserved Instances
* in the Amazon Elastic Compute Cloud User Guide.
*
*
* @param describeReservedInstancesModificationsRequest Container for the
* necessary parameters to execute the
* DescribeReservedInstancesModifications service method on AmazonEC2.
*
* @return The response from the DescribeReservedInstancesModifications
* service method, as returned by AmazonEC2.
*
*
* @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 AmazonEC2 indicating
* either a problem with the data in the request, or a server side issue.
*/
public DescribeReservedInstancesModificationsResult describeReservedInstancesModifications(DescribeReservedInstancesModificationsRequest describeReservedInstancesModificationsRequest) {
ExecutionContext executionContext = createExecutionContext(describeReservedInstancesModificationsRequest);
AWSRequestMetrics awsRequestMetrics = executionContext.getAwsRequestMetrics();
awsRequestMetrics.startEvent(Field.ClientExecuteTime);
Request request = null;
Response response = null;
try {
awsRequestMetrics.startEvent(Field.RequestMarshallTime);
try {
request = new DescribeReservedInstancesModificationsRequestMarshaller().marshall(super.beforeMarshalling(describeReservedInstancesModificationsRequest));
// Binds the request metrics to the current request.
request.setAWSRequestMetrics(awsRequestMetrics);
} finally {
awsRequestMetrics.endEvent(Field.RequestMarshallTime);
}
response = invoke(request, new DescribeReservedInstancesModificationsResultStaxUnmarshaller(), executionContext);
return response.getAwsResponse();
} finally {
endClientExecution(awsRequestMetrics, request, response);
}
}
/**
*
* Shuts down one or more instances. This operation is idempotent; if
* you terminate an instance more than once, each call succeeds.
*
*
* Terminated instances remain visible after termination (for
* approximately one hour).
*
*
* By default, Amazon EC2 deletes all EBS volumes that were attached
* when the instance launched. Volumes attached after instance launch
* continue running.
*
*
* You can stop, start, and terminate EBS-backed instances. You can only
* terminate instance store-backed instances. What happens to an instance
* differs if you stop it or terminate it. For example, when you stop an
* instance, the root device and any other devices attached to the
* instance persist. When you terminate an instance, any attached EBS
* volumes with the